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author | Case Duckworth | 2024-01-17 00:24:11 -0600 |
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committer | Case Duckworth | 2024-01-17 00:24:11 -0600 |
commit | 8179c0025a44a769ab6ad2e5c0a58f545517280c (patch) | |
tree | 8de19b673bbddbfcbb03c7d2363ca937ccf4aa3b /ref/libX11.txt | |
parent | Update .gitignore (diff) | |
download | acdwm-8179c0025a44a769ab6ad2e5c0a58f545517280c.tar.gz acdwm-8179c0025a44a769ab6ad2e5c0a58f545517280c.zip |
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1 | Xlib - C Language X Interface | ||
2 | |||
3 | X Consortium Standard | ||
4 | |||
5 | James Gettys | ||
6 | |||
7 | Digital Equipment Corporation | ||
8 | Cambridge Research Laboratory | ||
9 | |||
10 | Robert W. Scheifler | ||
11 | |||
12 | Massachusetts Institute of Technology | ||
13 | Laboratory for Computer Science | ||
14 | |||
15 | Chuck Adams | ||
16 | |||
17 | Tektronix, Inc. | ||
18 | |||
19 | Vania Joloboff | ||
20 | |||
21 | Open Software Foundation | ||
22 | |||
23 | Hideki Hiura | ||
24 | |||
25 | Sun Microsystems, Inc. | ||
26 | |||
27 | Bill McMahon | ||
28 | |||
29 | Hewlett-Packard Company | ||
30 | |||
31 | Ron Newman | ||
32 | |||
33 | Massachusetts Institute of Technology | ||
34 | |||
35 | Al Tabayoyon | ||
36 | |||
37 | Tektronix, Inc. | ||
38 | |||
39 | Glenn Widener | ||
40 | |||
41 | Tektronix, Inc. | ||
42 | |||
43 | Shigeru Yamada | ||
44 | |||
45 | Fujitsu OSSI | ||
46 | |||
47 | X Version 11, Release 7.7 | ||
48 | |||
49 | Copyright © 1985, 1986, 1987, 1988, 1989, 1991, 1994, 1996, | ||
50 | 2002 The Open Group | ||
51 | |||
52 | Permission is hereby granted, free of charge, to any person | ||
53 | obtaining a copy of this software and associated documentation | ||
54 | files (the "Software"), to deal in the Software without | ||
55 | restriction, including without limitation the rights to use, | ||
56 | copy, modify, merge, publish, distribute, sublicense, and/or | ||
57 | sell copies of the Software, and to permit persons to whom the | ||
58 | Software is furnished to do so, subject to the following | ||
59 | conditions: | ||
60 | |||
61 | The above copyright notice and this permission notice shall be | ||
62 | included in all copies or substantial portions of the Software. | ||
63 | |||
64 | THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, | ||
65 | EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES | ||
66 | OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND | ||
67 | NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR | ||
68 | ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF | ||
69 | CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN | ||
70 | CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN | ||
71 | THE SOFTWARE. | ||
72 | |||
73 | Except as contained in this notice, the name of The Open Group | ||
74 | shall not be used in advertising or otherwise to promote the | ||
75 | sale, use or other dealings in this Software without prior | ||
76 | written authorization from The Open Group. | ||
77 | |||
78 | Copyright © 1985, 1986, 1987, 1988, 1989, 1991 Digital | ||
79 | Equipment Corporation | ||
80 | |||
81 | Permission to use, copy, modify and distribute this | ||
82 | documentation for any purpose and without fee is hereby | ||
83 | granted, provided that the above copyright notice appears in | ||
84 | all copies and that both that copyright notice and this | ||
85 | permission notice appear in supporting documentation, and that | ||
86 | the names of Digital and Tetronix not be used in in advertising | ||
87 | or publicity pertaining to distribution of the software without | ||
88 | specific, written prior permission. Digital and Tetronix make | ||
89 | no representations about the suitability of the software | ||
90 | described herein for any purpose. It is provided "as is" | ||
91 | without express or implied warranty. | ||
92 | |||
93 | TekHVC is a trademark of Tektronix, Inc. | ||
94 | __________________________________________________________ | ||
95 | |||
96 | Table of Contents | ||
97 | |||
98 | Acknowledgments | ||
99 | 1. Introduction to Xlib | ||
100 | |||
101 | Overview of the X Window System | ||
102 | Errors | ||
103 | Standard Header Files | ||
104 | Generic Values and Types | ||
105 | Naming and Argument Conventions within Xlib | ||
106 | Programming Considerations | ||
107 | Character Sets and Encodings | ||
108 | Formatting Conventions | ||
109 | |||
110 | 2. Display Functions | ||
111 | |||
112 | Opening the Display | ||
113 | Obtaining Information about the Display, Image Formats, or | ||
114 | Screens | ||
115 | |||
116 | Display Macros | ||
117 | Image Format Functions and Macros | ||
118 | Screen Information Macros | ||
119 | |||
120 | Generating a NoOperation Protocol Request | ||
121 | Freeing Client-Created Data | ||
122 | Closing the Display | ||
123 | Using X Server Connection Close Operations | ||
124 | Using Xlib with Threads | ||
125 | Using Internal Connections | ||
126 | |||
127 | 3. Window Functions | ||
128 | |||
129 | Visual Types | ||
130 | Window Attributes | ||
131 | |||
132 | Background Attribute | ||
133 | Border Attribute | ||
134 | Gravity Attributes | ||
135 | Backing Store Attribute | ||
136 | Save Under Flag | ||
137 | Backing Planes and Backing Pixel Attributes | ||
138 | Event Mask and Do Not Propagate Mask Attributes | ||
139 | Override Redirect Flag | ||
140 | Colormap Attribute | ||
141 | Cursor Attribute | ||
142 | |||
143 | Creating Windows | ||
144 | Destroying Windows | ||
145 | Mapping Windows | ||
146 | Unmapping Windows | ||
147 | Configuring Windows | ||
148 | Changing Window Stacking Order | ||
149 | Changing Window Attributes | ||
150 | |||
151 | 4. Window Information Functions | ||
152 | |||
153 | Obtaining Window Information | ||
154 | Translating Screen Coordinates | ||
155 | Properties and Atoms | ||
156 | Obtaining and Changing Window Properties | ||
157 | Selections | ||
158 | |||
159 | 5. Pixmap and Cursor Functions | ||
160 | |||
161 | Creating and Freeing Pixmaps | ||
162 | Creating, Recoloring, and Freeing Cursors | ||
163 | |||
164 | 6. Color Management Functions | ||
165 | |||
166 | Color Structures | ||
167 | Color Strings | ||
168 | |||
169 | RGB Device String Specification | ||
170 | RGB Intensity String Specification | ||
171 | Device-Independent String Specifications | ||
172 | |||
173 | Color Conversion Contexts and Gamut Mapping | ||
174 | Creating, Copying, and Destroying Colormaps | ||
175 | Mapping Color Names to Values | ||
176 | Allocating and Freeing Color Cells | ||
177 | Modifying and Querying Colormap Cells | ||
178 | Color Conversion Context Functions | ||
179 | |||
180 | Getting and Setting the Color Conversion Context of | ||
181 | a Colormap | ||
182 | |||
183 | Obtaining the Default Color Conversion Context | ||
184 | Color Conversion Context Macros | ||
185 | Modifying Attributes of a Color Conversion Context | ||
186 | Creating and Freeing a Color Conversion Context | ||
187 | |||
188 | Converting between Color Spaces | ||
189 | Callback Functions | ||
190 | |||
191 | Prototype Gamut Compression Procedure | ||
192 | Supplied Gamut Compression Procedures | ||
193 | Prototype White Point Adjustment Procedure | ||
194 | Supplied White Point Adjustment Procedures | ||
195 | |||
196 | Gamut Querying Functions | ||
197 | |||
198 | Red, Green, and Blue Queries | ||
199 | CIELab Queries | ||
200 | CIELuv Queries | ||
201 | TekHVC Queries | ||
202 | |||
203 | Color Management Extensions | ||
204 | |||
205 | Color Spaces | ||
206 | Adding Device-Independent Color Spaces | ||
207 | Querying Color Space Format and Prefix | ||
208 | Creating Additional Color Spaces | ||
209 | Parse String Callback | ||
210 | Color Specification Conversion Callback | ||
211 | Function Sets | ||
212 | Adding Function Sets | ||
213 | Creating Additional Function Sets | ||
214 | |||
215 | 7. Graphics Context Functions | ||
216 | |||
217 | Manipulating Graphics Context/State | ||
218 | Using Graphics Context Convenience Routines | ||
219 | |||
220 | Setting the Foreground, Background, Function, or | ||
221 | Plane Mask | ||
222 | |||
223 | Setting the Line Attributes and Dashes | ||
224 | Setting the Fill Style and Fill Rule | ||
225 | Setting the Fill Tile and Stipple | ||
226 | Setting the Current Font | ||
227 | Setting the Clip Region | ||
228 | Setting the Arc Mode, Subwindow Mode, and Graphics | ||
229 | Exposure | ||
230 | |||
231 | 8. Graphics Functions | ||
232 | |||
233 | Clearing Areas | ||
234 | Copying Areas | ||
235 | Drawing Points, Lines, Rectangles, and Arcs | ||
236 | |||
237 | Drawing Single and Multiple Points | ||
238 | Drawing Single and Multiple Lines | ||
239 | Drawing Single and Multiple Rectangles | ||
240 | Drawing Single and Multiple Arcs | ||
241 | |||
242 | Filling Areas | ||
243 | |||
244 | Filling Single and Multiple Rectangles | ||
245 | Filling a Single Polygon | ||
246 | Filling Single and Multiple Arcs | ||
247 | |||
248 | Font Metrics | ||
249 | |||
250 | Loading and Freeing Fonts | ||
251 | Obtaining and Freeing Font Names and Information | ||
252 | Computing Character String Sizes | ||
253 | Computing Logical Extents | ||
254 | Querying Character String Sizes | ||
255 | |||
256 | Drawing Text | ||
257 | |||
258 | Drawing Complex Text | ||
259 | Drawing Text Characters | ||
260 | Drawing Image Text Characters | ||
261 | |||
262 | Transferring Images between Client and Server | ||
263 | |||
264 | 9. Window and Session Manager Functions | ||
265 | |||
266 | Changing the Parent of a Window | ||
267 | Controlling the Lifetime of a Window | ||
268 | Managing Installed Colormaps | ||
269 | Setting and Retrieving the Font Search Path | ||
270 | Grabbing the Server | ||
271 | Killing Clients | ||
272 | Controlling the Screen Saver | ||
273 | Controlling Host Access | ||
274 | |||
275 | Adding, Getting, or Removing Hosts | ||
276 | Changing, Enabling, or Disabling Access Control | ||
277 | |||
278 | 10. Events | ||
279 | |||
280 | Event Types | ||
281 | Event Structures | ||
282 | Event Masks | ||
283 | Event Processing Overview | ||
284 | Keyboard and Pointer Events | ||
285 | |||
286 | Pointer Button Events | ||
287 | Keyboard and Pointer Events | ||
288 | |||
289 | Window Entry/Exit Events | ||
290 | |||
291 | Normal Entry/Exit Events | ||
292 | Grab and Ungrab Entry/Exit Events | ||
293 | |||
294 | Input Focus Events | ||
295 | |||
296 | Normal Focus Events and Focus Events While Grabbed | ||
297 | Focus Events Generated by Grabs | ||
298 | |||
299 | Key Map State Notification Events | ||
300 | Exposure Events | ||
301 | |||
302 | Expose Events | ||
303 | GraphicsExpose and NoExpose Events | ||
304 | |||
305 | Window State Change Events | ||
306 | |||
307 | CirculateNotify Events | ||
308 | ConfigureNotify Events | ||
309 | CreateNotify Events | ||
310 | DestroyNotify Events | ||
311 | GravityNotify Events | ||
312 | MapNotify Events | ||
313 | MappingNotify Events | ||
314 | ReparentNotify Events | ||
315 | UnmapNotify Events | ||
316 | VisibilityNotify Events | ||
317 | |||
318 | Structure Control Events | ||
319 | |||
320 | CirculateRequest Events | ||
321 | ConfigureRequest Events | ||
322 | MapRequest Events | ||
323 | ResizeRequest Events | ||
324 | |||
325 | Colormap State Change Events | ||
326 | Client Communication Events | ||
327 | |||
328 | ClientMessage Events | ||
329 | PropertyNotify Events | ||
330 | SelectionClear Events | ||
331 | SelectionRequest Events | ||
332 | SelectionNotify Events | ||
333 | |||
334 | 11. Event Handling Functions | ||
335 | |||
336 | Selecting Events | ||
337 | Handling the Output Buffer | ||
338 | Event Queue Management | ||
339 | Manipulating the Event Queue | ||
340 | |||
341 | Returning the Next Event | ||
342 | Selecting Events Using a Predicate Procedure | ||
343 | Selecting Events Using a Window or Event Mask | ||
344 | |||
345 | Putting an Event Back into the Queue | ||
346 | Sending Events to Other Applications | ||
347 | Getting Pointer Motion History | ||
348 | Handling Protocol Errors | ||
349 | |||
350 | Enabling or Disabling Synchronization | ||
351 | Using the Default Error Handlers | ||
352 | |||
353 | 12. Input Device Functions | ||
354 | |||
355 | Pointer Grabbing | ||
356 | Keyboard Grabbing | ||
357 | Resuming Event Processing | ||
358 | Moving the Pointer | ||
359 | Controlling Input Focus | ||
360 | Manipulating the Keyboard and Pointer Settings | ||
361 | Manipulating the Keyboard Encoding | ||
362 | |||
363 | 13. Locales and Internationalized Text Functions | ||
364 | |||
365 | X Locale Management | ||
366 | Locale and Modifier Dependencies | ||
367 | Variable Argument Lists | ||
368 | Output Methods | ||
369 | |||
370 | Output Method Overview | ||
371 | Output Method Functions | ||
372 | X Output Method Values | ||
373 | Output Context Functions | ||
374 | Output Context Values | ||
375 | Creating and Freeing a Font Set | ||
376 | Obtaining Font Set Metrics | ||
377 | Drawing Text Using Font Sets | ||
378 | |||
379 | Input Methods | ||
380 | |||
381 | Input Method Overview | ||
382 | Input Method Management | ||
383 | Input Method Functions | ||
384 | Input Method Values | ||
385 | Input Context Functions | ||
386 | Input Context Values | ||
387 | Input Method Callback Semantics | ||
388 | Event Filtering | ||
389 | Getting Keyboard Input | ||
390 | Input Method Conventions | ||
391 | |||
392 | String Constants | ||
393 | |||
394 | 14. Inter-Client Communication Functions | ||
395 | |||
396 | Client to Window Manager Communication | ||
397 | |||
398 | Manipulating Top-Level Windows | ||
399 | Converting String Lists | ||
400 | Setting and Reading Text Properties | ||
401 | Setting and Reading the WM_NAME Property | ||
402 | Setting and Reading the WM_ICON_NAME Property | ||
403 | Setting and Reading the WM_HINTS Property | ||
404 | Setting and Reading the WM_NORMAL_HINTS Property | ||
405 | Setting and Reading the WM_CLASS Property | ||
406 | Setting and Reading the WM_TRANSIENT_FOR Property | ||
407 | Setting and Reading the WM_PROTOCOLS Property | ||
408 | Setting and Reading the WM_COLORMAP_WINDOWS Property | ||
409 | Setting and Reading the WM_ICON_SIZE Property | ||
410 | Using Window Manager Convenience Functions | ||
411 | |||
412 | Client to Session Manager Communication | ||
413 | |||
414 | Setting and Reading the WM_COMMAND Property | ||
415 | Setting and Reading the WM_CLIENT_MACHINE Property | ||
416 | |||
417 | Standard Colormaps | ||
418 | |||
419 | Standard Colormap Properties and Atoms | ||
420 | Setting and Obtaining Standard Colormaps | ||
421 | |||
422 | 15. Resource Manager Functions | ||
423 | |||
424 | Resource File Syntax | ||
425 | Resource Manager Matching Rules | ||
426 | Quarks | ||
427 | Creating and Storing Databases | ||
428 | Merging Resource Databases | ||
429 | Looking Up Resources | ||
430 | Storing into a Resource Database | ||
431 | Enumerating Database Entries | ||
432 | Parsing Command Line Options | ||
433 | |||
434 | 16. Application Utility Functions | ||
435 | |||
436 | Using Keyboard Utility Functions | ||
437 | |||
438 | KeySym Classification Macros | ||
439 | |||
440 | Using Latin-1 Keyboard Event Functions | ||
441 | Allocating Permanent Storage | ||
442 | Parsing the Window Geometry | ||
443 | Manipulating Regions | ||
444 | |||
445 | Creating, Copying, or Destroying Regions | ||
446 | Moving or Shrinking Regions | ||
447 | Computing with Regions | ||
448 | Determining if Regions Are Empty or Equal | ||
449 | Locating a Point or a Rectangle in a Region | ||
450 | |||
451 | Using Cut Buffers | ||
452 | Determining the Appropriate Visual Type | ||
453 | Manipulating Images | ||
454 | Manipulating Bitmaps | ||
455 | Using the Context Manager | ||
456 | |||
457 | A. Xlib Functions and Protocol Requests | ||
458 | B. X Font Cursors | ||
459 | C. Extensions | ||
460 | |||
461 | Basic Protocol Support Routines | ||
462 | Hooking into Xlib | ||
463 | |||
464 | Hooks into the Library | ||
465 | Hooks onto Xlib Data Structures | ||
466 | |||
467 | GC Caching | ||
468 | Graphics Batching | ||
469 | Writing Extension Stubs | ||
470 | |||
471 | Requests, Replies, and Xproto.h | ||
472 | Request Format | ||
473 | Starting to Write a Stub Procedure | ||
474 | Locking Data Structures | ||
475 | Sending the Protocol Request and Arguments | ||
476 | Variable Length Arguments | ||
477 | Replies | ||
478 | Synchronous Calling | ||
479 | Allocating and Deallocating Memory | ||
480 | Portability Considerations | ||
481 | Deriving the Correct Extension Opcode | ||
482 | |||
483 | D. Compatibility Functions | ||
484 | |||
485 | X Version 11 Compatibility Functions | ||
486 | |||
487 | Setting Standard Properties | ||
488 | Setting and Getting Window Sizing Hints | ||
489 | Getting and Setting an XStandardColormap Structure | ||
490 | Parsing Window Geometry | ||
491 | Getting the X Environment Defaults | ||
492 | |||
493 | X Version 10 Compatibility Functions | ||
494 | |||
495 | Drawing and Filling Polygons and Curves | ||
496 | Associating User Data with a Value | ||
497 | |||
498 | Glossary | ||
499 | Index | ||
500 | |||
501 | List of Tables | ||
502 | |||
503 | A.1. Protocol requests made by each Xlib function | ||
504 | A.2. Xlib functions which use each Protocol Request | ||
505 | |||
506 | Acknowledgments | ||
507 | |||
508 | The design and implementation of the first 10 versions of X | ||
509 | were primarily the work of three individuals: Robert Scheifler | ||
510 | of the MIT Laboratory for Computer Science and Jim Gettys of | ||
511 | Digital Equipment Corporation and Ron Newman of MIT, both at | ||
512 | MIT Project Athena. X version 11, however, is the result of the | ||
513 | efforts of dozens of individuals at almost as many locations | ||
514 | and organizations. At the risk of offending some of the players | ||
515 | by exclusion, we would like to acknowledge some of the people | ||
516 | who deserve special credit and recognition for their work on | ||
517 | Xlib. Our apologies to anyone inadvertently overlooked. | ||
518 | |||
519 | Release 1 | ||
520 | |||
521 | Our thanks does to Ron Newman (MIT Project Athena), who | ||
522 | contributed substantially to the design and implementation of | ||
523 | the Version 11 Xlib interface. | ||
524 | |||
525 | Our thanks also goes to Ralph Swick (Project Athena and | ||
526 | Digital) who kept it all together for us during the early | ||
527 | releases. He handled literally thousands of requests from | ||
528 | people everywhere and saved the sanity of at least one of us. | ||
529 | His calm good cheer was a foundation on which we could build. | ||
530 | |||
531 | Our thanks also goes to Todd Brunhoff (Tektronix) who was | ||
532 | ``loaned'' to Project Athena at exactly the right moment to | ||
533 | provide very capable and much-needed assistance during the | ||
534 | alpha and beta releases. He was responsible for the successful | ||
535 | integration of sources from multiple sites; we would not have | ||
536 | had a release without him. | ||
537 | |||
538 | Our thanks also goes to Al Mento and Al Wojtas of Digital's | ||
539 | ULTRIX Documentation Group. With good humor and cheer, they | ||
540 | took a rough draft and made it an infinitely better and more | ||
541 | useful document. The work they have done will help many | ||
542 | everywhere. We also would like to thank Hal Murray (Digital | ||
543 | SRC) and Peter George (Digital VMS) who contributed much by | ||
544 | proofreading the early drafts of this document. | ||
545 | |||
546 | Our thanks also goes to Jeff Dike (Digital UEG), Tom Benson, | ||
547 | Jackie Granfield, and Vince Orgovan (Digital VMS) who helped | ||
548 | with the library utilities implementation; to Hania Gajewska | ||
549 | (Digital UEG-WSL) who, along with Ellis Cohen (CMU and | ||
550 | Siemens), was instrumental in the semantic design of the window | ||
551 | manager properties; and to Dave Rosenthal (Sun Microsystems) | ||
552 | who also contributed to the protocol and provided the sample | ||
553 | generic color frame buffer device-dependent code. | ||
554 | |||
555 | The alpha and beta test participants deserve special | ||
556 | recognition and thanks as well. It is significant that the bug | ||
557 | reports (and many fixes) during alpha and beta test came almost | ||
558 | exclusively from just a few of the alpha testers, mostly | ||
559 | hardware vendors working on product implementations of X. The | ||
560 | continued public contribution of vendors and universities is | ||
561 | certainly to the benefit of the entire X community. | ||
562 | |||
563 | Our special thanks must go to Sam Fuller, Vice-President of | ||
564 | Corporate Research at Digital, who has remained committed to | ||
565 | the widest public availability of X and who made it possible to | ||
566 | greatly supplement MIT's resources with the Digital staff in | ||
567 | order to make version 11 a reality. Many of the people | ||
568 | mentioned here are part of the Western Software Laboratory | ||
569 | (Digital UEG-WSL) of the ULTRIX Engineering group and work for | ||
570 | Smokey Wallace, who has been vital to the project's success. | ||
571 | Others not mentioned here worked on the toolkit and are | ||
572 | acknowledged in the X Toolkit documentation. | ||
573 | |||
574 | Of course, we must particularly thank Paul Asente, formerly of | ||
575 | Stanford University and now of Digital UEG-WSL, who wrote W, | ||
576 | the predecessor to X, and Brian Reid, formerly of Stanford | ||
577 | University and now of Digital WRL, who had much to do with W's | ||
578 | design. | ||
579 | |||
580 | Finally, our thanks goes to MIT, Digital Equipment Corporation, | ||
581 | and IBM for providing the environment where it could happen. | ||
582 | |||
583 | Release 4 | ||
584 | |||
585 | Our thanks go to Jim Fulton (MIT X Consortium) for designing | ||
586 | and specifying the new Xlib functions for Inter-Client | ||
587 | Communication Conventions (ICCCM) support. | ||
588 | |||
589 | We also thank Al Mento of Digital for his continued effort in | ||
590 | maintaining this document and Jim Fulton and Donna Converse | ||
591 | (MIT X Consortium) for their much-appreciated efforts in | ||
592 | reviewing the changes. | ||
593 | |||
594 | Release 5 | ||
595 | |||
596 | The principal authors of the Input Method facilities are Vania | ||
597 | Joloboff (Open Software Foundation) and Bill McMahon | ||
598 | (Hewlett-Packard). The principal author of the rest of the | ||
599 | internationalization facilities is Glenn Widener (Tektronix). | ||
600 | Our thanks to them for keeping their sense of humor through a | ||
601 | long and sometimes difficult design process. Although the words | ||
602 | and much of the design are due to them, many others have | ||
603 | contributed substantially to the design and implementation. Tom | ||
604 | McFarland (HP) and Frank Rojas (IBM) deserve particular | ||
605 | recognition for their contributions. Other contributors were: | ||
606 | Tim Anderson (Motorola), Alka Badshah (OSF), Gabe Beged-Dov | ||
607 | (HP), Chih-Chung Ko (III), Vera Cheng (III), Michael Collins | ||
608 | (Digital), Walt Daniels (IBM), Noritoshi Demizu (OMRON), | ||
609 | Keisuke Fukui (Fujitsu), Hitoshoi Fukumoto (Nihon Sun), Tim | ||
610 | Greenwood (Digital), John Harvey (IBM), Hideki Hiura (Sun), | ||
611 | Fred Horman (AT&T), Norikazu Kaiya (Fujitsu), Yuji Kamata | ||
612 | (IBM), Yutaka Kataoka (Waseda University), Ranee Khubchandani | ||
613 | (Sun), Akira Kon (NEC), Hiroshi Kuribayashi (OMRON), Teruhiko | ||
614 | Kurosaka (Sun), Seiji Kuwari (OMRON), Sandra Martin (OSF), | ||
615 | Narita Masahiko (Fujitsu), Masato Morisaki (NTT), Nelson Ng | ||
616 | (Sun), Takashi Nishimura (NTT America), Makato Nishino (IBM), | ||
617 | Akira Ohsone (Nihon Sun), Chris Peterson (MIT), Sam Shteingart | ||
618 | (AT&T), Manish Sheth (AT&T), Muneiyoshi Suzuki (NTT), Cori | ||
619 | Mehring (Digital), Shoji Sugiyama (IBM), and Eiji Tosa (IBM). | ||
620 | |||
621 | We are deeply indebted to Tatsuya Kato (NTT), Hiroshi | ||
622 | Kuribayashi (OMRON), Seiji Kuwari (OMRON), Muneiyoshi Suzuki | ||
623 | (NTT), and Li Yuhong (OMRON) for producing one of the first | ||
624 | complete sample implementation of the internationalization | ||
625 | facilities, and Hiromu Inukai (Nihon Sun), Takashi Fujiwara | ||
626 | (Fujitsu), Hideki Hiura (Sun), Yasuhiro Kawai (Oki | ||
627 | Technosystems Laboratory), Kazunori Nishihara (Fuji Xerox), | ||
628 | Masaki Takeuchi (Sony), Katsuhisa Yano (Toshiba), Makoto | ||
629 | Wakamatsu (Sony Corporation) for producing the another complete | ||
630 | sample implementation of the internationalization facilities. | ||
631 | |||
632 | The principal authors (design and implementation) of the Xcms | ||
633 | color management facilities are Al Tabayoyon (Tektronix) and | ||
634 | Chuck Adams (Tektronix). Joann Taylor (Tektronix), Bob Toole | ||
635 | (Tektronix), and Keith Packard (MIT X Consortium) also | ||
636 | contributed significantly to the design. Others who contributed | ||
637 | are: Harold Boll (Kodak), Ken Bronstein (HP), Nancy Cam (SGI), | ||
638 | Donna Converse (MIT X Consortium), Elias Israel (ISC), Deron | ||
639 | Johnson (Sun), Jim King (Adobe), Ricardo Motta (HP), Chuck Peek | ||
640 | (IBM), Wil Plouffe (IBM), Dave Sternlicht (MIT X Consortium), | ||
641 | Kumar Talluri (AT&T), and Richard Verberg (IBM). | ||
642 | |||
643 | We also once again thank Al Mento of Digital for his work in | ||
644 | formatting and reformatting text for this manual, and for | ||
645 | producing man pages. Thanks also to Clive Feather (IXI) for | ||
646 | proof-reading and finding a number of small errors. | ||
647 | |||
648 | Release 6 | ||
649 | |||
650 | Stephen Gildea (X Consortium) authored the threads support. | ||
651 | Ovais Ashraf (Sun) and Greg Olsen (Sun) contributed | ||
652 | substantially by testing the facilities and reporting bugs in a | ||
653 | timely fashion. | ||
654 | |||
655 | The principal authors of the internationalization facilities, | ||
656 | including Input and Output Methods, are Hideki Hiura (SunSoft) | ||
657 | and Shigeru Yamada (Fujitsu OSSI). Although the words and much | ||
658 | of the design are due to them, many others have contributed | ||
659 | substantially to the design and implementation. They are: | ||
660 | Takashi Fujiwara (Fujitsu), Yoshio Horiuchi (IBM), Makoto Inada | ||
661 | (Digital), Hiromu Inukai (Nihon SunSoft), Song JaeKyung | ||
662 | (KAIST), Franky Ling (Digital), Tom McFarland (HP), Hiroyuki | ||
663 | Miyamoto (Digital), Masahiko Narita (Fujitsu), Frank Rojas | ||
664 | (IBM), Hidetoshi Tajima (HP), Masaki Takeuchi (Sony), Makoto | ||
665 | Wakamatsu (Sony), Masaki Wakao (IBM), Katsuhisa Yano(Toshiba) | ||
666 | and Jinsoo Yoon (KAIST). | ||
667 | |||
668 | The principal producers of the sample implementation of the | ||
669 | internationalization facilities are: Jeffrey Bloomfield | ||
670 | (Fujitsu OSSI), Takashi Fujiwara (Fujitsu), Hideki Hiura | ||
671 | (SunSoft), Yoshio Horiuchi (IBM), Makoto Inada (Digital), | ||
672 | Hiromu Inukai (Nihon SunSoft), Song JaeKyung (KAIST), Riki | ||
673 | Kawaguchi (Fujitsu), Franky Ling (Digital), Hiroyuki Miyamoto | ||
674 | (Digital), Hidetoshi Tajima (HP), Toshimitsu Terazono | ||
675 | (Fujitsu), Makoto Wakamatsu (Sony), Masaki Wakao (IBM), Shigeru | ||
676 | Yamada (Fujitsu OSSI) and Katsuhisa Yano (Toshiba). | ||
677 | |||
678 | The coordinators of the integration, testing, and release of | ||
679 | this implementation of the internationalization facilities are | ||
680 | Nobuyuki Tanaka (Sony) and Makoto Wakamatsu (Sony). | ||
681 | |||
682 | Others who have contributed to the architectural design or | ||
683 | testing of the sample implementation of the | ||
684 | internationalization facilities are: Hector Chan (Digital), | ||
685 | Michael Kung (IBM), Joseph Kwok (Digital), Hiroyuki Machida | ||
686 | (Sony), Nelson Ng (SunSoft), Frank Rojas (IBM), Yoshiyuki | ||
687 | Segawa (Fujitsu OSSI), Makiko Shimamura (Fujitsu), Shoji | ||
688 | Sugiyama (IBM), Lining Sun (SGI), Masaki Takeuchi (Sony), | ||
689 | Jinsoo Yoon (KAIST) and Akiyasu Zen (HP). | ||
690 | |||
691 | Jim Gettys | ||
692 | Cambridge Research Laboratory | ||
693 | Digital Equipment Corporation | ||
694 | Robert W. Scheifler | ||
695 | Laboratory for Computer Science | ||
696 | Massachusetts Institute of Technology | ||
697 | |||
698 | Release 7 | ||
699 | |||
700 | This document is made available to you in modern formats such | ||
701 | as HTML and PDF thanks to the efforts of Matt Dew, who | ||
702 | converted the original troff sources to DocBook/XML and edited | ||
703 | them into shape; along with Gaetan Nadon and Alan Coopersmith, | ||
704 | who set up the formatting machinery in the libX11 builds and | ||
705 | performed further editing of the DocBook markup. | ||
706 | |||
707 | Chapter 1. Introduction to Xlib | ||
708 | |||
709 | Table of Contents | ||
710 | |||
711 | Overview of the X Window System | ||
712 | Errors | ||
713 | Standard Header Files | ||
714 | Generic Values and Types | ||
715 | Naming and Argument Conventions within Xlib | ||
716 | Programming Considerations | ||
717 | Character Sets and Encodings | ||
718 | Formatting Conventions | ||
719 | |||
720 | The X Window System is a network-transparent window system that | ||
721 | was designed at MIT. X display servers run on computers with | ||
722 | either monochrome or color bitmap display hardware. The server | ||
723 | distributes user input to and accepts output requests from | ||
724 | various client programs located either on the same machine or | ||
725 | elsewhere in the network. Xlib is a C subroutine library that | ||
726 | application programs (clients) use to interface with the window | ||
727 | system by means of a stream connection. Although a client | ||
728 | usually runs on the same machine as the X server it is talking | ||
729 | to, this need not be the case. | ||
730 | |||
731 | Xlib - C Language X Interface is a reference guide to the | ||
732 | low-level C language interface to the X Window System protocol. | ||
733 | It is neither a tutorial nor a user's guide to programming the | ||
734 | X Window System. Rather, it provides a detailed description of | ||
735 | each function in the library as well as a discussion of the | ||
736 | related background information. Xlib - C Language X Interface | ||
737 | assumes a basic understanding of a graphics window system and | ||
738 | of the C programming language. Other higher-level abstractions | ||
739 | (for example, those provided by the toolkits for X) are built | ||
740 | on top of the Xlib library. For further information about these | ||
741 | higher-level libraries, see the appropriate toolkit | ||
742 | documentation. The X Window System Protocol provides the | ||
743 | definitive word on the behavior of X. Although additional | ||
744 | information appears here, the protocol document is the ruling | ||
745 | document. | ||
746 | |||
747 | To provide an introduction to X programming, this chapter | ||
748 | discusses: | ||
749 | * Overview of the X Window System | ||
750 | * Errors | ||
751 | * Standard header files | ||
752 | * Generic values and types | ||
753 | * Naming and argument conventions within Xlib | ||
754 | * Programming considerations | ||
755 | * Character sets and encodings | ||
756 | * Formatting conventions | ||
757 | |||
758 | Overview of the X Window System | ||
759 | |||
760 | Some of the terms used in this book are unique to X, and other | ||
761 | terms that are common to other window systems have different | ||
762 | meanings in X. You may find it helpful to refer to the | ||
763 | glossary, which is located at the end of the book. | ||
764 | |||
765 | The X Window System supports one or more screens containing | ||
766 | overlapping windows or subwindows. A screen is a physical | ||
767 | monitor and hardware that can be color, grayscale, or | ||
768 | monochrome. There can be multiple screens for each display or | ||
769 | workstation. A single X server can provide display services for | ||
770 | any number of screens. A set of screens for a single user with | ||
771 | one keyboard and one pointer (usually a mouse) is called a | ||
772 | display. | ||
773 | |||
774 | All the windows in an X server are arranged in strict | ||
775 | hierarchies. At the top of each hierarchy is a root window, | ||
776 | which covers each of the display screens. Each root window is | ||
777 | partially or completely covered by child windows. All windows, | ||
778 | except for root windows, have parents. There is usually at | ||
779 | least one window for each application program. Child windows | ||
780 | may in turn have their own children. In this way, an | ||
781 | application program can create an arbitrarily deep tree on each | ||
782 | screen. X provides graphics, text, and raster operations for | ||
783 | windows. | ||
784 | |||
785 | A child window can be larger than its parent. That is, part or | ||
786 | all of the child window can extend beyond the boundaries of the | ||
787 | parent, but all output to a window is clipped by its parent. If | ||
788 | several children of a window have overlapping locations, one of | ||
789 | the children is considered to be on top of or raised over the | ||
790 | others, thus obscuring them. Output to areas covered by other | ||
791 | windows is suppressed by the window system unless the window | ||
792 | has backing store. If a window is obscured by a second window, | ||
793 | the second window obscures only those ancestors of the second | ||
794 | window that are also ancestors of the first window. | ||
795 | |||
796 | A window has a border zero or more pixels in width, which can | ||
797 | be any pattern (pixmap) or solid color you like. A window | ||
798 | usually but not always has a background pattern, which will be | ||
799 | repainted by the window system when uncovered. Child windows | ||
800 | obscure their parents, and graphic operations in the parent | ||
801 | window usually are clipped by the children. | ||
802 | |||
803 | Each window and pixmap has its own coordinate system. The | ||
804 | coordinate system has the X axis horizontal and the Y axis | ||
805 | vertical with the origin [0, 0] at the upper-left corner. | ||
806 | Coordinates are integral, in terms of pixels, and coincide with | ||
807 | pixel centers. For a window, the origin is inside the border at | ||
808 | the inside, upper-left corner. | ||
809 | |||
810 | X does not guarantee to preserve the contents of windows. When | ||
811 | part or all of a window is hidden and then brought back onto | ||
812 | the screen, its contents may be lost. The server then sends the | ||
813 | client program an Expose event to notify it that part or all of | ||
814 | the window needs to be repainted. Programs must be prepared to | ||
815 | regenerate the contents of windows on demand. | ||
816 | |||
817 | X also provides off-screen storage of graphics objects, called | ||
818 | pixmaps. Single plane (depth 1) pixmaps are sometimes referred | ||
819 | to as bitmaps. Pixmaps can be used in most graphics functions | ||
820 | interchangeably with windows and are used in various graphics | ||
821 | operations to define patterns or tiles. Windows and pixmaps | ||
822 | together are referred to as drawables. | ||
823 | |||
824 | Most of the functions in Xlib just add requests to an output | ||
825 | buffer. These requests later execute asynchronously on the X | ||
826 | server. Functions that return values of information stored in | ||
827 | the server do not return (that is, they block) until an | ||
828 | explicit reply is received or an error occurs. You can provide | ||
829 | an error handler, which will be called when the error is | ||
830 | reported. | ||
831 | |||
832 | If a client does not want a request to execute asynchronously, | ||
833 | it can follow the request with a call to XSync, which blocks | ||
834 | until all previously buffered asynchronous events have been | ||
835 | sent and acted on. As an important side effect, the output | ||
836 | buffer in Xlib is always flushed by a call to any function that | ||
837 | returns a value from the server or waits for input. | ||
838 | |||
839 | Many Xlib functions will return an integer resource ID, which | ||
840 | allows you to refer to objects stored on the X server. These | ||
841 | can be of type Window, Font, Pixmap, Colormap, Cursor, and | ||
842 | GContext, as defined in the file <X11/X.h>. These resources are | ||
843 | created by requests and are destroyed (or freed) by requests or | ||
844 | when connections are closed. Most of these resources are | ||
845 | potentially sharable between applications, and in fact, windows | ||
846 | are manipulated explicitly by window manager programs. Fonts | ||
847 | and cursors are shared automatically across multiple screens. | ||
848 | Fonts are loaded and unloaded as needed and are shared by | ||
849 | multiple clients. Fonts are often cached in the server. Xlib | ||
850 | provides no support for sharing graphics contexts between | ||
851 | applications. | ||
852 | |||
853 | Client programs are informed of events. Events may either be | ||
854 | side effects of a request (for example, restacking windows | ||
855 | generates Expose events) or completely asynchronous (for | ||
856 | example, from the keyboard). A client program asks to be | ||
857 | informed of events. Because other applications can send events | ||
858 | to your application, programs must be prepared to handle (or | ||
859 | ignore) events of all types. | ||
860 | |||
861 | Input events (for example, a key pressed or the pointer moved) | ||
862 | arrive asynchronously from the server and are queued until they | ||
863 | are requested by an explicit call (for example, XNextEvent or | ||
864 | XWindowEvent). In addition, some library functions (for | ||
865 | example, XRaiseWindow) generate Expose and ConfigureRequest | ||
866 | events. These events also arrive asynchronously, but the client | ||
867 | may wish to explicitly wait for them by calling XSync after | ||
868 | calling a function that can cause the server to generate | ||
869 | events. | ||
870 | |||
871 | Errors | ||
872 | |||
873 | Some functions return Status, an integer error indication. If | ||
874 | the function fails, it returns a zero. If the function returns | ||
875 | a status of zero, it has not updated the return arguments. | ||
876 | Because C does not provide multiple return values, many | ||
877 | functions must return their results by writing into | ||
878 | client-passed storage. By default, errors are handled either by | ||
879 | a standard library function or by one that you provide. | ||
880 | Functions that return pointers to strings return NULL pointers | ||
881 | if the string does not exist. | ||
882 | |||
883 | The X server reports protocol errors at the time that it | ||
884 | detects them. If more than one error could be generated for a | ||
885 | given request, the server can report any of them. | ||
886 | |||
887 | Because Xlib usually does not transmit requests to the server | ||
888 | immediately (that is, it buffers them), errors can be reported | ||
889 | much later than they actually occur. For debugging purposes, | ||
890 | however, Xlib provides a mechanism for forcing synchronous | ||
891 | behavior (see section 11.8.1). When synchronization is enabled, | ||
892 | errors are reported as they are generated. | ||
893 | |||
894 | When Xlib detects an error, it calls an error handler, which | ||
895 | your program can provide. If you do not provide an error | ||
896 | handler, the error is printed, and your program terminates. | ||
897 | |||
898 | Standard Header Files | ||
899 | |||
900 | The following include files are part of the Xlib standard: | ||
901 | |||
902 | <X11/Xlib.h> | ||
903 | |||
904 | This is the main header file for Xlib. The majority of all Xlib | ||
905 | symbols are declared by including this file. This file also | ||
906 | contains the preprocessor symbol XlibSpecificationRelease. This | ||
907 | symbol is defined to have the 6 in this release of the | ||
908 | standard. (Release 5 of Xlib was the first release to have this | ||
909 | symbol.) | ||
910 | |||
911 | <X11/X.h> | ||
912 | |||
913 | This file declares types and constants for the X protocol that | ||
914 | are to be used by applications. It is included automatically | ||
915 | from <X11/Xlib.h> so application code should never need to | ||
916 | reference this file directly. | ||
917 | |||
918 | <X11/Xcms.h> | ||
919 | |||
920 | This file contains symbols for much of the color management | ||
921 | facilities described in chapter 6. All functions, types, and | ||
922 | symbols with the prefix "Xcms", plus the Color Conversion | ||
923 | Contexts macros, are declared in this file. <X11/Xlib.h> must | ||
924 | be included before including this file. | ||
925 | |||
926 | <X11/Xutil.h> | ||
927 | |||
928 | This file declares various functions, types, and symbols used | ||
929 | for inter-client communication and application utility | ||
930 | functions, which are described in chapters 14 and 16. | ||
931 | <X11/Xlib.h> must be included before including this file. | ||
932 | |||
933 | <X11/Xresource.h> | ||
934 | |||
935 | This file declares all functions, types, and symbols for the | ||
936 | resource manager facilities, which are described in chapter 15. | ||
937 | <X11/Xlib.h> must be included before including this file. | ||
938 | |||
939 | <X11/Xatom.h> | ||
940 | |||
941 | This file declares all predefined atoms, which are symbols with | ||
942 | the prefix "XA_". | ||
943 | |||
944 | <X11/cursorfont.h> | ||
945 | |||
946 | This file declares the cursor symbols for the standard cursor | ||
947 | font, which are listed in Appendix B. All cursor symbols have | ||
948 | the prefix "XC_". | ||
949 | |||
950 | <X11/keysymdef.h> | ||
951 | |||
952 | This file declares all standard KeySym values, which are | ||
953 | symbols with the prefix "XK_". The KeySyms are arranged in | ||
954 | groups, and a preprocessor symbol controls inclusion of each | ||
955 | group. The preprocessor symbol must be defined prior to | ||
956 | inclusion of the file to obtain the associated values. The | ||
957 | preprocessor symbols are XK_MISCELLANY, XK_XKB_KEYS, XK_3270, | ||
958 | XK_LATIN1, XK_LATIN2, XK_LATIN3, XK_LATIN4, XK_KATAKANA, | ||
959 | XK_ARABIC, XK_CYRILLIC, XK_GREEK, XK_TECHNICAL, XK_SPECIAL, | ||
960 | XK_PUBLISHING, XK_APL, XK_HEBREW, XK_THAI, and XK_KOREAN. | ||
961 | |||
962 | <X11/keysym.h> | ||
963 | |||
964 | This file defines the preprocessor symbols XK_MISCELLANY, | ||
965 | XK_XKB_KEYS, XK_LATIN1, XK_LATIN2, XK_LATIN3, XK_LATIN4, and | ||
966 | XK_GREEK and then includes <X11/keysymdef.h>. | ||
967 | |||
968 | <X11/Xlibint.h> | ||
969 | |||
970 | This file declares all the functions, types, and symbols used | ||
971 | for extensions, which are described in Appendix C. This file | ||
972 | automatically includes <X11/Xlib.h>. | ||
973 | |||
974 | <X11/Xproto.h> | ||
975 | |||
976 | This file declares types and symbols for the basic X protocol, | ||
977 | for use in implementing extensions. It is included | ||
978 | automatically from <X11/Xlibint.h>, so application and | ||
979 | extension code should never need to reference this file | ||
980 | directly. | ||
981 | |||
982 | <X11/Xprotostr.h> | ||
983 | |||
984 | This file declares types and symbols for the basic X protocol, | ||
985 | for use in implementing extensions. It is included | ||
986 | automatically from <X11/Xproto.h>, so application and extension | ||
987 | code should never need to reference this file directly. | ||
988 | |||
989 | <X11/X10.h> | ||
990 | |||
991 | This file declares all the functions, types, and symbols used | ||
992 | for the X10 compatibility functions, which are described in | ||
993 | Appendix D. | ||
994 | |||
995 | Generic Values and Types | ||
996 | |||
997 | The following symbols are defined by Xlib and used throughout | ||
998 | the manual: | ||
999 | * Xlib defines the type Bool and the Boolean values True and | ||
1000 | False. | ||
1001 | * None is the universal null resource ID or atom. | ||
1002 | * The type XID is used for generic resource IDs. | ||
1003 | * The type XPointer is defined to be char* and is used as a | ||
1004 | generic opaque pointer to data. | ||
1005 | |||
1006 | Naming and Argument Conventions within Xlib | ||
1007 | |||
1008 | Xlib follows a number of conventions for the naming and syntax | ||
1009 | of the functions. Given that you remember what information the | ||
1010 | function requires, these conventions are intended to make the | ||
1011 | syntax of the functions more predictable. | ||
1012 | |||
1013 | The major naming conventions are: | ||
1014 | * To differentiate the X symbols from the other symbols, the | ||
1015 | library uses mixed case for external symbols. It leaves | ||
1016 | lowercase for variables and all uppercase for user macros, | ||
1017 | as per existing convention. | ||
1018 | * All Xlib functions begin with a capital X. | ||
1019 | * The beginnings of all function names and symbols are | ||
1020 | capitalized. | ||
1021 | * All user-visible data structures begin with a capital X. | ||
1022 | More generally, anything that a user might dereference | ||
1023 | begins with a capital X. | ||
1024 | * Macros and other symbols do not begin with a capital X. To | ||
1025 | distinguish them from all user symbols, each word in the | ||
1026 | macro is capitalized. | ||
1027 | * All elements of or variables in a data structure are in | ||
1028 | lowercase. Compound words, where needed, are constructed | ||
1029 | with underscores (_). | ||
1030 | * The display argument, where used, is always first in the | ||
1031 | argument list. | ||
1032 | * All resource objects, where used, occur at the beginning of | ||
1033 | the argument list immediately after the display argument. | ||
1034 | * When a graphics context is present together with another | ||
1035 | type of resource (most commonly, a drawable), the graphics | ||
1036 | context occurs in the argument list after the other | ||
1037 | resource. Drawables outrank all other resources. | ||
1038 | * Source arguments always precede the destination arguments | ||
1039 | in the argument list. | ||
1040 | * The x argument always precedes the y argument in the | ||
1041 | argument list. | ||
1042 | * The width argument always precedes the height argument in | ||
1043 | the argument list. | ||
1044 | * Where the x, y, width, and height arguments are used | ||
1045 | together, the x and y arguments always precede the width | ||
1046 | and height arguments. | ||
1047 | * Where a mask is accompanied with a structure, the mask | ||
1048 | always precedes the pointer to the structure in the | ||
1049 | argument list. | ||
1050 | |||
1051 | Programming Considerations | ||
1052 | |||
1053 | The major programming considerations are: | ||
1054 | * Coordinates and sizes in X are actually 16-bit quantities. | ||
1055 | This decision was made to minimize the bandwidth required | ||
1056 | for a given level of performance. Coordinates usually are | ||
1057 | declared as an int in the interface. Values larger than 16 | ||
1058 | bits are truncated silently. Sizes (width and height) are | ||
1059 | declared as unsigned quantities. | ||
1060 | * Keyboards are the greatest variable between different | ||
1061 | manufacturers' workstations. If you want your program to be | ||
1062 | portable, you should be particularly conservative here. | ||
1063 | * Many display systems have limited amounts of off-screen | ||
1064 | memory. If you can, you should minimize use of pixmaps and | ||
1065 | backing store. | ||
1066 | * The user should have control of their screen real estate. | ||
1067 | Therefore, you should write your applications to react to | ||
1068 | window management rather than presume control of the entire | ||
1069 | screen. What you do inside of your top-level window, | ||
1070 | however, is up to your application. For further | ||
1071 | information, see chapter 14 and the Inter-Client | ||
1072 | Communication Conventions Manual. | ||
1073 | |||
1074 | Character Sets and Encodings | ||
1075 | |||
1076 | Some of the Xlib functions make reference to specific character | ||
1077 | sets and character encodings. The following are the most | ||
1078 | common: | ||
1079 | |||
1080 | X Portable Character Set | ||
1081 | |||
1082 | A basic set of 97 characters, which are assumed to exist in all | ||
1083 | locales supported by Xlib. This set contains the following | ||
1084 | characters: | ||
1085 | |||
1086 | a..z A..Z 0..9 !"#$%&'()*+,-./:;<=>?@[\\]^_`{|}~ <space>, <tab> | ||
1087 | , and <newline> | ||
1088 | |||
1089 | This set is the left/lower half of the graphic character set of | ||
1090 | ISO8859-1 plus space, tab, and newline. It is also the set of | ||
1091 | graphic characters in 7-bit ASCII plus the same three control | ||
1092 | characters. The actual encoding of these characters on the host | ||
1093 | is system dependent. | ||
1094 | |||
1095 | Host Portable Character Encoding | ||
1096 | |||
1097 | The encoding of the X Portable Character Set on the host. The | ||
1098 | encoding itself is not defined by this standard, but the | ||
1099 | encoding must be the same in all locales supported by Xlib on | ||
1100 | the host. If a string is said to be in the Host Portable | ||
1101 | Character Encoding, then it only contains characters from the X | ||
1102 | Portable Character Set, in the host encoding. | ||
1103 | |||
1104 | Latin-1 | ||
1105 | |||
1106 | The coded character set defined by the ISO8859-1 standard. | ||
1107 | |||
1108 | Latin Portable Character Encoding | ||
1109 | |||
1110 | The encoding of the X Portable Character Set using the Latin-1 | ||
1111 | codepoints plus ASCII control characters. If a string is said | ||
1112 | to be in the Latin Portable Character Encoding, then it only | ||
1113 | contains characters from the X Portable Character Set, not all | ||
1114 | of Latin-1. | ||
1115 | |||
1116 | STRING Encoding | ||
1117 | |||
1118 | Latin-1, plus tab and newline. | ||
1119 | |||
1120 | POSIX Portable Filename Character Set | ||
1121 | |||
1122 | The set of 65 characters, which can be used in naming files on | ||
1123 | a POSIX-compliant host, that are correctly processed in all | ||
1124 | locales. The set is: | ||
1125 | |||
1126 | a..z A..Z 0..9 ._- | ||
1127 | |||
1128 | Formatting Conventions | ||
1129 | |||
1130 | Xlib - C Language X Interface uses the following conventions: | ||
1131 | * Global symbols are printed in this special font. These can | ||
1132 | be either function names, symbols defined in include files, | ||
1133 | or structure names. When declared and defined, function | ||
1134 | arguments are printed in italics. In the explanatory text | ||
1135 | that follows, they usually are printed in regular type. | ||
1136 | * Each function is introduced by a general discussion that | ||
1137 | distinguishes it from other functions. The function | ||
1138 | declaration itself follows, and each argument is | ||
1139 | specifically explained. Although ANSI C function prototype | ||
1140 | syntax is not used, Xlib header files normally declare | ||
1141 | functions using function prototypes in ANSI C environments. | ||
1142 | General discussion of the function, if any is required, | ||
1143 | follows the arguments. Where applicable, the last paragraph | ||
1144 | of the explanation lists the possible Xlib error codes that | ||
1145 | the function can generate. For a complete discussion of the | ||
1146 | Xlib error codes, see section 11.8.2. | ||
1147 | * To eliminate any ambiguity between those arguments that you | ||
1148 | pass and those that a function returns to you, the | ||
1149 | explanations for all arguments that you pass start with the | ||
1150 | word specifies or, in the case of multiple arguments, the | ||
1151 | word specify. The explanations for all arguments that are | ||
1152 | returned to you start with the word returns or, in the case | ||
1153 | of multiple arguments, the word return. The explanations | ||
1154 | for all arguments that you can pass and are returned start | ||
1155 | with the words specifies and returns. | ||
1156 | * Any pointer to a structure that is used to return a value | ||
1157 | is designated as such by the _return suffix as part of its | ||
1158 | name. All other pointers passed to these functions are used | ||
1159 | for reading only. A few arguments use pointers to | ||
1160 | structures that are used for both input and output and are | ||
1161 | indicated by using the _in_out suffix. | ||
1162 | |||
1163 | Chapter 2. Display Functions | ||
1164 | |||
1165 | Table of Contents | ||
1166 | |||
1167 | Opening the Display | ||
1168 | Obtaining Information about the Display, Image Formats, or | ||
1169 | Screens | ||
1170 | |||
1171 | Display Macros | ||
1172 | Image Format Functions and Macros | ||
1173 | Screen Information Macros | ||
1174 | |||
1175 | Generating a NoOperation Protocol Request | ||
1176 | Freeing Client-Created Data | ||
1177 | Closing the Display | ||
1178 | Using X Server Connection Close Operations | ||
1179 | Using Xlib with Threads | ||
1180 | Using Internal Connections | ||
1181 | |||
1182 | Before your program can use a display, you must establish a | ||
1183 | connection to the X server. Once you have established a | ||
1184 | connection, you then can use the Xlib macros and functions | ||
1185 | discussed in this chapter to return information about the | ||
1186 | display. This chapter discusses how to: | ||
1187 | * Open (connect to) the display | ||
1188 | * Obtain information about the display, image formats, or | ||
1189 | screens | ||
1190 | * Generate a NoOperation protocol request | ||
1191 | * Free client-created data | ||
1192 | * Close (disconnect from) a display | ||
1193 | * Use X Server connection close operations | ||
1194 | * Use Xlib with threads | ||
1195 | * Use internal connections | ||
1196 | |||
1197 | Opening the Display | ||
1198 | |||
1199 | To open a connection to the X server that controls a display, | ||
1200 | use XOpenDisplay. | ||
1201 | |||
1202 | Display *XOpenDisplay(char *display_name); | ||
1203 | |||
1204 | display_name | ||
1205 | |||
1206 | Specifies the hardware display name, which determines the | ||
1207 | display and communications domain to be used. On a | ||
1208 | POSIX-conformant system, if the display_name is NULL, it | ||
1209 | defaults to the value of the DISPLAY environment variable. | ||
1210 | |||
1211 | The encoding and interpretation of the display name are | ||
1212 | implementation-dependent. Strings in the Host Portable | ||
1213 | Character Encoding are supported; support for other characters | ||
1214 | is implementation-dependent. On POSIX-conformant systems, the | ||
1215 | display name or DISPLAY environment variable can be a string in | ||
1216 | the format: | ||
1217 | |||
1218 | |||
1219 | protocol/hostname:number.screen_number | ||
1220 | |||
1221 | protocol | ||
1222 | |||
1223 | Specifies a protocol family or an alias for a protocol family. | ||
1224 | Supported protocol families are implementation dependent. The | ||
1225 | protocol entry is optional. If protocol is not specified, the / | ||
1226 | separating protocol and hostname must also not be specified. | ||
1227 | |||
1228 | hostname | ||
1229 | |||
1230 | Specifies the name of the host machine on which the display is | ||
1231 | physically attached. You follow the hostname with either a | ||
1232 | single colon (:) or a double colon (::). | ||
1233 | |||
1234 | number | ||
1235 | |||
1236 | Specifies the number of the display server on that host | ||
1237 | machine. You may optionally follow this display number with a | ||
1238 | period (.). A single CPU can have more than one display. | ||
1239 | Multiple displays are usually numbered starting with zero. | ||
1240 | |||
1241 | screen_number | ||
1242 | |||
1243 | Specifies the screen to be used on that server. Multiple | ||
1244 | screens can be controlled by a single X server. The | ||
1245 | screen_number sets an internal variable that can be accessed by | ||
1246 | using the DefaultScreen macro or the XDefaultScreen function if | ||
1247 | you are using languages other than C (see section 2.2.1). | ||
1248 | |||
1249 | For example, the following would specify screen 1 of display 0 | ||
1250 | on the machine named ``dual-headed'': | ||
1251 | |||
1252 | dual-headed:0.1 | ||
1253 | |||
1254 | The XOpenDisplay function returns a Display structure that | ||
1255 | serves as the connection to the X server and that contains all | ||
1256 | the information about that X server. XOpenDisplay connects your | ||
1257 | application to the X server through TCP or DECnet | ||
1258 | communications protocols, or through some local inter-process | ||
1259 | communication protocol. If the protocol is specified as "tcp", | ||
1260 | "inet", or "inet6", or if no protocol is specified and the | ||
1261 | hostname is a host machine name and a single colon (:) | ||
1262 | separates the hostname and display number, XOpenDisplay | ||
1263 | connects using TCP streams. (If the protocol is specified as | ||
1264 | "inet", TCP over IPv4 is used. If the protocol is specified as | ||
1265 | "inet6", TCP over IPv6 is used. Otherwise, the implementation | ||
1266 | determines which IP version is used.) If the hostname and | ||
1267 | protocol are both not specified, Xlib uses whatever it believes | ||
1268 | is the fastest transport. If the hostname is a host machine | ||
1269 | name and a double colon (::) separates the hostname and display | ||
1270 | number, XOpenDisplay connects using DECnet. A single X server | ||
1271 | can support any or all of these transport mechanisms | ||
1272 | simultaneously. A particular Xlib implementation can support | ||
1273 | many more of these transport mechanisms. | ||
1274 | |||
1275 | If successful, XOpenDisplay returns a pointer to a Display | ||
1276 | structure, which is defined in <X11/Xlib.h>. If XOpenDisplay | ||
1277 | does not succeed, it returns NULL. After a successful call to | ||
1278 | XOpenDisplay, all of the screens in the display can be used by | ||
1279 | the client. The screen number specified in the display_name | ||
1280 | argument is returned by the DefaultScreen macro (or the | ||
1281 | XDefaultScreen function). You can access elements of the | ||
1282 | Display and Screen structures only by using the information | ||
1283 | macros or functions. For information about using macros and | ||
1284 | functions to obtain information from the Display structure, see | ||
1285 | section 2.2.1. | ||
1286 | |||
1287 | X servers may implement various types of access control | ||
1288 | mechanisms (see section 9.8). | ||
1289 | |||
1290 | Obtaining Information about the Display, Image Formats, or Screens | ||
1291 | |||
1292 | The Xlib library provides a number of useful macros and | ||
1293 | corresponding functions that return data from the Display | ||
1294 | structure. The macros are used for C programming, and their | ||
1295 | corresponding function equivalents are for other language | ||
1296 | bindings. This section discusses the: | ||
1297 | * Display macros | ||
1298 | * Image format functions and macros | ||
1299 | * Screen information macros | ||
1300 | |||
1301 | All other members of the Display structure (that is, those for | ||
1302 | which no macros are defined) are private to Xlib and must not | ||
1303 | be used. Applications must never directly modify or inspect | ||
1304 | these private members of the Display structure. The | ||
1305 | XDisplayWidth, XDisplayHeight, XDisplayCells, XDisplayPlanes, | ||
1306 | XDisplayWidthMM, and XDisplayHeightMM functions in the next | ||
1307 | sections are misnamed. These functions really should be named | ||
1308 | Screenwhatever and XScreenwhatever, not Displaywhatever or | ||
1309 | XDisplaywhatever. Our apologies for the resulting confusion. | ||
1310 | |||
1311 | Display Macros | ||
1312 | |||
1313 | Applications should not directly modify any part of the Display | ||
1314 | and Screen structures. The members should be considered | ||
1315 | read-only, although they may change as the result of other | ||
1316 | operations on the display. | ||
1317 | |||
1318 | The following lists the C language macros, their corresponding | ||
1319 | function equivalents that are for other language bindings, and | ||
1320 | what data both can return. | ||
1321 | AllPlanes | ||
1322 | |||
1323 | unsigned long XAllPlanes(void); | ||
1324 | |||
1325 | Both return a value with all bits set to 1 suitable for use in | ||
1326 | a plane argument to a procedure. | ||
1327 | |||
1328 | Both BlackPixel and WhitePixel can be used in implementing a | ||
1329 | monochrome application. These pixel values are for permanently | ||
1330 | allocated entries in the default colormap. The actual RGB (red, | ||
1331 | green, and blue) values are settable on some screens and, in | ||
1332 | any case, may not actually be black or white. The names are | ||
1333 | intended to convey the expected relative intensity of the | ||
1334 | colors. | ||
1335 | |||
1336 | BlackPixel(display, screen_number); | ||
1337 | |||
1338 | unsigned long XBlackPixel(Display *display, int screen_number); | ||
1339 | |||
1340 | display | ||
1341 | |||
1342 | Specifies the connection to the X server. | ||
1343 | |||
1344 | screen_number | ||
1345 | |||
1346 | Specifies the appropriate screen number on the host server. | ||
1347 | |||
1348 | Both return the black pixel value for the specified screen. | ||
1349 | |||
1350 | WhitePixel(display, screen_number); | ||
1351 | |||
1352 | unsigned long XWhitePixel(Display *display, int screen_number); | ||
1353 | |||
1354 | display | ||
1355 | |||
1356 | Specifies the connection to the X server. | ||
1357 | |||
1358 | screen_number | ||
1359 | |||
1360 | Specifies the appropriate screen number on the host server. | ||
1361 | |||
1362 | Both return the white pixel value for the specified screen. | ||
1363 | |||
1364 | ConnectionNumber(display); | ||
1365 | |||
1366 | int XConnectionNumber(Display *display); | ||
1367 | |||
1368 | display | ||
1369 | |||
1370 | Specifies the connection to the X server. | ||
1371 | |||
1372 | Both return a connection number for the specified display. On a | ||
1373 | POSIX-conformant system, this is the file descriptor of the | ||
1374 | connection. | ||
1375 | |||
1376 | DefaultColormap(display, screen_number); | ||
1377 | |||
1378 | Colormap XDefaultColormap(Display *display, int screen_number); | ||
1379 | |||
1380 | display | ||
1381 | |||
1382 | Specifies the connection to the X server. | ||
1383 | |||
1384 | screen_number | ||
1385 | |||
1386 | Specifies the appropriate screen number on the host server. | ||
1387 | |||
1388 | Both return the default colormap ID for allocation on the | ||
1389 | specified screen. Most routine allocations of color should be | ||
1390 | made out of this colormap. | ||
1391 | |||
1392 | DefaultDepth(display, screen_number); | ||
1393 | |||
1394 | int XDefaultDepth(Display *display, int screen_number); | ||
1395 | |||
1396 | display | ||
1397 | |||
1398 | Specifies the connection to the X server. | ||
1399 | |||
1400 | screen_number | ||
1401 | |||
1402 | Specifies the appropriate screen number on the host server. | ||
1403 | |||
1404 | Both return the depth (number of planes) of the default root | ||
1405 | window for the specified screen. Other depths may also be | ||
1406 | supported on this screen (see XMatchVisualInfo). | ||
1407 | |||
1408 | To determine the number of depths that are available on a given | ||
1409 | screen, use XListDepths. | ||
1410 | |||
1411 | int *XListDepths(Display *display, int screen_number, int | ||
1412 | *count_return); | ||
1413 | |||
1414 | display | ||
1415 | |||
1416 | Specifies the connection to the X server. | ||
1417 | |||
1418 | screen_number | ||
1419 | |||
1420 | Specifies the appropriate screen number on the host server. | ||
1421 | |||
1422 | count_return | ||
1423 | |||
1424 | Returns the number of depths. | ||
1425 | |||
1426 | The XListDepths function returns the array of depths that are | ||
1427 | available on the specified screen. If the specified | ||
1428 | screen_number is valid and sufficient memory for the array can | ||
1429 | be allocated, XListDepths sets count_return to the number of | ||
1430 | available depths. Otherwise, it does not set count_return and | ||
1431 | returns NULL. To release the memory allocated for the array of | ||
1432 | depths, use XFree. | ||
1433 | |||
1434 | DefaultGC(display, screen_number); | ||
1435 | |||
1436 | GC XDefaultGC(Display *display, int screen_number); | ||
1437 | |||
1438 | display | ||
1439 | |||
1440 | Specifies the connection to the X server. | ||
1441 | |||
1442 | screen_number | ||
1443 | |||
1444 | Specifies the appropriate screen number on the host server. | ||
1445 | |||
1446 | Both return the default graphics context for the root window of | ||
1447 | the specified screen. This GC is created for the convenience of | ||
1448 | simple applications and contains the default GC components with | ||
1449 | the foreground and background pixel values initialized to the | ||
1450 | black and white pixels for the screen, respectively. You can | ||
1451 | modify its contents freely because it is not used in any Xlib | ||
1452 | function. This GC should never be freed. | ||
1453 | |||
1454 | DefaultRootWindow(display); | ||
1455 | |||
1456 | Window XDefaultRootWindow(Display *display); | ||
1457 | |||
1458 | display | ||
1459 | |||
1460 | Specifies the connection to the X server. | ||
1461 | |||
1462 | Both return the root window for the default screen. | ||
1463 | |||
1464 | DefaultScreenOfDisplay(display); | ||
1465 | |||
1466 | Screen *XDefaultScreenOfDisplay(Display *display); | ||
1467 | |||
1468 | display | ||
1469 | |||
1470 | Specifies the connection to the X server. | ||
1471 | |||
1472 | Both return a pointer to the default screen. | ||
1473 | |||
1474 | ScreenOfDisplay(display, screen_number); | ||
1475 | |||
1476 | Screen *XScreenOfDisplay(Display *display, int screen_number); | ||
1477 | |||
1478 | display | ||
1479 | |||
1480 | Specifies the connection to the X server. | ||
1481 | |||
1482 | screen_number | ||
1483 | |||
1484 | Specifies the appropriate screen number on the host server. | ||
1485 | |||
1486 | Both return a pointer to the indicated screen. | ||
1487 | |||
1488 | DefaultScreen(display); | ||
1489 | |||
1490 | int XDefaultScreen(Display *display); | ||
1491 | |||
1492 | display | ||
1493 | |||
1494 | Specifies the connection to the X server. | ||
1495 | |||
1496 | Both return the default screen number referenced by the | ||
1497 | XOpenDisplay function. This macro or function should be used to | ||
1498 | retrieve the screen number in applications that will use only a | ||
1499 | single screen. | ||
1500 | |||
1501 | DefaultVisual(display, screen_number); | ||
1502 | |||
1503 | Visual *XDefaultVisual(Display *display, int screen_number); | ||
1504 | |||
1505 | display | ||
1506 | |||
1507 | Specifies the connection to the X server. | ||
1508 | |||
1509 | screen_number | ||
1510 | |||
1511 | Specifies the appropriate screen number on the host server. | ||
1512 | |||
1513 | Both return the default visual type for the specified screen. | ||
1514 | For further information about visual types, see section 3.1. | ||
1515 | |||
1516 | DisplayCells(display, screen_number); | ||
1517 | |||
1518 | int XDisplayCells(Display *display, int screen_number); | ||
1519 | |||
1520 | display | ||
1521 | |||
1522 | Specifies the connection to the X server. | ||
1523 | |||
1524 | screen_number | ||
1525 | |||
1526 | Specifies the appropriate screen number on the host server. | ||
1527 | |||
1528 | Both return the number of entries in the default colormap. | ||
1529 | |||
1530 | DisplayPlanes(display, screen_number); | ||
1531 | |||
1532 | int XDisplayPlanes(Display *display, int screen_number); | ||
1533 | |||
1534 | display | ||
1535 | |||
1536 | Specifies the connection to the X server. | ||
1537 | |||
1538 | screen_number | ||
1539 | |||
1540 | Specifies the appropriate screen number on the host server. | ||
1541 | |||
1542 | Both return the depth of the root window of the specified | ||
1543 | screen. For an explanation of depth, see the glossary. | ||
1544 | |||
1545 | DisplayString(display); | ||
1546 | |||
1547 | char *XDisplayString(Display *display); | ||
1548 | |||
1549 | display | ||
1550 | |||
1551 | Specifies the connection to the X server. | ||
1552 | |||
1553 | Both return the string that was passed to XOpenDisplay when the | ||
1554 | current display was opened. On POSIX-conformant systems, if the | ||
1555 | passed string was NULL, these return the value of the DISPLAY | ||
1556 | environment variable when the current display was opened. These | ||
1557 | are useful to applications that invoke the fork system call and | ||
1558 | want to open a new connection to the same display from the | ||
1559 | child process as well as for printing error messages. | ||
1560 | |||
1561 | long XExtendedMaxRequestSize(Display *display); | ||
1562 | |||
1563 | display | ||
1564 | |||
1565 | Specifies the connection to the X server. | ||
1566 | |||
1567 | The XExtendedMaxRequestSize function returns zero if the | ||
1568 | specified display does not support an extended-length protocol | ||
1569 | encoding; otherwise, it returns the maximum request size (in | ||
1570 | 4-byte units) supported by the server using the extended-length | ||
1571 | encoding. The Xlib functions XDrawLines, XDrawArcs, | ||
1572 | XFillPolygon, XChangeProperty, XSetClipRectangles, and | ||
1573 | XSetRegion will use the extended-length encoding as necessary, | ||
1574 | if supported by the server. Use of the extended-length encoding | ||
1575 | in other Xlib functions (for example, XDrawPoints, | ||
1576 | XDrawRectangles, XDrawSegments, XFillArcs, XFillRectangles, | ||
1577 | XPutImage) is permitted but not required; an Xlib | ||
1578 | implementation may choose to split the data across multiple | ||
1579 | smaller requests instead. | ||
1580 | |||
1581 | long XMaxRequestSize(Display *display); | ||
1582 | |||
1583 | display | ||
1584 | |||
1585 | Specifies the connection to the X server. | ||
1586 | |||
1587 | The XMaxRequestSize function returns the maximum request size | ||
1588 | (in 4-byte units) supported by the server without using an | ||
1589 | extended-length protocol encoding. Single protocol requests to | ||
1590 | the server can be no larger than this size unless an | ||
1591 | extended-length protocol encoding is supported by the server. | ||
1592 | The protocol guarantees the size to be no smaller than 4096 | ||
1593 | units (16384 bytes). Xlib automatically breaks data up into | ||
1594 | multiple protocol requests as necessary for the following | ||
1595 | functions: XDrawPoints, XDrawRectangles, XDrawSegments, | ||
1596 | XFillArcs, XFillRectangles, and XPutImage. | ||
1597 | |||
1598 | LastKnownRequestProcessed(display); | ||
1599 | |||
1600 | unsigned long XLastKnownRequestProcessed(Display *display); | ||
1601 | |||
1602 | display | ||
1603 | |||
1604 | Specifies the connection to the X server. | ||
1605 | |||
1606 | Both extract the full serial number of the last request known | ||
1607 | by Xlib to have been processed by the X server. Xlib | ||
1608 | automatically sets this number when replies, events, and errors | ||
1609 | are received. | ||
1610 | |||
1611 | NextRequest(display); | ||
1612 | |||
1613 | unsigned long XNextRequest(Display *display); | ||
1614 | |||
1615 | display | ||
1616 | |||
1617 | Specifies the connection to the X server. | ||
1618 | |||
1619 | Both extract the full serial number that is to be used for the | ||
1620 | next request. Serial numbers are maintained separately for each | ||
1621 | display connection. | ||
1622 | |||
1623 | ProtocolVersion(display); | ||
1624 | |||
1625 | int XProtocolVersion(Display *display); | ||
1626 | |||
1627 | display | ||
1628 | |||
1629 | Specifies the connection to the X server. | ||
1630 | |||
1631 | Both return the major version number (11) of the X protocol | ||
1632 | associated with the connected display. | ||
1633 | |||
1634 | ProtocolRevision(display); | ||
1635 | |||
1636 | int XProtocolRevision(Display *display); | ||
1637 | |||
1638 | display | ||
1639 | |||
1640 | Specifies the connection to the X server. | ||
1641 | |||
1642 | Both return the minor protocol revision number of the X server. | ||
1643 | |||
1644 | QLength(display); | ||
1645 | |||
1646 | int XQLength(Display *display); | ||
1647 | |||
1648 | display | ||
1649 | |||
1650 | Specifies the connection to the X server. | ||
1651 | |||
1652 | Both return the length of the event queue for the connected | ||
1653 | display. Note that there may be more events that have not been | ||
1654 | read into the queue yet (see XEventsQueued). | ||
1655 | |||
1656 | RootWindow(display, screen_number); | ||
1657 | |||
1658 | Window XRootWindow(Display *display, int screen_number); | ||
1659 | |||
1660 | display | ||
1661 | |||
1662 | Specifies the connection to the X server. | ||
1663 | |||
1664 | screen_number | ||
1665 | |||
1666 | Specifies the appropriate screen number on the host server. | ||
1667 | |||
1668 | Both return the root window. These are useful with functions | ||
1669 | that need a drawable of a particular screen and for creating | ||
1670 | top-level windows. | ||
1671 | |||
1672 | ScreenCount(display); | ||
1673 | |||
1674 | int XScreenCount(Display *display); | ||
1675 | |||
1676 | display | ||
1677 | |||
1678 | Specifies the connection to the X server. | ||
1679 | |||
1680 | Both return the number of available screens. | ||
1681 | |||
1682 | ServerVendor(display); | ||
1683 | |||
1684 | char *XServerVendor(Display *display); | ||
1685 | |||
1686 | display | ||
1687 | |||
1688 | Specifies the connection to the X server. | ||
1689 | |||
1690 | Both return a pointer to a null-terminated string that provides | ||
1691 | some identification of the owner of the X server | ||
1692 | implementation. If the data returned by the server is in the | ||
1693 | Latin Portable Character Encoding, then the string is in the | ||
1694 | Host Portable Character Encoding. Otherwise, the contents of | ||
1695 | the string are implementation-dependent. | ||
1696 | |||
1697 | VendorRelease(display); | ||
1698 | |||
1699 | int XVendorRelease(Display *display); | ||
1700 | |||
1701 | display | ||
1702 | |||
1703 | Specifies the connection to the X server. | ||
1704 | |||
1705 | Both return a number related to a vendor's release of the X | ||
1706 | server. | ||
1707 | |||
1708 | Image Format Functions and Macros | ||
1709 | |||
1710 | Applications are required to present data to the X server in a | ||
1711 | format that the server demands. To help simplify applications, | ||
1712 | most of the work required to convert the data is provided by | ||
1713 | Xlib (see sections 8.7 and 16.8). | ||
1714 | |||
1715 | The XPixmapFormatValues structure provides an interface to the | ||
1716 | pixmap format information that is returned at the time of a | ||
1717 | connection setup. It contains: | ||
1718 | typedef struct { | ||
1719 | int depth; | ||
1720 | int bits_per_pixel; | ||
1721 | int scanline_pad; | ||
1722 | } XPixmapFormatValues; | ||
1723 | |||
1724 | To obtain the pixmap format information for a given display, | ||
1725 | use XListPixmapFormats. | ||
1726 | |||
1727 | XPixmapFormatValues *XListPixmapFormats(Display *display, int | ||
1728 | *count_return); | ||
1729 | |||
1730 | display | ||
1731 | |||
1732 | Specifies the connection to the X server. | ||
1733 | |||
1734 | count_return | ||
1735 | |||
1736 | Returns the number of pixmap formats that are supported by the | ||
1737 | display. | ||
1738 | |||
1739 | The XListPixmapFormats function returns an array of | ||
1740 | XPixmapFormatValues structures that describe the types of Z | ||
1741 | format images supported by the specified display. If | ||
1742 | insufficient memory is available, XListPixmapFormats returns | ||
1743 | NULL. To free the allocated storage for the XPixmapFormatValues | ||
1744 | structures, use XFree. | ||
1745 | |||
1746 | The following lists the C language macros, their corresponding | ||
1747 | function equivalents that are for other language bindings, and | ||
1748 | what data they both return for the specified server and screen. | ||
1749 | These are often used by toolkits as well as by simple | ||
1750 | applications. | ||
1751 | |||
1752 | ImageByteOrder(display); | ||
1753 | |||
1754 | int XImageByteOrder(Display *display); | ||
1755 | |||
1756 | display | ||
1757 | |||
1758 | Specifies the connection to the X server. | ||
1759 | |||
1760 | Both specify the required byte order for images for each | ||
1761 | scanline unit in XY format (bitmap) or for each pixel value in | ||
1762 | Z format. The macro or function can return either LSBFirst or | ||
1763 | MSBFirst. | ||
1764 | |||
1765 | XBitmapUnit(display); | ||
1766 | |||
1767 | int XBitmapUnit(Display *display); | ||
1768 | |||
1769 | display | ||
1770 | |||
1771 | Specifies the connection to the X server. | ||
1772 | |||
1773 | Both return the size of a bitmap's scanline unit in bits. The | ||
1774 | scanline is calculated in multiples of this value. | ||
1775 | |||
1776 | BitmapBitOrder(display); | ||
1777 | |||
1778 | int XBitmapBitOrder(Display *display); | ||
1779 | |||
1780 | display | ||
1781 | |||
1782 | Specifies the connection to the X server. | ||
1783 | |||
1784 | Within each bitmap unit, the left-most bit in the bitmap as | ||
1785 | displayed on the screen is either the least significant or most | ||
1786 | significant bit in the unit. This macro or function can return | ||
1787 | LSBFirst or MSBFirst. | ||
1788 | |||
1789 | BitmapPad(display); | ||
1790 | |||
1791 | int XBitmapPad(Display *display); | ||
1792 | |||
1793 | display | ||
1794 | |||
1795 | Specifies the connection to the X server. | ||
1796 | |||
1797 | Each scanline must be padded to a multiple of bits returned by | ||
1798 | this macro or function. | ||
1799 | |||
1800 | DisplayHeight(display, screen_number); | ||
1801 | |||
1802 | int XDisplayHeight(Display *display, int screen_number); | ||
1803 | |||
1804 | display | ||
1805 | |||
1806 | Specifies the connection to the X server. | ||
1807 | |||
1808 | screen_number | ||
1809 | |||
1810 | Specifies the appropriate screen number on the host server. | ||
1811 | |||
1812 | Both return an integer that describes the height of the screen | ||
1813 | in pixels. | ||
1814 | |||
1815 | DisplayHeightMM(display, screen_number); | ||
1816 | |||
1817 | int XDisplayHeightMM(Display *display, int screen_number); | ||
1818 | |||
1819 | display | ||
1820 | |||
1821 | Specifies the connection to the X server. | ||
1822 | |||
1823 | screen_number | ||
1824 | |||
1825 | Specifies the appropriate screen number on the host server. | ||
1826 | |||
1827 | Both return the height of the specified screen in millimeters. | ||
1828 | |||
1829 | DisplayWidth(display, screen_number); | ||
1830 | |||
1831 | int XDisplayWidth(Display *display, int screen_number); | ||
1832 | |||
1833 | display | ||
1834 | |||
1835 | Specifies the connection to the X server. | ||
1836 | |||
1837 | screen_number | ||
1838 | |||
1839 | Specifies the appropriate screen number on the host server. | ||
1840 | |||
1841 | Both return the width of the screen in pixels. | ||
1842 | |||
1843 | DisplayWidthMM(display, screen_number); | ||
1844 | |||
1845 | int XDisplayWidthMM(Display *display, int screen_number); | ||
1846 | |||
1847 | display | ||
1848 | |||
1849 | Specifies the connection to the X server. | ||
1850 | |||
1851 | screen_number | ||
1852 | |||
1853 | Specifies the appropriate screen number on the host server. | ||
1854 | |||
1855 | Both return the width of the specified screen in millimeters. | ||
1856 | |||
1857 | Screen Information Macros | ||
1858 | |||
1859 | The following lists the C language macros, their corresponding | ||
1860 | function equivalents that are for other language bindings, and | ||
1861 | what data they both can return. These macros or functions all | ||
1862 | take a pointer to the appropriate screen structure. | ||
1863 | |||
1864 | BlackPixelOfScreen(screen); | ||
1865 | |||
1866 | unsigned long XBlackPixelOfScreen(Screen *screen); | ||
1867 | |||
1868 | screen | ||
1869 | |||
1870 | Specifies the appropriate Screen structure. | ||
1871 | |||
1872 | Both return the black pixel value of the specified screen. | ||
1873 | |||
1874 | XWhitePixelOfScreen(screen); | ||
1875 | |||
1876 | unsigned long XWhitePixelOfScreen(Screen *screen); | ||
1877 | |||
1878 | screen | ||
1879 | |||
1880 | Specifies the appropriate Screen structure. | ||
1881 | |||
1882 | Both return the white pixel value of the specified screen. | ||
1883 | |||
1884 | CellsOfScreen(screen); | ||
1885 | |||
1886 | int XCellsOfScreen(Screen *screen); | ||
1887 | |||
1888 | screen | ||
1889 | |||
1890 | Specifies the appropriate Screen structure. | ||
1891 | |||
1892 | Both return the number of colormap cells in the default | ||
1893 | colormap of the specified screen. | ||
1894 | |||
1895 | DefaultColormapOfScreen(screen); | ||
1896 | |||
1897 | Colormap XDefaultColormapOfScreen(Screen *screen); | ||
1898 | |||
1899 | screen | ||
1900 | |||
1901 | Specifies the appropriate Screen structure. | ||
1902 | |||
1903 | Both return the default colormap of the specified screen. | ||
1904 | |||
1905 | DefaultDepthOfScreen(screen); | ||
1906 | |||
1907 | int XDefaultDepthOfScreen(Screen *screen); | ||
1908 | |||
1909 | screen | ||
1910 | |||
1911 | Specifies the appropriate Screen structure. | ||
1912 | |||
1913 | Both return the depth of the root window. | ||
1914 | |||
1915 | DefaultGCOfScreen(screen); | ||
1916 | |||
1917 | GC XDefaultGCOfScreen(Screen *screen); | ||
1918 | |||
1919 | screen | ||
1920 | |||
1921 | Specifies the appropriate Screen structure. | ||
1922 | |||
1923 | Both return a default graphics context (GC) of the specified | ||
1924 | screen, which has the same depth as the root window of the | ||
1925 | screen. The GC must never be freed. | ||
1926 | |||
1927 | XDefaultVisualOfScreen(screen); | ||
1928 | |||
1929 | Visual *XDefaultVisualOfScreen(Screen *screen); | ||
1930 | |||
1931 | screen | ||
1932 | |||
1933 | Specifies the appropriate Screen structure. | ||
1934 | |||
1935 | Both return the default visual of the specified screen. For | ||
1936 | information on visual types, see section 3.1. | ||
1937 | |||
1938 | DoesBackingStore(screen); | ||
1939 | |||
1940 | int XDoesBackingStore(Screen *screen); | ||
1941 | |||
1942 | screen | ||
1943 | |||
1944 | Specifies the appropriate Screen structure. | ||
1945 | |||
1946 | Both return a value indicating whether the screen supports | ||
1947 | backing stores. The value returned can be one of WhenMapped, | ||
1948 | NotUseful, or Always (see section 3.2.4). | ||
1949 | |||
1950 | DoesSaveUnders(screen); | ||
1951 | |||
1952 | Bool XDoesSaveUnders(Screen *screen); | ||
1953 | |||
1954 | screen | ||
1955 | |||
1956 | Specifies the appropriate Screen structure. | ||
1957 | |||
1958 | Both return a Boolean value indicating whether the screen | ||
1959 | supports save unders. If True, the screen supports save unders. | ||
1960 | If False, the screen does not support save unders (see section | ||
1961 | 3.2.5). | ||
1962 | |||
1963 | DisplayOfScreen(screen); | ||
1964 | |||
1965 | Display *XDisplayOfScreen(Screen *screen); | ||
1966 | |||
1967 | screen | ||
1968 | |||
1969 | Specifies the appropriate Screen structure. | ||
1970 | |||
1971 | Both return the display of the specified screen. | ||
1972 | |||
1973 | ScreenNumberOfScreen(screen); | ||
1974 | |||
1975 | long XScreenNumberOfScreen(Screen *screen); | ||
1976 | |||
1977 | screen | ||
1978 | |||
1979 | Specifies the appropriate Screen structure. | ||
1980 | |||
1981 | The XScreenNumberOfScreen function returns the screen index | ||
1982 | number of the specified screen. | ||
1983 | |||
1984 | EventMaskOfScreen(screen); | ||
1985 | |||
1986 | long XEventMaskOfScreen(Screen *screen); | ||
1987 | |||
1988 | screen | ||
1989 | |||
1990 | Specifies the appropriate Screen structure. | ||
1991 | |||
1992 | Both return the event mask of the root window for the specified | ||
1993 | screen at connection setup time. | ||
1994 | |||
1995 | WidthOfScreen(screen); | ||
1996 | |||
1997 | int XWidthOfScreen(Screen *screen); | ||
1998 | |||
1999 | screen | ||
2000 | |||
2001 | Specifies the appropriate Screen structure. | ||
2002 | |||
2003 | Both return the width of the specified screen in pixels. | ||
2004 | |||
2005 | HeightOfScreen(screen); | ||
2006 | |||
2007 | int XHeightOfScreen(Screen *screen); | ||
2008 | |||
2009 | screen | ||
2010 | |||
2011 | Specifies the appropriate Screen structure. | ||
2012 | |||
2013 | Both return the height of the specified screen in pixels. | ||
2014 | |||
2015 | WidthMMOfScreen(screen); | ||
2016 | |||
2017 | int XWidthMMOfScreen(Screen *screen); | ||
2018 | |||
2019 | screen | ||
2020 | |||
2021 | Specifies the appropriate Screen structure. | ||
2022 | |||
2023 | Both return the width of the specified screen in millimeters. | ||
2024 | |||
2025 | HeightMMOfScreen(screen); | ||
2026 | |||
2027 | int XHeightMMOfScreen(Screen *screen); | ||
2028 | |||
2029 | screen | ||
2030 | |||
2031 | Specifies the appropriate Screen structure. | ||
2032 | |||
2033 | Both return the height of the specified screen in millimeters. | ||
2034 | |||
2035 | MaxCmapsOfScreen(screen); | ||
2036 | |||
2037 | int XMaxCmapsOfScreen(Screen *screen); | ||
2038 | |||
2039 | screen | ||
2040 | |||
2041 | Specifies the appropriate Screen structure. | ||
2042 | |||
2043 | Both return the maximum number of installed colormaps supported | ||
2044 | by the specified screen (see section 9.3). | ||
2045 | |||
2046 | MinCmapsOfScreen(screen); | ||
2047 | |||
2048 | int XMinCmapsOfScreen(Screen *screen); | ||
2049 | |||
2050 | screen | ||
2051 | |||
2052 | Specifies the appropriate Screen structure. | ||
2053 | |||
2054 | Both return the minimum number of installed colormaps supported | ||
2055 | by the specified screen (see section 9.3). | ||
2056 | |||
2057 | PlanesOfScreen(screen); | ||
2058 | |||
2059 | int XPlanesOfScreen(Screen *screen); | ||
2060 | |||
2061 | screen | ||
2062 | |||
2063 | Specifies the appropriate Screen structure. | ||
2064 | |||
2065 | Both return the depth of the root window. | ||
2066 | |||
2067 | RootWindowOfScreen(screen); | ||
2068 | |||
2069 | Window XRootWindowOfScreen(Screen *screen); | ||
2070 | |||
2071 | screen | ||
2072 | |||
2073 | Specifies the appropriate Screen structure. | ||
2074 | |||
2075 | Both return the root window of the specified screen. | ||
2076 | |||
2077 | Generating a NoOperation Protocol Request | ||
2078 | |||
2079 | To execute a NoOperation protocol request, use XNoOp. | ||
2080 | |||
2081 | XNoOp(Display *display); | ||
2082 | |||
2083 | display | ||
2084 | |||
2085 | Specifies the connection to the X server. | ||
2086 | |||
2087 | The XNoOp function sends a NoOperation protocol request to the | ||
2088 | X server, thereby exercising the connection. | ||
2089 | |||
2090 | Freeing Client-Created Data | ||
2091 | |||
2092 | To free in-memory data that was created by an Xlib function, | ||
2093 | use XFree. | ||
2094 | |||
2095 | XFree(void *data); | ||
2096 | |||
2097 | data | ||
2098 | |||
2099 | Specifies the data that is to be freed. | ||
2100 | |||
2101 | The XFree function is a general-purpose Xlib routine that frees | ||
2102 | the specified data. You must use it to free any objects that | ||
2103 | were allocated by Xlib, unless an alternate function is | ||
2104 | explicitly specified for the object. A NULL pointer cannot be | ||
2105 | passed to this function. | ||
2106 | |||
2107 | Closing the Display | ||
2108 | |||
2109 | To close a display or disconnect from the X server, use | ||
2110 | XCloseDisplay. | ||
2111 | |||
2112 | XCloseDisplay(Display *display); | ||
2113 | |||
2114 | display | ||
2115 | |||
2116 | Specifies the connection to the X server. | ||
2117 | |||
2118 | The XCloseDisplay function closes the connection to the X | ||
2119 | server for the display specified in the Display structure and | ||
2120 | destroys all windows, resource IDs (Window, Font, Pixmap, | ||
2121 | Colormap, Cursor, and GContext), or other resources that the | ||
2122 | client has created on this display, unless the close-down mode | ||
2123 | of the client has been changed (see XSetCloseDownMode). | ||
2124 | Therefore, these windows, resource IDs, and other resources | ||
2125 | should never be referenced again or an error will be generated. | ||
2126 | Before exiting, you should call XCloseDisplay explicitly so | ||
2127 | that any pending errors are reported as XCloseDisplay performs | ||
2128 | a final XSync operation. | ||
2129 | |||
2130 | XCloseDisplay can generate a BadGC error. | ||
2131 | |||
2132 | Xlib provides a function to permit the resources owned by a | ||
2133 | client to survive after the client's connection is closed. To | ||
2134 | change a client's close-down mode, use XSetCloseDownMode. | ||
2135 | |||
2136 | XSetCloseDownMode(Display *display, int close_mode); | ||
2137 | |||
2138 | display | ||
2139 | |||
2140 | Specifies the connection to the X server. | ||
2141 | |||
2142 | close_mode | ||
2143 | |||
2144 | Specifies the client close-down mode. You can pass DestroyAll, | ||
2145 | RetainPermanent, or RetainTemporary. | ||
2146 | |||
2147 | The XSetCloseDownMode function defines what will happen to the | ||
2148 | client's resources at connection close. A connection starts in | ||
2149 | DestroyAll mode. For information on what happens to the | ||
2150 | client's resources when the close_mode argument is | ||
2151 | RetainPermanent or RetainTemporary, see section 2.6. | ||
2152 | |||
2153 | XSetCloseDownMode can generate a BadValue error. | ||
2154 | |||
2155 | Using X Server Connection Close Operations | ||
2156 | |||
2157 | When the X server's connection to a client is closed either by | ||
2158 | an explicit call to XCloseDisplay or by a process that exits, | ||
2159 | the X server performs the following automatic operations: | ||
2160 | * It disowns all selections owned by the client (see | ||
2161 | XSetSelectionOwner). | ||
2162 | * It performs an XUngrabPointer and XUngrabKeyboard if the | ||
2163 | client has actively grabbed the pointer or the keyboard. | ||
2164 | * It performs an XUngrabServer if the client has grabbed the | ||
2165 | server. | ||
2166 | * It releases all passive grabs made by the client. | ||
2167 | * It marks all resources (including colormap entries) | ||
2168 | allocated by the client either as permanent or temporary, | ||
2169 | depending on whether the close-down mode is RetainPermanent | ||
2170 | or RetainTemporary. However, this does not prevent other | ||
2171 | client applications from explicitly destroying the | ||
2172 | resources (see XSetCloseDownMode). | ||
2173 | |||
2174 | When the close-down mode is DestroyAll, the X server destroys | ||
2175 | all of a client's resources as follows: | ||
2176 | * It examines each window in the client's save-set to | ||
2177 | determine if it is an inferior (subwindow) of a window | ||
2178 | created by the client. (The save-set is a list of other | ||
2179 | clients' windows that are referred to as save-set windows.) | ||
2180 | If so, the X server reparents the save-set window to the | ||
2181 | closest ancestor so that the save-set window is not an | ||
2182 | inferior of a window created by the client. The reparenting | ||
2183 | leaves unchanged the absolute coordinates (with respect to | ||
2184 | the root window) of the upper-left outer corner of the | ||
2185 | save-set window. | ||
2186 | * It performs a MapWindow request on the save-set window if | ||
2187 | the save-set window is unmapped. The X server does this | ||
2188 | even if the save-set window was not an inferior of a window | ||
2189 | created by the client. | ||
2190 | * It destroys all windows created by the client. | ||
2191 | * It performs the appropriate free request on each nonwindow | ||
2192 | resource created by the client in the server (for example, | ||
2193 | Font, Pixmap, Cursor, Colormap, and GContext). | ||
2194 | * It frees all colors and colormap entries allocated by a | ||
2195 | client application. | ||
2196 | |||
2197 | Additional processing occurs when the last connection to the X | ||
2198 | server closes. An X server goes through a cycle of having no | ||
2199 | connections and having some connections. When the last | ||
2200 | connection to the X server closes as a result of a connection | ||
2201 | closing with the close_mode of DestroyAll, the X server does | ||
2202 | the following: | ||
2203 | * It resets its state as if it had just been started. The X | ||
2204 | server begins by destroying all lingering resources from | ||
2205 | clients that have terminated in RetainPermanent or | ||
2206 | RetainTemporary mode. | ||
2207 | * It deletes all but the predefined atom identifiers. | ||
2208 | * It deletes all properties on all root windows (see section | ||
2209 | 4.3). | ||
2210 | * It resets all device maps and attributes (for example, key | ||
2211 | click, bell volume, and acceleration) as well as the access | ||
2212 | control list. | ||
2213 | * It restores the standard root tiles and cursors. | ||
2214 | * It restores the default font path. | ||
2215 | * It restores the input focus to state PointerRoot. | ||
2216 | |||
2217 | However, the X server does not reset if you close a connection | ||
2218 | with a close-down mode set to RetainPermanent or | ||
2219 | RetainTemporary. | ||
2220 | |||
2221 | Using Xlib with Threads | ||
2222 | |||
2223 | On systems that have threads, support may be provided to permit | ||
2224 | multiple threads to use Xlib concurrently. | ||
2225 | |||
2226 | To initialize support for concurrent threads, use XInitThreads. | ||
2227 | |||
2228 | Status XInitThreads(void); | ||
2229 | |||
2230 | The XInitThreads function initializes Xlib support for | ||
2231 | concurrent threads. This function must be the first Xlib | ||
2232 | function a multi-threaded program calls, and it must complete | ||
2233 | before any other Xlib call is made. This function returns a | ||
2234 | nonzero status if initialization was successful; otherwise, it | ||
2235 | returns zero. On systems that do not support threads, this | ||
2236 | function always returns zero. | ||
2237 | |||
2238 | It is only necessary to call this function if multiple threads | ||
2239 | might use Xlib concurrently. If all calls to Xlib functions are | ||
2240 | protected by some other access mechanism (for example, a mutual | ||
2241 | exclusion lock in a toolkit or through explicit client | ||
2242 | programming), Xlib thread initialization is not required. It is | ||
2243 | recommended that single-threaded programs not call this | ||
2244 | function. | ||
2245 | |||
2246 | To lock a display across several Xlib calls, use XLockDisplay. | ||
2247 | |||
2248 | XLockDisplay(Display *display); | ||
2249 | |||
2250 | display | ||
2251 | |||
2252 | Specifies the connection to the X server. | ||
2253 | |||
2254 | The XLockDisplay function locks out all other threads from | ||
2255 | using the specified display. Other threads attempting to use | ||
2256 | the display will block until the display is unlocked by this | ||
2257 | thread. Nested calls to XLockDisplay work correctly; the | ||
2258 | display will not actually be unlocked until XUnlockDisplay has | ||
2259 | been called the same number of times as XLockDisplay. This | ||
2260 | function has no effect unless Xlib was successfully initialized | ||
2261 | for threads using XInitThreads. | ||
2262 | |||
2263 | To unlock a display, use XUnlockDisplay. | ||
2264 | |||
2265 | XUnlockDisplay(Display *display); | ||
2266 | |||
2267 | display | ||
2268 | |||
2269 | Specifies the connection to the X server. | ||
2270 | |||
2271 | The XUnlockDisplay function allows other threads to use the | ||
2272 | specified display again. Any threads that have blocked on the | ||
2273 | display are allowed to continue. Nested locking works | ||
2274 | correctly; if XLockDisplay has been called multiple times by a | ||
2275 | thread, then XUnlockDisplay must be called an equal number of | ||
2276 | times before the display is actually unlocked. This function | ||
2277 | has no effect unless Xlib was successfully initialized for | ||
2278 | threads using XInitThreads. | ||
2279 | |||
2280 | Using Internal Connections | ||
2281 | |||
2282 | In addition to the connection to the X server, an Xlib | ||
2283 | implementation may require connections to other kinds of | ||
2284 | servers (for example, to input method servers as described in | ||
2285 | chapter 13). Toolkits and clients that use multiple displays, | ||
2286 | or that use displays in combination with other inputs, need to | ||
2287 | obtain these additional connections to correctly block until | ||
2288 | input is available and need to process that input when it is | ||
2289 | available. Simple clients that use a single display and block | ||
2290 | for input in an Xlib event function do not need to use these | ||
2291 | facilities. | ||
2292 | |||
2293 | To track internal connections for a display, use | ||
2294 | XAddConnectionWatch. | ||
2295 | |||
2296 | typedef void (*XConnectionWatchProc)(Display *display, XPointer | ||
2297 | client_data, int fd, Bool opening, XPointer *watch_data); | ||
2298 | |||
2299 | Status XAddConnectionWatch(Display *display, | ||
2300 | XConnectionWatchProc procedure, XPointer client_data); | ||
2301 | |||
2302 | display | ||
2303 | |||
2304 | Specifies the connection to the X server. | ||
2305 | |||
2306 | procedure | ||
2307 | |||
2308 | Specifies the procedure to be called. | ||
2309 | |||
2310 | client_data | ||
2311 | |||
2312 | Specifies the additional client data. | ||
2313 | |||
2314 | The XAddConnectionWatch function registers a procedure to be | ||
2315 | called each time Xlib opens or closes an internal connection | ||
2316 | for the specified display. The procedure is passed the display, | ||
2317 | the specified client_data, the file descriptor for the | ||
2318 | connection, a Boolean indicating whether the connection is | ||
2319 | being opened or closed, and a pointer to a location for private | ||
2320 | watch data. If opening is True, the procedure can store a | ||
2321 | pointer to private data in the location pointed to by | ||
2322 | watch_data; when the procedure is later called for this same | ||
2323 | connection and opening is False, the location pointed to by | ||
2324 | watch_data will hold this same private data pointer. | ||
2325 | |||
2326 | This function can be called at any time after a display is | ||
2327 | opened. If internal connections already exist, the registered | ||
2328 | procedure will immediately be called for each of them, before | ||
2329 | XAddConnectionWatch returns. XAddConnectionWatch returns a | ||
2330 | nonzero status if the procedure is successfully registered; | ||
2331 | otherwise, it returns zero. | ||
2332 | |||
2333 | The registered procedure should not call any Xlib functions. If | ||
2334 | the procedure directly or indirectly causes the state of | ||
2335 | internal connections or watch procedures to change, the result | ||
2336 | is not defined. If Xlib has been initialized for threads, the | ||
2337 | procedure is called with the display locked and the result of a | ||
2338 | call by the procedure to any Xlib function that locks the | ||
2339 | display is not defined unless the executing thread has | ||
2340 | externally locked the display using XLockDisplay. | ||
2341 | |||
2342 | To stop tracking internal connections for a display, use | ||
2343 | XRemoveConnectionWatch. | ||
2344 | |||
2345 | Status XRemoveConnectionWatch(Display *display, | ||
2346 | XConnectionWatchProc procedure, XPointer client_data); | ||
2347 | |||
2348 | display | ||
2349 | |||
2350 | Specifies the connection to the X server. | ||
2351 | |||
2352 | procedure | ||
2353 | |||
2354 | Specifies the procedure to be called. | ||
2355 | |||
2356 | client_data | ||
2357 | |||
2358 | Specifies the additional client data. | ||
2359 | |||
2360 | The XRemoveConnectionWatch function removes a previously | ||
2361 | registered connection watch procedure. The client_data must | ||
2362 | match the client_data used when the procedure was initially | ||
2363 | registered. | ||
2364 | |||
2365 | To process input on an internal connection, use | ||
2366 | XProcessInternalConnection. | ||
2367 | |||
2368 | void XProcessInternalConnection(Display *display, int fd); | ||
2369 | |||
2370 | display | ||
2371 | |||
2372 | Specifies the connection to the X server. | ||
2373 | |||
2374 | fd | ||
2375 | |||
2376 | Specifies the file descriptor. | ||
2377 | |||
2378 | The XProcessInternalConnection function processes input | ||
2379 | available on an internal connection. This function should be | ||
2380 | called for an internal connection only after an operating | ||
2381 | system facility (for example, select or poll) has indicated | ||
2382 | that input is available; otherwise, the effect is not defined. | ||
2383 | |||
2384 | To obtain all of the current internal connections for a | ||
2385 | display, use XInternalConnectionNumbers. | ||
2386 | |||
2387 | Status XInternalConnectionNumbers(Display *display, int ** fd, | ||
2388 | int * count_return); | ||
2389 | |||
2390 | display | ||
2391 | |||
2392 | Specifies the connection to the X server. | ||
2393 | |||
2394 | fd_return | ||
2395 | |||
2396 | Returns the file descriptors. | ||
2397 | |||
2398 | count_return | ||
2399 | |||
2400 | Returns the number of file descriptors. | ||
2401 | |||
2402 | The XInternalConnectionNumbers function returns a list of the | ||
2403 | file descriptors for all internal connections currently open | ||
2404 | for the specified display. When the allocated list is no longer | ||
2405 | needed, free it by using XFree. This functions returns a | ||
2406 | nonzero status if the list is successfully allocated; | ||
2407 | otherwise, it returns zero. | ||
2408 | |||
2409 | Chapter 3. Window Functions | ||
2410 | |||
2411 | Table of Contents | ||
2412 | |||
2413 | Visual Types | ||
2414 | Window Attributes | ||
2415 | |||
2416 | Background Attribute | ||
2417 | Border Attribute | ||
2418 | Gravity Attributes | ||
2419 | Backing Store Attribute | ||
2420 | Save Under Flag | ||
2421 | Backing Planes and Backing Pixel Attributes | ||
2422 | Event Mask and Do Not Propagate Mask Attributes | ||
2423 | Override Redirect Flag | ||
2424 | Colormap Attribute | ||
2425 | Cursor Attribute | ||
2426 | |||
2427 | Creating Windows | ||
2428 | Destroying Windows | ||
2429 | Mapping Windows | ||
2430 | Unmapping Windows | ||
2431 | Configuring Windows | ||
2432 | Changing Window Stacking Order | ||
2433 | Changing Window Attributes | ||
2434 | |||
2435 | Visual Types | ||
2436 | |||
2437 | On some display hardware, it may be possible to deal with color | ||
2438 | resources in more than one way. For example, you may be able to | ||
2439 | deal with a screen of either 12-bit depth with arbitrary | ||
2440 | mapping of pixel to color (pseudo-color) or 24-bit depth with 8 | ||
2441 | bits of the pixel dedicated to each of red, green, and blue. | ||
2442 | These different ways of dealing with the visual aspects of the | ||
2443 | screen are called visuals. For each screen of the display, | ||
2444 | there may be a list of valid visual types supported at | ||
2445 | different depths of the screen. Because default windows and | ||
2446 | visual types are defined for each screen, most simple | ||
2447 | applications need not deal with this complexity. Xlib provides | ||
2448 | macros and functions that return the default root window, the | ||
2449 | default depth of the default root window, and the default | ||
2450 | visual type (see sections 2.2.1 and 16.7). | ||
2451 | |||
2452 | Xlib uses an opaque Visual structure that contains information | ||
2453 | about the possible color mapping. The visual utility functions | ||
2454 | (see section 16.7) use an XVisualInfo structure to return this | ||
2455 | information to an application. The members of this structure | ||
2456 | pertinent to this discussion are class, red_mask, green_mask, | ||
2457 | blue_mask, bits_per_rgb, and colormap_size. The class member | ||
2458 | specifies one of the possible visual classes of the screen and | ||
2459 | can be StaticGray, StaticColor, TrueColor, GrayScale, | ||
2460 | PseudoColor, or DirectColor. | ||
2461 | |||
2462 | The following concepts may serve to make the explanation of | ||
2463 | visual types clearer. The screen can be color or grayscale, can | ||
2464 | have a colormap that is writable or read-only, and can also | ||
2465 | have a colormap whose indices are decomposed into separate RGB | ||
2466 | pieces, provided one is not on a grayscale screen. This leads | ||
2467 | to the following diagram: | ||
2468 | Color Gray-Scale | ||
2469 | R/O R/W R/O R/W | ||
2470 | ---------------------------------------------- | ||
2471 | Undecomposed Static Pseudo Static Gray | ||
2472 | Colormap Color Color Gray Scale | ||
2473 | |||
2474 | Decomposed True Direct | ||
2475 | Colormap Color Color | ||
2476 | ---------------------------------------------- | ||
2477 | |||
2478 | Conceptually, as each pixel is read out of video memory for | ||
2479 | display on the screen, it goes through a look-up stage by | ||
2480 | indexing into a colormap. Colormaps can be manipulated | ||
2481 | arbitrarily on some hardware, in limited ways on other | ||
2482 | hardware, and not at all on other hardware. The visual types | ||
2483 | affect the colormap and the RGB values in the following ways: | ||
2484 | |||
2485 | * For PseudoColor, a pixel value indexes a colormap to | ||
2486 | produce independent RGB values, and the RGB values can be | ||
2487 | changed dynamically. | ||
2488 | * GrayScale is treated the same way as PseudoColor except | ||
2489 | that the primary that drives the screen is undefined. Thus, | ||
2490 | the client should always store the same value for red, | ||
2491 | green, and blue in the colormaps. | ||
2492 | * For DirectColor, a pixel value is decomposed into separate | ||
2493 | RGB subfields, and each subfield separately indexes the | ||
2494 | colormap for the corresponding value. The RGB values can be | ||
2495 | changed dynamically. | ||
2496 | * TrueColor is treated the same way as DirectColor except | ||
2497 | that the colormap has predefined, read-only RGB values. | ||
2498 | These RGB values are server dependent but provide linear or | ||
2499 | near-linear ramps in each primary. | ||
2500 | * StaticColor is treated the same way as PseudoColor except | ||
2501 | that the colormap has predefined, read-only, | ||
2502 | server-dependent RGB values. | ||
2503 | * StaticGray is treated the same way as StaticColor except | ||
2504 | that the RGB values are equal for any single pixel value, | ||
2505 | thus resulting in shades of gray. StaticGray with a | ||
2506 | two-entry colormap can be thought of as monochrome. | ||
2507 | |||
2508 | The red_mask, green_mask, and blue_mask members are only | ||
2509 | defined for DirectColor and TrueColor. Each has one contiguous | ||
2510 | set of bits with no intersections. The bits_per_rgb member | ||
2511 | specifies the log base 2 of the number of distinct color values | ||
2512 | (individually) of red, green, and blue. Actual RGB values are | ||
2513 | unsigned 16-bit numbers. The colormap_size member defines the | ||
2514 | number of available colormap entries in a newly created | ||
2515 | colormap. For DirectColor and TrueColor, this is the size of an | ||
2516 | individual pixel subfield. | ||
2517 | |||
2518 | To obtain the visual ID from a Visual, use XVisualIDFromVisual. | ||
2519 | |||
2520 | VisualID XVisualIDFromVisual(Visual *visual); | ||
2521 | |||
2522 | visual | ||
2523 | |||
2524 | Specifies the visual type. | ||
2525 | |||
2526 | The XVisualIDFromVisual function returns the visual ID for the | ||
2527 | specified visual type. | ||
2528 | |||
2529 | Window Attributes | ||
2530 | |||
2531 | All InputOutput windows have a border width of zero or more | ||
2532 | pixels, an optional background, an event suppression mask | ||
2533 | (which suppresses propagation of events from children), and a | ||
2534 | property list (see section 4.3). The window border and | ||
2535 | background can be a solid color or a pattern, called a tile. | ||
2536 | All windows except the root have a parent and are clipped by | ||
2537 | their parent. If a window is stacked on top of another window, | ||
2538 | it obscures that other window for the purpose of input. If a | ||
2539 | window has a background (almost all do), it obscures the other | ||
2540 | window for purposes of output. Attempts to output to the | ||
2541 | obscured area do nothing, and no input events (for example, | ||
2542 | pointer motion) are generated for the obscured area. | ||
2543 | |||
2544 | Windows also have associated property lists (see section 4.3). | ||
2545 | |||
2546 | Both InputOutput and InputOnly windows have the following | ||
2547 | common attributes, which are the only attributes of an | ||
2548 | InputOnly window: | ||
2549 | * win-gravity | ||
2550 | * event-mask | ||
2551 | * do-not-propagate-mask | ||
2552 | * override-redirect | ||
2553 | * cursor | ||
2554 | |||
2555 | If you specify any other attributes for an InputOnly window, a | ||
2556 | BadMatch error results. | ||
2557 | |||
2558 | InputOnly windows are used for controlling input events in | ||
2559 | situations where InputOutput windows are unnecessary. InputOnly | ||
2560 | windows are invisible; can only be used to control such things | ||
2561 | as cursors, input event generation, and grabbing; and cannot be | ||
2562 | used in any graphics requests. Note that InputOnly windows | ||
2563 | cannot have InputOutput windows as inferiors. | ||
2564 | |||
2565 | Windows have borders of a programmable width and pattern as | ||
2566 | well as a background pattern or tile. Pixel values can be used | ||
2567 | for solid colors. The background and border pixmaps can be | ||
2568 | destroyed immediately after creating the window if no further | ||
2569 | explicit references to them are to be made. The pattern can | ||
2570 | either be relative to the parent or absolute. If | ||
2571 | ParentRelative, the parent's background is used. | ||
2572 | |||
2573 | When windows are first created, they are not visible (not | ||
2574 | mapped) on the screen. Any output to a window that is not | ||
2575 | visible on the screen and that does not have backing store will | ||
2576 | be discarded. An application may wish to create a window long | ||
2577 | before it is mapped to the screen. When a window is eventually | ||
2578 | mapped to the screen (using XMapWindow), the X server generates | ||
2579 | an Expose event for the window if backing store has not been | ||
2580 | maintained. | ||
2581 | |||
2582 | A window manager can override your choice of size, border | ||
2583 | width, and position for a top-level window. Your program must | ||
2584 | be prepared to use the actual size and position of the top | ||
2585 | window. It is not acceptable for a client application to resize | ||
2586 | itself unless in direct response to a human command to do so. | ||
2587 | Instead, either your program should use the space given to it, | ||
2588 | or if the space is too small for any useful work, your program | ||
2589 | might ask the user to resize the window. The border of your | ||
2590 | top-level window is considered fair game for window managers. | ||
2591 | |||
2592 | To set an attribute of a window, set the appropriate member of | ||
2593 | the XSetWindowAttributes structure and OR in the corresponding | ||
2594 | value bitmask in your subsequent calls to XCreateWindow and | ||
2595 | XChangeWindowAttributes, or use one of the other convenience | ||
2596 | functions that set the appropriate attribute. The symbols for | ||
2597 | the value mask bits and the XSetWindowAttributes structure are: | ||
2598 | |||
2599 | /* Window attribute value mask bits */ | ||
2600 | /* Window attribute value mask bits */ | ||
2601 | #define CWBackPixmap (1L<<0) | ||
2602 | #define CWBackPixel (1L<<1) | ||
2603 | #define CWBorderPixmap (1L<<2) | ||
2604 | #define CWBorderPixel (1L<<3) | ||
2605 | #define CWBitGravity (1L<<4) | ||
2606 | #define CWWinGravity (1L<<5) | ||
2607 | #define CWBackingStore (1L<<6) | ||
2608 | #define CWBackingPlanes (1L<<7) | ||
2609 | #define CWBackingPixel (1L<<8) | ||
2610 | #define CWOverrideRedirect (1L<<9) | ||
2611 | #define CWSaveUnder (1L<<10) | ||
2612 | #define CWEventMask (1L<<11) | ||
2613 | #define CWDontPropagate (1L<<12) | ||
2614 | #define CWColormap (1L<<13) | ||
2615 | #define CWCursor (1L<<14) | ||
2616 | |||
2617 | |||
2618 | |||
2619 | /* Values */ | ||
2620 | |||
2621 | typedef struct { | ||
2622 | Pixmap background_pixmap; /* background, None, or ParentRelativ | ||
2623 | e */ | ||
2624 | unsigned long background_pixel; /* background pixel */ | ||
2625 | Pixmap border_pixmap; /* border of the window or CopyFromP | ||
2626 | arent */ | ||
2627 | unsigned long border_pixel; /* border pixel value */ | ||
2628 | int bit_gravity; /* one of bit gravity values */ | ||
2629 | int win_gravity; /* one of the window gravity values */ | ||
2630 | int backing_store; /* NotUseful, WhenMapped, Always */ | ||
2631 | unsigned long backing_planes; /* planes to be preserved if poss | ||
2632 | ible */ | ||
2633 | unsigned long backing_pixel; /* value to use in restoring plane | ||
2634 | s */ | ||
2635 | Bool save_under; /* should bits under be saved? (popups) */ | ||
2636 | long event_mask; /* set of events that should be saved */ | ||
2637 | long do_not_propagate_mask; /* set of events that should not pr | ||
2638 | opagate */ | ||
2639 | Bool override_redirect; /* boolean value for override_redirect | ||
2640 | */ | ||
2641 | Colormap colormap; /* color map to be associated with window */ | ||
2642 | Cursor cursor; /* cursor to be displayed (or None) */ | ||
2643 | } XSetWindowAttributes; | ||
2644 | |||
2645 | The following lists the defaults for each window attribute and | ||
2646 | indicates whether the attribute is applicable to InputOutput | ||
2647 | and InputOnly windows: | ||
2648 | Attribute Default InputOutput InputOnly | ||
2649 | background-pixmap None Yes No | ||
2650 | background-pixel Undefined Yes No | ||
2651 | border-pixmap CopyFromParent Yes No | ||
2652 | border-pixel Undefined Yes No | ||
2653 | bit-gravity ForgetGravity Yes No | ||
2654 | win-gravity NorthWestGravity Yes Yes | ||
2655 | backing-store NotUseful Yes No | ||
2656 | backing-planes All ones Yes No | ||
2657 | backing-pixel zero Yes No | ||
2658 | save-under False Yes No | ||
2659 | event-mask empty set Yes Yes | ||
2660 | do-not-propagate-mask empty set Yes Yes | ||
2661 | override-redirect False Yes Yes | ||
2662 | colormap CopyFromParent Yes No | ||
2663 | cursor None Yes Yes | ||
2664 | |||
2665 | Background Attribute | ||
2666 | |||
2667 | Only InputOutput windows can have a background. You can set the | ||
2668 | background of an InputOutput window by using a pixel or a | ||
2669 | pixmap. | ||
2670 | |||
2671 | The background-pixmap attribute of a window specifies the | ||
2672 | pixmap to be used for a window's background. This pixmap can be | ||
2673 | of any size, although some sizes may be faster than others. The | ||
2674 | background-pixel attribute of a window specifies a pixel value | ||
2675 | used to paint a window's background in a single color. | ||
2676 | |||
2677 | You can set the background-pixmap to a pixmap, None (default), | ||
2678 | or ParentRelative. You can set the background-pixel of a window | ||
2679 | to any pixel value (no default). If you specify a | ||
2680 | background-pixel, it overrides either the default | ||
2681 | background-pixmap or any value you may have set in the | ||
2682 | background-pixmap. A pixmap of an undefined size that is filled | ||
2683 | with the background-pixel is used for the background. Range | ||
2684 | checking is not performed on the background pixel; it simply is | ||
2685 | truncated to the appropriate number of bits. | ||
2686 | |||
2687 | If you set the background-pixmap, it overrides the default. The | ||
2688 | background-pixmap and the window must have the same depth, or a | ||
2689 | BadMatch error results. If you set background-pixmap to None, | ||
2690 | the window has no defined background. If you set the | ||
2691 | background-pixmap to ParentRelative: | ||
2692 | * The parent window's background-pixmap is used. The child | ||
2693 | window, however, must have the same depth as its parent, or | ||
2694 | a BadMatch error results. | ||
2695 | * If the parent window has a background-pixmap of None, the | ||
2696 | window also has a background-pixmap of None. | ||
2697 | * A copy of the parent window's background-pixmap is not | ||
2698 | made. The parent's background-pixmap is examined each time | ||
2699 | the child window's background-pixmap is required. | ||
2700 | * The background tile origin always aligns with the parent | ||
2701 | window's background tile origin. If the background-pixmap | ||
2702 | is not ParentRelative, the background tile origin is the | ||
2703 | child window's origin. | ||
2704 | |||
2705 | Setting a new background, whether by setting background-pixmap | ||
2706 | or background-pixel, overrides any previous background. The | ||
2707 | background-pixmap can be freed immediately if no further | ||
2708 | explicit reference is made to it (the X server will keep a copy | ||
2709 | to use when needed). If you later draw into the pixmap used for | ||
2710 | the background, what happens is undefined because the X | ||
2711 | implementation is free to make a copy of the pixmap or to use | ||
2712 | the same pixmap. | ||
2713 | |||
2714 | When no valid contents are available for regions of a window | ||
2715 | and either the regions are visible or the server is maintaining | ||
2716 | backing store, the server automatically tiles the regions with | ||
2717 | the window's background unless the window has a background of | ||
2718 | None. If the background is None, the previous screen contents | ||
2719 | from other windows of the same depth as the window are simply | ||
2720 | left in place as long as the contents come from the parent of | ||
2721 | the window or an inferior of the parent. Otherwise, the initial | ||
2722 | contents of the exposed regions are undefined. Expose events | ||
2723 | are then generated for the regions, even if the | ||
2724 | background-pixmap is None (see section 10.9). | ||
2725 | |||
2726 | Border Attribute | ||
2727 | |||
2728 | Only InputOutput windows can have a border. You can set the | ||
2729 | border of an InputOutput window by using a pixel or a pixmap. | ||
2730 | |||
2731 | The border-pixmap attribute of a window specifies the pixmap to | ||
2732 | be used for a window's border. The border-pixel attribute of a | ||
2733 | window specifies a pixmap of undefined size filled with that | ||
2734 | pixel be used for a window's border. Range checking is not | ||
2735 | performed on the background pixel; it simply is truncated to | ||
2736 | the appropriate number of bits. The border tile origin is | ||
2737 | always the same as the background tile origin. | ||
2738 | |||
2739 | You can also set the border-pixmap to a pixmap of any size | ||
2740 | (some may be faster than others) or to CopyFromParent | ||
2741 | (default). You can set the border-pixel to any pixel value (no | ||
2742 | default). | ||
2743 | |||
2744 | If you set a border-pixmap, it overrides the default. The | ||
2745 | border-pixmap and the window must have the same depth, or a | ||
2746 | BadMatch error results. If you set the border-pixmap to | ||
2747 | CopyFromParent, the parent window's border-pixmap is copied. | ||
2748 | Subsequent changes to the parent window's border attribute do | ||
2749 | not affect the child window. However, the child window must | ||
2750 | have the same depth as the parent window, or a BadMatch error | ||
2751 | results. | ||
2752 | |||
2753 | The border-pixmap can be freed immediately if no further | ||
2754 | explicit reference is made to it. If you later draw into the | ||
2755 | pixmap used for the border, what happens is undefined because | ||
2756 | the X implementation is free either to make a copy of the | ||
2757 | pixmap or to use the same pixmap. If you specify a | ||
2758 | border-pixel, it overrides either the default border-pixmap or | ||
2759 | any value you may have set in the border-pixmap. All pixels in | ||
2760 | the window's border will be set to the border-pixel. Setting a | ||
2761 | new border, whether by setting border-pixel or by setting | ||
2762 | border-pixmap, overrides any previous border. | ||
2763 | |||
2764 | Output to a window is always clipped to the inside of the | ||
2765 | window. Therefore, graphics operations never affect the window | ||
2766 | border. | ||
2767 | |||
2768 | Gravity Attributes | ||
2769 | |||
2770 | The bit gravity of a window defines which region of the window | ||
2771 | should be retained when an InputOutput window is resized. The | ||
2772 | default value for the bit-gravity attribute is ForgetGravity. | ||
2773 | The window gravity of a window allows you to define how the | ||
2774 | InputOutput or InputOnly window should be repositioned if its | ||
2775 | parent is resized. The default value for the win-gravity | ||
2776 | attribute is NorthWestGravity. | ||
2777 | |||
2778 | If the inside width or height of a window is not changed and if | ||
2779 | the window is moved or its border is changed, then the contents | ||
2780 | of the window are not lost but move with the window. Changing | ||
2781 | the inside width or height of the window causes its contents to | ||
2782 | be moved or lost (depending on the bit-gravity of the window) | ||
2783 | and causes children to be reconfigured (depending on their | ||
2784 | win-gravity). For a change of width and height, the (x, y) | ||
2785 | pairs are defined: | ||
2786 | |||
2787 | Gravity Direction Coordinates | ||
2788 | NorthWestGravity (0, 0) | ||
2789 | NorthGravity (Width/2, 0) | ||
2790 | NorthEastGravity (Width, 0) | ||
2791 | WestGravity (0, Height/2) | ||
2792 | CenterGravity (Width/2, Height/2) | ||
2793 | EastGravity (Width, Height/2) | ||
2794 | SouthWestGravity (0, Height) | ||
2795 | SouthGravity (Width/2, Height) | ||
2796 | SouthEastGravity (Width, Height) | ||
2797 | |||
2798 | When a window with one of these bit-gravity values is resized, | ||
2799 | the corresponding pair defines the change in position of each | ||
2800 | pixel in the window. When a window with one of these | ||
2801 | win-gravities has its parent window resized, the corresponding | ||
2802 | pair defines the change in position of the window within the | ||
2803 | parent. When a window is so repositioned, a GravityNotify event | ||
2804 | is generated (see section 10.10.5). | ||
2805 | |||
2806 | A bit-gravity of StaticGravity indicates that the contents or | ||
2807 | origin should not move relative to the origin of the root | ||
2808 | window. If the change in size of the window is coupled with a | ||
2809 | change in position (x, y), then for bit-gravity the change in | ||
2810 | position of each pixel is (-x, -y), and for win-gravity the | ||
2811 | change in position of a child when its parent is so resized is | ||
2812 | (-x, -y). Note that StaticGravity still only takes effect when | ||
2813 | the width or height of the window is changed, not when the | ||
2814 | window is moved. | ||
2815 | |||
2816 | A bit-gravity of ForgetGravity indicates that the window's | ||
2817 | contents are always discarded after a size change, even if a | ||
2818 | backing store or save under has been requested. The window is | ||
2819 | tiled with its background and zero or more Expose events are | ||
2820 | generated. If no background is defined, the existing screen | ||
2821 | contents are not altered. Some X servers may also ignore the | ||
2822 | specified bit-gravity and always generate Expose events. | ||
2823 | |||
2824 | The contents and borders of inferiors are not affected by their | ||
2825 | parent's bit-gravity. A server is permitted to ignore the | ||
2826 | specified bit-gravity and use Forget instead. | ||
2827 | |||
2828 | A win-gravity of UnmapGravity is like NorthWestGravity (the | ||
2829 | window is not moved), except the child is also unmapped when | ||
2830 | the parent is resized, and an UnmapNotify event is generated. | ||
2831 | |||
2832 | Backing Store Attribute | ||
2833 | |||
2834 | Some implementations of the X server may choose to maintain the | ||
2835 | contents of InputOutput windows. If the X server maintains the | ||
2836 | contents of a window, the off-screen saved pixels are known as | ||
2837 | backing store. The backing store advises the X server on what | ||
2838 | to do with the contents of a window. The backing-store | ||
2839 | attribute can be set to NotUseful (default), WhenMapped, or | ||
2840 | Always. | ||
2841 | |||
2842 | A backing-store attribute of NotUseful advises the X server | ||
2843 | that maintaining contents is unnecessary, although some X | ||
2844 | implementations may still choose to maintain contents and, | ||
2845 | therefore, not generate Expose events. A backing-store | ||
2846 | attribute of WhenMapped advises the X server that maintaining | ||
2847 | contents of obscured regions when the window is mapped would be | ||
2848 | beneficial. In this case, the server may generate an Expose | ||
2849 | event when the window is created. A backing-store attribute of | ||
2850 | Always advises the X server that maintaining contents even when | ||
2851 | the window is unmapped would be beneficial. Even if the window | ||
2852 | is larger than its parent, this is a request to the X server to | ||
2853 | maintain complete contents, not just the region within the | ||
2854 | parent window boundaries. While the X server maintains the | ||
2855 | window's contents, Expose events normally are not generated, | ||
2856 | but the X server may stop maintaining contents at any time. | ||
2857 | |||
2858 | When the contents of obscured regions of a window are being | ||
2859 | maintained, regions obscured by noninferior windows are | ||
2860 | included in the destination of graphics requests (and source, | ||
2861 | when the window is the source). However, regions obscured by | ||
2862 | inferior windows are not included. | ||
2863 | |||
2864 | Save Under Flag | ||
2865 | |||
2866 | Some server implementations may preserve contents of | ||
2867 | InputOutput windows under other InputOutput windows. This is | ||
2868 | not the same as preserving the contents of a window for you. | ||
2869 | You may get better visual appeal if transient windows (for | ||
2870 | example, pop-up menus) request that the system preserve the | ||
2871 | screen contents under them, so the temporarily obscured | ||
2872 | applications do not have to repaint. | ||
2873 | |||
2874 | You can set the save-under flag to True or False (default). If | ||
2875 | save-under is True, the X server is advised that, when this | ||
2876 | window is mapped, saving the contents of windows it obscures | ||
2877 | would be beneficial. | ||
2878 | |||
2879 | Backing Planes and Backing Pixel Attributes | ||
2880 | |||
2881 | You can set backing planes to indicate (with bits set to 1) | ||
2882 | which bit planes of an InputOutput window hold dynamic data | ||
2883 | that must be preserved in backing store and during save unders. | ||
2884 | The default value for the backing-planes attribute is all bits | ||
2885 | set to 1. You can set backing pixel to specify what bits to use | ||
2886 | in planes not covered by backing planes. The default value for | ||
2887 | the backing-pixel attribute is all bits set to 0. The X server | ||
2888 | is free to save only the specified bit planes in the backing | ||
2889 | store or the save under and is free to regenerate the remaining | ||
2890 | planes with the specified pixel value. Any extraneous bits in | ||
2891 | these values (that is, those bits beyond the specified depth of | ||
2892 | the window) may be simply ignored. If you request backing store | ||
2893 | or save unders, you should use these members to minimize the | ||
2894 | amount of off-screen memory required to store your window. | ||
2895 | |||
2896 | Event Mask and Do Not Propagate Mask Attributes | ||
2897 | |||
2898 | The event mask defines which events the client is interested in | ||
2899 | for this InputOutput or InputOnly window (or, for some event | ||
2900 | types, inferiors of this window). The event mask is the bitwise | ||
2901 | inclusive OR of zero or more of the valid event mask bits. You | ||
2902 | can specify that no maskable events are reported by setting | ||
2903 | NoEventMask (default). | ||
2904 | |||
2905 | The do-not-propagate-mask attribute defines which events should | ||
2906 | not be propagated to ancestor windows when no client has the | ||
2907 | event type selected in this InputOutput or InputOnly window. | ||
2908 | The do-not-propagate-mask is the bitwise inclusive OR of zero | ||
2909 | or more of the following masks: KeyPress, KeyRelease, | ||
2910 | ButtonPress, ButtonRelease, PointerMotion, Button1Motion, | ||
2911 | Button2Motion, Button3Motion, Button4Motion, Button5Motion, and | ||
2912 | ButtonMotion. You can specify that all events are propagated by | ||
2913 | setting NoEventMask (default). | ||
2914 | |||
2915 | Override Redirect Flag | ||
2916 | |||
2917 | To control window placement or to add decoration, a window | ||
2918 | manager often needs to intercept (redirect) any map or | ||
2919 | configure request. Pop-up windows, however, often need to be | ||
2920 | mapped without a window manager getting in the way. To control | ||
2921 | whether an InputOutput or InputOnly window is to ignore these | ||
2922 | structure control facilities, use the override-redirect flag. | ||
2923 | |||
2924 | The override-redirect flag specifies whether map and configure | ||
2925 | requests on this window should override a | ||
2926 | SubstructureRedirectMask on the parent. You can set the | ||
2927 | override-redirect flag to True or False (default). Window | ||
2928 | managers use this information to avoid tampering with pop-up | ||
2929 | windows (see also chapter 14). | ||
2930 | |||
2931 | Colormap Attribute | ||
2932 | |||
2933 | The colormap attribute specifies which colormap best reflects | ||
2934 | the true colors of the InputOutput window. The colormap must | ||
2935 | have the same visual type as the window, or a BadMatch error | ||
2936 | results. X servers capable of supporting multiple hardware | ||
2937 | colormaps can use this information, and window managers can use | ||
2938 | it for calls to XInstallColormap. You can set the colormap | ||
2939 | attribute to a colormap or to CopyFromParent (default). | ||
2940 | |||
2941 | If you set the colormap to CopyFromParent, the parent window's | ||
2942 | colormap is copied and used by its child. However, the child | ||
2943 | window must have the same visual type as the parent, or a | ||
2944 | BadMatch error results. The parent window must not have a | ||
2945 | colormap of None, or a BadMatch error results. The colormap is | ||
2946 | copied by sharing the colormap object between the child and | ||
2947 | parent, not by making a complete copy of the colormap contents. | ||
2948 | Subsequent changes to the parent window's colormap attribute do | ||
2949 | not affect the child window. | ||
2950 | |||
2951 | Cursor Attribute | ||
2952 | |||
2953 | The cursor attribute specifies which cursor is to be used when | ||
2954 | the pointer is in the InputOutput or InputOnly window. You can | ||
2955 | set the cursor to a cursor or None (default). | ||
2956 | |||
2957 | If you set the cursor to None, the parent's cursor is used when | ||
2958 | the pointer is in the InputOutput or InputOnly window, and any | ||
2959 | change in the parent's cursor will cause an immediate change in | ||
2960 | the displayed cursor. By calling XFreeCursor, the cursor can be | ||
2961 | freed immediately as long as no further explicit reference to | ||
2962 | it is made. | ||
2963 | |||
2964 | Creating Windows | ||
2965 | |||
2966 | Xlib provides basic ways for creating windows, and toolkits | ||
2967 | often supply higher-level functions specifically for creating | ||
2968 | and placing top-level windows, which are discussed in the | ||
2969 | appropriate toolkit documentation. If you do not use a toolkit, | ||
2970 | however, you must provide some standard information or hints | ||
2971 | for the window manager by using the Xlib inter-client | ||
2972 | communication functions (see chapter 14). | ||
2973 | |||
2974 | If you use Xlib to create your own top-level windows (direct | ||
2975 | children of the root window), you must observe the following | ||
2976 | rules so that all applications interact reasonably across the | ||
2977 | different styles of window management: | ||
2978 | * You must never fight with the window manager for the size | ||
2979 | or placement of your top-level window. | ||
2980 | * You must be able to deal with whatever size window you get, | ||
2981 | even if this means that your application just prints a | ||
2982 | message like ``Please make me bigger'' in its window. | ||
2983 | * You should only attempt to resize or move top-level windows | ||
2984 | in direct response to a user request. If a request to | ||
2985 | change the size of a top-level window fails, you must be | ||
2986 | prepared to live with what you get. You are free to resize | ||
2987 | or move the children of top-level windows as necessary. | ||
2988 | (Toolkits often have facilities for automatic relayout.) | ||
2989 | * If you do not use a toolkit that automatically sets | ||
2990 | standard window properties, you should set these properties | ||
2991 | for top-level windows before mapping them. | ||
2992 | |||
2993 | For further information, see chapter 14 and the Inter-Client | ||
2994 | Communication Conventions Manual. | ||
2995 | |||
2996 | XCreateWindow is the more general function that allows you to | ||
2997 | set specific window attributes when you create a window. | ||
2998 | XCreateSimpleWindow creates a window that inherits its | ||
2999 | attributes from its parent window. | ||
3000 | |||
3001 | The X server acts as if InputOnly windows do not exist for the | ||
3002 | purposes of graphics requests, exposure processing, and | ||
3003 | VisibilityNotify events. An InputOnly window cannot be used as | ||
3004 | a drawable (that is, as a source or destination for graphics | ||
3005 | requests). InputOnly and InputOutput windows act identically in | ||
3006 | other respects (properties, grabs, input control, and so on). | ||
3007 | Extension packages can define other classes of windows. | ||
3008 | |||
3009 | To create an unmapped window and set its window attributes, use | ||
3010 | XCreateWindow. | ||
3011 | |||
3012 | Window XCreateWindow(Display *display, Window parent, int x, | ||
3013 | int y, unsigned int width, unsigned int height, unsigned int | ||
3014 | border_width, int depth, unsigned int class, Visual *visual, | ||
3015 | unsigned long valuemask, XSetWindowAttributes *attributes); | ||
3016 | |||
3017 | display | ||
3018 | |||
3019 | Specifies the connection to the X server. | ||
3020 | |||
3021 | parent | ||
3022 | |||
3023 | Specifies the parent window. | ||
3024 | |||
3025 | x | ||
3026 | |||
3027 | y | ||
3028 | |||
3029 | Specify the x and y coordinates, which are the top-left outside | ||
3030 | corner of the created window's borders and are relative to the | ||
3031 | inside of the parent window's borders. | ||
3032 | |||
3033 | width | ||
3034 | |||
3035 | height | ||
3036 | |||
3037 | Specify the width and height, which are the created window's | ||
3038 | inside dimensions and do not include the created window's | ||
3039 | borders. The dimensions must be nonzero, or a BadValue error | ||
3040 | results. | ||
3041 | |||
3042 | border_width | ||
3043 | |||
3044 | Specifies the width of the created window's border in pixels. | ||
3045 | |||
3046 | depth | ||
3047 | |||
3048 | Specifies the window's depth. A depth of CopyFromParent means | ||
3049 | the depth is taken from the parent. | ||
3050 | |||
3051 | class | ||
3052 | |||
3053 | Specifies the created window's class. You can pass InputOutput, | ||
3054 | InputOnly, or CopyFromParent. A class of CopyFromParent means | ||
3055 | the class is taken from the parent. | ||
3056 | |||
3057 | visual | ||
3058 | |||
3059 | Specifies the visual type. A visual of CopyFromParent means the | ||
3060 | visual type is taken from the parent. | ||
3061 | |||
3062 | valuemask | ||
3063 | |||
3064 | Specifies which window attributes are defined in the attributes | ||
3065 | argument. This mask is the bitwise inclusive OR of the valid | ||
3066 | attribute mask bits. If valuemask is zero, the attributes are | ||
3067 | ignored and are not referenced. | ||
3068 | |||
3069 | attributes | ||
3070 | |||
3071 | Specifies the structure from which the values (as specified by | ||
3072 | the value mask) are to be taken. The value mask should have the | ||
3073 | appropriate bits set to indicate which attributes have been set | ||
3074 | in the structure. | ||
3075 | |||
3076 | The XCreateWindow function creates an unmapped subwindow for a | ||
3077 | specified parent window, returns the window ID of the created | ||
3078 | window, and causes the X server to generate a CreateNotify | ||
3079 | event. The created window is placed on top in the stacking | ||
3080 | order with respect to siblings. | ||
3081 | |||
3082 | The coordinate system has the X axis horizontal and the Y axis | ||
3083 | vertical with the origin [0, 0] at the upper-left corner. | ||
3084 | Coordinates are integral, in terms of pixels, and coincide with | ||
3085 | pixel centers. Each window and pixmap has its own coordinate | ||
3086 | system. For a window, the origin is inside the border at the | ||
3087 | inside, upper-left corner. | ||
3088 | |||
3089 | The border_width for an InputOnly window must be zero, or a | ||
3090 | BadMatch error results. For class InputOutput, the visual type | ||
3091 | and depth must be a combination supported for the screen, or a | ||
3092 | BadMatch error results. The depth need not be the same as the | ||
3093 | parent, but the parent must not be a window of class InputOnly, | ||
3094 | or a BadMatch error results. For an InputOnly window, the depth | ||
3095 | must be zero, and the visual must be one supported by the | ||
3096 | screen. If either condition is not met, a BadMatch error | ||
3097 | results. The parent window, however, may have any depth and | ||
3098 | class. If you specify any invalid window attribute for a | ||
3099 | window, a BadMatch error results. | ||
3100 | |||
3101 | The created window is not yet displayed (mapped) on the user's | ||
3102 | display. To display the window, call XMapWindow. The new window | ||
3103 | initially uses the same cursor as its parent. A new cursor can | ||
3104 | be defined for the new window by calling XDefineCursor. The | ||
3105 | window will not be visible on the screen unless it and all of | ||
3106 | its ancestors are mapped and it is not obscured by any of its | ||
3107 | ancestors. | ||
3108 | |||
3109 | XCreateWindow can generate BadAlloc, BadColor, BadCursor, | ||
3110 | BadMatch, BadPixmap, BadValue, and BadWindow errors. | ||
3111 | |||
3112 | To create an unmapped InputOutput subwindow of a given parent | ||
3113 | window, use XCreateSimpleWindow. | ||
3114 | |||
3115 | Window XCreateSimpleWindow(Display *display, Window parent, int | ||
3116 | x, int y, unsigned int width, unsigned int height, unsigned int | ||
3117 | border_width, unsigned long border, unsigned long background); | ||
3118 | |||
3119 | display | ||
3120 | |||
3121 | Specifies the connection to the X server. | ||
3122 | |||
3123 | parent | ||
3124 | |||
3125 | Specifies the parent window. | ||
3126 | |||
3127 | x | ||
3128 | |||
3129 | y | ||
3130 | |||
3131 | Specify the x and y coordinates, which are the top-left outside | ||
3132 | corner of the new window's borders and are relative to the | ||
3133 | inside of the parent window's borders. | ||
3134 | |||
3135 | width | ||
3136 | |||
3137 | height | ||
3138 | |||
3139 | Specify the width and height, which are the created window's | ||
3140 | inside dimensions and do not include the created window's | ||
3141 | borders. The dimensions must be nonzero, or a BadValue error | ||
3142 | results. | ||
3143 | |||
3144 | border_width | ||
3145 | |||
3146 | Specifies the width of the created window's border in pixels. | ||
3147 | |||
3148 | border | ||
3149 | |||
3150 | Specifies the border pixel value of the window. | ||
3151 | |||
3152 | background | ||
3153 | |||
3154 | Specifies the background pixel value of the window. | ||
3155 | |||
3156 | The XCreateSimpleWindow function creates an unmapped | ||
3157 | InputOutput subwindow for a specified parent window, returns | ||
3158 | the window ID of the created window, and causes the X server to | ||
3159 | generate a CreateNotify event. The created window is placed on | ||
3160 | top in the stacking order with respect to siblings. Any part of | ||
3161 | the window that extends outside its parent window is clipped. | ||
3162 | The border_width for an InputOnly window must be zero, or a | ||
3163 | BadMatch error results. XCreateSimpleWindow inherits its depth, | ||
3164 | class, and visual from its parent. All other window attributes, | ||
3165 | except background and border, have their default values. | ||
3166 | |||
3167 | XCreateSimpleWindow can generate BadAlloc, BadMatch, BadValue, | ||
3168 | and BadWindow errors. | ||
3169 | |||
3170 | Destroying Windows | ||
3171 | |||
3172 | Xlib provides functions that you can use to destroy a window or | ||
3173 | destroy all subwindows of a window. | ||
3174 | |||
3175 | To destroy a window and all of its subwindows, use | ||
3176 | XDestroyWindow. | ||
3177 | |||
3178 | XDestroyWindow(Display *display, Window w); | ||
3179 | |||
3180 | display | ||
3181 | |||
3182 | Specifies the connection to the X server. | ||
3183 | |||
3184 | w | ||
3185 | |||
3186 | Specifies the window. | ||
3187 | |||
3188 | The XDestroyWindow function destroys the specified window as | ||
3189 | well as all of its subwindows and causes the X server to | ||
3190 | generate a DestroyNotify event for each window. The window | ||
3191 | should never be referenced again. If the window specified by | ||
3192 | the w argument is mapped, it is unmapped automatically. The | ||
3193 | ordering of the DestroyNotify events is such that for any given | ||
3194 | window being destroyed, DestroyNotify is generated on any | ||
3195 | inferiors of the window before being generated on the window | ||
3196 | itself. The ordering among siblings and across subhierarchies | ||
3197 | is not otherwise constrained. If the window you specified is a | ||
3198 | root window, no windows are destroyed. Destroying a mapped | ||
3199 | window will generate Expose events on other windows that were | ||
3200 | obscured by the window being destroyed. | ||
3201 | |||
3202 | XDestroyWindow can generate a BadWindow error. | ||
3203 | |||
3204 | To destroy all subwindows of a specified window, use | ||
3205 | XDestroySubwindows. | ||
3206 | |||
3207 | XDestroySubwindows(Display *display, Window w); | ||
3208 | |||
3209 | display | ||
3210 | |||
3211 | Specifies the connection to the X server. | ||
3212 | |||
3213 | w | ||
3214 | |||
3215 | Specifies the window. | ||
3216 | |||
3217 | The XDestroySubwindows function destroys all inferior windows | ||
3218 | of the specified window, in bottom-to-top stacking order. It | ||
3219 | causes the X server to generate a DestroyNotify event for each | ||
3220 | window. If any mapped subwindows were actually destroyed, | ||
3221 | XDestroySubwindows causes the X server to generate Expose | ||
3222 | events on the specified window. This is much more efficient | ||
3223 | than deleting many windows one at a time because much of the | ||
3224 | work need be performed only once for all of the windows, rather | ||
3225 | than for each window. The subwindows should never be referenced | ||
3226 | again. | ||
3227 | |||
3228 | XDestroySubwindows can generate a BadWindow error. | ||
3229 | |||
3230 | Mapping Windows | ||
3231 | |||
3232 | A window is considered mapped if an XMapWindow call has been | ||
3233 | made on it. It may not be visible on the screen for one of the | ||
3234 | following reasons: | ||
3235 | * It is obscured by another opaque window. | ||
3236 | * One of its ancestors is not mapped. | ||
3237 | * It is entirely clipped by an ancestor. | ||
3238 | |||
3239 | Expose events are generated for the window when part or all of | ||
3240 | it becomes visible on the screen. A client receives the Expose | ||
3241 | events only if it has asked for them. Windows retain their | ||
3242 | position in the stacking order when they are unmapped. | ||
3243 | |||
3244 | A window manager may want to control the placement of | ||
3245 | subwindows. If SubstructureRedirectMask has been selected by a | ||
3246 | window manager on a parent window (usually a root window), a | ||
3247 | map request initiated by other clients on a child window is not | ||
3248 | performed, and the window manager is sent a MapRequest event. | ||
3249 | However, if the override-redirect flag on the child had been | ||
3250 | set to True (usually only on pop-up menus), the map request is | ||
3251 | performed. | ||
3252 | |||
3253 | A tiling window manager might decide to reposition and resize | ||
3254 | other clients' windows and then decide to map the window to its | ||
3255 | final location. A window manager that wants to provide | ||
3256 | decoration might reparent the child into a frame first. For | ||
3257 | further information, see sections 3.2.8 and 10.10. Only a | ||
3258 | single client at a time can select for | ||
3259 | SubstructureRedirectMask. | ||
3260 | |||
3261 | Similarly, a single client can select for ResizeRedirectMask on | ||
3262 | a parent window. Then, any attempt to resize the window by | ||
3263 | another client is suppressed, and the client receives a | ||
3264 | ResizeRequest event. | ||
3265 | |||
3266 | To map a given window, use XMapWindow. | ||
3267 | |||
3268 | XMapWindow(Display *display, Window w); | ||
3269 | |||
3270 | display | ||
3271 | |||
3272 | Specifies the connection to the X server. | ||
3273 | |||
3274 | w | ||
3275 | |||
3276 | Specifies the window. | ||
3277 | |||
3278 | The XMapWindow function maps the window and all of its | ||
3279 | subwindows that have had map requests. Mapping a window that | ||
3280 | has an unmapped ancestor does not display the window but marks | ||
3281 | it as eligible for display when the ancestor becomes mapped. | ||
3282 | Such a window is called unviewable. When all its ancestors are | ||
3283 | mapped, the window becomes viewable and will be visible on the | ||
3284 | screen if it is not obscured by another window. This function | ||
3285 | has no effect if the window is already mapped. | ||
3286 | |||
3287 | If the override-redirect of the window is False and if some | ||
3288 | other client has selected SubstructureRedirectMask on the | ||
3289 | parent window, then the X server generates a MapRequest event, | ||
3290 | and the XMapWindow function does not map the window. Otherwise, | ||
3291 | the window is mapped, and the X server generates a MapNotify | ||
3292 | event. | ||
3293 | |||
3294 | If the window becomes viewable and no earlier contents for it | ||
3295 | are remembered, the X server tiles the window with its | ||
3296 | background. If the window's background is undefined, the | ||
3297 | existing screen contents are not altered, and the X server | ||
3298 | generates zero or more Expose events. If backing-store was | ||
3299 | maintained while the window was unmapped, no Expose events are | ||
3300 | generated. If backing-store will now be maintained, a | ||
3301 | full-window exposure is always generated. Otherwise, only | ||
3302 | visible regions may be reported. Similar tiling and exposure | ||
3303 | take place for any newly viewable inferiors. | ||
3304 | |||
3305 | If the window is an InputOutput window, XMapWindow generates | ||
3306 | Expose events on each InputOutput window that it causes to be | ||
3307 | displayed. If the client maps and paints the window and if the | ||
3308 | client begins processing events, the window is painted twice. | ||
3309 | To avoid this, first ask for Expose events and then map the | ||
3310 | window, so the client processes input events as usual. The | ||
3311 | event list will include Expose for each window that has | ||
3312 | appeared on the screen. The client's normal response to an | ||
3313 | Expose event should be to repaint the window. This method | ||
3314 | usually leads to simpler programs and to proper interaction | ||
3315 | with window managers. | ||
3316 | |||
3317 | XMapWindow can generate a BadWindow error. | ||
3318 | |||
3319 | To map and raise a window, use XMapRaised. | ||
3320 | |||
3321 | XMapRaised(Display *display, Window w); | ||
3322 | |||
3323 | display | ||
3324 | |||
3325 | Specifies the connection to the X server. | ||
3326 | |||
3327 | w | ||
3328 | |||
3329 | Specifies the window. | ||
3330 | |||
3331 | The XMapRaised function essentially is similar to XMapWindow in | ||
3332 | that it maps the window and all of its subwindows that have had | ||
3333 | map requests. However, it also raises the specified window to | ||
3334 | the top of the stack. For additional information, see | ||
3335 | XMapWindow. | ||
3336 | |||
3337 | XMapRaised can generate multiple BadWindow errors. | ||
3338 | |||
3339 | To map all subwindows for a specified window, use | ||
3340 | XMapSubwindows. | ||
3341 | |||
3342 | XMapSubwindows(Display *display, Window w); | ||
3343 | |||
3344 | display | ||
3345 | |||
3346 | Specifies the connection to the X server. | ||
3347 | |||
3348 | w | ||
3349 | |||
3350 | Specifies the window. | ||
3351 | |||
3352 | The XMapSubwindows function maps all subwindows for a specified | ||
3353 | window in top-to-bottom stacking order. The X server generates | ||
3354 | Expose events on each newly displayed window. This may be much | ||
3355 | more efficient than mapping many windows one at a time because | ||
3356 | the server needs to perform much of the work only once, for all | ||
3357 | of the windows, rather than for each window. | ||
3358 | |||
3359 | XMapSubwindows can generate a BadWindow error. | ||
3360 | |||
3361 | Unmapping Windows | ||
3362 | |||
3363 | Xlib provides functions that you can use to unmap a window or | ||
3364 | all subwindows. | ||
3365 | |||
3366 | To unmap a window, use XUnmapWindow. | ||
3367 | |||
3368 | XUnmapWindow(Display *display, Window w); | ||
3369 | |||
3370 | display | ||
3371 | |||
3372 | Specifies the connection to the X server. | ||
3373 | |||
3374 | w | ||
3375 | |||
3376 | Specifies the window. | ||
3377 | |||
3378 | The XUnmapWindow function unmaps the specified window and | ||
3379 | causes the X server to generate an UnmapNotify event. If the | ||
3380 | specified window is already unmapped, XUnmapWindow has no | ||
3381 | effect. Normal exposure processing on formerly obscured windows | ||
3382 | is performed. Any child window will no longer be visible until | ||
3383 | another map call is made on the parent. In other words, the | ||
3384 | subwindows are still mapped but are not visible until the | ||
3385 | parent is mapped. Unmapping a window will generate Expose | ||
3386 | events on windows that were formerly obscured by it. | ||
3387 | |||
3388 | XUnmapWindow can generate a BadWindow error. | ||
3389 | |||
3390 | To unmap all subwindows for a specified window, use | ||
3391 | XUnmapSubwindows. | ||
3392 | |||
3393 | XUnmapSubwindows(Display *display, Window w); | ||
3394 | |||
3395 | display | ||
3396 | |||
3397 | Specifies the connection to the X server. | ||
3398 | |||
3399 | w | ||
3400 | |||
3401 | Specifies the window. | ||
3402 | |||
3403 | The XUnmapSubwindows function unmaps all subwindows for the | ||
3404 | specified window in bottom-to-top stacking order. It causes the | ||
3405 | X server to generate an UnmapNotify event on each subwindow and | ||
3406 | Expose events on formerly obscured windows. Using this function | ||
3407 | is much more efficient than unmapping multiple windows one at a | ||
3408 | time because the server needs to perform much of the work only | ||
3409 | once, for all of the windows, rather than for each window. | ||
3410 | |||
3411 | XUnmapSubwindows can generate a BadWindow error. | ||
3412 | |||
3413 | Configuring Windows | ||
3414 | |||
3415 | Xlib provides functions that you can use to move a window, | ||
3416 | resize a window, move and resize a window, or change a window's | ||
3417 | border width. To change one of these parameters, set the | ||
3418 | appropriate member of the XWindowChanges structure and OR in | ||
3419 | the corresponding value mask in subsequent calls to | ||
3420 | XConfigureWindow. The symbols for the value mask bits and the | ||
3421 | XWindowChanges structure are: | ||
3422 | |||
3423 | /* Configure window value mask bits */ | ||
3424 | #define CWX (1<<0) | ||
3425 | #define CWY (1<<1) | ||
3426 | #define CWWidth (1<<2) | ||
3427 | #define CWHeight (1<<3) | ||
3428 | #define CWBorderWidth (1<<4) | ||
3429 | #define CWSibling (1<<5) | ||
3430 | #define CWStackMode (1<<6) | ||
3431 | |||
3432 | /* Values */ | ||
3433 | |||
3434 | typedef struct { | ||
3435 | int x, y; | ||
3436 | int width, height; | ||
3437 | int border_width; | ||
3438 | Window sibling; | ||
3439 | int stack_mode; | ||
3440 | } XWindowChanges; | ||
3441 | |||
3442 | The x and y members are used to set the window's x and y | ||
3443 | coordinates, which are relative to the parent's origin and | ||
3444 | indicate the position of the upper-left outer corner of the | ||
3445 | window. The width and height members are used to set the inside | ||
3446 | size of the window, not including the border, and must be | ||
3447 | nonzero, or a BadValue error results. Attempts to configure a | ||
3448 | root window have no effect. | ||
3449 | |||
3450 | The border_width member is used to set the width of the border | ||
3451 | in pixels. Note that setting just the border width leaves the | ||
3452 | outer-left corner of the window in a fixed position but moves | ||
3453 | the absolute position of the window's origin. If you attempt to | ||
3454 | set the border-width attribute of an InputOnly window nonzero, | ||
3455 | a BadMatch error results. | ||
3456 | |||
3457 | The sibling member is used to set the sibling window for | ||
3458 | stacking operations. The stack_mode member is used to set how | ||
3459 | the window is to be restacked and can be set to Above, Below, | ||
3460 | TopIf, BottomIf, or Opposite. | ||
3461 | |||
3462 | If the override-redirect flag of the window is False and if | ||
3463 | some other client has selected SubstructureRedirectMask on the | ||
3464 | parent, the X server generates a ConfigureRequest event, and no | ||
3465 | further processing is performed. Otherwise, if some other | ||
3466 | client has selected ResizeRedirectMask on the window and the | ||
3467 | inside width or height of the window is being changed, a | ||
3468 | ResizeRequest event is generated, and the current inside width | ||
3469 | and height are used instead. Note that the override-redirect | ||
3470 | flag of the window has no effect on ResizeRedirectMask and that | ||
3471 | SubstructureRedirectMask on the parent has precedence over | ||
3472 | ResizeRedirectMask on the window. | ||
3473 | |||
3474 | When the geometry of the window is changed as specified, the | ||
3475 | window is restacked among siblings, and a ConfigureNotify event | ||
3476 | is generated if the state of the window actually changes. | ||
3477 | GravityNotify events are generated after ConfigureNotify | ||
3478 | events. If the inside width or height of the window has | ||
3479 | actually changed, children of the window are affected as | ||
3480 | specified. | ||
3481 | |||
3482 | If a window's size actually changes, the window's subwindows | ||
3483 | move according to their window gravity. Depending on the | ||
3484 | window's bit gravity, the contents of the window also may be | ||
3485 | moved (see section 3.2.3). | ||
3486 | |||
3487 | If regions of the window were obscured but now are not, | ||
3488 | exposure processing is performed on these formerly obscured | ||
3489 | windows, including the window itself and its inferiors. As a | ||
3490 | result of increasing the width or height, exposure processing | ||
3491 | is also performed on any new regions of the window and any | ||
3492 | regions where window contents are lost. | ||
3493 | |||
3494 | The restack check (specifically, the computation for BottomIf, | ||
3495 | TopIf, and Opposite) is performed with respect to the window's | ||
3496 | final size and position (as controlled by the other arguments | ||
3497 | of the request), not its initial position. If a sibling is | ||
3498 | specified without a stack_mode, a BadMatch error results. | ||
3499 | |||
3500 | If a sibling and a stack_mode are specified, the window is | ||
3501 | restacked as follows: | ||
3502 | Above The window is placed just above the sibling. | ||
3503 | Below The window is placed just below the sibling. | ||
3504 | TopIf If the sibling occludes the window, the window is placed | ||
3505 | at the top of the stack. | ||
3506 | BottomIf If the window occludes the sibling, the window is | ||
3507 | placed at the bottom of the stack. | ||
3508 | Opposite If the sibling occludes the window, the window is | ||
3509 | placed at the top of the stack. If the window occludes the | ||
3510 | sibling, the window is placed at the bottom of the stack. | ||
3511 | |||
3512 | If a stack_mode is specified but no sibling is specified, the | ||
3513 | window is restacked as follows: | ||
3514 | Above The window is placed at the top of the stack. | ||
3515 | Below The window is placed at the bottom of the stack. | ||
3516 | TopIf If any sibling occludes the window, the window is placed | ||
3517 | at the top of the stack. | ||
3518 | BottomIf If the window occludes any sibling, the window is | ||
3519 | placed at the bottom of the stack. | ||
3520 | Opposite If any sibling occludes the window, the window is | ||
3521 | placed at the top of the stack. If the window occludes any | ||
3522 | sibling, the window is placed at the bottom of the stack. | ||
3523 | |||
3524 | Attempts to configure a root window have no effect. | ||
3525 | |||
3526 | To configure a window's size, location, stacking, or border, | ||
3527 | use XConfigureWindow. | ||
3528 | |||
3529 | XConfigureWindow(Display *display, Window w, unsigned int | ||
3530 | value_mask, XWindowChanges *values); | ||
3531 | |||
3532 | display | ||
3533 | |||
3534 | Specifies the connection to the X server. | ||
3535 | |||
3536 | w | ||
3537 | |||
3538 | Specifies the window to be reconfigured. | ||
3539 | |||
3540 | value_mask | ||
3541 | |||
3542 | Specifies which values are to be set using information in the | ||
3543 | values structure. This mask is the bitwise inclusive OR of the | ||
3544 | valid configure window values bits. | ||
3545 | |||
3546 | values | ||
3547 | |||
3548 | Specifies the XWindowChanges structure. | ||
3549 | |||
3550 | The XConfigureWindow function uses the values specified in the | ||
3551 | XWindowChanges structure to reconfigure a window's size, | ||
3552 | position, border, and stacking order. Values not specified are | ||
3553 | taken from the existing geometry of the window. | ||
3554 | |||
3555 | If a sibling is specified without a stack_mode or if the window | ||
3556 | is not actually a sibling, a BadMatch error results. Note that | ||
3557 | the computations for BottomIf, TopIf, and Opposite are | ||
3558 | performed with respect to the window's final geometry (as | ||
3559 | controlled by the other arguments passed to XConfigureWindow), | ||
3560 | not its initial geometry. Any backing store contents of the | ||
3561 | window, its inferiors, and other newly visible windows are | ||
3562 | either discarded or changed to reflect the current screen | ||
3563 | contents (depending on the implementation). | ||
3564 | |||
3565 | XConfigureWindow can generate BadMatch, BadValue, and BadWindow | ||
3566 | errors. | ||
3567 | |||
3568 | To move a window without changing its size, use XMoveWindow. | ||
3569 | |||
3570 | XMoveWindow(Display *display, Window w, int x, int y); | ||
3571 | |||
3572 | display | ||
3573 | |||
3574 | Specifies the connection to the X server. | ||
3575 | |||
3576 | w | ||
3577 | |||
3578 | Specifies the window to be moved. | ||
3579 | |||
3580 | x | ||
3581 | |||
3582 | y | ||
3583 | |||
3584 | Specify the x and y coordinates, which define the new location | ||
3585 | of the top-left pixel of the window's border or the window | ||
3586 | itself if it has no border. | ||
3587 | |||
3588 | The XMoveWindow function moves the specified window to the | ||
3589 | specified x and y coordinates, but it does not change the | ||
3590 | window's size, raise the window, or change the mapping state of | ||
3591 | the window. Moving a mapped window may or may not lose the | ||
3592 | window's contents depending on if the window is obscured by | ||
3593 | nonchildren and if no backing store exists. If the contents of | ||
3594 | the window are lost, the X server generates Expose events. | ||
3595 | Moving a mapped window generates Expose events on any formerly | ||
3596 | obscured windows. | ||
3597 | |||
3598 | If the override-redirect flag of the window is False and some | ||
3599 | other client has selected SubstructureRedirectMask on the | ||
3600 | parent, the X server generates a ConfigureRequest event, and no | ||
3601 | further processing is performed. Otherwise, the window is | ||
3602 | moved. | ||
3603 | |||
3604 | XMoveWindow can generate a BadWindow error. | ||
3605 | |||
3606 | To change a window's size without changing the upper-left | ||
3607 | coordinate, use XResizeWindow. | ||
3608 | |||
3609 | XResizeWindow(Display *display, Window w, unsigned int width, | ||
3610 | unsigned int height); | ||
3611 | |||
3612 | display | ||
3613 | |||
3614 | Specifies the connection to the X server. | ||
3615 | |||
3616 | w | ||
3617 | |||
3618 | Specifies the window. | ||
3619 | |||
3620 | width | ||
3621 | |||
3622 | height | ||
3623 | |||
3624 | Specify the width and height, which are the interior dimensions | ||
3625 | of the window after the call completes. | ||
3626 | |||
3627 | The XResizeWindow function changes the inside dimensions of the | ||
3628 | specified window, not including its borders. This function does | ||
3629 | not change the window's upper-left coordinate or the origin and | ||
3630 | does not restack the window. Changing the size of a mapped | ||
3631 | window may lose its contents and generate Expose events. If a | ||
3632 | mapped window is made smaller, changing its size generates | ||
3633 | Expose events on windows that the mapped window formerly | ||
3634 | obscured. | ||
3635 | |||
3636 | If the override-redirect flag of the window is False and some | ||
3637 | other client has selected SubstructureRedirectMask on the | ||
3638 | parent, the X server generates a ConfigureRequest event, and no | ||
3639 | further processing is performed. If either width or height is | ||
3640 | zero, a BadValue error results. | ||
3641 | |||
3642 | XResizeWindow can generate BadValue and BadWindow errors. | ||
3643 | |||
3644 | To change the size and location of a window, use | ||
3645 | XMoveResizeWindow. | ||
3646 | |||
3647 | XMoveResizeWindow(Display *display, Window w, int x, int y, | ||
3648 | unsigned int width, unsigned int height); | ||
3649 | |||
3650 | display | ||
3651 | |||
3652 | Specifies the connection to the X server. | ||
3653 | |||
3654 | w | ||
3655 | |||
3656 | Specifies the window to be reconfigured. | ||
3657 | |||
3658 | x | ||
3659 | |||
3660 | y | ||
3661 | |||
3662 | Specify the x and y coordinates, which define the new position | ||
3663 | of the window relative to its parent. | ||
3664 | |||
3665 | width | ||
3666 | |||
3667 | height | ||
3668 | |||
3669 | Specify the width and height, which define the interior size of | ||
3670 | the window. | ||
3671 | |||
3672 | The XMoveResizeWindow function changes the size and location of | ||
3673 | the specified window without raising it. Moving and resizing a | ||
3674 | mapped window may generate an Expose event on the window. | ||
3675 | Depending on the new size and location parameters, moving and | ||
3676 | resizing a window may generate Expose events on windows that | ||
3677 | the window formerly obscured. | ||
3678 | |||
3679 | If the override-redirect flag of the window is False and some | ||
3680 | other client has selected SubstructureRedirectMask on the | ||
3681 | parent, the X server generates a ConfigureRequest event, and no | ||
3682 | further processing is performed. Otherwise, the window size and | ||
3683 | location are changed. | ||
3684 | |||
3685 | XMoveResizeWindow can generate BadValue and BadWindow errors. | ||
3686 | |||
3687 | To change the border width of a given window, use | ||
3688 | XSetWindowBorderWidth. | ||
3689 | |||
3690 | XSetWindowBorderWidth(Display *display, Window w, unsigned int | ||
3691 | width); | ||
3692 | |||
3693 | display | ||
3694 | |||
3695 | Specifies the connection to the X server. | ||
3696 | |||
3697 | w | ||
3698 | |||
3699 | Specifies the window. | ||
3700 | |||
3701 | width | ||
3702 | |||
3703 | Specifies the width of the window border. | ||
3704 | |||
3705 | The XSetWindowBorderWidth function sets the specified window's | ||
3706 | border width to the specified width. | ||
3707 | |||
3708 | XSetWindowBorderWidth can generate a BadWindow error. | ||
3709 | |||
3710 | Changing Window Stacking Order | ||
3711 | |||
3712 | Xlib provides functions that you can use to raise, lower, | ||
3713 | circulate, or restack windows. | ||
3714 | |||
3715 | To raise a window so that no sibling window obscures it, use | ||
3716 | XRaiseWindow. | ||
3717 | |||
3718 | XRaiseWindow(Display *display, Window w); | ||
3719 | |||
3720 | display | ||
3721 | |||
3722 | Specifies the connection to the X server. | ||
3723 | |||
3724 | w | ||
3725 | |||
3726 | Specifies the window. | ||
3727 | |||
3728 | The XRaiseWindow function raises the specified window to the | ||
3729 | top of the stack so that no sibling window obscures it. If the | ||
3730 | windows are regarded as overlapping sheets of paper stacked on | ||
3731 | a desk, then raising a window is analogous to moving the sheet | ||
3732 | to the top of the stack but leaving its x and y location on the | ||
3733 | desk constant. Raising a mapped window may generate Expose | ||
3734 | events for the window and any mapped subwindows that were | ||
3735 | formerly obscured. | ||
3736 | |||
3737 | If the override-redirect attribute of the window is False and | ||
3738 | some other client has selected SubstructureRedirectMask on the | ||
3739 | parent, the X server generates a ConfigureRequest event, and no | ||
3740 | processing is performed. Otherwise, the window is raised. | ||
3741 | |||
3742 | XRaiseWindow can generate a BadWindow error. | ||
3743 | |||
3744 | To lower a window so that it does not obscure any sibling | ||
3745 | windows, use XLowerWindow. | ||
3746 | |||
3747 | XLowerWindow(Display *display, Window w); | ||
3748 | |||
3749 | display | ||
3750 | |||
3751 | Specifies the connection to the X server. | ||
3752 | |||
3753 | w | ||
3754 | |||
3755 | Specifies the window. | ||
3756 | |||
3757 | The XLowerWindow function lowers the specified window to the | ||
3758 | bottom of the stack so that it does not obscure any sibling | ||
3759 | windows. If the windows are regarded as overlapping sheets of | ||
3760 | paper stacked on a desk, then lowering a window is analogous to | ||
3761 | moving the sheet to the bottom of the stack but leaving its x | ||
3762 | and y location on the desk constant. Lowering a mapped window | ||
3763 | will generate Expose events on any windows it formerly | ||
3764 | obscured. | ||
3765 | |||
3766 | If the override-redirect attribute of the window is False and | ||
3767 | some other client has selected SubstructureRedirectMask on the | ||
3768 | parent, the X server generates a ConfigureRequest event, and no | ||
3769 | processing is performed. Otherwise, the window is lowered to | ||
3770 | the bottom of the stack. | ||
3771 | |||
3772 | XLowerWindow can generate a BadWindow error. | ||
3773 | |||
3774 | To circulate a subwindow up or down, use XCirculateSubwindows. | ||
3775 | |||
3776 | XCirculateSubwindows(Display *display, Window w, int | ||
3777 | direction); | ||
3778 | |||
3779 | display | ||
3780 | |||
3781 | Specifies the connection to the X server. | ||
3782 | |||
3783 | w | ||
3784 | |||
3785 | Specifies the window. | ||
3786 | |||
3787 | direction | ||
3788 | |||
3789 | Specifies the direction (up or down) that you want to circulate | ||
3790 | the window. You can pass RaiseLowest or LowerHighest. | ||
3791 | |||
3792 | The XCirculateSubwindows function circulates children of the | ||
3793 | specified window in the specified direction. If you specify | ||
3794 | RaiseLowest, XCirculateSubwindows raises the lowest mapped | ||
3795 | child (if any) that is occluded by another child to the top of | ||
3796 | the stack. If you specify LowerHighest, XCirculateSubwindows | ||
3797 | lowers the highest mapped child (if any) that occludes another | ||
3798 | child to the bottom of the stack. Exposure processing is then | ||
3799 | performed on formerly obscured windows. If some other client | ||
3800 | has selected SubstructureRedirectMask on the window, the X | ||
3801 | server generates a CirculateRequest event, and no further | ||
3802 | processing is performed. If a child is actually restacked, the | ||
3803 | X server generates a CirculateNotify event. | ||
3804 | |||
3805 | XCirculateSubwindows can generate BadValue and BadWindow | ||
3806 | errors. | ||
3807 | |||
3808 | To raise the lowest mapped child of a window that is partially | ||
3809 | or completely occluded by another child, use | ||
3810 | XCirculateSubwindowsUp. | ||
3811 | |||
3812 | XCirculateSubwindowsUp(Display *display, Window w); | ||
3813 | |||
3814 | display | ||
3815 | |||
3816 | Specifies the connection to the X server. | ||
3817 | |||
3818 | w | ||
3819 | |||
3820 | Specifies the window. | ||
3821 | |||
3822 | The XCirculateSubwindowsUp function raises the lowest mapped | ||
3823 | child of the specified window that is partially or completely | ||
3824 | occluded by another child. Completely unobscured children are | ||
3825 | not affected. This is a convenience function equivalent to | ||
3826 | XCirculateSubwindows with RaiseLowest specified. | ||
3827 | |||
3828 | XCirculateSubwindowsUp can generate a BadWindow error. | ||
3829 | |||
3830 | To lower the highest mapped child of a window that partially or | ||
3831 | completely occludes another child, use | ||
3832 | XCirculateSubwindowsDown. | ||
3833 | |||
3834 | XCirculateSubwindowsDown(Display *display, Window w); | ||
3835 | |||
3836 | display | ||
3837 | |||
3838 | Specifies the connection to the X server. | ||
3839 | |||
3840 | w | ||
3841 | |||
3842 | Specifies the window. | ||
3843 | |||
3844 | The XCirculateSubwindowsDown function lowers the highest mapped | ||
3845 | child of the specified window that partially or completely | ||
3846 | occludes another child. Completely unobscured children are not | ||
3847 | affected. This is a convenience function equivalent to | ||
3848 | XCirculateSubwindows with LowerHighest specified. | ||
3849 | |||
3850 | XCirculateSubwindowsDown can generate a BadWindow error. | ||
3851 | |||
3852 | To restack a set of windows from top to bottom, use | ||
3853 | XRestackWindows. | ||
3854 | |||
3855 | XRestackWindows(Display *display, Window windows[], int | ||
3856 | nwindows); | ||
3857 | |||
3858 | display | ||
3859 | |||
3860 | Specifies the connection to the X server. | ||
3861 | |||
3862 | windows | ||
3863 | |||
3864 | Specifies an array containing the windows to be restacked. | ||
3865 | |||
3866 | nwindows | ||
3867 | |||
3868 | Specifies the number of windows to be restacked. | ||
3869 | |||
3870 | The XRestackWindows function restacks the windows in the order | ||
3871 | specified, from top to bottom. The stacking order of the first | ||
3872 | window in the windows array is unaffected, but the other | ||
3873 | windows in the array are stacked underneath the first window, | ||
3874 | in the order of the array. The stacking order of the other | ||
3875 | windows is not affected. For each window in the window array | ||
3876 | that is not a child of the specified window, a BadMatch error | ||
3877 | results. | ||
3878 | |||
3879 | If the override-redirect attribute of a window is False and | ||
3880 | some other client has selected SubstructureRedirectMask on the | ||
3881 | parent, the X server generates ConfigureRequest events for each | ||
3882 | window whose override-redirect flag is not set, and no further | ||
3883 | processing is performed. Otherwise, the windows will be | ||
3884 | restacked in top-to-bottom order. | ||
3885 | |||
3886 | XRestackWindows can generate a BadWindow error. | ||
3887 | |||
3888 | Changing Window Attributes | ||
3889 | |||
3890 | Xlib provides functions that you can use to set window | ||
3891 | attributes. XChangeWindowAttributes is the more general | ||
3892 | function that allows you to set one or more window attributes | ||
3893 | provided by the XSetWindowAttributes structure. The other | ||
3894 | functions described in this section allow you to set one | ||
3895 | specific window attribute, such as a window's background. | ||
3896 | |||
3897 | To change one or more attributes for a given window, use | ||
3898 | XChangeWindowAttributes. | ||
3899 | |||
3900 | XChangeWindowAttributes(Display *display, Window w, unsigned | ||
3901 | long valuemask, XSetWindowAttributes *attributes); | ||
3902 | |||
3903 | display | ||
3904 | |||
3905 | Specifies the connection to the X server. | ||
3906 | |||
3907 | w | ||
3908 | |||
3909 | Specifies the window. | ||
3910 | |||
3911 | valuemask | ||
3912 | |||
3913 | Specifies which window attributes are defined in the attributes | ||
3914 | argument. This mask is the bitwise inclusive OR of the valid | ||
3915 | attribute mask bits. If valuemask is zero, the attributes are | ||
3916 | ignored and are not referenced. The values and restrictions are | ||
3917 | the same as for XCreateWindow. | ||
3918 | |||
3919 | attributes | ||
3920 | |||
3921 | Specifies the structure from which the values (as specified by | ||
3922 | the value mask) are to be taken. The value mask should have the | ||
3923 | appropriate bits set to indicate which attributes have been set | ||
3924 | in the structure (see section 3.2). | ||
3925 | |||
3926 | Depending on the valuemask, the XChangeWindowAttributes | ||
3927 | function uses the window attributes in the XSetWindowAttributes | ||
3928 | structure to change the specified window attributes. Changing | ||
3929 | the background does not cause the window contents to be | ||
3930 | changed. To repaint the window and its background, use | ||
3931 | XClearWindow. Setting the border or changing the background | ||
3932 | such that the border tile origin changes causes the border to | ||
3933 | be repainted. Changing the background of a root window to None | ||
3934 | or ParentRelative restores the default background pixmap. | ||
3935 | Changing the border of a root window to CopyFromParent restores | ||
3936 | the default border pixmap. Changing the win-gravity does not | ||
3937 | affect the current position of the window. Changing the | ||
3938 | backing-store of an obscured window to WhenMapped or Always, or | ||
3939 | changing the backing-planes, backing-pixel, or save-under of a | ||
3940 | mapped window may have no immediate effect. Changing the | ||
3941 | colormap of a window (that is, defining a new map, not changing | ||
3942 | the contents of the existing map) generates a ColormapNotify | ||
3943 | event. Changing the colormap of a visible window may have no | ||
3944 | immediate effect on the screen because the map may not be | ||
3945 | installed (see XInstallColormap). Changing the cursor of a root | ||
3946 | window to None restores the default cursor. Whenever possible, | ||
3947 | you are encouraged to share colormaps. | ||
3948 | |||
3949 | Multiple clients can select input on the same window. Their | ||
3950 | event masks are maintained separately. When an event is | ||
3951 | generated, it is reported to all interested clients. However, | ||
3952 | only one client at a time can select for | ||
3953 | SubstructureRedirectMask, ResizeRedirectMask, and | ||
3954 | ButtonPressMask. If a client attempts to select any of these | ||
3955 | event masks and some other client has already selected one, a | ||
3956 | BadAccess error results. There is only one | ||
3957 | do-not-propagate-mask for a window, not one per client. | ||
3958 | |||
3959 | XChangeWindowAttributes can generate BadAccess, BadColor, | ||
3960 | BadCursor, BadMatch, BadPixmap, BadValue, and BadWindow errors. | ||
3961 | |||
3962 | To set the background of a window to a given pixel, use | ||
3963 | XSetWindowBackground. | ||
3964 | |||
3965 | XSetWindowBackground(Display *display, Window w, unsigned long | ||
3966 | background_pixel); | ||
3967 | |||
3968 | display | ||
3969 | |||
3970 | Specifies the connection to the X server. | ||
3971 | |||
3972 | w | ||
3973 | |||
3974 | Specifies the window. | ||
3975 | |||
3976 | background_pixel | ||
3977 | |||
3978 | Specifies the pixel that is to be used for the background. | ||
3979 | |||
3980 | The XSetWindowBackground function sets the background of the | ||
3981 | window to the specified pixel value. Changing the background | ||
3982 | does not cause the window contents to be changed. | ||
3983 | XSetWindowBackground uses a pixmap of undefined size filled | ||
3984 | with the pixel value you passed. If you try to change the | ||
3985 | background of an InputOnly window, a BadMatch error results. | ||
3986 | |||
3987 | XSetWindowBackground can generate BadMatch and BadWindow | ||
3988 | errors. | ||
3989 | |||
3990 | To set the background of a window to a given pixmap, use | ||
3991 | XSetWindowBackgroundPixmap. | ||
3992 | |||
3993 | XSetWindowBackgroundPixmap(Display *display, Window w, Pixmap | ||
3994 | background_pixmap); | ||
3995 | |||
3996 | display | ||
3997 | |||
3998 | Specifies the connection to the X server. | ||
3999 | |||
4000 | w | ||
4001 | |||
4002 | Specifies the window. | ||
4003 | |||
4004 | background_pixmap | ||
4005 | |||
4006 | Specifies the background pixmap, ParentRelative, or None. | ||
4007 | |||
4008 | The XSetWindowBackgroundPixmap function sets the background | ||
4009 | pixmap of the window to the specified pixmap. The background | ||
4010 | pixmap can immediately be freed if no further explicit | ||
4011 | references to it are to be made. If ParentRelative is | ||
4012 | specified, the background pixmap of the window's parent is | ||
4013 | used, or on the root window, the default background is | ||
4014 | restored. If you try to change the background of an InputOnly | ||
4015 | window, a BadMatch error results. If the background is set to | ||
4016 | None, the window has no defined background. | ||
4017 | |||
4018 | XSetWindowBackgroundPixmap can generate BadMatch, BadPixmap, | ||
4019 | and BadWindow errors. XSetWindowBackground and | ||
4020 | XSetWindowBackgroundPixmap do not change the current contents | ||
4021 | of the window. | ||
4022 | |||
4023 | To change and repaint a window's border to a given pixel, use | ||
4024 | XSetWindowBorder. | ||
4025 | |||
4026 | XSetWindowBorder(Display *display, Window w, unsigned long | ||
4027 | border_pixel); | ||
4028 | |||
4029 | display | ||
4030 | |||
4031 | Specifies the connection to the X server. | ||
4032 | |||
4033 | w | ||
4034 | |||
4035 | Specifies the window. | ||
4036 | |||
4037 | border_pixel | ||
4038 | |||
4039 | Specifies the entry in the colormap. | ||
4040 | |||
4041 | The XSetWindowBorder function sets the border of the window to | ||
4042 | the pixel value you specify. If you attempt to perform this on | ||
4043 | an InputOnly window, a BadMatch error results. | ||
4044 | |||
4045 | XSetWindowBorder can generate BadMatch and BadWindow errors. | ||
4046 | |||
4047 | To change and repaint the border tile of a given window, use | ||
4048 | XSetWindowBorderPixmap. | ||
4049 | |||
4050 | XSetWindowBorderPixmap(Display *display, Window w, Pixmap | ||
4051 | border_pixmap); | ||
4052 | |||
4053 | display | ||
4054 | |||
4055 | Specifies the connection to the X server. | ||
4056 | |||
4057 | w | ||
4058 | |||
4059 | Specifies the window. | ||
4060 | |||
4061 | border_pixmap | ||
4062 | |||
4063 | Specifies the border pixmap or CopyFromParent. | ||
4064 | |||
4065 | The XSetWindowBorderPixmap function sets the border pixmap of | ||
4066 | the window to the pixmap you specify. The border pixmap can be | ||
4067 | freed immediately if no further explicit references to it are | ||
4068 | to be made. If you specify CopyFromParent, a copy of the parent | ||
4069 | window's border pixmap is used. If you attempt to perform this | ||
4070 | on an InputOnly window, a BadMatch error results. | ||
4071 | |||
4072 | XSetWindowBorderPixmap can generate BadMatch, BadPixmap, and | ||
4073 | BadWindow errors. | ||
4074 | |||
4075 | To set the colormap of a given window, use XSetWindowColormap. | ||
4076 | |||
4077 | XSetWindowColormap(Display *display, Window w, Colormap | ||
4078 | colormap); | ||
4079 | |||
4080 | display | ||
4081 | |||
4082 | Specifies the connection to the X server. | ||
4083 | |||
4084 | w | ||
4085 | |||
4086 | Specifies the window. | ||
4087 | |||
4088 | colormap | ||
4089 | |||
4090 | Specifies the colormap. | ||
4091 | |||
4092 | The XSetWindowColormap function sets the specified colormap of | ||
4093 | the specified window. The colormap must have the same visual | ||
4094 | type as the window, or a BadMatch error results. | ||
4095 | |||
4096 | XSetWindowColormap can generate BadColor, BadMatch, and | ||
4097 | BadWindow errors. | ||
4098 | |||
4099 | To define which cursor will be used in a window, use | ||
4100 | XDefineCursor. | ||
4101 | |||
4102 | XDefineCursor(Display *display, Window w, Cursor cursor); | ||
4103 | |||
4104 | display | ||
4105 | |||
4106 | Specifies the connection to the X server. | ||
4107 | |||
4108 | w | ||
4109 | |||
4110 | Specifies the window. | ||
4111 | |||
4112 | cursor | ||
4113 | |||
4114 | Specifies the cursor that is to be displayed or None. | ||
4115 | |||
4116 | If a cursor is set, it will be used when the pointer is in the | ||
4117 | window. If the cursor is None, it is equivalent to | ||
4118 | XUndefineCursor. | ||
4119 | |||
4120 | XDefineCursor can generate BadCursor and BadWindow errors. | ||
4121 | |||
4122 | To undefine the cursor in a given window, use XUndefineCursor. | ||
4123 | |||
4124 | XUndefineCursor(Display *display, Window w); | ||
4125 | |||
4126 | display | ||
4127 | |||
4128 | Specifies the connection to the X server. | ||
4129 | |||
4130 | w | ||
4131 | |||
4132 | Specifies the window. | ||
4133 | |||
4134 | The XUndefineCursor function undoes the effect of a previous | ||
4135 | XDefineCursor for this window. When the pointer is in the | ||
4136 | window, the parent's cursor will now be used. On the root | ||
4137 | window, the default cursor is restored. | ||
4138 | |||
4139 | XUndefineCursor can generate a BadWindow error. | ||
4140 | |||
4141 | Chapter 4. Window Information Functions | ||
4142 | |||
4143 | Table of Contents | ||
4144 | |||
4145 | Obtaining Window Information | ||
4146 | Translating Screen Coordinates | ||
4147 | Properties and Atoms | ||
4148 | Obtaining and Changing Window Properties | ||
4149 | Selections | ||
4150 | |||
4151 | After you connect the display to the X server and create a | ||
4152 | window, you can use the Xlib window information functions to: | ||
4153 | * Obtain information about a window | ||
4154 | * Translate screen coordinates | ||
4155 | * Manipulate property lists | ||
4156 | * Obtain and change window properties | ||
4157 | * Manipulate selections | ||
4158 | |||
4159 | Obtaining Window Information | ||
4160 | |||
4161 | Xlib provides functions that you can use to obtain information | ||
4162 | about the window tree, the window's current attributes, the | ||
4163 | window's current geometry, or the current pointer coordinates. | ||
4164 | Because they are most frequently used by window managers, these | ||
4165 | functions all return a status to indicate whether the window | ||
4166 | still exists. | ||
4167 | |||
4168 | To obtain the parent, a list of children, and number of | ||
4169 | children for a given window, use XQueryTree. | ||
4170 | |||
4171 | Status XQueryTree(Display *display, Window w, Window | ||
4172 | *root_return, Window *parent_return, Window **children_return, | ||
4173 | unsigned int *nchildren_return); | ||
4174 | |||
4175 | display | ||
4176 | |||
4177 | Specifies the connection to the X server. | ||
4178 | |||
4179 | w | ||
4180 | |||
4181 | Specifies the window whose list of children, root, parent, and | ||
4182 | number of children you want to obtain. | ||
4183 | |||
4184 | root_return | ||
4185 | |||
4186 | Returns the root window. | ||
4187 | |||
4188 | parent_return | ||
4189 | |||
4190 | Returns the parent window. | ||
4191 | |||
4192 | children_return | ||
4193 | |||
4194 | Returns the list of children. | ||
4195 | |||
4196 | nchildren_return | ||
4197 | |||
4198 | Returns the number of children. | ||
4199 | |||
4200 | The XQueryTree function returns the root ID, the parent window | ||
4201 | ID, a pointer to the list of children windows (NULL when there | ||
4202 | are no children), and the number of children in the list for | ||
4203 | the specified window. The children are listed in current | ||
4204 | stacking order, from bottom-most (first) to top-most (last). | ||
4205 | XQueryTree returns zero if it fails and nonzero if it succeeds. | ||
4206 | To free a non-NULL children list when it is no longer needed, | ||
4207 | use XFree. | ||
4208 | |||
4209 | XQueryTree can generate a BadWindow error. | ||
4210 | |||
4211 | To obtain the current attributes of a given window, use | ||
4212 | XGetWindowAttributes. | ||
4213 | |||
4214 | Status XGetWindowAttributes(Display *display, Window w, | ||
4215 | XWindowAttributes *window_attributes_return); | ||
4216 | |||
4217 | display | ||
4218 | |||
4219 | Specifies the connection to the X server. | ||
4220 | |||
4221 | w | ||
4222 | |||
4223 | Specifies the window whose current attributes you want to | ||
4224 | obtain. | ||
4225 | |||
4226 | window_attributes_return | ||
4227 | |||
4228 | Returns the specified window's attributes in the | ||
4229 | XWindowAttributes structure. | ||
4230 | |||
4231 | The XGetWindowAttributes function returns the current | ||
4232 | attributes for the specified window to an XWindowAttributes | ||
4233 | structure. | ||
4234 | |||
4235 | |||
4236 | |||
4237 | typedef struct { | ||
4238 | int x, y; /* location of window */ | ||
4239 | int width, height; /* width and height of window */ | ||
4240 | int border_width; /* border width of window */ | ||
4241 | int depth; /* depth of window */ | ||
4242 | Visual *visual; /* the associated visual structure */ | ||
4243 | Window root; /* root of screen containing window * | ||
4244 | / | ||
4245 | int class; /* InputOutput, InputOnly*/ | ||
4246 | int bit_gravity; /* one of the bit gravity values */ | ||
4247 | int win_gravity; /* one of the window gravity values * | ||
4248 | / | ||
4249 | int backing_store; /* NotUseful, WhenMapped, Always */ | ||
4250 | unsigned long backing_planes; /* planes to be preserved if possible | ||
4251 | */ | ||
4252 | unsigned long backing_pixel; /* value to be used when restoring pl | ||
4253 | anes */ | ||
4254 | Bool save_under; /* boolean, should bits under be save | ||
4255 | d? */ | ||
4256 | Colormap colormap; /* color map to be associated with wi | ||
4257 | ndow */ | ||
4258 | Bool map_installed; /* boolean, is color map currently in | ||
4259 | stalled*/ | ||
4260 | int map_state; /* IsUnmapped, IsUnviewable, IsViewab | ||
4261 | le */ | ||
4262 | long all_event_masks; /* set of events all people have inte | ||
4263 | rest in*/ | ||
4264 | long your_event_mask; /* my event mask */ | ||
4265 | long do_not_propagate_mask; /* set of events that should not prop | ||
4266 | agate */ | ||
4267 | Bool override_redirect; /* boolean value for override-redirec | ||
4268 | t */ | ||
4269 | Screen *screen; /* back pointer to correct screen */ | ||
4270 | } XWindowAttributes; | ||
4271 | |||
4272 | The x and y members are set to the upper-left outer corner | ||
4273 | relative to the parent window's origin. The width and height | ||
4274 | members are set to the inside size of the window, not including | ||
4275 | the border. The border_width member is set to the window's | ||
4276 | border width in pixels. The depth member is set to the depth of | ||
4277 | the window (that is, bits per pixel for the object). The visual | ||
4278 | member is a pointer to the screen's associated Visual | ||
4279 | structure. The root member is set to the root window of the | ||
4280 | screen containing the window. The class member is set to the | ||
4281 | window's class and can be either InputOutput or InputOnly. | ||
4282 | |||
4283 | The bit_gravity member is set to the window's bit gravity and | ||
4284 | can be one of the following: | ||
4285 | ForgetGravity EastGravity | ||
4286 | NorthWestGravity SouthWestGravity | ||
4287 | NorthGravity SouthGravity | ||
4288 | NorthEastGravity SouthEastGravity | ||
4289 | WestGravity StaticGravity | ||
4290 | |||
4291 | The win_gravity member is set to the window's window gravity | ||
4292 | and can be one of the following: | ||
4293 | UnmapGravity SouthWestGravity | ||
4294 | NorthWestGravity SouthGravity | ||
4295 | NorthGravity SouthEastGravity | ||
4296 | NorthEastGravity StaticGravity | ||
4297 | WestGravity CenterGravity | ||
4298 | EastGravity | ||
4299 | |||
4300 | For additional information on gravity, see section 3.2.3. | ||
4301 | |||
4302 | The backing_store member is set to indicate how the X server | ||
4303 | should maintain the contents of a window and can be WhenMapped, | ||
4304 | Always, or NotUseful. The backing_planes member is set to | ||
4305 | indicate (with bits set to 1) which bit planes of the window | ||
4306 | hold dynamic data that must be preserved in backing_stores and | ||
4307 | during save_unders. The backing_pixel member is set to indicate | ||
4308 | what values to use for planes not set in backing_planes. | ||
4309 | |||
4310 | The save_under member is set to True or False. The colormap | ||
4311 | member is set to the colormap for the specified window and can | ||
4312 | be a colormap ID or None. The map_installed member is set to | ||
4313 | indicate whether the colormap is currently installed and can be | ||
4314 | True or False. The map_state member is set to indicate the | ||
4315 | state of the window and can be IsUnmapped, IsUnviewable, or | ||
4316 | IsViewable. IsUnviewable is used if the window is mapped but | ||
4317 | some ancestor is unmapped. | ||
4318 | |||
4319 | The all_event_masks member is set to the bitwise inclusive OR | ||
4320 | of all event masks selected on the window by all clients. The | ||
4321 | your_event_mask member is set to the bitwise inclusive OR of | ||
4322 | all event masks selected by the querying client. The | ||
4323 | do_not_propagate_mask member is set to the bitwise inclusive OR | ||
4324 | of the set of events that should not propagate. | ||
4325 | |||
4326 | The override_redirect member is set to indicate whether this | ||
4327 | window overrides structure control facilities and can be True | ||
4328 | or False. Window manager clients should ignore the window if | ||
4329 | this member is True. | ||
4330 | |||
4331 | The screen member is set to a screen pointer that gives you a | ||
4332 | back pointer to the correct screen. This makes it easier to | ||
4333 | obtain the screen information without having to loop over the | ||
4334 | root window fields to see which field matches. | ||
4335 | |||
4336 | XGetWindowAttributes can generate BadDrawable and BadWindow | ||
4337 | errors. | ||
4338 | |||
4339 | To obtain the current geometry of a given drawable, use | ||
4340 | XGetGeometry. | ||
4341 | |||
4342 | Status XGetGeometry(Display *display, Drawable d, Window | ||
4343 | *root_return, int *x_return, int *y_return, unsigned int | ||
4344 | *width_return, unsigned int *height_return, unsigned int | ||
4345 | *border_width_return, unsigned int *depth_return); | ||
4346 | |||
4347 | display | ||
4348 | |||
4349 | Specifies the connection to the X server. | ||
4350 | |||
4351 | d | ||
4352 | |||
4353 | Specifies the drawable, which can be a window or a pixmap. | ||
4354 | |||
4355 | root_return | ||
4356 | |||
4357 | Returns the root window. | ||
4358 | |||
4359 | x_return | ||
4360 | |||
4361 | y_return | ||
4362 | |||
4363 | Return the x and y coordinates that define the location of the | ||
4364 | drawable. For a window, these coordinates specify the | ||
4365 | upper-left outer corner relative to its parent's origin. For | ||
4366 | pixmaps, these coordinates are always zero. | ||
4367 | |||
4368 | width_return | ||
4369 | |||
4370 | height_return | ||
4371 | |||
4372 | Return the drawable's dimensions (width and height). For a | ||
4373 | window, these dimensions specify the inside size, not including | ||
4374 | the border. | ||
4375 | |||
4376 | border_width_return | ||
4377 | |||
4378 | Returns the border width in pixels. If the drawable is a | ||
4379 | pixmap, it returns zero. | ||
4380 | |||
4381 | depth_return | ||
4382 | |||
4383 | Returns the depth of the drawable (bits per pixel for the | ||
4384 | object). | ||
4385 | |||
4386 | The XGetGeometry function returns the root window and the | ||
4387 | current geometry of the drawable. The geometry of the drawable | ||
4388 | includes the x and y coordinates, width and height, border | ||
4389 | width, and depth. These are described in the argument list. It | ||
4390 | is legal to pass to this function a window whose class is | ||
4391 | InputOnly. | ||
4392 | |||
4393 | XGetGeometry can generate a BadDrawable error. | ||
4394 | |||
4395 | Translating Screen Coordinates | ||
4396 | |||
4397 | Applications sometimes need to perform a coordinate | ||
4398 | transformation from the coordinate space of one window to | ||
4399 | another window or need to determine which window the pointing | ||
4400 | device is in. XTranslateCoordinates and XQueryPointer fulfill | ||
4401 | these needs (and avoid any race conditions) by asking the X | ||
4402 | server to perform these operations. | ||
4403 | |||
4404 | To translate a coordinate in one window to the coordinate space | ||
4405 | of another window, use XTranslateCoordinates. | ||
4406 | |||
4407 | Bool XTranslateCoordinates(Display *display, Window src_w, | ||
4408 | Window dest_w, int src_x, int src_y, int *dest_x_return, int | ||
4409 | *dest_y_return, Window *child_return); | ||
4410 | |||
4411 | display | ||
4412 | |||
4413 | Specifies the connection to the X server. | ||
4414 | |||
4415 | src_w | ||
4416 | |||
4417 | Specifies the source window. | ||
4418 | |||
4419 | dest_w | ||
4420 | |||
4421 | Specifies the destination window. | ||
4422 | |||
4423 | src_x | ||
4424 | |||
4425 | src_y | ||
4426 | |||
4427 | Specify the x and y coordinates within the source window. | ||
4428 | |||
4429 | dest_x_return | ||
4430 | |||
4431 | dest_y_return | ||
4432 | |||
4433 | Return the x and y coordinates within the destination window. | ||
4434 | |||
4435 | child_return | ||
4436 | |||
4437 | Returns the child if the coordinates are contained in a mapped | ||
4438 | child of the destination window. | ||
4439 | |||
4440 | If XTranslateCoordinates returns True, it takes the src_x and | ||
4441 | src_y coordinates relative to the source window's origin and | ||
4442 | returns these coordinates to dest_x_return and dest_y_return | ||
4443 | relative to the destination window's origin. If | ||
4444 | XTranslateCoordinates returns False, src_w and dest_w are on | ||
4445 | different screens, and dest_x_return and dest_y_return are | ||
4446 | zero. If the coordinates are contained in a mapped child of | ||
4447 | dest_w, that child is returned to child_return. Otherwise, | ||
4448 | child_return is set to None. | ||
4449 | |||
4450 | XTranslateCoordinates can generate a BadWindow error. | ||
4451 | |||
4452 | To obtain the screen coordinates of the pointer or to determine | ||
4453 | the pointer coordinates relative to a specified window, use | ||
4454 | XQueryPointer. | ||
4455 | |||
4456 | Bool XQueryPointer(Display *display, Window w, Window | ||
4457 | *root_return, Window *child_return, int *root_x_return, int | ||
4458 | *root_y_return, int *win_x_return, int *win_y_return, unsigned | ||
4459 | int *mask_return); | ||
4460 | |||
4461 | display | ||
4462 | |||
4463 | Specifies the connection to the X server. | ||
4464 | |||
4465 | w | ||
4466 | |||
4467 | Specifies the window. | ||
4468 | |||
4469 | root_return | ||
4470 | |||
4471 | Returns the root window that the pointer is in. | ||
4472 | |||
4473 | child_return | ||
4474 | |||
4475 | Returns the child window that the pointer is located in, if | ||
4476 | any. | ||
4477 | |||
4478 | root_x_return | ||
4479 | |||
4480 | root_y_return | ||
4481 | |||
4482 | Return the pointer coordinates relative to the root window's | ||
4483 | origin. | ||
4484 | |||
4485 | win_x_return | ||
4486 | |||
4487 | win_y_return | ||
4488 | |||
4489 | Return the pointer coordinates relative to the specified | ||
4490 | window. | ||
4491 | |||
4492 | mask_return | ||
4493 | |||
4494 | Returns the current state of the modifier keys and pointer | ||
4495 | buttons. | ||
4496 | |||
4497 | The XQueryPointer function returns the root window the pointer | ||
4498 | is logically on and the pointer coordinates relative to the | ||
4499 | root window's origin. If XQueryPointer returns False, the | ||
4500 | pointer is not on the same screen as the specified window, and | ||
4501 | XQueryPointer returns None to child_return and zero to | ||
4502 | win_x_return and win_y_return. If XQueryPointer returns True, | ||
4503 | the pointer coordinates returned to win_x_return and | ||
4504 | win_y_return are relative to the origin of the specified | ||
4505 | window. In this case, XQueryPointer returns the child that | ||
4506 | contains the pointer, if any, or else None to child_return. | ||
4507 | |||
4508 | XQueryPointer returns the current logical state of the keyboard | ||
4509 | buttons and the modifier keys in mask_return. It sets | ||
4510 | mask_return to the bitwise inclusive OR of one or more of the | ||
4511 | button or modifier key bitmasks to match the current state of | ||
4512 | the mouse buttons and the modifier keys. | ||
4513 | |||
4514 | Note that the logical state of a device (as seen through Xlib) | ||
4515 | may lag the physical state if device event processing is frozen | ||
4516 | (see section 12.1). | ||
4517 | |||
4518 | XQueryPointer can generate a BadWindow error. | ||
4519 | |||
4520 | Properties and Atoms | ||
4521 | |||
4522 | A property is a collection of named, typed data. The window | ||
4523 | system has a set of predefined properties (for example, the | ||
4524 | name of a window, size hints, and so on), and users can define | ||
4525 | any other arbitrary information and associate it with windows. | ||
4526 | Each property has a name, which is an ISO Latin-1 string. For | ||
4527 | each named property, a unique identifier (atom) is associated | ||
4528 | with it. A property also has a type, for example, string or | ||
4529 | integer. These types are also indicated using atoms, so | ||
4530 | arbitrary new types can be defined. Data of only one type may | ||
4531 | be associated with a single property name. Clients can store | ||
4532 | and retrieve properties associated with windows. For efficiency | ||
4533 | reasons, an atom is used rather than a character string. | ||
4534 | XInternAtom can be used to obtain the atom for property names. | ||
4535 | |||
4536 | A property is also stored in one of several possible formats. | ||
4537 | The X server can store the information as 8-bit quantities, | ||
4538 | 16-bit quantities, or 32-bit quantities. This permits the X | ||
4539 | server to present the data in the byte order that the client | ||
4540 | expects. If you define further properties of complex type, you | ||
4541 | must encode and decode them yourself. These functions must be | ||
4542 | carefully written if they are to be portable. For further | ||
4543 | information about how to write a library extension, see | ||
4544 | appendix C. The type of a property is defined by an atom, which | ||
4545 | allows for arbitrary extension in this type scheme. | ||
4546 | |||
4547 | Certain property names are predefined in the server for | ||
4548 | commonly used functions. The atoms for these properties are | ||
4549 | defined in <X11/Xatom.h>. To avoid name clashes with user | ||
4550 | symbols, the #define name for each atom has the XA_ prefix. For | ||
4551 | an explanation of the functions that let you get and set much | ||
4552 | of the information stored in these predefined properties, see | ||
4553 | chapter 14. | ||
4554 | |||
4555 | The core protocol imposes no semantics on these property names, | ||
4556 | but semantics are specified in other X Consortium standards, | ||
4557 | such as the Inter-Client Communication Conventions Manual and | ||
4558 | the X Logical Font Description Conventions. | ||
4559 | |||
4560 | You can use properties to communicate other information between | ||
4561 | applications. The functions described in this section let you | ||
4562 | define new properties and get the unique atom IDs in your | ||
4563 | applications. | ||
4564 | |||
4565 | Although any particular atom can have some client | ||
4566 | interpretation within each of the name spaces, atoms occur in | ||
4567 | five distinct name spaces within the protocol: | ||
4568 | * Selections | ||
4569 | * Property names | ||
4570 | * Property types | ||
4571 | * Font properties | ||
4572 | * Type of a ClientMessage event (none are built into the X | ||
4573 | server) | ||
4574 | |||
4575 | The built-in selection property names are: | ||
4576 | PRIMARY SECONDARY | ||
4577 | |||
4578 | The built-in property names are: | ||
4579 | CUT_BUFFER0 RESOURCE_MANAGER | ||
4580 | CUT_BUFFER1 WM_CLASS | ||
4581 | CUT_BUFFER2 WM_CLIENT_MACHINE | ||
4582 | CUT_BUFFER3 WM_COLORMAP_WINDOWS | ||
4583 | CUT_BUFFER4 WM_COMMAND | ||
4584 | CUT_BUFFER5 WM_HINTS | ||
4585 | CUT_BUFFER6 WM_ICON_NAME | ||
4586 | CUT_BUFFER7 WM_ICON_SIZE | ||
4587 | RGB_BEST_MAP WM_NAME | ||
4588 | RGB_BLUE_MAP WM_NORMAL_HINTS | ||
4589 | RGB_DEFAULT_MAP WM_PROTOCOLS | ||
4590 | RGB_GRAY_MAP WM_STATE | ||
4591 | RGB_GREEN_MAP WM_TRANSIENT_FOR | ||
4592 | RGB_RED_MAP WM_ZOOM_HINTS | ||
4593 | |||
4594 | The built-in property types are: | ||
4595 | ARC PIXMAP | ||
4596 | ATOM POINT | ||
4597 | BITMAP RGB_COLOR_MAP | ||
4598 | CARDINAL RECTANGLE | ||
4599 | COLORMAP STRING | ||
4600 | CURSOR VISUALID | ||
4601 | DRAWABLE WINDOW | ||
4602 | FONT WM_HINTS | ||
4603 | INTEGER WM_SIZE_HINTS | ||
4604 | |||
4605 | The built-in font property names are: | ||
4606 | MIN_SPACE STRIKEOUT_DESCENT | ||
4607 | NORM_SPACE STRIKEOUT_ASCENT | ||
4608 | MAX_SPACE ITALIC_ANGLE | ||
4609 | END_SPACE X_HEIGHT | ||
4610 | SUPERSCRIPT_X QUAD_WIDTH | ||
4611 | SUPERSCRIPT_Y WEIGHT | ||
4612 | SUBSCRIPT_X POINT_SIZE | ||
4613 | SUBSCRIPT_Y RESOLUTION | ||
4614 | UNDERLINE_POSITION COPYRIGHT | ||
4615 | UNDERLINE_THICKNESS NOTICE | ||
4616 | FONT_NAME FAMILY_NAME | ||
4617 | FULL_NAME CAP_HEIGHT | ||
4618 | |||
4619 | For further information about font properties, see section 8.5. | ||
4620 | |||
4621 | To return an atom for a given name, use XInternAtom. | ||
4622 | |||
4623 | Atom XInternAtom(Display *display, char *atom_name, Bool | ||
4624 | only_if_exists); | ||
4625 | |||
4626 | display | ||
4627 | |||
4628 | Specifies the connection to the X server. | ||
4629 | |||
4630 | atom_name | ||
4631 | |||
4632 | Specifies the name associated with the atom you want returned. | ||
4633 | |||
4634 | only_if_exists | ||
4635 | |||
4636 | Specifies a Boolean value that indicates whether the atom must | ||
4637 | be created. | ||
4638 | |||
4639 | The XInternAtom function returns the atom identifier associated | ||
4640 | with the specified atom_name string. If only_if_exists is | ||
4641 | False, the atom is created if it does not exist. Therefore, | ||
4642 | XInternAtom can return None. If the atom name is not in the | ||
4643 | Host Portable Character Encoding, the result is | ||
4644 | implementation-dependent. Uppercase and lowercase matter; the | ||
4645 | strings ``thing'', ``Thing'', and ``thinG'' all designate | ||
4646 | different atoms. The atom will remain defined even after the | ||
4647 | client's connection closes. It will become undefined only when | ||
4648 | the last connection to the X server closes. | ||
4649 | |||
4650 | XInternAtom can generate BadAlloc and BadValue errors. | ||
4651 | |||
4652 | To return atoms for an array of names, use XInternAtoms. | ||
4653 | |||
4654 | Status XInternAtoms(Display *display, char **names, int count, | ||
4655 | Bool only_if_exists, Atom *atoms_return); | ||
4656 | |||
4657 | display | ||
4658 | |||
4659 | Specifies the connection to the X server. | ||
4660 | |||
4661 | names | ||
4662 | |||
4663 | Specifies the array of atom names. | ||
4664 | |||
4665 | count | ||
4666 | |||
4667 | Specifies the number of atom names in the array. | ||
4668 | |||
4669 | only_if_exists | ||
4670 | |||
4671 | Specifies a Boolean value that indicates whether the atom must | ||
4672 | be created. | ||
4673 | |||
4674 | atoms_return | ||
4675 | |||
4676 | Returns the atoms. | ||
4677 | |||
4678 | The XInternAtoms function returns the atom identifiers | ||
4679 | associated with the specified names. The atoms are stored in | ||
4680 | the atoms_return array supplied by the caller. Calling this | ||
4681 | function is equivalent to calling XInternAtom for each of the | ||
4682 | names in turn with the specified value of only_if_exists, but | ||
4683 | this function minimizes the number of round-trip protocol | ||
4684 | exchanges between the client and the X server. | ||
4685 | |||
4686 | This function returns a nonzero status if atoms are returned | ||
4687 | for all of the names; otherwise, it returns zero. | ||
4688 | |||
4689 | XInternAtoms can generate BadAlloc and BadValue errors. | ||
4690 | |||
4691 | To return a name for a given atom identifier, use XGetAtomName. | ||
4692 | |||
4693 | char *XGetAtomName(Display *display, Atom atom); | ||
4694 | |||
4695 | display | ||
4696 | |||
4697 | Specifies the connection to the X server. | ||
4698 | |||
4699 | atom | ||
4700 | |||
4701 | Specifies the atom for the property name you want returned. | ||
4702 | |||
4703 | The XGetAtomName function returns the name associated with the | ||
4704 | specified atom. If the data returned by the server is in the | ||
4705 | Latin Portable Character Encoding, then the returned string is | ||
4706 | in the Host Portable Character Encoding. Otherwise, the result | ||
4707 | is implementation-dependent. To free the resulting string, call | ||
4708 | XFree. | ||
4709 | |||
4710 | XGetAtomName can generate a BadAtom error. | ||
4711 | |||
4712 | To return the names for an array of atom identifiers, use | ||
4713 | XGetAtomNames. | ||
4714 | |||
4715 | Status XGetAtomNames(Display *display, Atom *atoms, int count, | ||
4716 | char **names_return); | ||
4717 | |||
4718 | display | ||
4719 | |||
4720 | Specifies the connection to the X server. | ||
4721 | |||
4722 | atoms | ||
4723 | |||
4724 | Specifies the array of atoms. | ||
4725 | |||
4726 | count | ||
4727 | |||
4728 | Specifies the number of atoms in the array. | ||
4729 | |||
4730 | names_return | ||
4731 | |||
4732 | Returns the atom names. | ||
4733 | |||
4734 | The XGetAtomNames function returns the names associated with | ||
4735 | the specified atoms. The names are stored in the names_return | ||
4736 | array supplied by the caller. Calling this function is | ||
4737 | equivalent to calling XGetAtomName for each of the atoms in | ||
4738 | turn, but this function minimizes the number of round-trip | ||
4739 | protocol exchanges between the client and the X server. | ||
4740 | |||
4741 | This function returns a nonzero status if names are returned | ||
4742 | for all of the atoms; otherwise, it returns zero. | ||
4743 | |||
4744 | XGetAtomNames can generate a BadAtom error. | ||
4745 | |||
4746 | Obtaining and Changing Window Properties | ||
4747 | |||
4748 | You can attach a property list to every window. Each property | ||
4749 | has a name, a type, and a value (see section 4.3). The value is | ||
4750 | an array of 8-bit, 16-bit, or 32-bit quantities, whose | ||
4751 | interpretation is left to the clients. The type char is used to | ||
4752 | represent 8-bit quantities, the type short is used to represent | ||
4753 | 16-bit quantities, and the type long is used to represent | ||
4754 | 32-bit quantities. | ||
4755 | |||
4756 | Xlib provides functions that you can use to obtain, change, | ||
4757 | update, or interchange window properties. In addition, Xlib | ||
4758 | provides other utility functions for inter-client communication | ||
4759 | (see chapter 14). | ||
4760 | |||
4761 | To obtain the type, format, and value of a property of a given | ||
4762 | window, use XGetWindowProperty. | ||
4763 | |||
4764 | int XGetWindowProperty(Display *display, Window w, Atom | ||
4765 | property, long long_offset, long long_length, Bool delete, Atom | ||
4766 | req_type, Atom *actual_type_return, int *actual_format_return, | ||
4767 | unsigned long *nitems_return, unsigned long | ||
4768 | *bytes_after_return, unsigned char **prop_return); | ||
4769 | |||
4770 | display | ||
4771 | |||
4772 | Specifies the connection to the X server. | ||
4773 | |||
4774 | w | ||
4775 | |||
4776 | Specifies the window whose property you want to obtain. | ||
4777 | |||
4778 | property | ||
4779 | |||
4780 | Specifies the property name. | ||
4781 | |||
4782 | long_offset | ||
4783 | |||
4784 | Specifies the offset in the specified property (in 32-bit | ||
4785 | quantities) where the data is to be retrieved. | ||
4786 | |||
4787 | long_length | ||
4788 | |||
4789 | Specifies the length in 32-bit multiples of the data to be | ||
4790 | retrieved. | ||
4791 | |||
4792 | delete | ||
4793 | |||
4794 | Specifies a Boolean value that determines whether the property | ||
4795 | is deleted. | ||
4796 | |||
4797 | req_type | ||
4798 | |||
4799 | Specifies the atom identifier associated with the property type | ||
4800 | or AnyPropertyType. | ||
4801 | |||
4802 | actual_type_return | ||
4803 | |||
4804 | Returns the atom identifier that defines the actual type of the | ||
4805 | property. | ||
4806 | |||
4807 | actual_format_return | ||
4808 | |||
4809 | Returns the actual format of the property. | ||
4810 | |||
4811 | nitems_return | ||
4812 | |||
4813 | Returns the actual number of 8-bit, 16-bit, or 32-bit items | ||
4814 | stored in the prop_return data. | ||
4815 | |||
4816 | bytes_after_return | ||
4817 | |||
4818 | Returns the number of bytes remaining to be read in the | ||
4819 | property if a partial read was performed. | ||
4820 | |||
4821 | prop_return | ||
4822 | |||
4823 | Returns the data in the specified format. | ||
4824 | |||
4825 | The XGetWindowProperty function returns the actual type of the | ||
4826 | property; the actual format of the property; the number of | ||
4827 | 8-bit, 16-bit, or 32-bit items transferred; the number of bytes | ||
4828 | remaining to be read in the property; and a pointer to the data | ||
4829 | actually returned. XGetWindowProperty sets the return arguments | ||
4830 | as follows: | ||
4831 | * If the specified property does not exist for the specified | ||
4832 | window, XGetWindowProperty returns None to | ||
4833 | actual_type_return and the value zero to | ||
4834 | actual_format_return and bytes_after_return. The | ||
4835 | nitems_return argument is empty. In this case, the delete | ||
4836 | argument is ignored. | ||
4837 | * If the specified property exists but its type does not | ||
4838 | match the specified type, XGetWindowProperty returns the | ||
4839 | actual property type to actual_type_return, the actual | ||
4840 | property format (never zero) to actual_format_return, and | ||
4841 | the property length in bytes (even if the | ||
4842 | actual_format_return is 16 or 32) to bytes_after_return. It | ||
4843 | also ignores the delete argument. The nitems_return | ||
4844 | argument is empty. | ||
4845 | * If the specified property exists and either you assign | ||
4846 | AnyPropertyType to the req_type argument or the specified | ||
4847 | type matches the actual property type, XGetWindowProperty | ||
4848 | returns the actual property type to actual_type_return and | ||
4849 | the actual property format (never zero) to | ||
4850 | actual_format_return. It also returns a value to | ||
4851 | bytes_after_return and nitems_return, by defining the | ||
4852 | following values: | ||
4853 | * N = actual length of the stored property in bytes (even if | ||
4854 | the format is 16 or 32) I = 4 * long_offset T = N - I L = | ||
4855 | MINIMUM(T, 4 * long_length) A = N - (I + L) | ||
4856 | * The returned value starts at byte index I in the property | ||
4857 | (indexing from zero), and its length in bytes is L. If the | ||
4858 | value for long_offset causes L to be negative, a BadValue | ||
4859 | error results. The value of bytes_after_return is A, giving | ||
4860 | the number of trailing unread bytes in the stored property. | ||
4861 | |||
4862 | If the returned format is 8, the returned data is represented | ||
4863 | as a char array. If the returned format is 16, the returned | ||
4864 | data is represented as a short array and should be cast to that | ||
4865 | type to obtain the elements. If the returned format is 32, the | ||
4866 | returned data is represented as a long array and should be cast | ||
4867 | to that type to obtain the elements. | ||
4868 | |||
4869 | XGetWindowProperty always allocates one extra byte in | ||
4870 | prop_return (even if the property is zero length) and sets it | ||
4871 | to zero so that simple properties consisting of characters do | ||
4872 | not have to be copied into yet another string before use. | ||
4873 | |||
4874 | If delete is True and bytes_after_return is zero, | ||
4875 | XGetWindowProperty deletes the property from the window and | ||
4876 | generates a PropertyNotify event on the window. | ||
4877 | |||
4878 | The function returns Success if it executes successfully. To | ||
4879 | free the resulting data, use XFree. | ||
4880 | |||
4881 | XGetWindowProperty can generate BadAtom, BadValue, and | ||
4882 | BadWindow errors. | ||
4883 | |||
4884 | To obtain a given window's property list, use XListProperties. | ||
4885 | |||
4886 | Atom *XListProperties(Display *display, Window w, int | ||
4887 | *num_prop_return); | ||
4888 | |||
4889 | display | ||
4890 | |||
4891 | Specifies the connection to the X server. | ||
4892 | |||
4893 | w | ||
4894 | |||
4895 | Specifies the window whose property list you want to obtain. | ||
4896 | |||
4897 | num_prop_return | ||
4898 | |||
4899 | Returns the length of the properties array. | ||
4900 | |||
4901 | The XListProperties function returns a pointer to an array of | ||
4902 | atom properties that are defined for the specified window or | ||
4903 | returns NULL if no properties were found. To free the memory | ||
4904 | allocated by this function, use XFree. | ||
4905 | |||
4906 | XListProperties can generate a BadWindow error. | ||
4907 | |||
4908 | To change a property of a given window, use XChangeProperty. | ||
4909 | |||
4910 | XChangeProperty(Display *display, Window w, Atom property, Atom | ||
4911 | type, int format, int mode, unsignedchar *data, int nelements); | ||
4912 | |||
4913 | display | ||
4914 | |||
4915 | Specifies the connection to the X server. | ||
4916 | |||
4917 | w | ||
4918 | |||
4919 | Specifies the window whose property you want to change. | ||
4920 | |||
4921 | property | ||
4922 | |||
4923 | Specifies the property name. | ||
4924 | |||
4925 | type | ||
4926 | |||
4927 | Specifies the type of the property. The X server does not | ||
4928 | interpret the type but simply passes it back to an application | ||
4929 | that later calls XGetWindowProperty. | ||
4930 | |||
4931 | format | ||
4932 | |||
4933 | Specifies whether the data should be viewed as a list of 8-bit, | ||
4934 | 16-bit, or 32-bit quantities. Possible values are 8, 16, and | ||
4935 | 32. This information allows the X server to correctly perform | ||
4936 | byte-swap operations as necessary. If the format is 16-bit or | ||
4937 | 32-bit, you must explicitly cast your data pointer to an | ||
4938 | (unsigned char *) in the call to XChangeProperty. | ||
4939 | |||
4940 | mode | ||
4941 | |||
4942 | Specifies the mode of the operation. You can pass | ||
4943 | PropModeReplace, PropModePrepend, or PropModeAppend. | ||
4944 | |||
4945 | data | ||
4946 | |||
4947 | Specifies the property data. | ||
4948 | |||
4949 | nelements | ||
4950 | |||
4951 | Specifies the number of elements of the specified data format. | ||
4952 | |||
4953 | The XChangeProperty function alters the property for the | ||
4954 | specified window and causes the X server to generate a | ||
4955 | PropertyNotify event on that window. XChangeProperty performs | ||
4956 | the following: | ||
4957 | * If mode is PropModeReplace, XChangeProperty discards the | ||
4958 | previous property value and stores the new data. | ||
4959 | * If mode is PropModePrepend or PropModeAppend, | ||
4960 | XChangeProperty inserts the specified data before the | ||
4961 | beginning of the existing data or onto the end of the | ||
4962 | existing data, respectively. The type and format must match | ||
4963 | the existing property value, or a BadMatch error results. | ||
4964 | If the property is undefined, it is treated as defined with | ||
4965 | the correct type and format with zero-length data. | ||
4966 | |||
4967 | If the specified format is 8, the property data must be a char | ||
4968 | array. If the specified format is 16, the property data must be | ||
4969 | a short array. If the specified format is 32, the property data | ||
4970 | must be a long array. | ||
4971 | |||
4972 | The lifetime of a property is not tied to the storing client. | ||
4973 | Properties remain until explicitly deleted, until the window is | ||
4974 | destroyed, or until the server resets. For a discussion of what | ||
4975 | happens when the connection to the X server is closed, see | ||
4976 | section 2.6. The maximum size of a property is server dependent | ||
4977 | and can vary dynamically depending on the amount of memory the | ||
4978 | server has available. (If there is insufficient space, a | ||
4979 | BadAlloc error results.) | ||
4980 | |||
4981 | XChangeProperty can generate BadAlloc, BadAtom, BadMatch, | ||
4982 | BadValue, and BadWindow errors. | ||
4983 | |||
4984 | To rotate a window's property list, use | ||
4985 | XRotateWindowProperties. | ||
4986 | |||
4987 | XRotateWindowProperties(Display *display, Window w, Atom | ||
4988 | properties[], int num_prop, int npositions); | ||
4989 | |||
4990 | display | ||
4991 | |||
4992 | Specifies the connection to the X server. | ||
4993 | |||
4994 | w | ||
4995 | |||
4996 | Specifies the window. | ||
4997 | |||
4998 | properties | ||
4999 | |||
5000 | Specifies the array of properties that are to be rotated. | ||
5001 | |||
5002 | num_prop | ||
5003 | |||
5004 | Specifies the length of the properties array. | ||
5005 | |||
5006 | npositions | ||
5007 | |||
5008 | Specifies the rotation amount. | ||
5009 | |||
5010 | The XRotateWindowProperties function allows you to rotate | ||
5011 | properties on a window and causes the X server to generate | ||
5012 | PropertyNotify events. If the property names in the properties | ||
5013 | array are viewed as being numbered starting from zero and if | ||
5014 | there are num_prop property names in the list, then the value | ||
5015 | associated with property name I becomes the value associated | ||
5016 | with property name (I + npositions) mod N for all I from zero | ||
5017 | to N - 1. The effect is to rotate the states by npositions | ||
5018 | places around the virtual ring of property names (right for | ||
5019 | positive npositions, left for negative npositions). If | ||
5020 | npositions mod N is nonzero, the X server generates a | ||
5021 | PropertyNotify event for each property in the order that they | ||
5022 | are listed in the array. If an atom occurs more than once in | ||
5023 | the list or no property with that name is defined for the | ||
5024 | window, a BadMatch error results. If a BadAtom or BadMatch | ||
5025 | error results, no properties are changed. | ||
5026 | |||
5027 | XRotateWindowProperties can generate BadAtom, BadMatch, and | ||
5028 | BadWindow errors. | ||
5029 | |||
5030 | To delete a property on a given window, use XDeleteProperty. | ||
5031 | |||
5032 | XDeleteProperty(Display *display, Window w, Atom property); | ||
5033 | |||
5034 | display | ||
5035 | |||
5036 | Specifies the connection to the X server. | ||
5037 | |||
5038 | w | ||
5039 | |||
5040 | Specifies the window whose property you want to delete. | ||
5041 | |||
5042 | property | ||
5043 | |||
5044 | Specifies the property name. | ||
5045 | |||
5046 | The XDeleteProperty function deletes the specified property | ||
5047 | only if the property was defined on the specified window and | ||
5048 | causes the X server to generate a PropertyNotify event on the | ||
5049 | window unless the property does not exist. | ||
5050 | |||
5051 | XDeleteProperty can generate BadAtom and BadWindow errors. | ||
5052 | |||
5053 | Selections | ||
5054 | |||
5055 | Selections are one method used by applications to exchange | ||
5056 | data. By using the property mechanism, applications can | ||
5057 | exchange data of arbitrary types and can negotiate the type of | ||
5058 | the data. A selection can be thought of as an indirect property | ||
5059 | with a dynamic type. That is, rather than having the property | ||
5060 | stored in the X server, the property is maintained by some | ||
5061 | client (the owner). A selection is global in nature (considered | ||
5062 | to belong to the user but be maintained by clients) rather than | ||
5063 | being private to a particular window subhierarchy or a | ||
5064 | particular set of clients. | ||
5065 | |||
5066 | Xlib provides functions that you can use to set, get, or | ||
5067 | request conversion of selections. This allows applications to | ||
5068 | implement the notion of current selection, which requires that | ||
5069 | notification be sent to applications when they no longer own | ||
5070 | the selection. Applications that support selection often | ||
5071 | highlight the current selection and so must be informed when | ||
5072 | another application has acquired the selection so that they can | ||
5073 | unhighlight the selection. | ||
5074 | |||
5075 | When a client asks for the contents of a selection, it | ||
5076 | specifies a selection target type. This target type can be used | ||
5077 | to control the transmitted representation of the contents. For | ||
5078 | example, if the selection is ``the last thing the user clicked | ||
5079 | on'' and that is currently an image, then the target type might | ||
5080 | specify whether the contents of the image should be sent in XY | ||
5081 | format or Z format. | ||
5082 | |||
5083 | The target type can also be used to control the class of | ||
5084 | contents transmitted, for example, asking for the ``looks'' | ||
5085 | (fonts, line spacing, indentation, and so forth) of a paragraph | ||
5086 | selection, not the text of the paragraph. The target type can | ||
5087 | also be used for other purposes. The protocol does not | ||
5088 | constrain the semantics. | ||
5089 | |||
5090 | To set the selection owner, use XSetSelectionOwner. | ||
5091 | |||
5092 | XSetSelectionOwner(Display *display, Atom selection, Window | ||
5093 | owner, Time time); | ||
5094 | |||
5095 | display | ||
5096 | |||
5097 | Specifies the connection to the X server. | ||
5098 | |||
5099 | selection | ||
5100 | |||
5101 | Specifies the selection atom. | ||
5102 | |||
5103 | owner | ||
5104 | |||
5105 | Specifies the owner of the specified selection atom. You can | ||
5106 | pass a window or None. | ||
5107 | |||
5108 | time | ||
5109 | |||
5110 | Specifies the time. You can pass either a timestamp or | ||
5111 | CurrentTime. | ||
5112 | |||
5113 | The XSetSelectionOwner function changes the owner and | ||
5114 | last-change time for the specified selection and has no effect | ||
5115 | if the specified time is earlier than the current last-change | ||
5116 | time of the specified selection or is later than the current X | ||
5117 | server time. Otherwise, the last-change time is set to the | ||
5118 | specified time, with CurrentTime replaced by the current server | ||
5119 | time. If the owner window is specified as None, then the owner | ||
5120 | of the selection becomes None (that is, no owner). Otherwise, | ||
5121 | the owner of the selection becomes the client executing the | ||
5122 | request. | ||
5123 | |||
5124 | If the new owner (whether a client or None) is not the same as | ||
5125 | the current owner of the selection and the current owner is not | ||
5126 | None, the current owner is sent a SelectionClear event. If the | ||
5127 | client that is the owner of a selection is later terminated | ||
5128 | (that is, its connection is closed) or if the owner window it | ||
5129 | has specified in the request is later destroyed, the owner of | ||
5130 | the selection automatically reverts to None, but the | ||
5131 | last-change time is not affected. The selection atom is | ||
5132 | uninterpreted by the X server. XGetSelectionOwner returns the | ||
5133 | owner window, which is reported in SelectionRequest and | ||
5134 | SelectionClear events. Selections are global to the X server. | ||
5135 | |||
5136 | XSetSelectionOwner can generate BadAtom and BadWindow errors. | ||
5137 | |||
5138 | To return the selection owner, use XGetSelectionOwner. | ||
5139 | |||
5140 | Window XGetSelectionOwner(Display *display, Atom selection); | ||
5141 | |||
5142 | display | ||
5143 | |||
5144 | Specifies the connection to the X server. | ||
5145 | |||
5146 | selection | ||
5147 | |||
5148 | Specifies the selection atom whose owner you want returned. | ||
5149 | |||
5150 | The XGetSelectionOwner function returns the window ID | ||
5151 | associated with the window that currently owns the specified | ||
5152 | selection. If no selection was specified, the function returns | ||
5153 | the constant None. If None is returned, there is no owner for | ||
5154 | the selection. | ||
5155 | |||
5156 | XGetSelectionOwner can generate a BadAtom error. | ||
5157 | |||
5158 | To request conversion of a selection, use XConvertSelection. | ||
5159 | |||
5160 | XConvertSelection(Display *display, Atom selection, Atom | ||
5161 | target, Atom property, Window requestor, Time time); | ||
5162 | |||
5163 | display | ||
5164 | |||
5165 | Specifies the connection to the X server. | ||
5166 | |||
5167 | selection | ||
5168 | |||
5169 | Specifies the selection atom. | ||
5170 | |||
5171 | target | ||
5172 | |||
5173 | Specifies the target atom. | ||
5174 | |||
5175 | property | ||
5176 | |||
5177 | Specifies the property name. You also can pass None. | ||
5178 | |||
5179 | requestor | ||
5180 | |||
5181 | Specifies the requestor. | ||
5182 | |||
5183 | time | ||
5184 | |||
5185 | Specifies the time. You can pass either a timestamp or | ||
5186 | CurrentTime. | ||
5187 | |||
5188 | XConvertSelection requests that the specified selection be | ||
5189 | converted to the specified target type: | ||
5190 | * If the specified selection has an owner, the X server sends | ||
5191 | a SelectionRequest event to that owner. | ||
5192 | * If no owner for the specified selection exists, the X | ||
5193 | server generates a SelectionNotify event to the requestor | ||
5194 | with property None. | ||
5195 | |||
5196 | The arguments are passed on unchanged in either of the events. | ||
5197 | There are two predefined selection atoms: PRIMARY and | ||
5198 | SECONDARY. | ||
5199 | |||
5200 | XConvertSelection can generate BadAtom and BadWindow errors. | ||
5201 | |||
5202 | Chapter 5. Pixmap and Cursor Functions | ||
5203 | |||
5204 | Table of Contents | ||
5205 | |||
5206 | Creating and Freeing Pixmaps | ||
5207 | Creating, Recoloring, and Freeing Cursors | ||
5208 | |||
5209 | Creating and Freeing Pixmaps | ||
5210 | |||
5211 | Pixmaps can only be used on the screen on which they were | ||
5212 | created. Pixmaps are off-screen resources that are used for | ||
5213 | various operations, such as defining cursors as tiling patterns | ||
5214 | or as the source for certain raster operations. Most graphics | ||
5215 | requests can operate either on a window or on a pixmap. A | ||
5216 | bitmap is a single bit-plane pixmap. | ||
5217 | |||
5218 | To create a pixmap of a given size, use XCreatePixmap. | ||
5219 | |||
5220 | Pixmap XCreatePixmap(Display *display, Drawable d, unsigned int | ||
5221 | width, unsigned int height, unsigned int depth); | ||
5222 | |||
5223 | display | ||
5224 | |||
5225 | Specifies the connection to the X server. | ||
5226 | |||
5227 | d | ||
5228 | |||
5229 | Specifies which screen the pixmap is created on. | ||
5230 | |||
5231 | width | ||
5232 | |||
5233 | height | ||
5234 | |||
5235 | Specify the width and height, which define the dimensions of | ||
5236 | the pixmap. | ||
5237 | |||
5238 | depth | ||
5239 | |||
5240 | Specifies the depth of the pixmap. | ||
5241 | |||
5242 | The XCreatePixmap function creates a pixmap of the width, | ||
5243 | height, and depth you specified and returns a pixmap ID that | ||
5244 | identifies it. It is valid to pass an InputOnly window to the | ||
5245 | drawable argument. The width and height arguments must be | ||
5246 | nonzero, or a BadValue error results. The depth argument must | ||
5247 | be one of the depths supported by the screen of the specified | ||
5248 | drawable, or a BadValue error results. | ||
5249 | |||
5250 | The server uses the specified drawable to determine on which | ||
5251 | screen to create the pixmap. The pixmap can be used only on | ||
5252 | this screen and only with other drawables of the same depth | ||
5253 | (see XCopyPlane for an exception to this rule). The initial | ||
5254 | contents of the pixmap are undefined. | ||
5255 | |||
5256 | XCreatePixmap can generate BadAlloc, BadDrawable, and BadValue | ||
5257 | errors. | ||
5258 | |||
5259 | To free all storage associated with a specified pixmap, use | ||
5260 | XFreePixmap. | ||
5261 | |||
5262 | XFreePixmap(Display *display, Pixmap pixmap); | ||
5263 | |||
5264 | display | ||
5265 | |||
5266 | Specifies the connection to the X server. | ||
5267 | |||
5268 | pixmap | ||
5269 | |||
5270 | Specifies the pixmap. | ||
5271 | |||
5272 | The XFreePixmap function first deletes the association between | ||
5273 | the pixmap ID and the pixmap. Then, the X server frees the | ||
5274 | pixmap storage when there are no references to it. The pixmap | ||
5275 | should never be referenced again. | ||
5276 | |||
5277 | XFreePixmap can generate a BadPixmap error. | ||
5278 | |||
5279 | Creating, Recoloring, and Freeing Cursors | ||
5280 | |||
5281 | Each window can have a different cursor defined for it. | ||
5282 | Whenever the pointer is in a visible window, it is set to the | ||
5283 | cursor defined for that window. If no cursor was defined for | ||
5284 | that window, the cursor is the one defined for the parent | ||
5285 | window. | ||
5286 | |||
5287 | From X's perspective, a cursor consists of a cursor source, | ||
5288 | mask, colors, and a hotspot. The mask pixmap determines the | ||
5289 | shape of the cursor and must be a depth of one. The source | ||
5290 | pixmap must have a depth of one, and the colors determine the | ||
5291 | colors of the source. The hotspot defines the point on the | ||
5292 | cursor that is reported when a pointer event occurs. There may | ||
5293 | be limitations imposed by the hardware on cursors as to size | ||
5294 | and whether a mask is implemented. XQueryBestCursor can be used | ||
5295 | to find out what sizes are possible. There is a standard font | ||
5296 | for creating cursors, but Xlib provides functions that you can | ||
5297 | use to create cursors from an arbitrary font or from bitmaps. | ||
5298 | |||
5299 | To create a cursor from the standard cursor font, use | ||
5300 | XCreateFontCursor. | ||
5301 | |||
5302 | #include <X11/cursorfont.h> | ||
5303 | |||
5304 | Cursor XCreateFontCursor(Display *display, unsigned int shape); | ||
5305 | |||
5306 | display | ||
5307 | |||
5308 | Specifies the connection to the X server. | ||
5309 | |||
5310 | shape | ||
5311 | |||
5312 | Specifies the shape of the cursor. | ||
5313 | |||
5314 | X provides a set of standard cursor shapes in a special font | ||
5315 | named cursor. Applications are encouraged to use this interface | ||
5316 | for their cursors because the font can be customized for the | ||
5317 | individual display type. The shape argument specifies which | ||
5318 | glyph of the standard fonts to use. | ||
5319 | |||
5320 | The hotspot comes from the information stored in the cursor | ||
5321 | font. The initial colors of a cursor are a black foreground and | ||
5322 | a white background (see XRecolorCursor). For further | ||
5323 | information about cursor shapes, see appendix B. | ||
5324 | |||
5325 | XCreateFontCursor can generate BadAlloc and BadValue errors. | ||
5326 | |||
5327 | To create a cursor from font glyphs, use XCreateGlyphCursor. | ||
5328 | |||
5329 | Cursor XCreateGlyphCursor(Display *display, Font source_font, | ||
5330 | Font mask_font, unsigned int source_char, unsigned int | ||
5331 | mask_char, XColor *foreground_color, XColor *background_color); | ||
5332 | |||
5333 | display | ||
5334 | |||
5335 | Specifies the connection to the X server. | ||
5336 | |||
5337 | source_font | ||
5338 | |||
5339 | Specifies the font for the source glyph. | ||
5340 | |||
5341 | mask_font | ||
5342 | |||
5343 | Specifies the font for the mask glyph or None. | ||
5344 | |||
5345 | source_char | ||
5346 | |||
5347 | Specifies the character glyph for the source. | ||
5348 | |||
5349 | mask_char | ||
5350 | |||
5351 | Specifies the glyph character for the mask. | ||
5352 | |||
5353 | foreground_color | ||
5354 | |||
5355 | Specifies the RGB values for the foreground of the source. | ||
5356 | |||
5357 | background_color | ||
5358 | |||
5359 | Specifies the RGB values for the background of the source. | ||
5360 | |||
5361 | The XCreateGlyphCursor function is similar to | ||
5362 | XCreatePixmapCursor except that the source and mask bitmaps are | ||
5363 | obtained from the specified font glyphs. The source_char must | ||
5364 | be a defined glyph in source_font, or a BadValue error results. | ||
5365 | If mask_font is given, mask_char must be a defined glyph in | ||
5366 | mask_font, or a BadValue error results. The mask_font and | ||
5367 | character are optional. The origins of the source_char and | ||
5368 | mask_char (if defined) glyphs are positioned coincidently and | ||
5369 | define the hotspot. The source_char and mask_char need not have | ||
5370 | the same bounding box metrics, and there is no restriction on | ||
5371 | the placement of the hotspot relative to the bounding boxes. If | ||
5372 | no mask_char is given, all pixels of the source are displayed. | ||
5373 | You can free the fonts immediately by calling XFreeFont if no | ||
5374 | further explicit references to them are to be made. | ||
5375 | |||
5376 | For 2-byte matrix fonts, the 16-bit value should be formed with | ||
5377 | the byte1 member in the most significant byte and the byte2 | ||
5378 | member in the least significant byte. | ||
5379 | |||
5380 | XCreateGlyphCursor can generate BadAlloc, BadFont, and BadValue | ||
5381 | errors. | ||
5382 | |||
5383 | To create a cursor from two bitmaps, use XCreatePixmapCursor. | ||
5384 | |||
5385 | Cursor XCreatePixmapCursor(Display *display, Pixmap source, | ||
5386 | Pixmap mask, XColor *foreground_color, XColor | ||
5387 | *background_color, unsigned int x, unsigned int y); | ||
5388 | |||
5389 | display | ||
5390 | |||
5391 | Specifies the connection to the X server. | ||
5392 | |||
5393 | source | ||
5394 | |||
5395 | Specifies the shape of the source cursor. | ||
5396 | |||
5397 | mask | ||
5398 | |||
5399 | Specifies the cursor's source bits to be displayed or None. | ||
5400 | |||
5401 | foreground_color | ||
5402 | |||
5403 | Specifies the RGB values for the foreground of the source. | ||
5404 | |||
5405 | background_color | ||
5406 | |||
5407 | Specifies the RGB values for the background of the source. | ||
5408 | |||
5409 | x | ||
5410 | |||
5411 | y | ||
5412 | |||
5413 | Specify the x and y coordinates, which indicate the hotspot | ||
5414 | relative to the source's origin. | ||
5415 | |||
5416 | The XCreatePixmapCursor function creates a cursor and returns | ||
5417 | the cursor ID associated with it. The foreground and background | ||
5418 | RGB values must be specified using foreground_color and | ||
5419 | background_color, even if the X server only has a StaticGray or | ||
5420 | GrayScale screen. The foreground color is used for the pixels | ||
5421 | set to 1 in the source, and the background color is used for | ||
5422 | the pixels set to 0. Both source and mask, if specified, must | ||
5423 | have depth one (or a BadMatch error results) but can have any | ||
5424 | root. The mask argument defines the shape of the cursor. The | ||
5425 | pixels set to 1 in the mask define which source pixels are | ||
5426 | displayed, and the pixels set to 0 define which pixels are | ||
5427 | ignored. If no mask is given, all pixels of the source are | ||
5428 | displayed. The mask, if present, must be the same size as the | ||
5429 | pixmap defined by the source argument, or a BadMatch error | ||
5430 | results. The hotspot must be a point within the source, or a | ||
5431 | BadMatch error results. | ||
5432 | |||
5433 | The components of the cursor can be transformed arbitrarily to | ||
5434 | meet display limitations. The pixmaps can be freed immediately | ||
5435 | if no further explicit references to them are to be made. | ||
5436 | Subsequent drawing in the source or mask pixmap has an | ||
5437 | undefined effect on the cursor. The X server might or might not | ||
5438 | make a copy of the pixmap. | ||
5439 | |||
5440 | XCreatePixmapCursor can generate BadAlloc and BadPixmap errors. | ||
5441 | |||
5442 | To determine useful cursor sizes, use XQueryBestCursor. | ||
5443 | |||
5444 | Status XQueryBestCursor(Display *display, Drawable d, unsigned | ||
5445 | int width, unsigned int height, unsigned int *width_return, | ||
5446 | unsigned int *height_return); | ||
5447 | |||
5448 | display | ||
5449 | |||
5450 | Specifies the connection to the X server. | ||
5451 | |||
5452 | d | ||
5453 | |||
5454 | Specifies the drawable, which indicates the screen. | ||
5455 | |||
5456 | width | ||
5457 | |||
5458 | height | ||
5459 | |||
5460 | Specify the width and height of the cursor that you want the | ||
5461 | size information for. | ||
5462 | |||
5463 | width_return | ||
5464 | |||
5465 | height_return | ||
5466 | |||
5467 | Return the best width and height that is closest to the | ||
5468 | specified width and height. | ||
5469 | |||
5470 | Some displays allow larger cursors than other displays. The | ||
5471 | XQueryBestCursor function provides a way to find out what size | ||
5472 | cursors are actually possible on the display. It returns the | ||
5473 | largest size that can be displayed. Applications should be | ||
5474 | prepared to use smaller cursors on displays that cannot support | ||
5475 | large ones. | ||
5476 | |||
5477 | XQueryBestCursor can generate a BadDrawable error. | ||
5478 | |||
5479 | To change the color of a given cursor, use XRecolorCursor. | ||
5480 | |||
5481 | XRecolorCursor(Display *display, Cursor cursor, XColor | ||
5482 | *foreground_color, XColor *background_color); | ||
5483 | |||
5484 | display | ||
5485 | |||
5486 | Specifies the connection to the X server. | ||
5487 | |||
5488 | cursor | ||
5489 | |||
5490 | Specifies the cursor. | ||
5491 | |||
5492 | foreground_color | ||
5493 | |||
5494 | Specifies the RGB values for the foreground of the source. | ||
5495 | |||
5496 | background_color | ||
5497 | |||
5498 | Specifies the RGB values for the background of the source. | ||
5499 | |||
5500 | The XRecolorCursor function changes the color of the specified | ||
5501 | cursor, and if the cursor is being displayed on a screen, the | ||
5502 | change is visible immediately. The pixel members of the XColor | ||
5503 | structures are ignored; only the RGB values are used. | ||
5504 | |||
5505 | XRecolorCursor can generate a BadCursor error. | ||
5506 | |||
5507 | To free (destroy) a given cursor, use XFreeCursor. | ||
5508 | |||
5509 | XFreeCursor(Display *display, Cursor cursor); | ||
5510 | |||
5511 | display | ||
5512 | |||
5513 | Specifies the connection to the X server. | ||
5514 | |||
5515 | cursor | ||
5516 | |||
5517 | Specifies the cursor. | ||
5518 | |||
5519 | The XFreeCursor function deletes the association between the | ||
5520 | cursor resource ID and the specified cursor. The cursor storage | ||
5521 | is freed when no other resource references it. The specified | ||
5522 | cursor ID should not be referred to again. | ||
5523 | |||
5524 | XFreeCursor can generate a BadCursor error. | ||
5525 | |||
5526 | Chapter 6. Color Management Functions | ||
5527 | |||
5528 | Table of Contents | ||
5529 | |||
5530 | Color Structures | ||
5531 | Color Strings | ||
5532 | |||
5533 | RGB Device String Specification | ||
5534 | RGB Intensity String Specification | ||
5535 | Device-Independent String Specifications | ||
5536 | |||
5537 | Color Conversion Contexts and Gamut Mapping | ||
5538 | Creating, Copying, and Destroying Colormaps | ||
5539 | Mapping Color Names to Values | ||
5540 | Allocating and Freeing Color Cells | ||
5541 | Modifying and Querying Colormap Cells | ||
5542 | Color Conversion Context Functions | ||
5543 | |||
5544 | Getting and Setting the Color Conversion Context of a | ||
5545 | Colormap | ||
5546 | |||
5547 | Obtaining the Default Color Conversion Context | ||
5548 | Color Conversion Context Macros | ||
5549 | Modifying Attributes of a Color Conversion Context | ||
5550 | Creating and Freeing a Color Conversion Context | ||
5551 | |||
5552 | Converting between Color Spaces | ||
5553 | Callback Functions | ||
5554 | |||
5555 | Prototype Gamut Compression Procedure | ||
5556 | Supplied Gamut Compression Procedures | ||
5557 | Prototype White Point Adjustment Procedure | ||
5558 | Supplied White Point Adjustment Procedures | ||
5559 | |||
5560 | Gamut Querying Functions | ||
5561 | |||
5562 | Red, Green, and Blue Queries | ||
5563 | CIELab Queries | ||
5564 | CIELuv Queries | ||
5565 | TekHVC Queries | ||
5566 | |||
5567 | Color Management Extensions | ||
5568 | |||
5569 | Color Spaces | ||
5570 | Adding Device-Independent Color Spaces | ||
5571 | Querying Color Space Format and Prefix | ||
5572 | Creating Additional Color Spaces | ||
5573 | Parse String Callback | ||
5574 | Color Specification Conversion Callback | ||
5575 | Function Sets | ||
5576 | Adding Function Sets | ||
5577 | Creating Additional Function Sets | ||
5578 | |||
5579 | Each X window always has an associated colormap that provides a | ||
5580 | level of indirection between pixel values and colors displayed | ||
5581 | on the screen. Xlib provides functions that you can use to | ||
5582 | manipulate a colormap. The X protocol defines colors using | ||
5583 | values in the RGB color space. The RGB color space is device | ||
5584 | dependent; rendering an RGB value on differing output devices | ||
5585 | typically results in different colors. Xlib also provides a | ||
5586 | means for clients to specify color using device-independent | ||
5587 | color spaces for consistent results across devices. Xlib | ||
5588 | supports device-independent color spaces derivable from the CIE | ||
5589 | XYZ color space. This includes the CIE XYZ, xyY, L*u*v*, and | ||
5590 | L*a*b* color spaces as well as the TekHVC color space. | ||
5591 | |||
5592 | This chapter discusses how to: | ||
5593 | * Create, copy, and destroy a colormap | ||
5594 | * Specify colors by name or value | ||
5595 | * Allocate, modify, and free color cells | ||
5596 | * Read entries in a colormap | ||
5597 | * Convert between color spaces | ||
5598 | * Control aspects of color conversion | ||
5599 | * Query the color gamut of a screen | ||
5600 | * Add new color spaces | ||
5601 | |||
5602 | All functions, types, and symbols in this chapter with the | ||
5603 | prefix ``Xcms'' are defined in <X11/Xcms.h>. The remaining | ||
5604 | functions and types are defined in <X11/Xlib.h>. | ||
5605 | |||
5606 | Functions in this chapter manipulate the representation of | ||
5607 | color on the screen. For each possible value that a pixel can | ||
5608 | take in a window, there is a color cell in the colormap. For | ||
5609 | example, if a window is 4 bits deep, pixel values 0 through 15 | ||
5610 | are defined. A colormap is a collection of color cells. A color | ||
5611 | cell consists of a triple of red, green, and blue (RGB) values. | ||
5612 | The hardware imposes limits on the number of significant bits | ||
5613 | in these values. As each pixel is read out of display memory, | ||
5614 | the pixel is looked up in a colormap. The RGB value of the cell | ||
5615 | determines what color is displayed on the screen. On a | ||
5616 | grayscale display with a black-and-white monitor, the values | ||
5617 | are combined to determine the brightness on the screen. | ||
5618 | |||
5619 | Typically, an application allocates color cells or sets of | ||
5620 | color cells to obtain the desired colors. The client can | ||
5621 | allocate read-only cells. In which case, the pixel values for | ||
5622 | these colors can be shared among multiple applications, and the | ||
5623 | RGB value of the cell cannot be changed. If the client | ||
5624 | allocates read/write cells, they are exclusively owned by the | ||
5625 | client, and the color associated with the pixel value can be | ||
5626 | changed at will. Cells must be allocated (and, if read/write, | ||
5627 | initialized with an RGB value) by a client to obtain desired | ||
5628 | colors. The use of pixel value for an unallocated cell results | ||
5629 | in an undefined color. | ||
5630 | |||
5631 | Because colormaps are associated with windows, X supports | ||
5632 | displays with multiple colormaps and, indeed, different types | ||
5633 | of colormaps. If there are insufficient colormap resources in | ||
5634 | the display, some windows will display in their true colors, | ||
5635 | and others will display with incorrect colors. A window manager | ||
5636 | usually controls which windows are displayed in their true | ||
5637 | colors if more than one colormap is required for the color | ||
5638 | resources the applications are using. At any time, there is a | ||
5639 | set of installed colormaps for a screen. Windows using one of | ||
5640 | the installed colormaps display with true colors, and windows | ||
5641 | using other colormaps generally display with incorrect colors. | ||
5642 | You can control the set of installed colormaps by using | ||
5643 | XInstallColormap and XUninstallColormap. | ||
5644 | |||
5645 | Colormaps are local to a particular screen. Screens always have | ||
5646 | a default colormap, and programs typically allocate cells out | ||
5647 | of this colormap. Generally, you should not write applications | ||
5648 | that monopolize color resources. Although some hardware | ||
5649 | supports multiple colormaps installed at one time, many of the | ||
5650 | hardware displays built today support only a single installed | ||
5651 | colormap, so the primitives are written to encourage sharing of | ||
5652 | colormap entries between applications. | ||
5653 | |||
5654 | The DefaultColormap macro returns the default colormap. The | ||
5655 | DefaultVisual macro returns the default visual type for the | ||
5656 | specified screen. Possible visual types are StaticGray, | ||
5657 | GrayScale, StaticColor, PseudoColor, TrueColor, or DirectColor | ||
5658 | (see section 3.1). | ||
5659 | |||
5660 | Color Structures | ||
5661 | |||
5662 | Functions that operate only on RGB color space values use an | ||
5663 | XColor structure, which contains: | ||
5664 | |||
5665 | |||
5666 | |||
5667 | typedef struct { | ||
5668 | unsigned long pixel; /* pixel value */ | ||
5669 | unsigned short red, green, blue; /* rgb values */ | ||
5670 | char flags; /* DoRed, DoGreen, DoBlue */ | ||
5671 | char pad; | ||
5672 | } XColor; | ||
5673 | |||
5674 | The red, green, and blue values are always in the range 0 to | ||
5675 | 65535 inclusive, independent of the number of bits actually | ||
5676 | used in the display hardware. The server scales these values | ||
5677 | down to the range used by the hardware. Black is represented by | ||
5678 | (0,0,0), and white is represented by (65535,65535,65535). In | ||
5679 | some functions, the flags member controls which of the red, | ||
5680 | green, and blue members is used and can be the inclusive OR of | ||
5681 | zero or more of DoRed, DoGreen, and DoBlue. | ||
5682 | |||
5683 | Functions that operate on all color space values use an | ||
5684 | XcmsColor structure. This structure contains a union of | ||
5685 | substructures, each supporting color specification encoding for | ||
5686 | a particular color space. Like the XColor structure, the | ||
5687 | XcmsColor structure contains pixel and color specification | ||
5688 | information (the spec member in the XcmsColor structure). | ||
5689 | |||
5690 | |||
5691 | |||
5692 | typedef unsigned long XcmsColorFormat; /* Color Specifi | ||
5693 | cation Format */ | ||
5694 | |||
5695 | typedef struct { | ||
5696 | union { | ||
5697 | XcmsRGB RGB; | ||
5698 | XcmsRGBi RGBi; | ||
5699 | XcmsCIEXYZ CIEXYZ; | ||
5700 | XcmsCIEuvY CIEuvY; | ||
5701 | XcmsCIExyY CIExyY; | ||
5702 | XcmsCIELab CIELab; | ||
5703 | XcmsCIELuv CIELuv; | ||
5704 | XcmsTekHVC TekHVC; | ||
5705 | XcmsPad Pad; | ||
5706 | } spec; | ||
5707 | unsigned long pixel; | ||
5708 | XcmsColorFormat format; | ||
5709 | } XcmsColor; /* Xcms Color Structure */ | ||
5710 | |||
5711 | Because the color specification can be encoded for the various | ||
5712 | color spaces, encoding for the spec member is identified by the | ||
5713 | format member, which is of type XcmsColorFormat. The following | ||
5714 | macros define standard formats. | ||
5715 | #define XcmsUndefinedFormat 0x00000000 | ||
5716 | #define XcmsCIEXYZFormat 0x00000001 /* CIE XYZ */ | ||
5717 | #define XcmsCIEuvYFormat 0x00000002 /* CIE u'v'Y */ | ||
5718 | #define XcmsCIExyYFormat 0x00000003 /* CIE xyY */ | ||
5719 | #define XcmsCIELabFormat 0x00000004 /* CIE L*a*b* */ | ||
5720 | #define XcmsCIELuvFormat 0x00000005 /* CIE L*u*v* */ | ||
5721 | #define XcmsTekHVCFormat 0x00000006 /* TekHVC */ | ||
5722 | #define XcmsRGBFormat 0x80000000 /* RGB Device */ | ||
5723 | #define XcmsRGBiFormat 0x80000001 /* RGB Intensity */ | ||
5724 | |||
5725 | Formats for device-independent color spaces are distinguishable | ||
5726 | from those for device-dependent spaces by the 32nd bit. If this | ||
5727 | bit is set, it indicates that the color specification is in a | ||
5728 | device-dependent form; otherwise, it is in a device-independent | ||
5729 | form. If the 31st bit is set, this indicates that the color | ||
5730 | space has been added to Xlib at run time (see section 6.12.4). | ||
5731 | The format value for a color space added at run time may be | ||
5732 | different each time the program is executed. If references to | ||
5733 | such a color space must be made outside the client (for | ||
5734 | example, storing a color specification in a file), then | ||
5735 | reference should be made by color space string prefix (see | ||
5736 | XcmsFormatOfPrefix and XcmsPrefixOfFormat). | ||
5737 | |||
5738 | Data types that describe the color specification encoding for | ||
5739 | the various color spaces are defined as follows: | ||
5740 | |||
5741 | |||
5742 | |||
5743 | typedef double XcmsFloat; | ||
5744 | |||
5745 | typedef struct { | ||
5746 | unsigned short red; /* 0x0000 to 0xffff */ | ||
5747 | unsigned short green; /* 0x0000 to 0xffff */ | ||
5748 | unsigned short blue; /* 0x0000 to 0xffff */ | ||
5749 | } XcmsRGB; /* RGB Device */ | ||
5750 | |||
5751 | |||
5752 | |||
5753 | typedef struct { | ||
5754 | XcmsFloat red; /* 0.0 to 1.0 */ | ||
5755 | XcmsFloat green; /* 0.0 to 1.0 */ | ||
5756 | XcmsFloat blue; /* 0.0 to 1.0 */ | ||
5757 | } XcmsRGBi; /* RGB Intensity */ | ||
5758 | |||
5759 | |||
5760 | |||
5761 | typedef struct { | ||
5762 | XcmsFloat X; | ||
5763 | XcmsFloat Y; /* 0.0 to 1.0 */ | ||
5764 | XcmsFloat Z; | ||
5765 | } XcmsCIEXYZ; /* CIE XYZ */ | ||
5766 | |||
5767 | |||
5768 | |||
5769 | typedef struct { | ||
5770 | XcmsFloat u_prime; /* 0.0 to ~0.6 */ | ||
5771 | XcmsFloat v_prime; /* 0.0 to ~0.6 */ | ||
5772 | XcmsFloat Y; /* 0.0 to 1.0 */ | ||
5773 | } XcmsCIEuvY; /* CIE u'v'Y */ | ||
5774 | |||
5775 | |||
5776 | |||
5777 | typedef struct { | ||
5778 | XcmsFloat x; /* 0.0 to ~.75 */ | ||
5779 | XcmsFloat y; /* 0.0 to ~.85 */ | ||
5780 | XcmsFloat Y; /* 0.0 to 1.0 */ | ||
5781 | } XcmsCIExyY; /* CIE xyY */ | ||
5782 | |||
5783 | |||
5784 | |||
5785 | typedef struct { | ||
5786 | XcmsFloat L_star; /* 0.0 to 100.0 */ | ||
5787 | XcmsFloat a_star; | ||
5788 | XcmsFloat b_star; | ||
5789 | } XcmsCIELab; /* CIE L*a*b* */ | ||
5790 | |||
5791 | |||
5792 | |||
5793 | typedef struct { | ||
5794 | XcmsFloat L_star; /* 0.0 to 100.0 */ | ||
5795 | XcmsFloat u_star; | ||
5796 | XcmsFloat v_star; | ||
5797 | } XcmsCIELuv; /* CIE L*u*v* */ | ||
5798 | |||
5799 | |||
5800 | |||
5801 | typedef struct { | ||
5802 | XcmsFloat H; /* 0.0 to 360.0 */ | ||
5803 | XcmsFloat V; /* 0.0 to 100.0 */ | ||
5804 | XcmsFloat C; /* 0.0 to 100.0 */ | ||
5805 | } XcmsTekHVC; /* TekHVC */ | ||
5806 | |||
5807 | |||
5808 | |||
5809 | typedef struct { | ||
5810 | XcmsFloat pad0; | ||
5811 | XcmsFloat pad1; | ||
5812 | XcmsFloat pad2; | ||
5813 | XcmsFloat pad3; | ||
5814 | } XcmsPad; /* four doubles */ | ||
5815 | |||
5816 | The device-dependent formats provided allow color specification | ||
5817 | in: | ||
5818 | * RGB Intensity (XcmsRGBi) | ||
5819 | * Red, green, and blue linear intensity values, | ||
5820 | floating-point values from 0.0 to 1.0, where 1.0 indicates | ||
5821 | full intensity, 0.5 half intensity, and so on. | ||
5822 | * RGB Device (XcmsRGB) | ||
5823 | * Red, green, and blue values appropriate for the specified | ||
5824 | output device. XcmsRGB values are of type unsigned short, | ||
5825 | scaled from 0 to 65535 inclusive, and are interchangeable | ||
5826 | with the red, green, and blue values in an XColor | ||
5827 | structure. | ||
5828 | |||
5829 | It is important to note that RGB Intensity values are not gamma | ||
5830 | corrected values. In contrast, RGB Device values generated as a | ||
5831 | result of converting color specifications are always gamma | ||
5832 | corrected, and RGB Device values acquired as a result of | ||
5833 | querying a colormap or passed in by the client are assumed by | ||
5834 | Xlib to be gamma corrected. The term RGB value in this manual | ||
5835 | always refers to an RGB Device value. | ||
5836 | |||
5837 | Color Strings | ||
5838 | |||
5839 | Xlib provides a mechanism for using string names for colors. A | ||
5840 | color string may either contain an abstract color name or a | ||
5841 | numerical color specification. Color strings are | ||
5842 | case-insensitive. | ||
5843 | |||
5844 | Color strings are used in the following functions: | ||
5845 | * XAllocNamedColor | ||
5846 | * XcmsAllocNamedColor | ||
5847 | * XLookupColor | ||
5848 | * XcmsLookupColor | ||
5849 | * XParseColor | ||
5850 | * XStoreNamedColor | ||
5851 | |||
5852 | Xlib supports the use of abstract color names, for example, red | ||
5853 | or blue. A value for this abstract name is obtained by | ||
5854 | searching one or more color name databases. Xlib first searches | ||
5855 | zero or more client-side databases; the number, location, and | ||
5856 | content of these databases is implementation-dependent and | ||
5857 | might depend on the current locale. If the name is not found, | ||
5858 | Xlib then looks for the color in the X server's database. If | ||
5859 | the color name is not in the Host Portable Character Encoding, | ||
5860 | the result is implementation-dependent. | ||
5861 | |||
5862 | A numerical color specification consists of a color space name | ||
5863 | and a set of values in the following syntax: | ||
5864 | |||
5865 | <color_space_name>:<value>/.../<value> | ||
5866 | |||
5867 | The following are examples of valid color strings. | ||
5868 | |||
5869 | "CIEXYZ:0.3227/0.28133/0.2493" | ||
5870 | "RGBi:1.0/0.0/0.0" | ||
5871 | "rgb:00/ff/00" | ||
5872 | "CIELuv:50.0/0.0/0.0" | ||
5873 | |||
5874 | The syntax and semantics of numerical specifications are given | ||
5875 | for each standard color space in the following sections. | ||
5876 | |||
5877 | RGB Device String Specification | ||
5878 | |||
5879 | An RGB Device specification is identified by the prefix | ||
5880 | ``rgb:'' and conforms to the following syntax: | ||
5881 | |||
5882 | rgb:<red>/<green>/<blue> | ||
5883 | |||
5884 | <red>, <green>, <blue> := h | hh | hhh | hhhh | ||
5885 | h := single hexadecimal digits (case insignificant) | ||
5886 | |||
5887 | Note that h indicates the value scaled in 4 bits, hh the value | ||
5888 | scaled in 8 bits, hhh the value scaled in 12 bits, and hhhh the | ||
5889 | value scaled in 16 bits, respectively. | ||
5890 | |||
5891 | Typical examples are the strings ``rgb:ea/75/52'' and | ||
5892 | ``rgb:ccc/320/320'', but mixed numbers of hexadecimal digit | ||
5893 | strings (``rgb:ff/a5/0'' and ``rgb:ccc/32/0'') are also | ||
5894 | allowed. | ||
5895 | |||
5896 | For backward compatibility, an older syntax for RGB Device is | ||
5897 | supported, but its continued use is not encouraged. The syntax | ||
5898 | is an initial sharp sign character followed by a numeric | ||
5899 | specification, in one of the following formats: | ||
5900 | |||
5901 | |||
5902 | |||
5903 | #RGB (4 bits each) | ||
5904 | #RRGGBB (8 bits each) | ||
5905 | #RRRGGGBBB (12 bits each) | ||
5906 | #RRRRGGGGBBBB (16 bits each) | ||
5907 | |||
5908 | The R, G, and B represent single hexadecimal digits. When fewer | ||
5909 | than 16 bits each are specified, they represent the most | ||
5910 | significant bits of the value (unlike the ``rgb:'' syntax, in | ||
5911 | which values are scaled). For example, the string ``#3a7'' is | ||
5912 | the same as ``#3000a0007000''. | ||
5913 | |||
5914 | RGB Intensity String Specification | ||
5915 | |||
5916 | An RGB intensity specification is identified by the prefix | ||
5917 | ``rgbi:'' and conforms to the following syntax: | ||
5918 | |||
5919 | rgbi:<red>/<green>/<blue> | ||
5920 | |||
5921 | Note that red, green, and blue are floating-point values | ||
5922 | between 0.0 and 1.0, inclusive. The input format for these | ||
5923 | values is an optional sign, a string of numbers possibly | ||
5924 | containing a decimal point, and an optional exponent field | ||
5925 | containing an E or e followed by a possibly signed integer | ||
5926 | string. | ||
5927 | |||
5928 | Device-Independent String Specifications | ||
5929 | |||
5930 | The standard device-independent string specifications have the | ||
5931 | following syntax: | ||
5932 | |||
5933 | CIEXYZ:<X>/<Y>/<Z> | ||
5934 | CIEuvY:<u>/<v>/<Y> | ||
5935 | CIExyY:<x>/<y>/<Y> | ||
5936 | CIELab:<L>/<a>/<b> | ||
5937 | CIELuv:<L>/<u>/<v> | ||
5938 | TekHVC:<H>/<V>/<C> | ||
5939 | |||
5940 | All of the values (C, H, V, X, Y, Z, a, b, u, v, y, x) are | ||
5941 | floating-point values. The syntax for these values is an | ||
5942 | optional plus or minus sign, a string of digits possibly | ||
5943 | containing a decimal point, and an optional exponent field | ||
5944 | consisting of an ``E'' or ``e'' followed by an optional plus or | ||
5945 | minus followed by a string of digits. | ||
5946 | |||
5947 | Color Conversion Contexts and Gamut Mapping | ||
5948 | |||
5949 | When Xlib converts device-independent color specifications into | ||
5950 | device-dependent specifications and vice versa, it uses | ||
5951 | knowledge about the color limitations of the screen hardware. | ||
5952 | This information, typically called the device profile, is | ||
5953 | available in a Color Conversion Context (CCC). | ||
5954 | |||
5955 | Because a specified color may be outside the color gamut of the | ||
5956 | target screen and the white point associated with the color | ||
5957 | specification may differ from the white point inherent to the | ||
5958 | screen, Xlib applies gamut mapping when it encounters certain | ||
5959 | conditions: | ||
5960 | * Gamut compression occurs when conversion of | ||
5961 | device-independent color specifications to device-dependent | ||
5962 | color specifications results in a color out of the target | ||
5963 | screen's gamut. | ||
5964 | * White adjustment occurs when the inherent white point of | ||
5965 | the screen differs from the white point assumed by the | ||
5966 | client. | ||
5967 | |||
5968 | Gamut handling methods are stored as callbacks in the CCC, | ||
5969 | which in turn are used by the color space conversion routines. | ||
5970 | Client data is also stored in the CCC for each callback. The | ||
5971 | CCC also contains the white point the client assumes to be | ||
5972 | associated with color specifications (that is, the Client White | ||
5973 | Point). The client can specify the gamut handling callbacks and | ||
5974 | client data as well as the Client White Point. Xlib does not | ||
5975 | preclude the X client from performing other forms of gamut | ||
5976 | handling (for example, gamut expansion); however, Xlib does not | ||
5977 | provide direct support for gamut handling other than white | ||
5978 | adjustment and gamut compression. | ||
5979 | |||
5980 | Associated with each colormap is an initial CCC transparently | ||
5981 | generated by Xlib. Therefore, when you specify a colormap as an | ||
5982 | argument to an Xlib function, you are indirectly specifying a | ||
5983 | CCC. There is a default CCC associated with each screen. Newly | ||
5984 | created CCCs inherit attributes from the default CCC, so the | ||
5985 | default CCC attributes can be modified to affect new CCCs. | ||
5986 | |||
5987 | Xcms functions in which gamut mapping can occur return Status | ||
5988 | and have specific status values defined for them, as follows: | ||
5989 | * XcmsFailure indicates that the function failed. | ||
5990 | * XcmsSuccess indicates that the function succeeded. In | ||
5991 | addition, if the function performed any color conversion, | ||
5992 | the colors did not need to be compressed. | ||
5993 | * XcmsSuccessWithCompression indicates the function performed | ||
5994 | color conversion and at least one of the colors needed to | ||
5995 | be compressed. The gamut compression method is determined | ||
5996 | by the gamut compression procedure in the CCC that is | ||
5997 | specified directly as a function argument or in the CCC | ||
5998 | indirectly specified by means of the colormap argument. | ||
5999 | |||
6000 | Creating, Copying, and Destroying Colormaps | ||
6001 | |||
6002 | To create a colormap for a screen, use XCreateColormap. | ||
6003 | |||
6004 | Colormap XCreateColormap(Display *display, Window w, Visual | ||
6005 | *visual, int alloc); | ||
6006 | |||
6007 | display | ||
6008 | |||
6009 | Specifies the connection to the X server. | ||
6010 | |||
6011 | w | ||
6012 | |||
6013 | Specifies the window on whose screen you want to create a | ||
6014 | colormap. | ||
6015 | |||
6016 | visual | ||
6017 | |||
6018 | Specifies a visual type supported on the screen. If the visual | ||
6019 | type is not one supported by the screen, a BadMatch error | ||
6020 | results. | ||
6021 | |||
6022 | alloc | ||
6023 | |||
6024 | Specifies the colormap entries to be allocated. You can pass | ||
6025 | AllocNone or AllocAll. | ||
6026 | |||
6027 | The XCreateColormap function creates a colormap of the | ||
6028 | specified visual type for the screen on which the specified | ||
6029 | window resides and returns the colormap ID associated with it. | ||
6030 | Note that the specified window is only used to determine the | ||
6031 | screen. | ||
6032 | |||
6033 | The initial values of the colormap entries are undefined for | ||
6034 | the visual classes GrayScale, PseudoColor, and DirectColor. For | ||
6035 | StaticGray, StaticColor, and TrueColor, the entries have | ||
6036 | defined values, but those values are specific to the visual and | ||
6037 | are not defined by X. For StaticGray, StaticColor, and | ||
6038 | TrueColor, alloc must be AllocNone, or a BadMatch error | ||
6039 | results. For the other visual classes, if alloc is AllocNone, | ||
6040 | the colormap initially has no allocated entries, and clients | ||
6041 | can allocate them. For information about the visual types, see | ||
6042 | section 3.1. | ||
6043 | |||
6044 | If alloc is AllocAll, the entire colormap is allocated | ||
6045 | writable. The initial values of all allocated entries are | ||
6046 | undefined. For GrayScale and PseudoColor, the effect is as if | ||
6047 | an XAllocColorCells call returned all pixel values from zero to | ||
6048 | N - 1, where N is the colormap entries value in the specified | ||
6049 | visual. For DirectColor, the effect is as if an | ||
6050 | XAllocColorPlanes call returned a pixel value of zero and | ||
6051 | red_mask, green_mask, and blue_mask values containing the same | ||
6052 | bits as the corresponding masks in the specified visual. | ||
6053 | However, in all cases, none of these entries can be freed by | ||
6054 | using XFreeColors. | ||
6055 | |||
6056 | XCreateColormap can generate BadAlloc, BadMatch, BadValue, and | ||
6057 | BadWindow errors. | ||
6058 | |||
6059 | To create a new colormap when the allocation out of a | ||
6060 | previously shared colormap has failed because of resource | ||
6061 | exhaustion, use XCopyColormapAndFree. | ||
6062 | |||
6063 | Colormap XCopyColormapAndFree(Display *display, Colormap | ||
6064 | colormap); | ||
6065 | |||
6066 | display | ||
6067 | |||
6068 | Specifies the connection to the X server. | ||
6069 | |||
6070 | colormap | ||
6071 | |||
6072 | Specifies the colormap. | ||
6073 | |||
6074 | The XCopyColormapAndFree function creates a colormap of the | ||
6075 | same visual type and for the same screen as the specified | ||
6076 | colormap and returns the new colormap ID. It also moves all of | ||
6077 | the client's existing allocation from the specified colormap to | ||
6078 | the new colormap with their color values intact and their | ||
6079 | read-only or writable characteristics intact and frees those | ||
6080 | entries in the specified colormap. Color values in other | ||
6081 | entries in the new colormap are undefined. If the specified | ||
6082 | colormap was created by the client with alloc set to AllocAll, | ||
6083 | the new colormap is also created with AllocAll, all color | ||
6084 | values for all entries are copied from the specified colormap, | ||
6085 | and then all entries in the specified colormap are freed. If | ||
6086 | the specified colormap was not created by the client with | ||
6087 | AllocAll, the allocations to be moved are all those pixels and | ||
6088 | planes that have been allocated by the client using | ||
6089 | XAllocColor, XAllocNamedColor, XAllocColorCells, or | ||
6090 | XAllocColorPlanes and that have not been freed since they were | ||
6091 | allocated. | ||
6092 | |||
6093 | XCopyColormapAndFree can generate BadAlloc and BadColor errors. | ||
6094 | |||
6095 | To destroy a colormap, use XFreeColormap. | ||
6096 | |||
6097 | XFreeColormap(Display *display, Colormap colormap); | ||
6098 | |||
6099 | display | ||
6100 | |||
6101 | Specifies the connection to the X server. | ||
6102 | |||
6103 | colormap | ||
6104 | |||
6105 | Specifies the colormap that you want to destroy. | ||
6106 | |||
6107 | The XFreeColormap function deletes the association between the | ||
6108 | colormap resource ID and the colormap and frees the colormap | ||
6109 | storage. However, this function has no effect on the default | ||
6110 | colormap for a screen. If the specified colormap is an | ||
6111 | installed map for a screen, it is uninstalled (see | ||
6112 | XUninstallColormap). If the specified colormap is defined as | ||
6113 | the colormap for a window (by XCreateWindow, | ||
6114 | XSetWindowColormap, or XChangeWindowAttributes), XFreeColormap | ||
6115 | changes the colormap associated with the window to None and | ||
6116 | generates a ColormapNotify event. X does not define the colors | ||
6117 | displayed for a window with a colormap of None. | ||
6118 | |||
6119 | XFreeColormap can generate a BadColor error. | ||
6120 | |||
6121 | Mapping Color Names to Values | ||
6122 | |||
6123 | To map a color name to an RGB value, use XLookupColor. | ||
6124 | |||
6125 | Status XLookupColor(Display *display, Colormap colormap, char | ||
6126 | *color_name, XColor *exact_def_return, XColor | ||
6127 | *screen_def_return); | ||
6128 | |||
6129 | display | ||
6130 | |||
6131 | Specifies the connection to the X server. | ||
6132 | |||
6133 | colormap | ||
6134 | |||
6135 | Specifies the colormap. | ||
6136 | |||
6137 | color_name | ||
6138 | |||
6139 | Specifies the color name string (for example, red) whose color | ||
6140 | definition structure you want returned. | ||
6141 | |||
6142 | exact_def_return | ||
6143 | |||
6144 | Returns the exact RGB values. | ||
6145 | |||
6146 | screen_def_return | ||
6147 | |||
6148 | Returns the closest RGB values provided by the hardware. | ||
6149 | |||
6150 | The XLookupColor function looks up the string name of a color | ||
6151 | with respect to the screen associated with the specified | ||
6152 | colormap. It returns both the exact color values and the | ||
6153 | closest values provided by the screen with respect to the | ||
6154 | visual type of the specified colormap. If the color name is not | ||
6155 | in the Host Portable Character Encoding, the result is | ||
6156 | implementation-dependent. Use of uppercase or lowercase does | ||
6157 | not matter. XLookupColor returns nonzero if the name is | ||
6158 | resolved; otherwise, it returns zero. | ||
6159 | |||
6160 | XLookupColor can generate a BadColor error. | ||
6161 | |||
6162 | To map a color name to the exact RGB value, use XParseColor. | ||
6163 | |||
6164 | Status XParseColor(Display *display, Colormap colormap, char | ||
6165 | *spec, XColor *exact_def_return); | ||
6166 | |||
6167 | display | ||
6168 | |||
6169 | Specifies the connection to the X server. | ||
6170 | |||
6171 | colormap | ||
6172 | |||
6173 | Specifies the colormap. | ||
6174 | |||
6175 | spec | ||
6176 | |||
6177 | Specifies the color name string; case is ignored. | ||
6178 | |||
6179 | exact_def_return | ||
6180 | |||
6181 | Returns the exact color value for later use and sets the DoRed, | ||
6182 | DoGreen, and DoBlue flags. | ||
6183 | |||
6184 | The XParseColor function looks up the string name of a color | ||
6185 | with respect to the screen associated with the specified | ||
6186 | colormap. It returns the exact color value. If the color name | ||
6187 | is not in the Host Portable Character Encoding, the result is | ||
6188 | implementation-dependent. Use of uppercase or lowercase does | ||
6189 | not matter. XParseColor returns nonzero if the name is | ||
6190 | resolved; otherwise, it returns zero. | ||
6191 | |||
6192 | XParseColor can generate a BadColor error. | ||
6193 | |||
6194 | To map a color name to a value in an arbitrary color space, use | ||
6195 | XcmsLookupColor. | ||
6196 | |||
6197 | Status XcmsLookupColor(Display *display, Colormap colormap, | ||
6198 | char *color_string, XcmsColor *color_exact_return, XcmsColor | ||
6199 | *color_screen_return, XcmsColorFormat result_format); | ||
6200 | |||
6201 | display | ||
6202 | |||
6203 | Specifies the connection to the X server. | ||
6204 | |||
6205 | colormap | ||
6206 | |||
6207 | Specifies the colormap. | ||
6208 | |||
6209 | color_string | ||
6210 | |||
6211 | Specifies the color string(St. | ||
6212 | |||
6213 | color_exact_return | ||
6214 | |||
6215 | Returns the color specification parsed from the color string or | ||
6216 | parsed from the corresponding string found in a color-name | ||
6217 | database. | ||
6218 | |||
6219 | color_screen_return | ||
6220 | |||
6221 | Returns the color that can be reproduced on the screen. | ||
6222 | |||
6223 | result_format | ||
6224 | |||
6225 | Specifies the color format for the returned color | ||
6226 | specifications (color_screen_return and color_exact_return | ||
6227 | arguments). If the format is XcmsUndefinedFormat and the color | ||
6228 | string contains a numerical color specification, the | ||
6229 | specification is returned in the format used in that numerical | ||
6230 | color specification. If the format is XcmsUndefinedFormat and | ||
6231 | the color string contains a color name, the specification is | ||
6232 | returned in the format used to store the color in the database. | ||
6233 | |||
6234 | The XcmsLookupColor function looks up the string name of a | ||
6235 | color with respect to the screen associated with the specified | ||
6236 | colormap. It returns both the exact color values and the | ||
6237 | closest values provided by the screen with respect to the | ||
6238 | visual type of the specified colormap. The values are returned | ||
6239 | in the format specified by result_format. If the color name is | ||
6240 | not in the Host Portable Character Encoding, the result is | ||
6241 | implementation-dependent. Use of uppercase or lowercase does | ||
6242 | not matter. XcmsLookupColor returns XcmsSuccess or | ||
6243 | XcmsSuccessWithCompression if the name is resolved; otherwise, | ||
6244 | it returns XcmsFailure. If XcmsSuccessWithCompression is | ||
6245 | returned, the color specification returned in | ||
6246 | color_screen_return is the result of gamut compression. | ||
6247 | |||
6248 | Allocating and Freeing Color Cells | ||
6249 | |||
6250 | There are two ways of allocating color cells: explicitly as | ||
6251 | read-only entries, one pixel value at a time, or read/write, | ||
6252 | where you can allocate a number of color cells and planes | ||
6253 | simultaneously. A read-only cell has its RGB value set by the | ||
6254 | server. Read/write cells do not have defined colors initially; | ||
6255 | functions described in the next section must be used to store | ||
6256 | values into them. Although it is possible for any client to | ||
6257 | store values into a read/write cell allocated by another | ||
6258 | client, read/write cells normally should be considered private | ||
6259 | to the client that allocated them. | ||
6260 | |||
6261 | Read-only colormap cells are shared among clients. The server | ||
6262 | counts each allocation and freeing of the cell by clients. When | ||
6263 | the last client frees a shared cell, the cell is finally | ||
6264 | deallocated. If a single client allocates the same read-only | ||
6265 | cell multiple times, the server counts each such allocation, | ||
6266 | not just the first one. | ||
6267 | |||
6268 | To allocate a read-only color cell with an RGB value, use | ||
6269 | XAllocColor. | ||
6270 | |||
6271 | Status XAllocColor(Display *display, Colormap colormap, XColor | ||
6272 | *screen_in_out); | ||
6273 | |||
6274 | display | ||
6275 | |||
6276 | Specifies the connection to the X server. | ||
6277 | |||
6278 | colormap | ||
6279 | |||
6280 | Specifies the colormap. | ||
6281 | |||
6282 | screen_in_out | ||
6283 | |||
6284 | Specifies and returns the values actually used in the colormap. | ||
6285 | |||
6286 | The XAllocColor function allocates a read-only colormap entry | ||
6287 | corresponding to the closest RGB value supported by the | ||
6288 | hardware. XAllocColor returns the pixel value of the color | ||
6289 | closest to the specified RGB elements supported by the hardware | ||
6290 | and returns the RGB value actually used. The corresponding | ||
6291 | colormap cell is read-only. In addition, XAllocColor returns | ||
6292 | nonzero if it succeeded or zero if it failed. Multiple clients | ||
6293 | that request the same effective RGB value can be assigned the | ||
6294 | same read-only entry, thus allowing entries to be shared. When | ||
6295 | the last client deallocates a shared cell, it is deallocated. | ||
6296 | XAllocColor does not use or affect the flags in the XColor | ||
6297 | structure. | ||
6298 | |||
6299 | XAllocColor can generate a BadColor error. delim %% | ||
6300 | |||
6301 | To allocate a read-only color cell with a color in arbitrary | ||
6302 | format, use XcmsAllocColor. | ||
6303 | |||
6304 | Status XcmsAllocColor(Display *display, Colormap colormap, | ||
6305 | XcmsColor *color_in_out, XcmsColorFormat result_format); | ||
6306 | |||
6307 | display | ||
6308 | |||
6309 | Specifies the connection to the X server. | ||
6310 | |||
6311 | colormap | ||
6312 | |||
6313 | Specifies the colormap. | ||
6314 | |||
6315 | color_in_out | ||
6316 | |||
6317 | Specifies the color to allocate and returns the pixel and color | ||
6318 | that is actually used in the colormap. | ||
6319 | |||
6320 | result_format | ||
6321 | |||
6322 | Specifies the color format for the returned color | ||
6323 | specification. | ||
6324 | |||
6325 | The XcmsAllocColor function is similar to XAllocColor except | ||
6326 | the color can be specified in any format. The XcmsAllocColor | ||
6327 | function ultimately calls XAllocColor to allocate a read-only | ||
6328 | color cell (colormap entry) with the specified color. | ||
6329 | XcmsAllocColor first converts the color specified to an RGB | ||
6330 | value and then passes this to XAllocColor. XcmsAllocColor | ||
6331 | returns the pixel value of the color cell and the color | ||
6332 | specification actually allocated. This returned color | ||
6333 | specification is the result of converting the RGB value | ||
6334 | returned by XAllocColor into the format specified with the | ||
6335 | result_format argument. If there is no interest in a returned | ||
6336 | color specification, unnecessary computation can be bypassed if | ||
6337 | result_format is set to XcmsRGBFormat. The corresponding | ||
6338 | colormap cell is read-only. If this routine returns | ||
6339 | XcmsFailure, the color_in_out color specification is left | ||
6340 | unchanged. | ||
6341 | |||
6342 | XcmsAllocColor can generate a BadColor error. | ||
6343 | |||
6344 | To allocate a read-only color cell using a color name and | ||
6345 | return the closest color supported by the hardware in RGB | ||
6346 | format, use XAllocNamedColor. | ||
6347 | |||
6348 | Status XAllocNamedColor(Display *display, Colormap colormap, | ||
6349 | char *color_name, XColor *screen_def_return, XColor | ||
6350 | *exact_def_return); | ||
6351 | |||
6352 | display | ||
6353 | |||
6354 | Specifies the connection to the X server. | ||
6355 | |||
6356 | colormap | ||
6357 | |||
6358 | Specifies the colormap. | ||
6359 | |||
6360 | color_name | ||
6361 | |||
6362 | Specifies the color name string (for example, red) whose color | ||
6363 | definition structure you want returned. | ||
6364 | |||
6365 | screen_def_return | ||
6366 | |||
6367 | Returns the closest RGB values provided by the hardware. | ||
6368 | |||
6369 | exact_def_return | ||
6370 | |||
6371 | Returns the exact RGB values. | ||
6372 | |||
6373 | The XAllocNamedColor function looks up the named color with | ||
6374 | respect to the screen that is associated with the specified | ||
6375 | colormap. It returns both the exact database definition and the | ||
6376 | closest color supported by the screen. The allocated color cell | ||
6377 | is read-only. The pixel value is returned in screen_def_return. | ||
6378 | If the color name is not in the Host Portable Character | ||
6379 | Encoding, the result is implementation-dependent. Use of | ||
6380 | uppercase or lowercase does not matter. If screen_def_return | ||
6381 | and exact_def_return point to the same structure, the pixel | ||
6382 | field will be set correctly, but the color values are | ||
6383 | undefined. XAllocNamedColor returns nonzero if a cell is | ||
6384 | allocated; otherwise, it returns zero. | ||
6385 | |||
6386 | XAllocNamedColor can generate a BadColor error. | ||
6387 | |||
6388 | To allocate a read-only color cell using a color name and | ||
6389 | return the closest color supported by the hardware in an | ||
6390 | arbitrary format, use XcmsAllocNamedColor. | ||
6391 | |||
6392 | Status XcmsAllocNamedColor(Display *display, Colormap colormap, | ||
6393 | char *color_string, XcmsColor *color_screen_return, XcmsColor | ||
6394 | *color_exact_return, XcmsColorFormat result_format); | ||
6395 | |||
6396 | display | ||
6397 | |||
6398 | Specifies the connection to the X server. | ||
6399 | |||
6400 | colormap | ||
6401 | |||
6402 | Specifies the colormap. | ||
6403 | |||
6404 | color_string | ||
6405 | |||
6406 | Specifies the color string whose color definition structure is | ||
6407 | to be returned. | ||
6408 | |||
6409 | color_screen_return | ||
6410 | |||
6411 | Returns the pixel value of the color cell and color | ||
6412 | specification that actually is stored for that cell. | ||
6413 | |||
6414 | color_exact_return | ||
6415 | |||
6416 | Returns the color specification parsed from the color string or | ||
6417 | parsed from the corresponding string found in a color-name | ||
6418 | database. | ||
6419 | |||
6420 | result_format | ||
6421 | |||
6422 | Specifies the color format for the returned color | ||
6423 | specifications (color_screen_return and color_exact_return | ||
6424 | arguments). If the format is XcmsUndefinedFormat and the color | ||
6425 | string contains a numerical color specification, the | ||
6426 | specification is returned in the format used in that numerical | ||
6427 | color specification. If the format is XcmsUndefinedFormat and | ||
6428 | the color string contains a color name, the specification is | ||
6429 | returned in the format used to store the color in the database. | ||
6430 | |||
6431 | The XcmsAllocNamedColor function is similar to XAllocNamedColor | ||
6432 | except that the color returned can be in any format specified. | ||
6433 | This function ultimately calls XAllocColor to allocate a | ||
6434 | read-only color cell with the color specified by a color | ||
6435 | string. The color string is parsed into an XcmsColor structure | ||
6436 | (see XcmsLookupColor), converted to an RGB value, and finally | ||
6437 | passed to XAllocColor. If the color name is not in the Host | ||
6438 | Portable Character Encoding, the result is | ||
6439 | implementation-dependent. Use of uppercase or lowercase does | ||
6440 | not matter. | ||
6441 | |||
6442 | This function returns both the color specification as a result | ||
6443 | of parsing (exact specification) and the actual color | ||
6444 | specification stored (screen specification). This screen | ||
6445 | specification is the result of converting the RGB value | ||
6446 | returned by XAllocColor into the format specified in | ||
6447 | result_format. If there is no interest in a returned color | ||
6448 | specification, unnecessary computation can be bypassed if | ||
6449 | result_format is set to XcmsRGBFormat. If color_screen_return | ||
6450 | and color_exact_return point to the same structure, the pixel | ||
6451 | field will be set correctly, but the color values are | ||
6452 | undefined. | ||
6453 | |||
6454 | XcmsAllocNamedColor can generate a BadColor error. | ||
6455 | |||
6456 | To allocate read/write color cell and color plane combinations | ||
6457 | for a PseudoColor model, use XAllocColorCells. | ||
6458 | |||
6459 | Status XAllocColorCells(Display *display, Colormap colormap, | ||
6460 | Bool contig, unsigned long plane_masks_return[], unsigned int | ||
6461 | nplanes, unsigned long pixels_return[], unsigned int npixels); | ||
6462 | |||
6463 | display | ||
6464 | |||
6465 | Specifies the connection to the X server. | ||
6466 | |||
6467 | colormap | ||
6468 | |||
6469 | Specifies the colormap. | ||
6470 | |||
6471 | contig | ||
6472 | |||
6473 | Specifies a Boolean value that indicates whether the planes | ||
6474 | must be contiguous. | ||
6475 | |||
6476 | plane_mask_return | ||
6477 | |||
6478 | Returns an array of plane masks. | ||
6479 | |||
6480 | nplanes | ||
6481 | |||
6482 | Specifies the number of plane masks that are to be returned in | ||
6483 | the plane masks array. | ||
6484 | |||
6485 | pixels_return | ||
6486 | |||
6487 | Returns an array of pixel values. | ||
6488 | |||
6489 | npixels | ||
6490 | |||
6491 | Specifies the number of pixel values that are to be returned in | ||
6492 | the pixels_return array. | ||
6493 | |||
6494 | The XAllocColorCells function allocates read/write color cells. | ||
6495 | The number of colors must be positive and the number of planes | ||
6496 | nonnegative, or a BadValue error results. If ncolors and | ||
6497 | nplanes are requested, then ncolors pixels and nplane plane | ||
6498 | masks are returned. No mask will have any bits set to 1 in | ||
6499 | common with any other mask or with any of the pixels. By ORing | ||
6500 | together each pixel with zero or more masks, ncolors × | ||
6501 | 2^nplanes distinct pixels can be produced. All of these are | ||
6502 | allocated writable by the request. For GrayScale or | ||
6503 | PseudoColor, each mask has exactly one bit set to 1. For | ||
6504 | DirectColor, each has exactly three bits set to 1. If contig is | ||
6505 | True and if all masks are ORed together, a single contiguous | ||
6506 | set of bits set to 1 will be formed for GrayScale or | ||
6507 | PseudoColor and three contiguous sets of bits set to 1 (one | ||
6508 | within each pixel subfield) for DirectColor. The RGB values of | ||
6509 | the allocated entries are undefined. XAllocColorCells returns | ||
6510 | nonzero if it succeeded or zero if it failed. | ||
6511 | |||
6512 | XAllocColorCells can generate BadColor and BadValue errors. | ||
6513 | |||
6514 | To allocate read/write color resources for a DirectColor model, | ||
6515 | use XAllocColorPlanes. | ||
6516 | |||
6517 | Status XAllocColorPlanes(Display *display, Colormap colormap, | ||
6518 | Bool contig, unsigned long pixels_return[], int ncolors, int | ||
6519 | nreds, int ngreens, int nblues, unsigned long *rmask_return, | ||
6520 | unsigned long *gmask_return, unsigned long *bmask_return); | ||
6521 | |||
6522 | display | ||
6523 | |||
6524 | Specifies the connection to the X server. | ||
6525 | |||
6526 | colormap | ||
6527 | |||
6528 | Specifies the colormap. | ||
6529 | |||
6530 | contig | ||
6531 | |||
6532 | Specifies a Boolean value that indicates whether the planes | ||
6533 | must be contiguous. | ||
6534 | |||
6535 | pixels_return | ||
6536 | |||
6537 | Returns an array of pixel values. XAllocColorPlanes returns the | ||
6538 | pixel values in this array. | ||
6539 | |||
6540 | ncolors | ||
6541 | |||
6542 | Specifies the number of pixel values that are to be returned in | ||
6543 | the pixels_return array. | ||
6544 | |||
6545 | nreds | ||
6546 | |||
6547 | ngreens | ||
6548 | |||
6549 | nblues | ||
6550 | |||
6551 | Specify the number of red, green, and blue planes. The value | ||
6552 | you pass must be nonnegative. | ||
6553 | |||
6554 | rmask_return | ||
6555 | |||
6556 | gmask_return | ||
6557 | |||
6558 | bmask_return | ||
6559 | |||
6560 | Return bit masks for the red, green, and blue planes. | ||
6561 | |||
6562 | The specified ncolors must be positive; and nreds, ngreens, and | ||
6563 | nblues must be nonnegative, or a BadValue error results. If | ||
6564 | ncolors colors, nreds reds, ngreens greens, and nblues blues | ||
6565 | are requested, ncolors pixels are returned; and the masks have | ||
6566 | nreds, ngreens, and nblues bits set to 1, respectively. If | ||
6567 | contig is True, each mask will have a contiguous set of bits | ||
6568 | set to 1. No mask will have any bits set to 1 in common with | ||
6569 | any other mask or with any of the pixels. For DirectColor, each | ||
6570 | mask will lie within the corresponding pixel subfield. By ORing | ||
6571 | together subsets of masks with each pixel value, ncolors × | ||
6572 | 2^(nreds+ngreens+nblues) distinct pixel values can be produced. | ||
6573 | All of these are allocated by the request. However, in the | ||
6574 | colormap, there are only ncolors × 2^nreds independent red | ||
6575 | entries, ncolors × 2^ngreens independent green entries, and | ||
6576 | ncolors × 2^nblues independent blue entries. This is true even | ||
6577 | for PseudoColor. When the colormap entry of a pixel value is | ||
6578 | changed (using XStoreColors, XStoreColor, or XStoreNamedColor), | ||
6579 | the pixel is decomposed according to the masks, and the | ||
6580 | corresponding independent entries are updated. | ||
6581 | XAllocColorPlanes returns nonzero if it succeeded or zero if it | ||
6582 | failed. | ||
6583 | |||
6584 | XAllocColorPlanes can generate BadColor and BadValue errors. | ||
6585 | |||
6586 | To free colormap cells, use XFreeColors. | ||
6587 | |||
6588 | XFreeColors(Display *display, Colormap colormap, unsigned long | ||
6589 | pixels[], int npixels, unsigned long planes); | ||
6590 | |||
6591 | display | ||
6592 | |||
6593 | Specifies the connection to the X server. | ||
6594 | |||
6595 | colormap | ||
6596 | |||
6597 | Specifies the colormap. | ||
6598 | |||
6599 | pixels | ||
6600 | |||
6601 | Specifies an array of pixel values that map to the cells in the | ||
6602 | specified colormap. | ||
6603 | |||
6604 | npixels | ||
6605 | |||
6606 | Specifies the number of pixels. | ||
6607 | |||
6608 | planes | ||
6609 | |||
6610 | Specifies the planes you want to free. | ||
6611 | |||
6612 | The XFreeColors function frees the cells represented by pixels | ||
6613 | whose values are in the pixels array. The planes argument | ||
6614 | should not have any bits set to 1 in common with any of the | ||
6615 | pixels. The set of all pixels is produced by ORing together | ||
6616 | subsets of the planes argument with the pixels. The request | ||
6617 | frees all of these pixels that were allocated by the client | ||
6618 | (using XAllocColor, XAllocNamedColor, XAllocColorCells, and | ||
6619 | XAllocColorPlanes). Note that freeing an individual pixel | ||
6620 | obtained from XAllocColorPlanes may not actually allow it to be | ||
6621 | reused until all of its related pixels are also freed. | ||
6622 | Similarly, a read-only entry is not actually freed until it has | ||
6623 | been freed by all clients, and if a client allocates the same | ||
6624 | read-only entry multiple times, it must free the entry that | ||
6625 | many times before the entry is actually freed. | ||
6626 | |||
6627 | All specified pixels that are allocated by the client in the | ||
6628 | colormap are freed, even if one or more pixels produce an | ||
6629 | error. If a specified pixel is not a valid index into the | ||
6630 | colormap, a BadValue error results. If a specified pixel is not | ||
6631 | allocated by the client (that is, is unallocated or is only | ||
6632 | allocated by another client) or if the colormap was created | ||
6633 | with all entries writable (by passing AllocAll to | ||
6634 | XCreateColormap), a BadAccess error results. If more than one | ||
6635 | pixel is in error, the one that gets reported is arbitrary. | ||
6636 | |||
6637 | XFreeColors can generate BadAccess, BadColor, and BadValue | ||
6638 | errors. | ||
6639 | |||
6640 | Modifying and Querying Colormap Cells | ||
6641 | |||
6642 | To store an RGB value in a single colormap cell, use | ||
6643 | XStoreColor. | ||
6644 | |||
6645 | XStoreColor(Display *display, Colormap colormap, XColor | ||
6646 | *color); | ||
6647 | |||
6648 | display | ||
6649 | |||
6650 | Specifies the connection to the X server. | ||
6651 | |||
6652 | colormap | ||
6653 | |||
6654 | Specifies the colormap. | ||
6655 | |||
6656 | color | ||
6657 | |||
6658 | Specifies the pixel and RGB values. | ||
6659 | |||
6660 | The XStoreColor function changes the colormap entry of the | ||
6661 | pixel value specified in the pixel member of the XColor | ||
6662 | structure. You specified this value in the pixel member of the | ||
6663 | XColor structure. This pixel value must be a read/write cell | ||
6664 | and a valid index into the colormap. If a specified pixel is | ||
6665 | not a valid index into the colormap, a BadValue error results. | ||
6666 | XStoreColor also changes the red, green, and/or blue color | ||
6667 | components. You specify which color components are to be | ||
6668 | changed by setting DoRed, DoGreen, and/or DoBlue in the flags | ||
6669 | member of the XColor structure. If the colormap is an installed | ||
6670 | map for its screen, the changes are visible immediately. | ||
6671 | |||
6672 | XStoreColor can generate BadAccess, BadColor, and BadValue | ||
6673 | errors. | ||
6674 | |||
6675 | To store multiple RGB values in multiple colormap cells, use | ||
6676 | XStoreColors. | ||
6677 | |||
6678 | XStoreColors(Display *display, Colormap colormap, XColor | ||
6679 | color[], int ncolors); | ||
6680 | |||
6681 | display | ||
6682 | |||
6683 | Specifies the connection to the X server. | ||
6684 | |||
6685 | colormap | ||
6686 | |||
6687 | Specifies the colormap. | ||
6688 | |||
6689 | color | ||
6690 | |||
6691 | Specifies an array of color definition structures to be stored. | ||
6692 | |||
6693 | ncolors | ||
6694 | |||
6695 | Specifies the number of XColor structures in the color | ||
6696 | definition array. | ||
6697 | |||
6698 | The XStoreColors function changes the colormap entries of the | ||
6699 | pixel values specified in the pixel members of the XColor | ||
6700 | structures. You specify which color components are to be | ||
6701 | changed by setting DoRed, DoGreen, and/or DoBlue in the flags | ||
6702 | member of the XColor structures. If the colormap is an | ||
6703 | installed map for its screen, the changes are visible | ||
6704 | immediately. XStoreColors changes the specified pixels if they | ||
6705 | are allocated writable in the colormap by any client, even if | ||
6706 | one or more pixels generates an error. If a specified pixel is | ||
6707 | not a valid index into the colormap, a BadValue error results. | ||
6708 | If a specified pixel either is unallocated or is allocated | ||
6709 | read-only, a BadAccess error results. If more than one pixel is | ||
6710 | in error, the one that gets reported is arbitrary. | ||
6711 | |||
6712 | XStoreColors can generate BadAccess, BadColor, and BadValue | ||
6713 | errors. | ||
6714 | |||
6715 | To store a color of arbitrary format in a single colormap cell, | ||
6716 | use XcmsStoreColor. | ||
6717 | |||
6718 | Status XcmsStoreColor(Display *display, Colormap colormap, | ||
6719 | XcmsColor *color); | ||
6720 | |||
6721 | display | ||
6722 | |||
6723 | Specifies the connection to the X server. | ||
6724 | |||
6725 | colormap | ||
6726 | |||
6727 | Specifies the colormap. | ||
6728 | |||
6729 | color | ||
6730 | |||
6731 | Specifies the color cell and the color to store. Values | ||
6732 | specified in this XcmsColor structure remain unchanged on | ||
6733 | return. | ||
6734 | |||
6735 | The XcmsStoreColor function converts the color specified in the | ||
6736 | XcmsColor structure into RGB values. It then uses this RGB | ||
6737 | specification in an XColor structure, whose three flags (DoRed, | ||
6738 | DoGreen, and DoBlue) are set, in a call to XStoreColor to | ||
6739 | change the color cell specified by the pixel member of the | ||
6740 | XcmsColor structure. This pixel value must be a valid index for | ||
6741 | the specified colormap, and the color cell specified by the | ||
6742 | pixel value must be a read/write cell. If the pixel value is | ||
6743 | not a valid index, a BadValue error results. If the color cell | ||
6744 | is unallocated or is allocated read-only, a BadAccess error | ||
6745 | results. If the colormap is an installed map for its screen, | ||
6746 | the changes are visible immediately. | ||
6747 | |||
6748 | Note that XStoreColor has no return value; therefore, an | ||
6749 | XcmsSuccess return value from this function indicates that the | ||
6750 | conversion to RGB succeeded and the call to XStoreColor was | ||
6751 | made. To obtain the actual color stored, use XcmsQueryColor. | ||
6752 | Because of the screen's hardware limitations or gamut | ||
6753 | compression, the color stored in the colormap may not be | ||
6754 | identical to the color specified. | ||
6755 | |||
6756 | XcmsStoreColor can generate BadAccess, BadColor, and BadValue | ||
6757 | errors. | ||
6758 | |||
6759 | To store multiple colors of arbitrary format in multiple | ||
6760 | colormap cells, use XcmsStoreColors. | ||
6761 | |||
6762 | Status XcmsStoreColors(Display *display, Colormap colormap, | ||
6763 | XcmsColor colors[], int ncolors, Bool | ||
6764 | compression_flags_return[]); | ||
6765 | |||
6766 | display | ||
6767 | |||
6768 | Specifies the connection to the X server. | ||
6769 | |||
6770 | colormap | ||
6771 | |||
6772 | Specifies the colormap. | ||
6773 | |||
6774 | colors | ||
6775 | |||
6776 | Specifies the color specification array of XcmsColor | ||
6777 | structures, each specifying a color cell and the color to store | ||
6778 | in that cell. Values specified in the array remain unchanged | ||
6779 | upon return. | ||
6780 | |||
6781 | ncolors | ||
6782 | |||
6783 | Specifies the number of XcmsColor structures in the | ||
6784 | color-specification array. | ||
6785 | |||
6786 | compression_flags_return | ||
6787 | |||
6788 | Returns an array of Boolean values indicating compression | ||
6789 | status. If a non-NULL pointer is supplied, each element of the | ||
6790 | array is set to True if the corresponding color was compressed | ||
6791 | and False otherwise. Pass NULL if the compression status is not | ||
6792 | useful. | ||
6793 | |||
6794 | The XcmsStoreColors function converts the colors specified in | ||
6795 | the array of XcmsColor structures into RGB values and then uses | ||
6796 | these RGB specifications in XColor structures, whose three | ||
6797 | flags (DoRed, DoGreen, and DoBlue) are set, in a call to | ||
6798 | XStoreColors to change the color cells specified by the pixel | ||
6799 | member of the corresponding XcmsColor structure. Each pixel | ||
6800 | value must be a valid index for the specified colormap, and the | ||
6801 | color cell specified by each pixel value must be a read/write | ||
6802 | cell. If a pixel value is not a valid index, a BadValue error | ||
6803 | results. If a color cell is unallocated or is allocated | ||
6804 | read-only, a BadAccess error results. If more than one pixel is | ||
6805 | in error, the one that gets reported is arbitrary. If the | ||
6806 | colormap is an installed map for its screen, the changes are | ||
6807 | visible immediately. | ||
6808 | |||
6809 | Note that XStoreColors has no return value; therefore, an | ||
6810 | XcmsSuccess return value from this function indicates that | ||
6811 | conversions to RGB succeeded and the call to XStoreColors was | ||
6812 | made. To obtain the actual colors stored, use XcmsQueryColors. | ||
6813 | Because of the screen's hardware limitations or gamut | ||
6814 | compression, the colors stored in the colormap may not be | ||
6815 | identical to the colors specified. | ||
6816 | |||
6817 | XcmsStoreColors can generate BadAccess, BadColor, and BadValue | ||
6818 | errors. | ||
6819 | |||
6820 | To store a color specified by name in a single colormap cell, | ||
6821 | use XStoreNamedColor. | ||
6822 | |||
6823 | XStoreNamedColor(Display *display, Colormap colormap, char | ||
6824 | *color, unsigned long pixel, int flags); | ||
6825 | |||
6826 | display | ||
6827 | |||
6828 | Specifies the connection to the X server. | ||
6829 | |||
6830 | colormap | ||
6831 | |||
6832 | Specifies the colormap. | ||
6833 | |||
6834 | color | ||
6835 | |||
6836 | Specifies the color name string (for example, red). | ||
6837 | |||
6838 | pixel | ||
6839 | |||
6840 | Specifies the entry in the colormap. | ||
6841 | |||
6842 | flags | ||
6843 | |||
6844 | Specifies which red, green, and blue components are set. | ||
6845 | |||
6846 | The XStoreNamedColor function looks up the named color with | ||
6847 | respect to the screen associated with the colormap and stores | ||
6848 | the result in the specified colormap. The pixel argument | ||
6849 | determines the entry in the colormap. The flags argument | ||
6850 | determines which of the red, green, and blue components are | ||
6851 | set. You can set this member to the bitwise inclusive OR of the | ||
6852 | bits DoRed, DoGreen, and DoBlue. If the color name is not in | ||
6853 | the Host Portable Character Encoding, the result is | ||
6854 | implementation-dependent. Use of uppercase or lowercase does | ||
6855 | not matter. If the specified pixel is not a valid index into | ||
6856 | the colormap, a BadValue error results. If the specified pixel | ||
6857 | either is unallocated or is allocated read-only, a BadAccess | ||
6858 | error results. | ||
6859 | |||
6860 | XStoreNamedColor can generate BadAccess, BadColor, BadName, and | ||
6861 | BadValue errors. | ||
6862 | |||
6863 | The XQueryColor and XQueryColors functions take pixel values in | ||
6864 | the pixel member of XColor structures and store in the | ||
6865 | structures the RGB values for those pixels from the specified | ||
6866 | colormap. The values returned for an unallocated entry are | ||
6867 | undefined. These functions also set the flags member in the | ||
6868 | XColor structure to all three colors. If a pixel is not a valid | ||
6869 | index into the specified colormap, a BadValue error results. If | ||
6870 | more than one pixel is in error, the one that gets reported is | ||
6871 | arbitrary. | ||
6872 | |||
6873 | To query the RGB value of a single colormap cell, use | ||
6874 | XQueryColor. | ||
6875 | |||
6876 | XQueryColor(Display *display, Colormap colormap, XColor | ||
6877 | *def_in_out); | ||
6878 | |||
6879 | display | ||
6880 | |||
6881 | Specifies the connection to the X server. | ||
6882 | |||
6883 | colormap | ||
6884 | |||
6885 | Specifies the colormap. | ||
6886 | |||
6887 | def_in_out | ||
6888 | |||
6889 | Specifies and returns the RGB values for the pixel specified in | ||
6890 | the structure. | ||
6891 | |||
6892 | The XQueryColor function returns the current RGB value for the | ||
6893 | pixel in the XColor structure and sets the DoRed, DoGreen, and | ||
6894 | DoBlue flags. | ||
6895 | |||
6896 | XQueryColor can generate BadColor and BadValue errors. | ||
6897 | |||
6898 | To query the RGB values of multiple colormap cells, use | ||
6899 | XQueryColors. | ||
6900 | |||
6901 | XQueryColors(Display *display, Colormap colormap, XColor | ||
6902 | defs_in_out[], int ncolors); | ||
6903 | |||
6904 | display | ||
6905 | |||
6906 | Specifies the connection to the X server. | ||
6907 | |||
6908 | colormap | ||
6909 | |||
6910 | Specifies the colormap. | ||
6911 | |||
6912 | defs_in_out | ||
6913 | |||
6914 | Specifies and returns an array of color definition structures | ||
6915 | for the pixel specified in the structure. | ||
6916 | |||
6917 | ncolors | ||
6918 | |||
6919 | Specifies the number of XColor structures in the color | ||
6920 | definition array. | ||
6921 | |||
6922 | The XQueryColors function returns the RGB value for each pixel | ||
6923 | in each XColor structure and sets the DoRed, DoGreen, and | ||
6924 | DoBlue flags in each structure. | ||
6925 | |||
6926 | XQueryColors can generate BadColor and BadValue errors. | ||
6927 | |||
6928 | To query the color of a single colormap cell in an arbitrary | ||
6929 | format, use XcmsQueryColor. | ||
6930 | |||
6931 | Status XcmsQueryColor(Display *display, Colormap colormap, | ||
6932 | XcmsColor *color_in_out, XcmsColorFormat result_format); | ||
6933 | |||
6934 | display | ||
6935 | |||
6936 | Specifies the connection to the X server. | ||
6937 | |||
6938 | colormap | ||
6939 | |||
6940 | Specifies the colormap. | ||
6941 | |||
6942 | color_in_out | ||
6943 | |||
6944 | Specifies the pixel member that indicates the color cell to | ||
6945 | query. The color specification stored for the color cell is | ||
6946 | returned in this XcmsColor structure. | ||
6947 | |||
6948 | result_format | ||
6949 | |||
6950 | Specifies the color format for the returned color | ||
6951 | specification. | ||
6952 | |||
6953 | The XcmsQueryColor function obtains the RGB value for the pixel | ||
6954 | value in the pixel member of the specified XcmsColor structure | ||
6955 | and then converts the value to the target format as specified | ||
6956 | by the result_format argument. If the pixel is not a valid | ||
6957 | index in the specified colormap, a BadValue error results. | ||
6958 | |||
6959 | XcmsQueryColor can generate BadColor and BadValue errors. | ||
6960 | |||
6961 | To query the color of multiple colormap cells in an arbitrary | ||
6962 | format, use XcmsQueryColors. | ||
6963 | |||
6964 | Status XcmsQueryColors(Display *display, Colormap colormap, | ||
6965 | XcmsColor colors_in_out[], unsigned int ncolors, | ||
6966 | XcmsColorFormat result_format); | ||
6967 | |||
6968 | display | ||
6969 | |||
6970 | Specifies the connection to the X server. | ||
6971 | |||
6972 | colormap | ||
6973 | |||
6974 | Specifies the colormap. | ||
6975 | |||
6976 | colors_in_out | ||
6977 | |||
6978 | Specifies an array of XcmsColor structures, each pixel member | ||
6979 | indicating the color cell to query. The color specifications | ||
6980 | for the color cells are returned in these structures. | ||
6981 | |||
6982 | ncolors | ||
6983 | |||
6984 | Specifies the number of XcmsColor structures in the | ||
6985 | color-specification array. | ||
6986 | |||
6987 | result_format | ||
6988 | |||
6989 | Specifies the color format for the returned color | ||
6990 | specification. | ||
6991 | |||
6992 | The XcmsQueryColors function obtains the RGB values for pixel | ||
6993 | values in the pixel members of XcmsColor structures and then | ||
6994 | converts the values to the target format as specified by the | ||
6995 | result_format argument. If a pixel is not a valid index into | ||
6996 | the specified colormap, a BadValue error results. If more than | ||
6997 | one pixel is in error, the one that gets reported is arbitrary. | ||
6998 | |||
6999 | XcmsQueryColors can generate BadColor and BadValue errors. | ||
7000 | |||
7001 | Color Conversion Context Functions | ||
7002 | |||
7003 | This section describes functions to create, modify, and query | ||
7004 | Color Conversion Contexts (CCCs). | ||
7005 | |||
7006 | Associated with each colormap is an initial CCC transparently | ||
7007 | generated by Xlib. Therefore, when you specify a colormap as an | ||
7008 | argument to a function, you are indirectly specifying a CCC. | ||
7009 | The CCC attributes that can be modified by the X client are: | ||
7010 | * Client White Point | ||
7011 | * Gamut compression procedure and client data | ||
7012 | * White point adjustment procedure and client data | ||
7013 | |||
7014 | The initial values for these attributes are implementation | ||
7015 | specific. The CCC attributes for subsequently created CCCs can | ||
7016 | be defined by changing the CCC attributes of the default CCC. | ||
7017 | There is a default CCC associated with each screen. | ||
7018 | |||
7019 | Getting and Setting the Color Conversion Context of a Colormap | ||
7020 | |||
7021 | To obtain the CCC associated with a colormap, use | ||
7022 | XcmsCCCOfColormap. | ||
7023 | |||
7024 | XcmsCCC XcmsCCCOfColormap(Display *display, Colormap colormap); | ||
7025 | |||
7026 | display | ||
7027 | |||
7028 | Specifies the connection to the X server. | ||
7029 | |||
7030 | colormap | ||
7031 | |||
7032 | Specifies the colormap. | ||
7033 | |||
7034 | The XcmsCCCOfColormap function returns the CCC associated with | ||
7035 | the specified colormap. Once obtained, the CCC attributes can | ||
7036 | be queried or modified. Unless the CCC associated with the | ||
7037 | specified colormap is changed with XcmsSetCCCOfColormap, this | ||
7038 | CCC is used when the specified colormap is used as an argument | ||
7039 | to color functions. | ||
7040 | |||
7041 | To change the CCC associated with a colormap, use | ||
7042 | XcmsSetCCCOfColormap. | ||
7043 | |||
7044 | XcmsCCC XcmsSetCCCOfColormap(Display *display, Colormap | ||
7045 | colormap, XcmsCCC ccc); | ||
7046 | |||
7047 | display | ||
7048 | |||
7049 | Specifies the connection to the X server. | ||
7050 | |||
7051 | colormap | ||
7052 | |||
7053 | Specifies the colormap. | ||
7054 | |||
7055 | ccc | ||
7056 | |||
7057 | Specifies the CCC. | ||
7058 | |||
7059 | The XcmsSetCCCOfColormap function changes the CCC associated | ||
7060 | with the specified colormap. It returns the CCC previously | ||
7061 | associated with the colormap. If they are not used again in the | ||
7062 | application, CCCs should be freed by calling XcmsFreeCCC. | ||
7063 | Several colormaps may share the same CCC without restriction; | ||
7064 | this includes the CCCs generated by Xlib with each colormap. | ||
7065 | Xlib, however, creates a new CCC with each new colormap. | ||
7066 | |||
7067 | Obtaining the Default Color Conversion Context | ||
7068 | |||
7069 | You can change the default CCC attributes for subsequently | ||
7070 | created CCCs by changing the CCC attributes of the default CCC. | ||
7071 | A default CCC is associated with each screen. | ||
7072 | |||
7073 | To obtain the default CCC for a screen, use XcmsDefaultCCC. | ||
7074 | |||
7075 | XcmsCCC XcmsDefaultCCC(Display *display, int screen_number); | ||
7076 | |||
7077 | display | ||
7078 | |||
7079 | Specifies the connection to the X server. | ||
7080 | |||
7081 | screen_number | ||
7082 | |||
7083 | Specifies the appropriate screen number on the host server. | ||
7084 | |||
7085 | The XcmsDefaultCCC function returns the default CCC for the | ||
7086 | specified screen. Its visual is the default visual of the | ||
7087 | screen. Its initial gamut compression and white point | ||
7088 | adjustment procedures as well as the associated client data are | ||
7089 | implementation specific. | ||
7090 | |||
7091 | Color Conversion Context Macros | ||
7092 | |||
7093 | Applications should not directly modify any part of the | ||
7094 | XcmsCCC. The following lists the C language macros, their | ||
7095 | corresponding function equivalents for other language bindings, | ||
7096 | and what data they both can return. | ||
7097 | |||
7098 | DisplayOfCCC(XcmsCCC ccc); | ||
7099 | |||
7100 | Display *XcmsDisplayOfCCC(XcmsCCC ccc); | ||
7101 | |||
7102 | ccc | ||
7103 | |||
7104 | Specifies the CCC. | ||
7105 | |||
7106 | Both return the display associated with the specified CCC. | ||
7107 | |||
7108 | VisualOfCCC(XcmsCCC ccc); | ||
7109 | |||
7110 | Visual *XcmsVisualOfCCC(XcmsCCC ccc); | ||
7111 | |||
7112 | ccc | ||
7113 | |||
7114 | Specifies the CCC. | ||
7115 | |||
7116 | Both return the visual associated with the specified CCC. | ||
7117 | |||
7118 | ScreenNumberOfCCC(XcmsCCC ccc); | ||
7119 | |||
7120 | int XcmsScreenNumberOfCCC(XcmsCCC ccc); | ||
7121 | |||
7122 | ccc | ||
7123 | |||
7124 | Specifies the CCC. | ||
7125 | |||
7126 | Both return the number of the screen associated with the | ||
7127 | specified CCC. | ||
7128 | |||
7129 | ScreenWhitePointOfCCC(XcmsCCC ccc); | ||
7130 | |||
7131 | XcmsColor XcmsScreenWhitePointOfCCC(XcmsCCC ccc); | ||
7132 | |||
7133 | ccc | ||
7134 | |||
7135 | Specifies the CCC. | ||
7136 | |||
7137 | Both return the white point of the screen associated with the | ||
7138 | specified CCC. | ||
7139 | |||
7140 | ClientWhitePointOfCCC(XcmsCCC ccc); | ||
7141 | |||
7142 | XcmsColor *XcmsClientWhitePointOfCCC(XcmsCCC ccc); | ||
7143 | |||
7144 | ccc | ||
7145 | |||
7146 | Specifies the CCC. | ||
7147 | |||
7148 | Both return the Client White Point of the specified CCC. | ||
7149 | |||
7150 | Modifying Attributes of a Color Conversion Context | ||
7151 | |||
7152 | To set the Client White Point in the CCC, use | ||
7153 | XcmsSetWhitePoint. | ||
7154 | |||
7155 | Status XcmsSetWhitePoint(XcmsCCC ccc, XcmsColor *color); | ||
7156 | |||
7157 | ccc | ||
7158 | |||
7159 | Specifies the CCC. | ||
7160 | |||
7161 | color | ||
7162 | |||
7163 | Specifies the new Client White Point. | ||
7164 | |||
7165 | The XcmsSetWhitePoint function changes the Client White Point | ||
7166 | in the specified CCC. Note that the pixel member is ignored and | ||
7167 | that the color specification is left unchanged upon return. The | ||
7168 | format for the new white point must be XcmsCIEXYZFormat, | ||
7169 | XcmsCIEuvYFormat, XcmsCIExyYFormat, or XcmsUndefinedFormat. If | ||
7170 | the color argument is NULL, this function sets the format | ||
7171 | component of the Client White Point specification to | ||
7172 | XcmsUndefinedFormat, indicating that the Client White Point is | ||
7173 | assumed to be the same as the Screen White Point. | ||
7174 | |||
7175 | This function returns nonzero status if the format for the new | ||
7176 | white point is valid; otherwise, it returns zero. | ||
7177 | |||
7178 | To set the gamut compression procedure and corresponding client | ||
7179 | data in a specified CCC, use XcmsSetCompressionProc. | ||
7180 | |||
7181 | XcmsCompressionProc XcmsSetCompressionProc(XcmsCCC ccc, | ||
7182 | XcmsCompressionProc compression_proc, XPointer client_data); | ||
7183 | |||
7184 | ccc | ||
7185 | |||
7186 | Specifies the CCC. | ||
7187 | |||
7188 | compression_proc | ||
7189 | |||
7190 | Specifies the gamut compression procedure that is to be applied | ||
7191 | when a color lies outside the screen's color gamut. If NULL is | ||
7192 | specified and a function using this CCC must convert a color | ||
7193 | specification to a device-dependent format and encounters a | ||
7194 | color that lies outside the screen's color gamut, that function | ||
7195 | will return XcmsFailure. | ||
7196 | |||
7197 | client_data | ||
7198 | |||
7199 | Specifies client data for gamut compression procedure or NULL. | ||
7200 | |||
7201 | The XcmsSetCompressionProc function first sets the gamut | ||
7202 | compression procedure and client data in the specified CCC with | ||
7203 | the newly specified procedure and client data and then returns | ||
7204 | the old procedure. | ||
7205 | |||
7206 | To set the white point adjustment procedure and corresponding | ||
7207 | client data in a specified CCC, use XcmsSetWhiteAdjustProc. | ||
7208 | |||
7209 | XcmsWhiteAdjustProc XcmsSetWhiteAdjustProc(XcmsCCC ccc, | ||
7210 | XcmsWhiteAdjustProc white_adjust_proc, XPointer client_data); | ||
7211 | |||
7212 | ccc | ||
7213 | |||
7214 | Specifies the CCC. | ||
7215 | |||
7216 | white_adjust_proc | ||
7217 | |||
7218 | Specifies the white point adjustment procedure. | ||
7219 | |||
7220 | client_data | ||
7221 | |||
7222 | Specifies client data for white point adjustment procedure or | ||
7223 | NULL. | ||
7224 | |||
7225 | The XcmsSetWhiteAdjustProc function first sets the white point | ||
7226 | adjustment procedure and client data in the specified CCC with | ||
7227 | the newly specified procedure and client data and then returns | ||
7228 | the old procedure. | ||
7229 | |||
7230 | Creating and Freeing a Color Conversion Context | ||
7231 | |||
7232 | You can explicitly create a CCC within your application by | ||
7233 | calling XcmsCreateCCC. These created CCCs can then be used by | ||
7234 | those functions that explicitly call for a CCC argument. Old | ||
7235 | CCCs that will not be used by the application should be freed | ||
7236 | using XcmsFreeCCC. | ||
7237 | |||
7238 | To create a CCC, use XcmsCreateCCC. | ||
7239 | |||
7240 | XcmsCCC XcmsCreateCCC(Display *display, int screen_number, | ||
7241 | Visual *visual, XcmsColor *client_white_point, | ||
7242 | XcmsCompressionProc compression_proc, XPointer | ||
7243 | compression_client_data, XcmsWhiteAdjustProc white_adjust_proc, | ||
7244 | XPointer white_adjust_client_data); | ||
7245 | |||
7246 | display | ||
7247 | |||
7248 | Specifies the connection to the X server. | ||
7249 | |||
7250 | screen_number | ||
7251 | |||
7252 | Specifies the appropriate screen number on the host server. | ||
7253 | |||
7254 | visual | ||
7255 | |||
7256 | Specifies the visual type. | ||
7257 | |||
7258 | client_white_point | ||
7259 | |||
7260 | Specifies the Client White Point. If NULL is specified, the | ||
7261 | Client White Point is to be assumed to be the same as the | ||
7262 | Screen White Point. Note that the pixel member is ignored. | ||
7263 | |||
7264 | compression_proc | ||
7265 | |||
7266 | Specifies the gamut compression procedure that is to be applied | ||
7267 | when a color lies outside the screen's color gamut. If NULL is | ||
7268 | specified and a function using this CCC must convert a color | ||
7269 | specification to a device-dependent format and encounters a | ||
7270 | color that lies outside the screen's color gamut, that function | ||
7271 | will return XcmsFailure. | ||
7272 | |||
7273 | compression_client_data | ||
7274 | |||
7275 | Specifies client data for use by the gamut compression | ||
7276 | procedure or NULL. | ||
7277 | |||
7278 | white_adjust_proc | ||
7279 | |||
7280 | Specifies the white adjustment procedure that is to be applied | ||
7281 | when the Client White Point differs from the Screen White | ||
7282 | Point. NULL indicates that no white point adjustment is | ||
7283 | desired. | ||
7284 | |||
7285 | white_adjust_client_data | ||
7286 | |||
7287 | Specifies client data for use with the white point adjustment | ||
7288 | procedure or NULL. | ||
7289 | |||
7290 | The XcmsCreateCCC function creates a CCC for the specified | ||
7291 | display, screen, and visual. | ||
7292 | |||
7293 | To free a CCC, use XcmsFreeCCC. | ||
7294 | |||
7295 | void XcmsFreeCCC(XcmsCCC ccc); | ||
7296 | |||
7297 | ccc | ||
7298 | |||
7299 | Specifies the CCC. | ||
7300 | |||
7301 | The XcmsFreeCCC function frees the memory used for the | ||
7302 | specified CCC. Note that default CCCs and those currently | ||
7303 | associated with colormaps are ignored. | ||
7304 | |||
7305 | Converting between Color Spaces | ||
7306 | |||
7307 | To convert an array of color specifications in arbitrary color | ||
7308 | formats to a single destination format, use XcmsConvertColors. | ||
7309 | |||
7310 | Status XcmsConvertColors(XcmsCCC ccc, XcmsColor | ||
7311 | colors_in_out[], unsigned int ncolors, XcmsColorFormat | ||
7312 | target_format, Bool compression_flags_return[]); | ||
7313 | |||
7314 | ccc | ||
7315 | |||
7316 | Specifies the CCC. If conversion is between device-independent | ||
7317 | color spaces only (for example, TekHVC to CIELuv), the CCC is | ||
7318 | necessary only to specify the Client White Point. | ||
7319 | |||
7320 | colors_in_out | ||
7321 | |||
7322 | Specifies an array of color specifications. Pixel members are | ||
7323 | ignored and remain unchanged upon return. | ||
7324 | |||
7325 | ncolors | ||
7326 | |||
7327 | Specifies the number of XcmsColor structures in the | ||
7328 | color-specification array. | ||
7329 | |||
7330 | target_format | ||
7331 | |||
7332 | Specifies the target color specification format. | ||
7333 | |||
7334 | compression_flags_return | ||
7335 | |||
7336 | Returns an array of Boolean values indicating compression | ||
7337 | status. If a non-NULL pointer is supplied, each element of the | ||
7338 | array is set to True if the corresponding color was compressed | ||
7339 | and False otherwise. Pass NULL if the compression status is not | ||
7340 | useful. | ||
7341 | |||
7342 | The XcmsConvertColors function converts the color | ||
7343 | specifications in the specified array of XcmsColor structures | ||
7344 | from their current format to a single target format, using the | ||
7345 | specified CCC. When the return value is XcmsFailure, the | ||
7346 | contents of the color specification array are left unchanged. | ||
7347 | |||
7348 | The array may contain a mixture of color specification formats | ||
7349 | (for example, 3 CIE XYZ, 2 CIE Luv, and so on). When the array | ||
7350 | contains both device-independent and device-dependent color | ||
7351 | specifications and the target_format argument specifies a | ||
7352 | device-dependent format (for example, XcmsRGBiFormat, | ||
7353 | XcmsRGBFormat), all specifications are converted to CIE XYZ | ||
7354 | format and then to the target device-dependent format. | ||
7355 | |||
7356 | Callback Functions | ||
7357 | |||
7358 | This section describes the gamut compression and white point | ||
7359 | adjustment callbacks. | ||
7360 | |||
7361 | The gamut compression procedure specified in the CCC is called | ||
7362 | when an attempt to convert a color specification from | ||
7363 | XcmsCIEXYZ to a device-dependent format (typically XcmsRGBi) | ||
7364 | results in a color that lies outside the screen's color gamut. | ||
7365 | If the gamut compression procedure requires client data, this | ||
7366 | data is passed via the gamut compression client data in the | ||
7367 | CCC. | ||
7368 | |||
7369 | During color specification conversion between | ||
7370 | device-independent and device-dependent color spaces, if a | ||
7371 | white point adjustment procedure is specified in the CCC, it is | ||
7372 | triggered when the Client White Point and Screen White Point | ||
7373 | differ. If required, the client data is obtained from the CCC. | ||
7374 | |||
7375 | Prototype Gamut Compression Procedure | ||
7376 | |||
7377 | The gamut compression callback interface must adhere to the | ||
7378 | following: | ||
7379 | |||
7380 | typedef Status(*XcmsCompressionProc)(XcmsCCC ccc, XcmsColor | ||
7381 | colors_in_out[], unsigned int ncolors, unsigned int index, Bool | ||
7382 | compression_flags_return[]); | ||
7383 | |||
7384 | ccc | ||
7385 | |||
7386 | Specifies the CCC. | ||
7387 | |||
7388 | colors_in_out | ||
7389 | |||
7390 | Specifies an array of color specifications. Pixel members | ||
7391 | should be ignored and must remain unchanged upon return. | ||
7392 | |||
7393 | ncolors | ||
7394 | |||
7395 | Specifies the number of XcmsColor structures in the | ||
7396 | color-specification array. | ||
7397 | |||
7398 | index | ||
7399 | |||
7400 | Specifies the index into the array of XcmsColor structures for | ||
7401 | the encountered color specification that lies outside the | ||
7402 | screen's color gamut. Valid values are 0 (for the first | ||
7403 | element) to ncolors - 1. | ||
7404 | |||
7405 | compression_flags_return | ||
7406 | |||
7407 | Returns an array of Boolean values for indicating compression | ||
7408 | status. If a non-NULL pointer is supplied and a color at a | ||
7409 | given index is compressed, then True should be stored at the | ||
7410 | corresponding index in this array; otherwise, the array should | ||
7411 | not be modified. | ||
7412 | |||
7413 | When implementing a gamut compression procedure, consider the | ||
7414 | following rules and assumptions: | ||
7415 | * The gamut compression procedure can attempt to compress one | ||
7416 | or multiple specifications at a time. | ||
7417 | * When called, elements 0 to index - 1 in the color | ||
7418 | specification array can be assumed to fall within the | ||
7419 | screen's color gamut. In addition, these color | ||
7420 | specifications are already in some device-dependent format | ||
7421 | (typically XcmsRGBi). If any modifications are made to | ||
7422 | these color specifications, they must be in their initial | ||
7423 | device-dependent format upon return. | ||
7424 | * When called, the element in the color specification array | ||
7425 | specified by the index argument contains the color | ||
7426 | specification outside the screen's color gamut encountered | ||
7427 | by the calling routine. In addition, this color | ||
7428 | specification can be assumed to be in XcmsCIEXYZ. Upon | ||
7429 | return, this color specification must be in XcmsCIEXYZ. | ||
7430 | * When called, elements from index to ncolors - 1 in the | ||
7431 | color specification array may or may not fall within the | ||
7432 | screen's color gamut. In addition, these color | ||
7433 | specifications can be assumed to be in XcmsCIEXYZ. If any | ||
7434 | modifications are made to these color specifications, they | ||
7435 | must be in XcmsCIEXYZ upon return. | ||
7436 | * The color specifications passed to the gamut compression | ||
7437 | procedure have already been adjusted to the Screen White | ||
7438 | Point. This means that at this point the color | ||
7439 | specification's white point is the Screen White Point. | ||
7440 | * If the gamut compression procedure uses a | ||
7441 | device-independent color space not initially accessible for | ||
7442 | use in the color management system, use XcmsAddColorSpace | ||
7443 | to ensure that it is added. | ||
7444 | |||
7445 | Supplied Gamut Compression Procedures | ||
7446 | |||
7447 | The following equations are useful in describing gamut | ||
7448 | compression functions: delim %% | ||
7449 | |||
7450 | %CIELab~Psychometric~Chroma ~=~ sqrt(a_star sup 2 ~+~ b_star sup 2 )% | ||
7451 | |||
7452 | %CIELab~Psychometric~Hue ~=~ tan sup -1 left [ b_star over a_star right | ||
7453 | ]% | ||
7454 | |||
7455 | %CIELuv~Psychometric~Chroma ~=~ sqrt(u_star sup 2 ~+~ v_star sup 2 )% | ||
7456 | |||
7457 | %CIELuv~Psychometric~Hue ~=~ tan sup -1 left [ v_star over u_star right | ||
7458 | ]% | ||
7459 | |||
7460 | The gamut compression callback procedures provided by Xlib are | ||
7461 | as follows: | ||
7462 | * XcmsCIELabClipL | ||
7463 | * This brings the encountered out-of-gamut color | ||
7464 | specification into the screen's color gamut by reducing or | ||
7465 | increasing CIE metric lightness (L*) in the CIE L*a*b* | ||
7466 | color space until the color is within the gamut. If the | ||
7467 | Psychometric Chroma of the color specification is beyond | ||
7468 | maximum for the Psychometric Hue Angle, then while | ||
7469 | maintaining the same Psychometric Hue Angle, the color will | ||
7470 | be clipped to the CIE L*a*b* coordinates of maximum | ||
7471 | Psychometric Chroma. See XcmsCIELabQueryMaxC. No client | ||
7472 | data is necessary. | ||
7473 | * XcmsCIELabClipab | ||
7474 | * This brings the encountered out-of-gamut color | ||
7475 | specification into the screen's color gamut by reducing | ||
7476 | Psychometric Chroma, while maintaining Psychometric Hue | ||
7477 | Angle, until the color is within the gamut. No client data | ||
7478 | is necessary. | ||
7479 | * XcmsCIELabClipLab | ||
7480 | * This brings the encountered out-of-gamut color | ||
7481 | specification into the screen's color gamut by replacing it | ||
7482 | with CIE L*a*b* coordinates that fall within the color | ||
7483 | gamut while maintaining the original Psychometric Hue Angle | ||
7484 | and whose vector to the original coordinates is the | ||
7485 | shortest attainable. No client data is necessary. | ||
7486 | * XcmsCIELuvClipL | ||
7487 | * This brings the encountered out-of-gamut color | ||
7488 | specification into the screen's color gamut by reducing or | ||
7489 | increasing CIE metric lightness (L*) in the CIE L*u*v* | ||
7490 | color space until the color is within the gamut. If the | ||
7491 | Psychometric Chroma of the color specification is beyond | ||
7492 | maximum for the Psychometric Hue Angle, then, while | ||
7493 | maintaining the same Psychometric Hue Angle, the color will | ||
7494 | be clipped to the CIE L*u*v* coordinates of maximum | ||
7495 | Psychometric Chroma. See XcmsCIELuvQueryMaxC. No client | ||
7496 | data is necessary. | ||
7497 | * XcmsCIELuvClipuv | ||
7498 | * This brings the encountered out-of-gamut color | ||
7499 | specification into the screen's color gamut by reducing | ||
7500 | Psychometric Chroma, while maintaining Psychometric Hue | ||
7501 | Angle, until the color is within the gamut. No client data | ||
7502 | is necessary. | ||
7503 | * XcmsCIELuvClipLuv | ||
7504 | * This brings the encountered out-of-gamut color | ||
7505 | specification into the screen's color gamut by replacing it | ||
7506 | with CIE L*u*v* coordinates that fall within the color | ||
7507 | gamut while maintaining the original Psychometric Hue Angle | ||
7508 | and whose vector to the original coordinates is the | ||
7509 | shortest attainable. No client data is necessary. | ||
7510 | * XcmsTekHVCClipV | ||
7511 | * This brings the encountered out-of-gamut color | ||
7512 | specification into the screen's color gamut by reducing or | ||
7513 | increasing the Value dimension in the TekHVC color space | ||
7514 | until the color is within the gamut. If Chroma of the color | ||
7515 | specification is beyond maximum for the particular Hue, | ||
7516 | then, while maintaining the same Hue, the color will be | ||
7517 | clipped to the Value and Chroma coordinates that represent | ||
7518 | maximum Chroma for that particular Hue. No client data is | ||
7519 | necessary. | ||
7520 | * XcmsTekHVCClipC | ||
7521 | * This brings the encountered out-of-gamut color | ||
7522 | specification into the screen's color gamut by reducing the | ||
7523 | Chroma dimension in the TekHVC color space until the color | ||
7524 | is within the gamut. No client data is necessary. | ||
7525 | * XcmsTekHVCClipVC | ||
7526 | * This brings the encountered out-of-gamut color | ||
7527 | specification into the screen's color gamut by replacing it | ||
7528 | with TekHVC coordinates that fall within the color gamut | ||
7529 | while maintaining the original Hue and whose vector to the | ||
7530 | original coordinates is the shortest attainable. No client | ||
7531 | data is necessary. | ||
7532 | |||
7533 | Prototype White Point Adjustment Procedure | ||
7534 | |||
7535 | The white point adjustment procedure interface must adhere to | ||
7536 | the following: | ||
7537 | |||
7538 | typedef Status (*XcmsWhiteAdjustProc)(XcmsCCC ccc, XcmsColor | ||
7539 | *initial_white_point, XcmsColor *target_white_point, | ||
7540 | XcmsColorFormat target_format, XcmsColor colors_in_out[], | ||
7541 | unsigned int ncolors, Bool compression_flags_return[]); | ||
7542 | |||
7543 | ccc | ||
7544 | |||
7545 | Specifies the CCC. | ||
7546 | |||
7547 | initial_white_point | ||
7548 | |||
7549 | Specifies the initial white point. | ||
7550 | |||
7551 | target_white_point | ||
7552 | |||
7553 | Specifies the target white point. | ||
7554 | |||
7555 | target_format | ||
7556 | |||
7557 | Specifies the target color specification format. | ||
7558 | |||
7559 | colors_in_out | ||
7560 | |||
7561 | Specifies an array of color specifications. Pixel members | ||
7562 | should be ignored and must remain unchanged upon return. | ||
7563 | |||
7564 | ncolors | ||
7565 | |||
7566 | Specifies the number of XcmsColor structures in the | ||
7567 | color-specification array. | ||
7568 | |||
7569 | compression_flags_return | ||
7570 | |||
7571 | Returns an array of Boolean values for indicating compression | ||
7572 | status. If a non-NULL pointer is supplied and a color at a | ||
7573 | given index is compressed, then True should be stored at the | ||
7574 | corresponding index in this array; otherwise, the array should | ||
7575 | not be modified. | ||
7576 | |||
7577 | Supplied White Point Adjustment Procedures | ||
7578 | |||
7579 | White point adjustment procedures provided by Xlib are as | ||
7580 | follows: | ||
7581 | * XcmsCIELabWhiteShiftColors | ||
7582 | * This uses the CIE L*a*b* color space for adjusting the | ||
7583 | chromatic character of colors to compensate for the | ||
7584 | chromatic differences between the source and destination | ||
7585 | white points. This procedure simply converts the color | ||
7586 | specifications to XcmsCIELab using the source white point | ||
7587 | and then converts to the target specification format using | ||
7588 | the destination's white point. No client data is necessary. | ||
7589 | * XcmsCIELuvWhiteShiftColors | ||
7590 | * This uses the CIE L*u*v* color space for adjusting the | ||
7591 | chromatic character of colors to compensate for the | ||
7592 | chromatic differences between the source and destination | ||
7593 | white points. This procedure simply converts the color | ||
7594 | specifications to XcmsCIELuv using the source white point | ||
7595 | and then converts to the target specification format using | ||
7596 | the destination's white point. No client data is necessary. | ||
7597 | * XcmsTekHVCWhiteShiftColors | ||
7598 | * This uses the TekHVC color space for adjusting the | ||
7599 | chromatic character of colors to compensate for the | ||
7600 | chromatic differences between the source and destination | ||
7601 | white points. This procedure simply converts the color | ||
7602 | specifications to XcmsTekHVC using the source white point | ||
7603 | and then converts to the target specification format using | ||
7604 | the destination's white point. An advantage of this | ||
7605 | procedure over those previously described is an attempt to | ||
7606 | minimize hue shift. No client data is necessary. | ||
7607 | |||
7608 | From an implementation point of view, these white point | ||
7609 | adjustment procedures convert the color specifications to a | ||
7610 | device-independent but white-point-dependent color space (for | ||
7611 | example, CIE L*u*v*, CIE L*a*b*, TekHVC) using one white point | ||
7612 | and then converting those specifications to the target color | ||
7613 | space using another white point. In other words, the | ||
7614 | specification goes in the color space with one white point but | ||
7615 | comes out with another white point, resulting in a chromatic | ||
7616 | shift based on the chromatic displacement between the initial | ||
7617 | white point and target white point. The CIE color spaces that | ||
7618 | are assumed to be white-point-independent are CIE u'v'Y, CIE | ||
7619 | XYZ, and CIE xyY. When developing a custom white point | ||
7620 | adjustment procedure that uses a device-independent color space | ||
7621 | not initially accessible for use in the color management | ||
7622 | system, use XcmsAddColorSpace to ensure that it is added. | ||
7623 | |||
7624 | As an example, if the CCC specifies a white point adjustment | ||
7625 | procedure and if the Client White Point and Screen White Point | ||
7626 | differ, the XcmsAllocColor function will use the white point | ||
7627 | adjustment procedure twice: | ||
7628 | * Once to convert to XcmsRGB | ||
7629 | * A second time to convert from XcmsRGB | ||
7630 | |||
7631 | For example, assume the specification is in XcmsCIEuvY and the | ||
7632 | adjustment procedure is XcmsCIELuvWhiteShiftColors. During | ||
7633 | conversion to XcmsRGB, the call to XcmsAllocColor results in | ||
7634 | the following series of color specification conversions: | ||
7635 | * From XcmsCIEuvY to XcmsCIELuv using the Client White Point | ||
7636 | * From XcmsCIELuv to XcmsCIEuvY using the Screen White Point | ||
7637 | * From XcmsCIEuvY to XcmsCIEXYZ (CIE u'v'Y and XYZ are | ||
7638 | white-point-independent color spaces) | ||
7639 | * From XcmsCIEXYZ to XcmsRGBi | ||
7640 | * From XcmsRGBi to XcmsRGB | ||
7641 | |||
7642 | The resulting RGB specification is passed to XAllocColor, and | ||
7643 | the RGB specification returned by XAllocColor is converted back | ||
7644 | to XcmsCIEuvY by reversing the color conversion sequence. | ||
7645 | |||
7646 | Gamut Querying Functions | ||
7647 | |||
7648 | This section describes the gamut querying functions that Xlib | ||
7649 | provides. These functions allow the client to query the | ||
7650 | boundary of the screen's color gamut in terms of the CIE | ||
7651 | L*a*b*, CIE L*u*v*, and TekHVC color spaces. Functions are also | ||
7652 | provided that allow you to query the color specification of: | ||
7653 | * White (full-intensity red, green, and blue) | ||
7654 | * Red (full-intensity red while green and blue are zero) | ||
7655 | * Green (full-intensity green while red and blue are zero) | ||
7656 | * Blue (full-intensity blue while red and green are zero) | ||
7657 | * Black (zero-intensity red, green, and blue) | ||
7658 | |||
7659 | The white point associated with color specifications passed to | ||
7660 | and returned from these gamut querying functions is assumed to | ||
7661 | be the Screen White Point. This is a reasonable assumption, | ||
7662 | because the client is trying to query the screen's color gamut. | ||
7663 | |||
7664 | The following naming convention is used for the Max and Min | ||
7665 | functions: | ||
7666 | |||
7667 | Xcms<color_space>QueryMax<dimensions> | ||
7668 | |||
7669 | Xcms<color_space>QueryMin<dimensions> | ||
7670 | |||
7671 | The <dimensions> consists of a letter or letters that identify | ||
7672 | the dimensions of the color space that are not fixed. For | ||
7673 | example, XcmsTekHVCQueryMaxC is given a fixed Hue and Value for | ||
7674 | which maximum Chroma is found. | ||
7675 | |||
7676 | Red, Green, and Blue Queries | ||
7677 | |||
7678 | To obtain the color specification for black (zero-intensity | ||
7679 | red, green, and blue), use XcmsQueryBlack. | ||
7680 | |||
7681 | Status XcmsQueryBlack(XcmsCCC ccc, XcmsColorFormat | ||
7682 | target_format, XcmsColor *color_return); | ||
7683 | |||
7684 | ccc | ||
7685 | |||
7686 | Specifies the CCC. The CCC's Client White Point and white point | ||
7687 | adjustment procedures are ignored. | ||
7688 | |||
7689 | target_format | ||
7690 | |||
7691 | Specifies the target color specification format. | ||
7692 | |||
7693 | color_return | ||
7694 | |||
7695 | Returns the color specification in the specified target format | ||
7696 | for zero-intensity red, green, and blue. The white point | ||
7697 | associated with the returned color specification is the Screen | ||
7698 | White Point. The value returned in the pixel member is | ||
7699 | undefined. | ||
7700 | |||
7701 | The XcmsQueryBlack function returns the color specification in | ||
7702 | the specified target format for zero-intensity red, green, and | ||
7703 | blue. | ||
7704 | |||
7705 | To obtain the color specification for blue (full-intensity blue | ||
7706 | while red and green are zero), use XcmsQueryBlue. | ||
7707 | |||
7708 | Status XcmsQueryBlue(XcmsCCC ccc, XcmsColorFormat | ||
7709 | target_format, XcmsColor *color_return); | ||
7710 | |||
7711 | ccc | ||
7712 | |||
7713 | Specifies the CCC. The CCC's Client White Point and white point | ||
7714 | adjustment procedures are ignored. | ||
7715 | |||
7716 | target_format | ||
7717 | |||
7718 | Specifies the target color specification format. | ||
7719 | |||
7720 | color_return | ||
7721 | |||
7722 | Returns the color specification in the specified target format | ||
7723 | for full-intensity blue while red and green are zero. The white | ||
7724 | point associated with the returned color specification is the | ||
7725 | Screen White Point. The value returned in the pixel member is | ||
7726 | undefined. | ||
7727 | |||
7728 | The XcmsQueryBlue function returns the color specification in | ||
7729 | the specified target format for full-intensity blue while red | ||
7730 | and green are zero. | ||
7731 | |||
7732 | To obtain the color specification for green (full-intensity | ||
7733 | green while red and blue are zero), use XcmsQueryGreen. | ||
7734 | |||
7735 | Status XcmsQueryGreen(XcmsCCC ccc, XcmsColorFormat | ||
7736 | target_format, XcmsColor *color_return); | ||
7737 | |||
7738 | ccc | ||
7739 | |||
7740 | Specifies the CCC. The CCC's Client White Point and white point | ||
7741 | adjustment procedures are ignored. | ||
7742 | |||
7743 | target_format | ||
7744 | |||
7745 | Specifies the target color specification format. | ||
7746 | |||
7747 | color_return | ||
7748 | |||
7749 | Returns the color specification in the specified target format | ||
7750 | for full-intensity green while red and blue are zero. The white | ||
7751 | point associated with the returned color specification is the | ||
7752 | Screen White Point. The value returned in the pixel member is | ||
7753 | undefined. | ||
7754 | |||
7755 | The XcmsQueryGreen function returns the color specification in | ||
7756 | the specified target format for full-intensity green while red | ||
7757 | and blue are zero. | ||
7758 | |||
7759 | To obtain the color specification for red (full-intensity red | ||
7760 | while green and blue are zero), use XcmsQueryRed. | ||
7761 | |||
7762 | Status XcmsQueryRed(XcmsCCC ccc, XcmsColorFormat target_format, | ||
7763 | XcmsColor *color_return); | ||
7764 | |||
7765 | ccc | ||
7766 | |||
7767 | Specifies the CCC. The CCC's Client White Point and white point | ||
7768 | adjustment procedures are ignored. | ||
7769 | |||
7770 | target_format | ||
7771 | |||
7772 | Specifies the target color specification format. | ||
7773 | |||
7774 | color_return | ||
7775 | |||
7776 | Returns the color specification in the specified target format | ||
7777 | for full-intensity red while green and blue are zero. The white | ||
7778 | point associated with the returned color specification is the | ||
7779 | Screen White Point. The value returned in the pixel member is | ||
7780 | undefined. | ||
7781 | |||
7782 | The XcmsQueryRed function returns the color specification in | ||
7783 | the specified target format for full-intensity red while green | ||
7784 | and blue are zero. | ||
7785 | |||
7786 | To obtain the color specification for white (full-intensity | ||
7787 | red, green, and blue), use XcmsQueryWhite. | ||
7788 | |||
7789 | Status XcmsQueryWhite(XcmsCCC ccc, XcmsColorFormat | ||
7790 | target_format, XcmsColor *color_return); | ||
7791 | |||
7792 | ccc | ||
7793 | |||
7794 | Specifies the CCC. The CCC's Client White Point and white point | ||
7795 | adjustment procedures are ignored. | ||
7796 | |||
7797 | target_format | ||
7798 | |||
7799 | Specifies the target color specification format. | ||
7800 | |||
7801 | color_return | ||
7802 | |||
7803 | Returns the color specification in the specified target format | ||
7804 | for full-intensity red, green, and blue. The white point | ||
7805 | associated with the returned color specification is the Screen | ||
7806 | White Point. The value returned in the pixel member is | ||
7807 | undefined. | ||
7808 | |||
7809 | The XcmsQueryWhite function returns the color specification in | ||
7810 | the specified target format for full-intensity red, green, and | ||
7811 | blue. | ||
7812 | |||
7813 | CIELab Queries | ||
7814 | |||
7815 | The following equations are useful in describing the CIELab | ||
7816 | query functions: delim %% | ||
7817 | |||
7818 | %CIELab~Psychometric~Chroma ~=~ sqrt(a_star sup 2 ~+~ b_star sup 2 )% | ||
7819 | |||
7820 | %CIELab~Psychometric~Hue ~=~ tan sup -1 left [ b_star over a_star right | ||
7821 | ]% | ||
7822 | |||
7823 | To obtain the CIE L*a*b* coordinates of maximum Psychometric | ||
7824 | Chroma for a given Psychometric Hue Angle and CIE metric | ||
7825 | lightness (L*), use XcmsCIELabQueryMaxC. | ||
7826 | |||
7827 | Status XcmsCIELabQueryMaxC(XcmsCCC ccc, XcmsFloat hue_angle, | ||
7828 | XcmsFloat L_star, XcmsColor *color_return); | ||
7829 | |||
7830 | ccc | ||
7831 | |||
7832 | Specifies the CCC. The CCC's Client White Point and white point | ||
7833 | adjustment procedures are ignored. | ||
7834 | |||
7835 | hue_angle | ||
7836 | |||
7837 | Specifies the hue angle (in degrees) at which to find maximum | ||
7838 | chroma. | ||
7839 | |||
7840 | L_star | ||
7841 | |||
7842 | Specifies the lightness (L*) at which to find maximum chroma. | ||
7843 | |||
7844 | color_return | ||
7845 | |||
7846 | Returns the CIE L*a*b* coordinates of maximum chroma | ||
7847 | displayable by the screen for the given hue angle and | ||
7848 | lightness. The white point associated with the returned color | ||
7849 | specification is the Screen White Point. The value returned in | ||
7850 | the pixel member is undefined. | ||
7851 | |||
7852 | The XcmsCIELabQueryMaxC function, given a hue angle and | ||
7853 | lightness, finds the point of maximum chroma displayable by the | ||
7854 | screen. It returns this point in CIE L*a*b* coordinates. | ||
7855 | |||
7856 | To obtain the CIE L*a*b* coordinates of maximum CIE metric | ||
7857 | lightness (L*) for a given Psychometric Hue Angle and | ||
7858 | Psychometric Chroma, use XcmsCIELabQueryMaxL. | ||
7859 | |||
7860 | Status XcmsCIELabQueryMaxL(XcmsCCC ccc, XcmsFloat hue_angle, | ||
7861 | XcmsFloat chroma, XcmsColor *color_return); | ||
7862 | |||
7863 | ccc | ||
7864 | |||
7865 | Specifies the CCC. The CCC's Client White Point and white point | ||
7866 | adjustment procedures are ignored. | ||
7867 | |||
7868 | hue_angle | ||
7869 | |||
7870 | Specifies the hue angle (in degrees) at which to find maximum | ||
7871 | lightness. | ||
7872 | |||
7873 | chroma | ||
7874 | |||
7875 | Specifies the chroma at which to find maximum lightness. | ||
7876 | |||
7877 | color_return | ||
7878 | |||
7879 | Returns the CIE L*a*b* coordinates of maximum lightness | ||
7880 | displayable by the screen for the given hue angle and chroma. | ||
7881 | The white point associated with the returned color | ||
7882 | specification is the Screen White Point. The value returned in | ||
7883 | the pixel member is undefined. | ||
7884 | |||
7885 | The XcmsCIELabQueryMaxL function, given a hue angle and chroma, | ||
7886 | finds the point in CIE L*a*b* color space of maximum lightness | ||
7887 | (L*) displayable by the screen. It returns this point in CIE | ||
7888 | L*a*b* coordinates. An XcmsFailure return value usually | ||
7889 | indicates that the given chroma is beyond maximum for the given | ||
7890 | hue angle. | ||
7891 | |||
7892 | To obtain the CIE L*a*b* coordinates of maximum Psychometric | ||
7893 | Chroma for a given Psychometric Hue Angle, use | ||
7894 | XcmsCIELabQueryMaxLC. | ||
7895 | |||
7896 | Status XcmsCIELabQueryMaxLC(XcmsCCC ccc, XcmsFloat hue_angle, | ||
7897 | XcmsColor *color_return); | ||
7898 | |||
7899 | ccc | ||
7900 | |||
7901 | Specifies the CCC. The CCC's Client White Point and white point | ||
7902 | adjustment procedures are ignored. | ||
7903 | |||
7904 | hue_angle | ||
7905 | |||
7906 | Specifies the hue angle (in degrees) at which to find maximum | ||
7907 | chroma. | ||
7908 | |||
7909 | color_return | ||
7910 | |||
7911 | Returns the CIE L*a*b* coordinates of maximum chroma | ||
7912 | displayable by the screen for the given hue angle. The white | ||
7913 | point associated with the returned color specification is the | ||
7914 | Screen White Point. The value returned in the pixel member is | ||
7915 | undefined. | ||
7916 | |||
7917 | The XcmsCIELabQueryMaxLC function, given a hue angle, finds the | ||
7918 | point of maximum chroma displayable by the screen. It returns | ||
7919 | this point in CIE L*a*b* coordinates. | ||
7920 | |||
7921 | To obtain the CIE L*a*b* coordinates of minimum CIE metric | ||
7922 | lightness (L*) for a given Psychometric Hue Angle and | ||
7923 | Psychometric Chroma, use XcmsCIELabQueryMinL. | ||
7924 | |||
7925 | Status XcmsCIELabQueryMinL(XcmsCCC ccc, XcmsFloat hue_angle, | ||
7926 | XcmsFloat chroma, XcmsColor *color_return); | ||
7927 | |||
7928 | ccc | ||
7929 | |||
7930 | Specifies the CCC. The CCC's Client White Point and white point | ||
7931 | adjustment procedures are ignored. | ||
7932 | |||
7933 | hue_angle | ||
7934 | |||
7935 | Specifies the hue angle (in degrees) at which to find minimum | ||
7936 | lightness. | ||
7937 | |||
7938 | chroma | ||
7939 | |||
7940 | Specifies the chroma at which to find minimum lightness. | ||
7941 | |||
7942 | color_return | ||
7943 | |||
7944 | Returns the CIE L*a*b* coordinates of minimum lightness | ||
7945 | displayable by the screen for the given hue angle and chroma. | ||
7946 | The white point associated with the returned color | ||
7947 | specification is the Screen White Point. The value returned in | ||
7948 | the pixel member is undefined. | ||
7949 | |||
7950 | The XcmsCIELabQueryMinL function, given a hue angle and chroma, | ||
7951 | finds the point of minimum lightness (L*) displayable by the | ||
7952 | screen. It returns this point in CIE L*a*b* coordinates. An | ||
7953 | XcmsFailure return value usually indicates that the given | ||
7954 | chroma is beyond maximum for the given hue angle. | ||
7955 | |||
7956 | CIELuv Queries | ||
7957 | |||
7958 | The following equations are useful in describing the CIELuv | ||
7959 | query functions: delim %% | ||
7960 | |||
7961 | %CIELuv~Psychometric~Chroma ~=~ sqrt(u_star sup 2 ~+~ v_star sup 2 )% | ||
7962 | |||
7963 | %CIELuv~Psychometric~Hue ~=~ tan sup -1 left [ v_star over u_star right | ||
7964 | ]% | ||
7965 | |||
7966 | To obtain the CIE L*u*v* coordinates of maximum Psychometric | ||
7967 | Chroma for a given Psychometric Hue Angle and CIE metric | ||
7968 | lightness (L*), use XcmsCIELuvQueryMaxC. | ||
7969 | |||
7970 | Status XcmsCIELuvQueryMaxC(XcmsCCC ccc, XcmsFloat hue_angle, | ||
7971 | XcmsFloat L_star, XcmsColor *color_return); | ||
7972 | |||
7973 | ccc | ||
7974 | |||
7975 | Specifies the CCC. The CCC's Client White Point and white point | ||
7976 | adjustment procedures are ignored. | ||
7977 | |||
7978 | hue_angle | ||
7979 | |||
7980 | Specifies the hue angle (in degrees) at which to find maximum | ||
7981 | chroma. | ||
7982 | |||
7983 | L_star | ||
7984 | |||
7985 | Specifies the lightness (L*) at which to find maximum chroma. | ||
7986 | |||
7987 | color_return | ||
7988 | |||
7989 | Returns the CIE L*u*v* coordinates of maximum chroma | ||
7990 | displayable by the screen for the given hue angle and | ||
7991 | lightness. The white point associated with the returned color | ||
7992 | specification is the Screen White Point. The value returned in | ||
7993 | the pixel member is undefined. | ||
7994 | |||
7995 | The XcmsCIELuvQueryMaxC function, given a hue angle and | ||
7996 | lightness, finds the point of maximum chroma displayable by the | ||
7997 | screen. It returns this point in CIE L*u*v* coordinates. | ||
7998 | |||
7999 | To obtain the CIE L*u*v* coordinates of maximum CIE metric | ||
8000 | lightness (L*) for a given Psychometric Hue Angle and | ||
8001 | Psychometric Chroma, use XcmsCIELuvQueryMaxL. | ||
8002 | |||
8003 | Status XcmsCIELuvQueryMaxL(XcmsCCC ccc, XcmsFloat hue_angle, | ||
8004 | XcmsFloat chroma, XcmsColor *color_return); | ||
8005 | |||
8006 | ccc | ||
8007 | |||
8008 | Specifies the CCC. The CCC's Client White Point and white point | ||
8009 | adjustment procedures are ignored. | ||
8010 | |||
8011 | hue_angle | ||
8012 | |||
8013 | Specifies the hue angle (in degrees) at which to find maximum | ||
8014 | lightness. | ||
8015 | |||
8016 | L_star | ||
8017 | |||
8018 | Specifies the lightness (L*) at which to find maximum | ||
8019 | lightness. | ||
8020 | |||
8021 | color_return | ||
8022 | |||
8023 | Returns the CIE L*u*v* coordinates of maximum lightness | ||
8024 | displayable by the screen for the given hue angle and chroma. | ||
8025 | The white point associated with the returned color | ||
8026 | specification is the Screen White Point. The value returned in | ||
8027 | the pixel member is undefined. | ||
8028 | |||
8029 | The XcmsCIELuvQueryMaxL function, given a hue angle and chroma, | ||
8030 | finds the point in CIE L*u*v* color space of maximum lightness | ||
8031 | (L*) displayable by the screen. It returns this point in CIE | ||
8032 | L*u*v* coordinates. An XcmsFailure return value usually | ||
8033 | indicates that the given chroma is beyond maximum for the given | ||
8034 | hue angle. | ||
8035 | |||
8036 | To obtain the CIE L*u*v* coordinates of maximum Psychometric | ||
8037 | Chroma for a given Psychometric Hue Angle, use | ||
8038 | XcmsCIELuvQueryMaxLC. | ||
8039 | |||
8040 | Status XcmsCIELuvQueryMaxLC(XcmsCCC ccc, XcmsFloat hue_angle, | ||
8041 | XcmsColor *color_return); | ||
8042 | |||
8043 | ccc | ||
8044 | |||
8045 | Specifies the CCC. The CCC's Client White Point and white point | ||
8046 | adjustment procedures are ignored. | ||
8047 | |||
8048 | hue_angle | ||
8049 | |||
8050 | Specifies the hue angle (in degrees) at which to find maximum | ||
8051 | chroma. | ||
8052 | |||
8053 | color_return | ||
8054 | |||
8055 | Returns the CIE L*u*v* coordinates of maximum chroma | ||
8056 | displayable by the screen for the given hue angle. The white | ||
8057 | point associated with the returned color specification is the | ||
8058 | Screen White Point. The value returned in the pixel member is | ||
8059 | undefined. | ||
8060 | |||
8061 | The XcmsCIELuvQueryMaxLC function, given a hue angle, finds the | ||
8062 | point of maximum chroma displayable by the screen. It returns | ||
8063 | this point in CIE L*u*v* coordinates. | ||
8064 | |||
8065 | To obtain the CIE L*u*v* coordinates of minimum CIE metric | ||
8066 | lightness (L*) for a given Psychometric Hue Angle and | ||
8067 | Psychometric Chroma, use XcmsCIELuvQueryMinL. | ||
8068 | |||
8069 | Status XcmsCIELuvQueryMinL(XcmsCCC ccc, XcmsFloat hue_angle, | ||
8070 | XcmsFloat chroma, XcmsColor *color_return); | ||
8071 | |||
8072 | ccc | ||
8073 | |||
8074 | Specifies the CCC. The CCC's Client White Point and white point | ||
8075 | adjustment procedures are ignored. | ||
8076 | |||
8077 | hue_angle | ||
8078 | |||
8079 | Specifies the hue angle (in degrees) at which to find minimum | ||
8080 | lightness. | ||
8081 | |||
8082 | chroma | ||
8083 | |||
8084 | Specifies the chroma at which to find minimum lightness. | ||
8085 | |||
8086 | color_return | ||
8087 | |||
8088 | Returns the CIE L*u*v* coordinates of minimum lightness | ||
8089 | displayable by the screen for the given hue angle and chroma. | ||
8090 | The white point associated with the returned color | ||
8091 | specification is the Screen White Point. The value returned in | ||
8092 | the pixel member is undefined. | ||
8093 | |||
8094 | The XcmsCIELuvQueryMinL function, given a hue angle and chroma, | ||
8095 | finds the point of minimum lightness (L*) displayable by the | ||
8096 | screen. It returns this point in CIE L*u*v* coordinates. An | ||
8097 | XcmsFailure return value usually indicates that the given | ||
8098 | chroma is beyond maximum for the given hue angle. | ||
8099 | |||
8100 | TekHVC Queries | ||
8101 | |||
8102 | To obtain the maximum Chroma for a given Hue and Value, use | ||
8103 | XcmsTekHVCQueryMaxC. | ||
8104 | |||
8105 | Status XcmsTekHVCQueryMaxC(XcmsCCC ccc, XcmsFloat hue, | ||
8106 | XcmsFloat value, XcmsColor *color_return); | ||
8107 | |||
8108 | ccc | ||
8109 | |||
8110 | Specifies the CCC. The CCC's Client White Point and white point | ||
8111 | adjustment procedures are ignored. | ||
8112 | |||
8113 | hue | ||
8114 | |||
8115 | Specifies the Hue in which to find the maximum Chroma. | ||
8116 | |||
8117 | value | ||
8118 | |||
8119 | Specifies the Value in which to find the maximum Chroma. | ||
8120 | |||
8121 | color_return | ||
8122 | |||
8123 | Returns the maximum Chroma along with the actual Hue and Value | ||
8124 | at which the maximum Chroma was found. The white point | ||
8125 | associated with the returned color specification is the Screen | ||
8126 | White Point. The value returned in the pixel member is | ||
8127 | undefined. | ||
8128 | |||
8129 | The XcmsTekHVCQueryMaxC function, given a Hue and Value, | ||
8130 | determines the maximum Chroma in TekHVC color space displayable | ||
8131 | by the screen. It returns the maximum Chroma along with the | ||
8132 | actual Hue and Value at which the maximum Chroma was found. | ||
8133 | |||
8134 | To obtain the maximum Value for a given Hue and Chroma, use | ||
8135 | XcmsTekHVCQueryMaxV. | ||
8136 | |||
8137 | Status XcmsTekHVCQueryMaxV(XcmsCCC ccc, XcmsFloat hue, | ||
8138 | XcmsFloat chroma, XcmsColor *color_return); | ||
8139 | |||
8140 | ccc | ||
8141 | |||
8142 | Specifies the CCC. The CCC's Client White Point and white point | ||
8143 | adjustment procedures are ignored. | ||
8144 | |||
8145 | hue | ||
8146 | |||
8147 | Specifies the Hue in which to find the maximum Value. | ||
8148 | |||
8149 | chroma | ||
8150 | |||
8151 | Specifies the chroma at which to find maximum Value. | ||
8152 | |||
8153 | color_return | ||
8154 | |||
8155 | Returns the maximum Value along with the Hue and Chroma at | ||
8156 | which the maximum Value was found. The white point associated | ||
8157 | with the returned color specification is the Screen White | ||
8158 | Point. The value returned in the pixel member is undefined. | ||
8159 | |||
8160 | The XcmsTekHVCQueryMaxV function, given a Hue and Chroma, | ||
8161 | determines the maximum Value in TekHVC color space displayable | ||
8162 | by the screen. It returns the maximum Value and the actual Hue | ||
8163 | and Chroma at which the maximum Value was found. | ||
8164 | |||
8165 | To obtain the maximum Chroma and Value at which it is reached | ||
8166 | for a specified Hue, use XcmsTekHVCQueryMaxVC. | ||
8167 | |||
8168 | Status XcmsTekHVCQueryMaxVC(XcmsCCC ccc, XcmsFloat hue, | ||
8169 | XcmsColor *color_return); | ||
8170 | |||
8171 | ccc | ||
8172 | |||
8173 | Specifies the CCC. The CCC's Client White Point and white point | ||
8174 | adjustment procedures are ignored. | ||
8175 | |||
8176 | hue | ||
8177 | |||
8178 | Specifies the Hue in which to find the maximum Chroma. | ||
8179 | |||
8180 | color_return | ||
8181 | |||
8182 | Returns the color specification in XcmsTekHVC for the maximum | ||
8183 | Chroma, the Value at which that maximum Chroma is reached, and | ||
8184 | the actual Hue at which the maximum Chroma was found. The white | ||
8185 | point associated with the returned color specification is the | ||
8186 | Screen White Point. The value returned in the pixel member is | ||
8187 | undefined. | ||
8188 | |||
8189 | The XcmsTekHVCQueryMaxVC function, given a Hue, determines the | ||
8190 | maximum Chroma in TekHVC color space displayable by the screen | ||
8191 | and the Value at which that maximum Chroma is reached. It | ||
8192 | returns the maximum Chroma, the Value at which that maximum | ||
8193 | Chroma is reached, and the actual Hue for which the maximum | ||
8194 | Chroma was found. | ||
8195 | |||
8196 | To obtain a specified number of TekHVC specifications such that | ||
8197 | they contain maximum Values for a specified Hue and the Chroma | ||
8198 | at which the maximum Values are reached, use | ||
8199 | XcmsTekHVCQueryMaxVSamples. | ||
8200 | |||
8201 | Status XcmsTekHVCQueryMaxVSamples(XcmsCCC ccc, XcmsFloat hue, | ||
8202 | XcmsColor colors_return[], unsigned int nsamples); | ||
8203 | |||
8204 | ccc | ||
8205 | |||
8206 | Specifies the CCC. The CCC's Client White Point and white point | ||
8207 | adjustment procedures are ignored. | ||
8208 | |||
8209 | hue | ||
8210 | |||
8211 | Specifies the Hue for maximum Chroma/Value samples. | ||
8212 | |||
8213 | nsamples | ||
8214 | |||
8215 | Specifies the number of samples. | ||
8216 | |||
8217 | colors_return | ||
8218 | |||
8219 | Returns nsamples of color specifications in XcmsTekHVC such | ||
8220 | that the Chroma is the maximum attainable for the Value and | ||
8221 | Hue. The white point associated with the returned color | ||
8222 | specification is the Screen White Point. The value returned in | ||
8223 | the pixel member is undefined. | ||
8224 | |||
8225 | The XcmsTekHVCQueryMaxVSamples returns nsamples of maximum | ||
8226 | Value, the Chroma at which that maximum Value is reached, and | ||
8227 | the actual Hue for which the maximum Chroma was found. These | ||
8228 | sample points may then be used to plot the maximum Value/Chroma | ||
8229 | boundary of the screen's color gamut for the specified Hue in | ||
8230 | TekHVC color space. | ||
8231 | |||
8232 | To obtain the minimum Value for a given Hue and Chroma, use | ||
8233 | XcmsTekHVCQueryMinV. | ||
8234 | |||
8235 | Status XcmsTekHVCQueryMinV(XcmsCCC ccc, XcmsFloat hue, | ||
8236 | XcmsFloat chroma, XcmsColor *color_return); | ||
8237 | |||
8238 | ccc | ||
8239 | |||
8240 | Specifies the CCC. The CCC's Client White Point and white point | ||
8241 | adjustment procedures are ignored. | ||
8242 | |||
8243 | hue | ||
8244 | |||
8245 | Specifies the Hue in which to find the minimum Value. | ||
8246 | |||
8247 | value | ||
8248 | |||
8249 | Specifies the Value in which to find the minimum Value. | ||
8250 | |||
8251 | color_return | ||
8252 | |||
8253 | Returns the minimum Value and the actual Hue and Chroma at | ||
8254 | which the minimum Value was found. The white point associated | ||
8255 | with the returned color specification is the Screen White | ||
8256 | Point. The value returned in the pixel member is undefined. | ||
8257 | |||
8258 | The XcmsTekHVCQueryMinV function, given a Hue and Chroma, | ||
8259 | determines the minimum Value in TekHVC color space displayable | ||
8260 | by the screen. It returns the minimum Value and the actual Hue | ||
8261 | and Chroma at which the minimum Value was found. | ||
8262 | |||
8263 | Color Management Extensions | ||
8264 | |||
8265 | The Xlib color management facilities can be extended in two | ||
8266 | ways: | ||
8267 | * Device-Independent Color Spaces | ||
8268 | * Device-independent color spaces that are derivable to CIE | ||
8269 | XYZ space can be added using the XcmsAddColorSpace | ||
8270 | function. | ||
8271 | * Color Characterization Function Set | ||
8272 | * A Color Characterization Function Set consists of | ||
8273 | device-dependent color spaces and their functions that | ||
8274 | convert between these color spaces and the CIE XYZ color | ||
8275 | space, bundled together for a specific class of output | ||
8276 | devices. A function set can be added using the | ||
8277 | XcmsAddFunctionSet function. | ||
8278 | |||
8279 | Color Spaces | ||
8280 | |||
8281 | The CIE XYZ color space serves as the hub for all conversions | ||
8282 | between device-independent and device-dependent color spaces. | ||
8283 | Therefore, the knowledge to convert an XcmsColor structure to | ||
8284 | and from CIE XYZ format is associated with each color space. | ||
8285 | For example, conversion from CIE L*u*v* to RGB requires the | ||
8286 | knowledge to convert from CIE L*u*v* to CIE XYZ and from CIE | ||
8287 | XYZ to RGB. This knowledge is stored as an array of functions | ||
8288 | that, when applied in series, will convert the XcmsColor | ||
8289 | structure to or from CIE XYZ format. This color specification | ||
8290 | conversion mechanism facilitates the addition of color spaces. | ||
8291 | |||
8292 | Of course, when converting between only device-independent | ||
8293 | color spaces or only device-dependent color spaces, shortcuts | ||
8294 | are taken whenever possible. For example, conversion from | ||
8295 | TekHVC to CIE L*u*v* is performed by intermediate conversion to | ||
8296 | CIE u*v*Y and then to CIE L*u*v*, thus bypassing conversion | ||
8297 | between CIE u*v*Y and CIE XYZ. | ||
8298 | |||
8299 | Adding Device-Independent Color Spaces | ||
8300 | |||
8301 | To add a device-independent color space, use XcmsAddColorSpace. | ||
8302 | |||
8303 | Status XcmsAddColorSpace(XcmsColorSpace *color_space); | ||
8304 | |||
8305 | color_space | ||
8306 | |||
8307 | Specifies the device-independent color space to add. | ||
8308 | |||
8309 | The XcmsAddColorSpace function makes a device-independent color | ||
8310 | space (actually an XcmsColorSpace structure) accessible by the | ||
8311 | color management system. Because format values for unregistered | ||
8312 | color spaces are assigned at run time, they should be treated | ||
8313 | as private to the client. If references to an unregistered | ||
8314 | color space must be made outside the client (for example, | ||
8315 | storing color specifications in a file using the unregistered | ||
8316 | color space), then reference should be made by color space | ||
8317 | prefix (see XcmsFormatOfPrefix and XcmsPrefixOfFormat). | ||
8318 | |||
8319 | If the XcmsColorSpace structure is already accessible in the | ||
8320 | color management system, XcmsAddColorSpace returns XcmsSuccess. | ||
8321 | |||
8322 | Note that added XcmsColorSpaces must be retained for reference | ||
8323 | by Xlib. | ||
8324 | |||
8325 | Querying Color Space Format and Prefix | ||
8326 | |||
8327 | To obtain the format associated with the color space associated | ||
8328 | with a specified color string prefix, use XcmsFormatOfPrefix. | ||
8329 | |||
8330 | XcmsColorFormat XcmsFormatOfPrefix(char *prefix); | ||
8331 | |||
8332 | prefix | ||
8333 | |||
8334 | Specifies the string that contains the color space prefix. | ||
8335 | |||
8336 | The XcmsFormatOfPrefix function returns the format for the | ||
8337 | specified color space prefix (for example, the string | ||
8338 | ``CIEXYZ''). The prefix is case-insensitive. If the color space | ||
8339 | is not accessible in the color management system, | ||
8340 | XcmsFormatOfPrefix returns XcmsUndefinedFormat. | ||
8341 | |||
8342 | To obtain the color string prefix associated with the color | ||
8343 | space specified by a color format, use XcmsPrefixOfFormat. | ||
8344 | |||
8345 | char *XcmsPrefixOfFormat(XcmsColorFormat format); | ||
8346 | |||
8347 | format | ||
8348 | |||
8349 | Specifies the color specification format. | ||
8350 | |||
8351 | The XcmsPrefixOfFormat function returns the string prefix | ||
8352 | associated with the color specification encoding specified by | ||
8353 | the format argument. Otherwise, if no encoding is found, it | ||
8354 | returns NULL. The returned string must be treated as read-only. | ||
8355 | |||
8356 | Creating Additional Color Spaces | ||
8357 | |||
8358 | Color space specific information necessary for color space | ||
8359 | conversion and color string parsing is stored in an | ||
8360 | XcmsColorSpace structure. Therefore, a new structure containing | ||
8361 | this information is required for each additional color space. | ||
8362 | In the case of device-independent color spaces, a handle to | ||
8363 | this new structure (that is, by means of a global variable) is | ||
8364 | usually made accessible to the client program for use with the | ||
8365 | XcmsAddColorSpace function. | ||
8366 | |||
8367 | If a new XcmsColorSpace structure specifies a color space not | ||
8368 | registered with the X Consortium, they should be treated as | ||
8369 | private to the client because format values for unregistered | ||
8370 | color spaces are assigned at run time. If references to an | ||
8371 | unregistered color space must be made outside the client (for | ||
8372 | example, storing color specifications in a file using the | ||
8373 | unregistered color space), then reference should be made by | ||
8374 | color space prefix (see XcmsFormatOfPrefix and | ||
8375 | XcmsPrefixOfFormat). | ||
8376 | |||
8377 | |||
8378 | |||
8379 | typedef (*XcmsConversionProc)(); | ||
8380 | typedef XcmsConversionProc *XcmsFuncListPtr; | ||
8381 | /* A NULL terminated list of function pointers*/ | ||
8382 | |||
8383 | typedef struct _XcmsColorSpace { | ||
8384 | char *prefix; | ||
8385 | XcmsColorFormat format; | ||
8386 | XcmsParseStringProc parseString; | ||
8387 | XcmsFuncListPtr to_CIEXYZ; | ||
8388 | XcmsFuncListPtr from_CIEXYZ; | ||
8389 | int inverse_flag; | ||
8390 | } XcmsColorSpace; | ||
8391 | |||
8392 | The prefix member specifies the prefix that indicates a color | ||
8393 | string is in this color space's string format. For example, the | ||
8394 | strings ``ciexyz'' or ``CIEXYZ'' for CIE XYZ, and ``rgb'' or | ||
8395 | ``RGB'' for RGB. The prefix is case insensitive. The format | ||
8396 | member specifies the color specification format. Formats for | ||
8397 | unregistered color spaces are assigned at run time. The | ||
8398 | parseString member contains a pointer to the function that can | ||
8399 | parse a color string into an XcmsColor structure. This function | ||
8400 | returns an integer (int): nonzero if it succeeded and zero | ||
8401 | otherwise. The to_CIEXYZ and from_CIEXYZ members contain | ||
8402 | pointers, each to a NULL terminated list of function pointers. | ||
8403 | When the list of functions is executed in series, it will | ||
8404 | convert the color specified in an XcmsColor structure from/to | ||
8405 | the current color space format to/from the CIE XYZ format. Each | ||
8406 | function returns an integer (int): nonzero if it succeeded and | ||
8407 | zero otherwise. The white point to be associated with the | ||
8408 | colors is specified explicitly, even though white points can be | ||
8409 | found in the CCC. The inverse_flag member, if nonzero, | ||
8410 | specifies that for each function listed in to_CIEXYZ, its | ||
8411 | inverse function can be found in from_CIEXYZ such that: | ||
8412 | |||
8413 | Given: n = number of functions in each list | ||
8414 | |||
8415 | for each i, such that 0 <= i < n | ||
8416 | from_CIEXYZ[n - i - 1] is the inverse of to_CIEXYZ[i]. | ||
8417 | |||
8418 | This allows Xlib to use the shortest conversion path, thus | ||
8419 | bypassing CIE XYZ if possible (for example, TekHVC to CIE | ||
8420 | L*u*v*). | ||
8421 | |||
8422 | Parse String Callback | ||
8423 | |||
8424 | The callback in the XcmsColorSpace structure for parsing a | ||
8425 | color string for the particular color space must adhere to the | ||
8426 | following software interface specification: | ||
8427 | |||
8428 | Status XcmsParseStringProc(char *color_string, XcmsColor | ||
8429 | *color_return); | ||
8430 | |||
8431 | color_string | ||
8432 | |||
8433 | Specifies the color string to parse. | ||
8434 | |||
8435 | color_return | ||
8436 | |||
8437 | Returns the color specification in the color space's format. | ||
8438 | |||
8439 | Color Specification Conversion Callback | ||
8440 | |||
8441 | Callback functions in the XcmsColorSpace structure for | ||
8442 | converting a color specification between device-independent | ||
8443 | spaces must adhere to the following software interface | ||
8444 | specification: | ||
8445 | |||
8446 | Status ConversionProc(XcmsCCC ccc, XcmsColor *white_point, | ||
8447 | XcmsColor *colors_in_out, unsigned int ncolors); | ||
8448 | |||
8449 | ccc | ||
8450 | |||
8451 | Specifies the CCC. | ||
8452 | |||
8453 | white_point | ||
8454 | |||
8455 | Specifies the white point associated with color specifications. | ||
8456 | The pixel member should be ignored, and the entire structure | ||
8457 | remain unchanged upon return. | ||
8458 | |||
8459 | colors_in_out | ||
8460 | |||
8461 | Specifies an array of color specifications. Pixel members | ||
8462 | should be ignored and must remain unchanged upon return. | ||
8463 | |||
8464 | ncolors | ||
8465 | |||
8466 | Specifies the number of XcmsColor structures in the | ||
8467 | color-specification array. | ||
8468 | |||
8469 | Callback functions in the XcmsColorSpace structure for | ||
8470 | converting a color specification to or from a device-dependent | ||
8471 | space must adhere to the following software interface | ||
8472 | specification: | ||
8473 | |||
8474 | Status ConversionProc(XcmsCCC ccc, XcmsColor *colors_in_out, | ||
8475 | unsigned int ncolors, Bool compression_flags_return[]); | ||
8476 | |||
8477 | ccc | ||
8478 | |||
8479 | Specifies the CCC. | ||
8480 | |||
8481 | colors_in_out | ||
8482 | |||
8483 | Specifies an array of color specifications. Pixel members | ||
8484 | should be ignored and must remain unchanged upon return. | ||
8485 | |||
8486 | ncolors | ||
8487 | |||
8488 | Specifies the number of XcmsColor structures in the | ||
8489 | color-specification array. | ||
8490 | |||
8491 | compression_flags_return | ||
8492 | |||
8493 | Returns an array of Boolean values for indicating compression | ||
8494 | status. If a non-NULL pointer is supplied and a color at a | ||
8495 | given index is compressed, then True should be stored at the | ||
8496 | corresponding index in this array; otherwise, the array should | ||
8497 | not be modified. | ||
8498 | |||
8499 | Conversion functions are available globally for use by other | ||
8500 | color spaces. The conversion functions provided by Xlib are: | ||
8501 | Function Converts from Converts to | ||
8502 | XcmsCIELabToCIEXYZ XcmsCIELabFormat XcmsCIEXYZFormat | ||
8503 | XcmsCIELuvToCIEuvY XcmsCIELuvFormat XcmsCIEuvYFormat | ||
8504 | XcmsCIEXYZToCIELab XcmsCIEXYZFormat XcmsCIELabFormat | ||
8505 | XcmsCIEXYZToCIEuvY XcmsCIEXYZFormat XcmsCIEuvYFormat | ||
8506 | XcmsCIEXYZToCIExyY XcmsCIEXYZFormat XcmsCIExyYFormat | ||
8507 | XcmsCIEXYZToRGBi XcmsCIEXYZFormat XcmsRGBiFormat | ||
8508 | XcmsCIEuvYToCIELuv XcmsCIEuvYFormat XcmsCIELabFormat | ||
8509 | XcmsCIEuvYToCIEXYZ XcmsCIEuvYFormat XcmsCIEXYZFormat | ||
8510 | XcmsCIEuvYToTekHVC XcmsCIEuvYFormat XcmsTekHVCFormat | ||
8511 | XcmsCIExyYToCIEXYZ XcmsCIExyYFormat XcmsCIEXYZFormat | ||
8512 | XcmsRGBToRGBi XcmsRGBFormat XcmsRGBiFormat | ||
8513 | XcmsRGBiToCIEXYZ XcmsRGBiFormat XcmsCIEXYZFormat | ||
8514 | XcmsRGBiToRGB XcmsRGBiFormat XcmsRGBFormat | ||
8515 | XcmsTekHVCToCIEuvY XcmsTekHVCFormat XcmsCIEuvYFormat | ||
8516 | |||
8517 | Function Sets | ||
8518 | |||
8519 | Functions to convert between device-dependent color spaces and | ||
8520 | CIE XYZ may differ for different classes of output devices (for | ||
8521 | example, color versus gray monitors). Therefore, the notion of | ||
8522 | a Color Characterization Function Set has been developed. A | ||
8523 | function set consists of device-dependent color spaces and the | ||
8524 | functions that convert color specifications between these | ||
8525 | device-dependent color spaces and the CIE XYZ color space | ||
8526 | appropriate for a particular class of output devices. The | ||
8527 | function set also contains a function that reads color | ||
8528 | characterization data off root window properties. It is this | ||
8529 | characterization data that will differ between devices within a | ||
8530 | class of output devices. For details about how color | ||
8531 | characterization data is stored in root window properties, see | ||
8532 | the section on Device Color Characterization in the | ||
8533 | Inter-Client Communication Conventions Manual. The LINEAR_RGB | ||
8534 | function set is provided by Xlib and will support most color | ||
8535 | monitors. Function sets may require data that differs from | ||
8536 | those needed for the LINEAR_RGB function set. In that case, its | ||
8537 | corresponding data may be stored on different root window | ||
8538 | properties. | ||
8539 | |||
8540 | Adding Function Sets | ||
8541 | |||
8542 | To add a function set, use XcmsAddFunctionSet. | ||
8543 | |||
8544 | Status XcmsAddFunctionSet(XcmsFunctionSet *function_set); | ||
8545 | |||
8546 | function_set | ||
8547 | |||
8548 | Specifies the function set to add. | ||
8549 | |||
8550 | The XcmsAddFunctionSet function adds a function set to the | ||
8551 | color management system. If the function set uses | ||
8552 | device-dependent XcmsColorSpace structures not accessible in | ||
8553 | the color management system, XcmsAddFunctionSet adds them. If | ||
8554 | an added XcmsColorSpace structure is for a device-dependent | ||
8555 | color space not registered with the X Consortium, they should | ||
8556 | be treated as private to the client because format values for | ||
8557 | unregistered color spaces are assigned at run time. If | ||
8558 | references to an unregistered color space must be made outside | ||
8559 | the client (for example, storing color specifications in a file | ||
8560 | using the unregistered color space), then reference should be | ||
8561 | made by color space prefix (see XcmsFormatOfPrefix and | ||
8562 | XcmsPrefixOfFormat). | ||
8563 | |||
8564 | Additional function sets should be added before any calls to | ||
8565 | other Xlib routines are made. If not, the XcmsPerScrnInfo | ||
8566 | member of a previously created XcmsCCC does not have the | ||
8567 | opportunity to initialize with the added function set. | ||
8568 | |||
8569 | Creating Additional Function Sets | ||
8570 | |||
8571 | The creation of additional function sets should be required | ||
8572 | only when an output device does not conform to existing | ||
8573 | function sets or when additional device-dependent color spaces | ||
8574 | are necessary. A function set consists primarily of a | ||
8575 | collection of device-dependent XcmsColorSpace structures and a | ||
8576 | means to read and store a screen's color characterization data. | ||
8577 | This data is stored in an XcmsFunctionSet structure. A handle | ||
8578 | to this structure (that is, by means of global variable) is | ||
8579 | usually made accessible to the client program for use with | ||
8580 | XcmsAddFunctionSet. | ||
8581 | |||
8582 | If a function set uses new device-dependent XcmsColorSpace | ||
8583 | structures, they will be transparently processed into the color | ||
8584 | management system. Function sets can share an XcmsColorSpace | ||
8585 | structure for a device-dependent color space. In addition, | ||
8586 | multiple XcmsColorSpace structures are allowed for a | ||
8587 | device-dependent color space; however, a function set can | ||
8588 | reference only one of them. These XcmsColorSpace structures | ||
8589 | will differ in the functions to convert to and from CIE XYZ, | ||
8590 | thus tailored for the specific function set. | ||
8591 | |||
8592 | |||
8593 | |||
8594 | typedef struct _XcmsFunctionSet { | ||
8595 | XcmsColorSpace **DDColorSpaces; | ||
8596 | XcmsScreenInitProc screenInitProc; | ||
8597 | XcmsScreenFreeProc screenFreeProc; | ||
8598 | } XcmsFunctionSet; | ||
8599 | |||
8600 | The DDColorSpaces member is a pointer to a NULL terminated list | ||
8601 | of pointers to XcmsColorSpace structures for the | ||
8602 | device-dependent color spaces that are supported by the | ||
8603 | function set. The screenInitProc member is set to the callback | ||
8604 | procedure (see the following interface specification) that | ||
8605 | initializes the XcmsPerScrnInfo structure for a particular | ||
8606 | screen. | ||
8607 | |||
8608 | The screen initialization callback must adhere to the following | ||
8609 | software interface specification: | ||
8610 | |||
8611 | typedef Status (*XcmsScreenInitProc)(Display *display, int | ||
8612 | screen_number, ScmsPerScrnInfo *screen_info); | ||
8613 | |||
8614 | display | ||
8615 | |||
8616 | Specifies the connection to the X server. | ||
8617 | |||
8618 | screen_number | ||
8619 | |||
8620 | Specifies the appropriate screen number on the host server. | ||
8621 | |||
8622 | screen_info | ||
8623 | |||
8624 | Specifies the XcmsPerScrnInfo structure, which contains the per | ||
8625 | screen information. | ||
8626 | |||
8627 | The screen initialization callback in the XcmsFunctionSet | ||
8628 | structure fetches the color characterization data (device | ||
8629 | profile) for the specified screen, typically off properties on | ||
8630 | the screen's root window. It then initializes the specified | ||
8631 | XcmsPerScrnInfo structure. If successful, the procedure fills | ||
8632 | in the XcmsPerScrnInfo structure as follows: | ||
8633 | * It sets the screenData member to the address of the created | ||
8634 | device profile data structure (contents known only by the | ||
8635 | function set). | ||
8636 | * It next sets the screenWhitePoint member. | ||
8637 | * It next sets the functionSet member to the address of the | ||
8638 | XcmsFunctionSet structure. | ||
8639 | * It then sets the state member to XcmsInitSuccess and | ||
8640 | finally returns XcmsSuccess. | ||
8641 | |||
8642 | If unsuccessful, the procedure sets the state member to | ||
8643 | XcmsInitFailure and returns XcmsFailure. | ||
8644 | |||
8645 | The XcmsPerScrnInfo structure contains: | ||
8646 | |||
8647 | |||
8648 | |||
8649 | typedef struct _XcmsPerScrnInfo { | ||
8650 | XcmsColor screenWhitePoint; | ||
8651 | XPointer functionSet; | ||
8652 | XPointer screenData; | ||
8653 | unsigned char state; | ||
8654 | char pad[3]; | ||
8655 | } XcmsPerScrnInfo; | ||
8656 | |||
8657 | The screenWhitePoint member specifies the white point inherent | ||
8658 | to the screen. The functionSet member specifies the appropriate | ||
8659 | function set. The screenData member specifies the device | ||
8660 | profile. The state member is set to one of the following: | ||
8661 | * XcmsInitNone indicates initialization has not been | ||
8662 | previously attempted. | ||
8663 | * XcmsInitFailure indicates initialization has been | ||
8664 | previously attempted but failed. | ||
8665 | * XcmsInitSuccess indicates initialization has been | ||
8666 | previously attempted and succeeded. | ||
8667 | |||
8668 | The screen free callback must adhere to the following software | ||
8669 | interface specification: | ||
8670 | |||
8671 | typedef void (*XcmsScreenFreeProc)(XPointer screenData); | ||
8672 | |||
8673 | screenData | ||
8674 | |||
8675 | Specifies the data to be freed. | ||
8676 | |||
8677 | This function is called to free the screenData stored in an | ||
8678 | XcmsPerScrnInfo structure. | ||
8679 | |||
8680 | Chapter 7. Graphics Context Functions | ||
8681 | |||
8682 | Table of Contents | ||
8683 | |||
8684 | Manipulating Graphics Context/State | ||
8685 | Using Graphics Context Convenience Routines | ||
8686 | |||
8687 | Setting the Foreground, Background, Function, or Plane | ||
8688 | Mask | ||
8689 | |||
8690 | Setting the Line Attributes and Dashes | ||
8691 | Setting the Fill Style and Fill Rule | ||
8692 | Setting the Fill Tile and Stipple | ||
8693 | Setting the Current Font | ||
8694 | Setting the Clip Region | ||
8695 | Setting the Arc Mode, Subwindow Mode, and Graphics | ||
8696 | Exposure | ||
8697 | |||
8698 | A number of resources are used when performing graphics | ||
8699 | operations in X. Most information about performing graphics | ||
8700 | (for example, foreground color, background color, line style, | ||
8701 | and so on) is stored in resources called graphics contexts | ||
8702 | (GCs). Most graphics operations (see chapter 8) take a GC as an | ||
8703 | argument. Although in theory the X protocol permits sharing of | ||
8704 | GCs between applications, it is expected that applications will | ||
8705 | use their own GCs when performing operations. Sharing of GCs is | ||
8706 | highly discouraged because the library may cache GC state. | ||
8707 | |||
8708 | Graphics operations can be performed to either windows or | ||
8709 | pixmaps, which collectively are called drawables. Each drawable | ||
8710 | exists on a single screen. A GC is created for a specific | ||
8711 | screen and drawable depth and can only be used with drawables | ||
8712 | of matching screen and depth. | ||
8713 | |||
8714 | This chapter discusses how to: | ||
8715 | * Manipulate graphics context/state | ||
8716 | * Use graphics context convenience functions | ||
8717 | |||
8718 | Manipulating Graphics Context/State | ||
8719 | |||
8720 | Most attributes of graphics operations are stored in GCs. These | ||
8721 | include line width, line style, plane mask, foreground, | ||
8722 | background, tile, stipple, clipping region, end style, join | ||
8723 | style, and so on. Graphics operations (for example, drawing | ||
8724 | lines) use these values to determine the actual drawing | ||
8725 | operation. Extensions to X may add additional components to | ||
8726 | GCs. The contents of a GC are private to Xlib. | ||
8727 | |||
8728 | Xlib implements a write-back cache for all elements of a GC | ||
8729 | that are not resource IDs to allow Xlib to implement the | ||
8730 | transparent coalescing of changes to GCs. For example, a call | ||
8731 | to XSetForeground of a GC followed by a call to | ||
8732 | XSetLineAttributes results in only a single-change GC protocol | ||
8733 | request to the server. GCs are neither expected nor encouraged | ||
8734 | to be shared between client applications, so this write-back | ||
8735 | caching should present no problems. Applications cannot share | ||
8736 | GCs without external synchronization. Therefore, sharing GCs | ||
8737 | between applications is highly discouraged. | ||
8738 | |||
8739 | To set an attribute of a GC, set the appropriate member of the | ||
8740 | XGCValues structure and OR in the corresponding value bitmask | ||
8741 | in your subsequent calls to XCreateGC. The symbols for the | ||
8742 | value mask bits and the XGCValues structure are: | ||
8743 | /* GC attribute value mask bits */ | ||
8744 | |||
8745 | #define GCFunction (1L<<0) | ||
8746 | #define GCPlaneMask (1L<<1) | ||
8747 | #define GCForeground (1L<<2) | ||
8748 | #define GCBackground (1L<<3) | ||
8749 | #define GCLineWidth (1L<<4) | ||
8750 | #define GCLineStyle (1L<<5) | ||
8751 | #define GCCapStyle (1L<<6) | ||
8752 | #define GCJoinStyle (1L<<7) | ||
8753 | #define GCFillStyle (1L<<8) | ||
8754 | #define GCFillRule (1L<<9) | ||
8755 | #define GCTile (1L<<10) | ||
8756 | #define GCStipple (1L<<11) | ||
8757 | #define GCTileStipXOrigin (1L<<12) | ||
8758 | #define GCTileStipYOrigin (1L<<13) | ||
8759 | #define GCFont (1L<<14) | ||
8760 | #define GCSubwindowMode (1L<<15) | ||
8761 | #define GCGraphicsExposures (1L<<16) | ||
8762 | #define GCClipXOrigin (1L<<17) | ||
8763 | #define GCClipYOrigin (1L<<18) | ||
8764 | #define GCClipMask (1L<<19) | ||
8765 | #define GCDashOffset (1L<<20) | ||
8766 | #define GCDashList (1L<<21) | ||
8767 | #define GCArcMode (1L<<22) | ||
8768 | |||
8769 | |||
8770 | |||
8771 | /* Values */ | ||
8772 | |||
8773 | typedef struct { | ||
8774 | int function; /* logical operation */ | ||
8775 | unsigned long plane_mask; /* plane mask */ | ||
8776 | unsigned long foreground; /* foreground pixel */ | ||
8777 | unsigned long background; /* background pixel */ | ||
8778 | int line_width; /* line width (in pixels) */ | ||
8779 | int line_style; /* LineSolid, LineOnOffDash, LineDoub | ||
8780 | leDash */ | ||
8781 | int cap_style; /* CapNotLast, CapButt, CapRound, Cap | ||
8782 | Projecting */ | ||
8783 | int join_style; /* JoinMiter, JoinRound, JoinBevel */ | ||
8784 | int fill_style; /* FillSolid, FillTiled, FillStippled | ||
8785 | FillOpaqueStippled*/ | ||
8786 | int fill_rule; /* EvenOddRule, WindingRule */ | ||
8787 | int arc_mode; /* ArcChord, ArcPieSlice */ | ||
8788 | Pixmap tile; /* tile pixmap for tiling operations | ||
8789 | */ | ||
8790 | Pixmap stipple; /* stipple 1 plane pixmap for stippli | ||
8791 | ng */ | ||
8792 | int ts_x_origin; /* offset for tile or stipple operati | ||
8793 | ons */ | ||
8794 | int ts_y_origin | ||
8795 | Font font; /* default text font for text operati | ||
8796 | ons */ | ||
8797 | int subwindow_mode; /* ClipByChildren, IncludeInferiors * | ||
8798 | / | ||
8799 | Bool graphics_exposures; /* boolean, should exposures be gener | ||
8800 | ated */ | ||
8801 | int clip_x_origin; /* origin for clipping */ | ||
8802 | int clip_y_origin; | ||
8803 | Pixmap clip_mask; /* bitmap clipping; other calls for r | ||
8804 | ects */ | ||
8805 | int dash_offset; /* patterned/dashed line information | ||
8806 | */ | ||
8807 | char dashes; | ||
8808 | } XGCValues; | ||
8809 | |||
8810 | The default GC values are: | ||
8811 | Component Default | ||
8812 | function GXcopy | ||
8813 | plane_mask All ones | ||
8814 | foreground 0 | ||
8815 | background 1 | ||
8816 | line_width 0 | ||
8817 | line_style LineSolid | ||
8818 | cap_style CapButt | ||
8819 | join_style JoinMiter | ||
8820 | fill_style FillSolid | ||
8821 | fill_rule EvenOddRule | ||
8822 | arc_mode ArcPieSlice | ||
8823 | tile | ||
8824 | |||
8825 | Pixmap of unspecified size filled with foreground pixel | ||
8826 | |||
8827 | (that is, client specified pixel if any, else 0) | ||
8828 | |||
8829 | (subsequent changes to foreground do not affect this pixmap) | ||
8830 | stipple Pixmap of unspecified size filled with ones | ||
8831 | ts_x_origin 0 | ||
8832 | ts_y_origin 0 | ||
8833 | font <implementation dependent> | ||
8834 | subwindow_mode ClipByChildren | ||
8835 | graphics_exposures True | ||
8836 | clip_x_origin 0 | ||
8837 | clip_y_origin 0 | ||
8838 | clip_mask None | ||
8839 | dash_offset 0 | ||
8840 | dashes 4 (that is, the list [4, 4]) | ||
8841 | |||
8842 | Note that foreground and background are not set to any values | ||
8843 | likely to be useful in a window. | ||
8844 | |||
8845 | The function attributes of a GC are used when you update a | ||
8846 | section of a drawable (the destination) with bits from | ||
8847 | somewhere else (the source). The function in a GC defines how | ||
8848 | the new destination bits are to be computed from the source | ||
8849 | bits and the old destination bits. GXcopy is typically the most | ||
8850 | useful because it will work on a color display, but special | ||
8851 | applications may use other functions, particularly in concert | ||
8852 | with particular planes of a color display. The 16 GC functions, | ||
8853 | defined in <X11/X.h>, are: | ||
8854 | Function Name Value Operation | ||
8855 | GXclear 0x0 0 | ||
8856 | GXand 0x1 src AND dst | ||
8857 | GXandReverse 0x2 src AND NOT dst | ||
8858 | GXcopy 0x3 src | ||
8859 | GXandInverted 0x4 (NOT src) AND dst | ||
8860 | GXnoop 0x5 dst | ||
8861 | GXxor 0x6 src XOR dst | ||
8862 | GXor 0x7 src OR dst | ||
8863 | GXnor 0x8 (NOT src) AND (NOT dst) | ||
8864 | GXequiv 0x9 (NOT src) XOR dst | ||
8865 | GXinvert 0xa NOT dst | ||
8866 | GXorReverse 0xb src OR (NOT dst) | ||
8867 | GXcopyInverted 0xc NOT src | ||
8868 | GXorInverted 0xd (NOT src) OR dst | ||
8869 | GXnand 0xe (NOT src) OR (NOT dst) | ||
8870 | GXset 0xf 1 | ||
8871 | |||
8872 | Many graphics operations depend on either pixel values or | ||
8873 | planes in a GC. The planes attribute is of type long, and it | ||
8874 | specifies which planes of the destination are to be modified, | ||
8875 | one bit per plane. A monochrome display has only one plane and | ||
8876 | will be the least significant bit of the word. As planes are | ||
8877 | added to the display hardware, they will occupy more | ||
8878 | significant bits in the plane mask. | ||
8879 | |||
8880 | In graphics operations, given a source and destination pixel, | ||
8881 | the result is computed bitwise on corresponding bits of the | ||
8882 | pixels. That is, a Boolean operation is performed in each bit | ||
8883 | plane. The plane_mask restricts the operation to a subset of | ||
8884 | planes. A macro constant AllPlanes can be used to refer to all | ||
8885 | planes of the screen simultaneously. The result is computed by | ||
8886 | the following: | ||
8887 | |||
8888 | ((src FUNC dst) AND plane-mask) OR (dst AND (NOT plane-mask)) | ||
8889 | |||
8890 | Range checking is not performed on the values for foreground, | ||
8891 | background, or plane_mask. They are simply truncated to the | ||
8892 | appropriate number of bits. The line-width is measured in | ||
8893 | pixels and either can be greater than or equal to one (wide | ||
8894 | line) or can be the special value zero (thin line). | ||
8895 | |||
8896 | Wide lines are drawn centered on the path described by the | ||
8897 | graphics request. Unless otherwise specified by the join-style | ||
8898 | or cap-style, the bounding box of a wide line with endpoints | ||
8899 | [x1, y1], [x2, y2] and width w is a rectangle with vertices at | ||
8900 | the following real coordinates: | ||
8901 | |||
8902 | |||
8903 | |||
8904 | [x1-(w*sn/2), y1+(w*cs/2)], [x1+(w*sn/2), y1-(w*cs/2)], | ||
8905 | [x2-(w*sn/2), y2+(w*cs/2)], [x2+(w*sn/2), y2-(w*cs/2)] | ||
8906 | |||
8907 | Here sn is the sine of the angle of the line, and cs is the | ||
8908 | cosine of the angle of the line. A pixel is part of the line | ||
8909 | and so is drawn if the center of the pixel is fully inside the | ||
8910 | bounding box (which is viewed as having infinitely thin edges). | ||
8911 | If the center of the pixel is exactly on the bounding box, it | ||
8912 | is part of the line if and only if the interior is immediately | ||
8913 | to its right (x increasing direction). Pixels with centers on a | ||
8914 | horizontal edge are a special case and are part of the line if | ||
8915 | and only if the interior or the boundary is immediately below | ||
8916 | (y increasing direction) and the interior or the boundary is | ||
8917 | immediately to the right (x increasing direction). | ||
8918 | |||
8919 | Thin lines (zero line-width) are one-pixel-wide lines drawn | ||
8920 | using an unspecified, device-dependent algorithm. There are | ||
8921 | only two constraints on this algorithm. | ||
8922 | * If a line is drawn unclipped from [x1,y1] to [x2,y2] and if | ||
8923 | another line is drawn unclipped from [x1+dx,y1+dy] to | ||
8924 | [x2+dx,y2+dy], a point [x,y] is touched by drawing the | ||
8925 | first line if and only if the point [x+dx,y+dy] is touched | ||
8926 | by drawing the second line. | ||
8927 | * The effective set of points comprising a line cannot be | ||
8928 | affected by clipping. That is, a point is touched in a | ||
8929 | clipped line if and only if the point lies inside the | ||
8930 | clipping region and the point would be touched by the line | ||
8931 | when drawn unclipped. | ||
8932 | |||
8933 | A wide line drawn from [x1,y1] to [x2,y2] always draws the same | ||
8934 | pixels as a wide line drawn from [x2,y2] to [x1,y1], not | ||
8935 | counting cap-style and join-style. It is recommended that this | ||
8936 | property be true for thin lines, but this is not required. A | ||
8937 | line-width of zero may differ from a line-width of one in which | ||
8938 | pixels are drawn. This permits the use of many manufacturers' | ||
8939 | line drawing hardware, which may run many times faster than the | ||
8940 | more precisely specified wide lines. | ||
8941 | |||
8942 | In general, drawing a thin line will be faster than drawing a | ||
8943 | wide line of width one. However, because of their different | ||
8944 | drawing algorithms, thin lines may not mix well aesthetically | ||
8945 | with wide lines. If it is desirable to obtain precise and | ||
8946 | uniform results across all displays, a client should always use | ||
8947 | a line-width of one rather than a line-width of zero. | ||
8948 | |||
8949 | The line-style defines which sections of a line are drawn: | ||
8950 | |||
8951 | LineSolid | ||
8952 | |||
8953 | The full path of the line is drawn. | ||
8954 | |||
8955 | LineDoubleDash | ||
8956 | |||
8957 | The full path of the line is drawn, but the even dashes are | ||
8958 | filled differently from the odd dashes (see fill-style) with | ||
8959 | CapButt style used where even and odd dashes meet. | ||
8960 | |||
8961 | LineOnOffDash | ||
8962 | |||
8963 | Only the even dashes are drawn, and cap-style applies to all | ||
8964 | internal ends of the individual dashes, except CapNotLast is | ||
8965 | treated as CapButt. | ||
8966 | |||
8967 | The cap-style defines how the endpoints of a path are drawn: | ||
8968 | |||
8969 | CapNotLast | ||
8970 | |||
8971 | This is equivalent to CapButt except that for a line-width of | ||
8972 | zero the final endpoint is not drawn. | ||
8973 | |||
8974 | CapButt | ||
8975 | |||
8976 | The line is square at the endpoint (perpendicular to the slope | ||
8977 | of the line) with no projection beyond. | ||
8978 | |||
8979 | CapRound | ||
8980 | |||
8981 | The line has a circular arc with the diameter equal to the | ||
8982 | line-width, centered on the endpoint. (This is equivalent to | ||
8983 | CapButt for line-width of zero). | ||
8984 | |||
8985 | CapProjecting | ||
8986 | |||
8987 | The line is square at the end, but the path continues beyond | ||
8988 | the endpoint for a distance equal to half the line-width. (This | ||
8989 | is equivalent to CapButt for line-width of zero). | ||
8990 | |||
8991 | The join-style defines how corners are drawn for wide lines: | ||
8992 | |||
8993 | JoinMiter | ||
8994 | |||
8995 | The outer edges of two lines extend to meet at an angle. | ||
8996 | However, if the angle is less than 11 degrees, then a JoinBevel | ||
8997 | join-style is used instead. | ||
8998 | |||
8999 | JoinRound | ||
9000 | |||
9001 | The corner is a circular arc with the diameter equal to the | ||
9002 | line-width, centered on the joinpoint. | ||
9003 | |||
9004 | JoinBevel | ||
9005 | |||
9006 | The corner has CapButt endpoint styles with the triangular | ||
9007 | notch filled. | ||
9008 | |||
9009 | For a line with coincident endpoints (x1=x2, y1=y2), when the | ||
9010 | cap-style is applied to both endpoints, the semantics depends | ||
9011 | on the line-width and the cap-style: | ||
9012 | CapNotLast thin The results are device dependent, but the | ||
9013 | desired effect is that nothing is drawn. | ||
9014 | CapButt thin The results are device dependent, but the desired | ||
9015 | effect is that a single pixel is drawn. | ||
9016 | CapRound thin The results are the same as for CapButt /thin. | ||
9017 | CapProjecting thin The results are the same as for CapButt | ||
9018 | /thin. | ||
9019 | CapButt wide Nothing is drawn. | ||
9020 | CapRound wide The closed path is a circle, centered at the | ||
9021 | endpoint, and with the diameter equal to the line-width. | ||
9022 | CapProjecting wide The closed path is a square, aligned with | ||
9023 | the coordinate axes, centered at the endpoint, and with the | ||
9024 | sides equal to the line-width. | ||
9025 | |||
9026 | For a line with coincident endpoints (x1=x2, y1=y2), when the | ||
9027 | join-style is applied at one or both endpoints, the effect is | ||
9028 | as if the line was removed from the overall path. However, if | ||
9029 | the total path consists of or is reduced to a single point | ||
9030 | joined with itself, the effect is the same as when the | ||
9031 | cap-style is applied at both endpoints. | ||
9032 | |||
9033 | The tile/stipple represents an infinite two-dimensional plane, | ||
9034 | with the tile/stipple replicated in all dimensions. When that | ||
9035 | plane is superimposed on the drawable for use in a graphics | ||
9036 | operation, the upper-left corner of some instance of the | ||
9037 | tile/stipple is at the coordinates within the drawable | ||
9038 | specified by the tile/stipple origin. The tile/stipple and clip | ||
9039 | origins are interpreted relative to the origin of whatever | ||
9040 | destination drawable is specified in a graphics request. The | ||
9041 | tile pixmap must have the same root and depth as the GC, or a | ||
9042 | BadMatch error results. The stipple pixmap must have depth one | ||
9043 | and must have the same root as the GC, or a BadMatch error | ||
9044 | results. For stipple operations where the fill-style is | ||
9045 | FillStippled but not FillOpaqueStippled, the stipple pattern is | ||
9046 | tiled in a single plane and acts as an additional clip mask to | ||
9047 | be ANDed with the clip-mask. Although some sizes may be faster | ||
9048 | to use than others, any size pixmap can be used for tiling or | ||
9049 | stippling. | ||
9050 | |||
9051 | The fill-style defines the contents of the source for line, | ||
9052 | text, and fill requests. For all text and fill requests (for | ||
9053 | example, XDrawText, XDrawText16, XFillRectangle, XFillPolygon, | ||
9054 | and XFillArc); for line requests with line-style LineSolid (for | ||
9055 | example, XDrawLine, XDrawSegments, XDrawRectangle, XDrawArc); | ||
9056 | and for the even dashes for line requests with line-style | ||
9057 | LineOnOffDash or LineDoubleDash, the following apply: | ||
9058 | FillSolid Foreground | ||
9059 | FillTiled Tile | ||
9060 | FillOpaqueStippled A tile with the same width and height as | ||
9061 | stipple, but with background everywhere stipple has a zero and | ||
9062 | with foreground everywhere stipple has a one | ||
9063 | FillStippled Foreground masked by stipple | ||
9064 | |||
9065 | When drawing lines with line-style LineDoubleDash, the odd | ||
9066 | dashes are controlled by the fill-style in the following | ||
9067 | manner: | ||
9068 | FillSolid Background | ||
9069 | FillTiled Same as for even dashes | ||
9070 | FillOpaqueStippled Same as for even dashes | ||
9071 | FillStippled Background masked by stipple | ||
9072 | |||
9073 | Storing a pixmap in a GC might or might not result in a copy | ||
9074 | being made. If the pixmap is later used as the destination for | ||
9075 | a graphics request, the change might or might not be reflected | ||
9076 | in the GC. If the pixmap is used simultaneously in a graphics | ||
9077 | request both as a destination and as a tile or stipple, the | ||
9078 | results are undefined. | ||
9079 | |||
9080 | For optimum performance, you should draw as much as possible | ||
9081 | with the same GC (without changing its components). The costs | ||
9082 | of changing GC components relative to using different GCs | ||
9083 | depend on the display hardware and the server implementation. | ||
9084 | It is quite likely that some amount of GC information will be | ||
9085 | cached in display hardware and that such hardware can only | ||
9086 | cache a small number of GCs. | ||
9087 | |||
9088 | The dashes value is actually a simplified form of the more | ||
9089 | general patterns that can be set with XSetDashes. Specifying a | ||
9090 | value of N is equivalent to specifying the two-element list [N, | ||
9091 | N] in XSetDashes. The value must be nonzero, or a BadValue | ||
9092 | error results. | ||
9093 | |||
9094 | The clip-mask restricts writes to the destination drawable. If | ||
9095 | the clip-mask is set to a pixmap, it must have depth one and | ||
9096 | have the same root as the GC, or a BadMatch error results. If | ||
9097 | clip-mask is set to None, the pixels are always drawn | ||
9098 | regardless of the clip origin. The clip-mask also can be set by | ||
9099 | calling the XSetClipRectangles or XSetRegion functions. Only | ||
9100 | pixels where the clip-mask has a bit set to 1 are drawn. Pixels | ||
9101 | are not drawn outside the area covered by the clip-mask or | ||
9102 | where the clip-mask has a bit set to 0. The clip-mask affects | ||
9103 | all graphics requests. The clip-mask does not clip sources. The | ||
9104 | clip-mask origin is interpreted relative to the origin of | ||
9105 | whatever destination drawable is specified in a graphics | ||
9106 | request. | ||
9107 | |||
9108 | You can set the subwindow-mode to ClipByChildren or | ||
9109 | IncludeInferiors. For ClipByChildren, both source and | ||
9110 | destination windows are additionally clipped by all viewable | ||
9111 | InputOutput children. For IncludeInferiors, neither source nor | ||
9112 | destination window is clipped by inferiors. This will result in | ||
9113 | including subwindow contents in the source and drawing through | ||
9114 | subwindow boundaries of the destination. The use of | ||
9115 | IncludeInferiors on a window of one depth with mapped inferiors | ||
9116 | of differing depth is not illegal, but the semantics are | ||
9117 | undefined by the core protocol. | ||
9118 | |||
9119 | The fill-rule defines what pixels are inside (drawn) for paths | ||
9120 | given in XFillPolygon requests and can be set to EvenOddRule or | ||
9121 | WindingRule. For EvenOddRule, a point is inside if an infinite | ||
9122 | ray with the point as origin crosses the path an odd number of | ||
9123 | times. For WindingRule, a point is inside if an infinite ray | ||
9124 | with the point as origin crosses an unequal number of clockwise | ||
9125 | and counterclockwise directed path segments. A clockwise | ||
9126 | directed path segment is one that crosses the ray from left to | ||
9127 | right as observed from the point. A counterclockwise segment is | ||
9128 | one that crosses the ray from right to left as observed from | ||
9129 | the point. The case where a directed line segment is coincident | ||
9130 | with the ray is uninteresting because you can simply choose a | ||
9131 | different ray that is not coincident with a segment. | ||
9132 | |||
9133 | For both EvenOddRule and WindingRule, a point is infinitely | ||
9134 | small, and the path is an infinitely thin line. A pixel is | ||
9135 | inside if the center point of the pixel is inside and the | ||
9136 | center point is not on the boundary. If the center point is on | ||
9137 | the boundary, the pixel is inside if and only if the polygon | ||
9138 | interior is immediately to its right (x increasing direction). | ||
9139 | Pixels with centers on a horizontal edge are a special case and | ||
9140 | are inside if and only if the polygon interior is immediately | ||
9141 | below (y increasing direction). | ||
9142 | |||
9143 | The arc-mode controls filling in the XFillArcs function and can | ||
9144 | be set to ArcPieSlice or ArcChord. For ArcPieSlice, the arcs | ||
9145 | are pie-slice filled. For ArcChord, the arcs are chord filled. | ||
9146 | |||
9147 | The graphics-exposure flag controls GraphicsExpose event | ||
9148 | generation for XCopyArea and XCopyPlane requests (and any | ||
9149 | similar requests defined by extensions). | ||
9150 | |||
9151 | To create a new GC that is usable on a given screen with a | ||
9152 | depth of drawable, use XCreateGC. | ||
9153 | |||
9154 | GC XCreateGC(Display *display, Drawable d, unsigned long | ||
9155 | valuemask, XGCValues *values); | ||
9156 | |||
9157 | display | ||
9158 | |||
9159 | Specifies the connection to the X server. | ||
9160 | |||
9161 | d | ||
9162 | |||
9163 | Specifies the drawable. | ||
9164 | |||
9165 | valuemask | ||
9166 | |||
9167 | Specifies which components in the GC are to be set using the | ||
9168 | information in the specified values structure. This argument is | ||
9169 | the bitwise inclusive OR of zero or more of the valid GC | ||
9170 | component mask bits. | ||
9171 | |||
9172 | values | ||
9173 | |||
9174 | Specifies any values as specified by the valuemask. | ||
9175 | |||
9176 | The XCreateGC function creates a graphics context and returns a | ||
9177 | GC. The GC can be used with any destination drawable having the | ||
9178 | same root and depth as the specified drawable. Use with other | ||
9179 | drawables results in a BadMatch error. | ||
9180 | |||
9181 | XCreateGC can generate BadAlloc, BadDrawable, BadFont, | ||
9182 | BadMatch, BadPixmap, and BadValue errors. | ||
9183 | |||
9184 | To copy components from a source GC to a destination GC, use | ||
9185 | XCopyGC. | ||
9186 | |||
9187 | XCopyGC(Display *display, GC src, GC dest, unsigned long | ||
9188 | valuemask); | ||
9189 | |||
9190 | display | ||
9191 | |||
9192 | Specifies the connection to the X server. | ||
9193 | |||
9194 | src | ||
9195 | |||
9196 | Specifies the components of the source GC. | ||
9197 | |||
9198 | valuemask | ||
9199 | |||
9200 | Specifies which components in the GC are to be copied to the | ||
9201 | destination GC. This argument is the bitwise inclusive OR of | ||
9202 | zero or more of the valid GC component mask bits. | ||
9203 | |||
9204 | dest | ||
9205 | |||
9206 | Specifies the destination GC. | ||
9207 | |||
9208 | The XCopyGC function copies the specified components from the | ||
9209 | source GC to the destination GC. The source and destination GCs | ||
9210 | must have the same root and depth, or a BadMatch error results. | ||
9211 | The valuemask specifies which component to copy, as for | ||
9212 | XCreateGC. | ||
9213 | |||
9214 | XCopyGC can generate BadAlloc, BadGC, and BadMatch errors. | ||
9215 | |||
9216 | To change the components in a given GC, use XChangeGC. | ||
9217 | |||
9218 | XChangeGC(Display *display, GC gc, unsigned long valuemask, | ||
9219 | XGCValues *values); | ||
9220 | |||
9221 | display | ||
9222 | |||
9223 | Specifies the connection to the X server. | ||
9224 | |||
9225 | gc | ||
9226 | |||
9227 | Specifies the GC. | ||
9228 | |||
9229 | valuemask | ||
9230 | |||
9231 | Specifies which components in the GC are to be changed using | ||
9232 | information in the specified values structure. This argument is | ||
9233 | the bitwise inclusive OR of zero or more of the valid GC | ||
9234 | component mask bits. | ||
9235 | |||
9236 | values | ||
9237 | |||
9238 | Specifies any values as specified by the valuemask. | ||
9239 | |||
9240 | The XChangeGC function changes the components specified by | ||
9241 | valuemask for the specified GC. The values argument contains | ||
9242 | the values to be set. The values and restrictions are the same | ||
9243 | as for XCreateGC. Changing the clip-mask overrides any previous | ||
9244 | XSetClipRectangles request on the context. Changing the | ||
9245 | dash-offset or dash-list overrides any previous XSetDashes | ||
9246 | request on the context. The order in which components are | ||
9247 | verified and altered is server dependent. If an error is | ||
9248 | generated, a subset of the components may have been altered. | ||
9249 | |||
9250 | XChangeGC can generate BadAlloc, BadFont, BadGC, BadMatch, | ||
9251 | BadPixmap, and BadValue errors. | ||
9252 | |||
9253 | To obtain components of a given GC, use XGetGCValues. | ||
9254 | |||
9255 | Status XGetGCValues(Display *display, GC gc, unsigned long | ||
9256 | valuemask, XGCValues *values_return); | ||
9257 | |||
9258 | display | ||
9259 | |||
9260 | Specifies the connection to the X server. | ||
9261 | |||
9262 | gc | ||
9263 | |||
9264 | Specifies the GC. | ||
9265 | |||
9266 | valuemask | ||
9267 | |||
9268 | Specifies which components in the GC are to be returned in the | ||
9269 | values_return argument. This argument is the bitwise inclusive | ||
9270 | OR of zero or more of the valid GC component mask bits. | ||
9271 | |||
9272 | values_return | ||
9273 | |||
9274 | Returns the GC values in the specified XGCValues structure. | ||
9275 | |||
9276 | The XGetGCValues function returns the components specified by | ||
9277 | valuemask for the specified GC. If the valuemask contains a | ||
9278 | valid set of GC mask bits (GCFunction, GCPlaneMask, | ||
9279 | GCForeground, GCBackground, GCLineWidth, GCLineStyle, | ||
9280 | GCCapStyle, GCJoinStyle, GCFillStyle, GCFillRule, GCTile, | ||
9281 | GCStipple, GCTileStipXOrigin, GCTileStipYOrigin, GCFont, | ||
9282 | GCSubwindowMode, GCGraphicsExposures, GCClipXOrigin, | ||
9283 | GCClipYOrigin, GCDashOffset, or GCArcMode) and no error occurs, | ||
9284 | XGetGCValues sets the requested components in values_return and | ||
9285 | returns a nonzero status. Otherwise, it returns a zero status. | ||
9286 | Note that the clip-mask and dash-list (represented by the | ||
9287 | GCClipMask and GCDashList bits, respectively, in the valuemask) | ||
9288 | cannot be requested. Also note that an invalid resource ID | ||
9289 | (with one or more of the three most significant bits set to 1) | ||
9290 | will be returned for GCFont, GCTile, and GCStipple if the | ||
9291 | component has never been explicitly set by the client. | ||
9292 | |||
9293 | To free a given GC, use XFreeGC. | ||
9294 | |||
9295 | XFreeGC(Display *display, GC gc); | ||
9296 | |||
9297 | display | ||
9298 | |||
9299 | Specifies the connection to the X server. | ||
9300 | |||
9301 | gc | ||
9302 | |||
9303 | Specifies the GC. | ||
9304 | |||
9305 | The XFreeGC function destroys the specified GC as well as all | ||
9306 | the associated storage. | ||
9307 | |||
9308 | XFreeGC can generate a BadGC error. | ||
9309 | |||
9310 | To obtain the GContext resource ID for a given GC, use | ||
9311 | XGContextFromGC. | ||
9312 | |||
9313 | GContext XGContextFromGC(GC gc); | ||
9314 | |||
9315 | gc | ||
9316 | |||
9317 | Specifies the GC for which you want the resource ID. | ||
9318 | |||
9319 | Xlib usually defers sending changes to the components of a GC | ||
9320 | to the server until a graphics function is actually called with | ||
9321 | that GC. This permits batching of component changes into a | ||
9322 | single server request. In some circumstances, however, it may | ||
9323 | be necessary for the client to explicitly force sending the | ||
9324 | changes to the server. An example might be when a protocol | ||
9325 | extension uses the GC indirectly, in such a way that the | ||
9326 | extension interface cannot know what GC will be used. To force | ||
9327 | sending GC component changes, use XFlushGC. | ||
9328 | |||
9329 | void XFlushGC(Display *display, GC gc); | ||
9330 | |||
9331 | display | ||
9332 | |||
9333 | Specifies the connection to the X server. | ||
9334 | |||
9335 | gc | ||
9336 | |||
9337 | Specifies the GC. | ||
9338 | |||
9339 | Using Graphics Context Convenience Routines | ||
9340 | |||
9341 | This section discusses how to set the: | ||
9342 | * Foreground, background, plane mask, or function components | ||
9343 | * Line attributes and dashes components | ||
9344 | * Fill style and fill rule components | ||
9345 | * Fill tile and stipple components | ||
9346 | * Font component | ||
9347 | * Clip region component | ||
9348 | * Arc mode, subwindow mode, and graphics exposure components | ||
9349 | |||
9350 | Setting the Foreground, Background, Function, or Plane Mask | ||
9351 | |||
9352 | To set the foreground, background, plane mask, and function | ||
9353 | components for a given GC, use XSetState. | ||
9354 | |||
9355 | XSetState(Display *display, GC gc, unsigned long foreground, | ||
9356 | unsigned long background, int function, unsigned long | ||
9357 | plane_mask); | ||
9358 | |||
9359 | display | ||
9360 | |||
9361 | Specifies the connection to the X server. | ||
9362 | |||
9363 | gc | ||
9364 | |||
9365 | Specifies the GC. | ||
9366 | |||
9367 | foreground | ||
9368 | |||
9369 | Specifies the foreground you want to set for the specified GC. | ||
9370 | |||
9371 | background | ||
9372 | |||
9373 | Specifies the background you want to set for the specified GC. | ||
9374 | |||
9375 | function | ||
9376 | |||
9377 | Specifies the function you want to set for the specified GC. | ||
9378 | |||
9379 | plane_mask | ||
9380 | |||
9381 | Specifies the plane mask. | ||
9382 | |||
9383 | XSetState can generate BadAlloc, BadGC, and BadValue errors. | ||
9384 | |||
9385 | To set the foreground of a given GC, use XSetForeground. | ||
9386 | |||
9387 | XSetForeground(Display *display, GC gc, unsigned long | ||
9388 | foreground); | ||
9389 | |||
9390 | display | ||
9391 | |||
9392 | Specifies the connection to the X server. | ||
9393 | |||
9394 | gc | ||
9395 | |||
9396 | Specifies the GC. | ||
9397 | |||
9398 | foreground | ||
9399 | |||
9400 | Specifies the foreground you want to set for the specified GC. | ||
9401 | |||
9402 | XSetForeground can generate BadAlloc and BadGC errors. | ||
9403 | |||
9404 | To set the background of a given GC, use XSetBackground. | ||
9405 | |||
9406 | XSetBackground(Display *display, GC gc, unsigned long | ||
9407 | background); | ||
9408 | |||
9409 | display | ||
9410 | |||
9411 | Specifies the connection to the X server. | ||
9412 | |||
9413 | gc | ||
9414 | |||
9415 | Specifies the GC. | ||
9416 | |||
9417 | background | ||
9418 | |||
9419 | Specifies the background you want to set for the specified GC. | ||
9420 | |||
9421 | XSetBackground can generate BadAlloc and BadGC errors. | ||
9422 | |||
9423 | To set the display function in a given GC, use XSetFunction. | ||
9424 | |||
9425 | XSetFunction(Display *display, GC gc, int function); | ||
9426 | |||
9427 | display | ||
9428 | |||
9429 | Specifies the connection to the X server. | ||
9430 | |||
9431 | gc | ||
9432 | |||
9433 | Specifies the GC. | ||
9434 | |||
9435 | function | ||
9436 | |||
9437 | Specifies the function you want to set for the specified GC. | ||
9438 | |||
9439 | XSetFunction can generate BadAlloc, BadGC, and BadValue errors. | ||
9440 | |||
9441 | To set the plane mask of a given GC, use XSetPlaneMask. | ||
9442 | |||
9443 | XSetPlaneMask(Display *display, GC gc, unsigned long | ||
9444 | plane_mask); | ||
9445 | |||
9446 | display | ||
9447 | |||
9448 | Specifies the connection to the X server. | ||
9449 | |||
9450 | gc | ||
9451 | |||
9452 | Specifies the GC. | ||
9453 | |||
9454 | plane_mask | ||
9455 | |||
9456 | Specifies the plane mask. | ||
9457 | |||
9458 | XSetPlaneMask can generate BadAlloc and BadGC errors. | ||
9459 | |||
9460 | Setting the Line Attributes and Dashes | ||
9461 | |||
9462 | To set the line drawing components of a given GC, use | ||
9463 | XSetLineAttributes. | ||
9464 | |||
9465 | XSetLineAttributes(Display *display, GC gc, unsigned int | ||
9466 | line_width, int line_style, int cap_style, int join_style); | ||
9467 | |||
9468 | display | ||
9469 | |||
9470 | Specifies the connection to the X server. | ||
9471 | |||
9472 | gc | ||
9473 | |||
9474 | Specifies the GC. | ||
9475 | |||
9476 | line_width | ||
9477 | |||
9478 | Specifies the line-width you want to set for the specified GC. | ||
9479 | |||
9480 | line_style | ||
9481 | |||
9482 | Specifies the line-style you want to set for the specified GC. | ||
9483 | You can pass LineSolid, LineOnOffDash, or LineDoubleDash. | ||
9484 | |||
9485 | cap_style | ||
9486 | |||
9487 | Specifies the line-style and cap-style you want to set for the | ||
9488 | specified GC. You can pass CapNotLast, CapButt, CapRound, or | ||
9489 | CapProjecting. | ||
9490 | |||
9491 | join_style | ||
9492 | |||
9493 | Specifies the line join-style you want to set for the specified | ||
9494 | GC. You can pass JoinMiter, JoinRound, or JoinBevel. | ||
9495 | |||
9496 | XSetLineAttributes can generate BadAlloc, BadGC, and BadValue | ||
9497 | errors. | ||
9498 | |||
9499 | To set the dash-offset and dash-list for dashed line styles of | ||
9500 | a given GC, use XSetDashes. | ||
9501 | |||
9502 | XSetDashes(Display *display, GC gc, int dash_offset, char | ||
9503 | dash_list[], int n); | ||
9504 | |||
9505 | display | ||
9506 | |||
9507 | Specifies the connection to the X server. | ||
9508 | |||
9509 | gc | ||
9510 | |||
9511 | Specifies the GC. | ||
9512 | |||
9513 | dash_offset | ||
9514 | |||
9515 | Specifies the phase of the pattern for the dashed line-style | ||
9516 | you want to set for the specified GC. | ||
9517 | |||
9518 | dash_list | ||
9519 | |||
9520 | Specifies the dash-list for the dashed line-style you want to | ||
9521 | set for the specified GC. | ||
9522 | |||
9523 | n | ||
9524 | |||
9525 | Specifies the number of elements in dash_list. | ||
9526 | |||
9527 | The XSetDashes function sets the dash-offset and dash-list | ||
9528 | attributes for dashed line styles in the specified GC. There | ||
9529 | must be at least one element in the specified dash_list, or a | ||
9530 | BadValue error results. The initial and alternating elements | ||
9531 | (second, fourth, and so on) of the dash_list are the even | ||
9532 | dashes, and the others are the odd dashes. Each element | ||
9533 | specifies a dash length in pixels. All of the elements must be | ||
9534 | nonzero, or a BadValue error results. Specifying an odd-length | ||
9535 | list is equivalent to specifying the same list concatenated | ||
9536 | with itself to produce an even-length list. | ||
9537 | |||
9538 | The dash-offset defines the phase of the pattern, specifying | ||
9539 | how many pixels into the dash-list the pattern should actually | ||
9540 | begin in any single graphics request. Dashing is continuous | ||
9541 | through path elements combined with a join-style but is reset | ||
9542 | to the dash-offset between each sequence of joined lines. | ||
9543 | |||
9544 | The unit of measure for dashes is the same for the ordinary | ||
9545 | coordinate system. Ideally, a dash length is measured along the | ||
9546 | slope of the line, but implementations are only required to | ||
9547 | match this ideal for horizontal and vertical lines. Failing the | ||
9548 | ideal semantics, it is suggested that the length be measured | ||
9549 | along the major axis of the line. The major axis is defined as | ||
9550 | the x axis for lines drawn at an angle of between -45 and +45 | ||
9551 | degrees or between 135 and 225 degrees from the x axis. For all | ||
9552 | other lines, the major axis is the y axis. | ||
9553 | |||
9554 | XSetDashes can generate BadAlloc, BadGC, and BadValue errors. | ||
9555 | |||
9556 | Setting the Fill Style and Fill Rule | ||
9557 | |||
9558 | To set the fill-style of a given GC, use XSetFillStyle. | ||
9559 | |||
9560 | XSetFillStyle(Display *display, GC gc, int fill_style); | ||
9561 | |||
9562 | display | ||
9563 | |||
9564 | Specifies the connection to the X server. | ||
9565 | |||
9566 | gc | ||
9567 | |||
9568 | Specifies the GC. | ||
9569 | |||
9570 | fill_style | ||
9571 | |||
9572 | Specifies the fill-style you want to set for the specified GC. | ||
9573 | You can pass FillSolid, FillTiled, FillStippled, or | ||
9574 | FillOpaqueStippled. | ||
9575 | |||
9576 | XSetFillStyle can generate BadAlloc, BadGC, and BadValue | ||
9577 | errors. | ||
9578 | |||
9579 | To set the fill-rule of a given GC, use XSetFillRule. | ||
9580 | |||
9581 | XSetFillRule(Display *display, GC gc, int fill_rule); | ||
9582 | |||
9583 | display | ||
9584 | |||
9585 | Specifies the connection to the X server. | ||
9586 | |||
9587 | gc | ||
9588 | |||
9589 | Specifies the GC. | ||
9590 | |||
9591 | fill_rule | ||
9592 | |||
9593 | Specifies the fill-rule you want to set for the specified GC. | ||
9594 | You can pass EvenOddRule or WindingRule. | ||
9595 | |||
9596 | XSetFillRule can generate BadAlloc, BadGC, and BadValue errors. | ||
9597 | |||
9598 | Setting the Fill Tile and Stipple | ||
9599 | |||
9600 | Some displays have hardware support for tiling or stippling | ||
9601 | with patterns of specific sizes. Tiling and stippling | ||
9602 | operations that restrict themselves to those specific sizes run | ||
9603 | much faster than such operations with arbitrary size patterns. | ||
9604 | Xlib provides functions that you can use to determine the best | ||
9605 | size, tile, or stipple for the display as well as to set the | ||
9606 | tile or stipple shape and the tile or stipple origin. | ||
9607 | |||
9608 | To obtain the best size of a tile, stipple, or cursor, use | ||
9609 | XQueryBestSize. | ||
9610 | |||
9611 | Status XQueryBestSize(Display *display, int class, Drawable | ||
9612 | which_screen, unsigned int width, unsigned int height, unsigned | ||
9613 | int *width_return, unsigned int *height_return); | ||
9614 | |||
9615 | display | ||
9616 | |||
9617 | Specifies the connection to the X server. | ||
9618 | |||
9619 | class | ||
9620 | |||
9621 | Specifies the class that you are interested in. You can pass | ||
9622 | TileShape, CursorShape, or StippleShape. | ||
9623 | |||
9624 | which_screen | ||
9625 | |||
9626 | Specifies any drawable on the screen. | ||
9627 | |||
9628 | width | ||
9629 | |||
9630 | height | ||
9631 | |||
9632 | Specify the width and height. | ||
9633 | |||
9634 | width_return | ||
9635 | |||
9636 | height_return | ||
9637 | |||
9638 | Return the width and height of the object best supported by the | ||
9639 | display hardware. | ||
9640 | |||
9641 | The XQueryBestSize function returns the best or closest size to | ||
9642 | the specified size. For CursorShape, this is the largest size | ||
9643 | that can be fully displayed on the screen specified by | ||
9644 | which_screen. For TileShape, this is the size that can be tiled | ||
9645 | fastest. For StippleShape, this is the size that can be | ||
9646 | stippled fastest. For CursorShape, the drawable indicates the | ||
9647 | desired screen. For TileShape and StippleShape, the drawable | ||
9648 | indicates the screen and possibly the window class and depth. | ||
9649 | An InputOnly window cannot be used as the drawable for | ||
9650 | TileShape or StippleShape, or a BadMatch error results. | ||
9651 | |||
9652 | XQueryBestSize can generate BadDrawable, BadMatch, and BadValue | ||
9653 | errors. | ||
9654 | |||
9655 | To obtain the best fill tile shape, use XQueryBestTile. | ||
9656 | |||
9657 | Status XQueryBestTile(Display *display, Drawable which_screen, | ||
9658 | unsigned int width, unsigned int height, unsigned int | ||
9659 | *width_return, unsigned int *height_return); | ||
9660 | |||
9661 | display | ||
9662 | |||
9663 | Specifies the connection to the X server. | ||
9664 | |||
9665 | which_screen | ||
9666 | |||
9667 | Specifies any drawable on the screen. | ||
9668 | |||
9669 | width | ||
9670 | |||
9671 | height | ||
9672 | |||
9673 | Specify the width and height. | ||
9674 | |||
9675 | width_return | ||
9676 | |||
9677 | height_return | ||
9678 | |||
9679 | Return the width and height of the object best supported by the | ||
9680 | display hardware. | ||
9681 | |||
9682 | The XQueryBestTile function returns the best or closest size, | ||
9683 | that is, the size that can be tiled fastest on the screen | ||
9684 | specified by which_screen. The drawable indicates the screen | ||
9685 | and possibly the window class and depth. If an InputOnly window | ||
9686 | is used as the drawable, a BadMatch error results. | ||
9687 | |||
9688 | XQueryBestTile can generate BadDrawable and BadMatch errors. | ||
9689 | |||
9690 | To obtain the best stipple shape, use XQueryBestStipple. | ||
9691 | |||
9692 | Status XQueryBestStipple(Display *display, Drawable | ||
9693 | which_screen, unsigned int width, unsigned int height, unsigned | ||
9694 | int *width_return, unsigned int *height_return); | ||
9695 | |||
9696 | display | ||
9697 | |||
9698 | Specifies the connection to the X server. | ||
9699 | |||
9700 | which_screen | ||
9701 | |||
9702 | Specifies any drawable on the screen. | ||
9703 | |||
9704 | width | ||
9705 | |||
9706 | height | ||
9707 | |||
9708 | Specify the width and height. | ||
9709 | |||
9710 | width_return | ||
9711 | |||
9712 | height_return | ||
9713 | |||
9714 | Return the width and height of the object best supported by the | ||
9715 | display hardware. | ||
9716 | |||
9717 | The XQueryBestStipple function returns the best or closest | ||
9718 | size, that is, the size that can be stippled fastest on the | ||
9719 | screen specified by which_screen. The drawable indicates the | ||
9720 | screen and possibly the window class and depth. If an InputOnly | ||
9721 | window is used as the drawable, a BadMatch error results. | ||
9722 | |||
9723 | XQueryBestStipple can generate BadDrawable and BadMatch errors. | ||
9724 | |||
9725 | To set the fill tile of a given GC, use XSetTile. | ||
9726 | |||
9727 | XSetTile(Display *display, GC gc, Pixmap tile); | ||
9728 | |||
9729 | display | ||
9730 | |||
9731 | Specifies the connection to the X server. | ||
9732 | |||
9733 | gc | ||
9734 | |||
9735 | Specifies the GC. | ||
9736 | |||
9737 | tile | ||
9738 | |||
9739 | Specifies the fill tile you want to set for the specified GC. | ||
9740 | |||
9741 | The tile and GC must have the same depth, or a BadMatch error | ||
9742 | results. | ||
9743 | |||
9744 | XSetTile can generate BadAlloc, BadGC, BadMatch, and BadPixmap | ||
9745 | errors. | ||
9746 | |||
9747 | To set the stipple of a given GC, use XSetStipple. | ||
9748 | |||
9749 | XSetStipple(Display *display, GC gc, Pixmap stipple); | ||
9750 | |||
9751 | display | ||
9752 | |||
9753 | Specifies the connection to the X server. | ||
9754 | |||
9755 | gc | ||
9756 | |||
9757 | Specifies the GC. | ||
9758 | |||
9759 | stipple | ||
9760 | |||
9761 | Specifies the stipple you want to set for the specified GC. | ||
9762 | |||
9763 | The stipple must have a depth of one, or a BadMatch error | ||
9764 | results. | ||
9765 | |||
9766 | XSetStipple can generate BadAlloc, BadGC, BadMatch, and | ||
9767 | BadPixmap errors. | ||
9768 | |||
9769 | To set the tile or stipple origin of a given GC, use | ||
9770 | XSetTSOrigin. | ||
9771 | |||
9772 | XSetTSOrigin(Display *display, GC gc, int ts_x_origin, int | ||
9773 | ts_y_origin); | ||
9774 | |||
9775 | display | ||
9776 | |||
9777 | Specifies the connection to the X server. | ||
9778 | |||
9779 | gc | ||
9780 | |||
9781 | Specifies the GC. | ||
9782 | |||
9783 | ts_x_origin | ||
9784 | |||
9785 | ts_y_origin | ||
9786 | |||
9787 | Specify the x and y coordinates of the tile and stipple origin. | ||
9788 | |||
9789 | When graphics requests call for tiling or stippling, the | ||
9790 | parent's origin will be interpreted relative to whatever | ||
9791 | destination drawable is specified in the graphics request. | ||
9792 | |||
9793 | XSetTSOrigin can generate BadAlloc and BadGC errors. | ||
9794 | |||
9795 | Setting the Current Font | ||
9796 | |||
9797 | To set the current font of a given GC, use XSetFont. | ||
9798 | |||
9799 | XSetFont(Display *display, GC gc, Font font); | ||
9800 | |||
9801 | display | ||
9802 | |||
9803 | Specifies the connection to the X server. | ||
9804 | |||
9805 | gc | ||
9806 | |||
9807 | Specifies the GC. | ||
9808 | |||
9809 | font | ||
9810 | |||
9811 | Specifies the font. | ||
9812 | |||
9813 | XSetFont can generate BadAlloc, BadFont, and BadGC errors. | ||
9814 | |||
9815 | Setting the Clip Region | ||
9816 | |||
9817 | Xlib provides functions that you can use to set the clip-origin | ||
9818 | and the clip-mask or set the clip-mask to a list of rectangles. | ||
9819 | |||
9820 | To set the clip-origin of a given GC, use XSetClipOrigin. | ||
9821 | |||
9822 | XSetClipOrigin(Display *display, GC gc, int clip_x_origin, int | ||
9823 | clip_y_origin); | ||
9824 | |||
9825 | display | ||
9826 | |||
9827 | Specifies the connection to the X server. | ||
9828 | |||
9829 | gc | ||
9830 | |||
9831 | Specifies the GC. | ||
9832 | |||
9833 | clip_x_origin | ||
9834 | |||
9835 | clip_y_origin | ||
9836 | |||
9837 | Specify the x and y coordinates of the clip-mask origin. | ||
9838 | |||
9839 | The clip-mask origin is interpreted relative to the origin of | ||
9840 | whatever destination drawable is specified in the graphics | ||
9841 | request. | ||
9842 | |||
9843 | XSetClipOrigin can generate BadAlloc and BadGC errors. | ||
9844 | |||
9845 | To set the clip-mask of a given GC to the specified pixmap, use | ||
9846 | XSetClipMask. | ||
9847 | |||
9848 | XSetClipMask(Display *display, GC gc, Pixmap pixmap); | ||
9849 | |||
9850 | display | ||
9851 | |||
9852 | Specifies the connection to the X server. | ||
9853 | |||
9854 | gc | ||
9855 | |||
9856 | Specifies the GC. | ||
9857 | |||
9858 | pixmap | ||
9859 | |||
9860 | Specifies the pixmap or None. | ||
9861 | |||
9862 | If the clip-mask is set to None, the pixels are always drawn | ||
9863 | (regardless of the clip-origin). | ||
9864 | |||
9865 | XSetClipMask can generate BadAlloc, BadGC, BadMatch, and | ||
9866 | BadPixmap errors. | ||
9867 | |||
9868 | To set the clip-mask of a given GC to the specified list of | ||
9869 | rectangles, use XSetClipRectangles. | ||
9870 | |||
9871 | XSetClipRectangles(Display *display, GC gc, int clip_x_origin, | ||
9872 | int clip_y_origin, XRectangle rectangles[], int n, int | ||
9873 | ordering); | ||
9874 | |||
9875 | display | ||
9876 | |||
9877 | Specifies the connection to the X server. | ||
9878 | |||
9879 | gc | ||
9880 | |||
9881 | Specifies the GC. | ||
9882 | |||
9883 | clip_x_origin | ||
9884 | |||
9885 | clip_y_origin | ||
9886 | |||
9887 | Specify the x and y coordinates of the clip-mask origin. | ||
9888 | |||
9889 | rectangles | ||
9890 | |||
9891 | Specifies an array of rectangles that define the clip-mask. | ||
9892 | |||
9893 | n | ||
9894 | |||
9895 | Specifies the number of rectangles. | ||
9896 | |||
9897 | ordering | ||
9898 | |||
9899 | Specifies the ordering relations on the rectangles. You can | ||
9900 | pass Unsorted, YSorted, YXSorted, or YXBanded. | ||
9901 | |||
9902 | The XSetClipRectangles function changes the clip-mask in the | ||
9903 | specified GC to the specified list of rectangles and sets the | ||
9904 | clip origin. The output is clipped to remain contained within | ||
9905 | the rectangles. The clip-origin is interpreted relative to the | ||
9906 | origin of whatever destination drawable is specified in a | ||
9907 | graphics request. The rectangle coordinates are interpreted | ||
9908 | relative to the clip-origin. The rectangles should be | ||
9909 | nonintersecting, or the graphics results will be undefined. | ||
9910 | Note that the list of rectangles can be empty, which | ||
9911 | effectively disables output. This is the opposite of passing | ||
9912 | None as the clip-mask in XCreateGC, XChangeGC, and | ||
9913 | XSetClipMask. | ||
9914 | |||
9915 | If known by the client, ordering relations on the rectangles | ||
9916 | can be specified with the ordering argument. This may provide | ||
9917 | faster operation by the server. If an incorrect ordering is | ||
9918 | specified, the X server may generate a BadMatch error, but it | ||
9919 | is not required to do so. If no error is generated, the | ||
9920 | graphics results are undefined. Unsorted means the rectangles | ||
9921 | are in arbitrary order. YSorted means that the rectangles are | ||
9922 | nondecreasing in their Y origin. YXSorted additionally | ||
9923 | constrains YSorted order in that all rectangles with an equal Y | ||
9924 | origin are nondecreasing in their X origin. YXBanded | ||
9925 | additionally constrains YXSorted by requiring that, for every | ||
9926 | possible Y scanline, all rectangles that include that scanline | ||
9927 | have an identical Y origins and Y extents. | ||
9928 | |||
9929 | XSetClipRectangles can generate BadAlloc, BadGC, BadMatch, and | ||
9930 | BadValue errors. | ||
9931 | |||
9932 | Xlib provides a set of basic functions for performing region | ||
9933 | arithmetic. For information about these functions, see section | ||
9934 | 16.5. | ||
9935 | |||
9936 | Setting the Arc Mode, Subwindow Mode, and Graphics Exposure | ||
9937 | |||
9938 | To set the arc mode of a given GC, use XSetArcMode. | ||
9939 | |||
9940 | XSetArcMode(Display *display, GC gc, int arc_mode); | ||
9941 | |||
9942 | display | ||
9943 | |||
9944 | Specifies the connection to the X server. | ||
9945 | |||
9946 | gc | ||
9947 | |||
9948 | Specifies the GC. | ||
9949 | |||
9950 | arc_mode | ||
9951 | |||
9952 | Specifies the arc mode. You can pass ArcChord or ArcPieSlice. | ||
9953 | |||
9954 | XSetArcMode can generate BadAlloc, BadGC, and BadValue errors. | ||
9955 | |||
9956 | To set the subwindow mode of a given GC, use XSetSubwindowMode. | ||
9957 | |||
9958 | XSetSubwindowMode(Display *display, GC gc, int subwindow_mode); | ||
9959 | |||
9960 | display | ||
9961 | |||
9962 | Specifies the connection to the X server. | ||
9963 | |||
9964 | gc | ||
9965 | |||
9966 | Specifies the GC. | ||
9967 | |||
9968 | subwindow_mode | ||
9969 | |||
9970 | Specifies the subwindow mode. You can pass ClipByChildren or | ||
9971 | IncludeInferiors. | ||
9972 | |||
9973 | XSetSubwindowMode can generate BadAlloc, BadGC, and BadValue | ||
9974 | errors. | ||
9975 | |||
9976 | To set the graphics-exposures flag of a given GC, use | ||
9977 | XSetGraphicsExposures. | ||
9978 | |||
9979 | XSetGraphicsExposures(Display *display, GC gc, Bool | ||
9980 | graphics_exposures); | ||
9981 | |||
9982 | display | ||
9983 | |||
9984 | Specifies the connection to the X server. | ||
9985 | |||
9986 | gc | ||
9987 | |||
9988 | Specifies the GC. | ||
9989 | |||
9990 | graphics_exposures | ||
9991 | |||
9992 | Specifies a Boolean value that indicates whether you want | ||
9993 | GraphicsExpose and NoExpose events to be reported when calling | ||
9994 | XCopyArea and XCopyPlane with this GC. | ||
9995 | |||
9996 | XSetGraphicsExposures can generate BadAlloc, BadGC, and | ||
9997 | BadValue errors. | ||
9998 | |||
9999 | Chapter 8. Graphics Functions | ||
10000 | |||
10001 | Table of Contents | ||
10002 | |||
10003 | Clearing Areas | ||
10004 | Copying Areas | ||
10005 | Drawing Points, Lines, Rectangles, and Arcs | ||
10006 | |||
10007 | Drawing Single and Multiple Points | ||
10008 | Drawing Single and Multiple Lines | ||
10009 | Drawing Single and Multiple Rectangles | ||
10010 | Drawing Single and Multiple Arcs | ||
10011 | |||
10012 | Filling Areas | ||
10013 | |||
10014 | Filling Single and Multiple Rectangles | ||
10015 | Filling a Single Polygon | ||
10016 | Filling Single and Multiple Arcs | ||
10017 | |||
10018 | Font Metrics | ||
10019 | |||
10020 | Loading and Freeing Fonts | ||
10021 | Obtaining and Freeing Font Names and Information | ||
10022 | Computing Character String Sizes | ||
10023 | Computing Logical Extents | ||
10024 | Querying Character String Sizes | ||
10025 | |||
10026 | Drawing Text | ||
10027 | |||
10028 | Drawing Complex Text | ||
10029 | Drawing Text Characters | ||
10030 | Drawing Image Text Characters | ||
10031 | |||
10032 | Transferring Images between Client and Server | ||
10033 | |||
10034 | Once you have established a connection to a display, you can | ||
10035 | use the Xlib graphics functions to: | ||
10036 | * Clear and copy areas | ||
10037 | * Draw points, lines, rectangles, and arcs | ||
10038 | * Fill areas | ||
10039 | * Manipulate fonts | ||
10040 | * Draw text | ||
10041 | * Transfer images between clients and the server | ||
10042 | |||
10043 | If the same drawable and GC is used for each call, Xlib batches | ||
10044 | back-to-back calls to XDrawPoint, XDrawLine, XDrawRectangle, | ||
10045 | XFillArc, and XFillRectangle. Note that this reduces the total | ||
10046 | number of requests sent to the server. | ||
10047 | |||
10048 | Clearing Areas | ||
10049 | |||
10050 | Xlib provides functions that you can use to clear an area or | ||
10051 | the entire window. Because pixmaps do not have defined | ||
10052 | backgrounds, they cannot be filled by using the functions | ||
10053 | described in this section. Instead, to accomplish an analogous | ||
10054 | operation on a pixmap, you should use XFillRectangle, which | ||
10055 | sets the pixmap to a known value. | ||
10056 | |||
10057 | To clear a rectangular area of a given window, use XClearArea. | ||
10058 | |||
10059 | XClearArea(Display *display, Window w, int x, int y, unsigned | ||
10060 | int width, unsigned int height, Bool exposures); | ||
10061 | |||
10062 | display | ||
10063 | |||
10064 | Specifies the connection to the X server. | ||
10065 | |||
10066 | w | ||
10067 | |||
10068 | Specifies the window. | ||
10069 | |||
10070 | x | ||
10071 | |||
10072 | y | ||
10073 | |||
10074 | Specify the x and y coordinates, which are relative to the | ||
10075 | origin of the window and specify the upper-left corner of the | ||
10076 | rectangle. | ||
10077 | |||
10078 | width | ||
10079 | |||
10080 | height | ||
10081 | |||
10082 | Specify the width and height, which are the dimensions of the | ||
10083 | rectangle. | ||
10084 | |||
10085 | exposures | ||
10086 | |||
10087 | Specifies a Boolean value that indicates if Expose events are | ||
10088 | to be generated. | ||
10089 | |||
10090 | The XClearArea function paints a rectangular area in the | ||
10091 | specified window according to the specified dimensions with the | ||
10092 | window's background pixel or pixmap. The subwindow-mode | ||
10093 | effectively is ClipByChildren. If width is zero, it is replaced | ||
10094 | with the current width of the window minus x. If height is | ||
10095 | zero, it is replaced with the current height of the window | ||
10096 | minus y. If the window has a defined background tile, the | ||
10097 | rectangle clipped by any children is filled with this tile. If | ||
10098 | the window has background None, the contents of the window are | ||
10099 | not changed. In either case, if exposures is True, one or more | ||
10100 | Expose events are generated for regions of the rectangle that | ||
10101 | are either visible or are being retained in a backing store. If | ||
10102 | you specify a window whose class is InputOnly, a BadMatch error | ||
10103 | results. | ||
10104 | |||
10105 | XClearArea can generate BadMatch, BadValue, and BadWindow | ||
10106 | errors. | ||
10107 | |||
10108 | To clear the entire area in a given window, use XClearWindow. | ||
10109 | |||
10110 | XClearWindow(Display *display, Window w); | ||
10111 | |||
10112 | display | ||
10113 | |||
10114 | Specifies the connection to the X server. | ||
10115 | |||
10116 | w | ||
10117 | |||
10118 | Specifies the window. | ||
10119 | |||
10120 | The XClearWindow function clears the entire area in the | ||
10121 | specified window and is equivalent to XClearArea (display, w, | ||
10122 | 0, 0, 0, 0, False). If the window has a defined background | ||
10123 | tile, the rectangle is tiled with a plane-mask of all ones and | ||
10124 | GXcopy function. If the window has background None, the | ||
10125 | contents of the window are not changed. If you specify a window | ||
10126 | whose class is InputOnly, a BadMatch error results. | ||
10127 | |||
10128 | XClearWindow can generate BadMatch and BadWindow errors. | ||
10129 | |||
10130 | Copying Areas | ||
10131 | |||
10132 | Xlib provides functions that you can use to copy an area or a | ||
10133 | bit plane. | ||
10134 | |||
10135 | To copy an area between drawables of the same root and depth, | ||
10136 | use XCopyArea. | ||
10137 | |||
10138 | XCopyArea(Display *display, Drawable src, Drawable dest, GC gc, | ||
10139 | int src_x, int src_y, unsigned int width, unsigned int height, | ||
10140 | int dest_x, int dest_y); | ||
10141 | |||
10142 | display | ||
10143 | |||
10144 | Specifies the connection to the X server. | ||
10145 | |||
10146 | src | ||
10147 | |||
10148 | dest | ||
10149 | |||
10150 | Specify the source and destination rectangles to be combined. | ||
10151 | |||
10152 | gc | ||
10153 | |||
10154 | Specifies the GC. | ||
10155 | |||
10156 | src_x | ||
10157 | |||
10158 | src_y | ||
10159 | |||
10160 | Specify the x and y coordinates, which are relative to the | ||
10161 | origin of the source rectangle and specify its upper-left | ||
10162 | corner. | ||
10163 | |||
10164 | width | ||
10165 | |||
10166 | height | ||
10167 | |||
10168 | Specify the width and height, which are the dimensions of both | ||
10169 | the source and destination rectangles. | ||
10170 | |||
10171 | dest_x | ||
10172 | |||
10173 | dest_y | ||
10174 | |||
10175 | Specify the x and y coordinates, which are relative to the | ||
10176 | origin of the destination rectangle and specify its upper-left | ||
10177 | corner. | ||
10178 | |||
10179 | The XCopyArea function combines the specified rectangle of src | ||
10180 | with the specified rectangle of dest. The drawables must have | ||
10181 | the same root and depth, or a BadMatch error results. | ||
10182 | |||
10183 | If regions of the source rectangle are obscured and have not | ||
10184 | been retained in backing store or if regions outside the | ||
10185 | boundaries of the source drawable are specified, those regions | ||
10186 | are not copied. Instead, the following occurs on all | ||
10187 | corresponding destination regions that are either visible or | ||
10188 | are retained in backing store. If the destination is a window | ||
10189 | with a background other than None, corresponding regions of the | ||
10190 | destination are tiled with that background (with plane-mask of | ||
10191 | all ones and GXcopy function). Regardless of tiling or whether | ||
10192 | the destination is a window or a pixmap, if graphics-exposures | ||
10193 | is True, then GraphicsExpose events for all corresponding | ||
10194 | destination regions are generated. If graphics-exposures is | ||
10195 | True but no GraphicsExpose events are generated, a NoExpose | ||
10196 | event is generated. Note that by default graphics-exposures is | ||
10197 | True in new GCs. | ||
10198 | |||
10199 | This function uses these GC components: function, plane-mask, | ||
10200 | subwindow-mode, graphics-exposures, clip-x-origin, | ||
10201 | clip-y-origin, and clip-mask. | ||
10202 | |||
10203 | XCopyArea can generate BadDrawable, BadGC, and BadMatch errors. | ||
10204 | |||
10205 | To copy a single bit plane of a given drawable, use XCopyPlane. | ||
10206 | |||
10207 | XCopyPlane(Display *display, Drawable src, Drawable dest, GC | ||
10208 | gc, int src_x, int src_y, unsigned int width, unsigned int | ||
10209 | height, int dest_x, int dest_y, unsigned long plane); | ||
10210 | |||
10211 | display | ||
10212 | |||
10213 | Specifies the connection to the X server. | ||
10214 | |||
10215 | src | ||
10216 | |||
10217 | dest | ||
10218 | |||
10219 | Specify the source and destination rectangles to be combined. | ||
10220 | |||
10221 | gc | ||
10222 | |||
10223 | Specifies the GC. | ||
10224 | |||
10225 | src_x | ||
10226 | |||
10227 | src_y | ||
10228 | |||
10229 | Specify the x and y coordinates, which are relative to the | ||
10230 | origin of the source rectangle and specify its upper-left | ||
10231 | corner. | ||
10232 | |||
10233 | width | ||
10234 | |||
10235 | height | ||
10236 | |||
10237 | Specify the width and height, which are the dimensions of both | ||
10238 | the source and destination rectangles. | ||
10239 | |||
10240 | dest_x | ||
10241 | |||
10242 | dest_y | ||
10243 | |||
10244 | Specify the x and y coordinates, which are relative to the | ||
10245 | origin of the destination rectangle and specify its upper-left | ||
10246 | corner. | ||
10247 | |||
10248 | plane | ||
10249 | |||
10250 | Specifies the bit plane. You must set exactly one bit to 1. | ||
10251 | |||
10252 | The XCopyPlane function uses a single bit plane of the | ||
10253 | specified source rectangle combined with the specified GC to | ||
10254 | modify the specified rectangle of dest. The drawables must have | ||
10255 | the same root but need not have the same depth. If the | ||
10256 | drawables do not have the same root, a BadMatch error results. | ||
10257 | If plane does not have exactly one bit set to 1 and the value | ||
10258 | of plane is not less than %2 sup n%, where n is the depth of | ||
10259 | src, a BadValue error results. | ||
10260 | |||
10261 | Effectively, XCopyPlane forms a pixmap of the same depth as the | ||
10262 | rectangle of dest and with a size specified by the source | ||
10263 | region. It uses the foreground/background pixels in the GC | ||
10264 | (foreground everywhere the bit plane in src contains a bit set | ||
10265 | to 1, background everywhere the bit plane in src contains a bit | ||
10266 | set to 0) and the equivalent of a CopyArea protocol request is | ||
10267 | performed with all the same exposure semantics. This can also | ||
10268 | be thought of as using the specified region of the source bit | ||
10269 | plane as a stipple with a fill-style of FillOpaqueStippled for | ||
10270 | filling a rectangular area of the destination. | ||
10271 | |||
10272 | This function uses these GC components: function, plane-mask, | ||
10273 | foreground, background, subwindow-mode, graphics-exposures, | ||
10274 | clip-x-origin, clip-y-origin, and clip-mask. | ||
10275 | |||
10276 | XCopyPlane can generate BadDrawable, BadGC, BadMatch, and | ||
10277 | BadValue errors. | ||
10278 | |||
10279 | Drawing Points, Lines, Rectangles, and Arcs | ||
10280 | |||
10281 | Xlib provides functions that you can use to draw: | ||
10282 | * A single point or multiple points | ||
10283 | * A single line or multiple lines | ||
10284 | * A single rectangle or multiple rectangles | ||
10285 | * A single arc or multiple arcs | ||
10286 | |||
10287 | Some of the functions described in the following sections use | ||
10288 | these structures: | ||
10289 | |||
10290 | |||
10291 | |||
10292 | typedef struct { | ||
10293 | short x1, y1, x2, y2; | ||
10294 | } XSegment; | ||
10295 | |||
10296 | |||
10297 | |||
10298 | typedef struct { | ||
10299 | short x, y; | ||
10300 | } XPoint; | ||
10301 | |||
10302 | |||
10303 | |||
10304 | typedef struct { | ||
10305 | short x, y; | ||
10306 | unsigned short width, height; | ||
10307 | } XRectangle; | ||
10308 | |||
10309 | |||
10310 | |||
10311 | typedef struct { | ||
10312 | short x, y; | ||
10313 | unsigned short width, height; | ||
10314 | short angle1, angle2; /* Degrees * 64 */ | ||
10315 | } XArc; | ||
10316 | |||
10317 | All x and y members are signed integers. The width and height | ||
10318 | members are 16-bit unsigned integers. You should be careful not | ||
10319 | to generate coordinates and sizes out of the 16-bit ranges, | ||
10320 | because the protocol only has 16-bit fields for these values. | ||
10321 | |||
10322 | Drawing Single and Multiple Points | ||
10323 | |||
10324 | To draw a single point in a given drawable, use XDrawPoint. | ||
10325 | |||
10326 | XDrawPoint(Display *display, Drawable d, GC gc, int x, int y); | ||
10327 | |||
10328 | display | ||
10329 | |||
10330 | Specifies the connection to the X server. | ||
10331 | |||
10332 | d | ||
10333 | |||
10334 | Specifies the drawable. | ||
10335 | |||
10336 | gc | ||
10337 | |||
10338 | Specifies the GC. | ||
10339 | |||
10340 | x | ||
10341 | |||
10342 | y | ||
10343 | |||
10344 | Specify the x and y coordinates where you want the point drawn. | ||
10345 | |||
10346 | To draw multiple points in a given drawable, use XDrawPoints. | ||
10347 | |||
10348 | XDrawPoints(Display *display, Drawable d, GC gc, XPoint | ||
10349 | *points, int npoints, int mode); | ||
10350 | |||
10351 | display | ||
10352 | |||
10353 | Specifies the connection to the X server. | ||
10354 | |||
10355 | d | ||
10356 | |||
10357 | Specifies the drawable. | ||
10358 | |||
10359 | gc | ||
10360 | |||
10361 | Specifies the GC. | ||
10362 | |||
10363 | points | ||
10364 | |||
10365 | Specifies an array of points. | ||
10366 | |||
10367 | npoints | ||
10368 | |||
10369 | Specifies the number of points in the array. | ||
10370 | |||
10371 | mode | ||
10372 | |||
10373 | Specifies the coordinate mode. You can pass CoordModeOrigin or | ||
10374 | CoordModePrevious. | ||
10375 | |||
10376 | The XDrawPoint function uses the foreground pixel and function | ||
10377 | components of the GC to draw a single point into the specified | ||
10378 | drawable; XDrawPoints draws multiple points this way. | ||
10379 | CoordModeOrigin treats all coordinates as relative to the | ||
10380 | origin, and CoordModePrevious treats all coordinates after the | ||
10381 | first as relative to the previous point. XDrawPoints draws the | ||
10382 | points in the order listed in the array. | ||
10383 | |||
10384 | Both functions use these GC components: function, plane-mask, | ||
10385 | foreground, subwindow-mode, clip-x-origin, clip-y-origin, and | ||
10386 | clip-mask. | ||
10387 | |||
10388 | XDrawPoint can generate BadDrawable, BadGC, and BadMatch | ||
10389 | errors. XDrawPoints can generate BadDrawable, BadGC, BadMatch, | ||
10390 | and BadValue errors. | ||
10391 | |||
10392 | Drawing Single and Multiple Lines | ||
10393 | |||
10394 | To draw a single line between two points in a given drawable, | ||
10395 | use XDrawLine. | ||
10396 | |||
10397 | XDrawLine(Display *display, Drawable d, GC gc, int x1, int y1, | ||
10398 | int x2, int y2); | ||
10399 | |||
10400 | display | ||
10401 | |||
10402 | Specifies the connection to the X server. | ||
10403 | |||
10404 | d | ||
10405 | |||
10406 | Specifies the drawable. | ||
10407 | |||
10408 | gc | ||
10409 | |||
10410 | Specifies the GC. | ||
10411 | |||
10412 | x1 | ||
10413 | |||
10414 | y1 | ||
10415 | |||
10416 | x2 | ||
10417 | |||
10418 | y2 | ||
10419 | |||
10420 | Specify the points (x1, y1) and (x2, y2) to be connected. | ||
10421 | |||
10422 | To draw multiple lines in a given drawable, use XDrawLines. | ||
10423 | |||
10424 | XDrawLines(Display *display, Drawable d, GC gc, XPoint *points, | ||
10425 | int npoints, int mode); | ||
10426 | |||
10427 | display | ||
10428 | |||
10429 | Specifies the connection to the X server. | ||
10430 | |||
10431 | d | ||
10432 | |||
10433 | Specifies the drawable. | ||
10434 | |||
10435 | gc | ||
10436 | |||
10437 | Specifies the GC. | ||
10438 | |||
10439 | points | ||
10440 | |||
10441 | Specifies an array of points. | ||
10442 | |||
10443 | npoints | ||
10444 | |||
10445 | Specifies the number of points in the array. | ||
10446 | |||
10447 | mode | ||
10448 | |||
10449 | Specifies the coordinate mode. You can pass CoordModeOrigin or | ||
10450 | CoordModePrevious. | ||
10451 | |||
10452 | To draw multiple, unconnected lines in a given drawable, use | ||
10453 | XDrawSegments. | ||
10454 | |||
10455 | XDrawSegments(Display *display, Drawable d, GC gc, XSegment | ||
10456 | *segments, int nsegments); | ||
10457 | |||
10458 | display | ||
10459 | |||
10460 | Specifies the connection to the X server. | ||
10461 | |||
10462 | d | ||
10463 | |||
10464 | Specifies the drawable. | ||
10465 | |||
10466 | gc | ||
10467 | |||
10468 | Specifies the GC. | ||
10469 | |||
10470 | segments | ||
10471 | |||
10472 | Specifies an array of segments. | ||
10473 | |||
10474 | nsegments | ||
10475 | |||
10476 | Specifies the number of segments in the array. | ||
10477 | |||
10478 | The XDrawLine function uses the components of the specified GC | ||
10479 | to draw a line between the specified set of points (x1, y1) and | ||
10480 | (x2, y2). It does not perform joining at coincident endpoints. | ||
10481 | For any given line, XDrawLine does not draw a pixel more than | ||
10482 | once. If lines intersect, the intersecting pixels are drawn | ||
10483 | multiple times. | ||
10484 | |||
10485 | The XDrawLines function uses the components of the specified GC | ||
10486 | to draw npoints-1 lines between each pair of points (point[i], | ||
10487 | point[i+1]) in the array of XPoint structures. It draws the | ||
10488 | lines in the order listed in the array. The lines join | ||
10489 | correctly at all intermediate points, and if the first and last | ||
10490 | points coincide, the first and last lines also join correctly. | ||
10491 | For any given line, XDrawLines does not draw a pixel more than | ||
10492 | once. If thin (zero line-width) lines intersect, the | ||
10493 | intersecting pixels are drawn multiple times. If wide lines | ||
10494 | intersect, the intersecting pixels are drawn only once, as | ||
10495 | though the entire PolyLine protocol request were a single, | ||
10496 | filled shape. CoordModeOrigin treats all coordinates as | ||
10497 | relative to the origin, and CoordModePrevious treats all | ||
10498 | coordinates after the first as relative to the previous point. | ||
10499 | |||
10500 | The XDrawSegments function draws multiple, unconnected lines. | ||
10501 | For each segment, XDrawSegments draws a line between (x1, y1) | ||
10502 | and (x2, y2). It draws the lines in the order listed in the | ||
10503 | array of XSegment structures and does not perform joining at | ||
10504 | coincident endpoints. For any given line, XDrawSegments does | ||
10505 | not draw a pixel more than once. If lines intersect, the | ||
10506 | intersecting pixels are drawn multiple times. | ||
10507 | |||
10508 | All three functions use these GC components: function, | ||
10509 | plane-mask, line-width, line-style, cap-style, fill-style, | ||
10510 | subwindow-mode, clip-x-origin, clip-y-origin, and clip-mask. | ||
10511 | The XDrawLines function also uses the join-style GC component. | ||
10512 | All three functions also use these GC mode-dependent | ||
10513 | components: foreground, background, tile, stipple, | ||
10514 | tile-stipple-x-origin, tile-stipple-y-origin, dash-offset, and | ||
10515 | dash-list. | ||
10516 | |||
10517 | XDrawLine, XDrawLines, and XDrawSegments can generate | ||
10518 | BadDrawable, BadGC, and BadMatch errors. XDrawLines also can | ||
10519 | generate BadValue errors. | ||
10520 | |||
10521 | Drawing Single and Multiple Rectangles | ||
10522 | |||
10523 | To draw the outline of a single rectangle in a given drawable, | ||
10524 | use XDrawRectangle. | ||
10525 | |||
10526 | XDrawRectangle(Display *display, Drawable d, GC gc, int x, int | ||
10527 | y, unsigned int width, unsigned int height); | ||
10528 | |||
10529 | display | ||
10530 | |||
10531 | Specifies the connection to the X server. | ||
10532 | |||
10533 | d | ||
10534 | |||
10535 | Specifies the drawable. | ||
10536 | |||
10537 | gc | ||
10538 | |||
10539 | Specifies the GC. | ||
10540 | |||
10541 | x | ||
10542 | |||
10543 | y | ||
10544 | |||
10545 | Specify the x and y coordinates, which specify the upper-left | ||
10546 | corner of the rectangle. | ||
10547 | |||
10548 | width | ||
10549 | |||
10550 | height | ||
10551 | |||
10552 | Specify the width and height, which specify the dimensions of | ||
10553 | the rectangle. | ||
10554 | |||
10555 | To draw the outline of multiple rectangles in a given drawable, | ||
10556 | use XDrawRectangles. | ||
10557 | |||
10558 | XDrawRectangles(Display *display, Drawable d, GC gc, XRectangle | ||
10559 | rectangles[], int nrectangles); | ||
10560 | |||
10561 | display | ||
10562 | |||
10563 | Specifies the connection to the X server. | ||
10564 | |||
10565 | d | ||
10566 | |||
10567 | Specifies the drawable. | ||
10568 | |||
10569 | gc | ||
10570 | |||
10571 | Specifies the GC. | ||
10572 | |||
10573 | rectangles | ||
10574 | |||
10575 | Specifies an array of rectangles. | ||
10576 | |||
10577 | nrectangles | ||
10578 | |||
10579 | Specifies the number of rectangles in the array. | ||
10580 | |||
10581 | The XDrawRectangle and XDrawRectangles functions draw the | ||
10582 | outlines of the specified rectangle or rectangles as if a | ||
10583 | five-point PolyLine protocol request were specified for each | ||
10584 | rectangle: | ||
10585 | * [x,y] [x+width,y] [x+width,y+height] [x,y+height] [x,y] | ||
10586 | |||
10587 | For the specified rectangle or rectangles, these functions do | ||
10588 | not draw a pixel more than once. XDrawRectangles draws the | ||
10589 | rectangles in the order listed in the array. If rectangles | ||
10590 | intersect, the intersecting pixels are drawn multiple times. | ||
10591 | |||
10592 | Both functions use these GC components: function, plane-mask, | ||
10593 | line-width, line-style, cap-style, join-style, fill-style, | ||
10594 | subwindow-mode, clip-x-origin, clip-y-origin, and clip-mask. | ||
10595 | They also use these GC mode-dependent components: foreground, | ||
10596 | background, tile, stipple, tile-stipple-x-origin, | ||
10597 | tile-stipple-y-origin, dash-offset, and dash-list. | ||
10598 | |||
10599 | XDrawRectangle and XDrawRectangles can generate BadDrawable, | ||
10600 | BadGC, and BadMatch errors. | ||
10601 | |||
10602 | Drawing Single and Multiple Arcs | ||
10603 | |||
10604 | To draw a single arc in a given drawable, use XDrawArc. | ||
10605 | |||
10606 | XDrawArc(Display *display, Drawable d, GC gc, int x, int y, | ||
10607 | unsigned int width, unsigned int height, int angle1, int | ||
10608 | angle2); | ||
10609 | |||
10610 | display | ||
10611 | |||
10612 | Specifies the connection to the X server. | ||
10613 | |||
10614 | d | ||
10615 | |||
10616 | Specifies the drawable. | ||
10617 | |||
10618 | gc | ||
10619 | |||
10620 | Specifies the GC. | ||
10621 | |||
10622 | x | ||
10623 | |||
10624 | y | ||
10625 | |||
10626 | Specify the x and y coordinates, which are relative to the | ||
10627 | origin of the drawable and specify the upper-left corner of the | ||
10628 | bounding rectangle. | ||
10629 | |||
10630 | width | ||
10631 | |||
10632 | height | ||
10633 | |||
10634 | Specify the width and height, which are the major and minor | ||
10635 | axes of the arc. | ||
10636 | |||
10637 | angle1 | ||
10638 | |||
10639 | Specifies the start of the arc relative to the three-o'clock | ||
10640 | position from the center, in units of degrees * 64. | ||
10641 | |||
10642 | angle2 | ||
10643 | |||
10644 | Specifies the path and extent of the arc relative to the start | ||
10645 | of the arc, in units of degrees * 64. | ||
10646 | |||
10647 | To draw multiple arcs in a given drawable, use XDrawArcs. | ||
10648 | |||
10649 | XDrawArcs(Display *display, Drawable d, GC gc, XArc *arcs, int | ||
10650 | narcs); | ||
10651 | |||
10652 | display | ||
10653 | |||
10654 | Specifies the connection to the X server. | ||
10655 | |||
10656 | d | ||
10657 | |||
10658 | Specifies the drawable. | ||
10659 | |||
10660 | gc | ||
10661 | |||
10662 | Specifies the GC. | ||
10663 | |||
10664 | arcs | ||
10665 | |||
10666 | Specifies an array of arcs. | ||
10667 | |||
10668 | narcs | ||
10669 | |||
10670 | Specifies the number of arcs in the array. | ||
10671 | |||
10672 | delim %% XDrawArc draws a single circular or elliptical arc, | ||
10673 | and XDrawArcs draws multiple circular or elliptical arcs. Each | ||
10674 | arc is specified by a rectangle and two angles. The center of | ||
10675 | the circle or ellipse is the center of the rectangle, and the | ||
10676 | major and minor axes are specified by the width and height. | ||
10677 | Positive angles indicate counterclockwise motion, and negative | ||
10678 | angles indicate clockwise motion. If the magnitude of angle2 is | ||
10679 | greater than 360 degrees, XDrawArc or XDrawArcs truncates it to | ||
10680 | 360 degrees. | ||
10681 | |||
10682 | For an arc specified as %[ ~x, ~y, ~width , ~height, ~angle1, | ||
10683 | ~angle2 ]%, the origin of the major and minor axes is at % [ x | ||
10684 | +^ {width over 2} , ~y +^ {height over 2} ]%, and the | ||
10685 | infinitely thin path describing the entire circle or ellipse | ||
10686 | intersects the horizontal axis at % [ x, ~y +^ {height over 2} | ||
10687 | ]% and % [ x +^ width , ~y +^ { height over 2 }] % and | ||
10688 | intersects the vertical axis at % [ x +^ { width over 2 } , ~y | ||
10689 | ]% and % [ x +^ { width over 2 }, ~y +^ height ]%. These | ||
10690 | coordinates can be fractional and so are not truncated to | ||
10691 | discrete coordinates. The path should be defined by the ideal | ||
10692 | mathematical path. For a wide line with line-width lw, the | ||
10693 | bounding outlines for filling are given by the two infinitely | ||
10694 | thin paths consisting of all points whose perpendicular | ||
10695 | distance from the path of the circle/ellipse is equal to lw/2 | ||
10696 | (which may be a fractional value). The cap-style and join-style | ||
10697 | are applied the same as for a line corresponding to the tangent | ||
10698 | of the circle/ellipse at the endpoint. | ||
10699 | |||
10700 | For an arc specified as % [ ~x, ~y, ~width, ~height, ~angle1, | ||
10701 | ~angle2 ]%, the angles must be specified in the effectively | ||
10702 | skewed coordinate system of the ellipse (for a circle, the | ||
10703 | angles and coordinate systems are identical). The relationship | ||
10704 | between these angles and angles expressed in the normal | ||
10705 | coordinate system of the screen (as measured with a protractor) | ||
10706 | is as follows: | ||
10707 | |||
10708 | % roman "skewed-angle" ~ = ~ atan left ( tan ( roman "normal-angle" ) | ||
10709 | * width over height right ) +^ adjust% | ||
10710 | |||
10711 | The skewed-angle and normal-angle are expressed in radians | ||
10712 | (rather than in degrees scaled by 64) in the range % [ 0 , ~2 | ||
10713 | pi ]% and where atan returns a value in the range % [ - pi over | ||
10714 | 2 , ~pi over 2 ] % and adjust is: | ||
10715 | |||
10716 | |||
10717 | |||
10718 | %0% for normal-angle in the range % [ 0 , ~pi over 2 ]% | ||
10719 | %pi% for normal-angle in the range % [ pi over 2 , ~{3 pi} over 2 ] | ||
10720 | % | ||
10721 | %2 pi% for normal-angle in the range % [ {3 pi} over 2 , ~2 pi ]% | ||
10722 | |||
10723 | For any given arc, XDrawArc and XDrawArcs do not draw a pixel | ||
10724 | more than once. If two arcs join correctly and if the | ||
10725 | line-width is greater than zero and the arcs intersect, | ||
10726 | XDrawArc and XDrawArcs do not draw a pixel more than once. | ||
10727 | Otherwise, the intersecting pixels of intersecting arcs are | ||
10728 | drawn multiple times. Specifying an arc with one endpoint and a | ||
10729 | clockwise extent draws the same pixels as specifying the other | ||
10730 | endpoint and an equivalent counterclockwise extent, except as | ||
10731 | it affects joins. | ||
10732 | |||
10733 | If the last point in one arc coincides with the first point in | ||
10734 | the following arc, the two arcs will join correctly. If the | ||
10735 | first point in the first arc coincides with the last point in | ||
10736 | the last arc, the two arcs will join correctly. By specifying | ||
10737 | one axis to be zero, a horizontal or vertical line can be | ||
10738 | drawn. Angles are computed based solely on the coordinate | ||
10739 | system and ignore the aspect ratio. | ||
10740 | |||
10741 | Both functions use these GC components: function, plane-mask, | ||
10742 | line-width, line-style, cap-style, join-style, fill-style, | ||
10743 | subwindow-mode, clip-x-origin, clip-y-origin, and clip-mask. | ||
10744 | They also use these GC mode-dependent components: foreground, | ||
10745 | background, tile, stipple, tile-stipple-x-origin, | ||
10746 | tile-stipple-y-origin, dash-offset, and dash-list. | ||
10747 | |||
10748 | XDrawArc and XDrawArcs can generate BadDrawable, BadGC, and | ||
10749 | BadMatch errors. | ||
10750 | |||
10751 | Filling Areas | ||
10752 | |||
10753 | Xlib provides functions that you can use to fill: | ||
10754 | * A single rectangle or multiple rectangles | ||
10755 | * A single polygon | ||
10756 | * A single arc or multiple arcs | ||
10757 | |||
10758 | Filling Single and Multiple Rectangles | ||
10759 | |||
10760 | To fill a single rectangular area in a given drawable, use | ||
10761 | XFillRectangle. | ||
10762 | |||
10763 | XFillRectangle(Display *display, Drawable d, GC gc, int x, int | ||
10764 | y, unsigned int width, unsigned int height); | ||
10765 | |||
10766 | display | ||
10767 | |||
10768 | Specifies the connection to the X server. | ||
10769 | |||
10770 | d | ||
10771 | |||
10772 | Specifies the drawable. | ||
10773 | |||
10774 | gc | ||
10775 | |||
10776 | Specifies the GC. | ||
10777 | |||
10778 | x | ||
10779 | |||
10780 | y | ||
10781 | |||
10782 | Specify the x and y coordinates, which are relative to the | ||
10783 | origin of the drawable and specify the upper-left corner of the | ||
10784 | rectangle. | ||
10785 | |||
10786 | width | ||
10787 | |||
10788 | height | ||
10789 | |||
10790 | Specify the width and height, which are the dimensions of the | ||
10791 | rectangle to be filled. | ||
10792 | |||
10793 | To fill multiple rectangular areas in a given drawable, use | ||
10794 | XFillRectangles. | ||
10795 | |||
10796 | XFillRectangles(Display *display, Drawable d, GC gc, XRectangle | ||
10797 | *rectangles, int nrectangles); | ||
10798 | |||
10799 | display | ||
10800 | |||
10801 | Specifies the connection to the X server. | ||
10802 | |||
10803 | d | ||
10804 | |||
10805 | Specifies the drawable. | ||
10806 | |||
10807 | gc | ||
10808 | |||
10809 | Specifies the GC. | ||
10810 | |||
10811 | rectangles | ||
10812 | |||
10813 | Specifies an array of rectangles. | ||
10814 | |||
10815 | nrectangles | ||
10816 | |||
10817 | Specifies the number of rectangles in the array. | ||
10818 | |||
10819 | The XFillRectangle and XFillRectangles functions fill the | ||
10820 | specified rectangle or rectangles as if a four-point | ||
10821 | FillPolygon protocol request were specified for each rectangle: | ||
10822 | |||
10823 | [x,y] [x+width,y] [x+width,y+height] [x,y+height] | ||
10824 | |||
10825 | Each function uses the x and y coordinates, width and height | ||
10826 | dimensions, and GC you specify. | ||
10827 | |||
10828 | XFillRectangles fills the rectangles in the order listed in the | ||
10829 | array. For any given rectangle, XFillRectangle and | ||
10830 | XFillRectangles do not draw a pixel more than once. If | ||
10831 | rectangles intersect, the intersecting pixels are drawn | ||
10832 | multiple times. | ||
10833 | |||
10834 | Both functions use these GC components: function, plane-mask, | ||
10835 | fill-style, subwindow-mode, clip-x-origin, clip-y-origin, and | ||
10836 | clip-mask. They also use these GC mode-dependent components: | ||
10837 | foreground, background, tile, stipple, tile-stipple-x-origin, | ||
10838 | and tile-stipple-y-origin. | ||
10839 | |||
10840 | XFillRectangle and XFillRectangles can generate BadDrawable, | ||
10841 | BadGC, and BadMatch errors. | ||
10842 | |||
10843 | Filling a Single Polygon | ||
10844 | |||
10845 | To fill a polygon area in a given drawable, use XFillPolygon. | ||
10846 | |||
10847 | XFillPolygon(Display *display, Drawable d, GC gc, XPoint | ||
10848 | *points, int npoints, int shape, int mode); | ||
10849 | |||
10850 | display | ||
10851 | |||
10852 | Specifies the connection to the X server. | ||
10853 | |||
10854 | d | ||
10855 | |||
10856 | Specifies the drawable. | ||
10857 | |||
10858 | gc | ||
10859 | |||
10860 | Specifies the GC. | ||
10861 | |||
10862 | points | ||
10863 | |||
10864 | Specifies an array of points. | ||
10865 | |||
10866 | npoints | ||
10867 | |||
10868 | Specifies the number of points in the array. | ||
10869 | |||
10870 | shape | ||
10871 | |||
10872 | Specifies a shape that helps the server to improve performance. | ||
10873 | You can pass Complex, Convex, or Nonconvex. | ||
10874 | |||
10875 | mode | ||
10876 | |||
10877 | Specifies the coordinate mode. You can pass CoordModeOrigin or | ||
10878 | CoordModePrevious. | ||
10879 | |||
10880 | XFillPolygon fills the region closed by the specified path. The | ||
10881 | path is closed automatically if the last point in the list does | ||
10882 | not coincide with the first point. XFillPolygon does not draw a | ||
10883 | pixel of the region more than once. CoordModeOrigin treats all | ||
10884 | coordinates as relative to the origin, and CoordModePrevious | ||
10885 | treats all coordinates after the first as relative to the | ||
10886 | previous point. | ||
10887 | |||
10888 | Depending on the specified shape, the following occurs: | ||
10889 | * If shape is Complex, the path may self-intersect. Note that | ||
10890 | contiguous coincident points in the path are not treated as | ||
10891 | self-intersection. | ||
10892 | * If shape is Convex, for every pair of points inside the | ||
10893 | polygon, the line segment connecting them does not | ||
10894 | intersect the path. If known by the client, specifying | ||
10895 | Convex can improve performance. If you specify Convex for a | ||
10896 | path that is not convex, the graphics results are | ||
10897 | undefined. | ||
10898 | * If shape is Nonconvex, the path does not self-intersect, | ||
10899 | but the shape is not wholly convex. If known by the client, | ||
10900 | specifying Nonconvex instead of Complex may improve | ||
10901 | performance. If you specify Nonconvex for a | ||
10902 | self-intersecting path, the graphics results are undefined. | ||
10903 | |||
10904 | The fill-rule of the GC controls the filling behavior of | ||
10905 | self-intersecting polygons. | ||
10906 | |||
10907 | This function uses these GC components: function, plane-mask, | ||
10908 | fill-style, fill-rule, subwindow-mode, clip-x-origin, | ||
10909 | clip-y-origin, and clip-mask. It also uses these GC | ||
10910 | mode-dependent components: foreground, background, tile, | ||
10911 | stipple, tile-stipple-x-origin, and tile-stipple-y-origin. | ||
10912 | |||
10913 | XFillPolygon can generate BadDrawable, BadGC, BadMatch, and | ||
10914 | BadValue errors. | ||
10915 | |||
10916 | Filling Single and Multiple Arcs | ||
10917 | |||
10918 | To fill a single arc in a given drawable, use XFillArc. | ||
10919 | |||
10920 | XFillArc(Display *display, Drawable d, GC gc, int x, int y, | ||
10921 | unsigned int width, unsigned int height, int angle1, int | ||
10922 | angle2); | ||
10923 | |||
10924 | display | ||
10925 | |||
10926 | Specifies the connection to the X server. | ||
10927 | |||
10928 | d | ||
10929 | |||
10930 | Specifies the drawable. | ||
10931 | |||
10932 | gc | ||
10933 | |||
10934 | Specifies the GC. | ||
10935 | |||
10936 | x | ||
10937 | |||
10938 | y | ||
10939 | |||
10940 | Specify the x and y coordinates, which are relative to the | ||
10941 | origin of the drawable and specify the upper-left corner of the | ||
10942 | bounding rectangle. | ||
10943 | |||
10944 | width | ||
10945 | |||
10946 | height | ||
10947 | |||
10948 | Specify the width and height, which are the major and minor | ||
10949 | axes of the arc. | ||
10950 | |||
10951 | angle1 | ||
10952 | |||
10953 | Specifies the start of the arc relative to the three-o'clock | ||
10954 | position from the center, in units of degrees * 64. | ||
10955 | |||
10956 | angle2 | ||
10957 | |||
10958 | Specifies the path and extent of the arc relative to the start | ||
10959 | of the arc, in units of degrees * 64. | ||
10960 | |||
10961 | To fill multiple arcs in a given drawable, use XFillArcs. | ||
10962 | |||
10963 | XFillArcs(Display *display, Drawable d, GC gc, XArc *arcs, int | ||
10964 | narcs); | ||
10965 | |||
10966 | display | ||
10967 | |||
10968 | Specifies the connection to the X server. | ||
10969 | |||
10970 | d | ||
10971 | |||
10972 | Specifies the drawable. | ||
10973 | |||
10974 | gc | ||
10975 | |||
10976 | Specifies the GC. | ||
10977 | |||
10978 | arcs | ||
10979 | |||
10980 | Specifies an array of arcs. | ||
10981 | |||
10982 | narcs | ||
10983 | |||
10984 | Specifies the number of arcs in the array. | ||
10985 | |||
10986 | For each arc, XFillArc or XFillArcs fills the region closed by | ||
10987 | the infinitely thin path described by the specified arc and, | ||
10988 | depending on the arc-mode specified in the GC, one or two line | ||
10989 | segments. For ArcChord, the single line segment joining the | ||
10990 | endpoints of the arc is used. For ArcPieSlice, the two line | ||
10991 | segments joining the endpoints of the arc with the center point | ||
10992 | are used. XFillArcs fills the arcs in the order listed in the | ||
10993 | array. For any given arc, XFillArc and XFillArcs do not draw a | ||
10994 | pixel more than once. If regions intersect, the intersecting | ||
10995 | pixels are drawn multiple times. | ||
10996 | |||
10997 | Both functions use these GC components: function, plane-mask, | ||
10998 | fill-style, arc-mode, subwindow-mode, clip-x-origin, | ||
10999 | clip-y-origin, and clip-mask. They also use these GC | ||
11000 | mode-dependent components: foreground, background, tile, | ||
11001 | stipple, tile-stipple-x-origin, and tile-stipple-y-origin. | ||
11002 | |||
11003 | XFillArc and XFillArcs can generate BadDrawable, BadGC, and | ||
11004 | BadMatch errors. | ||
11005 | |||
11006 | Font Metrics | ||
11007 | |||
11008 | A font is a graphical description of a set of characters that | ||
11009 | are used to increase efficiency whenever a set of small, | ||
11010 | similar sized patterns are repeatedly used. | ||
11011 | |||
11012 | This section discusses how to: | ||
11013 | * Load and free fonts | ||
11014 | * Obtain and free font names | ||
11015 | * Compute character string sizes | ||
11016 | * Compute logical extents | ||
11017 | * Query character string sizes | ||
11018 | |||
11019 | The X server loads fonts whenever a program requests a new | ||
11020 | font. The server can cache fonts for quick lookup. Fonts are | ||
11021 | global across all screens in a server. Several levels are | ||
11022 | possible when dealing with fonts. Most applications simply use | ||
11023 | XLoadQueryFont to load a font and query the font metrics. | ||
11024 | |||
11025 | Characters in fonts are regarded as masks. Except for image | ||
11026 | text requests, the only pixels modified are those in which bits | ||
11027 | are set to 1 in the character. This means that it makes sense | ||
11028 | to draw text using stipples or tiles (for example, many menus | ||
11029 | gray-out unusable entries). | ||
11030 | |||
11031 | The XFontStruct structure contains all of the information for | ||
11032 | the font and consists of the font-specific information as well | ||
11033 | as a pointer to an array of XCharStruct structures for the | ||
11034 | characters contained in the font. The XFontStruct, XFontProp, | ||
11035 | and XCharStruct structures contain: | ||
11036 | |||
11037 | |||
11038 | |||
11039 | typedef struct { | ||
11040 | short lbearing; /* origin to left edge of raster */ | ||
11041 | short rbearing; /* origin to right edge of raster */ | ||
11042 | short width; /* advance to next char's origin */ | ||
11043 | short ascent; /* baseline to top edge of raster */ | ||
11044 | short descent; /* baseline to bottom edge of raster | ||
11045 | */ | ||
11046 | unsigned short attributes; /* per char flags (not predefined) */ | ||
11047 | } XCharStruct; | ||
11048 | |||
11049 | |||
11050 | |||
11051 | typedef struct { | ||
11052 | Atom name; | ||
11053 | unsigned long card32; | ||
11054 | } XFontProp; | ||
11055 | |||
11056 | |||
11057 | |||
11058 | typedef struct { /* normal 16 bit characters are two bytes */ | ||
11059 | unsigned char byte1; | ||
11060 | unsigned char byte2; | ||
11061 | } XChar2b; | ||
11062 | |||
11063 | |||
11064 | |||
11065 | typedef struct { | ||
11066 | XExtData *ext_data; /* hook for extension to hang dat | ||
11067 | a */ | ||
11068 | Font fid; /* Font id for this font */ | ||
11069 | unsigned direction; /* hint about the direction font | ||
11070 | is painted */ | ||
11071 | unsigned min_char_or_byte2; /* first character */ | ||
11072 | unsigned max_char_or_byte2; /* last character */ | ||
11073 | unsigned min_byte1; /* first row that exists */ | ||
11074 | unsigned max_byte1; /* last row that exists */ | ||
11075 | Bool all_chars_exist; /* flag if all characters have no | ||
11076 | nzero size */ | ||
11077 | unsigned default_char; /* char to print for undefined ch | ||
11078 | aracter */ | ||
11079 | int n_properties; /* how many properties there are | ||
11080 | */ | ||
11081 | XFontProp *properties; /* pointer to array of additional | ||
11082 | properties */ | ||
11083 | XCharStruct min_bounds; /* minimum bounds over all existi | ||
11084 | ng char */ | ||
11085 | XCharStruct max_bounds; /* maximum bounds over all existi | ||
11086 | ng char */ | ||
11087 | XCharStruct *per_char; /* first_char to last_char inform | ||
11088 | ation */ | ||
11089 | int ascent; /* logical extent above baseline | ||
11090 | for spacing */ | ||
11091 | int descent; /* logical descent below baseline | ||
11092 | for spacing */ | ||
11093 | } XFontStruct; | ||
11094 | |||
11095 | X supports single byte/character, two bytes/character matrix, | ||
11096 | and 16-bit character text operations. Note that any of these | ||
11097 | forms can be used with a font, but a single byte/character text | ||
11098 | request can only specify a single byte (that is, the first row | ||
11099 | of a 2-byte font). You should view 2-byte fonts as a | ||
11100 | two-dimensional matrix of defined characters: byte1 specifies | ||
11101 | the range of defined rows and byte2 defines the range of | ||
11102 | defined columns of the font. Single byte/character fonts have | ||
11103 | one row defined, and the byte2 range specified in the structure | ||
11104 | defines a range of characters. | ||
11105 | |||
11106 | The bounding box of a character is defined by the XCharStruct | ||
11107 | of that character. When characters are absent from a font, the | ||
11108 | default_char is used. When fonts have all characters of the | ||
11109 | same size, only the information in the XFontStruct min and max | ||
11110 | bounds are used. | ||
11111 | |||
11112 | The members of the XFontStruct have the following semantics: | ||
11113 | * The direction member can be either FontLeftToRight or | ||
11114 | FontRightToLeft. It is just a hint as to whether most | ||
11115 | XCharStruct elements have a positive (FontLeftToRight) or a | ||
11116 | negative (FontRightToLeft) character width metric. The core | ||
11117 | protocol defines no support for vertical text. | ||
11118 | * If the min_byte1 and max_byte1 members are both zero, | ||
11119 | min_char_or_byte2 specifies the linear character index | ||
11120 | corresponding to the first element of the per_char array, | ||
11121 | and max_char_or_byte2 specifies the linear character index | ||
11122 | of the last element. | ||
11123 | * If either min_byte1 or max_byte1 are nonzero, both | ||
11124 | min_char_or_byte2 and max_char_or_byte2 are less than 256, | ||
11125 | and the 2-byte character index values corresponding to the | ||
11126 | per_char array element N (counting from 0) are: | ||
11127 | * byte1 = N/D + min_byte1 byte2 = N\\D + min_char_or_byte2 | ||
11128 | * where: | ||
11129 | * D = max_char_or_byte2 - min_char_or_byte2 + 1 / = integer | ||
11130 | division \\ = integer modulus | ||
11131 | * If the per_char pointer is NULL, all glyphs between the | ||
11132 | first and last character indexes inclusive have the same | ||
11133 | information, as given by both min_bounds and max_bounds. | ||
11134 | * If all_chars_exist is True, all characters in the per_char | ||
11135 | array have nonzero bounding boxes. | ||
11136 | * The default_char member specifies the character that will | ||
11137 | be used when an undefined or nonexistent character is | ||
11138 | printed. The default_char is a 16-bit character (not a | ||
11139 | 2-byte character). For a font using 2-byte matrix format, | ||
11140 | the default_char has byte1 in the most-significant byte and | ||
11141 | byte2 in the least significant byte. If the default_char | ||
11142 | itself specifies an undefined or nonexistent character, no | ||
11143 | printing is performed for an undefined or nonexistent | ||
11144 | character. | ||
11145 | * The min_bounds and max_bounds members contain the most | ||
11146 | extreme values of each individual XCharStruct component | ||
11147 | over all elements of this array (and ignore nonexistent | ||
11148 | characters). The bounding box of the font (the smallest | ||
11149 | rectangle enclosing the shape obtained by superimposing all | ||
11150 | of the characters at the same origin [x,y]) has its | ||
11151 | upper-left coordinate at: | ||
11152 | [x + min_bounds.lbearing, y - max_bounds.ascent] | ||
11153 | |||
11154 | * Its width is: | ||
11155 | max_bounds.rbearing - min_bounds.lbearing | ||
11156 | |||
11157 | * Its height is: | ||
11158 | max_bounds.ascent + max_bounds.descent | ||
11159 | |||
11160 | * The ascent member is the logical extent of the font above | ||
11161 | the baseline that is used for determining line spacing. | ||
11162 | Specific characters may extend beyond this. | ||
11163 | * The descent member is the logical extent of the font at or | ||
11164 | below the baseline that is used for determining line | ||
11165 | spacing. Specific characters may extend beyond this. | ||
11166 | * If the baseline is at Y-coordinate y, the logical extent of | ||
11167 | the font is inclusive between the Y-coordinate values (y - | ||
11168 | font.ascent) and (y + font.descent - 1). Typically, the | ||
11169 | minimum interline spacing between rows of text is given by | ||
11170 | ascent + descent. | ||
11171 | |||
11172 | For a character origin at [x,y], the bounding box of a | ||
11173 | character (that is, the smallest rectangle that encloses the | ||
11174 | character's shape) described in terms of XCharStruct components | ||
11175 | is a rectangle with its upper-left corner at: | ||
11176 | |||
11177 | [x + lbearing, y - ascent] | ||
11178 | |||
11179 | Its width is: | ||
11180 | |||
11181 | rbearing - lbearing | ||
11182 | |||
11183 | Its height is: | ||
11184 | |||
11185 | ascent + descent | ||
11186 | |||
11187 | The origin for the next character is defined to be: | ||
11188 | |||
11189 | [x + width, y] | ||
11190 | |||
11191 | The lbearing member defines the extent of the left edge of the | ||
11192 | character ink from the origin. The rbearing member defines the | ||
11193 | extent of the right edge of the character ink from the origin. | ||
11194 | The ascent member defines the extent of the top edge of the | ||
11195 | character ink from the origin. The descent member defines the | ||
11196 | extent of the bottom edge of the character ink from the origin. | ||
11197 | The width member defines the logical width of the character. | ||
11198 | |||
11199 | Note that the baseline (the y position of the character origin) | ||
11200 | is logically viewed as being the scanline just below | ||
11201 | nondescending characters. When descent is zero, only pixels | ||
11202 | with Y-coordinates less than y are drawn, and the origin is | ||
11203 | logically viewed as being coincident with the left edge of a | ||
11204 | nonkerned character. When lbearing is zero, no pixels with | ||
11205 | X-coordinate less than x are drawn. Any of the XCharStruct | ||
11206 | metric members could be negative. If the width is negative, the | ||
11207 | next character will be placed to the left of the current | ||
11208 | origin. | ||
11209 | |||
11210 | The X protocol does not define the interpretation of the | ||
11211 | attributes member in the XCharStruct structure. A nonexistent | ||
11212 | character is represented with all members of its XCharStruct | ||
11213 | set to zero. | ||
11214 | |||
11215 | A font is not guaranteed to have any properties. The | ||
11216 | interpretation of the property value (for example, long or | ||
11217 | unsigned long) must be derived from a priori knowledge of the | ||
11218 | property. A basic set of font properties is specified in the X | ||
11219 | Consortium standard X Logical Font Description Conventions. | ||
11220 | |||
11221 | Loading and Freeing Fonts | ||
11222 | |||
11223 | Xlib provides functions that you can use to load fonts, get | ||
11224 | font information, unload fonts, and free font information. A | ||
11225 | few font functions use a GContext resource ID or a font ID | ||
11226 | interchangeably. | ||
11227 | |||
11228 | To load a given font, use XLoadFont. | ||
11229 | |||
11230 | Font XLoadFont(Display *display, char *name); | ||
11231 | |||
11232 | display | ||
11233 | |||
11234 | Specifies the connection to the X server. | ||
11235 | |||
11236 | name | ||
11237 | |||
11238 | Specifies the name of the font, which is a null-terminated | ||
11239 | string. | ||
11240 | |||
11241 | The XLoadFont function loads the specified font and returns its | ||
11242 | associated font ID. If the font name is not in the Host | ||
11243 | Portable Character Encoding, the result is | ||
11244 | implementation-dependent. Use of uppercase or lowercase does | ||
11245 | not matter. When the characters ``?'' and ``*'' are used in a | ||
11246 | font name, a pattern match is performed and any matching font | ||
11247 | is used. In the pattern, the ``?'' character will match any | ||
11248 | single character, and the ``*'' character will match any number | ||
11249 | of characters. A structured format for font names is specified | ||
11250 | in the X Consortium standard X Logical Font Description | ||
11251 | Conventions. If XLoadFont was unsuccessful at loading the | ||
11252 | specified font, a BadName error results. Fonts are not | ||
11253 | associated with a particular screen and can be stored as a | ||
11254 | component of any GC. When the font is no longer needed, call | ||
11255 | XUnloadFont. | ||
11256 | |||
11257 | XLoadFont can generate BadAlloc and BadName errors. | ||
11258 | |||
11259 | To return information about an available font, use XQueryFont. | ||
11260 | |||
11261 | XFontStruct *XQueryFont(Display *display, XID font_ID); | ||
11262 | |||
11263 | display | ||
11264 | |||
11265 | Specifies the connection to the X server. | ||
11266 | |||
11267 | font_ID | ||
11268 | |||
11269 | Specifies the font ID or the GContext ID. | ||
11270 | |||
11271 | The XQueryFont function returns a pointer to the XFontStruct | ||
11272 | structure, which contains information associated with the font. | ||
11273 | You can query a font or the font stored in a GC. The font ID | ||
11274 | stored in the XFontStruct structure will be the GContext ID, | ||
11275 | and you need to be careful when using this ID in other | ||
11276 | functions (see XGContextFromGC). If the font does not exist, | ||
11277 | XQueryFont returns NULL. To free this data, use XFreeFontInfo. | ||
11278 | |||
11279 | To perform a XLoadFont and XQueryFont in a single operation, | ||
11280 | use XLoadQueryFont. | ||
11281 | |||
11282 | XFontStruct *XLoadQueryFont(Display *display, char *name); | ||
11283 | |||
11284 | display | ||
11285 | |||
11286 | Specifies the connection to the X server. | ||
11287 | |||
11288 | name | ||
11289 | |||
11290 | Specifies the name of the font, which is a null-terminated | ||
11291 | string. | ||
11292 | |||
11293 | The XLoadQueryFont function provides the most common way for | ||
11294 | accessing a font. XLoadQueryFont both opens (loads) the | ||
11295 | specified font and returns a pointer to the appropriate | ||
11296 | XFontStruct structure. If the font name is not in the Host | ||
11297 | Portable Character Encoding, the result is | ||
11298 | implementation-dependent. If the font does not exist, | ||
11299 | XLoadQueryFont returns NULL. | ||
11300 | |||
11301 | XLoadQueryFont can generate a BadAlloc error. | ||
11302 | |||
11303 | To unload the font and free the storage used by the font | ||
11304 | structure that was allocated by XQueryFont or XLoadQueryFont, | ||
11305 | use XFreeFont. | ||
11306 | |||
11307 | XFreeFont(Display *display, XFontStruct *font_struct); | ||
11308 | |||
11309 | display | ||
11310 | |||
11311 | Specifies the connection to the X server. | ||
11312 | |||
11313 | font_struct | ||
11314 | |||
11315 | Specifies the storage associated with the font. | ||
11316 | |||
11317 | The XFreeFont function deletes the association between the font | ||
11318 | resource ID and the specified font and frees the XFontStruct | ||
11319 | structure. The font itself will be freed when no other resource | ||
11320 | references it. The data and the font should not be referenced | ||
11321 | again. | ||
11322 | |||
11323 | XFreeFont can generate a BadFont error. | ||
11324 | |||
11325 | To return a given font property, use XGetFontProperty. | ||
11326 | |||
11327 | Bool XGetFontProperty(XFontStruct *font_struct, Atom atom, | ||
11328 | unsigned long *value_return); | ||
11329 | |||
11330 | font_struct | ||
11331 | |||
11332 | Specifies the storage associated with the font. | ||
11333 | |||
11334 | atom | ||
11335 | |||
11336 | Specifies the atom for the property name you want returned. | ||
11337 | |||
11338 | value_return | ||
11339 | |||
11340 | Returns the value of the font property. | ||
11341 | |||
11342 | Given the atom for that property, the XGetFontProperty function | ||
11343 | returns the value of the specified font property. | ||
11344 | XGetFontProperty also returns False if the property was not | ||
11345 | defined or True if it was defined. A set of predefined atoms | ||
11346 | exists for font properties, which can be found in | ||
11347 | <X11/Xatom.h>. This set contains the standard properties | ||
11348 | associated with a font. Although it is not guaranteed, it is | ||
11349 | likely that the predefined font properties will be present. | ||
11350 | |||
11351 | To unload a font that was loaded by XLoadFont, use XUnloadFont. | ||
11352 | |||
11353 | XUnloadFont(Display *display, Font font); | ||
11354 | |||
11355 | display | ||
11356 | |||
11357 | Specifies the connection to the X server. | ||
11358 | |||
11359 | font | ||
11360 | |||
11361 | Specifies the font. | ||
11362 | |||
11363 | The XUnloadFont function deletes the association between the | ||
11364 | font resource ID and the specified font. The font itself will | ||
11365 | be freed when no other resource references it. The font should | ||
11366 | not be referenced again. | ||
11367 | |||
11368 | XUnloadFont can generate a BadFont error. | ||
11369 | |||
11370 | Obtaining and Freeing Font Names and Information | ||
11371 | |||
11372 | You obtain font names and information by matching a wildcard | ||
11373 | specification when querying a font type for a list of available | ||
11374 | sizes and so on. | ||
11375 | |||
11376 | To return a list of the available font names, use XListFonts. | ||
11377 | |||
11378 | char **XListFonts(Display *display, char *pattern, int | ||
11379 | maxnames, int *actual_count_return); | ||
11380 | |||
11381 | display | ||
11382 | |||
11383 | Specifies the connection to the X server. | ||
11384 | |||
11385 | pattern | ||
11386 | |||
11387 | Specifies the null-terminated pattern string that can contain | ||
11388 | wildcard characters. | ||
11389 | |||
11390 | maxnames | ||
11391 | |||
11392 | Specifies the maximum number of names to be returned. | ||
11393 | |||
11394 | actual_count_return | ||
11395 | |||
11396 | Returns the actual number of font names. | ||
11397 | |||
11398 | The XListFonts function returns an array of available font | ||
11399 | names (as controlled by the font search path; see XSetFontPath) | ||
11400 | that match the string you passed to the pattern argument. The | ||
11401 | pattern string can contain any characters, but each asterisk | ||
11402 | (*) is a wildcard for any number of characters, and each | ||
11403 | question mark (?) is a wildcard for a single character. If the | ||
11404 | pattern string is not in the Host Portable Character Encoding, | ||
11405 | the result is implementation-dependent. Use of uppercase or | ||
11406 | lowercase does not matter. Each returned string is | ||
11407 | null-terminated. If the data returned by the server is in the | ||
11408 | Latin Portable Character Encoding, then the returned strings | ||
11409 | are in the Host Portable Character Encoding. Otherwise, the | ||
11410 | result is implementation-dependent. If there are no matching | ||
11411 | font names, XListFonts returns NULL. The client should call | ||
11412 | XFreeFontNames when finished with the result to free the | ||
11413 | memory. | ||
11414 | |||
11415 | To free a font name array, use XFreeFontNames. | ||
11416 | |||
11417 | XFreeFontNames(char *list[]); | ||
11418 | |||
11419 | list | ||
11420 | |||
11421 | Specifies the array of strings you want to free. | ||
11422 | |||
11423 | The XFreeFontNames function frees the array and strings | ||
11424 | returned by XListFonts or XListFontsWithInfo. | ||
11425 | |||
11426 | To obtain the names and information about available fonts, use | ||
11427 | XListFontsWithInfo. | ||
11428 | |||
11429 | char **XListFontsWithInfo(Display *display, char *pattern, int | ||
11430 | maxnames, int *count_return, XFontStruct **info_return); | ||
11431 | |||
11432 | display | ||
11433 | |||
11434 | Specifies the connection to the X server. | ||
11435 | |||
11436 | pattern | ||
11437 | |||
11438 | Specifies the null-terminated pattern string that can contain | ||
11439 | wildcard characters. | ||
11440 | |||
11441 | maxnames | ||
11442 | |||
11443 | Specifies the maximum number of names to be returned. | ||
11444 | |||
11445 | count_return | ||
11446 | |||
11447 | Returns the actual number of matched font names. | ||
11448 | |||
11449 | info_return | ||
11450 | |||
11451 | Returns the font information. | ||
11452 | |||
11453 | The XListFontsWithInfo function returns a list of font names | ||
11454 | that match the specified pattern and their associated font | ||
11455 | information. The list of names is limited to size specified by | ||
11456 | maxnames. The information returned for each font is identical | ||
11457 | to what XLoadQueryFont would return except that the | ||
11458 | per-character metrics are not returned. The pattern string can | ||
11459 | contain any characters, but each asterisk (*) is a wildcard for | ||
11460 | any number of characters, and each question mark (?) is a | ||
11461 | wildcard for a single character. If the pattern string is not | ||
11462 | in the Host Portable Character Encoding, the result is | ||
11463 | implementation-dependent. Use of uppercase or lowercase does | ||
11464 | not matter. Each returned string is null-terminated. If the | ||
11465 | data returned by the server is in the Latin Portable Character | ||
11466 | Encoding, then the returned strings are in the Host Portable | ||
11467 | Character Encoding. Otherwise, the result is | ||
11468 | implementation-dependent. If there are no matching font names, | ||
11469 | XListFontsWithInfo returns NULL. | ||
11470 | |||
11471 | To free only the allocated name array, the client should call | ||
11472 | XFreeFontNames. To free both the name array and the font | ||
11473 | information array or to free just the font information array, | ||
11474 | the client should call XFreeFontInfo. | ||
11475 | |||
11476 | To free font structures and font names, use XFreeFontInfo. | ||
11477 | |||
11478 | XFreeFontInfo(char **names, XFontStruct *free_info, int | ||
11479 | actual_count); | ||
11480 | |||
11481 | names | ||
11482 | |||
11483 | Specifies the list of font names. | ||
11484 | |||
11485 | free_info | ||
11486 | |||
11487 | Specifies the font information. | ||
11488 | |||
11489 | actual_count | ||
11490 | |||
11491 | Specifies the actual number of font names. | ||
11492 | |||
11493 | The XFreeFontInfo function frees a font structure or an array | ||
11494 | of font structures and optionally an array of font names. If | ||
11495 | NULL is passed for names, no font names are freed. If a font | ||
11496 | structure for an open font (returned by XLoadQueryFont) is | ||
11497 | passed, the structure is freed, but the font is not closed; use | ||
11498 | XUnloadFont to close the font. | ||
11499 | |||
11500 | Computing Character String Sizes | ||
11501 | |||
11502 | Xlib provides functions that you can use to compute the width, | ||
11503 | the logical extents, and the server information about 8-bit and | ||
11504 | 2-byte text strings. The width is computed by adding the | ||
11505 | character widths of all the characters. It does not matter if | ||
11506 | the font is an 8-bit or 2-byte font. These functions return the | ||
11507 | sum of the character metrics in pixels. | ||
11508 | |||
11509 | To determine the width of an 8-bit character string, use | ||
11510 | XTextWidth. | ||
11511 | |||
11512 | int XTextWidth(XFontStruct *font_struct, char *string, int | ||
11513 | count); | ||
11514 | |||
11515 | font_struct | ||
11516 | |||
11517 | Specifies the font used for the width computation. | ||
11518 | |||
11519 | string | ||
11520 | |||
11521 | Specifies the character string. | ||
11522 | |||
11523 | count | ||
11524 | |||
11525 | Specifies the character count in the specified string. | ||
11526 | |||
11527 | To determine the width of a 2-byte character string, use | ||
11528 | XTextWidth16. | ||
11529 | |||
11530 | int XTextWidth16(XFontStruct *font_struct, XChar2b *string, int | ||
11531 | count); | ||
11532 | |||
11533 | font_struct | ||
11534 | |||
11535 | Specifies the font used for the width computation. | ||
11536 | |||
11537 | string | ||
11538 | |||
11539 | Specifies the character string. | ||
11540 | |||
11541 | count | ||
11542 | |||
11543 | Specifies the character count in the specified string. | ||
11544 | |||
11545 | Computing Logical Extents | ||
11546 | |||
11547 | To compute the bounding box of an 8-bit character string in a | ||
11548 | given font, use XTextExtents. | ||
11549 | |||
11550 | XTextExtents(XFontStruct *font_struct, char *string, int | ||
11551 | nchars, int *direction_return, int *font_ascent_return, int | ||
11552 | *font_descent_return, XCharStruct *overall_return); | ||
11553 | |||
11554 | font_struct | ||
11555 | |||
11556 | Specifies the XFontStruct structure. | ||
11557 | |||
11558 | string | ||
11559 | |||
11560 | Specifies the character string. | ||
11561 | |||
11562 | nchars | ||
11563 | |||
11564 | Specifies the number of characters in the character string. | ||
11565 | |||
11566 | direction_return | ||
11567 | |||
11568 | Returns the value of the direction hint (FontLeftToRight or | ||
11569 | FontRightToLeft). | ||
11570 | |||
11571 | font_ascent_return | ||
11572 | |||
11573 | Returns the font ascent. | ||
11574 | |||
11575 | font_descent_return | ||
11576 | |||
11577 | Returns the font descent. | ||
11578 | |||
11579 | overall_return | ||
11580 | |||
11581 | Returns the overall size in the specified XCharStruct | ||
11582 | structure. | ||
11583 | |||
11584 | To compute the bounding box of a 2-byte character string in a | ||
11585 | given font, use XTextExtents16. | ||
11586 | |||
11587 | XTextExtents16(XFontStruct *font_struct, XChar2b *string, int | ||
11588 | nchars, int *direction_return, int *font_ascent_return, int | ||
11589 | *font_descent_return, XCharStruct *overall_return); | ||
11590 | |||
11591 | font_struct | ||
11592 | |||
11593 | Specifies the XFontStruct structure. | ||
11594 | |||
11595 | string | ||
11596 | |||
11597 | Specifies the character string. | ||
11598 | |||
11599 | nchars | ||
11600 | |||
11601 | Specifies the number of characters in the character string. | ||
11602 | |||
11603 | direction_return | ||
11604 | |||
11605 | Returns the value of the direction hint (FontLeftToRight or | ||
11606 | FontRightToLeft). | ||
11607 | |||
11608 | font_ascent_return | ||
11609 | |||
11610 | Returns the font ascent. | ||
11611 | |||
11612 | font_descent_return | ||
11613 | |||
11614 | Returns the font descent. | ||
11615 | |||
11616 | overall_return | ||
11617 | |||
11618 | Returns the overall size in the specified XCharStruct | ||
11619 | structure. | ||
11620 | |||
11621 | The XTextExtents and XTextExtents16 functions perform the size | ||
11622 | computation locally and, thereby, avoid the round-trip overhead | ||
11623 | of XQueryTextExtents and XQueryTextExtents16. Both functions | ||
11624 | return an XCharStruct structure, whose members are set to the | ||
11625 | values as follows. | ||
11626 | |||
11627 | The ascent member is set to the maximum of the ascent metrics | ||
11628 | of all characters in the string. The descent member is set to | ||
11629 | the maximum of the descent metrics. The width member is set to | ||
11630 | the sum of the character-width metrics of all characters in the | ||
11631 | string. For each character in the string, let W be the sum of | ||
11632 | the character-width metrics of all characters preceding it in | ||
11633 | the string. Let L be the left-side-bearing metric of the | ||
11634 | character plus W. Let R be the right-side-bearing metric of the | ||
11635 | character plus W. The lbearing member is set to the minimum L | ||
11636 | of all characters in the string. The rbearing member is set to | ||
11637 | the maximum R. | ||
11638 | |||
11639 | For fonts defined with linear indexing rather than 2-byte | ||
11640 | matrix indexing, each XChar2b structure is interpreted as a | ||
11641 | 16-bit number with byte1 as the most significant byte. If the | ||
11642 | font has no defined default character, undefined characters in | ||
11643 | the string are taken to have all zero metrics. | ||
11644 | |||
11645 | Querying Character String Sizes | ||
11646 | |||
11647 | To query the server for the bounding box of an 8-bit character | ||
11648 | string in a given font, use XQueryTextExtents. | ||
11649 | |||
11650 | XQueryTextExtents(Display *display, XID font_ID, char *string, | ||
11651 | int nchars, int *direction_return, int *font_ascent_return, int | ||
11652 | *font_descent_return, XCharStruct *overall_return); | ||
11653 | |||
11654 | display | ||
11655 | |||
11656 | Specifies the connection to the X server. | ||
11657 | |||
11658 | font_ID | ||
11659 | |||
11660 | Specifies either the font ID or the GContext ID that contains | ||
11661 | the font. | ||
11662 | |||
11663 | string | ||
11664 | |||
11665 | Specifies the character string. | ||
11666 | |||
11667 | nchars | ||
11668 | |||
11669 | Specifies the number of characters in the character string. | ||
11670 | |||
11671 | direction_return | ||
11672 | |||
11673 | Returns the value of the direction hint (FontLeftToRight or | ||
11674 | FontRightToLeft). | ||
11675 | |||
11676 | font_ascent_return | ||
11677 | |||
11678 | Returns the font ascent. | ||
11679 | |||
11680 | font_descent_return | ||
11681 | |||
11682 | Returns the font descent. | ||
11683 | |||
11684 | overall_return | ||
11685 | |||
11686 | Returns the overall size in the specified XCharStruct | ||
11687 | structure. | ||
11688 | |||
11689 | To query the server for the bounding box of a 2-byte character | ||
11690 | string in a given font, use XQueryTextExtents16. | ||
11691 | |||
11692 | XQueryTextExtents16(Display *display, XID font_ID, XChar2b | ||
11693 | *string, int nchars, int *direction_return, int | ||
11694 | *font_ascent_return, int *font_descent_return, XCharStruct | ||
11695 | *overall_return); | ||
11696 | |||
11697 | display | ||
11698 | |||
11699 | Specifies the connection to the X server. | ||
11700 | |||
11701 | font_ID | ||
11702 | |||
11703 | Specifies either the font ID or the GContext ID that contains | ||
11704 | the font. | ||
11705 | |||
11706 | string | ||
11707 | |||
11708 | Specifies the character string. | ||
11709 | |||
11710 | nchars | ||
11711 | |||
11712 | Specifies the number of characters in the character string. | ||
11713 | |||
11714 | direction_return | ||
11715 | |||
11716 | Returns the value of the direction hint (FontLeftToRight or | ||
11717 | FontRightToLeft). | ||
11718 | |||
11719 | font_ascent_return | ||
11720 | |||
11721 | Returns the font ascent. | ||
11722 | |||
11723 | font_descent_return | ||
11724 | |||
11725 | Returns the font descent. | ||
11726 | |||
11727 | overall_return | ||
11728 | |||
11729 | Returns the overall size in the specified XCharStruct | ||
11730 | structure. | ||
11731 | |||
11732 | The XQueryTextExtents and XQueryTextExtents16 functions return | ||
11733 | the bounding box of the specified 8-bit and 16-bit character | ||
11734 | string in the specified font or the font contained in the | ||
11735 | specified GC. These functions query the X server and, | ||
11736 | therefore, suffer the round-trip overhead that is avoided by | ||
11737 | XTextExtents and XTextExtents16. Both functions return a | ||
11738 | XCharStruct structure, whose members are set to the values as | ||
11739 | follows. | ||
11740 | |||
11741 | The ascent member is set to the maximum of the ascent metrics | ||
11742 | of all characters in the string. The descent member is set to | ||
11743 | the maximum of the descent metrics. The width member is set to | ||
11744 | the sum of the character-width metrics of all characters in the | ||
11745 | string. For each character in the string, let W be the sum of | ||
11746 | the character-width metrics of all characters preceding it in | ||
11747 | the string. Let L be the left-side-bearing metric of the | ||
11748 | character plus W. Let R be the right-side-bearing metric of the | ||
11749 | character plus W. The lbearing member is set to the minimum L | ||
11750 | of all characters in the string. The rbearing member is set to | ||
11751 | the maximum R. | ||
11752 | |||
11753 | For fonts defined with linear indexing rather than 2-byte | ||
11754 | matrix indexing, each XChar2b structure is interpreted as a | ||
11755 | 16-bit number with byte1 as the most significant byte. If the | ||
11756 | font has no defined default character, undefined characters in | ||
11757 | the string are taken to have all zero metrics. | ||
11758 | |||
11759 | Characters with all zero metrics are ignored. If the font has | ||
11760 | no defined default_char, the undefined characters in the string | ||
11761 | are also ignored. | ||
11762 | |||
11763 | XQueryTextExtents and XQueryTextExtents16 can generate BadFont | ||
11764 | and BadGC errors. | ||
11765 | |||
11766 | Drawing Text | ||
11767 | |||
11768 | This section discusses how to draw: | ||
11769 | * Complex text | ||
11770 | * Text characters | ||
11771 | * Image text characters | ||
11772 | |||
11773 | The fundamental text functions XDrawText and XDrawText16 use | ||
11774 | the following structures: | ||
11775 | |||
11776 | |||
11777 | |||
11778 | typedef struct { | ||
11779 | char *chars; /* pointer to string */ | ||
11780 | int nchars; /* number of characters */ | ||
11781 | int delta; /* delta between strings */ | ||
11782 | Font font; /* Font to print it in, None don't change */ | ||
11783 | } XTextItem; | ||
11784 | |||
11785 | |||
11786 | |||
11787 | typedef struct { | ||
11788 | XChar2b *chars; /* pointer to two-byte characters */ | ||
11789 | int nchars; /* number of characters */ | ||
11790 | int delta; /* delta between strings */ | ||
11791 | Font font; /* font to print it in, None don't change */ | ||
11792 | } XTextItem16; | ||
11793 | |||
11794 | If the font member is not None, the font is changed before | ||
11795 | printing and also is stored in the GC. If an error was | ||
11796 | generated during text drawing, the previous items may have been | ||
11797 | drawn. The baseline of the characters are drawn starting at the | ||
11798 | x and y coordinates that you pass in the text drawing | ||
11799 | functions. | ||
11800 | |||
11801 | For example, consider the background rectangle drawn by | ||
11802 | XDrawImageString. If you want the upper-left corner of the | ||
11803 | background rectangle to be at pixel coordinate (x,y), pass the | ||
11804 | (x,y + ascent) as the baseline origin coordinates to the text | ||
11805 | functions. The ascent is the font ascent, as given in the | ||
11806 | XFontStruct structure. If you want the lower-left corner of the | ||
11807 | background rectangle to be at pixel coordinate (x,y), pass the | ||
11808 | (x,y - descent + 1) as the baseline origin coordinates to the | ||
11809 | text functions. The descent is the font descent, as given in | ||
11810 | the XFontStruct structure. | ||
11811 | |||
11812 | Drawing Complex Text | ||
11813 | |||
11814 | To draw 8-bit characters in a given drawable, use XDrawText. | ||
11815 | |||
11816 | XDrawText(Display *display, Drawable d, GC gc, int x, int y, | ||
11817 | XTextItem *items, int nitems); | ||
11818 | |||
11819 | display | ||
11820 | |||
11821 | Specifies the connection to the X server. | ||
11822 | |||
11823 | d | ||
11824 | |||
11825 | Specifies the drawable. | ||
11826 | |||
11827 | gc | ||
11828 | |||
11829 | Specifies the GC. | ||
11830 | |||
11831 | x | ||
11832 | |||
11833 | y | ||
11834 | |||
11835 | Specify the x and y coordinates, which are relative to the | ||
11836 | origin of the specified drawable and define the origin of the | ||
11837 | first character. | ||
11838 | |||
11839 | items | ||
11840 | |||
11841 | Specifies an array of text items. | ||
11842 | |||
11843 | nitems | ||
11844 | |||
11845 | Specifies the number of text items in the array. | ||
11846 | |||
11847 | To draw 2-byte characters in a given drawable, use XDrawText16. | ||
11848 | |||
11849 | XDrawText16(Display *display, Drawable d, GC gc, int x, int y, | ||
11850 | XTextItem16 *items, int nitems); | ||
11851 | |||
11852 | display | ||
11853 | |||
11854 | Specifies the connection to the X server. | ||
11855 | |||
11856 | d | ||
11857 | |||
11858 | Specifies the drawable. | ||
11859 | |||
11860 | gc | ||
11861 | |||
11862 | Specifies the GC. | ||
11863 | |||
11864 | x | ||
11865 | |||
11866 | y | ||
11867 | |||
11868 | Specify the x and y coordinates, which are relative to the | ||
11869 | origin of the specified drawable and define the origin of the | ||
11870 | first character. | ||
11871 | |||
11872 | items | ||
11873 | |||
11874 | Specifies an array of text items. | ||
11875 | |||
11876 | nitems | ||
11877 | |||
11878 | Specifies the number of text items in the array. | ||
11879 | |||
11880 | The XDrawText16 function is similar to XDrawText except that it | ||
11881 | uses 2-byte or 16-bit characters. Both functions allow complex | ||
11882 | spacing and font shifts between counted strings. | ||
11883 | |||
11884 | Each text item is processed in turn. A font member other than | ||
11885 | None in an item causes the font to be stored in the GC and used | ||
11886 | for subsequent text. A text element delta specifies an | ||
11887 | additional change in the position along the x axis before the | ||
11888 | string is drawn. The delta is always added to the character | ||
11889 | origin and is not dependent on any characteristics of the font. | ||
11890 | Each character image, as defined by the font in the GC, is | ||
11891 | treated as an additional mask for a fill operation on the | ||
11892 | drawable. The drawable is modified only where the font | ||
11893 | character has a bit set to 1. If a text item generates a | ||
11894 | BadFont error, the previous text items may have been drawn. | ||
11895 | |||
11896 | For fonts defined with linear indexing rather than 2-byte | ||
11897 | matrix indexing, each XChar2b structure is interpreted as a | ||
11898 | 16-bit number with byte1 as the most significant byte. | ||
11899 | |||
11900 | Both functions use these GC components: function, plane-mask, | ||
11901 | fill-style, font, subwindow-mode, clip-x-origin, clip-y-origin, | ||
11902 | and clip-mask. They also use these GC mode-dependent | ||
11903 | components: foreground, background, tile, stipple, | ||
11904 | tile-stipple-x-origin, and tile-stipple-y-origin. | ||
11905 | |||
11906 | XDrawText and XDrawText16 can generate BadDrawable, BadFont, | ||
11907 | BadGC, and BadMatch errors. | ||
11908 | |||
11909 | Drawing Text Characters | ||
11910 | |||
11911 | To draw 8-bit characters in a given drawable, use XDrawString. | ||
11912 | |||
11913 | XDrawString(Display *display, Drawable d, GC gc, int x, int y, | ||
11914 | char *string, int length); | ||
11915 | |||
11916 | display | ||
11917 | |||
11918 | Specifies the connection to the X server. | ||
11919 | |||
11920 | d | ||
11921 | |||
11922 | Specifies the drawable. | ||
11923 | |||
11924 | gc | ||
11925 | |||
11926 | Specifies the GC. | ||
11927 | |||
11928 | x | ||
11929 | |||
11930 | y | ||
11931 | |||
11932 | Specify the x and y coordinates, which are relative to the | ||
11933 | origin of the specified drawable and define the origin of the | ||
11934 | first character. | ||
11935 | |||
11936 | string | ||
11937 | |||
11938 | Specifies the character string. | ||
11939 | |||
11940 | length | ||
11941 | |||
11942 | Specifies the number of characters in the string argument. | ||
11943 | |||
11944 | To draw 2-byte characters in a given drawable, use | ||
11945 | XDrawString16. | ||
11946 | |||
11947 | XDrawString16(Display *display, Drawable d, GC gc, int x, int | ||
11948 | y, XChar2b *string, int length); | ||
11949 | |||
11950 | display | ||
11951 | |||
11952 | Specifies the connection to the X server. | ||
11953 | |||
11954 | d | ||
11955 | |||
11956 | Specifies the drawable. | ||
11957 | |||
11958 | gc | ||
11959 | |||
11960 | Specifies the GC. | ||
11961 | |||
11962 | x | ||
11963 | |||
11964 | y | ||
11965 | |||
11966 | Specify the x and y coordinates, which are relative to the | ||
11967 | origin of the specified drawable and define the origin of the | ||
11968 | first character. | ||
11969 | |||
11970 | string | ||
11971 | |||
11972 | Specifies the character string. | ||
11973 | |||
11974 | length | ||
11975 | |||
11976 | Specifies the number of characters in the string argument. | ||
11977 | |||
11978 | Each character image, as defined by the font in the GC, is | ||
11979 | treated as an additional mask for a fill operation on the | ||
11980 | drawable. The drawable is modified only where the font | ||
11981 | character has a bit set to 1. For fonts defined with 2-byte | ||
11982 | matrix indexing and used with XDrawString16, each byte is used | ||
11983 | as a byte2 with a byte1 of zero. | ||
11984 | |||
11985 | Both functions use these GC components: function, plane-mask, | ||
11986 | fill-style, font, subwindow-mode, clip-x-origin, clip-y-origin, | ||
11987 | and clip-mask. They also use these GC mode-dependent | ||
11988 | components: foreground, background, tile, stipple, | ||
11989 | tile-stipple-x-origin, and tile-stipple-y-origin. | ||
11990 | |||
11991 | XDrawString and XDrawString16 can generate BadDrawable, BadGC, | ||
11992 | and BadMatch errors. | ||
11993 | |||
11994 | Drawing Image Text Characters | ||
11995 | |||
11996 | Some applications, in particular terminal emulators, need to | ||
11997 | print image text in which both the foreground and background | ||
11998 | bits of each character are painted. This prevents annoying | ||
11999 | flicker on many displays. | ||
12000 | |||
12001 | To draw 8-bit image text characters in a given drawable, use | ||
12002 | XDrawImageString. | ||
12003 | |||
12004 | XDrawImageString(Display *display, Drawable d, GC gc, int x, | ||
12005 | int y, char *string, int length); | ||
12006 | |||
12007 | display | ||
12008 | |||
12009 | Specifies the connection to the X server. | ||
12010 | |||
12011 | d | ||
12012 | |||
12013 | Specifies the drawable. | ||
12014 | |||
12015 | gc | ||
12016 | |||
12017 | Specifies the GC. | ||
12018 | |||
12019 | x | ||
12020 | |||
12021 | y | ||
12022 | |||
12023 | Specify the x and y coordinates, which are relative to the | ||
12024 | origin of the specified drawable and define the origin of the | ||
12025 | first character. | ||
12026 | |||
12027 | string | ||
12028 | |||
12029 | Specifies the character string. | ||
12030 | |||
12031 | length | ||
12032 | |||
12033 | Specifies the number of characters in the string argument. | ||
12034 | |||
12035 | To draw 2-byte image text characters in a given drawable, use | ||
12036 | XDrawImageString16. | ||
12037 | |||
12038 | XDrawImageString16(Display *display, Drawable d, GC gc, int x, | ||
12039 | int y, XChar2b *string, int length); | ||
12040 | |||
12041 | display | ||
12042 | |||
12043 | Specifies the connection to the X server. | ||
12044 | |||
12045 | d | ||
12046 | |||
12047 | Specifies the drawable. | ||
12048 | |||
12049 | gc | ||
12050 | |||
12051 | Specifies the GC. | ||
12052 | |||
12053 | x | ||
12054 | |||
12055 | y | ||
12056 | |||
12057 | Specify the x and y coordinates, which are relative to the | ||
12058 | origin of the specified drawable and define the origin of the | ||
12059 | first character. | ||
12060 | |||
12061 | string | ||
12062 | |||
12063 | Specifies the character string. | ||
12064 | |||
12065 | length | ||
12066 | |||
12067 | Specifies the number of characters in the string argument. | ||
12068 | |||
12069 | The XDrawImageString16 function is similar to XDrawImageString | ||
12070 | except that it uses 2-byte or 16-bit characters. Both functions | ||
12071 | also use both the foreground and background pixels of the GC in | ||
12072 | the destination. | ||
12073 | |||
12074 | The effect is first to fill a destination rectangle with the | ||
12075 | background pixel defined in the GC and then to paint the text | ||
12076 | with the foreground pixel. The upper-left corner of the filled | ||
12077 | rectangle is at: | ||
12078 | |||
12079 | [x, y - font-ascent] | ||
12080 | |||
12081 | The width is: | ||
12082 | |||
12083 | overall-width | ||
12084 | |||
12085 | The height is: | ||
12086 | |||
12087 | font-ascent + font-descent | ||
12088 | |||
12089 | The overall-width, font-ascent, and font-descent are as would | ||
12090 | be returned by XQueryTextExtents using gc and string. The | ||
12091 | function and fill-style defined in the GC are ignored for these | ||
12092 | functions. The effective function is GXcopy, and the effective | ||
12093 | fill-style is FillSolid. | ||
12094 | |||
12095 | For fonts defined with 2-byte matrix indexing and used with | ||
12096 | XDrawImageString, each byte is used as a byte2 with a byte1 of | ||
12097 | zero. | ||
12098 | |||
12099 | Both functions use these GC components: plane-mask, foreground, | ||
12100 | background, font, subwindow-mode, clip-x-origin, clip-y-origin, | ||
12101 | and clip-mask. | ||
12102 | |||
12103 | XDrawImageString and XDrawImageString16 can generate | ||
12104 | BadDrawable, BadGC, and BadMatch errors. | ||
12105 | |||
12106 | Transferring Images between Client and Server | ||
12107 | |||
12108 | Xlib provides functions that you can use to transfer images | ||
12109 | between a client and the server. Because the server may require | ||
12110 | diverse data formats, Xlib provides an image object that fully | ||
12111 | describes the data in memory and that provides for basic | ||
12112 | operations on that data. You should reference the data through | ||
12113 | the image object rather than referencing the data directly. | ||
12114 | However, some implementations of the Xlib library may | ||
12115 | efficiently deal with frequently used data formats by replacing | ||
12116 | functions in the procedure vector with special case functions. | ||
12117 | Supported operations include destroying the image, getting a | ||
12118 | pixel, storing a pixel, extracting a subimage of an image, and | ||
12119 | adding a constant to an image (see section 16.8). | ||
12120 | |||
12121 | All the image manipulation functions discussed in this section | ||
12122 | make use of the XImage structure, which describes an image as | ||
12123 | it exists in the client's memory. | ||
12124 | |||
12125 | |||
12126 | |||
12127 | typedef struct _XImage { | ||
12128 | int width, height; /* size of image */ | ||
12129 | int xoffset; /* number of pixels offset in X directio | ||
12130 | n */ | ||
12131 | int format; /* XYBitmap, XYPixmap, ZPixmap */ | ||
12132 | char *data; /* pointer to image data */ | ||
12133 | int byte_order; /* data byte order, LSBFirst, MSBFirst * | ||
12134 | / | ||
12135 | int bitmap_unit; /* quant. of scanline 8, 16, 32 */ | ||
12136 | int bitmap_bit_order; /* LSBFirst, MSBFirst */ | ||
12137 | int bitmap_pad; /* 8, 16, 32 either XY or ZPixmap */ | ||
12138 | int depth; /* depth of image */ | ||
12139 | int bytes_per_line; /* accelerator to next scanline */ | ||
12140 | int bits_per_pixel; /* bits per pixel (ZPixmap) */ | ||
12141 | unsigned long red_mask; /* bits in z arrangement */ | ||
12142 | unsigned long green_mask; | ||
12143 | unsigned long blue_mask; | ||
12144 | XPointer obdata; /* hook for the object routines to hang | ||
12145 | on */ | ||
12146 | struct funcs { /* image manipulation routines */ | ||
12147 | struct _XImage *(*create_image)(); | ||
12148 | int (*destroy_image)(); | ||
12149 | unsigned long (*get_pixel)(); | ||
12150 | int (*put_pixel)(); | ||
12151 | struct _XImage *(*sub_image)(); | ||
12152 | int (*add_pixel)(); | ||
12153 | } f; | ||
12154 | } XImage; | ||
12155 | |||
12156 | To initialize the image manipulation routines of an image | ||
12157 | structure, use XInitImage. | ||
12158 | |||
12159 | Status XInitImage(XImage *image); | ||
12160 | |||
12161 | ximage | ||
12162 | |||
12163 | Specifies the image. | ||
12164 | |||
12165 | The XInitImage function initializes the internal image | ||
12166 | manipulation routines of an image structure, based on the | ||
12167 | values of the various structure members. All fields other than | ||
12168 | the manipulation routines must already be initialized. If the | ||
12169 | bytes_per_line member is zero, XInitImage will assume the image | ||
12170 | data is contiguous in memory and set the bytes_per_line member | ||
12171 | to an appropriate value based on the other members; otherwise, | ||
12172 | the value of bytes_per_line is not changed. All of the | ||
12173 | manipulation routines are initialized to functions that other | ||
12174 | Xlib image manipulation functions need to operate on the type | ||
12175 | of image specified by the rest of the structure. | ||
12176 | |||
12177 | This function must be called for any image constructed by the | ||
12178 | client before passing it to any other Xlib function. Image | ||
12179 | structures created or returned by Xlib do not need to be | ||
12180 | initialized in this fashion. | ||
12181 | |||
12182 | This function returns a nonzero status if initialization of the | ||
12183 | structure is successful. It returns zero if it detected some | ||
12184 | error or inconsistency in the structure, in which case the | ||
12185 | image is not changed. | ||
12186 | |||
12187 | To combine an image with a rectangle of a drawable on the | ||
12188 | display, use XPutImage. | ||
12189 | |||
12190 | XPutImage(Display *display, Drawable d, GC gc, XImage *image, | ||
12191 | int src_x, int src_y, int dest_x, int dest_y, unsigned int | ||
12192 | width, unsigned int height); | ||
12193 | |||
12194 | display | ||
12195 | |||
12196 | Specifies the connection to the X server. | ||
12197 | |||
12198 | d | ||
12199 | |||
12200 | Specifies the drawable. | ||
12201 | |||
12202 | gc | ||
12203 | |||
12204 | Specifies the GC. | ||
12205 | |||
12206 | image | ||
12207 | |||
12208 | Specifies the image you want combined with the rectangle. | ||
12209 | |||
12210 | src_x | ||
12211 | |||
12212 | Specifies the offset in X from the left edge of the image | ||
12213 | defined by the XImage structure. | ||
12214 | |||
12215 | src_y | ||
12216 | |||
12217 | Specifies the offset in Y from the top edge of the image | ||
12218 | defined by the XImage structure. | ||
12219 | |||
12220 | dest_x | ||
12221 | |||
12222 | dest_y | ||
12223 | |||
12224 | Specify the x and y coordinates, which are relative to the | ||
12225 | origin of the drawable and are the coordinates of the subimage. | ||
12226 | |||
12227 | width | ||
12228 | |||
12229 | height | ||
12230 | |||
12231 | Specify the width and height of the subimage, which define the | ||
12232 | dimensions of the rectangle. | ||
12233 | |||
12234 | The XPutImage function combines an image with a rectangle of | ||
12235 | the specified drawable. The section of the image defined by the | ||
12236 | src_x, src_y, width, and height arguments is drawn on the | ||
12237 | specified part of the drawable. If XYBitmap format is used, the | ||
12238 | depth of the image must be one, or a BadMatch error results. | ||
12239 | The foreground pixel in the GC defines the source for the one | ||
12240 | bits in the image, and the background pixel defines the source | ||
12241 | for the zero bits. For XYPixmap and ZPixmap, the depth of the | ||
12242 | image must match the depth of the drawable, or a BadMatch error | ||
12243 | results. | ||
12244 | |||
12245 | If the characteristics of the image (for example, byte_order | ||
12246 | and bitmap_unit) differ from what the server requires, | ||
12247 | XPutImage automatically makes the appropriate conversions. | ||
12248 | |||
12249 | This function uses these GC components: function, plane-mask, | ||
12250 | subwindow-mode, clip-x-origin, clip-y-origin, and clip-mask. It | ||
12251 | also uses these GC mode-dependent components: foreground and | ||
12252 | background. | ||
12253 | |||
12254 | XPutImage can generate BadDrawable, BadGC, BadMatch, and | ||
12255 | BadValue errors. | ||
12256 | |||
12257 | To return the contents of a rectangle in a given drawable on | ||
12258 | the display, use XGetImage. This function specifically supports | ||
12259 | rudimentary screen dumps. | ||
12260 | |||
12261 | XImage *XGetImage(Display *display, Drawable d, int x, int y, | ||
12262 | unsigned int width, unsigned int height, unsigned long | ||
12263 | plane_mask, int format); | ||
12264 | |||
12265 | display | ||
12266 | |||
12267 | Specifies the connection to the X server. | ||
12268 | |||
12269 | d | ||
12270 | |||
12271 | Specifies the drawable. | ||
12272 | |||
12273 | x | ||
12274 | |||
12275 | y | ||
12276 | |||
12277 | Specify the x and y coordinates, which are relative to the | ||
12278 | origin of the drawable and define the upper-left corner of the | ||
12279 | rectangle. | ||
12280 | |||
12281 | width | ||
12282 | |||
12283 | height | ||
12284 | |||
12285 | Specify the width and height of the subimage, which define the | ||
12286 | dimensions of the rectangle. | ||
12287 | |||
12288 | plane_mask | ||
12289 | |||
12290 | Specifies the plane mask. | ||
12291 | |||
12292 | format | ||
12293 | |||
12294 | Specifies the format for the image. You can pass XYPixmap or | ||
12295 | ZPixmap. | ||
12296 | |||
12297 | The XGetImage function returns a pointer to an XImage | ||
12298 | structure. This structure provides you with the contents of the | ||
12299 | specified rectangle of the drawable in the format you specify. | ||
12300 | If the format argument is XYPixmap, the image contains only the | ||
12301 | bit planes you passed to the plane_mask argument. If the | ||
12302 | plane_mask argument only requests a subset of the planes of the | ||
12303 | display, the depth of the returned image will be the number of | ||
12304 | planes requested. If the format argument is ZPixmap, XGetImage | ||
12305 | returns as zero the bits in all planes not specified in the | ||
12306 | plane_mask argument. The function performs no range checking on | ||
12307 | the values in plane_mask and ignores extraneous bits. | ||
12308 | |||
12309 | XGetImage returns the depth of the image to the depth member of | ||
12310 | the XImage structure. The depth of the image is as specified | ||
12311 | when the drawable was created, except when getting a subset of | ||
12312 | the planes in XYPixmap format, when the depth is given by the | ||
12313 | number of bits set to 1 in plane_mask. | ||
12314 | |||
12315 | If the drawable is a pixmap, the given rectangle must be wholly | ||
12316 | contained within the pixmap, or a BadMatch error results. If | ||
12317 | the drawable is a window, the window must be viewable, and it | ||
12318 | must be the case that if there were no inferiors or overlapping | ||
12319 | windows, the specified rectangle of the window would be fully | ||
12320 | visible on the screen and wholly contained within the outside | ||
12321 | edges of the window, or a BadMatch error results. Note that the | ||
12322 | borders of the window can be included and read with this | ||
12323 | request. If the window has backing-store, the backing-store | ||
12324 | contents are returned for regions of the window that are | ||
12325 | obscured by noninferior windows. If the window does not have | ||
12326 | backing-store, the returned contents of such obscured regions | ||
12327 | are undefined. The returned contents of visible regions of | ||
12328 | inferiors of a different depth than the specified window's | ||
12329 | depth are also undefined. The pointer cursor image is not | ||
12330 | included in the returned contents. If a problem occurs, | ||
12331 | XGetImage returns NULL. | ||
12332 | |||
12333 | XGetImage can generate BadDrawable, BadMatch, and BadValue | ||
12334 | errors. | ||
12335 | |||
12336 | To copy the contents of a rectangle on the display to a | ||
12337 | location within a preexisting image structure, use | ||
12338 | XGetSubImage. | ||
12339 | |||
12340 | XImage *XGetSubImage(Display *display, Drawable d, int x, int | ||
12341 | y, unsigned int width, unsigned int height, unsigned long | ||
12342 | plane_mask, int format, XImage *dest_image, int dest_x, int | ||
12343 | dest_y); | ||
12344 | |||
12345 | display | ||
12346 | |||
12347 | Specifies the connection to the X server. | ||
12348 | |||
12349 | d | ||
12350 | |||
12351 | Specifies the drawable. | ||
12352 | |||
12353 | x | ||
12354 | |||
12355 | y | ||
12356 | |||
12357 | Specify the x and y coordinates, which are relative to the | ||
12358 | origin of the drawable and define the upper-left corner of the | ||
12359 | rectangle. | ||
12360 | |||
12361 | width | ||
12362 | |||
12363 | height | ||
12364 | |||
12365 | Specify the width and height of the subimage, which define the | ||
12366 | dimensions of the rectangle. | ||
12367 | |||
12368 | plane_mask | ||
12369 | |||
12370 | Specifies the plane mask. | ||
12371 | |||
12372 | format | ||
12373 | |||
12374 | Specifies the format for the image. You can pass XYPixmap or | ||
12375 | ZPixmap. | ||
12376 | |||
12377 | dest_image | ||
12378 | |||
12379 | Specifies the destination image. | ||
12380 | |||
12381 | dest_x | ||
12382 | |||
12383 | dest_y | ||
12384 | |||
12385 | Specify the x and y coordinates, which are relative to the | ||
12386 | origin of the destination rectangle, specify its upper-left | ||
12387 | corner, and determine where the subimage is placed in the | ||
12388 | destination image. | ||
12389 | |||
12390 | The XGetSubImage function updates dest_image with the specified | ||
12391 | subimage in the same manner as XGetImage. If the format | ||
12392 | argument is XYPixmap, the image contains only the bit planes | ||
12393 | you passed to the plane_mask argument. If the format argument | ||
12394 | is ZPixmap, XGetSubImage returns as zero the bits in all planes | ||
12395 | not specified in the plane_mask argument. The function performs | ||
12396 | no range checking on the values in plane_mask and ignores | ||
12397 | extraneous bits. As a convenience, XGetSubImage returns a | ||
12398 | pointer to the same XImage structure specified by dest_image. | ||
12399 | |||
12400 | The depth of the destination XImage structure must be the same | ||
12401 | as that of the drawable. If the specified subimage does not fit | ||
12402 | at the specified location on the destination image, the right | ||
12403 | and bottom edges are clipped. If the drawable is a pixmap, the | ||
12404 | given rectangle must be wholly contained within the pixmap, or | ||
12405 | a BadMatch error results. If the drawable is a window, the | ||
12406 | window must be viewable, and it must be the case that if there | ||
12407 | were no inferiors or overlapping windows, the specified | ||
12408 | rectangle of the window would be fully visible on the screen | ||
12409 | and wholly contained within the outside edges of the window, or | ||
12410 | a BadMatch error results. If the window has backing-store, then | ||
12411 | the backing-store contents are returned for regions of the | ||
12412 | window that are obscured by noninferior windows. If the window | ||
12413 | does not have backing-store, the returned contents of such | ||
12414 | obscured regions are undefined. The returned contents of | ||
12415 | visible regions of inferiors of a different depth than the | ||
12416 | specified window's depth are also undefined. If a problem | ||
12417 | occurs, XGetSubImage returns NULL. | ||
12418 | |||
12419 | XGetSubImage can generate BadDrawable, BadGC, BadMatch, and | ||
12420 | BadValue errors. | ||
12421 | |||
12422 | Chapter 9. Window and Session Manager Functions | ||
12423 | |||
12424 | Table of Contents | ||
12425 | |||
12426 | Changing the Parent of a Window | ||
12427 | Controlling the Lifetime of a Window | ||
12428 | Managing Installed Colormaps | ||
12429 | Setting and Retrieving the Font Search Path | ||
12430 | Grabbing the Server | ||
12431 | Killing Clients | ||
12432 | Controlling the Screen Saver | ||
12433 | Controlling Host Access | ||
12434 | |||
12435 | Adding, Getting, or Removing Hosts | ||
12436 | Changing, Enabling, or Disabling Access Control | ||
12437 | |||
12438 | Although it is difficult to categorize functions as exclusively | ||
12439 | for an application, a window manager, or a session manager, the | ||
12440 | functions in this chapter are most often used by window | ||
12441 | managers and session managers. It is not expected that these | ||
12442 | functions will be used by most application programs. Xlib | ||
12443 | provides management functions to: | ||
12444 | * Change the parent of a window | ||
12445 | * Control the lifetime of a window | ||
12446 | * Manage installed colormaps | ||
12447 | * Set and retrieve the font search path | ||
12448 | * Grab the server | ||
12449 | * Kill a client | ||
12450 | * Control the screen saver | ||
12451 | * Control host access | ||
12452 | |||
12453 | Changing the Parent of a Window | ||
12454 | |||
12455 | To change a window's parent to another window on the same | ||
12456 | screen, use XReparentWindow. There is no way to move a window | ||
12457 | between screens. | ||
12458 | |||
12459 | XReparentWindow(Display *display, Window w, Window parent, int | ||
12460 | x, int y); | ||
12461 | |||
12462 | display | ||
12463 | |||
12464 | Specifies the connection to the X server. | ||
12465 | |||
12466 | w | ||
12467 | |||
12468 | Specifies the window. | ||
12469 | |||
12470 | parent | ||
12471 | |||
12472 | Specifies the parent window. | ||
12473 | |||
12474 | x | ||
12475 | |||
12476 | y | ||
12477 | |||
12478 | Specify the x and y coordinates of the position in the new | ||
12479 | parent window. | ||
12480 | |||
12481 | If the specified window is mapped, XReparentWindow | ||
12482 | automatically performs an UnmapWindow request on it, removes it | ||
12483 | from its current position in the hierarchy, and inserts it as | ||
12484 | the child of the specified parent. The window is placed in the | ||
12485 | stacking order on top with respect to sibling windows. | ||
12486 | |||
12487 | After reparenting the specified window, XReparentWindow causes | ||
12488 | the X server to generate a ReparentNotify event. The | ||
12489 | override_redirect member returned in this event is set to the | ||
12490 | window's corresponding attribute. Window manager clients | ||
12491 | usually should ignore this window if this member is set to | ||
12492 | True. Finally, if the specified window was originally mapped, | ||
12493 | the X server automatically performs a MapWindow request on it. | ||
12494 | |||
12495 | The X server performs normal exposure processing on formerly | ||
12496 | obscured windows. The X server might not generate Expose events | ||
12497 | for regions from the initial UnmapWindow request that are | ||
12498 | immediately obscured by the final MapWindow request. A BadMatch | ||
12499 | error results if: | ||
12500 | * The new parent window is not on the same screen as the old | ||
12501 | parent window. | ||
12502 | * The new parent window is the specified window or an | ||
12503 | inferior of the specified window. | ||
12504 | * The new parent is InputOnly, and the window is not. | ||
12505 | * The specified window has a ParentRelative background, and | ||
12506 | the new parent window is not the same depth as the | ||
12507 | specified window. | ||
12508 | |||
12509 | XReparentWindow can generate BadMatch and BadWindow errors. | ||
12510 | |||
12511 | Controlling the Lifetime of a Window | ||
12512 | |||
12513 | The save-set of a client is a list of other clients' windows | ||
12514 | that, if they are inferiors of one of the client's windows at | ||
12515 | connection close, should not be destroyed and should be | ||
12516 | remapped if they are unmapped. For further information about | ||
12517 | close-connection processing, see section 2.6. To allow an | ||
12518 | application's window to survive when a window manager that has | ||
12519 | reparented a window fails, Xlib provides the save-set functions | ||
12520 | that you can use to control the longevity of subwindows that | ||
12521 | are normally destroyed when the parent is destroyed. For | ||
12522 | example, a window manager that wants to add decoration to a | ||
12523 | window by adding a frame might reparent an application's | ||
12524 | window. When the frame is destroyed, the application's window | ||
12525 | should not be destroyed but be returned to its previous place | ||
12526 | in the window hierarchy. | ||
12527 | |||
12528 | The X server automatically removes windows from the save-set | ||
12529 | when they are destroyed. | ||
12530 | |||
12531 | To add or remove a window from the client's save-set, use | ||
12532 | XChangeSaveSet. | ||
12533 | |||
12534 | XChangeSaveSet(Display *display, Window w, int change_mode); | ||
12535 | |||
12536 | display | ||
12537 | |||
12538 | Specifies the connection to the X server. | ||
12539 | |||
12540 | w | ||
12541 | |||
12542 | Specifies the window that you want to add to or delete from the | ||
12543 | client's save-set. | ||
12544 | |||
12545 | change_mode | ||
12546 | |||
12547 | Specifies the mode. You can pass SetModeInsert or | ||
12548 | SetModeDelete. | ||
12549 | |||
12550 | Depending on the specified mode, XChangeSaveSet either inserts | ||
12551 | or deletes the specified window from the client's save-set. The | ||
12552 | specified window must have been created by some other client, | ||
12553 | or a BadMatch error results. | ||
12554 | |||
12555 | XChangeSaveSet can generate BadMatch, BadValue, and BadWindow | ||
12556 | errors. | ||
12557 | |||
12558 | To add a window to the client's save-set, use XAddToSaveSet. | ||
12559 | |||
12560 | XAddToSaveSet(Display *display, Window w); | ||
12561 | |||
12562 | display | ||
12563 | |||
12564 | Specifies the connection to the X server. | ||
12565 | |||
12566 | w | ||
12567 | |||
12568 | Specifies the window that you want to add to the client's | ||
12569 | save-set. | ||
12570 | |||
12571 | The XAddToSaveSet function adds the specified window to the | ||
12572 | client's save-set. The specified window must have been created | ||
12573 | by some other client, or a BadMatch error results. | ||
12574 | |||
12575 | XAddToSaveSet can generate BadMatch and BadWindow errors. | ||
12576 | |||
12577 | To remove a window from the client's save-set, use | ||
12578 | XRemoveFromSaveSet. | ||
12579 | |||
12580 | XRemoveFromSaveSet(Display *display, Window w); | ||
12581 | |||
12582 | display | ||
12583 | |||
12584 | Specifies the connection to the X server. | ||
12585 | |||
12586 | w | ||
12587 | |||
12588 | Specifies the window that you want to delete from the client's | ||
12589 | save-set. | ||
12590 | |||
12591 | The XRemoveFromSaveSet function removes the specified window | ||
12592 | from the client's save-set. The specified window must have been | ||
12593 | created by some other client, or a BadMatch error results. | ||
12594 | |||
12595 | XRemoveFromSaveSet can generate BadMatch and BadWindow errors. | ||
12596 | |||
12597 | Managing Installed Colormaps | ||
12598 | |||
12599 | The X server maintains a list of installed colormaps. Windows | ||
12600 | using these colormaps are guaranteed to display with correct | ||
12601 | colors; windows using other colormaps may or may not display | ||
12602 | with correct colors. Xlib provides functions that you can use | ||
12603 | to install a colormap, uninstall a colormap, and obtain a list | ||
12604 | of installed colormaps. | ||
12605 | |||
12606 | At any time, there is a subset of the installed maps that is | ||
12607 | viewed as an ordered list and is called the required list. The | ||
12608 | length of the required list is at most M, where M is the | ||
12609 | minimum number of installed colormaps specified for the screen | ||
12610 | in the connection setup. The required list is maintained as | ||
12611 | follows. When a colormap is specified to XInstallColormap, it | ||
12612 | is added to the head of the list; the list is truncated at the | ||
12613 | tail, if necessary, to keep its length to at most M. When a | ||
12614 | colormap is specified to XUninstallColormap and it is in the | ||
12615 | required list, it is removed from the list. A colormap is not | ||
12616 | added to the required list when it is implicitly installed by | ||
12617 | the X server, and the X server cannot implicitly uninstall a | ||
12618 | colormap that is in the required list. | ||
12619 | |||
12620 | To install a colormap, use XInstallColormap. | ||
12621 | |||
12622 | XInstallColormap(Display *display, Colormap colormap); | ||
12623 | |||
12624 | display | ||
12625 | |||
12626 | Specifies the connection to the X server. | ||
12627 | |||
12628 | colormap | ||
12629 | |||
12630 | Specifies the colormap. | ||
12631 | |||
12632 | The XInstallColormap function installs the specified colormap | ||
12633 | for its associated screen. All windows associated with this | ||
12634 | colormap immediately display with true colors. You associated | ||
12635 | the windows with this colormap when you created them by calling | ||
12636 | XCreateWindow, XCreateSimpleWindow, XChangeWindowAttributes, or | ||
12637 | XSetWindowColormap. | ||
12638 | |||
12639 | If the specified colormap is not already an installed colormap, | ||
12640 | the X server generates a ColormapNotify event on each window | ||
12641 | that has that colormap. In addition, for every other colormap | ||
12642 | that is installed as a result of a call to XInstallColormap, | ||
12643 | the X server generates a ColormapNotify event on each window | ||
12644 | that has that colormap. | ||
12645 | |||
12646 | XInstallColormap can generate a BadColor error. | ||
12647 | |||
12648 | To uninstall a colormap, use XUninstallColormap. | ||
12649 | |||
12650 | XUninstallColormap(Display *display, Colormap colormap); | ||
12651 | |||
12652 | display | ||
12653 | |||
12654 | Specifies the connection to the X server. | ||
12655 | |||
12656 | colormap | ||
12657 | |||
12658 | Specifies the colormap. | ||
12659 | |||
12660 | The XUninstallColormap function removes the specified colormap | ||
12661 | from the required list for its screen. As a result, the | ||
12662 | specified colormap might be uninstalled, and the X server might | ||
12663 | implicitly install or uninstall additional colormaps. Which | ||
12664 | colormaps get installed or uninstalled is server dependent | ||
12665 | except that the required list must remain installed. | ||
12666 | |||
12667 | If the specified colormap becomes uninstalled, the X server | ||
12668 | generates a ColormapNotify event on each window that has that | ||
12669 | colormap. In addition, for every other colormap that is | ||
12670 | installed or uninstalled as a result of a call to | ||
12671 | XUninstallColormap, the X server generates a ColormapNotify | ||
12672 | event on each window that has that colormap. | ||
12673 | |||
12674 | XUninstallColormap can generate a BadColor error. | ||
12675 | |||
12676 | To obtain a list of the currently installed colormaps for a | ||
12677 | given screen, use XListInstalledColormaps. | ||
12678 | |||
12679 | Colormap *XListInstalledColormaps(Display *display, Window w, | ||
12680 | int *num_return); | ||
12681 | |||
12682 | display | ||
12683 | |||
12684 | Specifies the connection to the X server. | ||
12685 | |||
12686 | w | ||
12687 | |||
12688 | Specifies the window that determines the screen. | ||
12689 | |||
12690 | num_return | ||
12691 | |||
12692 | Returns the number of currently installed colormaps. | ||
12693 | |||
12694 | The XListInstalledColormaps function returns a list of the | ||
12695 | currently installed colormaps for the screen of the specified | ||
12696 | window. The order of the colormaps in the list is not | ||
12697 | significant and is no explicit indication of the required list. | ||
12698 | When the allocated list is no longer needed, free it by using | ||
12699 | XFree. | ||
12700 | |||
12701 | XListInstalledColormaps can generate a BadWindow error. | ||
12702 | |||
12703 | Setting and Retrieving the Font Search Path | ||
12704 | |||
12705 | The set of fonts available from a server depends on a font | ||
12706 | search path. Xlib provides functions to set and retrieve the | ||
12707 | search path for a server. | ||
12708 | |||
12709 | To set the font search path, use XSetFontPath. | ||
12710 | |||
12711 | XSetFontPath(Display *display, char **directories, int ndirs); | ||
12712 | |||
12713 | display | ||
12714 | |||
12715 | Specifies the connection to the X server. | ||
12716 | |||
12717 | directories | ||
12718 | |||
12719 | Specifies the directory path used to look for a font. Setting | ||
12720 | the path to the empty list restores the default path defined | ||
12721 | for the X server. | ||
12722 | |||
12723 | ndirs | ||
12724 | |||
12725 | Specifies the number of directories in the path. | ||
12726 | |||
12727 | The XSetFontPath function defines the directory search path for | ||
12728 | font lookup. There is only one search path per X server, not | ||
12729 | one per client. The encoding and interpretation of the strings | ||
12730 | are implementation-dependent, but typically they specify | ||
12731 | directories or font servers to be searched in the order listed. | ||
12732 | An X server is permitted to cache font information internally; | ||
12733 | for example, it might cache an entire font from a file and not | ||
12734 | check on subsequent opens of that font to see if the underlying | ||
12735 | font file has changed. However, when the font path is changed, | ||
12736 | the X server is guaranteed to flush all cached information | ||
12737 | about fonts for which there currently are no explicit resource | ||
12738 | IDs allocated. The meaning of an error from this request is | ||
12739 | implementation-dependent. | ||
12740 | |||
12741 | XSetFontPath can generate a BadValue error. | ||
12742 | |||
12743 | To get the current font search path, use XGetFontPath. | ||
12744 | |||
12745 | char **XGetFontPath(Display *display, int *npaths_return); | ||
12746 | |||
12747 | display | ||
12748 | |||
12749 | Specifies the connection to the X server. | ||
12750 | |||
12751 | npaths_return | ||
12752 | |||
12753 | Returns the number of strings in the font path array. | ||
12754 | |||
12755 | The XGetFontPath function allocates and returns an array of | ||
12756 | strings containing the search path. The contents of these | ||
12757 | strings are implementation-dependent and are not intended to be | ||
12758 | interpreted by client applications. When it is no longer | ||
12759 | needed, the data in the font path should be freed by using | ||
12760 | XFreeFontPath. | ||
12761 | |||
12762 | To free data returned by XGetFontPath, use XFreeFontPath. | ||
12763 | |||
12764 | XFreeFontPath(char **list); | ||
12765 | |||
12766 | list | ||
12767 | |||
12768 | Specifies the array of strings you want to free. | ||
12769 | |||
12770 | The XFreeFontPath function frees the data allocated by | ||
12771 | XGetFontPath. | ||
12772 | |||
12773 | Grabbing the Server | ||
12774 | |||
12775 | Xlib provides functions that you can use to grab and ungrab the | ||
12776 | server. These functions can be used to control processing of | ||
12777 | output on other connections by the window system server. While | ||
12778 | the server is grabbed, no processing of requests or close downs | ||
12779 | on any other connection will occur. A client closing its | ||
12780 | connection automatically ungrabs the server. Although grabbing | ||
12781 | the server is highly discouraged, it is sometimes necessary. | ||
12782 | |||
12783 | To grab the server, use XGrabServer. | ||
12784 | |||
12785 | XGrabServer(Display *display); | ||
12786 | |||
12787 | display | ||
12788 | |||
12789 | Specifies the connection to the X server. | ||
12790 | |||
12791 | The XGrabServer function disables processing of requests and | ||
12792 | close downs on all other connections than the one this request | ||
12793 | arrived on. You should not grab the X server any more than is | ||
12794 | absolutely necessary. | ||
12795 | |||
12796 | To ungrab the server, use XUngrabServer. | ||
12797 | |||
12798 | XUngrabServer(Display *display); | ||
12799 | |||
12800 | display | ||
12801 | |||
12802 | Specifies the connection to the X server. | ||
12803 | |||
12804 | The XUngrabServer function restarts processing of requests and | ||
12805 | close downs on other connections. You should avoid grabbing the | ||
12806 | X server as much as possible. | ||
12807 | |||
12808 | Killing Clients | ||
12809 | |||
12810 | Xlib provides a function to cause the connection to a client to | ||
12811 | be closed and its resources to be destroyed. To destroy a | ||
12812 | client, use XKillClient. | ||
12813 | |||
12814 | XKillClient(Display *display, XID resource); | ||
12815 | |||
12816 | display | ||
12817 | |||
12818 | Specifies the connection to the X server. | ||
12819 | |||
12820 | resource | ||
12821 | |||
12822 | Specifies any resource associated with the client that you want | ||
12823 | to destroy or AllTemporary. | ||
12824 | |||
12825 | The XKillClient function forces a close down of the client that | ||
12826 | created the resource if a valid resource is specified. If the | ||
12827 | client has already terminated in either RetainPermanent or | ||
12828 | RetainTemporary mode, all of the client's resources are | ||
12829 | destroyed. If AllTemporary is specified, the resources of all | ||
12830 | clients that have terminated in RetainTemporary are destroyed | ||
12831 | (see section 2.5). This permits implementation of window | ||
12832 | manager facilities that aid debugging. A client can set its | ||
12833 | close-down mode to RetainTemporary. If the client then crashes, | ||
12834 | its windows would not be destroyed. The programmer can then | ||
12835 | inspect the application's window tree and use the window | ||
12836 | manager to destroy the zombie windows. | ||
12837 | |||
12838 | XKillClient can generate a BadValue error. | ||
12839 | |||
12840 | Controlling the Screen Saver | ||
12841 | |||
12842 | Xlib provides functions that you can use to set or reset the | ||
12843 | mode of the screen saver, to force or activate the screen | ||
12844 | saver, or to obtain the current screen saver values. | ||
12845 | |||
12846 | To set the screen saver mode, use XSetScreenSaver. | ||
12847 | |||
12848 | XSetScreenSaver(Display *display, int timeout, int interval, | ||
12849 | int prefer_blanking, int allow_exposures); | ||
12850 | |||
12851 | display | ||
12852 | |||
12853 | Specifies the connection to the X server. | ||
12854 | |||
12855 | timeout | ||
12856 | |||
12857 | Specifies the timeout, in seconds, until the screen saver turns | ||
12858 | on. | ||
12859 | |||
12860 | interval | ||
12861 | |||
12862 | Specifies the interval, in seconds, between screen saver | ||
12863 | alterations. | ||
12864 | |||
12865 | prefer_blanking | ||
12866 | |||
12867 | Specifies how to enable screen blanking. You can pass | ||
12868 | DontPreferBlanking, PreferBlanking, or DefaultBlanking. | ||
12869 | |||
12870 | allow_exposures | ||
12871 | |||
12872 | Specifies the screen save control values. You can pass | ||
12873 | DontAllowExposures, AllowExposures, or DefaultExposures. | ||
12874 | |||
12875 | Timeout and interval are specified in seconds. A timeout of 0 | ||
12876 | disables the screen saver (but an activated screen saver is not | ||
12877 | deactivated), and a timeout of -1 restores the default. Other | ||
12878 | negative values generate a BadValue error. If the timeout value | ||
12879 | is nonzero, XSetScreenSaver enables the screen saver. An | ||
12880 | interval of 0 disables the random-pattern motion. If no input | ||
12881 | from devices (keyboard, mouse, and so on) is generated for the | ||
12882 | specified number of timeout seconds once the screen saver is | ||
12883 | enabled, the screen saver is activated. | ||
12884 | |||
12885 | For each screen, if blanking is preferred and the hardware | ||
12886 | supports video blanking, the screen simply goes blank. | ||
12887 | Otherwise, if either exposures are allowed or the screen can be | ||
12888 | regenerated without sending Expose events to clients, the | ||
12889 | screen is tiled with the root window background tile randomly | ||
12890 | re-origined each interval seconds. Otherwise, the screens' | ||
12891 | state do not change, and the screen saver is not activated. The | ||
12892 | screen saver is deactivated, and all screen states are restored | ||
12893 | at the next keyboard or pointer input or at the next call to | ||
12894 | XForceScreenSaver with mode ScreenSaverReset. | ||
12895 | |||
12896 | If the server-dependent screen saver method supports periodic | ||
12897 | change, the interval argument serves as a hint about how long | ||
12898 | the change period should be, and zero hints that no periodic | ||
12899 | change should be made. Examples of ways to change the screen | ||
12900 | include scrambling the colormap periodically, moving an icon | ||
12901 | image around the screen periodically, or tiling the screen with | ||
12902 | the root window background tile, randomly re-origined | ||
12903 | periodically. | ||
12904 | |||
12905 | XSetScreenSaver can generate a BadValue error. | ||
12906 | |||
12907 | To force the screen saver on or off, use XForceScreenSaver. | ||
12908 | |||
12909 | XForceScreenSaver(Display *display, int mode); | ||
12910 | |||
12911 | display | ||
12912 | |||
12913 | Specifies the connection to the X server. | ||
12914 | |||
12915 | mode | ||
12916 | |||
12917 | Specifies the mode that is to be applied. You can pass | ||
12918 | ScreenSaverActive or ScreenSaverReset. | ||
12919 | |||
12920 | If the specified mode is ScreenSaverActive and the screen saver | ||
12921 | currently is deactivated, XForceScreenSaver activates the | ||
12922 | screen saver even if the screen saver had been disabled with a | ||
12923 | timeout of zero. If the specified mode is ScreenSaverReset and | ||
12924 | the screen saver currently is enabled, XForceScreenSaver | ||
12925 | deactivates the screen saver if it was activated, and the | ||
12926 | activation timer is reset to its initial state (as if device | ||
12927 | input had been received). | ||
12928 | |||
12929 | XForceScreenSaver can generate a BadValue error. | ||
12930 | |||
12931 | To activate the screen saver, use XActivateScreenSaver. | ||
12932 | |||
12933 | XActivateScreenSaver(Display *display); | ||
12934 | |||
12935 | display | ||
12936 | |||
12937 | Specifies the connection to the X server. | ||
12938 | |||
12939 | To reset the screen saver, use XResetScreenSaver. | ||
12940 | |||
12941 | XResetScreenSaver(Display *display); | ||
12942 | |||
12943 | display | ||
12944 | |||
12945 | Specifies the connection to the X server. | ||
12946 | |||
12947 | To get the current screen saver values, use XGetScreenSaver. | ||
12948 | |||
12949 | XGetScreenSaver(Display *display, int *timeout_return, int | ||
12950 | *interval_return, int *prefer_blanking_return, int | ||
12951 | *allow_exposures_return); | ||
12952 | |||
12953 | display | ||
12954 | |||
12955 | Specifies the connection to the X server. | ||
12956 | |||
12957 | timeout_return | ||
12958 | |||
12959 | Returns the timeout, in seconds, until the screen saver turns | ||
12960 | on. | ||
12961 | |||
12962 | interval_return | ||
12963 | |||
12964 | Returns the interval between screen saver invocations. | ||
12965 | |||
12966 | prefer_blanking_return | ||
12967 | |||
12968 | Returns the current screen blanking preference | ||
12969 | (DontPreferBlanking, PreferBlanking, or DefaultBlanking). | ||
12970 | |||
12971 | allow_exposures_return | ||
12972 | |||
12973 | Returns the current screen save control value | ||
12974 | (DontAllowExposures, AllowExposures, or DefaultExposures). | ||
12975 | |||
12976 | Controlling Host Access | ||
12977 | |||
12978 | This section discusses how to: | ||
12979 | * Add, get, or remove hosts from the access control list | ||
12980 | * Change, enable, or disable access | ||
12981 | |||
12982 | X does not provide any protection on a per-window basis. If you | ||
12983 | find out the resource ID of a resource, you can manipulate it. | ||
12984 | To provide some minimal level of protection, however, | ||
12985 | connections are permitted only from machines you trust. This is | ||
12986 | adequate on single-user workstations but obviously breaks down | ||
12987 | on timesharing machines. Although provisions exist in the X | ||
12988 | protocol for proper connection authentication, the lack of a | ||
12989 | standard authentication server leaves host-level access control | ||
12990 | as the only common mechanism. | ||
12991 | |||
12992 | The initial set of hosts allowed to open connections typically | ||
12993 | consists of: | ||
12994 | * The host the window system is running on. | ||
12995 | * On POSIX-conformant systems, each host listed in the | ||
12996 | /etc/X?.hosts file. The ? indicates the number of the | ||
12997 | display. This file should consist of host names separated | ||
12998 | by newlines. DECnet nodes must terminate in :: to | ||
12999 | distinguish them from Internet hosts. | ||
13000 | |||
13001 | If a host is not in the access control list when the access | ||
13002 | control mechanism is enabled and if the host attempts to | ||
13003 | establish a connection, the server refuses the connection. To | ||
13004 | change the access list, the client must reside on the same host | ||
13005 | as the server and/or must have been granted permission in the | ||
13006 | initial authorization at connection setup. | ||
13007 | |||
13008 | Servers also can implement other access control policies in | ||
13009 | addition to or in place of this host access facility. For | ||
13010 | further information about other access control implementations, | ||
13011 | see X Window System Protocol. | ||
13012 | |||
13013 | Adding, Getting, or Removing Hosts | ||
13014 | |||
13015 | Xlib provides functions that you can use to add, get, or remove | ||
13016 | hosts from the access control list. All the host access control | ||
13017 | functions use the XHostAddress structure, which contains: | ||
13018 | |||
13019 | |||
13020 | |||
13021 | typedef struct { | ||
13022 | int family; /* for example FamilyInternet */ | ||
13023 | int length; /* length of address, in bytes */ | ||
13024 | char *address; /* pointer to where to find the address */ | ||
13025 | } XHostAddress; | ||
13026 | |||
13027 | The family member specifies which protocol address family to | ||
13028 | use (for example, TCP/IP or DECnet) and can be FamilyInternet, | ||
13029 | FamilyInternet6, FamilyServerInterpreted, FamilyDECnet, or | ||
13030 | FamilyChaos. The length member specifies the length of the | ||
13031 | address in bytes. The address member specifies a pointer to the | ||
13032 | address. | ||
13033 | |||
13034 | For TCP/IP, the address should be in network byte order. For IP | ||
13035 | version 4 addresses, the family should be FamilyInternet and | ||
13036 | the length should be 4 bytes. For IP version 6 addresses, the | ||
13037 | family should be FamilyInternet6 and the length should be 16 | ||
13038 | bytes. | ||
13039 | |||
13040 | For the DECnet family, the server performs no automatic | ||
13041 | swapping on the address bytes. A Phase IV address is 2 bytes | ||
13042 | long. The first byte contains the least significant 8 bits of | ||
13043 | the node number. The second byte contains the most significant | ||
13044 | 2 bits of the node number in the least significant 2 bits of | ||
13045 | the byte and the area in the most significant 6 bits of the | ||
13046 | byte. | ||
13047 | |||
13048 | For the ServerInterpreted family, the length is ignored and the | ||
13049 | address member is a pointer to a XServerInterpretedAddress | ||
13050 | structure, which contains: | ||
13051 | |||
13052 | |||
13053 | |||
13054 | typedef struct { | ||
13055 | int typelength; /* length of type string, in bytes */ | ||
13056 | int valuelength; /* length of value string, in bytes */ | ||
13057 | char *type; /* pointer to where to find the type string */ | ||
13058 | char *value; /* pointer to where to find the address */ | ||
13059 | } XServerInterpretedAddress; | ||
13060 | |||
13061 | The type and value members point to strings representing the | ||
13062 | type and value of the server interpreted entry. These strings | ||
13063 | may not be NULL-terminated so care should be used when | ||
13064 | accessing them. The typelength and valuelength members specify | ||
13065 | the length in byte of the type and value strings. | ||
13066 | |||
13067 | To add a single host, use XAddHost. | ||
13068 | |||
13069 | XAddHost(Display *display, XHostAddress *host); | ||
13070 | |||
13071 | display | ||
13072 | |||
13073 | Specifies the connection to the X server. | ||
13074 | |||
13075 | host | ||
13076 | |||
13077 | Specifies the host that is to be added. | ||
13078 | |||
13079 | The XAddHost function adds the specified host to the access | ||
13080 | control list for that display. The server must be on the same | ||
13081 | host as the client issuing the command, or a BadAccess error | ||
13082 | results. | ||
13083 | |||
13084 | XAddHost can generate BadAccess and BadValue errors. | ||
13085 | |||
13086 | To add multiple hosts at one time, use XAddHosts. | ||
13087 | |||
13088 | XAddHosts(Display *display, XHostAddress *hosts, int | ||
13089 | num_hosts); | ||
13090 | |||
13091 | display | ||
13092 | |||
13093 | Specifies the connection to the X server. | ||
13094 | |||
13095 | hosts | ||
13096 | |||
13097 | Specifies each host that is to be added. | ||
13098 | |||
13099 | num_hosts | ||
13100 | |||
13101 | Specifies the number of hosts. | ||
13102 | |||
13103 | The XAddHosts function adds each specified host to the access | ||
13104 | control list for that display. The server must be on the same | ||
13105 | host as the client issuing the command, or a BadAccess error | ||
13106 | results. | ||
13107 | |||
13108 | XAddHosts can generate BadAccess and BadValue errors. | ||
13109 | |||
13110 | To obtain a host list, use XListHosts. | ||
13111 | |||
13112 | XHostAddress *XListHosts(Display *display, int *nhosts_return, | ||
13113 | Bool *state_return); | ||
13114 | |||
13115 | display | ||
13116 | |||
13117 | Specifies the connection to the X server. | ||
13118 | |||
13119 | nhosts_return | ||
13120 | |||
13121 | Returns the number of hosts currently in the access control | ||
13122 | list. | ||
13123 | |||
13124 | state_return | ||
13125 | |||
13126 | Returns the state of the access control. | ||
13127 | |||
13128 | The XListHosts function returns the current access control list | ||
13129 | as well as whether the use of the list at connection setup was | ||
13130 | enabled or disabled. XListHosts allows a program to find out | ||
13131 | what machines can make connections. It also returns a pointer | ||
13132 | to a list of host structures that were allocated by the | ||
13133 | function. When no longer needed, this memory should be freed by | ||
13134 | calling XFree. | ||
13135 | |||
13136 | To remove a single host, use XRemoveHost. | ||
13137 | |||
13138 | XRemoveHost(Display *display, XHostAddress *host); | ||
13139 | |||
13140 | display | ||
13141 | |||
13142 | Specifies the connection to the X server. | ||
13143 | |||
13144 | host | ||
13145 | |||
13146 | Specifies the host that is to be removed. | ||
13147 | |||
13148 | The XRemoveHost function removes the specified host from the | ||
13149 | access control list for that display. The server must be on the | ||
13150 | same host as the client process, or a BadAccess error results. | ||
13151 | If you remove your machine from the access list, you can no | ||
13152 | longer connect to that server, and this operation cannot be | ||
13153 | reversed unless you reset the server. | ||
13154 | |||
13155 | XRemoveHost can generate BadAccess and BadValue errors. | ||
13156 | |||
13157 | To remove multiple hosts at one time, use XRemoveHosts. | ||
13158 | |||
13159 | XRemoveHosts(Display *display, XHostAddress *hosts, int | ||
13160 | num_hosts); | ||
13161 | |||
13162 | display | ||
13163 | |||
13164 | Specifies the connection to the X server. | ||
13165 | |||
13166 | hosts | ||
13167 | |||
13168 | Specifies each host that is to be removed. | ||
13169 | |||
13170 | num_hosts | ||
13171 | |||
13172 | Specifies the number of hosts. | ||
13173 | |||
13174 | The XRemoveHosts function removes each specified host from the | ||
13175 | access control list for that display. The X server must be on | ||
13176 | the same host as the client process, or a BadAccess error | ||
13177 | results. If you remove your machine from the access list, you | ||
13178 | can no longer connect to that server, and this operation cannot | ||
13179 | be reversed unless you reset the server. | ||
13180 | |||
13181 | XRemoveHosts can generate BadAccess and BadValue errors. | ||
13182 | |||
13183 | Changing, Enabling, or Disabling Access Control | ||
13184 | |||
13185 | Xlib provides functions that you can use to enable, disable, or | ||
13186 | change access control. | ||
13187 | |||
13188 | For these functions to execute successfully, the client | ||
13189 | application must reside on the same host as the X server and/or | ||
13190 | have been given permission in the initial authorization at | ||
13191 | connection setup. | ||
13192 | |||
13193 | To change access control, use XSetAccessControl. | ||
13194 | |||
13195 | XSetAccessControl(Display *display, int mode); | ||
13196 | |||
13197 | display | ||
13198 | |||
13199 | Specifies the connection to the X server. | ||
13200 | |||
13201 | mode | ||
13202 | |||
13203 | Specifies the mode. You can pass EnableAccess or DisableAccess. | ||
13204 | |||
13205 | The XSetAccessControl function either enables or disables the | ||
13206 | use of the access control list at each connection setup. | ||
13207 | |||
13208 | XSetAccessControl can generate BadAccess and BadValue errors. | ||
13209 | |||
13210 | To enable access control, use XEnableAccessControl. | ||
13211 | |||
13212 | XEnableAccessControl(Display *display); | ||
13213 | |||
13214 | display | ||
13215 | |||
13216 | Specifies the connection to the X server. | ||
13217 | |||
13218 | The XEnableAccessControl function enables the use of the access | ||
13219 | control list at each connection setup. | ||
13220 | |||
13221 | XEnableAccessControl can generate a BadAccess error. | ||
13222 | |||
13223 | To disable access control, use XDisableAccessControl. | ||
13224 | |||
13225 | XDisableAccessControl(Display *display); | ||
13226 | |||
13227 | display | ||
13228 | |||
13229 | Specifies the connection to the X server. | ||
13230 | |||
13231 | The XDisableAccessControl function disables the use of the | ||
13232 | access control list at each connection setup. | ||
13233 | |||
13234 | XDisableAccessControl can generate a BadAccess error. | ||
13235 | |||
13236 | Chapter 10. Events | ||
13237 | |||
13238 | Table of Contents | ||
13239 | |||
13240 | Event Types | ||
13241 | Event Structures | ||
13242 | Event Masks | ||
13243 | Event Processing Overview | ||
13244 | Keyboard and Pointer Events | ||
13245 | |||
13246 | Pointer Button Events | ||
13247 | Keyboard and Pointer Events | ||
13248 | |||
13249 | Window Entry/Exit Events | ||
13250 | |||
13251 | Normal Entry/Exit Events | ||
13252 | Grab and Ungrab Entry/Exit Events | ||
13253 | |||
13254 | Input Focus Events | ||
13255 | |||
13256 | Normal Focus Events and Focus Events While Grabbed | ||
13257 | Focus Events Generated by Grabs | ||
13258 | |||
13259 | Key Map State Notification Events | ||
13260 | Exposure Events | ||
13261 | |||
13262 | Expose Events | ||
13263 | GraphicsExpose and NoExpose Events | ||
13264 | |||
13265 | Window State Change Events | ||
13266 | |||
13267 | CirculateNotify Events | ||
13268 | ConfigureNotify Events | ||
13269 | CreateNotify Events | ||
13270 | DestroyNotify Events | ||
13271 | GravityNotify Events | ||
13272 | MapNotify Events | ||
13273 | MappingNotify Events | ||
13274 | ReparentNotify Events | ||
13275 | UnmapNotify Events | ||
13276 | VisibilityNotify Events | ||
13277 | |||
13278 | Structure Control Events | ||
13279 | |||
13280 | CirculateRequest Events | ||
13281 | ConfigureRequest Events | ||
13282 | MapRequest Events | ||
13283 | ResizeRequest Events | ||
13284 | |||
13285 | Colormap State Change Events | ||
13286 | Client Communication Events | ||
13287 | |||
13288 | ClientMessage Events | ||
13289 | PropertyNotify Events | ||
13290 | SelectionClear Events | ||
13291 | SelectionRequest Events | ||
13292 | SelectionNotify Events | ||
13293 | |||
13294 | A client application communicates with the X server through the | ||
13295 | connection you establish with the XOpenDisplay function. A | ||
13296 | client application sends requests to the X server over this | ||
13297 | connection. These requests are made by the Xlib functions that | ||
13298 | are called in the client application. Many Xlib functions cause | ||
13299 | the X server to generate events, and the user's typing or | ||
13300 | moving the pointer can generate events asynchronously. The X | ||
13301 | server returns events to the client on the same connection. | ||
13302 | |||
13303 | This chapter discusses the following topics associated with | ||
13304 | events: | ||
13305 | * Event types | ||
13306 | * Event structures | ||
13307 | * Event masks | ||
13308 | * Event processing | ||
13309 | |||
13310 | Functions for handling events are dealt with in the next | ||
13311 | chapter. | ||
13312 | |||
13313 | Event Types | ||
13314 | |||
13315 | An event is data generated asynchronously by the X server as a | ||
13316 | result of some device activity or as side effects of a request | ||
13317 | sent by an Xlib function. Device-related events propagate from | ||
13318 | the source window to ancestor windows until some client | ||
13319 | application has selected that event type or until the event is | ||
13320 | explicitly discarded. The X server generally sends an event to | ||
13321 | a client application only if the client has specifically asked | ||
13322 | to be informed of that event type, typically by setting the | ||
13323 | event-mask attribute of the window. The mask can also be set | ||
13324 | when you create a window or by changing the window's | ||
13325 | event-mask. You can also mask out events that would propagate | ||
13326 | to ancestor windows by manipulating the do-not-propagate mask | ||
13327 | of the window's attributes. However, MappingNotify events are | ||
13328 | always sent to all clients. | ||
13329 | |||
13330 | An event type describes a specific event generated by the X | ||
13331 | server. For each event type, a corresponding constant name is | ||
13332 | defined in <X11/X.h>, which is used when referring to an event | ||
13333 | type. The following table lists the event category and its | ||
13334 | associated event type or types. The processing associated with | ||
13335 | these events is discussed in section 10.5. | ||
13336 | |||
13337 | Event Category Event Type | ||
13338 | Keyboard events KeyPress, KeyRelease | ||
13339 | Pointer events ButtonPress, ButtonRelease, MotionNotify | ||
13340 | Window crossing events EnterNotify, LeaveNotify | ||
13341 | Input focus events FocusIn, FocusOut | ||
13342 | Keymap state notification event KeymapNotify | ||
13343 | Exposure events Expose, GraphicsExpose, NoExpose | ||
13344 | Structure control events CirculateRequest, ConfigureRequest, | ||
13345 | MapRequest, ResizeRequest | ||
13346 | Window state notification events CirculateNotify, | ||
13347 | ConfigureNotify, CreateNotify, DestroyNotify, GravityNotify, | ||
13348 | MapNotify, MappingNotify, ReparentNotify, UnmapNotify, | ||
13349 | VisibilityNotify | ||
13350 | Colormap state notification event ColormapNotify | ||
13351 | Client communication events ClientMessage, PropertyNotify, | ||
13352 | SelectionClear, SelectionNotify, SelectionRequest | ||
13353 | |||
13354 | Event Structures | ||
13355 | |||
13356 | For each event type, a corresponding structure is declared in | ||
13357 | <X11/Xlib.h>. All the event structures have the following | ||
13358 | common members: | ||
13359 | |||
13360 | |||
13361 | |||
13362 | typedef struct { | ||
13363 | int type; | ||
13364 | unsigned long serial; /* # of last request processed by server | ||
13365 | */ | ||
13366 | Bool send_event; /* true if this came from a SendEvent req | ||
13367 | uest */ | ||
13368 | Display *display; /* Display the event was read from */ | ||
13369 | Window window; | ||
13370 | } XAnyEvent; | ||
13371 | |||
13372 | The type member is set to the event type constant name that | ||
13373 | uniquely identifies it. For example, when the X server reports | ||
13374 | a GraphicsExpose event to a client application, it sends an | ||
13375 | XGraphicsExposeEvent structure with the type member set to | ||
13376 | GraphicsExpose. The display member is set to a pointer to the | ||
13377 | display the event was read on. The send_event member is set to | ||
13378 | True if the event came from a SendEvent protocol request. The | ||
13379 | serial member is set from the serial number reported in the | ||
13380 | protocol but expanded from the 16-bit least-significant bits to | ||
13381 | a full 32-bit value. The window member is set to the window | ||
13382 | that is most useful to toolkit dispatchers. | ||
13383 | |||
13384 | The X server can send events at any time in the input stream. | ||
13385 | Xlib stores any events received while waiting for a reply in an | ||
13386 | event queue for later use. Xlib also provides functions that | ||
13387 | allow you to check events in the event queue (see section | ||
13388 | 11.3). | ||
13389 | |||
13390 | In addition to the individual structures declared for each | ||
13391 | event type, the XEvent structure is a union of the individual | ||
13392 | structures declared for each event type. Depending on the type, | ||
13393 | you should access members of each event by using the XEvent | ||
13394 | union. | ||
13395 | |||
13396 | |||
13397 | |||
13398 | typedef union _XEvent { | ||
13399 | int type; /* must not be change | ||
13400 | d */ | ||
13401 | XAnyEvent xany; | ||
13402 | XKeyEvent xkey; | ||
13403 | XButtonEvent xbutton; | ||
13404 | XMotionEvent xmotion; | ||
13405 | XCrossingEvent xcrossing; | ||
13406 | XFocusChangeEvent xfocus; | ||
13407 | XExposeEvent xexpose; | ||
13408 | XGraphicsExposeEvent xgraphicsexpose; | ||
13409 | XNoExposeEvent xnoexpose; | ||
13410 | XVisibilityEvent xvisibility; | ||
13411 | XCreateWindowEvent xcreatewindow; | ||
13412 | XDestroyWindowEvent xdestroywindow; | ||
13413 | XUnmapEvent xunmap; | ||
13414 | XMapEvent xmap; | ||
13415 | XMapRequestEvent xmaprequest; | ||
13416 | XReparentEvent xreparent; | ||
13417 | XConfigureEvent xconfigure; | ||
13418 | XGravityEvent xgravity; | ||
13419 | XResizeRequestEvent xresizerequest; | ||
13420 | XConfigureRequestEvent xconfigurerequest; | ||
13421 | XCirculateEvent xcirculate; | ||
13422 | XCirculateRequestEvent xcirculaterequest; | ||
13423 | XPropertyEvent xproperty; | ||
13424 | XSelectionClearEvent xselectionclear; | ||
13425 | XSelectionRequestEvent xselectionrequest; | ||
13426 | XSelectionEvent xselection; | ||
13427 | XColormapEvent xcolormap; | ||
13428 | XClientMessageEvent xclient; | ||
13429 | XMappingEvent xmapping; | ||
13430 | XErrorEvent xerror; | ||
13431 | XKeymapEvent xkeymap; | ||
13432 | long pad[24]; | ||
13433 | } XEvent; | ||
13434 | |||
13435 | An XEvent structure's first entry always is the type member, | ||
13436 | which is set to the event type. The second member always is the | ||
13437 | serial number of the protocol request that generated the event. | ||
13438 | The third member always is send_event, which is a Bool that | ||
13439 | indicates if the event was sent by a different client. The | ||
13440 | fourth member always is a display, which is the display that | ||
13441 | the event was read from. Except for keymap events, the fifth | ||
13442 | member always is a window, which has been carefully selected to | ||
13443 | be useful to toolkit dispatchers. To avoid breaking toolkits, | ||
13444 | the order of these first five entries is not to change. Most | ||
13445 | events also contain a time member, which is the time at which | ||
13446 | an event occurred. In addition, a pointer to the generic event | ||
13447 | must be cast before it is used to access any other information | ||
13448 | in the structure. | ||
13449 | |||
13450 | Event Masks | ||
13451 | |||
13452 | Clients select event reporting of most events relative to a | ||
13453 | window. To do this, pass an event mask to an Xlib | ||
13454 | event-handling function that takes an event_mask argument. The | ||
13455 | bits of the event mask are defined in <X11/X.h>. Each bit in | ||
13456 | the event mask maps to an event mask name, which describes the | ||
13457 | event or events you want the X server to return to a client | ||
13458 | application. | ||
13459 | |||
13460 | Unless the client has specifically asked for them, most events | ||
13461 | are not reported to clients when they are generated. Unless the | ||
13462 | client suppresses them by setting graphics-exposures in the GC | ||
13463 | to False, GraphicsExpose and NoExpose are reported by default | ||
13464 | as a result of XCopyPlane and XCopyArea. SelectionClear, | ||
13465 | SelectionRequest, SelectionNotify, or ClientMessage cannot be | ||
13466 | masked. Selection-related events are only sent to clients | ||
13467 | cooperating with selections (see section 4.5). When the | ||
13468 | keyboard or pointer mapping is changed, MappingNotify is always | ||
13469 | sent to clients. | ||
13470 | |||
13471 | The following table lists the event mask constants you can pass | ||
13472 | to the event_mask argument and the circumstances in which you | ||
13473 | would want to specify the event mask: | ||
13474 | Event Mask Circumstances | ||
13475 | NoEventMask No events wanted | ||
13476 | KeyPressMask Keyboard down events wanted | ||
13477 | KeyReleaseMask Keyboard up events wanted | ||
13478 | ButtonPressMask Pointer button down events wanted | ||
13479 | ButtonReleaseMask Pointer button up events wanted | ||
13480 | EnterWindowMask Pointer window entry events wanted | ||
13481 | LeaveWindowMask Pointer window leave events wanted | ||
13482 | PointerMotionMask Pointer motion events wanted | ||
13483 | PointerMotionHintMask Pointer motion hints wanted | ||
13484 | Button1MotionMask Pointer motion while button 1 down | ||
13485 | Button2MotionMask Pointer motion while button 2 down | ||
13486 | Button3MotionMask Pointer motion while button 3 down | ||
13487 | Button4MotionMask Pointer motion while button 4 down | ||
13488 | Button5MotionMask Pointer motion while button 5 down | ||
13489 | ButtonMotionMask Pointer motion while any button down | ||
13490 | KeymapStateMask Keyboard state wanted at window entry and focus | ||
13491 | in | ||
13492 | ExposureMask Any exposure wanted | ||
13493 | VisibilityChangeMask Any change in visibility wanted | ||
13494 | StructureNotifyMask Any change in window structure wanted | ||
13495 | ResizeRedirectMask Redirect resize of this window | ||
13496 | SubstructureNotifyMask Substructure notification wanted | ||
13497 | SubstructureRedirectMask Redirect structure requests on | ||
13498 | children | ||
13499 | FocusChangeMask Any change in input focus wanted | ||
13500 | PropertyChangeMask Any change in property wanted | ||
13501 | ColormapChangeMask Any change in colormap wanted | ||
13502 | OwnerGrabButtonMask Automatic grabs should activate with | ||
13503 | owner_events set to True | ||
13504 | |||
13505 | Event Processing Overview | ||
13506 | |||
13507 | The event reported to a client application during event | ||
13508 | processing depends on which event masks you provide as the | ||
13509 | event-mask attribute for a window. For some event masks, there | ||
13510 | is a one-to-one correspondence between the event mask constant | ||
13511 | and the event type constant. For example, if you pass the event | ||
13512 | mask ButtonPressMask, the X server sends back only ButtonPress | ||
13513 | events. Most events contain a time member, which is the time at | ||
13514 | which an event occurred. | ||
13515 | |||
13516 | In other cases, one event mask constant can map to several | ||
13517 | event type constants. For example, if you pass the event mask | ||
13518 | SubstructureNotifyMask, the X server can send back | ||
13519 | CirculateNotify, ConfigureNotify, CreateNotify, DestroyNotify, | ||
13520 | GravityNotify, MapNotify, ReparentNotify, or UnmapNotify | ||
13521 | events. | ||
13522 | |||
13523 | In another case, two event masks can map to one event type. For | ||
13524 | example, if you pass either PointerMotionMask or | ||
13525 | ButtonMotionMask, the X server sends back a MotionNotify event. | ||
13526 | |||
13527 | The following table lists the event mask, its associated event | ||
13528 | type or types, and the structure name associated with the event | ||
13529 | type. Some of these structures actually are typedefs to a | ||
13530 | generic structure that is shared between two event types. Note | ||
13531 | that N.A. appears in columns for which the information is not | ||
13532 | applicable. | ||
13533 | Event Mask Event Type Structure Generic Structure | ||
13534 | |||
13535 | ButtonMotionMask | ||
13536 | |||
13537 | Button1MotionMask | ||
13538 | |||
13539 | Button2MotionMask | ||
13540 | |||
13541 | Button3MotionMask | ||
13542 | |||
13543 | Button4MotionMask | ||
13544 | |||
13545 | Button5MotionMask | ||
13546 | MotionNotify XPointerMovedEvent XMotionEvent | ||
13547 | ButtonPressMask ButtonPress XButtonPressedEvent XButtonEvent | ||
13548 | ButtonReleaseMask ButtonRelease XButtonReleasedEvent | ||
13549 | XButtonEvent | ||
13550 | ColormapChangeMask ColormapNotify XColormapEvent | ||
13551 | EnterWindowMask EnterNotify XEnterWindowEvent XCrossingEvent | ||
13552 | LeaveWindowMask LeaveNotify XLeaveWindowEvent XCrossingEvent | ||
13553 | ExposureMask Expose XExposeEvent | ||
13554 | GCGraphicsExposures in GC GraphicsExpose XGraphicsExposeEvent | ||
13555 | NoExpose XNoExposeEvent | ||
13556 | FocusChangeMask FocusIn XFocusInEvent XFocusChangeEvent | ||
13557 | FocusOut XFocusOutEvent XFocusChangeEvent | ||
13558 | KeymapStateMask KeymapNotify XKeymapEvent | ||
13559 | KeyPressMask KeyPress XKeyPressedEvent XKeyEvent | ||
13560 | KeyReleaseMask KeyRelease XKeyReleasedEvent XKeyEvent | ||
13561 | OwnerGrabButtonMask N.A. N.A. | ||
13562 | PointerMotionMask MotionNotify XPointerMovedEvent XMotionEvent | ||
13563 | PointerMotionHintMask N.A. N.A. | ||
13564 | PropertyChangeMask PropertyNotify XPropertyEvent | ||
13565 | ResizeRedirectMask ResizeRequest XResizeRequestEvent | ||
13566 | StructureNotifyMask CirculateNotify XCirculateEvent | ||
13567 | ConfigureNotify XConfigureEvent | ||
13568 | DestroyNotify XDestroyWindowEvent | ||
13569 | GravityNotify XGravityEvent | ||
13570 | MapNotify XMapEvent | ||
13571 | ReparentNotify XReparentEvent | ||
13572 | UnmapNotify XUnmapEvent | ||
13573 | SubstructureNotifyMask CirculateNotify XCirculateEvent | ||
13574 | ConfigureNotify XConfigureEvent | ||
13575 | CreateNotify XCreateWindowEvent | ||
13576 | DestroyNotify XDestroyWindowEvent | ||
13577 | GravityNotify XGravityEvent | ||
13578 | MapNotify XMapEvent | ||
13579 | ReparentNotify XReparentEvent | ||
13580 | UnmapNotify XUnmapEvent | ||
13581 | SubstructureRedirectMask CirculateRequest | ||
13582 | XCirculateRequestEvent | ||
13583 | ConfigureRequest XConfigureRequestEvent | ||
13584 | MapRequest XMapRequestEvent | ||
13585 | N.A. ClientMessage XClientMessageEvent | ||
13586 | N.A. MappingNotify XMappingEvent | ||
13587 | N.A. SelectionClear XSelectionClearEvent | ||
13588 | N.A. SelectionNotify XSelectionEvent | ||
13589 | N.A. SelectionRequest XSelectionRequestEvent | ||
13590 | VisibilityChangeMask VisibilityNotify XVisibilityEvent | ||
13591 | |||
13592 | The sections that follow describe the processing that occurs | ||
13593 | when you select the different event masks. The sections are | ||
13594 | organized according to these processing categories: | ||
13595 | * Keyboard and pointer events | ||
13596 | * Window crossing events | ||
13597 | * Input focus events | ||
13598 | * Keymap state notification events | ||
13599 | * Exposure events | ||
13600 | * Window state notification events | ||
13601 | * Structure control events | ||
13602 | * Colormap state notification events | ||
13603 | * Client communication events | ||
13604 | |||
13605 | Keyboard and Pointer Events | ||
13606 | |||
13607 | This section discusses: | ||
13608 | * Pointer button events | ||
13609 | * Keyboard and pointer events | ||
13610 | |||
13611 | Pointer Button Events | ||
13612 | |||
13613 | The following describes the event processing that occurs when a | ||
13614 | pointer button press is processed with the pointer in some | ||
13615 | window w and when no active pointer grab is in progress. | ||
13616 | |||
13617 | The X server searches the ancestors of w from the root down, | ||
13618 | looking for a passive grab to activate. If no matching passive | ||
13619 | grab on the button exists, the X server automatically starts an | ||
13620 | active grab for the client receiving the event and sets the | ||
13621 | last-pointer-grab time to the current server time. The effect | ||
13622 | is essentially equivalent to an XGrabButton with these client | ||
13623 | passed arguments: | ||
13624 | Argument Value | ||
13625 | w The event window | ||
13626 | event_mask The client's selected pointer events on the event | ||
13627 | window | ||
13628 | pointer_mode GrabModeAsync | ||
13629 | keyboard_mode GrabModeAsync | ||
13630 | owner_events True, if the client has selected | ||
13631 | OwnerGrabButtonMask on the event window, otherwise False | ||
13632 | confine_to None | ||
13633 | cursor None | ||
13634 | |||
13635 | The active grab is automatically terminated when the logical | ||
13636 | state of the pointer has all buttons released. Clients can | ||
13637 | modify the active grab by calling XUngrabPointer and | ||
13638 | XChangeActivePointerGrab. | ||
13639 | |||
13640 | Keyboard and Pointer Events | ||
13641 | |||
13642 | This section discusses the processing that occurs for the | ||
13643 | keyboard events KeyPress and KeyRelease and the pointer events | ||
13644 | ButtonPress, ButtonRelease, and MotionNotify. For information | ||
13645 | about the keyboard event-handling utilities, see chapter 11. | ||
13646 | |||
13647 | The X server reports KeyPress or KeyRelease events to clients | ||
13648 | wanting information about keys that logically change state. | ||
13649 | Note that these events are generated for all keys, even those | ||
13650 | mapped to modifier bits. The X server reports ButtonPress or | ||
13651 | ButtonRelease events to clients wanting information about | ||
13652 | buttons that logically change state. | ||
13653 | |||
13654 | The X server reports MotionNotify events to clients wanting | ||
13655 | information about when the pointer logically moves. The X | ||
13656 | server generates this event whenever the pointer is moved and | ||
13657 | the pointer motion begins and ends in the window. The | ||
13658 | granularity of MotionNotify events is not guaranteed, but a | ||
13659 | client that selects this event type is guaranteed to receive at | ||
13660 | least one event when the pointer moves and then rests. | ||
13661 | |||
13662 | The generation of the logical changes lags the physical changes | ||
13663 | if device event processing is frozen. | ||
13664 | |||
13665 | To receive KeyPress, KeyRelease, ButtonPress, and ButtonRelease | ||
13666 | events, set KeyPressMask, KeyReleaseMask, ButtonPressMask, and | ||
13667 | ButtonReleaseMask bits in the event-mask attribute of the | ||
13668 | window. | ||
13669 | |||
13670 | To receive MotionNotify events, set one or more of the | ||
13671 | following event masks bits in the event-mask attribute of the | ||
13672 | window. | ||
13673 | * Button1MotionMask - Button5MotionMask | ||
13674 | * The client application receives MotionNotify events only | ||
13675 | when one or more of the specified buttons is pressed. | ||
13676 | * ButtonMotionMask | ||
13677 | * The client application receives MotionNotify events only | ||
13678 | when at least one button is pressed. | ||
13679 | * PointerMotionMask | ||
13680 | * The client application receives MotionNotify events | ||
13681 | independent of the state of the pointer buttons. | ||
13682 | * PointerMotionHintMask | ||
13683 | * If PointerMotionHintMask is selected in combination with | ||
13684 | one or more of the above masks, the X server is free to | ||
13685 | send only one MotionNotify event (with the is_hint member | ||
13686 | of the XPointerMovedEvent structure set to NotifyHint) to | ||
13687 | the client for the event window, until either the key or | ||
13688 | button state changes, the pointer leaves the event window, | ||
13689 | or the client calls XQueryPointer or . The server still may | ||
13690 | send MotionNotify events without is_hint set to NotifyHint. | ||
13691 | |||
13692 | The source of the event is the viewable window that the pointer | ||
13693 | is in. The window used by the X server to report these events | ||
13694 | depends on the window's position in the window hierarchy and | ||
13695 | whether any intervening window prohibits the generation of | ||
13696 | these events. Starting with the source window, the X server | ||
13697 | searches up the window hierarchy until it locates the first | ||
13698 | window specified by a client as having an interest in these | ||
13699 | events. If one of the intervening windows has its | ||
13700 | do-not-propagate-mask set to prohibit generation of the event | ||
13701 | type, the events of those types will be suppressed. Clients can | ||
13702 | modify the actual window used for reporting by performing | ||
13703 | active grabs and, in the case of keyboard events, by using the | ||
13704 | focus window. | ||
13705 | |||
13706 | The structures for these event types contain: | ||
13707 | typedef struct { | ||
13708 | int type; /* ButtonPress or ButtonRelease */ | ||
13709 | unsigned long serial; /* # of last request processed by s | ||
13710 | erver */ | ||
13711 | Bool send_event; /* true if this came from a SendEve | ||
13712 | nt request */ | ||
13713 | Display *display; /* Display the event was read from | ||
13714 | */ | ||
13715 | Window window; /* ``event'' window it is reported | ||
13716 | relative to */ | ||
13717 | Window root; /* root window that the event occur | ||
13718 | red on */ | ||
13719 | Window subwindow; /* child window */ | ||
13720 | Time time; /* milliseconds */ | ||
13721 | int x, y; /* pointer x, y coordinates in even | ||
13722 | t window */ | ||
13723 | int x_root, y_root; /* coordinates relative to root */ | ||
13724 | unsigned int state; /* key or button mask */ | ||
13725 | unsigned int button; /* detail */ | ||
13726 | Bool same_screen; /* same screen flag */ | ||
13727 | } XButtonEvent; | ||
13728 | typedef XButtonEvent XButtonPressedEvent; | ||
13729 | typedef XButtonEvent XButtonReleasedEvent; | ||
13730 | |||
13731 | typedef struct { | ||
13732 | int type; /* KeyPress or KeyRelease */ | ||
13733 | unsigned long serial; /* # of last request processed by s | ||
13734 | erver */ | ||
13735 | Bool send_event; /* true if this came from a SendEve | ||
13736 | nt request */ | ||
13737 | Display *display; /* Display the event was read from | ||
13738 | */ | ||
13739 | Window window; /* ``event'' window it is reported | ||
13740 | relative to */ | ||
13741 | Window root; /* root window that the event occur | ||
13742 | red on */ | ||
13743 | Window subwindow; /* child window */ | ||
13744 | Time time; /* milliseconds */ | ||
13745 | int x, y; /* pointer x, y coordinates in even | ||
13746 | t window */ | ||
13747 | int x_root, y_root; /* coordinates relative to root */ | ||
13748 | unsigned int state; /* key or button mask */ | ||
13749 | unsigned int keycode; /* detail */ | ||
13750 | Bool same_screen; /* same screen flag */ | ||
13751 | } XKeyEvent; | ||
13752 | typedef XKeyEvent XKeyPressedEvent; | ||
13753 | typedef XKeyEvent XKeyReleasedEvent; | ||
13754 | |||
13755 | typedef struct { | ||
13756 | int type; /* MotionNotify */ | ||
13757 | unsigned long serial; /* # of last request processed by | ||
13758 | server */ | ||
13759 | Bool send_event; /* true if this came from a SendE | ||
13760 | vent request */ | ||
13761 | Display *display; /* Display the event was read fro | ||
13762 | m */ | ||
13763 | Window window; /* ``event'' window reported rela | ||
13764 | tive to */ | ||
13765 | Window root; /* root window that the event occ | ||
13766 | urred on */ | ||
13767 | Window subwindow; /* child window */ | ||
13768 | Time time; /* milliseconds */ | ||
13769 | int x, y; /* pointer x, y coordinates in ev | ||
13770 | ent window */ | ||
13771 | int x_root, y_root; /* coordinates relative to root * | ||
13772 | / | ||
13773 | unsigned int state; /* key or button mask */ | ||
13774 | char is_hint; /* detail */ | ||
13775 | Bool same_screen; /* same screen flag */ | ||
13776 | } XMotionEvent; | ||
13777 | typedef XMotionEvent XPointerMovedEvent; | ||
13778 | |||
13779 | These structures have the following common members: window, | ||
13780 | root, subwindow, time, x, y, x_root, y_root, state, and | ||
13781 | same_screen. The window member is set to the window on which | ||
13782 | the event was generated and is referred to as the event window. | ||
13783 | As long as the conditions previously discussed are met, this is | ||
13784 | the window used by the X server to report the event. The root | ||
13785 | member is set to the source window's root window. The x_root | ||
13786 | and y_root members are set to the pointer's coordinates | ||
13787 | relative to the root window's origin at the time of the event. | ||
13788 | |||
13789 | The same_screen member is set to indicate whether the event | ||
13790 | window is on the same screen as the root window and can be | ||
13791 | either True or False. If True, the event and root windows are | ||
13792 | on the same screen. If False, the event and root windows are | ||
13793 | not on the same screen. | ||
13794 | |||
13795 | If the source window is an inferior of the event window, the | ||
13796 | subwindow member of the structure is set to the child of the | ||
13797 | event window that is the source window or the child of the | ||
13798 | event window that is an ancestor of the source window. | ||
13799 | Otherwise, the X server sets the subwindow member to None. The | ||
13800 | time member is set to the time when the event was generated and | ||
13801 | is expressed in milliseconds. | ||
13802 | |||
13803 | If the event window is on the same screen as the root window, | ||
13804 | the x and y members are set to the coordinates relative to the | ||
13805 | event window's origin. Otherwise, these members are set to | ||
13806 | zero. | ||
13807 | |||
13808 | The state member is set to indicate the logical state of the | ||
13809 | pointer buttons and modifier keys just prior to the event, | ||
13810 | which is the bitwise inclusive OR of one or more of the button | ||
13811 | or modifier key masks: Button1Mask, Button2Mask, Button3Mask, | ||
13812 | Button4Mask, Button5Mask, ShiftMask, LockMask, ControlMask, | ||
13813 | Mod1Mask, Mod2Mask, Mod3Mask, Mod4Mask, and Mod5Mask. | ||
13814 | |||
13815 | Each of these structures also has a member that indicates the | ||
13816 | detail. For the XKeyPressedEvent and XKeyReleasedEvent | ||
13817 | structures, this member is called a keycode. It is set to a | ||
13818 | number that represents a physical key on the keyboard. The | ||
13819 | keycode is an arbitrary representation for any key on the | ||
13820 | keyboard (see sections 12.7 and 16.1). | ||
13821 | |||
13822 | For the XButtonPressedEvent and XButtonReleasedEvent | ||
13823 | structures, this member is called button. It represents the | ||
13824 | pointer button that changed state and can be the Button1, | ||
13825 | Button2, Button3, Button4, or Button5 value. For the | ||
13826 | XPointerMovedEvent structure, this member is called is_hint. It | ||
13827 | can be set to NotifyNormal or NotifyHint. | ||
13828 | |||
13829 | Some of the symbols mentioned in this section have fixed | ||
13830 | values, as follows: | ||
13831 | Symbol Value | ||
13832 | Button1MotionMask (1L<<8) | ||
13833 | Button2MotionMask (1L<<9) | ||
13834 | Button3MotionMask (1L<<10) | ||
13835 | Button4MotionMask (1L<<11) | ||
13836 | Button5MotionMask (1L<<12) | ||
13837 | Button1Mask (1<<8) | ||
13838 | Button2Mask (1<<9) | ||
13839 | Button3Mask (1<<10) | ||
13840 | Button4Mask (1<<11) | ||
13841 | Button5Mask (1<<12) | ||
13842 | ShiftMask (1<<0) | ||
13843 | LockMask (1<<1) | ||
13844 | ControlMask (1<<2) | ||
13845 | Mod1Mask (1<<3) | ||
13846 | Mod2Mask (1<<4) | ||
13847 | Mod3Mask (1<<5) | ||
13848 | Mod4Mask (1<<6) | ||
13849 | Mod5Mask (1<<7) | ||
13850 | Button1 1 | ||
13851 | Button2 2 | ||
13852 | Button3 3 | ||
13853 | Button4 4 | ||
13854 | Button5 5 | ||
13855 | |||
13856 | Window Entry/Exit Events | ||
13857 | |||
13858 | This section describes the processing that occurs for the | ||
13859 | window crossing events EnterNotify and LeaveNotify. If a | ||
13860 | pointer motion or a window hierarchy change causes the pointer | ||
13861 | to be in a different window than before, the X server reports | ||
13862 | EnterNotify or LeaveNotify events to clients who have selected | ||
13863 | for these events. All EnterNotify and LeaveNotify events caused | ||
13864 | by a hierarchy change are generated after any hierarchy event | ||
13865 | (UnmapNotify, MapNotify, ConfigureNotify, GravityNotify, | ||
13866 | CirculateNotify) caused by that change; however, the X protocol | ||
13867 | does not constrain the ordering of EnterNotify and LeaveNotify | ||
13868 | events with respect to FocusOut, VisibilityNotify, and Expose | ||
13869 | events. | ||
13870 | |||
13871 | This contrasts with MotionNotify events, which are also | ||
13872 | generated when the pointer moves but only when the pointer | ||
13873 | motion begins and ends in a single window. An EnterNotify or | ||
13874 | LeaveNotify event also can be generated when some client | ||
13875 | application calls XGrabPointer and XUngrabPointer. | ||
13876 | |||
13877 | To receive EnterNotify or LeaveNotify events, set the | ||
13878 | EnterWindowMask or LeaveWindowMask bits of the event-mask | ||
13879 | attribute of the window. | ||
13880 | |||
13881 | The structure for these event types contains: | ||
13882 | |||
13883 | |||
13884 | typedef struct { | ||
13885 | int type; /* EnterNotify or LeaveNotify */ | ||
13886 | unsigned long serial; /* # of last request processed by ser | ||
13887 | ver */ | ||
13888 | Bool send_event; /* true if this came from a SendEvent | ||
13889 | request */ | ||
13890 | Display *display; /* Display the event was read from */ | ||
13891 | Window window; /* ``event'' window reported relative | ||
13892 | to */ | ||
13893 | Window root; /* root window that the event occurre | ||
13894 | d on */ | ||
13895 | Window subwindow; /* child window */ | ||
13896 | Time time; /* milliseconds */ | ||
13897 | int x, y; /* pointer x, y coordinates in event | ||
13898 | window */ | ||
13899 | int x_root, y_root; /* coordinates relative to root */ | ||
13900 | int mode; /* NotifyNormal, NotifyGrab, NotifyUn | ||
13901 | grab */ | ||
13902 | int detail; | ||
13903 | /* | ||
13904 | * NotifyAncestor, NotifyVirtual, NotifyInferior, | ||
13905 | * NotifyNonlinear,NotifyNonlinearVirtual | ||
13906 | */ | ||
13907 | Bool same_screen; /* same screen flag */ | ||
13908 | Bool focus; /* boolean focus */ | ||
13909 | unsigned int state; /* key or button mask */ | ||
13910 | } XCrossingEvent; | ||
13911 | typedef XCrossingEvent XEnterWindowEvent; | ||
13912 | typedef XCrossingEvent XLeaveWindowEvent; | ||
13913 | |||
13914 | The window member is set to the window on which the EnterNotify | ||
13915 | or LeaveNotify event was generated and is referred to as the | ||
13916 | event window. This is the window used by the X server to report | ||
13917 | the event, and is relative to the root window on which the | ||
13918 | event occurred. The root member is set to the root window of | ||
13919 | the screen on which the event occurred. | ||
13920 | |||
13921 | For a LeaveNotify event, if a child of the event window | ||
13922 | contains the initial position of the pointer, the subwindow | ||
13923 | component is set to that child. Otherwise, the X server sets | ||
13924 | the subwindow member to None. For an EnterNotify event, if a | ||
13925 | child of the event window contains the final pointer position, | ||
13926 | the subwindow component is set to that child or None. | ||
13927 | |||
13928 | The time member is set to the time when the event was generated | ||
13929 | and is expressed in milliseconds. The x and y members are set | ||
13930 | to the coordinates of the pointer position in the event window. | ||
13931 | This position is always the pointer's final position, not its | ||
13932 | initial position. If the event window is on the same screen as | ||
13933 | the root window, x and y are the pointer coordinates relative | ||
13934 | to the event window's origin. Otherwise, x and y are set to | ||
13935 | zero. The x_root and y_root members are set to the pointer's | ||
13936 | coordinates relative to the root window's origin at the time of | ||
13937 | the event. | ||
13938 | |||
13939 | The same_screen member is set to indicate whether the event | ||
13940 | window is on the same screen as the root window and can be | ||
13941 | either True or False. If True, the event and root windows are | ||
13942 | on the same screen. If False, the event and root windows are | ||
13943 | not on the same screen. | ||
13944 | |||
13945 | The focus member is set to indicate whether the event window is | ||
13946 | the focus window or an inferior of the focus window. The X | ||
13947 | server can set this member to either True or False. If True, | ||
13948 | the event window is the focus window or an inferior of the | ||
13949 | focus window. If False, the event window is not the focus | ||
13950 | window or an inferior of the focus window. | ||
13951 | |||
13952 | The state member is set to indicate the state of the pointer | ||
13953 | buttons and modifier keys just prior to the event. The X server | ||
13954 | can set this member to the bitwise inclusive OR of one or more | ||
13955 | of the button or modifier key masks: Button1Mask, Button2Mask, | ||
13956 | Button3Mask, Button4Mask, Button5Mask, ShiftMask, LockMask, | ||
13957 | ControlMask, Mod1Mask, Mod2Mask, Mod3Mask, Mod4Mask, Mod5Mask. | ||
13958 | |||
13959 | The mode member is set to indicate whether the events are | ||
13960 | normal events, pseudo-motion events when a grab activates, or | ||
13961 | pseudo-motion events when a grab deactivates. The X server can | ||
13962 | set this member to NotifyNormal, NotifyGrab, or NotifyUngrab. | ||
13963 | |||
13964 | The detail member is set to indicate the notify detail and can | ||
13965 | be NotifyAncestor, NotifyVirtual, NotifyInferior, | ||
13966 | NotifyNonlinear, or NotifyNonlinearVirtual. | ||
13967 | |||
13968 | Normal Entry/Exit Events | ||
13969 | |||
13970 | EnterNotify and LeaveNotify events are generated when the | ||
13971 | pointer moves from one window to another window. Normal events | ||
13972 | are identified by XEnterWindowEvent or XLeaveWindowEvent | ||
13973 | structures whose mode member is set to NotifyNormal. | ||
13974 | * When the pointer moves from window A to window B and A is | ||
13975 | an inferior of B, the X server does the following: | ||
13976 | * It generates a LeaveNotify event on window A, with the | ||
13977 | detail member of the XLeaveWindowEvent structure set to | ||
13978 | NotifyAncestor. | ||
13979 | * It generates a LeaveNotify event on each window between | ||
13980 | window A and window B, exclusive, with the detail member of | ||
13981 | each XLeaveWindowEvent structure set to NotifyVirtual. | ||
13982 | * It generates an EnterNotify event on window B, with the | ||
13983 | detail member of the XEnterWindowEvent structure set to | ||
13984 | NotifyInferior. | ||
13985 | * When the pointer moves from window A to window B and B is | ||
13986 | an inferior of A, the X server does the following: | ||
13987 | * It generates a LeaveNotify event on window A, with the | ||
13988 | detail member of the XLeaveWindowEvent structure set to | ||
13989 | NotifyInferior. | ||
13990 | * It generates an EnterNotify event on each window between | ||
13991 | window A and window B, exclusive, with the detail member of | ||
13992 | each XEnterWindowEvent structure set to NotifyVirtual. | ||
13993 | * It generates an EnterNotify event on window B, with the | ||
13994 | detail member of the XEnterWindowEvent structure set to | ||
13995 | NotifyAncestor. | ||
13996 | * When the pointer moves from window A to window B and window | ||
13997 | C is their least common ancestor, the X server does the | ||
13998 | following: | ||
13999 | * It generates a LeaveNotify event on window A, with the | ||
14000 | detail member of the XLeaveWindowEvent structure set to | ||
14001 | NotifyNonlinear. | ||
14002 | * It generates a LeaveNotify event on each window between | ||
14003 | window A and window C, exclusive, with the detail member of | ||
14004 | each XLeaveWindowEvent structure set to | ||
14005 | NotifyNonlinearVirtual. | ||
14006 | * It generates an EnterNotify event on each window between | ||
14007 | window C and window B, exclusive, with the detail member of | ||
14008 | each XEnterWindowEvent structure set to | ||
14009 | NotifyNonlinearVirtual. | ||
14010 | * It generates an EnterNotify event on window B, with the | ||
14011 | detail member of the XEnterWindowEvent structure set to | ||
14012 | NotifyNonlinear. | ||
14013 | * When the pointer moves from window A to window B on | ||
14014 | different screens, the X server does the following: | ||
14015 | * It generates a LeaveNotify event on window A, with the | ||
14016 | detail member of the XLeaveWindowEvent structure set to | ||
14017 | NotifyNonlinear. | ||
14018 | * If window A is not a root window, it generates a | ||
14019 | LeaveNotify event on each window above window A up to and | ||
14020 | including its root, with the detail member of each | ||
14021 | XLeaveWindowEvent structure set to NotifyNonlinearVirtual. | ||
14022 | * If window B is not a root window, it generates an | ||
14023 | EnterNotify event on each window from window B's root down | ||
14024 | to but not including window B, with the detail member of | ||
14025 | each XEnterWindowEvent structure set to | ||
14026 | NotifyNonlinearVirtual. | ||
14027 | * It generates an EnterNotify event on window B, with the | ||
14028 | detail member of the XEnterWindowEvent structure set to | ||
14029 | NotifyNonlinear. | ||
14030 | |||
14031 | Grab and Ungrab Entry/Exit Events | ||
14032 | |||
14033 | Pseudo-motion mode EnterNotify and LeaveNotify events are | ||
14034 | generated when a pointer grab activates or deactivates. Events | ||
14035 | in which the pointer grab activates are identified by | ||
14036 | XEnterWindowEvent or XLeaveWindowEvent structures whose mode | ||
14037 | member is set to NotifyGrab. Events in which the pointer grab | ||
14038 | deactivates are identified by XEnterWindowEvent or | ||
14039 | XLeaveWindowEvent structures whose mode member is set to | ||
14040 | NotifyUngrab (see XGrabPointer). | ||
14041 | * When a pointer grab activates after any initial warp into a | ||
14042 | confine_to window and before generating any actual | ||
14043 | ButtonPress event that activates the grab, G is the | ||
14044 | grab_window for the grab, and P is the window the pointer | ||
14045 | is in, the X server does the following: | ||
14046 | * It generates EnterNotify and LeaveNotify events (see | ||
14047 | section 10.6.1) with the mode members of the | ||
14048 | XEnterWindowEvent and XLeaveWindowEvent structures set to | ||
14049 | NotifyGrab. These events are generated as if the pointer | ||
14050 | were to suddenly warp from its current position in P to | ||
14051 | some position in G. However, the pointer does not warp, and | ||
14052 | the X server uses the pointer position as both the initial | ||
14053 | and final positions for the events. | ||
14054 | * When a pointer grab deactivates after generating any actual | ||
14055 | ButtonRelease event that deactivates the grab, G is the | ||
14056 | grab_window for the grab, and P is the window the pointer | ||
14057 | is in, the X server does the following: | ||
14058 | * It generates EnterNotify and LeaveNotify events (see | ||
14059 | section 10.6.1) with the mode members of the | ||
14060 | XEnterWindowEvent and XLeaveWindowEvent structures set to | ||
14061 | NotifyUngrab. These events are generated as if the pointer | ||
14062 | were to suddenly warp from some position in G to its | ||
14063 | current position in P. However, the pointer does not warp, | ||
14064 | and the X server uses the current pointer position as both | ||
14065 | the initial and final positions for the events. | ||
14066 | |||
14067 | Input Focus Events | ||
14068 | |||
14069 | This section describes the processing that occurs for the input | ||
14070 | focus events FocusIn and FocusOut. The X server can report | ||
14071 | FocusIn or FocusOut events to clients wanting information about | ||
14072 | when the input focus changes. The keyboard is always attached | ||
14073 | to some window (typically, the root window or a top-level | ||
14074 | window), which is called the focus window. The focus window and | ||
14075 | the position of the pointer determine the window that receives | ||
14076 | keyboard input. Clients may need to know when the input focus | ||
14077 | changes to control highlighting of areas on the screen. | ||
14078 | |||
14079 | To receive FocusIn or FocusOut events, set the FocusChangeMask | ||
14080 | bit in the event-mask attribute of the window. | ||
14081 | |||
14082 | The structure for these event types contains: | ||
14083 | |||
14084 | |||
14085 | typedef struct { | ||
14086 | int type; /* FocusIn or FocusOut */ | ||
14087 | unsigned long serial; /* # of last request processed by server | ||
14088 | */ | ||
14089 | Bool send_event; /* true if this came from a SendEvent req | ||
14090 | uest */ | ||
14091 | Display *display; /* Display the event was read from */ | ||
14092 | Window window; /* window of event */ | ||
14093 | int mode; /* NotifyNormal, NotifyGrab, NotifyUngrab | ||
14094 | */ | ||
14095 | int detail; | ||
14096 | /* | ||
14097 | * NotifyAncestor, NotifyVirtual, NotifyInferior, | ||
14098 | * NotifyNonlinear,NotifyNonlinearVirtual, NotifyPoin | ||
14099 | ter, | ||
14100 | * NotifyPointerRoot, NotifyDetailNone | ||
14101 | */ | ||
14102 | } XFocusChangeEvent; | ||
14103 | typedef XFocusChangeEvent XFocusInEvent; | ||
14104 | typedef XFocusChangeEvent XFocusOutEvent; | ||
14105 | |||
14106 | The window member is set to the window on which the FocusIn or | ||
14107 | FocusOut event was generated. This is the window used by the X | ||
14108 | server to report the event. The mode member is set to indicate | ||
14109 | whether the focus events are normal focus events, focus events | ||
14110 | while grabbed, focus events when a grab activates, or focus | ||
14111 | events when a grab deactivates. The X server can set the mode | ||
14112 | member to NotifyNormal, NotifyWhileGrabbed, NotifyGrab, or | ||
14113 | NotifyUngrab. | ||
14114 | |||
14115 | All FocusOut events caused by a window unmap are generated | ||
14116 | after any UnmapNotify event; however, the X protocol does not | ||
14117 | constrain the ordering of FocusOut events with respect to | ||
14118 | generated EnterNotify, LeaveNotify, VisibilityNotify, and | ||
14119 | Expose events. | ||
14120 | |||
14121 | Depending on the event mode, the detail member is set to | ||
14122 | indicate the notify detail and can be NotifyAncestor, | ||
14123 | NotifyVirtual, NotifyInferior, NotifyNonlinear, | ||
14124 | NotifyNonlinearVirtual, NotifyPointer, NotifyPointerRoot, or | ||
14125 | NotifyDetailNone. | ||
14126 | |||
14127 | Normal Focus Events and Focus Events While Grabbed | ||
14128 | |||
14129 | Normal focus events are identified by XFocusInEvent or | ||
14130 | XFocusOutEvent structures whose mode member is set to | ||
14131 | NotifyNormal. Focus events while grabbed are identified by | ||
14132 | XFocusInEvent or XFocusOutEvent structures whose mode member is | ||
14133 | set to NotifyWhileGrabbed. The X server processes normal focus | ||
14134 | and focus events while grabbed according to the following: | ||
14135 | * When the focus moves from window A to window B, A is an | ||
14136 | inferior of B, and the pointer is in window P, the X server | ||
14137 | does the following: | ||
14138 | * It generates a FocusOut event on window A, with the detail | ||
14139 | member of the XFocusOutEvent structure set to | ||
14140 | NotifyAncestor. | ||
14141 | * It generates a FocusOut event on each window between window | ||
14142 | A and window B, exclusive, with the detail member of each | ||
14143 | XFocusOutEvent structure set to NotifyVirtual. | ||
14144 | * It generates a FocusIn event on window B, with the detail | ||
14145 | member of the XFocusOutEvent structure set to | ||
14146 | NotifyInferior. | ||
14147 | * If window P is an inferior of window B but window P is not | ||
14148 | window A or an inferior or ancestor of window A, it | ||
14149 | generates a FocusIn event on each window below window B, | ||
14150 | down to and including window P, with the detail member of | ||
14151 | each XFocusInEvent structure set to NotifyPointer. | ||
14152 | * When the focus moves from window A to window B, B is an | ||
14153 | inferior of A, and the pointer is in window P, the X server | ||
14154 | does the following: | ||
14155 | * If window P is an inferior of window A but P is not an | ||
14156 | inferior of window B or an ancestor of B, it generates a | ||
14157 | FocusOut event on each window from window P up to but not | ||
14158 | including window A, with the detail member of each | ||
14159 | XFocusOutEvent structure set to NotifyPointer. | ||
14160 | * It generates a FocusOut event on window A, with the detail | ||
14161 | member of the XFocusOutEvent structure set to | ||
14162 | NotifyInferior. | ||
14163 | * It generates a FocusIn event on each window between window | ||
14164 | A and window B, exclusive, with the detail member of each | ||
14165 | XFocusInEvent structure set to NotifyVirtual. | ||
14166 | * It generates a FocusIn event on window B, with the detail | ||
14167 | member of the XFocusInEvent structure set to | ||
14168 | NotifyAncestor. | ||
14169 | * When the focus moves from window A to window B, window C is | ||
14170 | their least common ancestor, and the pointer is in window | ||
14171 | P, the X server does the following: | ||
14172 | * If window P is an inferior of window A, it generates a | ||
14173 | FocusOut event on each window from window P up to but not | ||
14174 | including window A, with the detail member of the | ||
14175 | XFocusOutEvent structure set to NotifyPointer. | ||
14176 | * It generates a FocusOut event on window A, with the detail | ||
14177 | member of the XFocusOutEvent structure set to | ||
14178 | NotifyNonlinear. | ||
14179 | * It generates a FocusOut event on each window between window | ||
14180 | A and window C, exclusive, with the detail member of each | ||
14181 | XFocusOutEvent structure set to NotifyNonlinearVirtual. | ||
14182 | * It generates a FocusIn event on each window between C and | ||
14183 | B, exclusive, with the detail member of each XFocusInEvent | ||
14184 | structure set to NotifyNonlinearVirtual. | ||
14185 | * It generates a FocusIn event on window B, with the detail | ||
14186 | member of the XFocusInEvent structure set to | ||
14187 | NotifyNonlinear. | ||
14188 | * If window P is an inferior of window B, it generates a | ||
14189 | FocusIn event on each window below window B down to and | ||
14190 | including window P, with the detail member of the | ||
14191 | XFocusInEvent structure set to NotifyPointer. | ||
14192 | * When the focus moves from window A to window B on different | ||
14193 | screens and the pointer is in window P, the X server does | ||
14194 | the following: | ||
14195 | * If window P is an inferior of window A, it generates a | ||
14196 | FocusOut event on each window from window P up to but not | ||
14197 | including window A, with the detail member of each | ||
14198 | XFocusOutEvent structure set to NotifyPointer. | ||
14199 | * It generates a FocusOut event on window A, with the detail | ||
14200 | member of the XFocusOutEvent structure set to | ||
14201 | NotifyNonlinear. | ||
14202 | * If window A is not a root window, it generates a FocusOut | ||
14203 | event on each window above window A up to and including its | ||
14204 | root, with the detail member of each XFocusOutEvent | ||
14205 | structure set to NotifyNonlinearVirtual. | ||
14206 | * If window B is not a root window, it generates a FocusIn | ||
14207 | event on each window from window B's root down to but not | ||
14208 | including window B, with the detail member of each | ||
14209 | XFocusInEvent structure set to NotifyNonlinearVirtual. | ||
14210 | * It generates a FocusIn event on window B, with the detail | ||
14211 | member of each XFocusInEvent structure set to | ||
14212 | NotifyNonlinear. | ||
14213 | * If window P is an inferior of window B, it generates a | ||
14214 | FocusIn event on each window below window B down to and | ||
14215 | including window P, with the detail member of each | ||
14216 | XFocusInEvent structure set to NotifyPointer. | ||
14217 | * When the focus moves from window A to PointerRoot (events | ||
14218 | sent to the window under the pointer) or None (discard), | ||
14219 | and the pointer is in window P, the X server does the | ||
14220 | following: | ||
14221 | * If window P is an inferior of window A, it generates a | ||
14222 | FocusOut event on each window from window P up to but not | ||
14223 | including window A, with the detail member of each | ||
14224 | XFocusOutEvent structure set to NotifyPointer. | ||
14225 | * It generates a FocusOut event on window A, with the detail | ||
14226 | member of the XFocusOutEvent structure set to | ||
14227 | NotifyNonlinear. | ||
14228 | * If window A is not a root window, it generates a FocusOut | ||
14229 | event on each window above window A up to and including its | ||
14230 | root, with the detail member of each XFocusOutEvent | ||
14231 | structure set to NotifyNonlinearVirtual. | ||
14232 | * It generates a FocusIn event on the root window of all | ||
14233 | screens, with the detail member of each XFocusInEvent | ||
14234 | structure set to NotifyPointerRoot (or NotifyDetailNone). | ||
14235 | * If the new focus is PointerRoot, it generates a FocusIn | ||
14236 | event on each window from window P's root down to and | ||
14237 | including window P, with the detail member of each | ||
14238 | XFocusInEvent structure set to NotifyPointer. | ||
14239 | * When the focus moves from PointerRoot (events sent to the | ||
14240 | window under the pointer) or None to window A, and the | ||
14241 | pointer is in window P, the X server does the following: | ||
14242 | * If the old focus is PointerRoot, it generates a FocusOut | ||
14243 | event on each window from window P up to and including | ||
14244 | window P's root, with the detail member of each | ||
14245 | XFocusOutEvent structure set to NotifyPointer. | ||
14246 | * It generates a FocusOut event on all root windows, with the | ||
14247 | detail member of each XFocusOutEvent structure set to | ||
14248 | NotifyPointerRoot (or NotifyDetailNone). | ||
14249 | * If window A is not a root window, it generates a FocusIn | ||
14250 | event on each window from window A's root down to but not | ||
14251 | including window A, with the detail member of each | ||
14252 | XFocusInEvent structure set to NotifyNonlinearVirtual. | ||
14253 | * It generates a FocusIn event on window A, with the detail | ||
14254 | member of the XFocusInEvent structure set to | ||
14255 | NotifyNonlinear. | ||
14256 | * If window P is an inferior of window A, it generates a | ||
14257 | FocusIn event on each window below window A down to and | ||
14258 | including window P, with the detail member of each | ||
14259 | XFocusInEvent structure set to NotifyPointer. | ||
14260 | * When the focus moves from PointerRoot (events sent to the | ||
14261 | window under the pointer) to None (or vice versa), and the | ||
14262 | pointer is in window P, the X server does the following: | ||
14263 | * If the old focus is PointerRoot, it generates a FocusOut | ||
14264 | event on each window from window P up to and including | ||
14265 | window P's root, with the detail member of each | ||
14266 | XFocusOutEvent structure set to NotifyPointer. | ||
14267 | * It generates a FocusOut event on all root windows, with the | ||
14268 | detail member of each XFocusOutEvent structure set to | ||
14269 | either NotifyPointerRoot or NotifyDetailNone. | ||
14270 | * It generates a FocusIn event on all root windows, with the | ||
14271 | detail member of each XFocusInEvent structure set to | ||
14272 | NotifyDetailNone or NotifyPointerRoot. | ||
14273 | * If the new focus is PointerRoot, it generates a FocusIn | ||
14274 | event on each window from window P's root down to and | ||
14275 | including window P, with the detail member of each | ||
14276 | XFocusInEvent structure set to NotifyPointer. | ||
14277 | |||
14278 | Focus Events Generated by Grabs | ||
14279 | |||
14280 | Focus events in which the keyboard grab activates are | ||
14281 | identified by XFocusInEvent or XFocusOutEvent structures whose | ||
14282 | mode member is set to NotifyGrab. Focus events in which the | ||
14283 | keyboard grab deactivates are identified by XFocusInEvent or | ||
14284 | XFocusOutEvent structures whose mode member is set to | ||
14285 | NotifyUngrab (see XGrabKeyboard). | ||
14286 | * When a keyboard grab activates before generating any actual | ||
14287 | KeyPress event that activates the grab, G is the | ||
14288 | grab_window, and F is the current focus, the X server does | ||
14289 | the following: | ||
14290 | * It generates FocusIn and FocusOut events, with the mode | ||
14291 | members of the XFocusInEvent and XFocusOutEvent structures | ||
14292 | set to NotifyGrab. These events are generated as if the | ||
14293 | focus were to change from F to G. | ||
14294 | * When a keyboard grab deactivates after generating any | ||
14295 | actual KeyRelease event that deactivates the grab, G is the | ||
14296 | grab_window, and F is the current focus, the X server does | ||
14297 | the following: | ||
14298 | * It generates FocusIn and FocusOut events, with the mode | ||
14299 | members of the XFocusInEvent and XFocusOutEvent structures | ||
14300 | set to NotifyUngrab. These events are generated as if the | ||
14301 | focus were to change from G to F. | ||
14302 | |||
14303 | Key Map State Notification Events | ||
14304 | |||
14305 | The X server can report KeymapNotify events to clients that | ||
14306 | want information about changes in their keyboard state. | ||
14307 | |||
14308 | To receive KeymapNotify events, set the KeymapStateMask bit in | ||
14309 | the event-mask attribute of the window. The X server generates | ||
14310 | this event immediately after every EnterNotify and FocusIn | ||
14311 | event. | ||
14312 | |||
14313 | The structure for this event type contains: | ||
14314 | |||
14315 | |||
14316 | |||
14317 | /* generated on EnterWindow and FocusIn when KeymapState selected */ | ||
14318 | typedef struct { | ||
14319 | int type; /* KeymapNotify */ | ||
14320 | unsigned long serial; /* # of last request processed by se | ||
14321 | rver */ | ||
14322 | Bool send_event; /* true if this came from a SendEven | ||
14323 | t request */ | ||
14324 | Display *display; /* Display the event was read from * | ||
14325 | / | ||
14326 | Window window; | ||
14327 | char key_vector[32]; | ||
14328 | } XKeymapEvent; | ||
14329 | |||
14330 | The window member is not used but is present to aid some | ||
14331 | toolkits. The key_vector member is set to the bit vector of the | ||
14332 | keyboard. Each bit set to 1 indicates that the corresponding | ||
14333 | key is currently pressed. The vector is represented as 32 | ||
14334 | bytes. Byte N (from 0) contains the bits for keys 8N to 8N + 7 | ||
14335 | with the least significant bit in the byte representing key 8N. | ||
14336 | |||
14337 | Exposure Events | ||
14338 | |||
14339 | The X protocol does not guarantee to preserve the contents of | ||
14340 | window regions when the windows are obscured or reconfigured. | ||
14341 | Some implementations may preserve the contents of windows. | ||
14342 | Other implementations are free to destroy the contents of | ||
14343 | windows when exposed. X expects client applications to assume | ||
14344 | the responsibility for restoring the contents of an exposed | ||
14345 | window region. (An exposed window region describes a formerly | ||
14346 | obscured window whose region becomes visible.) Therefore, the X | ||
14347 | server sends Expose events describing the window and the region | ||
14348 | of the window that has been exposed. A naive client application | ||
14349 | usually redraws the entire window. A more sophisticated client | ||
14350 | application redraws only the exposed region. | ||
14351 | |||
14352 | Expose Events | ||
14353 | |||
14354 | The X server can report Expose events to clients wanting | ||
14355 | information about when the contents of window regions have been | ||
14356 | lost. The circumstances in which the X server generates Expose | ||
14357 | events are not as definite as those for other events. However, | ||
14358 | the X server never generates Expose events on windows whose | ||
14359 | class you specified as InputOnly. The X server can generate | ||
14360 | Expose events when no valid contents are available for regions | ||
14361 | of a window and either the regions are visible, the regions are | ||
14362 | viewable and the server is (perhaps newly) maintaining backing | ||
14363 | store on the window, or the window is not viewable but the | ||
14364 | server is (perhaps newly) honoring the window's backing-store | ||
14365 | attribute of Always or WhenMapped. The regions decompose into | ||
14366 | an (arbitrary) set of rectangles, and an Expose event is | ||
14367 | generated for each rectangle. For any given window, the X | ||
14368 | server guarantees to report contiguously all of the regions | ||
14369 | exposed by some action that causes Expose events, such as | ||
14370 | raising a window. | ||
14371 | |||
14372 | To receive Expose events, set the ExposureMask bit in the | ||
14373 | event-mask attribute of the window. | ||
14374 | |||
14375 | The structure for this event type contains: | ||
14376 | |||
14377 | |||
14378 | |||
14379 | typedef struct { | ||
14380 | int type; /* Expose */ | ||
14381 | unsigned long serial; /* # of last request processed by ser | ||
14382 | ver */ | ||
14383 | Bool send_event; /* true if this came from a SendEvent | ||
14384 | request */ | ||
14385 | Display *display; /* Display the event was read from */ | ||
14386 | Window window; | ||
14387 | int x, y; | ||
14388 | int width, height; | ||
14389 | int count; /* if nonzero, at least this many mor | ||
14390 | e */ | ||
14391 | } XExposeEvent; | ||
14392 | |||
14393 | The window member is set to the exposed (damaged) window. The x | ||
14394 | and y members are set to the coordinates relative to the | ||
14395 | window's origin and indicate the upper-left corner of the | ||
14396 | rectangle. The width and height members are set to the size | ||
14397 | (extent) of the rectangle. The count member is set to the | ||
14398 | number of Expose events that are to follow. If count is zero, | ||
14399 | no more Expose events follow for this window. However, if count | ||
14400 | is nonzero, at least that number of Expose events (and possibly | ||
14401 | more) follow for this window. Simple applications that do not | ||
14402 | want to optimize redisplay by distinguishing between subareas | ||
14403 | of its window can just ignore all Expose events with nonzero | ||
14404 | counts and perform full redisplays on events with zero counts. | ||
14405 | |||
14406 | GraphicsExpose and NoExpose Events | ||
14407 | |||
14408 | The X server can report GraphicsExpose events to clients | ||
14409 | wanting information about when a destination region could not | ||
14410 | be computed during certain graphics requests: XCopyArea or | ||
14411 | XCopyPlane. The X server generates this event whenever a | ||
14412 | destination region could not be computed because of an obscured | ||
14413 | or out-of-bounds source region. In addition, the X server | ||
14414 | guarantees to report contiguously all of the regions exposed by | ||
14415 | some graphics request (for example, copying an area of a | ||
14416 | drawable to a destination drawable). | ||
14417 | |||
14418 | The X server generates a NoExpose event whenever a graphics | ||
14419 | request that might produce a GraphicsExpose event does not | ||
14420 | produce any. In other words, the client is really asking for a | ||
14421 | GraphicsExpose event but instead receives a NoExpose event. | ||
14422 | |||
14423 | To receive GraphicsExpose or NoExpose events, you must first | ||
14424 | set the graphics-exposure attribute of the graphics context to | ||
14425 | True. You also can set the graphics-expose attribute when | ||
14426 | creating a graphics context using XCreateGC or by calling | ||
14427 | XSetGraphicsExposures. | ||
14428 | |||
14429 | The structures for these event types contain: | ||
14430 | |||
14431 | |||
14432 | |||
14433 | typedef struct { | ||
14434 | int type; /* GraphicsExpose */ | ||
14435 | unsigned long serial; /* # of last request processed by se | ||
14436 | rver */ | ||
14437 | Bool send_event; /* true if this came from a SendEven | ||
14438 | t request */ | ||
14439 | Display *display; /* Display the event was read from * | ||
14440 | / | ||
14441 | Drawable drawable; | ||
14442 | int x, y; | ||
14443 | int width, height; | ||
14444 | int count; /* if nonzero, at least this many mo | ||
14445 | re */ | ||
14446 | int major_code; /* core is CopyArea or CopyPlane */ | ||
14447 | int minor_code; /* not defined in the core */ | ||
14448 | } XGraphicsExposeEvent; | ||
14449 | |||
14450 | |||
14451 | |||
14452 | typedef struct { | ||
14453 | int type; /* NoExpose */ | ||
14454 | unsigned long serial; /* # of last request processed by serve | ||
14455 | r */ | ||
14456 | Bool send_event; /* true if this came from a SendEvent r | ||
14457 | equest */ | ||
14458 | Display *display; /* Display the event was read from */ | ||
14459 | Drawable drawable; | ||
14460 | int major_code; /* core is CopyArea or CopyPlane */ | ||
14461 | int minor_code; /* not defined in the core */ | ||
14462 | } XNoExposeEvent; | ||
14463 | |||
14464 | Both structures have these common members: drawable, | ||
14465 | major_code, and minor_code. The drawable member is set to the | ||
14466 | drawable of the destination region on which the graphics | ||
14467 | request was to be performed. The major_code member is set to | ||
14468 | the graphics request initiated by the client and can be either | ||
14469 | X_CopyArea or X_CopyPlane. If it is X_CopyArea, a call to | ||
14470 | XCopyArea initiated the request. If it is X_CopyPlane, a call | ||
14471 | to XCopyPlane initiated the request. These constants are | ||
14472 | defined in <X11/Xproto.h>. The minor_code member, like the | ||
14473 | major_code member, indicates which graphics request was | ||
14474 | initiated by the client. However, the minor_code member is not | ||
14475 | defined by the core X protocol and will be zero in these cases, | ||
14476 | although it may be used by an extension. | ||
14477 | |||
14478 | The XGraphicsExposeEvent structure has these additional | ||
14479 | members: x, y, width, height, and count. The x and y members | ||
14480 | are set to the coordinates relative to the drawable's origin | ||
14481 | and indicate the upper-left corner of the rectangle. The width | ||
14482 | and height members are set to the size (extent) of the | ||
14483 | rectangle. The count member is set to the number of | ||
14484 | GraphicsExpose events to follow. If count is zero, no more | ||
14485 | GraphicsExpose events follow for this window. However, if count | ||
14486 | is nonzero, at least that number of GraphicsExpose events (and | ||
14487 | possibly more) are to follow for this window. | ||
14488 | |||
14489 | Window State Change Events | ||
14490 | |||
14491 | The following sections discuss: | ||
14492 | * CirculateNotify events | ||
14493 | * ConfigureNotify events | ||
14494 | * CreateNotify events | ||
14495 | * DestroyNotify events | ||
14496 | * GravityNotify events | ||
14497 | * MapNotify events | ||
14498 | * MappingNotify events | ||
14499 | * ReparentNotify events | ||
14500 | * UnmapNotify events | ||
14501 | * VisibilityNotify events | ||
14502 | |||
14503 | CirculateNotify Events | ||
14504 | |||
14505 | The X server can report CirculateNotify events to clients | ||
14506 | wanting information about when a window changes its position in | ||
14507 | the stack. The X server generates this event type whenever a | ||
14508 | window is actually restacked as a result of a client | ||
14509 | application calling XCirculateSubwindows, | ||
14510 | XCirculateSubwindowsUp, or XCirculateSubwindowsDown. | ||
14511 | |||
14512 | To receive CirculateNotify events, set the StructureNotifyMask | ||
14513 | bit in the event-mask attribute of the window or the | ||
14514 | SubstructureNotifyMask bit in the event-mask attribute of the | ||
14515 | parent window (in which case, circulating any child generates | ||
14516 | an event). | ||
14517 | |||
14518 | The structure for this event type contains: | ||
14519 | |||
14520 | |||
14521 | |||
14522 | typedef struct { | ||
14523 | int type; /* CirculateNotify */ | ||
14524 | unsigned long serial; /* # of last request processed by server | ||
14525 | */ | ||
14526 | Bool send_event; /* true if this came from a SendEvent request | ||
14527 | */ | ||
14528 | Display *display; /* Display the event was read from */ | ||
14529 | Window event; | ||
14530 | Window window; | ||
14531 | int place; /* PlaceOnTop, PlaceOnBottom */ | ||
14532 | } XCirculateEvent; | ||
14533 | |||
14534 | The event member is set either to the restacked window or to | ||
14535 | its parent, depending on whether StructureNotify or | ||
14536 | SubstructureNotify was selected. The window member is set to | ||
14537 | the window that was restacked. The place member is set to the | ||
14538 | window's position after the restack occurs and is either | ||
14539 | PlaceOnTop or PlaceOnBottom. If it is PlaceOnTop, the window is | ||
14540 | now on top of all siblings. If it is PlaceOnBottom, the window | ||
14541 | is now below all siblings. | ||
14542 | |||
14543 | ConfigureNotify Events | ||
14544 | |||
14545 | The X server can report ConfigureNotify events to clients | ||
14546 | wanting information about actual changes to a window's state, | ||
14547 | such as size, position, border, and stacking order. The X | ||
14548 | server generates this event type whenever one of the following | ||
14549 | configure window requests made by a client application actually | ||
14550 | completes: | ||
14551 | * A window's size, position, border, and/or stacking order is | ||
14552 | reconfigured by calling XConfigureWindow. | ||
14553 | * The window's position in the stacking order is changed by | ||
14554 | calling XLowerWindow, XRaiseWindow, or XRestackWindows. | ||
14555 | * A window is moved by calling XMoveWindow. | ||
14556 | * A window's size is changed by calling XResizeWindow. | ||
14557 | * A window's size and location is changed by calling | ||
14558 | XMoveResizeWindow. | ||
14559 | * A window is mapped and its position in the stacking order | ||
14560 | is changed by calling XMapRaised. | ||
14561 | * A window's border width is changed by calling | ||
14562 | XSetWindowBorderWidth. | ||
14563 | |||
14564 | To receive ConfigureNotify events, set the StructureNotifyMask | ||
14565 | bit in the event-mask attribute of the window or the | ||
14566 | SubstructureNotifyMask bit in the event-mask attribute of the | ||
14567 | parent window (in which case, configuring any child generates | ||
14568 | an event). | ||
14569 | |||
14570 | The structure for this event type contains: | ||
14571 | |||
14572 | |||
14573 | typedef struct { | ||
14574 | int type; /* ConfigureNotify */ | ||
14575 | unsigned long serial; /* # of last request processed by server | ||
14576 | */ | ||
14577 | Bool send_event; /* true if this came from a SendEvent req | ||
14578 | uest */ | ||
14579 | Display *display; /* Display the event was read from */ | ||
14580 | Window event; | ||
14581 | Window window; | ||
14582 | int x, y; | ||
14583 | int width, height; | ||
14584 | int border_width; | ||
14585 | Window above; | ||
14586 | Bool override_redirect; | ||
14587 | } XConfigureEvent; | ||
14588 | |||
14589 | The event member is set either to the reconfigured window or to | ||
14590 | its parent, depending on whether StructureNotify or | ||
14591 | SubstructureNotify was selected. The window member is set to | ||
14592 | the window whose size, position, border, and/or stacking order | ||
14593 | was changed. | ||
14594 | |||
14595 | The x and y members are set to the coordinates relative to the | ||
14596 | parent window's origin and indicate the position of the | ||
14597 | upper-left outside corner of the window. The width and height | ||
14598 | members are set to the inside size of the window, not including | ||
14599 | the border. The border_width member is set to the width of the | ||
14600 | window's border, in pixels. | ||
14601 | |||
14602 | The above member is set to the sibling window and is used for | ||
14603 | stacking operations. If the X server sets this member to None, | ||
14604 | the window whose state was changed is on the bottom of the | ||
14605 | stack with respect to sibling windows. However, if this member | ||
14606 | is set to a sibling window, the window whose state was changed | ||
14607 | is placed on top of this sibling window. | ||
14608 | |||
14609 | The override_redirect member is set to the override-redirect | ||
14610 | attribute of the window. Window manager clients normally should | ||
14611 | ignore this window if the override_redirect member is True. | ||
14612 | |||
14613 | CreateNotify Events | ||
14614 | |||
14615 | The X server can report CreateNotify events to clients wanting | ||
14616 | information about creation of windows. The X server generates | ||
14617 | this event whenever a client application creates a window by | ||
14618 | calling XCreateWindow or XCreateSimpleWindow. | ||
14619 | |||
14620 | To receive CreateNotify events, set the SubstructureNotifyMask | ||
14621 | bit in the event-mask attribute of the window. Creating any | ||
14622 | children then generates an event. | ||
14623 | |||
14624 | The structure for the event type contains: | ||
14625 | |||
14626 | |||
14627 | |||
14628 | typedef struct { | ||
14629 | int type; /* CreateNotify */ | ||
14630 | unsigned long serial; /* # of last request processed by | ||
14631 | server */ | ||
14632 | Bool send_event; /* true if this came from a SendE | ||
14633 | vent request */ | ||
14634 | Display *display; /* Display the event was read fro | ||
14635 | m */ | ||
14636 | Window parent; /* parent of the window */ | ||
14637 | Window window; /* window id of window created */ | ||
14638 | int x, y; /* window location */ | ||
14639 | int width, height; /* size of window */ | ||
14640 | int border_width; /* border width */ | ||
14641 | Bool override_redirect; /* creation should be overridden | ||
14642 | */ | ||
14643 | } XCreateWindowEvent; | ||
14644 | |||
14645 | The parent member is set to the created window's parent. The | ||
14646 | window member specifies the created window. The x and y members | ||
14647 | are set to the created window's coordinates relative to the | ||
14648 | parent window's origin and indicate the position of the | ||
14649 | upper-left outside corner of the created window. The width and | ||
14650 | height members are set to the inside size of the created window | ||
14651 | (not including the border) and are always nonzero. The | ||
14652 | border_width member is set to the width of the created window's | ||
14653 | border, in pixels. The override_redirect member is set to the | ||
14654 | override-redirect attribute of the window. Window manager | ||
14655 | clients normally should ignore this window if the | ||
14656 | override_redirect member is True. | ||
14657 | |||
14658 | DestroyNotify Events | ||
14659 | |||
14660 | The X server can report DestroyNotify events to clients wanting | ||
14661 | information about which windows are destroyed. The X server | ||
14662 | generates this event whenever a client application destroys a | ||
14663 | window by calling XDestroyWindow or XDestroySubwindows. | ||
14664 | |||
14665 | The ordering of the DestroyNotify events is such that for any | ||
14666 | given window, DestroyNotify is generated on all inferiors of | ||
14667 | the window before being generated on the window itself. The X | ||
14668 | protocol does not constrain the ordering among siblings and | ||
14669 | across subhierarchies. | ||
14670 | |||
14671 | To receive DestroyNotify events, set the StructureNotifyMask | ||
14672 | bit in the event-mask attribute of the window or the | ||
14673 | SubstructureNotifyMask bit in the event-mask attribute of the | ||
14674 | parent window (in which case, destroying any child generates an | ||
14675 | event). | ||
14676 | |||
14677 | The structure for this event type contains: | ||
14678 | |||
14679 | |||
14680 | |||
14681 | typedef struct { | ||
14682 | int type; /* DestroyNotify */ | ||
14683 | unsigned long serial; /* # of last request processed by server | ||
14684 | */ | ||
14685 | Bool send_event; /* true if this came from a SendEvent req | ||
14686 | uest */ | ||
14687 | Display *display; /* Display the event was read from */ | ||
14688 | Window event; | ||
14689 | Window window; | ||
14690 | } XDestroyWindowEvent; | ||
14691 | |||
14692 | The event member is set either to the destroyed window or to | ||
14693 | its parent, depending on whether StructureNotify or | ||
14694 | SubstructureNotify was selected. The window member is set to | ||
14695 | the window that is destroyed. | ||
14696 | |||
14697 | GravityNotify Events | ||
14698 | |||
14699 | The X server can report GravityNotify events to clients wanting | ||
14700 | information about when a window is moved because of a change in | ||
14701 | the size of its parent. The X server generates this event | ||
14702 | whenever a client application actually moves a child window as | ||
14703 | a result of resizing its parent by calling XConfigureWindow, | ||
14704 | XMoveResizeWindow, or XResizeWindow. | ||
14705 | |||
14706 | To receive GravityNotify events, set the StructureNotifyMask | ||
14707 | bit in the event-mask attribute of the window or the | ||
14708 | SubstructureNotifyMask bit in the event-mask attribute of the | ||
14709 | parent window (in which case, any child that is moved because | ||
14710 | its parent has been resized generates an event). | ||
14711 | |||
14712 | The structure for this event type contains: | ||
14713 | |||
14714 | |||
14715 | |||
14716 | typedef struct { | ||
14717 | int type; /* GravityNotify */ | ||
14718 | unsigned long serial; /* # of last request processed by server | ||
14719 | */ | ||
14720 | Bool send_event; /* true if this came from a SendEvent req | ||
14721 | uest */ | ||
14722 | Display *display; /* Display the event was read from */ | ||
14723 | Window event; | ||
14724 | Window window; | ||
14725 | int x, y; | ||
14726 | } XGravityEvent; | ||
14727 | |||
14728 | The event member is set either to the window that was moved or | ||
14729 | to its parent, depending on whether StructureNotify or | ||
14730 | SubstructureNotify was selected. The window member is set to | ||
14731 | the child window that was moved. The x and y members are set to | ||
14732 | the coordinates relative to the new parent window's origin and | ||
14733 | indicate the position of the upper-left outside corner of the | ||
14734 | window. | ||
14735 | |||
14736 | MapNotify Events | ||
14737 | |||
14738 | The X server can report MapNotify events to clients wanting | ||
14739 | information about which windows are mapped. The X server | ||
14740 | generates this event type whenever a client application changes | ||
14741 | the window's state from unmapped to mapped by calling | ||
14742 | XMapWindow, XMapRaised, XMapSubwindows, XReparentWindow, or as | ||
14743 | a result of save-set processing. | ||
14744 | |||
14745 | To receive MapNotify events, set the StructureNotifyMask bit in | ||
14746 | the event-mask attribute of the window or the | ||
14747 | SubstructureNotifyMask bit in the event-mask attribute of the | ||
14748 | parent window (in which case, mapping any child generates an | ||
14749 | event). | ||
14750 | |||
14751 | The structure for this event type contains: | ||
14752 | |||
14753 | |||
14754 | |||
14755 | typedef struct { | ||
14756 | int type; /* MapNotify */ | ||
14757 | unsigned long serial; /* # of last request processed | ||
14758 | by server */ | ||
14759 | Bool send_event; /* true if this came from a Se | ||
14760 | ndEvent request */ | ||
14761 | Display *display; /* Display the event was read | ||
14762 | from */ | ||
14763 | Window event; | ||
14764 | Window window; | ||
14765 | Bool override_redirect; /* boolean, is override set... | ||
14766 | */ | ||
14767 | } XMapEvent; | ||
14768 | |||
14769 | The event member is set either to the window that was mapped or | ||
14770 | to its parent, depending on whether StructureNotify or | ||
14771 | SubstructureNotify was selected. The window member is set to | ||
14772 | the window that was mapped. The override_redirect member is set | ||
14773 | to the override-redirect attribute of the window. Window | ||
14774 | manager clients normally should ignore this window if the | ||
14775 | override-redirect attribute is True, because these events | ||
14776 | usually are generated from pop-ups, which override structure | ||
14777 | control. | ||
14778 | |||
14779 | MappingNotify Events | ||
14780 | |||
14781 | The X server reports MappingNotify events to all clients. There | ||
14782 | is no mechanism to express disinterest in this event. The X | ||
14783 | server generates this event type whenever a client application | ||
14784 | successfully calls: | ||
14785 | * XSetModifierMapping to indicate which KeyCodes are to be | ||
14786 | used as modifiers | ||
14787 | * XChangeKeyboardMapping to change the keyboard mapping | ||
14788 | * XSetPointerMapping to set the pointer mapping | ||
14789 | |||
14790 | The structure for this event type contains: | ||
14791 | |||
14792 | |||
14793 | |||
14794 | typedef struct { | ||
14795 | int type; /* MappingNotify */ | ||
14796 | unsigned long serial; /* # of last request processed by ser | ||
14797 | ver */ | ||
14798 | Bool send_event; /* true if this came from a SendEvent | ||
14799 | request */ | ||
14800 | Display *display; /* Display the event was read from */ | ||
14801 | Window window; /* unused */ | ||
14802 | int request; /* one of MappingModifier, MappingKey | ||
14803 | board, | ||
14804 | MappingPointer */ | ||
14805 | int first_keycode; /* first keycode */ | ||
14806 | int count; /* defines range of change w. first_k | ||
14807 | eycode*/ | ||
14808 | } XMappingEvent; | ||
14809 | |||
14810 | The request member is set to indicate the kind of mapping | ||
14811 | change that occurred and can be MappingModifier, | ||
14812 | MappingKeyboard, or MappingPointer. If it is MappingModifier, | ||
14813 | the modifier mapping was changed. If it is MappingKeyboard, the | ||
14814 | keyboard mapping was changed. If it is MappingPointer, the | ||
14815 | pointer button mapping was changed. The first_keycode and count | ||
14816 | members are set only if the request member was set to | ||
14817 | MappingKeyboard. The number in first_keycode represents the | ||
14818 | first number in the range of the altered mapping, and count | ||
14819 | represents the number of keycodes altered. | ||
14820 | |||
14821 | To update the client application's knowledge of the keyboard, | ||
14822 | you should call XRefreshKeyboardMapping. | ||
14823 | |||
14824 | ReparentNotify Events | ||
14825 | |||
14826 | The X server can report ReparentNotify events to clients | ||
14827 | wanting information about changing a window's parent. The X | ||
14828 | server generates this event whenever a client application calls | ||
14829 | XReparentWindow and the window is actually reparented. | ||
14830 | |||
14831 | To receive ReparentNotify events, set the StructureNotifyMask | ||
14832 | bit in the event-mask attribute of the window or the | ||
14833 | SubstructureNotifyMask bit in the event-mask attribute of | ||
14834 | either the old or the new parent window (in which case, | ||
14835 | reparenting any child generates an event). | ||
14836 | |||
14837 | The structure for this event type contains: | ||
14838 | |||
14839 | |||
14840 | |||
14841 | typedef struct { | ||
14842 | int type; /* ReparentNotify */ | ||
14843 | unsigned long serial; /* # of last request processed by server | ||
14844 | */ | ||
14845 | Bool send_event; /* true if this came from a SendEvent req | ||
14846 | uest */ | ||
14847 | Display *display; /* Display the event was read from */ | ||
14848 | Window event; | ||
14849 | Window window; | ||
14850 | Window parent; | ||
14851 | int x, y; | ||
14852 | Bool override_redirect; | ||
14853 | } XReparentEvent; | ||
14854 | |||
14855 | The event member is set either to the reparented window or to | ||
14856 | the old or the new parent, depending on whether StructureNotify | ||
14857 | or SubstructureNotify was selected. The window member is set to | ||
14858 | the window that was reparented. The parent member is set to the | ||
14859 | new parent window. The x and y members are set to the | ||
14860 | reparented window's coordinates relative to the new parent | ||
14861 | window's origin and define the upper-left outer corner of the | ||
14862 | reparented window. The override_redirect member is set to the | ||
14863 | override-redirect attribute of the window specified by the | ||
14864 | window member. Window manager clients normally should ignore | ||
14865 | this window if the override_redirect member is True. | ||
14866 | |||
14867 | UnmapNotify Events | ||
14868 | |||
14869 | The X server can report UnmapNotify events to clients wanting | ||
14870 | information about which windows are unmapped. The X server | ||
14871 | generates this event type whenever a client application changes | ||
14872 | the window's state from mapped to unmapped. | ||
14873 | |||
14874 | To receive UnmapNotify events, set the StructureNotifyMask bit | ||
14875 | in the event-mask attribute of the window or the | ||
14876 | SubstructureNotifyMask bit in the event-mask attribute of the | ||
14877 | parent window (in which case, unmapping any child window | ||
14878 | generates an event). | ||
14879 | |||
14880 | The structure for this event type contains: | ||
14881 | |||
14882 | |||
14883 | |||
14884 | typedef struct { | ||
14885 | int type; /* UnmapNotify */ | ||
14886 | unsigned long serial; /* # of last request processed by server | ||
14887 | */ | ||
14888 | Bool send_event; /* true if this came from a SendEvent req | ||
14889 | uest */ | ||
14890 | Display *display; /* Display the event was read from */ | ||
14891 | Window event; | ||
14892 | Window window; | ||
14893 | Bool from_configure; | ||
14894 | } XUnmapEvent; | ||
14895 | |||
14896 | The event member is set either to the unmapped window or to its | ||
14897 | parent, depending on whether StructureNotify or | ||
14898 | SubstructureNotify was selected. This is the window used by the | ||
14899 | X server to report the event. The window member is set to the | ||
14900 | window that was unmapped. The from_configure member is set to | ||
14901 | True if the event was generated as a result of a resizing of | ||
14902 | the window's parent when the window itself had a win_gravity of | ||
14903 | UnmapGravity. | ||
14904 | |||
14905 | VisibilityNotify Events | ||
14906 | |||
14907 | The X server can report VisibilityNotify events to clients | ||
14908 | wanting any change in the visibility of the specified window. A | ||
14909 | region of a window is visible if someone looking at the screen | ||
14910 | can actually see it. The X server generates this event whenever | ||
14911 | the visibility changes state. However, this event is never | ||
14912 | generated for windows whose class is InputOnly. | ||
14913 | |||
14914 | All VisibilityNotify events caused by a hierarchy change are | ||
14915 | generated after any hierarchy event (UnmapNotify, MapNotify, | ||
14916 | ConfigureNotify, GravityNotify, CirculateNotify) caused by that | ||
14917 | change. Any VisibilityNotify event on a given window is | ||
14918 | generated before any Expose events on that window, but it is | ||
14919 | not required that all VisibilityNotify events on all windows be | ||
14920 | generated before all Expose events on all windows. The X | ||
14921 | protocol does not constrain the ordering of VisibilityNotify | ||
14922 | events with respect to FocusOut, EnterNotify, and LeaveNotify | ||
14923 | events. | ||
14924 | |||
14925 | To receive VisibilityNotify events, set the | ||
14926 | VisibilityChangeMask bit in the event-mask attribute of the | ||
14927 | window. | ||
14928 | |||
14929 | The structure for this event type contains: | ||
14930 | |||
14931 | |||
14932 | |||
14933 | typedef struct { | ||
14934 | int type; /* VisibilityNotify */ | ||
14935 | unsigned long serial; /* # of last request processed by server | ||
14936 | */ | ||
14937 | Bool send_event; /* true if this came from a SendEvent req | ||
14938 | uest */ | ||
14939 | Display *display; /* Display the event was read from */ | ||
14940 | Window window; | ||
14941 | int state; | ||
14942 | } XVisibilityEvent; | ||
14943 | |||
14944 | The window member is set to the window whose visibility state | ||
14945 | changes. The state member is set to the state of the window's | ||
14946 | visibility and can be VisibilityUnobscured, | ||
14947 | VisibilityPartiallyObscured, or VisibilityFullyObscured. The X | ||
14948 | server ignores all of a window's subwindows when determining | ||
14949 | the visibility state of the window and processes | ||
14950 | VisibilityNotify events according to the following: | ||
14951 | * When the window changes state from partially obscured, | ||
14952 | fully obscured, or not viewable to viewable and completely | ||
14953 | unobscured, the X server generates the event with the state | ||
14954 | member of the XVisibilityEvent structure set to | ||
14955 | VisibilityUnobscured. | ||
14956 | * When the window changes state from viewable and completely | ||
14957 | unobscured or not viewable to viewable and partially | ||
14958 | obscured, the X server generates the event with the state | ||
14959 | member of the XVisibilityEvent structure set to | ||
14960 | VisibilityPartiallyObscured. | ||
14961 | * When the window changes state from viewable and completely | ||
14962 | unobscured, viewable and partially obscured, or not | ||
14963 | viewable to viewable and fully obscured, the X server | ||
14964 | generates the event with the state member of the | ||
14965 | XVisibilityEvent structure set to VisibilityFullyObscured. | ||
14966 | |||
14967 | Structure Control Events | ||
14968 | |||
14969 | This section discusses: | ||
14970 | * CirculateRequest events | ||
14971 | * ConfigureRequest events | ||
14972 | * MapRequest events | ||
14973 | * ResizeRequest events | ||
14974 | |||
14975 | CirculateRequest Events | ||
14976 | |||
14977 | The X server can report CirculateRequest events to clients | ||
14978 | wanting information about when another client initiates a | ||
14979 | circulate window request on a specified window. The X server | ||
14980 | generates this event type whenever a client initiates a | ||
14981 | circulate window request on a window and a subwindow actually | ||
14982 | needs to be restacked. The client initiates a circulate window | ||
14983 | request on the window by calling XCirculateSubwindows, | ||
14984 | XCirculateSubwindowsUp, or XCirculateSubwindowsDown. | ||
14985 | |||
14986 | To receive CirculateRequest events, set the | ||
14987 | SubstructureRedirectMask in the event-mask attribute of the | ||
14988 | window. Then, in the future, the circulate window request for | ||
14989 | the specified window is not executed, and thus, any subwindow's | ||
14990 | position in the stack is not changed. For example, suppose a | ||
14991 | client application calls XCirculateSubwindowsUp to raise a | ||
14992 | subwindow to the top of the stack. If you had selected | ||
14993 | SubstructureRedirectMask on the window, the X server reports to | ||
14994 | you a CirculateRequest event and does not raise the subwindow | ||
14995 | to the top of the stack. | ||
14996 | |||
14997 | The structure for this event type contains: | ||
14998 | |||
14999 | |||
15000 | |||
15001 | typedef struct { | ||
15002 | int type; /* CirculateRequest */ | ||
15003 | unsigned long serial; /* # of last request processed by server | ||
15004 | */ | ||
15005 | Bool send_event; /* true if this came from a SendEvent req | ||
15006 | uest */ | ||
15007 | Display *display; /* Display the event was read from */ | ||
15008 | Window parent; | ||
15009 | Window window; | ||
15010 | int place; /* PlaceOnTop, PlaceOnBottom */ | ||
15011 | } XCirculateRequestEvent; | ||
15012 | |||
15013 | The parent member is set to the parent window. The window | ||
15014 | member is set to the subwindow to be restacked. The place | ||
15015 | member is set to what the new position in the stacking order | ||
15016 | should be and is either PlaceOnTop or PlaceOnBottom. If it is | ||
15017 | PlaceOnTop, the subwindow should be on top of all siblings. If | ||
15018 | it is PlaceOnBottom, the subwindow should be below all | ||
15019 | siblings. | ||
15020 | |||
15021 | ConfigureRequest Events | ||
15022 | |||
15023 | The X server can report ConfigureRequest events to clients | ||
15024 | wanting information about when a different client initiates a | ||
15025 | configure window request on any child of a specified window. | ||
15026 | The configure window request attempts to reconfigure a window's | ||
15027 | size, position, border, and stacking order. The X server | ||
15028 | generates this event whenever a different client initiates a | ||
15029 | configure window request on a window by calling | ||
15030 | XConfigureWindow, XLowerWindow, XRaiseWindow, XMapRaised, | ||
15031 | XMoveResizeWindow, XMoveWindow, XResizeWindow, XRestackWindows, | ||
15032 | or XSetWindowBorderWidth. | ||
15033 | |||
15034 | To receive ConfigureRequest events, set the | ||
15035 | SubstructureRedirectMask bit in the event-mask attribute of the | ||
15036 | window. ConfigureRequest events are generated when a | ||
15037 | ConfigureWindow protocol request is issued on a child window by | ||
15038 | another client. For example, suppose a client application calls | ||
15039 | XLowerWindow to lower a window. If you had selected | ||
15040 | SubstructureRedirectMask on the parent window and if the | ||
15041 | override-redirect attribute of the window is set to False, the | ||
15042 | X server reports a ConfigureRequest event to you and does not | ||
15043 | lower the specified window. | ||
15044 | |||
15045 | The structure for this event type contains: | ||
15046 | |||
15047 | |||
15048 | |||
15049 | typedef struct { | ||
15050 | int type; /* ConfigureRequest */ | ||
15051 | unsigned long serial; /* # of last request processed by serve | ||
15052 | r */ | ||
15053 | Bool send_event; /* true if this came from a SendEvent r | ||
15054 | equest */ | ||
15055 | Display *display; /* Display the event was read from */ | ||
15056 | Window parent; | ||
15057 | Window window; | ||
15058 | int x, y; | ||
15059 | int width, height; | ||
15060 | int border_width; | ||
15061 | Window above; | ||
15062 | int detail; /* Above, Below, TopIf, BottomIf, Oppos | ||
15063 | ite */ | ||
15064 | unsigned long value_mask; | ||
15065 | } XConfigureRequestEvent; | ||
15066 | |||
15067 | The parent member is set to the parent window. The window | ||
15068 | member is set to the window whose size, position, border width, | ||
15069 | and/or stacking order is to be reconfigured. The value_mask | ||
15070 | member indicates which components were specified in the | ||
15071 | ConfigureWindow protocol request. The corresponding values are | ||
15072 | reported as given in the request. The remaining values are | ||
15073 | filled in from the current geometry of the window, except in | ||
15074 | the case of above (sibling) and detail (stack-mode), which are | ||
15075 | reported as None and Above, respectively, if they are not given | ||
15076 | in the request. | ||
15077 | |||
15078 | MapRequest Events | ||
15079 | |||
15080 | The X server can report MapRequest events to clients wanting | ||
15081 | information about a different client's desire to map windows. A | ||
15082 | window is considered mapped when a map window request | ||
15083 | completes. The X server generates this event whenever a | ||
15084 | different client initiates a map window request on an unmapped | ||
15085 | window whose override_redirect member is set to False. Clients | ||
15086 | initiate map window requests by calling XMapWindow, XMapRaised, | ||
15087 | or XMapSubwindows. | ||
15088 | |||
15089 | To receive MapRequest events, set the SubstructureRedirectMask | ||
15090 | bit in the event-mask attribute of the window. This means | ||
15091 | another client's attempts to map a child window by calling one | ||
15092 | of the map window request functions is intercepted, and you are | ||
15093 | sent a MapRequest instead. For example, suppose a client | ||
15094 | application calls XMapWindow to map a window. If you (usually a | ||
15095 | window manager) had selected SubstructureRedirectMask on the | ||
15096 | parent window and if the override-redirect attribute of the | ||
15097 | window is set to False, the X server reports a MapRequest event | ||
15098 | to you and does not map the specified window. Thus, this event | ||
15099 | gives your window manager client the ability to control the | ||
15100 | placement of subwindows. | ||
15101 | |||
15102 | The structure for this event type contains: | ||
15103 | |||
15104 | |||
15105 | |||
15106 | typedef struct { | ||
15107 | int type; /* MapRequest */ | ||
15108 | unsigned long serial; /* # of last request processed by server | ||
15109 | */ | ||
15110 | Bool send_event; /* true if this came from a SendEvent req | ||
15111 | uest */ | ||
15112 | Display *display; /* Display the event was read from */ | ||
15113 | Window parent; | ||
15114 | Window window; | ||
15115 | } XMapRequestEvent; | ||
15116 | |||
15117 | The parent member is set to the parent window. The window | ||
15118 | member is set to the window to be mapped. | ||
15119 | |||
15120 | ResizeRequest Events | ||
15121 | |||
15122 | The X server can report ResizeRequest events to clients wanting | ||
15123 | information about another client's attempts to change the size | ||
15124 | of a window. The X server generates this event whenever some | ||
15125 | other client attempts to change the size of the specified | ||
15126 | window by calling XConfigureWindow, XResizeWindow, or | ||
15127 | XMoveResizeWindow. | ||
15128 | |||
15129 | To receive ResizeRequest events, set the ResizeRedirect bit in | ||
15130 | the event-mask attribute of the window. Any attempts to change | ||
15131 | the size by other clients are then redirected. | ||
15132 | |||
15133 | The structure for this event type contains: | ||
15134 | |||
15135 | |||
15136 | |||
15137 | typedef struct { | ||
15138 | int type; /* ResizeRequest */ | ||
15139 | unsigned long serial; /* # of last request processed by server | ||
15140 | */ | ||
15141 | Bool send_event; /* true if this came from a SendEvent re | ||
15142 | quest */ | ||
15143 | Display *display; /* Display the event was read from */ | ||
15144 | Window window; | ||
15145 | int width, height; | ||
15146 | } XResizeRequestEvent; | ||
15147 | |||
15148 | The window member is set to the window whose size another | ||
15149 | client attempted to change. The width and height members are | ||
15150 | set to the inside size of the window, excluding the border. | ||
15151 | |||
15152 | Colormap State Change Events | ||
15153 | |||
15154 | The X server can report ColormapNotify events to clients | ||
15155 | wanting information about when the colormap changes and when a | ||
15156 | colormap is installed or uninstalled. The X server generates | ||
15157 | this event type whenever a client application: | ||
15158 | * Changes the colormap member of the XSetWindowAttributes | ||
15159 | structure by calling XChangeWindowAttributes, | ||
15160 | XFreeColormap, or XSetWindowColormap | ||
15161 | * Installs or uninstalls the colormap by calling | ||
15162 | XInstallColormap or XUninstallColormap | ||
15163 | |||
15164 | To receive ColormapNotify events, set the ColormapChangeMask | ||
15165 | bit in the event-mask attribute of the window. | ||
15166 | |||
15167 | The structure for this event type contains: | ||
15168 | |||
15169 | |||
15170 | |||
15171 | typedef struct { | ||
15172 | int type; /* ColormapNotify */ | ||
15173 | unsigned long serial; /* # of last request processed by server | ||
15174 | */ | ||
15175 | Bool send_event; /* true if this came from a SendEvent req | ||
15176 | uest */ | ||
15177 | Display *display; /* Display the event was read from */ | ||
15178 | Window window; | ||
15179 | Colormap colormap; /* colormap or None */ | ||
15180 | Bool new; | ||
15181 | int state; /* ColormapInstalled, ColormapUninstalled | ||
15182 | */ | ||
15183 | } XColormapEvent; | ||
15184 | |||
15185 | The window member is set to the window whose associated | ||
15186 | colormap is changed, installed, or uninstalled. For a colormap | ||
15187 | that is changed, installed, or uninstalled, the colormap member | ||
15188 | is set to the colormap associated with the window. For a | ||
15189 | colormap that is changed by a call to XFreeColormap, the | ||
15190 | colormap member is set to None. The new member is set to | ||
15191 | indicate whether the colormap for the specified window was | ||
15192 | changed or installed or uninstalled and can be True or False. | ||
15193 | If it is True, the colormap was changed. If it is False, the | ||
15194 | colormap was installed or uninstalled. The state member is | ||
15195 | always set to indicate whether the colormap is installed or | ||
15196 | uninstalled and can be ColormapInstalled or | ||
15197 | ColormapUninstalled. | ||
15198 | |||
15199 | Client Communication Events | ||
15200 | |||
15201 | This section discusses: | ||
15202 | * ClientMessage events | ||
15203 | * PropertyNotify events | ||
15204 | * SelectionClear events | ||
15205 | * SelectionNotify events | ||
15206 | * SelectionRequest events | ||
15207 | |||
15208 | ClientMessage Events | ||
15209 | |||
15210 | The X server generates ClientMessage events only when a client | ||
15211 | calls the function XSendEvent. | ||
15212 | |||
15213 | The structure for this event type contains: | ||
15214 | |||
15215 | |||
15216 | |||
15217 | typedef struct { | ||
15218 | int type; /* ClientMessage */ | ||
15219 | unsigned long serial; /* # of last request processed by ser | ||
15220 | ver */ | ||
15221 | Bool send_event; /* true if this came from a SendEvent | ||
15222 | request */ | ||
15223 | Display *display; /* Display the event was read from */ | ||
15224 | Window window; | ||
15225 | Atom message_type; | ||
15226 | int format; | ||
15227 | union { | ||
15228 | char b[20]; | ||
15229 | short s[10]; | ||
15230 | long l[5]; | ||
15231 | } data; | ||
15232 | } XClientMessageEvent; | ||
15233 | |||
15234 | The message_type member is set to an atom that indicates how | ||
15235 | the data should be interpreted by the receiving client. The | ||
15236 | format member is set to 8, 16, or 32 and specifies whether the | ||
15237 | data should be viewed as a list of bytes, shorts, or longs. The | ||
15238 | data member is a union that contains the members b, s, and l. | ||
15239 | The b, s, and l members represent data of twenty 8-bit values, | ||
15240 | ten 16-bit values, and five 32-bit values. Particular message | ||
15241 | types might not make use of all these values. The X server | ||
15242 | places no interpretation on the values in the window, | ||
15243 | message_type, or data members. | ||
15244 | |||
15245 | PropertyNotify Events | ||
15246 | |||
15247 | The X server can report PropertyNotify events to clients | ||
15248 | wanting information about property changes for a specified | ||
15249 | window. | ||
15250 | |||
15251 | To receive PropertyNotify events, set the PropertyChangeMask | ||
15252 | bit in the event-mask attribute of the window. | ||
15253 | |||
15254 | The structure for this event type contains: | ||
15255 | |||
15256 | |||
15257 | |||
15258 | typedef struct { | ||
15259 | int type; /* PropertyNotify */ | ||
15260 | unsigned long serial; /* # of last request processed by server | ||
15261 | */ | ||
15262 | Bool send_event; /* true if this came from a SendEvent req | ||
15263 | uest */ | ||
15264 | Display *display; /* Display the event was read from */ | ||
15265 | Window window; | ||
15266 | Atom atom; | ||
15267 | Time time; | ||
15268 | int state; /* PropertyNewValue or PropertyDelete */ | ||
15269 | } XPropertyEvent; | ||
15270 | |||
15271 | The window member is set to the window whose associated | ||
15272 | property was changed. The atom member is set to the property's | ||
15273 | atom and indicates which property was changed or desired. The | ||
15274 | time member is set to the server time when the property was | ||
15275 | changed. The state member is set to indicate whether the | ||
15276 | property was changed to a new value or deleted and can be | ||
15277 | PropertyNewValue or PropertyDelete. The state member is set to | ||
15278 | PropertyNewValue when a property of the window is changed using | ||
15279 | XChangeProperty or XRotateWindowProperties (even when adding | ||
15280 | zero-length data using XChangeProperty) and when replacing all | ||
15281 | or part of a property with identical data using XChangeProperty | ||
15282 | or XRotateWindowProperties. The state member is set to | ||
15283 | PropertyDelete when a property of the window is deleted using | ||
15284 | XDeleteProperty or, if the delete argument is True, | ||
15285 | XGetWindowProperty. | ||
15286 | |||
15287 | SelectionClear Events | ||
15288 | |||
15289 | The X server reports SelectionClear events to the client losing | ||
15290 | ownership of a selection. The X server generates this event | ||
15291 | type when another client asserts ownership of the selection by | ||
15292 | calling XSetSelectionOwner. | ||
15293 | |||
15294 | The structure for this event type contains: | ||
15295 | |||
15296 | |||
15297 | |||
15298 | typedef struct { | ||
15299 | int type; /* SelectionClear */ | ||
15300 | unsigned long serial; /* # of last request processed by server | ||
15301 | */ | ||
15302 | Bool send_event; /* true if this came from a SendEvent req | ||
15303 | uest */ | ||
15304 | Display *display; /* Display the event was read from */ | ||
15305 | Window window; | ||
15306 | Atom selection; | ||
15307 | Time time; | ||
15308 | } XSelectionClearEvent; | ||
15309 | |||
15310 | The selection member is set to the selection atom. The time | ||
15311 | member is set to the last change time recorded for the | ||
15312 | selection. The window member is the window that was specified | ||
15313 | by the current owner (the owner losing the selection) in its | ||
15314 | XSetSelectionOwner call. | ||
15315 | |||
15316 | SelectionRequest Events | ||
15317 | |||
15318 | The X server reports SelectionRequest events to the owner of a | ||
15319 | selection. The X server generates this event whenever a client | ||
15320 | requests a selection conversion by calling XConvertSelection | ||
15321 | for the owned selection. | ||
15322 | |||
15323 | The structure for this event type contains: | ||
15324 | |||
15325 | |||
15326 | |||
15327 | typedef struct { | ||
15328 | int type; /* SelectionRequest */ | ||
15329 | unsigned long serial; /* # of last request processed by server | ||
15330 | */ | ||
15331 | Bool send_event; /* true if this came from a SendEvent req | ||
15332 | uest */ | ||
15333 | Display *display; /* Display the event was read from */ | ||
15334 | Window owner; | ||
15335 | Window requestor; | ||
15336 | Atom selection; | ||
15337 | Atom target; | ||
15338 | Atom property; | ||
15339 | Time time; | ||
15340 | } XSelectionRequestEvent; | ||
15341 | |||
15342 | The owner member is set to the window that was specified by the | ||
15343 | current owner in its XSetSelectionOwner call. The requestor | ||
15344 | member is set to the window requesting the selection. The | ||
15345 | selection member is set to the atom that names the selection. | ||
15346 | For example, PRIMARY is used to indicate the primary selection. | ||
15347 | The target member is set to the atom that indicates the type | ||
15348 | the selection is desired in. The property member can be a | ||
15349 | property name or None. The time member is set to the timestamp | ||
15350 | or CurrentTime value from the ConvertSelection request. | ||
15351 | |||
15352 | The owner should convert the selection based on the specified | ||
15353 | target type and send a SelectionNotify event back to the | ||
15354 | requestor. A complete specification for using selections is | ||
15355 | given in the X Consortium standard Inter-Client Communication | ||
15356 | Conventions Manual. | ||
15357 | |||
15358 | SelectionNotify Events | ||
15359 | |||
15360 | This event is generated by the X server in response to a | ||
15361 | ConvertSelection protocol request when there is no owner for | ||
15362 | the selection. When there is an owner, it should be generated | ||
15363 | by the owner of the selection by using XSendEvent. The owner of | ||
15364 | a selection should send this event to a requestor when a | ||
15365 | selection has been converted and stored as a property or when a | ||
15366 | selection conversion could not be performed (which is indicated | ||
15367 | by setting the property member to None). | ||
15368 | |||
15369 | If None is specified as the property in the ConvertSelection | ||
15370 | protocol request, the owner should choose a property name, | ||
15371 | store the result as that property on the requestor window, and | ||
15372 | then send a SelectionNotify giving that actual property name. | ||
15373 | |||
15374 | The structure for this event type contains: | ||
15375 | |||
15376 | |||
15377 | |||
15378 | typedef struct { | ||
15379 | int type; /* SelectionNotify */ | ||
15380 | unsigned long serial; /* # of last request processed by server | ||
15381 | */ | ||
15382 | Bool send_event; /* true if this came from a SendEvent req | ||
15383 | uest */ | ||
15384 | Display *display; /* Display the event was read from */ | ||
15385 | Window requestor; | ||
15386 | Atom selection; | ||
15387 | Atom target; | ||
15388 | Atom property; /* atom or None */ | ||
15389 | Time time; | ||
15390 | } XSelectionEvent; | ||
15391 | |||
15392 | The requestor member is set to the window associated with the | ||
15393 | requestor of the selection. The selection member is set to the | ||
15394 | atom that indicates the selection. For example, PRIMARY is used | ||
15395 | for the primary selection. The target member is set to the atom | ||
15396 | that indicates the converted type. For example, PIXMAP is used | ||
15397 | for a pixmap. The property member is set to the atom that | ||
15398 | indicates which property the result was stored on. If the | ||
15399 | conversion failed, the property member is set to None. The time | ||
15400 | member is set to the time the conversion took place and can be | ||
15401 | a timestamp or CurrentTime. | ||
15402 | |||
15403 | Chapter 11. Event Handling Functions | ||
15404 | |||
15405 | Table of Contents | ||
15406 | |||
15407 | Selecting Events | ||
15408 | Handling the Output Buffer | ||
15409 | Event Queue Management | ||
15410 | Manipulating the Event Queue | ||
15411 | |||
15412 | Returning the Next Event | ||
15413 | Selecting Events Using a Predicate Procedure | ||
15414 | Selecting Events Using a Window or Event Mask | ||
15415 | |||
15416 | Putting an Event Back into the Queue | ||
15417 | Sending Events to Other Applications | ||
15418 | Getting Pointer Motion History | ||
15419 | Handling Protocol Errors | ||
15420 | |||
15421 | Enabling or Disabling Synchronization | ||
15422 | Using the Default Error Handlers | ||
15423 | |||
15424 | This chapter discusses the Xlib functions you can use to: | ||
15425 | * Select events | ||
15426 | * Handle the output buffer and the event queue | ||
15427 | * Select events from the event queue | ||
15428 | * Send and get events | ||
15429 | * Handle protocol errors | ||
15430 | |||
15431 | Note | ||
15432 | |||
15433 | Some toolkits use their own event-handling functions and do not | ||
15434 | allow you to interchange these event-handling functions with | ||
15435 | those in Xlib. For further information, see the documentation | ||
15436 | supplied with the toolkit. | ||
15437 | |||
15438 | Most applications simply are event loops: they wait for an | ||
15439 | event, decide what to do with it, execute some amount of code | ||
15440 | that results in changes to the display, and then wait for the | ||
15441 | next event. | ||
15442 | |||
15443 | Selecting Events | ||
15444 | |||
15445 | There are two ways to select the events you want reported to | ||
15446 | your client application. One way is to set the event_mask | ||
15447 | member of the XSetWindowAttributes structure when you call | ||
15448 | XCreateWindow and XChangeWindowAttributes. Another way is to | ||
15449 | use XSelectInput. | ||
15450 | |||
15451 | XSelectInput(Display *display, Window w, long event_mask); | ||
15452 | |||
15453 | display | ||
15454 | |||
15455 | Specifies the connection to the X server. | ||
15456 | |||
15457 | w | ||
15458 | |||
15459 | Specifies the window whose events you are interested in. | ||
15460 | |||
15461 | event_mask | ||
15462 | |||
15463 | Specifies the event mask. | ||
15464 | |||
15465 | The XSelectInput function requests that the X server report the | ||
15466 | events associated with the specified event mask. Initially, X | ||
15467 | will not report any of these events. Events are reported | ||
15468 | relative to a window. If a window is not interested in a device | ||
15469 | event, it usually propagates to the closest ancestor that is | ||
15470 | interested, unless the do_not_propagate mask prohibits it. | ||
15471 | |||
15472 | Setting the event-mask attribute of a window overrides any | ||
15473 | previous call for the same window but not for other clients. | ||
15474 | Multiple clients can select for the same events on the same | ||
15475 | window with the following restrictions: | ||
15476 | * Multiple clients can select events on the same window | ||
15477 | because their event masks are disjoint. When the X server | ||
15478 | generates an event, it reports it to all interested | ||
15479 | clients. | ||
15480 | * Only one client at a time can select CirculateRequest, | ||
15481 | ConfigureRequest, or MapRequest events, which are | ||
15482 | associated with the event mask SubstructureRedirectMask. | ||
15483 | * Only one client at a time can select a ResizeRequest event, | ||
15484 | which is associated with the event mask ResizeRedirectMask. | ||
15485 | * Only one client at a time can select a ButtonPress event, | ||
15486 | which is associated with the event mask ButtonPressMask. | ||
15487 | |||
15488 | The server reports the event to all interested clients. | ||
15489 | |||
15490 | XSelectInput can generate a BadWindow error. | ||
15491 | |||
15492 | Handling the Output Buffer | ||
15493 | |||
15494 | The output buffer is an area used by Xlib to store requests. | ||
15495 | The functions described in this section flush the output buffer | ||
15496 | if the function would block or not return an event. That is, | ||
15497 | all requests residing in the output buffer that have not yet | ||
15498 | been sent are transmitted to the X server. These functions | ||
15499 | differ in the additional tasks they might perform. | ||
15500 | |||
15501 | To flush the output buffer, use XFlush. | ||
15502 | |||
15503 | XFlush(Display *display); | ||
15504 | |||
15505 | display | ||
15506 | |||
15507 | Specifies the connection to the X server. | ||
15508 | |||
15509 | The XFlush function flushes the output buffer. Most client | ||
15510 | applications need not use this function because the output | ||
15511 | buffer is automatically flushed as needed by calls to XPending, | ||
15512 | XNextEvent, and XWindowEvent. Events generated by the server | ||
15513 | may be enqueued into the library's event queue. | ||
15514 | |||
15515 | To flush the output buffer and then wait until all requests | ||
15516 | have been processed, use XSync. | ||
15517 | |||
15518 | XSync(Display *display, Bool discard); | ||
15519 | |||
15520 | display | ||
15521 | |||
15522 | Specifies the connection to the X server. | ||
15523 | |||
15524 | discard | ||
15525 | |||
15526 | Specifies a Boolean value that indicates whether XSync discards | ||
15527 | all events on the event queue. | ||
15528 | |||
15529 | The XSync function flushes the output buffer and then waits | ||
15530 | until all requests have been received and processed by the X | ||
15531 | server. Any errors generated must be handled by the error | ||
15532 | handler. For each protocol error received by Xlib, XSync calls | ||
15533 | the client application's error handling routine (see section | ||
15534 | 11.8.2). Any events generated by the server are enqueued into | ||
15535 | the library's event queue. | ||
15536 | |||
15537 | Finally, if you passed False, XSync does not discard the events | ||
15538 | in the queue. If you passed True, XSync discards all events in | ||
15539 | the queue, including those events that were on the queue before | ||
15540 | XSync was called. Client applications seldom need to call | ||
15541 | XSync. | ||
15542 | |||
15543 | Event Queue Management | ||
15544 | |||
15545 | Xlib maintains an event queue. However, the operating system | ||
15546 | also may be buffering data in its network connection that is | ||
15547 | not yet read into the event queue. | ||
15548 | |||
15549 | To check the number of events in the event queue, use | ||
15550 | XEventsQueued. | ||
15551 | |||
15552 | int XEventsQueued(Display *display, int mode); | ||
15553 | |||
15554 | display | ||
15555 | |||
15556 | Specifies the connection to the X server. | ||
15557 | |||
15558 | mode | ||
15559 | |||
15560 | Specifies the mode. You can pass QueuedAlready, | ||
15561 | QueuedAfterFlush, or QueuedAfterReading. | ||
15562 | |||
15563 | If mode is QueuedAlready, XEventsQueued returns the number of | ||
15564 | events already in the event queue (and never performs a system | ||
15565 | call). If mode is QueuedAfterFlush, XEventsQueued returns the | ||
15566 | number of events already in the queue if the number is nonzero. | ||
15567 | If there are no events in the queue, XEventsQueued flushes the | ||
15568 | output buffer, attempts to read more events out of the | ||
15569 | application's connection, and returns the number read. If mode | ||
15570 | is QueuedAfterReading, XEventsQueued returns the number of | ||
15571 | events already in the queue if the number is nonzero. If there | ||
15572 | are no events in the queue, XEventsQueued attempts to read more | ||
15573 | events out of the application's connection without flushing the | ||
15574 | output buffer and returns the number read. | ||
15575 | |||
15576 | XEventsQueued always returns immediately without I/O if there | ||
15577 | are events already in the queue. XEventsQueued with mode | ||
15578 | QueuedAfterFlush is identical in behavior to XPending. | ||
15579 | XEventsQueued with mode QueuedAlready is identical to the | ||
15580 | XQLength function. | ||
15581 | |||
15582 | To return the number of events that are pending, use XPending. | ||
15583 | |||
15584 | int XPending(Display *display); | ||
15585 | |||
15586 | display | ||
15587 | |||
15588 | Specifies the connection to the X server. | ||
15589 | |||
15590 | The XPending function returns the number of events that have | ||
15591 | been received from the X server but have not been removed from | ||
15592 | the event queue. XPending is identical to XEventsQueued with | ||
15593 | the mode QueuedAfterFlush specified. | ||
15594 | |||
15595 | Manipulating the Event Queue | ||
15596 | |||
15597 | Xlib provides functions that let you manipulate the event | ||
15598 | queue. This section discusses how to: | ||
15599 | * Obtain events, in order, and remove them from the queue | ||
15600 | * Peek at events in the queue without removing them | ||
15601 | * Obtain events that match the event mask or the arbitrary | ||
15602 | predicate procedures that you provide | ||
15603 | |||
15604 | Returning the Next Event | ||
15605 | |||
15606 | To get the next event and remove it from the queue, use | ||
15607 | XNextEvent. | ||
15608 | |||
15609 | XNextEvent(Display *display, XEvent *event_return); | ||
15610 | |||
15611 | display | ||
15612 | |||
15613 | Specifies the connection to the X server. | ||
15614 | |||
15615 | event_return | ||
15616 | |||
15617 | Returns the next event in the queue. | ||
15618 | |||
15619 | The XNextEvent function copies the first event from the event | ||
15620 | queue into the specified XEvent structure and then removes it | ||
15621 | from the queue. If the event queue is empty, XNextEvent flushes | ||
15622 | the output buffer and blocks until an event is received. | ||
15623 | |||
15624 | To peek at the event queue, use XPeekEvent. | ||
15625 | |||
15626 | XPeekEvent(Display *display, XEvent *event_return); | ||
15627 | |||
15628 | display | ||
15629 | |||
15630 | Specifies the connection to the X server. | ||
15631 | |||
15632 | event_return | ||
15633 | |||
15634 | Returns a copy of the matched event's associated structure. | ||
15635 | |||
15636 | The XPeekEvent function returns the first event from the event | ||
15637 | queue, but it does not remove the event from the queue. If the | ||
15638 | queue is empty, XPeekEvent flushes the output buffer and blocks | ||
15639 | until an event is received. It then copies the event into the | ||
15640 | client-supplied XEvent structure without removing it from the | ||
15641 | event queue. | ||
15642 | |||
15643 | Selecting Events Using a Predicate Procedure | ||
15644 | |||
15645 | Each of the functions discussed in this section requires you to | ||
15646 | pass a predicate procedure that determines if an event matches | ||
15647 | what you want. Your predicate procedure must decide if the | ||
15648 | event is useful without calling any Xlib functions. If the | ||
15649 | predicate directly or indirectly causes the state of the event | ||
15650 | queue to change, the result is not defined. If Xlib has been | ||
15651 | initialized for threads, the predicate is called with the | ||
15652 | display locked and the result of a call by the predicate to any | ||
15653 | Xlib function that locks the display is not defined unless the | ||
15654 | caller has first called XLockDisplay. | ||
15655 | |||
15656 | The predicate procedure and its associated arguments are: | ||
15657 | |||
15658 | Bool(Display *display, XEvent *event, XPointer arg); | ||
15659 | |||
15660 | display | ||
15661 | |||
15662 | Specifies the connection to the X server. | ||
15663 | |||
15664 | event | ||
15665 | |||
15666 | Specifies the XEvent structure. | ||
15667 | |||
15668 | arg | ||
15669 | |||
15670 | Specifies the argument passed in from the XIfEvent, | ||
15671 | XCheckIfEvent, or XPeekIfEvent function. | ||
15672 | |||
15673 | The predicate procedure is called once for each event in the | ||
15674 | queue until it finds a match. After finding a match, the | ||
15675 | predicate procedure must return True. If it did not find a | ||
15676 | match, it must return False. | ||
15677 | |||
15678 | To check the event queue for a matching event and, if found, | ||
15679 | remove the event from the queue, use XIfEvent. | ||
15680 | |||
15681 | XIfEvent(Display *display, XEvent *event_return, Bool | ||
15682 | (*predicate)(), XPointer arg); | ||
15683 | |||
15684 | display | ||
15685 | |||
15686 | Specifies the connection to the X server. | ||
15687 | |||
15688 | event_return | ||
15689 | |||
15690 | Returns the matched event's associated structure. | ||
15691 | |||
15692 | predicate | ||
15693 | |||
15694 | Specifies the procedure that is to be called to determine if | ||
15695 | the next event in the queue matches what you want. | ||
15696 | |||
15697 | arg | ||
15698 | |||
15699 | Specifies the user-supplied argument that will be passed to the | ||
15700 | predicate procedure. | ||
15701 | |||
15702 | The XIfEvent function completes only when the specified | ||
15703 | predicate procedure returns True for an event, which indicates | ||
15704 | an event in the queue matches. XIfEvent flushes the output | ||
15705 | buffer if it blocks waiting for additional events. XIfEvent | ||
15706 | removes the matching event from the queue and copies the | ||
15707 | structure into the client-supplied XEvent structure. | ||
15708 | |||
15709 | To check the event queue for a matching event without blocking, | ||
15710 | use XCheckIfEvent. | ||
15711 | |||
15712 | Bool XCheckIfEvent(Display *display, XEvent *event_return, Bool | ||
15713 | (*predicate)(), XPointer arg); | ||
15714 | |||
15715 | display | ||
15716 | |||
15717 | Specifies the connection to the X server. | ||
15718 | |||
15719 | event_return | ||
15720 | |||
15721 | Returns a copy of the matched event's associated structure. | ||
15722 | |||
15723 | predicate | ||
15724 | |||
15725 | Specifies the procedure that is to be called to determine if | ||
15726 | the next event in the queue matches what you want. | ||
15727 | |||
15728 | arg | ||
15729 | |||
15730 | Specifies the user-supplied argument that will be passed to the | ||
15731 | predicate procedure. | ||
15732 | |||
15733 | When the predicate procedure finds a match, XCheckIfEvent | ||
15734 | copies the matched event into the client-supplied XEvent | ||
15735 | structure and returns True. (This event is removed from the | ||
15736 | queue.) If the predicate procedure finds no match, | ||
15737 | XCheckIfEvent returns False, and the output buffer will have | ||
15738 | been flushed. All earlier events stored in the queue are not | ||
15739 | discarded. | ||
15740 | |||
15741 | To check the event queue for a matching event without removing | ||
15742 | the event from the queue, use XPeekIfEvent. | ||
15743 | |||
15744 | XPeekIfEvent(Display *display, XEvent *event_return, Bool | ||
15745 | (*predicate)(), XPointer arg); | ||
15746 | |||
15747 | display | ||
15748 | |||
15749 | Specifies the connection to the X server. | ||
15750 | |||
15751 | event_return | ||
15752 | |||
15753 | Returns a copy of the matched event's associated structure. | ||
15754 | |||
15755 | predicate | ||
15756 | |||
15757 | Specifies the procedure that is to be called to determine if | ||
15758 | the next event in the queue matches what you want. | ||
15759 | |||
15760 | arg | ||
15761 | |||
15762 | Specifies the user-supplied argument that will be passed to the | ||
15763 | predicate procedure. | ||
15764 | |||
15765 | The XPeekIfEvent function returns only when the specified | ||
15766 | predicate procedure returns True for an event. After the | ||
15767 | predicate procedure finds a match, XPeekIfEvent copies the | ||
15768 | matched event into the client-supplied XEvent structure without | ||
15769 | removing the event from the queue. XPeekIfEvent flushes the | ||
15770 | output buffer if it blocks waiting for additional events. | ||
15771 | |||
15772 | Selecting Events Using a Window or Event Mask | ||
15773 | |||
15774 | The functions discussed in this section let you select events | ||
15775 | by window or event types, allowing you to process events out of | ||
15776 | order. | ||
15777 | |||
15778 | To remove the next event that matches both a window and an | ||
15779 | event mask, use XWindowEvent. | ||
15780 | |||
15781 | XWindowEvent(Display *display, Window w, long event_mask, | ||
15782 | XEvent *event_return); | ||
15783 | |||
15784 | display | ||
15785 | |||
15786 | Specifies the connection to the X server. | ||
15787 | |||
15788 | w | ||
15789 | |||
15790 | Specifies the window whose events you are interested in. | ||
15791 | |||
15792 | event_mask | ||
15793 | |||
15794 | Specifies the event mask. | ||
15795 | |||
15796 | event_return | ||
15797 | |||
15798 | Returns the matched event's associated structure. | ||
15799 | |||
15800 | The XWindowEvent function searches the event queue for an event | ||
15801 | that matches both the specified window and event mask. When it | ||
15802 | finds a match, XWindowEvent removes that event from the queue | ||
15803 | and copies it into the specified XEvent structure. The other | ||
15804 | events stored in the queue are not discarded. If a matching | ||
15805 | event is not in the queue, XWindowEvent flushes the output | ||
15806 | buffer and blocks until one is received. | ||
15807 | |||
15808 | To remove the next event that matches both a window and an | ||
15809 | event mask (if any), use XCheckWindowEvent. This function is | ||
15810 | similar to XWindowEvent except that it never blocks and it | ||
15811 | returns a Bool indicating if the event was returned. | ||
15812 | |||
15813 | Bool XCheckWindowEvent(Display *display, Window w, long | ||
15814 | event_mask, XEvent *event_return); | ||
15815 | |||
15816 | display | ||
15817 | |||
15818 | Specifies the connection to the X server. | ||
15819 | |||
15820 | w | ||
15821 | |||
15822 | Specifies the window whose events you are interested in. | ||
15823 | |||
15824 | event_mask | ||
15825 | |||
15826 | Specifies the event mask. | ||
15827 | |||
15828 | event_return | ||
15829 | |||
15830 | Returns the matched event's associated structure. | ||
15831 | |||
15832 | The XCheckWindowEvent function searches the event queue and | ||
15833 | then the events available on the server connection for the | ||
15834 | first event that matches the specified window and event mask. | ||
15835 | If it finds a match, XCheckWindowEvent removes that event, | ||
15836 | copies it into the specified XEvent structure, and returns | ||
15837 | True. The other events stored in the queue are not discarded. | ||
15838 | If the event you requested is not available, XCheckWindowEvent | ||
15839 | returns False, and the output buffer will have been flushed. | ||
15840 | |||
15841 | To remove the next event that matches an event mask, use | ||
15842 | XMaskEvent. | ||
15843 | |||
15844 | XMaskEvent(Display *display, long event_mask, XEvent | ||
15845 | *event_return); | ||
15846 | |||
15847 | display | ||
15848 | |||
15849 | Specifies the connection to the X server. | ||
15850 | |||
15851 | event_mask | ||
15852 | |||
15853 | Specifies the event mask. | ||
15854 | |||
15855 | event_return | ||
15856 | |||
15857 | Returns the matched event's associated structure. | ||
15858 | |||
15859 | The XMaskEvent function searches the event queue for the events | ||
15860 | associated with the specified mask. When it finds a match, | ||
15861 | XMaskEvent removes that event and copies it into the specified | ||
15862 | XEvent structure. The other events stored in the queue are not | ||
15863 | discarded. If the event you requested is not in the queue, | ||
15864 | XMaskEvent flushes the output buffer and blocks until one is | ||
15865 | received. | ||
15866 | |||
15867 | To return and remove the next event that matches an event mask | ||
15868 | (if any), use XCheckMaskEvent. This function is similar to | ||
15869 | XMaskEvent except that it never blocks and it returns a Bool | ||
15870 | indicating if the event was returned. | ||
15871 | |||
15872 | Bool XCheckMaskEvent(Display *display, long event_mask, XEvent | ||
15873 | *event_return); | ||
15874 | |||
15875 | display | ||
15876 | |||
15877 | Specifies the connection to the X server. | ||
15878 | |||
15879 | event_mask | ||
15880 | |||
15881 | Specifies the event mask. | ||
15882 | |||
15883 | event_return | ||
15884 | |||
15885 | Returns the matched event's associated structure. | ||
15886 | |||
15887 | The XCheckMaskEvent function searches the event queue and then | ||
15888 | any events available on the server connection for the first | ||
15889 | event that matches the specified mask. If it finds a match, | ||
15890 | XCheckMaskEvent removes that event, copies it into the | ||
15891 | specified XEvent structure, and returns True. The other events | ||
15892 | stored in the queue are not discarded. If the event you | ||
15893 | requested is not available, XCheckMaskEvent returns False, and | ||
15894 | the output buffer will have been flushed. | ||
15895 | |||
15896 | To return and remove the next event in the queue that matches | ||
15897 | an event type, use XCheckTypedEvent. | ||
15898 | |||
15899 | Bool XCheckTypedEvent(Display *display, int event_type, XEvent | ||
15900 | *event_return); | ||
15901 | |||
15902 | display | ||
15903 | |||
15904 | Specifies the connection to the X server. | ||
15905 | |||
15906 | event_type | ||
15907 | |||
15908 | Specifies the event type to be compared. | ||
15909 | |||
15910 | event_return | ||
15911 | |||
15912 | Returns the matched event's associated structure. | ||
15913 | |||
15914 | The XCheckTypedEvent function searches the event queue and then | ||
15915 | any events available on the server connection for the first | ||
15916 | event that matches the specified type. If it finds a match, | ||
15917 | XCheckTypedEvent removes that event, copies it into the | ||
15918 | specified XEvent structure, and returns True. The other events | ||
15919 | in the queue are not discarded. If the event is not available, | ||
15920 | XCheckTypedEvent returns False, and the output buffer will have | ||
15921 | been flushed. | ||
15922 | |||
15923 | To return and remove the next event in the queue that matches | ||
15924 | an event type and a window, use XCheckTypedWindowEvent. | ||
15925 | |||
15926 | Bool XCheckTypedWindowEvent(Display *display, Window w, int | ||
15927 | event_type, XEvent *event_return); | ||
15928 | |||
15929 | display | ||
15930 | |||
15931 | Specifies the connection to the X server. | ||
15932 | |||
15933 | w | ||
15934 | |||
15935 | Specifies the window. | ||
15936 | |||
15937 | event_type | ||
15938 | |||
15939 | Specifies the event type to be compared. | ||
15940 | |||
15941 | event_return | ||
15942 | |||
15943 | Returns the matched event's associated structure. | ||
15944 | |||
15945 | The XCheckTypedWindowEvent function searches the event queue | ||
15946 | and then any events available on the server connection for the | ||
15947 | first event that matches the specified type and window. If it | ||
15948 | finds a match, XCheckTypedWindowEvent removes the event from | ||
15949 | the queue, copies it into the specified XEvent structure, and | ||
15950 | returns True. The other events in the queue are not discarded. | ||
15951 | If the event is not available, XCheckTypedWindowEvent returns | ||
15952 | False, and the output buffer will have been flushed. | ||
15953 | |||
15954 | Putting an Event Back into the Queue | ||
15955 | |||
15956 | To push an event back into the event queue, use XPutBackEvent. | ||
15957 | |||
15958 | XPutBackEvent(Display *display, XEvent *event); | ||
15959 | |||
15960 | display | ||
15961 | |||
15962 | Specifies the connection to the X server. | ||
15963 | |||
15964 | event | ||
15965 | |||
15966 | Specifies the event. | ||
15967 | |||
15968 | The XPutBackEvent function pushes an event back onto the head | ||
15969 | of the display's event queue by copying the event into the | ||
15970 | queue. This can be useful if you read an event and then decide | ||
15971 | that you would rather deal with it later. There is no limit to | ||
15972 | the number of times in succession that you can call | ||
15973 | XPutBackEvent. | ||
15974 | |||
15975 | Sending Events to Other Applications | ||
15976 | |||
15977 | To send an event to a specified window, use XSendEvent. This | ||
15978 | function is often used in selection processing. For example, | ||
15979 | the owner of a selection should use XSendEvent to send a | ||
15980 | SelectionNotify event to a requestor when a selection has been | ||
15981 | converted and stored as a property. | ||
15982 | |||
15983 | Status XSendEvent(Display *display, Window w, Bool propagate, | ||
15984 | long event_mask, XEvent *event_send); | ||
15985 | |||
15986 | display | ||
15987 | |||
15988 | Specifies the connection to the X server. | ||
15989 | |||
15990 | w | ||
15991 | |||
15992 | Specifies the window the event is to be sent to, or | ||
15993 | PointerWindow, or InputFocus. | ||
15994 | |||
15995 | propagate | ||
15996 | |||
15997 | Specifies a Boolean value. | ||
15998 | |||
15999 | event_mask | ||
16000 | |||
16001 | Specifies the event mask. | ||
16002 | |||
16003 | event_send | ||
16004 | |||
16005 | Specifies the event that is to be sent. | ||
16006 | |||
16007 | The XSendEvent function identifies the destination window, | ||
16008 | determines which clients should receive the specified events, | ||
16009 | and ignores any active grabs. This function requires you to | ||
16010 | pass an event mask. For a discussion of the valid event mask | ||
16011 | names, see section 10.3. This function uses the w argument to | ||
16012 | identify the destination window as follows: | ||
16013 | * If w is PointerWindow, the destination window is the window | ||
16014 | that contains the pointer. | ||
16015 | * If w is InputFocus and if the focus window contains the | ||
16016 | pointer, the destination window is the window that contains | ||
16017 | the pointer; otherwise, the destination window is the focus | ||
16018 | window. | ||
16019 | |||
16020 | To determine which clients should receive the specified events, | ||
16021 | XSendEvent uses the propagate argument as follows: | ||
16022 | * If event_mask is the empty set, the event is sent to the | ||
16023 | client that created the destination window. If that client | ||
16024 | no longer exists, no event is sent. | ||
16025 | * If propagate is False, the event is sent to every client | ||
16026 | selecting on destination any of the event types in the | ||
16027 | event_mask argument. | ||
16028 | * If propagate is True and no clients have selected on | ||
16029 | destination any of the event types in event-mask, the | ||
16030 | destination is replaced with the closest ancestor of | ||
16031 | destination for which some client has selected a type in | ||
16032 | event-mask and for which no intervening window has that | ||
16033 | type in its do-not-propagate-mask. If no such window exists | ||
16034 | or if the window is an ancestor of the focus window and | ||
16035 | InputFocus was originally specified as the destination, the | ||
16036 | event is not sent to any clients. Otherwise, the event is | ||
16037 | reported to every client selecting on the final destination | ||
16038 | any of the types specified in event_mask. | ||
16039 | |||
16040 | The event in the XEvent structure must be one of the core | ||
16041 | events or one of the events defined by an extension (or a | ||
16042 | BadValue error results) so that the X server can correctly | ||
16043 | byte-swap the contents as necessary. The contents of the event | ||
16044 | are otherwise unaltered and unchecked by the X server except to | ||
16045 | force send_event to True in the forwarded event and to set the | ||
16046 | serial number in the event correctly; therefore these fields | ||
16047 | and the display field are ignored by XSendEvent. | ||
16048 | |||
16049 | XSendEvent returns zero if the conversion to wire protocol | ||
16050 | format failed and returns nonzero otherwise. | ||
16051 | |||
16052 | XSendEvent can generate BadValue and BadWindow errors. | ||
16053 | |||
16054 | Getting Pointer Motion History | ||
16055 | |||
16056 | Some X server implementations will maintain a more complete | ||
16057 | history of pointer motion than is reported by event | ||
16058 | notification. The pointer position at each pointer hardware | ||
16059 | interrupt may be stored in a buffer for later retrieval. This | ||
16060 | buffer is called the motion history buffer. For example, a few | ||
16061 | applications, such as paint programs, want to have a precise | ||
16062 | history of where the pointer traveled. However, this historical | ||
16063 | information is highly excessive for most applications. | ||
16064 | |||
16065 | To determine the approximate maximum number of elements in the | ||
16066 | motion buffer, use XDisplayMotionBufferSize. | ||
16067 | |||
16068 | unsigned long(Display *display); | ||
16069 | |||
16070 | display | ||
16071 | |||
16072 | Specifies the connection to the X server. | ||
16073 | |||
16074 | The server may retain the recent history of the pointer motion | ||
16075 | and do so to a finer granularity than is reported by | ||
16076 | MotionNotify events. The function makes this history available. | ||
16077 | |||
16078 | To get the motion history for a specified window and time, use | ||
16079 | . | ||
16080 | |||
16081 | XTimeCoord *XGetMotionEvents(Display *display, Window w, Time | ||
16082 | start, Time stop, int *nevents_return); | ||
16083 | |||
16084 | display | ||
16085 | |||
16086 | Specifies the connection to the X server. | ||
16087 | |||
16088 | w | ||
16089 | |||
16090 | Specifies the window. | ||
16091 | |||
16092 | start | ||
16093 | |||
16094 | stop | ||
16095 | |||
16096 | Specify the time interval in which the events are returned from | ||
16097 | the motion history buffer. You can pass a timestamp or | ||
16098 | CurrentTime. | ||
16099 | |||
16100 | nevents_return | ||
16101 | |||
16102 | Returns the number of events from the motion history buffer. | ||
16103 | |||
16104 | The function returns all events in the motion history buffer | ||
16105 | that fall between the specified start and stop times, | ||
16106 | inclusive, and that have coordinates that lie within the | ||
16107 | specified window (including its borders) at its present | ||
16108 | placement. If the server does not support motion history, if | ||
16109 | the start time is later than the stop time, or if the start | ||
16110 | time is in the future, no events are returned; returns NULL. If | ||
16111 | the stop time is in the future, it is equivalent to specifying | ||
16112 | CurrentTime. The return type for this function is a structure | ||
16113 | defined as follows: | ||
16114 | |||
16115 | |||
16116 | |||
16117 | typedef struct { | ||
16118 | Time time; | ||
16119 | short x, y; | ||
16120 | } XTimeCoord; | ||
16121 | |||
16122 | The time member is set to the time, in milliseconds. The x and | ||
16123 | y members are set to the coordinates of the pointer and are | ||
16124 | reported relative to the origin of the specified window. To | ||
16125 | free the data returned from this call, use XFree. | ||
16126 | |||
16127 | can generate a BadWindow error. | ||
16128 | |||
16129 | Handling Protocol Errors | ||
16130 | |||
16131 | Xlib provides functions that you can use to enable or disable | ||
16132 | synchronization and to use the default error handlers. | ||
16133 | |||
16134 | Enabling or Disabling Synchronization | ||
16135 | |||
16136 | When debugging X applications, it often is very convenient to | ||
16137 | require Xlib to behave synchronously so that errors are | ||
16138 | reported as they occur. The following function lets you disable | ||
16139 | or enable synchronous behavior. Note that graphics may occur 30 | ||
16140 | or more times more slowly when synchronization is enabled. On | ||
16141 | POSIX-conformant systems, there is also a global variable | ||
16142 | _Xdebug that, if set to nonzero before starting a program under | ||
16143 | a debugger, will force synchronous library behavior. | ||
16144 | |||
16145 | After completing their work, all Xlib functions that generate | ||
16146 | protocol requests call what is known as an after function. sets | ||
16147 | which function is to be called. | ||
16148 | |||
16149 | int(Display *display, int (*procedure)()); | ||
16150 | |||
16151 | display | ||
16152 | |||
16153 | Specifies the connection to the X server. | ||
16154 | |||
16155 | procedure | ||
16156 | |||
16157 | Specifies the procedure to be called. | ||
16158 | |||
16159 | The specified procedure is called with only a display pointer. | ||
16160 | returns the previous after function. | ||
16161 | |||
16162 | To enable or disable synchronization, use XSynchronize. | ||
16163 | |||
16164 | int(Display *display, Bool onoff); | ||
16165 | |||
16166 | display | ||
16167 | |||
16168 | Specifies the connection to the X server. | ||
16169 | |||
16170 | onoff | ||
16171 | |||
16172 | Specifies a Boolean value that indicates whether to enable or | ||
16173 | disable synchronization. | ||
16174 | |||
16175 | The XSynchronize function returns the previous after function. | ||
16176 | If onoff is True, XSynchronize turns on synchronous behavior. | ||
16177 | If onoff is False, XSynchronize turns off synchronous behavior. | ||
16178 | |||
16179 | Using the Default Error Handlers | ||
16180 | |||
16181 | There are two default error handlers in Xlib: one to handle | ||
16182 | typically fatal conditions (for example, the connection to a | ||
16183 | display server dying because a machine crashed) and one to | ||
16184 | handle protocol errors from the X server. These error handlers | ||
16185 | can be changed to user-supplied routines if you prefer your own | ||
16186 | error handling and can be changed as often as you like. If | ||
16187 | either function is passed a NULL pointer, it will reinvoke the | ||
16188 | default handler. The action of the default handlers is to print | ||
16189 | an explanatory message and exit. | ||
16190 | |||
16191 | To set the error handler, use XSetErrorHandler. | ||
16192 | |||
16193 | int *XSetErrorHandler(int *handler); | ||
16194 | |||
16195 | handler | ||
16196 | |||
16197 | Specifies the program's supplied error handler. | ||
16198 | |||
16199 | Xlib generally calls the program's supplied error handler | ||
16200 | whenever an error is received. It is not called on BadName | ||
16201 | errors from OpenFont, LookupColor, or AllocNamedColor protocol | ||
16202 | requests or on BadFont errors from a QueryFont protocol | ||
16203 | request. These errors generally are reflected back to the | ||
16204 | program through the procedural interface. Because this | ||
16205 | condition is not assumed to be fatal, it is acceptable for your | ||
16206 | error handler to return; the returned value is ignored. | ||
16207 | However, the error handler should not call any functions | ||
16208 | (directly or indirectly) on the display that will generate | ||
16209 | protocol requests or that will look for input events. The | ||
16210 | previous error handler is returned. | ||
16211 | |||
16212 | The XErrorEvent structure contains: | ||
16213 | |||
16214 | |||
16215 | |||
16216 | typedef struct { | ||
16217 | int type; | ||
16218 | Display *display; /* Display the event was read from */ | ||
16219 | unsigned long serial; /* serial number of failed reque | ||
16220 | st */ | ||
16221 | unsigned char error_code; /* error code of failed request | ||
16222 | */ | ||
16223 | unsigned char request_code; /* Major op-code of failed reque | ||
16224 | st */ | ||
16225 | unsigned char minor_code; /* Minor op-code of failed reque | ||
16226 | st */ | ||
16227 | XID resourceid; /* resource id */ | ||
16228 | } XErrorEvent; | ||
16229 | |||
16230 | The serial member is the number of requests, starting from one, | ||
16231 | sent over the network connection since it was opened. It is the | ||
16232 | number that was the value of NextRequest immediately before the | ||
16233 | failing call was made. The request_code member is a protocol | ||
16234 | request of the procedure that failed, as defined in | ||
16235 | <X11/Xproto.h>. The following error codes can be returned by | ||
16236 | the functions described in this chapter: | ||
16237 | Error Code Description | ||
16238 | BadAccess | ||
16239 | |||
16240 | A client attempts to grab a key/button combination already | ||
16241 | grabbed by another client. | ||
16242 | |||
16243 | A client attempts to free a colormap entry that it had not | ||
16244 | already allocated or to free an entry in a colormap that was | ||
16245 | created with all entries writable. | ||
16246 | |||
16247 | A client attempts to store into a read-only or unallocated | ||
16248 | colormap entry. | ||
16249 | |||
16250 | A client attempts to modify the access control list from other | ||
16251 | than the local (or otherwise authorized) host. | ||
16252 | |||
16253 | A client attempts to select an event type that another client | ||
16254 | has already selected. | ||
16255 | BadAlloc The server fails to allocate the requested resource. | ||
16256 | Note that the explicit listing of BadAlloc errors in requests | ||
16257 | only covers allocation errors at a very coarse level and is not | ||
16258 | intended to (nor can it in practice hope to) cover all cases of | ||
16259 | a server running out of allocation space in the middle of | ||
16260 | service. The semantics when a server runs out of allocation | ||
16261 | space are left unspecified, but a server may generate a | ||
16262 | BadAlloc error on any request for this reason, and clients | ||
16263 | should be prepared to receive such errors and handle or discard | ||
16264 | them. | ||
16265 | BadAtom A value for an atom argument does not name a defined | ||
16266 | atom. | ||
16267 | BadColor A value for a colormap argument does not name a | ||
16268 | defined colormap. | ||
16269 | BadCursor A value for a cursor argument does not name a defined | ||
16270 | cursor. | ||
16271 | BadDrawable A value for a drawable argument does not name a | ||
16272 | defined window or pixmap. | ||
16273 | BadFont A value for a font argument does not name a defined | ||
16274 | font (or, in some cases, GContext). | ||
16275 | BadGC A value for a GContext argument does not name a defined | ||
16276 | GContext. | ||
16277 | BadIDChoice The value chosen for a resource identifier either | ||
16278 | is not included in the range assigned to the client or is | ||
16279 | already in use. Under normal circumstances, this cannot occur | ||
16280 | and should be considered a server or Xlib error. | ||
16281 | BadImplementation The server does not implement some aspect of | ||
16282 | the request. A server that generates this error for a core | ||
16283 | request is deficient. As such, this error is not listed for any | ||
16284 | of the requests, but clients should be prepared to receive such | ||
16285 | errors and handle or discard them. | ||
16286 | BadLength | ||
16287 | |||
16288 | The length of a request is shorter or longer than that required | ||
16289 | to contain the arguments. This is an internal Xlib or server | ||
16290 | error. | ||
16291 | |||
16292 | The length of a request exceeds the maximum length accepted by | ||
16293 | the server. | ||
16294 | BadMatch | ||
16295 | |||
16296 | In a graphics request, the root and depth of the graphics | ||
16297 | context do not match those of the drawable. | ||
16298 | |||
16299 | An InputOnly window is used as a drawable. | ||
16300 | |||
16301 | Some argument or pair of arguments has the correct type and | ||
16302 | range, but it fails to match in some other way required by the | ||
16303 | request. | ||
16304 | |||
16305 | An InputOnly window lacks this attribute. | ||
16306 | BadName A font or color of the specified name does not exist. | ||
16307 | BadPixmap A value for a pixmap argument does not name a defined | ||
16308 | pixmap. | ||
16309 | BadRequest The major or minor opcode does not specify a valid | ||
16310 | request. This usually is an Xlib or server error. | ||
16311 | BadValue Some numeric value falls outside of the range of | ||
16312 | values accepted by the request. Unless a specific range is | ||
16313 | specified for an argument, the full range defined by the | ||
16314 | argument's type is accepted. Any argument defined as a set of | ||
16315 | alternatives typically can generate this error (due to the | ||
16316 | encoding). | ||
16317 | BadWindow A value for a window argument does not name a defined | ||
16318 | window. | ||
16319 | |||
16320 | Note | ||
16321 | |||
16322 | The BadAtom, BadColor, BadCursor, BadDrawable, BadFont, BadGC, | ||
16323 | BadPixmap, and BadWindow errors are also used when the argument | ||
16324 | type is extended by a set of fixed alternatives. | ||
16325 | |||
16326 | To obtain textual descriptions of the specified error code, use | ||
16327 | XGetErrorText. | ||
16328 | |||
16329 | XGetErrorText(Display *display, int code, char *buffer_return, | ||
16330 | int length); | ||
16331 | |||
16332 | display | ||
16333 | |||
16334 | Specifies the connection to the X server. | ||
16335 | |||
16336 | code | ||
16337 | |||
16338 | Specifies the error code for which you want to obtain a | ||
16339 | description. | ||
16340 | |||
16341 | buffer_return | ||
16342 | |||
16343 | Returns the error description. | ||
16344 | |||
16345 | length | ||
16346 | |||
16347 | Specifies the size of the buffer. | ||
16348 | |||
16349 | The XGetErrorText function copies a null-terminated string | ||
16350 | describing the specified error code into the specified buffer. | ||
16351 | The returned text is in the encoding of the current locale. It | ||
16352 | is recommended that you use this function to obtain an error | ||
16353 | description because extensions to Xlib may define their own | ||
16354 | error codes and error strings. | ||
16355 | |||
16356 | To obtain error messages from the error database, use | ||
16357 | XGetErrorDatabaseText. | ||
16358 | |||
16359 | XGetErrorDatabaseText(Display *display, char *name, char | ||
16360 | *message, char *default_string, char *buffer_return, int | ||
16361 | length); | ||
16362 | |||
16363 | display | ||
16364 | |||
16365 | Specifies the connection to the X server. | ||
16366 | |||
16367 | name | ||
16368 | |||
16369 | Specifies the name of the application. | ||
16370 | |||
16371 | message | ||
16372 | |||
16373 | Specifies the type of the error message. | ||
16374 | |||
16375 | default_string | ||
16376 | |||
16377 | Specifies the default error message if none is found in the | ||
16378 | database. | ||
16379 | |||
16380 | buffer_return | ||
16381 | |||
16382 | Returns the error description. | ||
16383 | |||
16384 | length | ||
16385 | |||
16386 | Specifies the size of the buffer. | ||
16387 | |||
16388 | The XGetErrorDatabaseText function returns a null-terminated | ||
16389 | message (or the default message) from the error message | ||
16390 | database. Xlib uses this function internally to look up its | ||
16391 | error messages. The text in the default_string argument is | ||
16392 | assumed to be in the encoding of the current locale, and the | ||
16393 | text stored in the buffer_return argument is in the encoding of | ||
16394 | the current locale. | ||
16395 | |||
16396 | The name argument should generally be the name of your | ||
16397 | application. The message argument should indicate which type of | ||
16398 | error message you want. If the name and message are not in the | ||
16399 | Host Portable Character Encoding, the result is | ||
16400 | implementation-dependent. Xlib uses three predefined | ||
16401 | ``application names'' to report errors. In these names, | ||
16402 | uppercase and lowercase matter. | ||
16403 | |||
16404 | XProtoError | ||
16405 | |||
16406 | The protocol error number is used as a string for the message | ||
16407 | argument. | ||
16408 | |||
16409 | XlibMessage | ||
16410 | |||
16411 | These are the message strings that are used internally by the | ||
16412 | library. | ||
16413 | |||
16414 | XRequest | ||
16415 | |||
16416 | For a core protocol request, the major request protocol number | ||
16417 | is used for the message argument. For an extension request, the | ||
16418 | extension name (as given by InitExtension) followed by a period | ||
16419 | (.) and the minor request protocol number is used for the | ||
16420 | message argument. If no string is found in the error database, | ||
16421 | the default_string is returned to the buffer argument. | ||
16422 | |||
16423 | To report an error to the user when the requested display does | ||
16424 | not exist, use XDisplayName. | ||
16425 | |||
16426 | char *XDisplayName(char *string); | ||
16427 | |||
16428 | string | ||
16429 | |||
16430 | Specifies the character string. | ||
16431 | |||
16432 | The XDisplayName function returns the name of the display that | ||
16433 | XOpenDisplay would attempt to use. If a NULL string is | ||
16434 | specified, XDisplayName looks in the environment for the | ||
16435 | display and returns the display name that XOpenDisplay would | ||
16436 | attempt to use. This makes it easier to report to the user | ||
16437 | precisely which display the program attempted to open when the | ||
16438 | initial connection attempt failed. | ||
16439 | |||
16440 | To handle fatal I/O errors, use XSetIOErrorHandler. | ||
16441 | |||
16442 | int(int(*handler)(Display *)); | ||
16443 | |||
16444 | handler | ||
16445 | |||
16446 | Specifies the program's supplied error handler. | ||
16447 | |||
16448 | The XSetIOErrorHandler sets the fatal I/O error handler. Xlib | ||
16449 | calls the program's supplied error handler if any sort of | ||
16450 | system call error occurs (for example, the connection to the | ||
16451 | server was lost). This is assumed to be a fatal condition, and | ||
16452 | the called routine should not return. If the I/O error handler | ||
16453 | does return, the client process exits. | ||
16454 | |||
16455 | Note that the previous error handler is returned. | ||
16456 | |||
16457 | Chapter 12. Input Device Functions | ||
16458 | |||
16459 | Table of Contents | ||
16460 | |||
16461 | Pointer Grabbing | ||
16462 | Keyboard Grabbing | ||
16463 | Resuming Event Processing | ||
16464 | Moving the Pointer | ||
16465 | Controlling Input Focus | ||
16466 | Manipulating the Keyboard and Pointer Settings | ||
16467 | Manipulating the Keyboard Encoding | ||
16468 | |||
16469 | You can use the Xlib input device functions to: | ||
16470 | * Grab the pointer and individual buttons on the pointer | ||
16471 | * Grab the keyboard and individual keys on the keyboard | ||
16472 | * Resume event processing | ||
16473 | * Move the pointer | ||
16474 | * Set the input focus | ||
16475 | * Manipulate the keyboard and pointer settings | ||
16476 | * Manipulate the keyboard encoding | ||
16477 | |||
16478 | Pointer Grabbing | ||
16479 | |||
16480 | Xlib provides functions that you can use to control input from | ||
16481 | the pointer, which usually is a mouse. Usually, as soon as | ||
16482 | keyboard and mouse events occur, the X server delivers them to | ||
16483 | the appropriate client, which is determined by the window and | ||
16484 | input focus. The X server provides sufficient control over | ||
16485 | event delivery to allow window managers to support mouse ahead | ||
16486 | and various other styles of user interface. Many of these user | ||
16487 | interfaces depend on synchronous delivery of events. The | ||
16488 | delivery of pointer and keyboard events can be controlled | ||
16489 | independently. | ||
16490 | |||
16491 | When mouse buttons or keyboard keys are grabbed, events will be | ||
16492 | sent to the grabbing client rather than the normal client who | ||
16493 | would have received the event. If the keyboard or pointer is in | ||
16494 | asynchronous mode, further mouse and keyboard events will | ||
16495 | continue to be processed. If the keyboard or pointer is in | ||
16496 | synchronous mode, no further events are processed until the | ||
16497 | grabbing client allows them (see XAllowEvents). The keyboard or | ||
16498 | pointer is considered frozen during this interval. The event | ||
16499 | that triggered the grab can also be replayed. | ||
16500 | |||
16501 | Note that the logical state of a device (as seen by client | ||
16502 | applications) may lag the physical state if device event | ||
16503 | processing is frozen. | ||
16504 | |||
16505 | There are two kinds of grabs: active and passive. An active | ||
16506 | grab occurs when a single client grabs the keyboard and/or | ||
16507 | pointer explicitly (see XGrabPointer and XGrabKeyboard). A | ||
16508 | passive grab occurs when clients grab a particular keyboard key | ||
16509 | or pointer button in a window, and the grab will activate when | ||
16510 | the key or button is actually pressed. Passive grabs are | ||
16511 | convenient for implementing reliable pop-up menus. For example, | ||
16512 | you can guarantee that the pop-up is mapped before the up | ||
16513 | pointer button event occurs by grabbing a button requesting | ||
16514 | synchronous behavior. The down event will trigger the grab and | ||
16515 | freeze further processing of pointer events until you have the | ||
16516 | chance to map the pop-up window. You can then allow further | ||
16517 | event processing. The up event will then be correctly processed | ||
16518 | relative to the pop-up window. | ||
16519 | |||
16520 | For many operations, there are functions that take a time | ||
16521 | argument. The X server includes a timestamp in various events. | ||
16522 | One special time, called CurrentTime, represents the current | ||
16523 | server time. The X server maintains the time when the input | ||
16524 | focus was last changed, when the keyboard was last grabbed, | ||
16525 | when the pointer was last grabbed, or when a selection was last | ||
16526 | changed. Your application may be slow reacting to an event. You | ||
16527 | often need some way to specify that your request should not | ||
16528 | occur if another application has in the meanwhile taken control | ||
16529 | of the keyboard, pointer, or selection. By providing the | ||
16530 | timestamp from the event in the request, you can arrange that | ||
16531 | the operation not take effect if someone else has performed an | ||
16532 | operation in the meanwhile. | ||
16533 | |||
16534 | A timestamp is a time value, expressed in milliseconds. It | ||
16535 | typically is the time since the last server reset. Timestamp | ||
16536 | values wrap around (after about 49.7 days). The server, given | ||
16537 | its current time is represented by timestamp T, always | ||
16538 | interprets timestamps from clients by treating half of the | ||
16539 | timestamp space as being later in time than T. One timestamp | ||
16540 | value, named CurrentTime, is never generated by the server. | ||
16541 | This value is reserved for use in requests to represent the | ||
16542 | current server time. | ||
16543 | |||
16544 | For many functions in this section, you pass pointer event mask | ||
16545 | bits. The valid pointer event mask bits are: ButtonPressMask, | ||
16546 | ButtonReleaseMask, EnterWindowMask, LeaveWindowMask, | ||
16547 | PointerMotionMask, PointerMotionHintMask, Button1MotionMask, | ||
16548 | Button2MotionMask, Button3MotionMask, Button4MotionMask, | ||
16549 | Button5MotionMask, ButtonMotionMask, and KeymapStateMask. For | ||
16550 | other functions in this section, you pass keymask bits. The | ||
16551 | valid keymask bits are: ShiftMask, LockMask, ControlMask, | ||
16552 | Mod1Mask, Mod2Mask, Mod3Mask, Mod4Mask, and Mod5Mask. | ||
16553 | |||
16554 | To grab the pointer, use XGrabPointer. | ||
16555 | |||
16556 | int XGrabPointer(Display *display, Window grab_window, Bool | ||
16557 | owner_events, unsigned int event_mask, int pointer_mode, int | ||
16558 | keyboard_mode, Window confine_to, Cursor cursor, Time time); | ||
16559 | |||
16560 | display | ||
16561 | |||
16562 | Specifies the connection to the X server. | ||
16563 | |||
16564 | grab_window | ||
16565 | |||
16566 | Specifies the grab window. | ||
16567 | |||
16568 | owner_events | ||
16569 | |||
16570 | Specifies a Boolean value that indicates whether the pointer | ||
16571 | events are to be reported as usual or reported with respect to | ||
16572 | the grab window if selected by the event mask. | ||
16573 | |||
16574 | event_mask | ||
16575 | |||
16576 | Specifies which pointer events are reported to the client. The | ||
16577 | mask is the bitwise inclusive OR of the valid pointer event | ||
16578 | mask bits. | ||
16579 | |||
16580 | pointer_mode | ||
16581 | |||
16582 | Specifies further processing of pointer events. You can pass | ||
16583 | GrabModeSync or GrabModeAsync. | ||
16584 | |||
16585 | keyboard_mode | ||
16586 | |||
16587 | Specifies further processing of keyboard events. You can pass | ||
16588 | GrabModeSync or GrabModeAsync. | ||
16589 | |||
16590 | confine_to | ||
16591 | |||
16592 | Specifies the window to confine the pointer in or None. | ||
16593 | |||
16594 | cursor | ||
16595 | |||
16596 | Specifies the cursor that is to be displayed during the grab or | ||
16597 | None. | ||
16598 | |||
16599 | time | ||
16600 | |||
16601 | Specifies the time. You can pass either a timestamp or | ||
16602 | CurrentTime. | ||
16603 | |||
16604 | The XGrabPointer function actively grabs control of the pointer | ||
16605 | and returns GrabSuccess if the grab was successful. Further | ||
16606 | pointer events are reported only to the grabbing client. | ||
16607 | XGrabPointer overrides any active pointer grab by this client. | ||
16608 | If owner_events is False, all generated pointer events are | ||
16609 | reported with respect to grab_window and are reported only if | ||
16610 | selected by event_mask. If owner_events is True and if a | ||
16611 | generated pointer event would normally be reported to this | ||
16612 | client, it is reported as usual. Otherwise, the event is | ||
16613 | reported with respect to the grab_window and is reported only | ||
16614 | if selected by event_mask. For either value of owner_events, | ||
16615 | unreported events are discarded. | ||
16616 | |||
16617 | If the pointer_mode is GrabModeAsync, pointer event processing | ||
16618 | continues as usual. If the pointer is currently frozen by this | ||
16619 | client, the processing of events for the pointer is resumed. If | ||
16620 | the pointer_mode is GrabModeSync, the state of the pointer, as | ||
16621 | seen by client applications, appears to freeze, and the X | ||
16622 | server generates no further pointer events until the grabbing | ||
16623 | client calls XAllowEvents or until the pointer grab is | ||
16624 | released. Actual pointer changes are not lost while the pointer | ||
16625 | is frozen; they are simply queued in the server for later | ||
16626 | processing. | ||
16627 | |||
16628 | If the keyboard_mode is GrabModeAsync, keyboard event | ||
16629 | processing is unaffected by activation of the grab. If the | ||
16630 | keyboard_mode is GrabModeSync, the state of the keyboard, as | ||
16631 | seen by client applications, appears to freeze, and the X | ||
16632 | server generates no further keyboard events until the grabbing | ||
16633 | client calls XAllowEvents or until the pointer grab is | ||
16634 | released. Actual keyboard changes are not lost while the | ||
16635 | pointer is frozen; they are simply queued in the server for | ||
16636 | later processing. | ||
16637 | |||
16638 | If a cursor is specified, it is displayed regardless of what | ||
16639 | window the pointer is in. If None is specified, the normal | ||
16640 | cursor for that window is displayed when the pointer is in | ||
16641 | grab_window or one of its subwindows; otherwise, the cursor for | ||
16642 | grab_window is displayed. | ||
16643 | |||
16644 | If a confine_to window is specified, the pointer is restricted | ||
16645 | to stay contained in that window. The confine_to window need | ||
16646 | have no relationship to the grab_window. If the pointer is not | ||
16647 | initially in the confine_to window, it is warped automatically | ||
16648 | to the closest edge just before the grab activates and | ||
16649 | enter/leave events are generated as usual. If the confine_to | ||
16650 | window is subsequently reconfigured, the pointer is warped | ||
16651 | automatically, as necessary, to keep it contained in the | ||
16652 | window. | ||
16653 | |||
16654 | The time argument allows you to avoid certain circumstances | ||
16655 | that come up if applications take a long time to respond or if | ||
16656 | there are long network delays. Consider a situation where you | ||
16657 | have two applications, both of which normally grab the pointer | ||
16658 | when clicked on. If both applications specify the timestamp | ||
16659 | from the event, the second application may wake up faster and | ||
16660 | successfully grab the pointer before the first application. The | ||
16661 | first application then will get an indication that the other | ||
16662 | application grabbed the pointer before its request was | ||
16663 | processed. | ||
16664 | |||
16665 | XGrabPointer generates EnterNotify and LeaveNotify events. | ||
16666 | |||
16667 | Either if grab_window or confine_to window is not viewable or | ||
16668 | if the confine_to window lies completely outside the boundaries | ||
16669 | of the root window, XGrabPointer fails and returns | ||
16670 | GrabNotViewable. If the pointer is actively grabbed by some | ||
16671 | other client, it fails and returns AlreadyGrabbed. If the | ||
16672 | pointer is frozen by an active grab of another client, it fails | ||
16673 | and returns GrabFrozen. If the specified time is earlier than | ||
16674 | the last-pointer-grab time or later than the current X server | ||
16675 | time, it fails and returns GrabInvalidTime. Otherwise, the | ||
16676 | last-pointer-grab time is set to the specified time | ||
16677 | (CurrentTime is replaced by the current X server time). | ||
16678 | |||
16679 | XGrabPointer can generate BadCursor, BadValue, and BadWindow | ||
16680 | errors. | ||
16681 | |||
16682 | To ungrab the pointer, use XUngrabPointer. | ||
16683 | |||
16684 | XUngrabPointer(Display *display, Time time); | ||
16685 | |||
16686 | display | ||
16687 | |||
16688 | Specifies the connection to the X server. | ||
16689 | |||
16690 | time | ||
16691 | |||
16692 | Specifies the time. You can pass either a timestamp or | ||
16693 | CurrentTime. | ||
16694 | |||
16695 | The XUngrabPointer function releases the pointer and any queued | ||
16696 | events if this client has actively grabbed the pointer from | ||
16697 | XGrabPointer, XGrabButton, or from a normal button press. | ||
16698 | XUngrabPointer does not release the pointer if the specified | ||
16699 | time is earlier than the last-pointer-grab time or is later | ||
16700 | than the current X server time. It also generates EnterNotify | ||
16701 | and LeaveNotify events. The X server performs an UngrabPointer | ||
16702 | request automatically if the event window or confine_to window | ||
16703 | for an active pointer grab becomes not viewable or if window | ||
16704 | reconfiguration causes the confine_to window to lie completely | ||
16705 | outside the boundaries of the root window. | ||
16706 | |||
16707 | To change an active pointer grab, use XChangeActivePointerGrab. | ||
16708 | |||
16709 | XChangeActivePointerGrab(Display *display, unsigned int | ||
16710 | event_mask, Cursor cursor, Time time); | ||
16711 | |||
16712 | display | ||
16713 | |||
16714 | Specifies the connection to the X server. | ||
16715 | |||
16716 | event_mask | ||
16717 | |||
16718 | Specifies which pointer events are reported to the client. The | ||
16719 | mask is the bitwise inclusive OR of the valid pointer event | ||
16720 | mask bits. | ||
16721 | |||
16722 | cursor | ||
16723 | |||
16724 | Specifies the cursor that is to be displayed or None. | ||
16725 | |||
16726 | time | ||
16727 | |||
16728 | Specifies the time. You can pass either a timestamp or | ||
16729 | CurrentTime. | ||
16730 | |||
16731 | The XChangeActivePointerGrab function changes the specified | ||
16732 | dynamic parameters if the pointer is actively grabbed by the | ||
16733 | client and if the specified time is no earlier than the | ||
16734 | last-pointer-grab time and no later than the current X server | ||
16735 | time. This function has no effect on the passive parameters of | ||
16736 | an XGrabButton. The interpretation of event_mask and cursor is | ||
16737 | the same as described in XGrabPointer. | ||
16738 | |||
16739 | XChangeActivePointerGrab can generate BadCursor and BadValue | ||
16740 | errors. | ||
16741 | |||
16742 | To grab a pointer button, use XGrabButton. | ||
16743 | |||
16744 | XGrabButton(Display *display, unsigned int button, unsigned int | ||
16745 | modifiers, Window grab_window, Bool owner_events, unsigned int | ||
16746 | event_mask, int pointer_mode, int keyboard_mode, Window | ||
16747 | confine_to, Cursor cursor); | ||
16748 | |||
16749 | display | ||
16750 | |||
16751 | Specifies the connection to the X server. | ||
16752 | |||
16753 | button | ||
16754 | |||
16755 | Specifies the pointer button that is to be grabbed or | ||
16756 | AnyButton. | ||
16757 | |||
16758 | modifiers | ||
16759 | |||
16760 | Specifies the set of keymasks or AnyModifier. The mask is the | ||
16761 | bitwise inclusive OR of the valid keymask bits. | ||
16762 | |||
16763 | grab_window | ||
16764 | |||
16765 | Specifies the grab window. | ||
16766 | |||
16767 | owner_events | ||
16768 | |||
16769 | Specifies a Boolean value that indicates whether the pointer | ||
16770 | events are to be reported as usual or reported with respect to | ||
16771 | the grab window if selected by the event mask. | ||
16772 | |||
16773 | event_mask | ||
16774 | |||
16775 | Specifies which pointer events are reported to the client. The | ||
16776 | mask is the bitwise inclusive OR of the valid pointer event | ||
16777 | mask bits. | ||
16778 | |||
16779 | pointer_mode | ||
16780 | |||
16781 | Specifies further processing of pointer events. You can pass | ||
16782 | GrabModeSync or GrabModeAsync. | ||
16783 | |||
16784 | keyboard_mode | ||
16785 | |||
16786 | Specifies further processing of keyboard events. You can pass | ||
16787 | GrabModeSync or GrabModeAsync. | ||
16788 | |||
16789 | confine_to | ||
16790 | |||
16791 | Specifies the window to confine the pointer in or None. | ||
16792 | |||
16793 | cursor | ||
16794 | |||
16795 | Specifies the cursor that is to be displayed or None. | ||
16796 | |||
16797 | The XGrabButton function establishes a passive grab. In the | ||
16798 | future, the pointer is actively grabbed (as for XGrabPointer), | ||
16799 | the last-pointer-grab time is set to the time at which the | ||
16800 | button was pressed (as transmitted in the ButtonPress event), | ||
16801 | and the ButtonPress event is reported if all of the following | ||
16802 | conditions are true: | ||
16803 | * The pointer is not grabbed, and the specified button is | ||
16804 | logically pressed when the specified modifier keys are | ||
16805 | logically down, and no other buttons or modifier keys are | ||
16806 | logically down. | ||
16807 | * The grab_window contains the pointer. | ||
16808 | * The confine_to window (if any) is viewable. | ||
16809 | * A passive grab on the same button/key combination does not | ||
16810 | exist on any ancestor of grab_window. | ||
16811 | |||
16812 | The interpretation of the remaining arguments is as for | ||
16813 | XGrabPointer. The active grab is terminated automatically when | ||
16814 | the logical state of the pointer has all buttons released | ||
16815 | (independent of the state of the logical modifier keys). | ||
16816 | |||
16817 | Note that the logical state of a device (as seen by client | ||
16818 | applications) may lag the physical state if device event | ||
16819 | processing is frozen. | ||
16820 | |||
16821 | This request overrides all previous grabs by the same client on | ||
16822 | the same button/key combinations on the same window. A | ||
16823 | modifiers of AnyModifier is equivalent to issuing the grab | ||
16824 | request for all possible modifier combinations (including the | ||
16825 | combination of no modifiers). It is not required that all | ||
16826 | modifiers specified have currently assigned KeyCodes. A button | ||
16827 | of AnyButton is equivalent to issuing the request for all | ||
16828 | possible buttons. Otherwise, it is not required that the | ||
16829 | specified button currently be assigned to a physical button. | ||
16830 | |||
16831 | If some other client has already issued an XGrabButton with the | ||
16832 | same button/key combination on the same window, a BadAccess | ||
16833 | error results. When using AnyModifier or AnyButton, the request | ||
16834 | fails completely, and a BadAccess error results (no grabs are | ||
16835 | established) if there is a conflicting grab for any | ||
16836 | combination. XGrabButton has no effect on an active grab. | ||
16837 | |||
16838 | XGrabButton can generate BadCursor, BadValue, and BadWindow | ||
16839 | errors. | ||
16840 | |||
16841 | To ungrab a pointer button, use XUngrabButton. | ||
16842 | |||
16843 | XUngrabButton(Display *display, unsigned int button, unsigned | ||
16844 | int modifiers, Window grab_window); | ||
16845 | |||
16846 | display | ||
16847 | |||
16848 | Specifies the connection to the X server. | ||
16849 | |||
16850 | button | ||
16851 | |||
16852 | Specifies the pointer button that is to be released or | ||
16853 | AnyButton. | ||
16854 | |||
16855 | modifiers | ||
16856 | |||
16857 | Specifies the set of keymasks or AnyModifier. The mask is the | ||
16858 | bitwise inclusive OR of the valid keymask bits. | ||
16859 | |||
16860 | grab_window | ||
16861 | |||
16862 | Specifies the grab window. | ||
16863 | |||
16864 | The XUngrabButton function releases the passive button/key | ||
16865 | combination on the specified window if it was grabbed by this | ||
16866 | client. A modifiers of AnyModifier is equivalent to issuing the | ||
16867 | ungrab request for all possible modifier combinations, | ||
16868 | including the combination of no modifiers. A button of | ||
16869 | AnyButton is equivalent to issuing the request for all possible | ||
16870 | buttons. XUngrabButton has no effect on an active grab. | ||
16871 | |||
16872 | XUngrabButton can generate BadValue and BadWindow errors. | ||
16873 | |||
16874 | Keyboard Grabbing | ||
16875 | |||
16876 | Xlib provides functions that you can use to grab or ungrab the | ||
16877 | keyboard as well as allow events. | ||
16878 | |||
16879 | For many functions in this section, you pass keymask bits. The | ||
16880 | valid keymask bits are: ShiftMask, LockMask, ControlMask, | ||
16881 | Mod1Mask, Mod2Mask, Mod3Mask, Mod4Mask, and Mod5Mask. | ||
16882 | |||
16883 | To grab the keyboard, use XGrabKeyboard. | ||
16884 | |||
16885 | int XGrabKeyboard(Display *display, Window grab_window, Bool | ||
16886 | owner_events, int pointer_mode, int keyboard_mode, Time time); | ||
16887 | |||
16888 | display | ||
16889 | |||
16890 | Specifies the connection to the X server. | ||
16891 | |||
16892 | grab_window | ||
16893 | |||
16894 | Specifies the grab window. | ||
16895 | |||
16896 | owner_events | ||
16897 | |||
16898 | Specifies a Boolean value that indicates whether the keyboard | ||
16899 | events are to be reported as usual. | ||
16900 | |||
16901 | pointer_mode | ||
16902 | |||
16903 | Specifies further processing of pointer events. You can pass | ||
16904 | GrabModeSync or GrabModeAsync. | ||
16905 | |||
16906 | keyboard_mode | ||
16907 | |||
16908 | Specifies further processing of keyboard events. You can pass | ||
16909 | GrabModeSync or GrabModeAsync. | ||
16910 | |||
16911 | time | ||
16912 | |||
16913 | Specifies the time. You can pass either a timestamp or | ||
16914 | CurrentTime. | ||
16915 | |||
16916 | The XGrabKeyboard function actively grabs control of the | ||
16917 | keyboard and generates FocusIn and FocusOut events. Further key | ||
16918 | events are reported only to the grabbing client. XGrabKeyboard | ||
16919 | overrides any active keyboard grab by this client. If | ||
16920 | owner_events is False, all generated key events are reported | ||
16921 | with respect to grab_window. If owner_events is True and if a | ||
16922 | generated key event would normally be reported to this client, | ||
16923 | it is reported normally; otherwise, the event is reported with | ||
16924 | respect to the grab_window. Both KeyPress and KeyRelease events | ||
16925 | are always reported, independent of any event selection made by | ||
16926 | the client. | ||
16927 | |||
16928 | If the keyboard_mode argument is GrabModeAsync, keyboard event | ||
16929 | processing continues as usual. If the keyboard is currently | ||
16930 | frozen by this client, then processing of keyboard events is | ||
16931 | resumed. If the keyboard_mode argument is GrabModeSync, the | ||
16932 | state of the keyboard (as seen by client applications) appears | ||
16933 | to freeze, and the X server generates no further keyboard | ||
16934 | events until the grabbing client issues a releasing | ||
16935 | XAllowEvents call or until the keyboard grab is released. | ||
16936 | Actual keyboard changes are not lost while the keyboard is | ||
16937 | frozen; they are simply queued in the server for later | ||
16938 | processing. | ||
16939 | |||
16940 | If pointer_mode is GrabModeAsync, pointer event processing is | ||
16941 | unaffected by activation of the grab. If pointer_mode is | ||
16942 | GrabModeSync, the state of the pointer (as seen by client | ||
16943 | applications) appears to freeze, and the X server generates no | ||
16944 | further pointer events until the grabbing client issues a | ||
16945 | releasing XAllowEvents call or until the keyboard grab is | ||
16946 | released. Actual pointer changes are not lost while the pointer | ||
16947 | is frozen; they are simply queued in the server for later | ||
16948 | processing. | ||
16949 | |||
16950 | If the keyboard is actively grabbed by some other client, | ||
16951 | XGrabKeyboard fails and returns AlreadyGrabbed. If grab_window | ||
16952 | is not viewable, it fails and returns GrabNotViewable. If the | ||
16953 | keyboard is frozen by an active grab of another client, it | ||
16954 | fails and returns GrabFrozen. If the specified time is earlier | ||
16955 | than the last-keyboard-grab time or later than the current X | ||
16956 | server time, it fails and returns GrabInvalidTime. Otherwise, | ||
16957 | the last-keyboard-grab time is set to the specified time | ||
16958 | (CurrentTime is replaced by the current X server time). | ||
16959 | |||
16960 | XGrabKeyboard can generate BadValue and BadWindow errors. | ||
16961 | |||
16962 | To ungrab the keyboard, use XUngrabKeyboard. | ||
16963 | |||
16964 | XUngrabKeyboard(Display *display, Time time); | ||
16965 | |||
16966 | display | ||
16967 | |||
16968 | Specifies the connection to the X server. | ||
16969 | |||
16970 | time | ||
16971 | |||
16972 | Specifies the time. You can pass either a timestamp or | ||
16973 | CurrentTime. | ||
16974 | |||
16975 | The XUngrabKeyboard function releases the keyboard and any | ||
16976 | queued events if this client has it actively grabbed from | ||
16977 | either XGrabKeyboard or XGrabKey. XUngrabKeyboard does not | ||
16978 | release the keyboard and any queued events if the specified | ||
16979 | time is earlier than the last-keyboard-grab time or is later | ||
16980 | than the current X server time. It also generates FocusIn and | ||
16981 | FocusOut events. The X server automatically performs an | ||
16982 | UngrabKeyboard request if the event window for an active | ||
16983 | keyboard grab becomes not viewable. | ||
16984 | |||
16985 | To passively grab a single key of the keyboard, use XGrabKey. | ||
16986 | |||
16987 | XGrabKey(Display *display, int keycode, unsigned int modifiers, | ||
16988 | Window grab_window, Bool owner_events, int pointer_mode, int | ||
16989 | keyboard_mode); | ||
16990 | |||
16991 | display | ||
16992 | |||
16993 | Specifies the connection to the X server. | ||
16994 | |||
16995 | keycode | ||
16996 | |||
16997 | Specifies the KeyCode or AnyKey. | ||
16998 | |||
16999 | modifiers | ||
17000 | |||
17001 | Specifies the set of keymasks or AnyModifier. The mask is the | ||
17002 | bitwise inclusive OR of the valid keymask bits. | ||
17003 | |||
17004 | grab_window | ||
17005 | |||
17006 | Specifies the grab window. | ||
17007 | |||
17008 | owner_events | ||
17009 | |||
17010 | Specifies a Boolean value that indicates whether the keyboard | ||
17011 | events are to be reported as usual. | ||
17012 | |||
17013 | pointer_mode | ||
17014 | |||
17015 | Specifies further processing of pointer events. You can pass | ||
17016 | GrabModeSync or GrabModeAsync. | ||
17017 | |||
17018 | keyboard_mode | ||
17019 | |||
17020 | Specifies further processing of keyboard events. You can pass | ||
17021 | GrabModeSync or GrabModeAsync. | ||
17022 | |||
17023 | The XGrabKey function establishes a passive grab on the | ||
17024 | keyboard. In the future, the keyboard is actively grabbed (as | ||
17025 | for XGrabKeyboard), the last-keyboard-grab time is set to the | ||
17026 | time at which the key was pressed (as transmitted in the | ||
17027 | KeyPress event), and the KeyPress event is reported if all of | ||
17028 | the following conditions are true: | ||
17029 | * The keyboard is not grabbed and the specified key (which | ||
17030 | can itself be a modifier key) is logically pressed when the | ||
17031 | specified modifier keys are logically down, and no other | ||
17032 | modifier keys are logically down. | ||
17033 | * Either the grab_window is an ancestor of (or is) the focus | ||
17034 | window, or the grab_window is a descendant of the focus | ||
17035 | window and contains the pointer. | ||
17036 | * A passive grab on the same key combination does not exist | ||
17037 | on any ancestor of grab_window. | ||
17038 | |||
17039 | The interpretation of the remaining arguments is as for | ||
17040 | XGrabKeyboard. The active grab is terminated automatically when | ||
17041 | the logical state of the keyboard has the specified key | ||
17042 | released (independent of the logical state of the modifier | ||
17043 | keys). | ||
17044 | |||
17045 | Note that the logical state of a device (as seen by client | ||
17046 | applications) may lag the physical state if device event | ||
17047 | processing is frozen. | ||
17048 | |||
17049 | A modifiers argument of AnyModifier is equivalent to issuing | ||
17050 | the request for all possible modifier combinations (including | ||
17051 | the combination of no modifiers). It is not required that all | ||
17052 | modifiers specified have currently assigned KeyCodes. A keycode | ||
17053 | argument of AnyKey is equivalent to issuing the request for all | ||
17054 | possible KeyCodes. Otherwise, the specified keycode must be in | ||
17055 | the range specified by min_keycode and max_keycode in the | ||
17056 | connection setup, or a BadValue error results. | ||
17057 | |||
17058 | If some other client has issued a XGrabKey with the same key | ||
17059 | combination on the same window, a BadAccess error results. When | ||
17060 | using AnyModifier or AnyKey, the request fails completely, and | ||
17061 | a BadAccess error results (no grabs are established) if there | ||
17062 | is a conflicting grab for any combination. | ||
17063 | |||
17064 | XGrabKey can generate BadAccess, BadValue, and BadWindow | ||
17065 | errors. | ||
17066 | |||
17067 | To ungrab a key, use XUngrabKey. | ||
17068 | |||
17069 | XUngrabKey(Display *display, int keycode, unsigned int | ||
17070 | modifiers, Window grab_window); | ||
17071 | |||
17072 | display | ||
17073 | |||
17074 | Specifies the connection to the X server. | ||
17075 | |||
17076 | keycode | ||
17077 | |||
17078 | Specifies the KeyCode or AnyKey. | ||
17079 | |||
17080 | modifiers | ||
17081 | |||
17082 | Specifies the set of keymasks or AnyModifier. The mask is the | ||
17083 | bitwise inclusive OR of the valid keymask bits. | ||
17084 | |||
17085 | grab_window | ||
17086 | |||
17087 | Specifies the grab window. | ||
17088 | |||
17089 | The XUngrabKey function releases the key combination on the | ||
17090 | specified window if it was grabbed by this client. It has no | ||
17091 | effect on an active grab. A modifiers of AnyModifier is | ||
17092 | equivalent to issuing the request for all possible modifier | ||
17093 | combinations (including the combination of no modifiers). A | ||
17094 | keycode argument of AnyKey is equivalent to issuing the request | ||
17095 | for all possible key codes. | ||
17096 | |||
17097 | XUngrabKey can generate BadValue and BadWindow errors. | ||
17098 | |||
17099 | Resuming Event Processing | ||
17100 | |||
17101 | The previous sections discussed grab mechanisms with which | ||
17102 | processing of events by the server can be temporarily | ||
17103 | suspended. This section describes the mechanism for resuming | ||
17104 | event processing. | ||
17105 | |||
17106 | To allow further events to be processed when the device has | ||
17107 | been frozen, use XAllowEvents. | ||
17108 | |||
17109 | XAllowEvents(Display *display, int event_mode, Time time); | ||
17110 | |||
17111 | display | ||
17112 | |||
17113 | Specifies the connection to the X server. | ||
17114 | |||
17115 | event_mode | ||
17116 | |||
17117 | Specifies the event mode. You can pass AsyncPointer, | ||
17118 | SyncPointer, AsyncKeyboard, SyncKeyboard, ReplayPointer, | ||
17119 | ReplayKeyboard, AsyncBoth, or SyncBoth. | ||
17120 | |||
17121 | time | ||
17122 | |||
17123 | Specifies the time. You can pass either a timestamp or | ||
17124 | CurrentTime. | ||
17125 | |||
17126 | The XAllowEvents function releases some queued events if the | ||
17127 | client has caused a device to freeze. It has no effect if the | ||
17128 | specified time is earlier than the last-grab time of the most | ||
17129 | recent active grab for the client or if the specified time is | ||
17130 | later than the current X server time. Depending on the | ||
17131 | event_mode argument, the following occurs: | ||
17132 | AsyncPointer If the pointer is frozen by the client, pointer | ||
17133 | event processing continues as usual. If the pointer is frozen | ||
17134 | twice by the client on behalf of two separate grabs, | ||
17135 | AsyncPointer thaws for both. AsyncPointer has no effect if the | ||
17136 | pointer is not frozen by the client, but the pointer need not | ||
17137 | be grabbed by the client. | ||
17138 | SyncPointer If the pointer is frozen and actively grabbed by | ||
17139 | the client, pointer event processing continues as usual until | ||
17140 | the next ButtonPress or ButtonRelease event is reported to the | ||
17141 | client. At this time, the pointer again appears to freeze. | ||
17142 | However, if the reported event causes the pointer grab to be | ||
17143 | released, the pointer does not freeze. SyncPointer has no | ||
17144 | effect if the pointer is not frozen by the client or if the | ||
17145 | pointer is not grabbed by the client. | ||
17146 | ReplayPointer If the pointer is actively grabbed by the client | ||
17147 | and is frozen as the result of an event having been sent to the | ||
17148 | client (either from the activation of an XGrabButton or from a | ||
17149 | previous XAllowEvents with mode SyncPointer but not from an | ||
17150 | XGrabPointer), the pointer grab is released and that event is | ||
17151 | completely reprocessed. This time, however, the function | ||
17152 | ignores any passive grabs at or above (toward the root of) the | ||
17153 | grab_window of the grab just released. The request has no | ||
17154 | effect if the pointer is not grabbed by the client or if the | ||
17155 | pointer is not frozen as the result of an event. | ||
17156 | AsyncKeyboard If the keyboard is frozen by the client, keyboard | ||
17157 | event processing continues as usual. If the keyboard is frozen | ||
17158 | twice by the client on behalf of two separate grabs, | ||
17159 | AsyncKeyboard thaws for both. AsyncKeyboard has no effect if | ||
17160 | the keyboard is not frozen by the client, but the keyboard need | ||
17161 | not be grabbed by the client. | ||
17162 | SyncKeyboard If the keyboard is frozen and actively grabbed by | ||
17163 | the client, keyboard event processing continues as usual until | ||
17164 | the next KeyPress or KeyRelease event is reported to the | ||
17165 | client. At this time, the keyboard again appears to freeze. | ||
17166 | However, if the reported event causes the keyboard grab to be | ||
17167 | released, the keyboard does not freeze. SyncKeyboard has no | ||
17168 | effect if the keyboard is not frozen by the client or if the | ||
17169 | keyboard is not grabbed by the client. | ||
17170 | ReplayKeyboard If the keyboard is actively grabbed by the | ||
17171 | client and is frozen as the result of an event having been sent | ||
17172 | to the client (either from the activation of an XGrabKey or | ||
17173 | from a previous XAllowEvents with mode SyncKeyboard but not | ||
17174 | from an XGrabKeyboard), the keyboard grab is released and that | ||
17175 | event is completely reprocessed. This time, however, the | ||
17176 | function ignores any passive grabs at or above (toward the root | ||
17177 | of) the grab_window of the grab just released. The request has | ||
17178 | no effect if the keyboard is not grabbed by the client or if | ||
17179 | the keyboard is not frozen as the result of an event. | ||
17180 | SyncBoth If both pointer and keyboard are frozen by the client, | ||
17181 | event processing for both devices continues as usual until the | ||
17182 | next ButtonPress, ButtonRelease, KeyPress, or KeyRelease event | ||
17183 | is reported to the client for a grabbed device (button event | ||
17184 | for the pointer, key event for the keyboard), at which time the | ||
17185 | devices again appear to freeze. However, if the reported event | ||
17186 | causes the grab to be released, then the devices do not freeze | ||
17187 | (but if the other device is still grabbed, then a subsequent | ||
17188 | event for it will still cause both devices to freeze). SyncBoth | ||
17189 | has no effect unless both pointer and keyboard are frozen by | ||
17190 | the client. If the pointer or keyboard is frozen twice by the | ||
17191 | client on behalf of two separate grabs, SyncBoth thaws for both | ||
17192 | (but a subsequent freeze for SyncBoth will only freeze each | ||
17193 | device once). | ||
17194 | AsyncBoth If the pointer and the keyboard are frozen by the | ||
17195 | client, event processing for both devices continues as usual. | ||
17196 | If a device is frozen twice by the client on behalf of two | ||
17197 | separate grabs, AsyncBoth thaws for both. AsyncBoth has no | ||
17198 | effect unless both pointer and keyboard are frozen by the | ||
17199 | client. | ||
17200 | |||
17201 | AsyncPointer, SyncPointer, and ReplayPointer have no effect on | ||
17202 | the processing of keyboard events. AsyncKeyboard, SyncKeyboard, | ||
17203 | and ReplayKeyboard have no effect on the processing of pointer | ||
17204 | events. It is possible for both a pointer grab and a keyboard | ||
17205 | grab (by the same or different clients) to be active | ||
17206 | simultaneously. If a device is frozen on behalf of either grab, | ||
17207 | no event processing is performed for the device. It is possible | ||
17208 | for a single device to be frozen because of both grabs. In this | ||
17209 | case, the freeze must be released on behalf of both grabs | ||
17210 | before events can again be processed. If a device is frozen | ||
17211 | twice by a single client, then a single XAllowEvents releases | ||
17212 | both. | ||
17213 | |||
17214 | XAllowEvents can generate a BadValue error. | ||
17215 | |||
17216 | Moving the Pointer | ||
17217 | |||
17218 | Although movement of the pointer normally should be left to the | ||
17219 | control of the end user, sometimes it is necessary to move the | ||
17220 | pointer to a new position under program control. | ||
17221 | |||
17222 | To move the pointer to an arbitrary point in a window, use | ||
17223 | XWarpPointer. | ||
17224 | |||
17225 | XWarpPointer(Display *display, Window src_w, Window dest_w, int | ||
17226 | src_x, int src_y, unsigned int src_width, unsigned int | ||
17227 | src_height, int dest_x, int dest_y); | ||
17228 | |||
17229 | display | ||
17230 | |||
17231 | Specifies the connection to the X server. | ||
17232 | |||
17233 | src_w | ||
17234 | |||
17235 | Specifies the source window or None. | ||
17236 | |||
17237 | dest_w | ||
17238 | |||
17239 | Specifies the destination window or None. | ||
17240 | |||
17241 | src_x | ||
17242 | |||
17243 | src_y | ||
17244 | |||
17245 | src_width | ||
17246 | |||
17247 | src_height | ||
17248 | |||
17249 | Specify a rectangle in the source window. | ||
17250 | |||
17251 | dest_x | ||
17252 | |||
17253 | dest_y | ||
17254 | |||
17255 | Specify the x and y coordinates within the destination window. | ||
17256 | |||
17257 | If dest_w is None, XWarpPointer moves the pointer by the | ||
17258 | offsets (dest_x, dest_y) relative to the current position of | ||
17259 | the pointer. If dest_w is a window, XWarpPointer moves the | ||
17260 | pointer to the offsets (dest_x, dest_y) relative to the origin | ||
17261 | of dest_w. However, if src_w is a window, the move only takes | ||
17262 | place if the window src_w contains the pointer and if the | ||
17263 | specified rectangle of src_w contains the pointer. | ||
17264 | |||
17265 | The src_x and src_y coordinates are relative to the origin of | ||
17266 | src_w. If src_height is zero, it is replaced with the current | ||
17267 | height of src_w minus src_y. If src_width is zero, it is | ||
17268 | replaced with the current width of src_w minus src_x. | ||
17269 | |||
17270 | There is seldom any reason for calling this function. The | ||
17271 | pointer should normally be left to the user. If you do use this | ||
17272 | function, however, it generates events just as if the user had | ||
17273 | instantaneously moved the pointer from one position to another. | ||
17274 | Note that you cannot use XWarpPointer to move the pointer | ||
17275 | outside the confine_to window of an active pointer grab. An | ||
17276 | attempt to do so will only move the pointer as far as the | ||
17277 | closest edge of the confine_to window. | ||
17278 | |||
17279 | XWarpPointer can generate a BadWindow error. | ||
17280 | |||
17281 | Controlling Input Focus | ||
17282 | |||
17283 | Xlib provides functions that you can use to set and get the | ||
17284 | input focus. The input focus is a shared resource, and | ||
17285 | cooperation among clients is required for correct interaction. | ||
17286 | See the Inter-Client Communication Conventions Manual for input | ||
17287 | focus policy. | ||
17288 | |||
17289 | To set the input focus, use XSetInputFocus. | ||
17290 | |||
17291 | XSetInputFocus(Display *display, Window focus, int revert_to, | ||
17292 | Time time); | ||
17293 | |||
17294 | display | ||
17295 | |||
17296 | Specifies the connection to the X server. | ||
17297 | |||
17298 | focus | ||
17299 | |||
17300 | Specifies the window, PointerRoot, or None. | ||
17301 | |||
17302 | revert_to | ||
17303 | |||
17304 | Specifies where the input focus reverts to if the window | ||
17305 | becomes not viewable. You can pass RevertToParent, | ||
17306 | RevertToPointerRoot, or RevertToNone. | ||
17307 | |||
17308 | time | ||
17309 | |||
17310 | Specifies the time. You can pass either a timestamp or | ||
17311 | CurrentTime. | ||
17312 | |||
17313 | The XSetInputFocus function changes the input focus and the | ||
17314 | last-focus-change time. It has no effect if the specified time | ||
17315 | is earlier than the current last-focus-change time or is later | ||
17316 | than the current X server time. Otherwise, the | ||
17317 | last-focus-change time is set to the specified time | ||
17318 | (CurrentTime is replaced by the current X server time). | ||
17319 | XSetInputFocus causes the X server to generate FocusIn and | ||
17320 | FocusOut events. | ||
17321 | |||
17322 | Depending on the focus argument, the following occurs: | ||
17323 | * If focus is None, all keyboard events are discarded until a | ||
17324 | new focus window is set, and the revert_to argument is | ||
17325 | ignored. | ||
17326 | * If focus is a window, it becomes the keyboard's focus | ||
17327 | window. If a generated keyboard event would normally be | ||
17328 | reported to this window or one of its inferiors, the event | ||
17329 | is reported as usual. Otherwise, the event is reported | ||
17330 | relative to the focus window. | ||
17331 | * If focus is PointerRoot, the focus window is dynamically | ||
17332 | taken to be the root window of whatever screen the pointer | ||
17333 | is on at each keyboard event. In this case, the revert_to | ||
17334 | argument is ignored. | ||
17335 | |||
17336 | The specified focus window must be viewable at the time | ||
17337 | XSetInputFocus is called, or a BadMatch error results. If the | ||
17338 | focus window later becomes not viewable, the X server evaluates | ||
17339 | the revert_to argument to determine the new focus window as | ||
17340 | follows: | ||
17341 | * If revert_to is RevertToParent, the focus reverts to the | ||
17342 | parent (or the closest viewable ancestor), and the new | ||
17343 | revert_to value is taken to be RevertToNone. | ||
17344 | * If revert_to is RevertToPointerRoot or RevertToNone, the | ||
17345 | focus reverts to PointerRoot or None, respectively. When | ||
17346 | the focus reverts, the X server generates FocusIn and | ||
17347 | FocusOut events, but the last-focus-change time is not | ||
17348 | affected. | ||
17349 | |||
17350 | XSetInputFocus can generate BadMatch, BadValue, and BadWindow | ||
17351 | errors. | ||
17352 | |||
17353 | To obtain the current input focus, use XGetInputFocus. | ||
17354 | |||
17355 | XGetInputFocus(Display *display, Window *focus_return, int | ||
17356 | *revert_to_return); | ||
17357 | |||
17358 | display | ||
17359 | |||
17360 | Specifies the connection to the X server. | ||
17361 | |||
17362 | focus_return | ||
17363 | |||
17364 | Returns the focus window, PointerRoot, or None. | ||
17365 | |||
17366 | revert_to_return | ||
17367 | |||
17368 | Returns the current focus state (RevertToParent, | ||
17369 | RevertToPointerRoot, or RevertToNone). | ||
17370 | |||
17371 | The XGetInputFocus function returns the focus window and the | ||
17372 | current focus state. | ||
17373 | |||
17374 | Manipulating the Keyboard and Pointer Settings | ||
17375 | |||
17376 | Xlib provides functions that you can use to change the keyboard | ||
17377 | control, obtain a list of the auto-repeat keys, turn keyboard | ||
17378 | auto-repeat on or off, ring the bell, set or obtain the pointer | ||
17379 | button or keyboard mapping, and obtain a bit vector for the | ||
17380 | keyboard. | ||
17381 | |||
17382 | This section discusses the user-preference options of bell, key | ||
17383 | click, pointer behavior, and so on. The default values for many | ||
17384 | of these options are server dependent. Not all implementations | ||
17385 | will actually be able to control all of these parameters. | ||
17386 | |||
17387 | The XChangeKeyboardControl function changes control of a | ||
17388 | keyboard and operates on a XKeyboardControl structure: | ||
17389 | /* Mask bits for ChangeKeyboardControl */ | ||
17390 | |||
17391 | |||
17392 | #define KBBellPercent (1L<<0) | ||
17393 | #define KBBellPitch (1L<<1) | ||
17394 | #define KBBellDuration (1L<<2) | ||
17395 | #define KBLed (1L<<3) | ||
17396 | #define KBLedMode (1L<<4) | ||
17397 | #define KBKey (1L<<5) | ||
17398 | #define KBAutoRepeatMode (1L<<6) | ||
17399 | |||
17400 | |||
17401 | /* Values */ | ||
17402 | |||
17403 | typedef struct { | ||
17404 | int key_click_percent; | ||
17405 | int bell_percent; | ||
17406 | int bell_pitch; | ||
17407 | int bell_duration; | ||
17408 | int led; | ||
17409 | int led_mode; /* LedModeOn, LedModeOff */ | ||
17410 | int key; | ||
17411 | int auto_repeat_mode; /* AutoRepeatModeOff, AutoRepeatModeOn, | ||
17412 | AutoRepeatModeDefault */ | ||
17413 | } XKeyboardControl; | ||
17414 | |||
17415 | |||
17416 | The key_click_percent member sets the volume for key clicks | ||
17417 | between 0 (off) and 100 (loud) inclusive, if possible. A | ||
17418 | setting of -1 restores the default. Other negative values | ||
17419 | generate a BadValue error. | ||
17420 | |||
17421 | The bell_percent sets the base volume for the bell between 0 | ||
17422 | (off) and 100 (loud) inclusive, if possible. A setting of -1 | ||
17423 | restores the default. Other negative values generate a BadValue | ||
17424 | error. The bell_pitch member sets the pitch (specified in Hz) | ||
17425 | of the bell, if possible. A setting of -1 restores the default. | ||
17426 | Other negative values generate a BadValue error. The | ||
17427 | bell_duration member sets the duration of the bell specified in | ||
17428 | milliseconds, if possible. A setting of -1 restores the | ||
17429 | default. Other negative values generate a BadValue error. | ||
17430 | |||
17431 | If both the led_mode and led members are specified, the state | ||
17432 | of that LED is changed, if possible. The led_mode member can be | ||
17433 | set to LedModeOn or LedModeOff. If only led_mode is specified, | ||
17434 | the state of all LEDs are changed, if possible. At most 32 LEDs | ||
17435 | numbered from one are supported. No standard interpretation of | ||
17436 | LEDs is defined. If led is specified without led_mode, a | ||
17437 | BadMatch error results. | ||
17438 | |||
17439 | If both the auto_repeat_mode and key members are specified, the | ||
17440 | auto_repeat_mode of that key is changed (according to | ||
17441 | AutoRepeatModeOn, AutoRepeatModeOff, or AutoRepeatModeDefault), | ||
17442 | if possible. If only auto_repeat_mode is specified, the global | ||
17443 | auto_repeat_mode for the entire keyboard is changed, if | ||
17444 | possible, and does not affect the per-key settings. If a key is | ||
17445 | specified without an auto_repeat_mode, a BadMatch error | ||
17446 | results. Each key has an individual mode of whether or not it | ||
17447 | should auto-repeat and a default setting for the mode. In | ||
17448 | addition, there is a global mode of whether auto-repeat should | ||
17449 | be enabled or not and a default setting for that mode. When | ||
17450 | global mode is AutoRepeatModeOn, keys should obey their | ||
17451 | individual auto-repeat modes. When global mode is | ||
17452 | AutoRepeatModeOff, no keys should auto-repeat. An | ||
17453 | auto-repeating key generates alternating KeyPress and | ||
17454 | KeyRelease events. When a key is used as a modifier, it is | ||
17455 | desirable for the key not to auto-repeat, regardless of its | ||
17456 | auto-repeat setting. | ||
17457 | |||
17458 | A bell generator connected with the console but not directly on | ||
17459 | a keyboard is treated as if it were part of the keyboard. The | ||
17460 | order in which controls are verified and altered is | ||
17461 | server-dependent. If an error is generated, a subset of the | ||
17462 | controls may have been altered. | ||
17463 | |||
17464 | XChangeKeyboardControl(Display *display, unsigned long | ||
17465 | value_mask, XKeyboardControl *values); | ||
17466 | |||
17467 | display | ||
17468 | |||
17469 | Specifies the connection to the X server. | ||
17470 | |||
17471 | value_mask | ||
17472 | |||
17473 | Specifies which controls to change. This mask is the bitwise | ||
17474 | inclusive OR of the valid control mask bits. | ||
17475 | |||
17476 | values | ||
17477 | |||
17478 | Specifies one value for each bit set to 1 in the mask. | ||
17479 | |||
17480 | The XChangeKeyboardControl function controls the keyboard | ||
17481 | characteristics defined by the XKeyboardControl structure. The | ||
17482 | value_mask argument specifies which values are to be changed. | ||
17483 | |||
17484 | XChangeKeyboardControl can generate BadMatch and BadValue | ||
17485 | errors. | ||
17486 | |||
17487 | To obtain the current control values for the keyboard, use | ||
17488 | XGetKeyboardControl. | ||
17489 | |||
17490 | XGetKeyboardControl(Display *display, XKeyboardState | ||
17491 | *values_return); | ||
17492 | |||
17493 | display | ||
17494 | |||
17495 | Specifies the connection to the X server. | ||
17496 | |||
17497 | values_return | ||
17498 | |||
17499 | Returns the current keyboard controls in the specified | ||
17500 | XKeyboardState structure. | ||
17501 | |||
17502 | The XGetKeyboardControl function returns the current control | ||
17503 | values for the keyboard to the XKeyboardState structure. | ||
17504 | |||
17505 | |||
17506 | |||
17507 | typedef struct { | ||
17508 | int key_click_percent; | ||
17509 | int bell_percent; | ||
17510 | unsigned int bell_pitch, bell_duration; | ||
17511 | unsigned long led_mask; | ||
17512 | int global_auto_repeat; | ||
17513 | char auto_repeats[32]; | ||
17514 | } XKeyboardState; | ||
17515 | |||
17516 | For the LEDs, the least significant bit of led_mask corresponds | ||
17517 | to LED one, and each bit set to 1 in led_mask indicates an LED | ||
17518 | that is lit. The global_auto_repeat member can be set to | ||
17519 | AutoRepeatModeOn or AutoRepeatModeOff. The auto_repeats member | ||
17520 | is a bit vector. Each bit set to 1 indicates that auto-repeat | ||
17521 | is enabled for the corresponding key. The vector is represented | ||
17522 | as 32 bytes. Byte N (from 0) contains the bits for keys 8N to | ||
17523 | 8N + 7 with the least significant bit in the byte representing | ||
17524 | key 8N. | ||
17525 | |||
17526 | To turn on keyboard auto-repeat, use XAutoRepeatOn. | ||
17527 | |||
17528 | XAutoRepeatOn(Display *display); | ||
17529 | |||
17530 | display | ||
17531 | |||
17532 | Specifies the connection to the X server. | ||
17533 | |||
17534 | The XAutoRepeatOn function turns on auto-repeat for the | ||
17535 | keyboard on the specified display. | ||
17536 | |||
17537 | To turn off keyboard auto-repeat, use XAutoRepeatOff. | ||
17538 | |||
17539 | XAutoRepeatOff(Display *display); | ||
17540 | |||
17541 | display | ||
17542 | |||
17543 | Specifies the connection to the X server. | ||
17544 | |||
17545 | The XAutoRepeatOff function turns off auto-repeat for the | ||
17546 | keyboard on the specified display. | ||
17547 | |||
17548 | To ring the bell, use XBell. | ||
17549 | |||
17550 | XBell(Display *display, int percent); | ||
17551 | |||
17552 | display | ||
17553 | |||
17554 | Specifies the connection to the X server. | ||
17555 | |||
17556 | percent | ||
17557 | |||
17558 | Specifies the volume for the bell, which can range from -100 to | ||
17559 | 100 inclusive. | ||
17560 | |||
17561 | The XBell function rings the bell on the keyboard on the | ||
17562 | specified display, if possible. The specified volume is | ||
17563 | relative to the base volume for the keyboard. If the value for | ||
17564 | the percent argument is not in the range -100 to 100 inclusive, | ||
17565 | a BadValue error results. The volume at which the bell rings | ||
17566 | when the percent argument is nonnegative is: | ||
17567 | * base - [(base * percent) / 100] + percent | ||
17568 | |||
17569 | The volume at which the bell rings when the percent argument is | ||
17570 | negative is: | ||
17571 | * base + [(base * percent) / 100] | ||
17572 | |||
17573 | To change the base volume of the bell, use | ||
17574 | XChangeKeyboardControl. | ||
17575 | |||
17576 | XBell can generate a BadValue error. | ||
17577 | |||
17578 | To obtain a bit vector that describes the state of the | ||
17579 | keyboard, use XQueryKeymap. | ||
17580 | |||
17581 | XQueryKeymap(Display *display, char keys_return[32]); | ||
17582 | |||
17583 | display | ||
17584 | |||
17585 | Specifies the connection to the X server. | ||
17586 | |||
17587 | keys_return | ||
17588 | |||
17589 | Returns an array of bytes that identifies which keys are | ||
17590 | pressed down. Each bit represents one key of the keyboard. | ||
17591 | |||
17592 | The XQueryKeymap function returns a bit vector for the logical | ||
17593 | state of the keyboard, where each bit set to 1 indicates that | ||
17594 | the corresponding key is currently pressed down. The vector is | ||
17595 | represented as 32 bytes. Byte N (from 0) contains the bits for | ||
17596 | keys 8N to 8N + 7 with the least significant bit in the byte | ||
17597 | representing key 8N. | ||
17598 | |||
17599 | Note that the logical state of a device (as seen by client | ||
17600 | applications) may lag the physical state if device event | ||
17601 | processing is frozen. | ||
17602 | |||
17603 | To set the mapping of the pointer buttons, use | ||
17604 | XSetPointerMapping. | ||
17605 | |||
17606 | int XSetPointerMapping(Display *display, unsignedchar map[], | ||
17607 | int nmap); | ||
17608 | |||
17609 | display | ||
17610 | |||
17611 | Specifies the connection to the X server. | ||
17612 | |||
17613 | map | ||
17614 | |||
17615 | Specifies the mapping list. | ||
17616 | |||
17617 | nmap | ||
17618 | |||
17619 | Specifies the number of items in the mapping list. | ||
17620 | |||
17621 | The XSetPointerMapping function sets the mapping of the | ||
17622 | pointer. If it succeeds, the X server generates a MappingNotify | ||
17623 | event, and XSetPointerMapping returns MappingSuccess. Element | ||
17624 | map[i] defines the logical button number for the physical | ||
17625 | button i+1. The length of the list must be the same as | ||
17626 | XGetPointerMapping would return, or a BadValue error results. A | ||
17627 | zero element disables a button, and elements are not restricted | ||
17628 | in value by the number of physical buttons. However, no two | ||
17629 | elements can have the same nonzero value, or a BadValue error | ||
17630 | results. If any of the buttons to be altered are logically in | ||
17631 | the down state, XSetPointerMapping returns MappingBusy, and the | ||
17632 | mapping is not changed. | ||
17633 | |||
17634 | XSetPointerMapping can generate a BadValue error. | ||
17635 | |||
17636 | To get the pointer mapping, use XGetPointerMapping. | ||
17637 | |||
17638 | int XGetPointerMapping(Display *display, unsignedchar | ||
17639 | map_return[], int nmap); | ||
17640 | |||
17641 | display | ||
17642 | |||
17643 | Specifies the connection to the X server. | ||
17644 | |||
17645 | map_return | ||
17646 | |||
17647 | Returns the mapping list. | ||
17648 | |||
17649 | nmap | ||
17650 | |||
17651 | Specifies the number of items in the mapping list. | ||
17652 | |||
17653 | The XGetPointerMapping function returns the current mapping of | ||
17654 | the pointer. Pointer buttons are numbered starting from one. | ||
17655 | XGetPointerMapping returns the number of physical buttons | ||
17656 | actually on the pointer. The nominal mapping for a pointer is | ||
17657 | map[i]=i+1. The nmap argument specifies the length of the array | ||
17658 | where the pointer mapping is returned, and only the first nmap | ||
17659 | elements are returned in map_return. | ||
17660 | |||
17661 | To control the pointer's interactive feel, use | ||
17662 | XChangePointerControl. | ||
17663 | |||
17664 | XChangePointerControl(Display *display, Bool do_accel, Bool | ||
17665 | do_threshold, int accel_numerator, int accel_denominator, int | ||
17666 | threshold); | ||
17667 | |||
17668 | display | ||
17669 | |||
17670 | Specifies the connection to the X server. | ||
17671 | |||
17672 | do_accel | ||
17673 | |||
17674 | Specifies a Boolean value that controls whether the values for | ||
17675 | the accel_numerator or accel_denominator are used. | ||
17676 | |||
17677 | do_threshold | ||
17678 | |||
17679 | Specifies a Boolean value that controls whether the value for | ||
17680 | the threshold is used. | ||
17681 | |||
17682 | accel_numerator | ||
17683 | |||
17684 | Specifies the numerator for the acceleration multiplier. | ||
17685 | |||
17686 | accel_denominator | ||
17687 | |||
17688 | Specifies the denominator for the acceleration multiplier. | ||
17689 | |||
17690 | threshold | ||
17691 | |||
17692 | Specifies the acceleration threshold. | ||
17693 | |||
17694 | The XChangePointerControl function defines how the pointing | ||
17695 | device moves. The acceleration, expressed as a fraction, is a | ||
17696 | multiplier for movement. For example, specifying 3/1 means the | ||
17697 | pointer moves three times as fast as normal. The fraction may | ||
17698 | be rounded arbitrarily by the X server. Acceleration only takes | ||
17699 | effect if the pointer moves more than threshold pixels at once | ||
17700 | and only applies to the amount beyond the value in the | ||
17701 | threshold argument. Setting a value to -1 restores the default. | ||
17702 | The values of the do_accel and do_threshold arguments must be | ||
17703 | True for the pointer values to be set, or the parameters are | ||
17704 | unchanged. Negative values (other than -1) generate a BadValue | ||
17705 | error, as does a zero value for the accel_denominator argument. | ||
17706 | |||
17707 | XChangePointerControl can generate a BadValue error. | ||
17708 | |||
17709 | To get the current pointer parameters, use XGetPointerControl. | ||
17710 | |||
17711 | XGetPointerControl(Display *display, int | ||
17712 | *accel_numerator_return, int *accel_denominator_return, int | ||
17713 | *threshold_return); | ||
17714 | |||
17715 | display | ||
17716 | |||
17717 | Specifies the connection to the X server. | ||
17718 | |||
17719 | accel_numerator_return | ||
17720 | |||
17721 | Returns the numerator for the acceleration multiplier. | ||
17722 | |||
17723 | accel_denominator_return | ||
17724 | |||
17725 | Returns the denominator for the acceleration multiplier. | ||
17726 | |||
17727 | threshold_return | ||
17728 | |||
17729 | Returns the acceleration threshold. | ||
17730 | |||
17731 | The XGetPointerControl function returns the pointer's current | ||
17732 | acceleration multiplier and acceleration threshold. | ||
17733 | |||
17734 | Manipulating the Keyboard Encoding | ||
17735 | |||
17736 | A KeyCode represents a physical (or logical) key. KeyCodes lie | ||
17737 | in the inclusive range [8,255]. A KeyCode value carries no | ||
17738 | intrinsic information, although server implementors may attempt | ||
17739 | to encode geometry (for example, matrix) information in some | ||
17740 | fashion so that it can be interpreted in a server-dependent | ||
17741 | fashion. The mapping between keys and KeyCodes cannot be | ||
17742 | changed. | ||
17743 | |||
17744 | A KeySym is an encoding of a symbol on the cap of a key. The | ||
17745 | set of defined KeySyms includes the ISO Latin character sets | ||
17746 | (1-4), Katakana, Arabic, Cyrillic, Greek, Technical, Special, | ||
17747 | Publishing, APL, Hebrew, Thai, Korean and a miscellany of keys | ||
17748 | found on keyboards (Return, Help, Tab, and so on). To the | ||
17749 | extent possible, these sets are derived from international | ||
17750 | standards. In areas where no standards exist, some of these | ||
17751 | sets are derived from Digital Equipment Corporation standards. | ||
17752 | The list of defined symbols can be found in <X11/keysymdef.h>. | ||
17753 | Unfortunately, some C preprocessors have limits on the number | ||
17754 | of defined symbols. If you must use KeySyms not in the Latin | ||
17755 | 1-4, Greek, and miscellaneous classes, you may have to define a | ||
17756 | symbol for those sets. Most applications usually only include | ||
17757 | <X11/keysym.h>, which defines symbols for ISO Latin 1-4, Greek, | ||
17758 | and miscellaneous. | ||
17759 | |||
17760 | A list of KeySyms is associated with each KeyCode. The list is | ||
17761 | intended to convey the set of symbols on the corresponding key. | ||
17762 | If the list (ignoring trailing NoSymbol entries) is a single | ||
17763 | KeySym ``K'', then the list is treated as if it were the list | ||
17764 | ``K NoSymbol K NoSymbol''. If the list (ignoring trailing | ||
17765 | NoSymbol entries) is a pair of KeySyms ``K1 K2'', then the list | ||
17766 | is treated as if it were the list ``K1 K2 K1 K2''. If the list | ||
17767 | (ignoring trailing NoSymbol entries) is a triple of KeySyms | ||
17768 | ``K1 K2 K3'', then the list is treated as if it were the list | ||
17769 | ``K1 K2 K3 NoSymbol''. When an explicit ``void'' element is | ||
17770 | desired in the list, the value VoidSymbol can be used. | ||
17771 | |||
17772 | The first four elements of the list are split into two groups | ||
17773 | of KeySyms. Group 1 contains the first and second KeySyms; | ||
17774 | Group 2 contains the third and fourth KeySyms. Within each | ||
17775 | group, if the second element of the group is NoSymbol, then the | ||
17776 | group should be treated as if the second element were the same | ||
17777 | as the first element, except when the first element is an | ||
17778 | alphabetic KeySym ``K'' for which both lowercase and uppercase | ||
17779 | forms are defined. In that case, the group should be treated as | ||
17780 | if the first element were the lowercase form of ``K'' and the | ||
17781 | second element were the uppercase form of ``K''. | ||
17782 | |||
17783 | The standard rules for obtaining a KeySym from a KeyPress event | ||
17784 | make use of only the Group 1 and Group 2 KeySyms; no | ||
17785 | interpretation of other KeySyms in the list is given. Which | ||
17786 | group to use is determined by the modifier state. Switching | ||
17787 | between groups is controlled by the KeySym named MODE SWITCH, | ||
17788 | by attaching that KeySym to some KeyCode and attaching that | ||
17789 | KeyCode to any one of the modifiers Mod1 through Mod5. This | ||
17790 | modifier is called the group modifier. For any KeyCode, Group 1 | ||
17791 | is used when the group modifier is off, and Group 2 is used | ||
17792 | when the group modifier is on. | ||
17793 | |||
17794 | The Lock modifier is interpreted as CapsLock when the KeySym | ||
17795 | named XK_Caps_Lock is attached to some KeyCode and that KeyCode | ||
17796 | is attached to the Lock modifier. The Lock modifier is | ||
17797 | interpreted as ShiftLock when the KeySym named XK_Shift_Lock is | ||
17798 | attached to some KeyCode and that KeyCode is attached to the | ||
17799 | Lock modifier. If the Lock modifier could be interpreted as | ||
17800 | both CapsLock and ShiftLock, the CapsLock interpretation is | ||
17801 | used. | ||
17802 | |||
17803 | The operation of keypad keys is controlled by the KeySym named | ||
17804 | XK_Num_Lock, by attaching that KeySym to some KeyCode and | ||
17805 | attaching that KeyCode to any one of the modifiers Mod1 through | ||
17806 | Mod5. This modifier is called the numlock modifier. The | ||
17807 | standard KeySyms with the prefix ``XK_KP_'' in their name are | ||
17808 | called keypad KeySyms; these are KeySyms with numeric value in | ||
17809 | the hexadecimal range 0xFF80 to 0xFFBD inclusive. In addition, | ||
17810 | vendor-specific KeySyms in the hexadecimal range 0x11000000 to | ||
17811 | 0x1100FFFF are also keypad KeySyms. | ||
17812 | |||
17813 | Within a group, the choice of KeySym is determined by applying | ||
17814 | the first rule that is satisfied from the following list: | ||
17815 | * The numlock modifier is on and the second KeySym is a | ||
17816 | keypad KeySym. In this case, if the Shift modifier is on, | ||
17817 | or if the Lock modifier is on and is interpreted as | ||
17818 | ShiftLock, then the first KeySym is used, otherwise the | ||
17819 | second KeySym is used. | ||
17820 | * The Shift and Lock modifiers are both off. In this case, | ||
17821 | the first KeySym is used. | ||
17822 | * The Shift modifier is off, and the Lock modifier is on and | ||
17823 | is interpreted as CapsLock. In this case, the first KeySym | ||
17824 | is used, but if that KeySym is lowercase alphabetic, then | ||
17825 | the corresponding uppercase KeySym is used instead. | ||
17826 | * The Shift modifier is on, and the Lock modifier is on and | ||
17827 | is interpreted as CapsLock. In this case, the second KeySym | ||
17828 | is used, but if that KeySym is lowercase alphabetic, then | ||
17829 | the corresponding uppercase KeySym is used instead. | ||
17830 | * The Shift modifier is on, or the Lock modifier is on and is | ||
17831 | interpreted as ShiftLock, or both. In this case, the second | ||
17832 | KeySym is used. | ||
17833 | |||
17834 | No spatial geometry of the symbols on the key is defined by | ||
17835 | their order in the KeySym list, although a geometry might be | ||
17836 | defined on a server-specific basis. The X server does not use | ||
17837 | the mapping between KeyCodes and KeySyms. Rather, it merely | ||
17838 | stores it for reading and writing by clients. | ||
17839 | |||
17840 | To obtain the legal KeyCodes for a display, use | ||
17841 | XDisplayKeycodes. | ||
17842 | |||
17843 | XDisplayKeycodes(Display *display, int *min_keycodes_return, | ||
17844 | int *max_keycodes_return); | ||
17845 | |||
17846 | display | ||
17847 | |||
17848 | Specifies the connection to the X server. | ||
17849 | |||
17850 | min_keycodes_return | ||
17851 | |||
17852 | Returns the minimum number of KeyCodes. | ||
17853 | |||
17854 | max_keycodes_return | ||
17855 | |||
17856 | Returns the maximum number of KeyCodes. | ||
17857 | |||
17858 | The XDisplayKeycodes function returns the min-keycodes and | ||
17859 | max-keycodes supported by the specified display. The minimum | ||
17860 | number of KeyCodes returned is never less than 8, and the | ||
17861 | maximum number of KeyCodes returned is never greater than 255. | ||
17862 | Not all KeyCodes in this range are required to have | ||
17863 | corresponding keys. | ||
17864 | |||
17865 | To obtain the symbols for the specified KeyCodes, use | ||
17866 | XGetKeyboardMapping. | ||
17867 | |||
17868 | KeySym *XGetKeyboardMapping(Display *display, KeyCode | ||
17869 | first_keycode, int keycode_count, int | ||
17870 | *keysyms_per_keycode_return); | ||
17871 | |||
17872 | display | ||
17873 | |||
17874 | Specifies the connection to the X server. | ||
17875 | |||
17876 | first_keycode | ||
17877 | |||
17878 | Specifies the first KeyCode that is to be returned. | ||
17879 | |||
17880 | keycode_count | ||
17881 | |||
17882 | Specifies the number of KeyCodes that are to be returned. | ||
17883 | |||
17884 | keysyms_per_keycode_return | ||
17885 | |||
17886 | Returns the number of KeySyms per KeyCode. | ||
17887 | |||
17888 | The XGetKeyboardMapping function returns the symbols for the | ||
17889 | specified number of KeyCodes starting with first_keycode. The | ||
17890 | value specified in first_keycode must be greater than or equal | ||
17891 | to min_keycode as returned by XDisplayKeycodes, or a BadValue | ||
17892 | error results. In addition, the following expression must be | ||
17893 | less than or equal to max_keycode as returned by | ||
17894 | XDisplayKeycodes: | ||
17895 | |||
17896 | first_keycode + keycode_count - 1 | ||
17897 | |||
17898 | If this is not the case, a BadValue error results. The number | ||
17899 | of elements in the KeySyms list is: | ||
17900 | |||
17901 | keycode_count * keysyms_per_keycode_return | ||
17902 | |||
17903 | KeySym number N, counting from zero, for KeyCode K has the | ||
17904 | following index in the list, counting from zero: | ||
17905 | (K - first_code) * keysyms_per_code_return + N | ||
17906 | |||
17907 | The X server arbitrarily chooses the keysyms_per_keycode_return | ||
17908 | value to be large enough to report all requested symbols. A | ||
17909 | special KeySym value of NoSymbol is used to fill in unused | ||
17910 | elements for individual KeyCodes. To free the storage returned | ||
17911 | by XGetKeyboardMapping, use XFree. | ||
17912 | |||
17913 | XGetKeyboardMapping can generate a BadValue error. | ||
17914 | |||
17915 | To change the keyboard mapping, use XChangeKeyboardMapping. | ||
17916 | |||
17917 | XChangeKeyboardMapping(Display *display, int first_keycode, int | ||
17918 | keysyms_per_keycode, KeySym *keysyms, int num_codes); | ||
17919 | |||
17920 | display | ||
17921 | |||
17922 | Specifies the connection to the X server. | ||
17923 | |||
17924 | first_keycode | ||
17925 | |||
17926 | Specifies the first KeyCode that is to be changed. | ||
17927 | |||
17928 | keysyms_per_keycode | ||
17929 | |||
17930 | Specifies the number of KeySyms per KeyCode. | ||
17931 | |||
17932 | keysyms | ||
17933 | |||
17934 | Specifies an array of KeySyms. | ||
17935 | |||
17936 | num_codes | ||
17937 | |||
17938 | Specifies the number of KeyCodes that are to be changed. | ||
17939 | |||
17940 | The XChangeKeyboardMapping function defines the symbols for the | ||
17941 | specified number of KeyCodes starting with first_keycode. The | ||
17942 | symbols for KeyCodes outside this range remain unchanged. The | ||
17943 | number of elements in keysyms must be: | ||
17944 | |||
17945 | num_codes * keysyms_per_keycode | ||
17946 | |||
17947 | The specified first_keycode must be greater than or equal to | ||
17948 | min_keycode returned by XDisplayKeycodes, or a BadValue error | ||
17949 | results. In addition, the following expression must be less | ||
17950 | than or equal to max_keycode as returned by XDisplayKeycodes, | ||
17951 | or a BadValue error results: | ||
17952 | |||
17953 | first_keycode + num_codes - 1 | ||
17954 | |||
17955 | KeySym number N, counting from zero, for KeyCode K has the | ||
17956 | following index in keysyms, counting from zero: | ||
17957 | |||
17958 | (K - first_keycode) * keysyms_per_keycode + N | ||
17959 | |||
17960 | The specified keysyms_per_keycode can be chosen arbitrarily by | ||
17961 | the client to be large enough to hold all desired symbols. A | ||
17962 | special KeySym value of NoSymbol should be used to fill in | ||
17963 | unused elements for individual KeyCodes. It is legal for | ||
17964 | NoSymbol to appear in nontrailing positions of the effective | ||
17965 | list for a KeyCode. XChangeKeyboardMapping generates a | ||
17966 | MappingNotify event. | ||
17967 | |||
17968 | There is no requirement that the X server interpret this | ||
17969 | mapping. It is merely stored for reading and writing by | ||
17970 | clients. | ||
17971 | |||
17972 | XChangeKeyboardMapping can generate BadAlloc and BadValue | ||
17973 | errors. | ||
17974 | |||
17975 | The next six functions make use of the XModifierKeymap data | ||
17976 | structure, which contains: | ||
17977 | |||
17978 | |||
17979 | |||
17980 | typedef struct { | ||
17981 | int max_keypermod; /* This server's max number of keys per | ||
17982 | modifier */ | ||
17983 | KeyCode *modifiermap; /* An 8 by max_keypermod array of the mo | ||
17984 | difiers */ | ||
17985 | } XModifierKeymap; | ||
17986 | |||
17987 | To create an XModifierKeymap structure, use XNewModifiermap. | ||
17988 | |||
17989 | XModifierKeymap *XNewModifiermap(int max_keys_per_mod); | ||
17990 | |||
17991 | max_keys_per_mod | ||
17992 | |||
17993 | Specifies the number of KeyCode entries preallocated to the | ||
17994 | modifiers in the map. | ||
17995 | |||
17996 | The XNewModifiermap function returns a pointer to | ||
17997 | XModifierKeymap structure for later use. | ||
17998 | |||
17999 | To add a new entry to an XModifierKeymap structure, use | ||
18000 | XInsertModifiermapEntry. | ||
18001 | |||
18002 | XModifierKeymap *XInsertModifiermapEntry(XModifierKeymap | ||
18003 | *modmap, KeyCode keycode_entry, int modifier); | ||
18004 | |||
18005 | modmap | ||
18006 | |||
18007 | Specifies the XModifierKeymap structure. | ||
18008 | |||
18009 | keycode_entry | ||
18010 | |||
18011 | Specifies the KeyCode. | ||
18012 | |||
18013 | modifier | ||
18014 | |||
18015 | Specifies the modifier. | ||
18016 | |||
18017 | The XInsertModifiermapEntry function adds the specified KeyCode | ||
18018 | to the set that controls the specified modifier and returns the | ||
18019 | resulting XModifierKeymap structure (expanded as needed). | ||
18020 | |||
18021 | To delete an entry from an XModifierKeymap structure, use | ||
18022 | XDeleteModifiermapEntry. | ||
18023 | |||
18024 | XModifierKeymap *XDeleteModifiermapEntry(XModifierKeymap | ||
18025 | *modmap, KeyCode keycode_entry, int modifier); | ||
18026 | |||
18027 | modmap | ||
18028 | |||
18029 | Specifies the XModifierKeymap structure. | ||
18030 | |||
18031 | keycode_entry | ||
18032 | |||
18033 | Specifies the KeyCode. | ||
18034 | |||
18035 | modifier | ||
18036 | |||
18037 | Specifies the modifier. | ||
18038 | |||
18039 | The XDeleteModifiermapEntry function deletes the specified | ||
18040 | KeyCode from the set that controls the specified modifier and | ||
18041 | returns a pointer to the resulting XModifierKeymap structure. | ||
18042 | |||
18043 | To destroy an XModifierKeymap structure, use XFreeModifiermap. | ||
18044 | |||
18045 | XFreeModifiermap(XModifierKeymap *modmap); | ||
18046 | |||
18047 | modmap | ||
18048 | |||
18049 | Specifies the XModifierKeymap structure. | ||
18050 | |||
18051 | The XFreeModifiermap function frees the specified | ||
18052 | XModifierKeymap structure. | ||
18053 | |||
18054 | To set the KeyCodes to be used as modifiers, use | ||
18055 | XSetModifierMapping. | ||
18056 | |||
18057 | int XSetModifierMapping(Display *display, XModifierKeymap | ||
18058 | *modmap); | ||
18059 | |||
18060 | display | ||
18061 | |||
18062 | Specifies the connection to the X server. | ||
18063 | |||
18064 | modmap | ||
18065 | |||
18066 | Specifies the XModifierKeymap structure. | ||
18067 | |||
18068 | The XSetModifierMapping function specifies the KeyCodes of the | ||
18069 | keys (if any) that are to be used as modifiers. If it succeeds, | ||
18070 | the X server generates a MappingNotify event, and | ||
18071 | XSetModifierMapping returns MappingSuccess. X permits at most 8 | ||
18072 | modifier keys. If more than 8 are specified in the | ||
18073 | XModifierKeymap structure, a BadLength error results. | ||
18074 | |||
18075 | The modifiermap member of the XModifierKeymap structure | ||
18076 | contains 8 sets of max_keypermod KeyCodes, one for each | ||
18077 | modifier in the order Shift, Lock, Control, Mod1, Mod2, Mod3, | ||
18078 | Mod4, and Mod5. Only nonzero KeyCodes have meaning in each set, | ||
18079 | and zero KeyCodes are ignored. In addition, all of the nonzero | ||
18080 | KeyCodes must be in the range specified by min_keycode and | ||
18081 | max_keycode in the Display structure, or a BadValue error | ||
18082 | results. | ||
18083 | |||
18084 | An X server can impose restrictions on how modifiers can be | ||
18085 | changed, for example, if certain keys do not generate up | ||
18086 | transitions in hardware, if auto-repeat cannot be disabled on | ||
18087 | certain keys, or if multiple modifier keys are not supported. | ||
18088 | If some such restriction is violated, the status reply is | ||
18089 | MappingFailed, and none of the modifiers are changed. If the | ||
18090 | new KeyCodes specified for a modifier differ from those | ||
18091 | currently defined and any (current or new) keys for that | ||
18092 | modifier are in the logically down state, XSetModifierMapping | ||
18093 | returns MappingBusy, and none of the modifiers is changed. | ||
18094 | |||
18095 | XSetModifierMapping can generate BadAlloc and BadValue errors. | ||
18096 | |||
18097 | To obtain the KeyCodes used as modifiers, use | ||
18098 | XGetModifierMapping. | ||
18099 | |||
18100 | XModifierKeymap *XGetModifierMapping(Display *display); | ||
18101 | |||
18102 | display | ||
18103 | |||
18104 | Specifies the connection to the X server. | ||
18105 | |||
18106 | The XGetModifierMapping function returns a pointer to a newly | ||
18107 | created XModifierKeymap structure that contains the keys being | ||
18108 | used as modifiers. The structure should be freed after use by | ||
18109 | calling XFreeModifiermap. If only zero values appear in the set | ||
18110 | for any modifier, that modifier is disabled. | ||
18111 | |||
18112 | Chapter 13. Locales and Internationalized Text Functions | ||
18113 | |||
18114 | Table of Contents | ||
18115 | |||
18116 | X Locale Management | ||
18117 | Locale and Modifier Dependencies | ||
18118 | Variable Argument Lists | ||
18119 | Output Methods | ||
18120 | |||
18121 | Output Method Overview | ||
18122 | Output Method Functions | ||
18123 | X Output Method Values | ||
18124 | Output Context Functions | ||
18125 | Output Context Values | ||
18126 | Creating and Freeing a Font Set | ||
18127 | Obtaining Font Set Metrics | ||
18128 | Drawing Text Using Font Sets | ||
18129 | |||
18130 | Input Methods | ||
18131 | |||
18132 | Input Method Overview | ||
18133 | Input Method Management | ||
18134 | Input Method Functions | ||
18135 | Input Method Values | ||
18136 | Input Context Functions | ||
18137 | Input Context Values | ||
18138 | Input Method Callback Semantics | ||
18139 | Event Filtering | ||
18140 | Getting Keyboard Input | ||
18141 | Input Method Conventions | ||
18142 | |||
18143 | String Constants | ||
18144 | |||
18145 | An internationalized application is one that is adaptable to | ||
18146 | the requirements of different native languages, local customs, | ||
18147 | and character string encodings. The process of adapting the | ||
18148 | operation to a particular native language, local custom, or | ||
18149 | string encoding is called localization. A goal of | ||
18150 | internationalization is to permit localization without program | ||
18151 | source modifications or recompilation. | ||
18152 | |||
18153 | As one of the localization mechanisms, Xlib provides an X Input | ||
18154 | Method (XIM) functional interface for internationalized text | ||
18155 | input and an X Output Method (XOM) functional interface for | ||
18156 | internationalized text output. | ||
18157 | |||
18158 | Internationalization in X is based on the concept of a locale. | ||
18159 | A locale defines the localized behavior of a program at run | ||
18160 | time. Locales affect Xlib in its: | ||
18161 | * Encoding and processing of input method text | ||
18162 | * Encoding of resource files and values | ||
18163 | * Encoding and imaging of text strings | ||
18164 | * Encoding and decoding for inter-client text communication | ||
18165 | |||
18166 | o Encoding and decoding for inter-client text communication | ||
18167 | Characters from various languages are represented in a computer | ||
18168 | using an encoding. Different languages have different | ||
18169 | encodings, and there are even different encodings for the same | ||
18170 | characters in the same language. | ||
18171 | |||
18172 | This chapter defines support for localized text imaging and | ||
18173 | text input and describes the locale mechanism that controls all | ||
18174 | locale-dependent Xlib functions. Sets of functions are provided | ||
18175 | for multibyte (char *) text as well as wide character (wchar_t) | ||
18176 | text in the form supported by the host C language environment. | ||
18177 | The multibyte and wide character functions are equivalent | ||
18178 | except for the form of the text argument. | ||
18179 | |||
18180 | The Xlib internationalization functions are not meant to | ||
18181 | provide support for multilingual applications (mixing multiple | ||
18182 | languages within a single piece of text), but they make it | ||
18183 | possible to implement applications that work in limited fashion | ||
18184 | with more than one language in independent contexts. | ||
18185 | |||
18186 | The remainder of this chapter discusses: | ||
18187 | * X locale management | ||
18188 | * Locale and modifier dependencies | ||
18189 | * Variable argument lists | ||
18190 | * Output methods | ||
18191 | * Input methods | ||
18192 | * String constants | ||
18193 | |||
18194 | X Locale Management | ||
18195 | |||
18196 | X supports one or more of the locales defined by the host | ||
18197 | environment. On implementations that conform to the ANSI C | ||
18198 | library, the locale announcement method is setlocale. This | ||
18199 | function configures the locale operation of both the host C | ||
18200 | library and Xlib. The operation of Xlib is governed by the | ||
18201 | LC_CTYPE category; this is called the current locale. An | ||
18202 | implementation is permitted to provide implementation-dependent | ||
18203 | mechanisms for announcing the locale in addition to setlocale. | ||
18204 | |||
18205 | On implementations that do not conform to the ANSI C library, | ||
18206 | the locale announcement method is Xlib | ||
18207 | implementation-dependent. | ||
18208 | |||
18209 | The mechanism by which the semantic operation of Xlib is | ||
18210 | defined for a specific locale is implementation-dependent. | ||
18211 | |||
18212 | X is not required to support all the locales supported by the | ||
18213 | host. To determine if the current locale is supported by X, use | ||
18214 | XSupportsLocale. | ||
18215 | |||
18216 | Bool XSupportsLocale(void); | ||
18217 | |||
18218 | The XSupportsLocale function returns True if Xlib functions are | ||
18219 | capable of operating under the current locale. If it returns | ||
18220 | False, Xlib locale-dependent functions for which the | ||
18221 | XLocaleNotSupported return status is defined will return | ||
18222 | XLocaleNotSupported. Other Xlib locale-dependent routines will | ||
18223 | operate in the ``C'' locale. | ||
18224 | |||
18225 | The client is responsible for selecting its locale and X | ||
18226 | modifiers. Clients should provide a means for the user to | ||
18227 | override the clients' locale selection at client invocation. | ||
18228 | Most single-display X clients operate in a single locale for | ||
18229 | both X and the host processing environment. They will configure | ||
18230 | the locale by calling three functions: the host locale | ||
18231 | configuration function, XSupportsLocale, and | ||
18232 | XSetLocaleModifiers. | ||
18233 | |||
18234 | The semantics of certain categories of X internationalization | ||
18235 | capabilities can be configured by setting modifiers. Modifiers | ||
18236 | are named by implementation-dependent and locale-specific | ||
18237 | strings. The only standard use for this capability at present | ||
18238 | is selecting one of several styles of keyboard input method. | ||
18239 | |||
18240 | To configure Xlib locale modifiers for the current locale, use | ||
18241 | XSetLocaleModifiers. | ||
18242 | |||
18243 | char *XSetLocaleModifiers(char *modifier_list); | ||
18244 | |||
18245 | modifier_list | ||
18246 | |||
18247 | Specifies the modifiers. | ||
18248 | |||
18249 | The XSetLocaleModifiers function sets the X modifiers for the | ||
18250 | current locale setting. The modifier_list argument is a | ||
18251 | null-terminated string of the form ``{@category=value}'', that | ||
18252 | is, having zero or more concatenated ``@category=value'' | ||
18253 | entries, where category is a category name and value is the | ||
18254 | (possibly empty) setting for that category. The values are | ||
18255 | encoded in the current locale. Category names are restricted to | ||
18256 | the POSIX Portable Filename Character Set. | ||
18257 | |||
18258 | The local host X locale modifiers announcer (on POSIX-compliant | ||
18259 | systems, the XMODIFIERS environment variable) is appended to | ||
18260 | the modifier_list to provide default values on the local host. | ||
18261 | If a given category appears more than once in the list, the | ||
18262 | first setting in the list is used. If a given category is not | ||
18263 | included in the full modifier list, the category is set to an | ||
18264 | implementation-dependent default for the current locale. An | ||
18265 | empty value for a category explicitly specifies the | ||
18266 | implementation-dependent default. | ||
18267 | |||
18268 | If the function is successful, it returns a pointer to a | ||
18269 | string. The contents of the string are such that a subsequent | ||
18270 | call with that string (in the same locale) will restore the | ||
18271 | modifiers to the same settings. If modifier_list is a NULL | ||
18272 | pointer, XSetLocaleModifiers also returns a pointer to such a | ||
18273 | string, and the current locale modifiers are not changed. | ||
18274 | |||
18275 | If invalid values are given for one or more modifier categories | ||
18276 | supported by the locale, a NULL pointer is returned, and none | ||
18277 | of the current modifiers are changed. | ||
18278 | |||
18279 | At program startup, the modifiers that are in effect are | ||
18280 | unspecified until the first successful call to set them. | ||
18281 | Whenever the locale is changed, the modifiers that are in | ||
18282 | effect become unspecified until the next successful call to set | ||
18283 | them. Clients should always call XSetLocaleModifiers with a | ||
18284 | non-NULL modifier_list after setting the locale before they | ||
18285 | call any locale-dependent Xlib routine. | ||
18286 | |||
18287 | The only standard modifier category currently defined is | ||
18288 | ``im'', which identifies the desired input method. The values | ||
18289 | for input method are not standardized. A single locale may use | ||
18290 | multiple input methods, switching input method under user | ||
18291 | control. The modifier may specify the initial input method in | ||
18292 | effect or an ordered list of input methods. Multiple input | ||
18293 | methods may be specified in a single im value string in an | ||
18294 | implementation-dependent manner. | ||
18295 | |||
18296 | The returned modifiers string is owned by Xlib and should not | ||
18297 | be modified or freed by the client. It may be freed by Xlib | ||
18298 | after the current locale or modifiers are changed. Until freed, | ||
18299 | it will not be modified by Xlib. | ||
18300 | |||
18301 | The recommended procedure for clients initializing their locale | ||
18302 | and modifiers is to obtain locale and modifier announcers | ||
18303 | separately from one of the following prioritized sources: | ||
18304 | * A command line option | ||
18305 | * A resource | ||
18306 | * The empty string ("") | ||
18307 | |||
18308 | The first of these that is defined should be used. Note that | ||
18309 | when a locale command line option or locale resource is | ||
18310 | defined, the effect should be to set all categories to the | ||
18311 | specified locale, overriding any category-specific settings in | ||
18312 | the local host environment. | ||
18313 | |||
18314 | Locale and Modifier Dependencies | ||
18315 | |||
18316 | The internationalized Xlib functions operate in the current | ||
18317 | locale configured by the host environment and X locale | ||
18318 | modifiers set by XSetLocaleModifiers or in the locale and | ||
18319 | modifiers configured at the time some object supplied to the | ||
18320 | function was created. For each locale-dependent function, the | ||
18321 | following table describes the locale (and modifiers) | ||
18322 | dependency: | ||
18323 | Locale from Affects the Function In | ||
18324 | Locale Query/Configuration: | ||
18325 | setlocale XSupportsLocale Locale queried | ||
18326 | XSetLocaleModifiers Locale modified | ||
18327 | Resources: | ||
18328 | setlocale | ||
18329 | |||
18330 | XrmGetFileDatabase | ||
18331 | |||
18332 | XrmGetStringDatabase | ||
18333 | Locale of XrmDatabase | ||
18334 | XrmDatabase | ||
18335 | |||
18336 | XrmPutFileDatabase | ||
18337 | |||
18338 | XrmLocaleOfDatabase | ||
18339 | Locale of XrmDatabase | ||
18340 | Setting Standard Properties: | ||
18341 | setlocale XmbSetWMProperties Encoding of supplied/returned text | ||
18342 | (some WM_ property text in environment locale) | ||
18343 | setlocale | ||
18344 | |||
18345 | XmbTextPropertyToTextList | ||
18346 | |||
18347 | XwcTextPropertyToTextList | ||
18348 | |||
18349 | XmbTextListToTextProperty | ||
18350 | |||
18351 | XwcTextListToTextProperty | ||
18352 | Encoding of supplied/returned text | ||
18353 | Text Input: | ||
18354 | setlocale XOpenIM XIM input method selection | ||
18355 | XRegisterIMInstantiateCallback XIM selection | ||
18356 | XUnregisterIMInstantiateCallback XIM selection | ||
18357 | XIM XCreateIC XIC input method configuration | ||
18358 | XLocaleOfIM, and so on Queried locale | ||
18359 | XIC XmbLookupString Keyboard layout | ||
18360 | XwcLookupString Encoding of returned text | ||
18361 | Text Drawing: | ||
18362 | setlocale XOpenOM XOM output method selection | ||
18363 | XCreateFontSet Charsets of fonts in XFontSet | ||
18364 | XOM XCreateOC XOC output method configuration | ||
18365 | XLocaleOfOM, and so on Queried locale | ||
18366 | XFontSet XmbDrawText, Locale of supplied text | ||
18367 | XwcDrawText, and so on Locale of supplied text | ||
18368 | |||
18369 | XExtentsOfFontSet, and so on | ||
18370 | |||
18371 | XmbTextExtents, | ||
18372 | |||
18373 | XwcTextExtents, and so on | ||
18374 | Locale-dependent metrics | ||
18375 | Xlib Errors: | ||
18376 | setlocale | ||
18377 | |||
18378 | XGetErrorDatabaseText, | ||
18379 | |||
18380 | XGetErrorText, and so on | ||
18381 | Locale of error message | ||
18382 | |||
18383 | Clients may assume that a locale-encoded text string returned | ||
18384 | by an X function can be passed to a C library routine, or vice | ||
18385 | versa, if the locale is the same at the two calls. | ||
18386 | |||
18387 | All text strings processed by internationalized Xlib functions | ||
18388 | are assumed to begin in the initial state of the encoding of | ||
18389 | the locale, if the encoding is state-dependent. | ||
18390 | |||
18391 | All Xlib functions behave as if they do not change the current | ||
18392 | locale or X modifier setting. (This means that if they do | ||
18393 | change locale or call XSetLocaleModifiers with a non-NULL | ||
18394 | argument, they must save and restore the current state on entry | ||
18395 | and exit.) Also, Xlib functions on implementations that conform | ||
18396 | to the ANSI C library do not alter the global state associated | ||
18397 | with the ANSI C functions mblen, mbtowc, wctomb, and strtok. | ||
18398 | |||
18399 | Variable Argument Lists | ||
18400 | |||
18401 | Various functions in this chapter have arguments that conform | ||
18402 | to the ANSI C variable argument list calling convention. Each | ||
18403 | function denoted with an argument of the form ``...'' takes a | ||
18404 | variable-length list of name and value pairs, where each name | ||
18405 | is a string and each value is of type XPointer. A name argument | ||
18406 | that is NULL identifies the end of the list. | ||
18407 | |||
18408 | A variable-length argument list may contain a nested list. If | ||
18409 | the name XNVaNestedList is specified in place of an argument | ||
18410 | name, then the following value is interpreted as an | ||
18411 | XVaNestedList value that specifies a list of values logically | ||
18412 | inserted into the original list at the point of declaration. A | ||
18413 | NULL identifies the end of a nested list. | ||
18414 | |||
18415 | To allocate a nested variable argument list dynamically, use | ||
18416 | XVaCreateNestedList. | ||
18417 | |||
18418 | XVaNestedList XVaCreateNestedList(int dummy); | ||
18419 | |||
18420 | dummy | ||
18421 | |||
18422 | Specifies an unused argument (required by ANSI C). | ||
18423 | |||
18424 | ... | ||
18425 | |||
18426 | Specifies the variable length argument list(Al. | ||
18427 | |||
18428 | The XVaCreateNestedList function allocates memory and copies | ||
18429 | its arguments into a single list pointer, which may be used as | ||
18430 | a value for arguments requiring a list value. Any entries are | ||
18431 | copied as specified. Data passed by reference is not copied; | ||
18432 | the caller must ensure data remains valid for the lifetime of | ||
18433 | the nested list. The list should be freed using XFree when it | ||
18434 | is no longer needed. | ||
18435 | |||
18436 | Output Methods | ||
18437 | |||
18438 | This section provides discussions of the following X Output | ||
18439 | Method (XOM) topics: | ||
18440 | * Output method overview | ||
18441 | * Output method functions | ||
18442 | * Output method values | ||
18443 | * Output context functions | ||
18444 | * Output context values | ||
18445 | * Creating and freeing a font set | ||
18446 | * Obtaining font set metrics | ||
18447 | * Drawing text using font sets | ||
18448 | |||
18449 | Output Method Overview | ||
18450 | |||
18451 | Locale-dependent text may include one or more text components, | ||
18452 | each of which may require different fonts and character set | ||
18453 | encodings. In some languages, each component might have a | ||
18454 | different drawing direction, and some components might contain | ||
18455 | context-dependent characters that change shape based on | ||
18456 | relationships with neighboring characters. | ||
18457 | |||
18458 | When drawing such locale-dependent text, some locale-specific | ||
18459 | knowledge is required; for example, what fonts are required to | ||
18460 | draw the text, how the text can be separated into components, | ||
18461 | and which fonts are selected to draw each component. Further, | ||
18462 | when bidirectional text must be drawn, the internal | ||
18463 | representation order of the text must be changed into the | ||
18464 | visual representation order to be drawn. | ||
18465 | |||
18466 | An X Output Method provides a functional interface so that | ||
18467 | clients do not have to deal directly with such locale-dependent | ||
18468 | details. Output methods provide the following capabilities: | ||
18469 | * Creating a set of fonts required to draw locale-dependent | ||
18470 | text. | ||
18471 | * Drawing locale-dependent text with a font set without the | ||
18472 | caller needing to be aware of locale dependencies. | ||
18473 | * Obtaining the escapement and extents in pixels of | ||
18474 | locale-dependent text. | ||
18475 | * Determining if bidirectional or context-dependent drawing | ||
18476 | is required in a specific locale with a specific font set. | ||
18477 | |||
18478 | Two different abstractions are used in the representation of | ||
18479 | the output method for clients. | ||
18480 | |||
18481 | The abstraction used to communicate with an output method is an | ||
18482 | opaque data structure represented by the XOM data type. The | ||
18483 | abstraction for representing the state of a particular output | ||
18484 | thread is called an output context. The Xlib representation of | ||
18485 | an output context is an XOC, which is compatible with XFontSet | ||
18486 | in terms of its functional interface, but is a broader, more | ||
18487 | generalized abstraction. | ||
18488 | |||
18489 | Output Method Functions | ||
18490 | |||
18491 | To open an output method, use XOpenOM. | ||
18492 | |||
18493 | XOM XOpenOM(Display *display, XrmDatabase db, char *res_name, | ||
18494 | char *res_class); | ||
18495 | |||
18496 | display | ||
18497 | |||
18498 | Specifies the connection to the X server. | ||
18499 | |||
18500 | db | ||
18501 | |||
18502 | Specifies a pointer to the resource database. | ||
18503 | |||
18504 | res_name | ||
18505 | |||
18506 | Specifies the full resource name of the application. | ||
18507 | |||
18508 | res_class | ||
18509 | |||
18510 | Specifies the full class name of the application. | ||
18511 | |||
18512 | The XOpenOM function opens an output method matching the | ||
18513 | current locale and modifiers specification. The current locale | ||
18514 | and modifiers are bound to the output method when XOpenOM is | ||
18515 | called. The locale associated with an output method cannot be | ||
18516 | changed. | ||
18517 | |||
18518 | The specific output method to which this call will be routed is | ||
18519 | identified on the basis of the current locale and modifiers. | ||
18520 | XOpenOM will identify a default output method corresponding to | ||
18521 | the current locale. That default can be modified using | ||
18522 | XSetLocaleModifiers to set the output method modifier. | ||
18523 | |||
18524 | The db argument is the resource database to be used by the | ||
18525 | output method for looking up resources that are private to the | ||
18526 | output method. It is not intended that this database be used to | ||
18527 | look up values that can be set as OC values in an output | ||
18528 | context. If db is NULL, no database is passed to the output | ||
18529 | method. | ||
18530 | |||
18531 | The res_name and res_class arguments specify the resource name | ||
18532 | and class of the application. They are intended to be used as | ||
18533 | prefixes by the output method when looking up resources that | ||
18534 | are common to all output contexts that may be created for this | ||
18535 | output method. The characters used for resource names and | ||
18536 | classes must be in the X Portable Character Set. The resources | ||
18537 | looked up are not fully specified if res_name or res_class is | ||
18538 | NULL. | ||
18539 | |||
18540 | The res_name and res_class arguments are not assumed to exist | ||
18541 | beyond the call to XOpenOM. The specified resource database is | ||
18542 | assumed to exist for the lifetime of the output method. | ||
18543 | |||
18544 | XOpenOM returns NULL if no output method could be opened. | ||
18545 | |||
18546 | To close an output method, use XCloseOM. | ||
18547 | |||
18548 | Status XCloseOM(XOM om); | ||
18549 | |||
18550 | om | ||
18551 | |||
18552 | Specifies the output method. | ||
18553 | |||
18554 | The XCloseOM function closes the specified output method. | ||
18555 | |||
18556 | To set output method attributes, use XSetOMValues. | ||
18557 | |||
18558 | char *XSetOMValues(XOM om); | ||
18559 | |||
18560 | om | ||
18561 | |||
18562 | Specifies the output method. | ||
18563 | |||
18564 | ... | ||
18565 | |||
18566 | Specifies the variable-length argument list to set XOM values. | ||
18567 | |||
18568 | The XSetOMValues function presents a variable argument list | ||
18569 | programming interface for setting properties or features of the | ||
18570 | specified output method. This function returns NULL if it | ||
18571 | succeeds; otherwise, it returns the name of the first argument | ||
18572 | that could not be obtained. | ||
18573 | |||
18574 | No standard arguments are currently defined by Xlib. | ||
18575 | |||
18576 | To query an output method, use XGetOMValues. | ||
18577 | |||
18578 | char *XGetOMValues(XOM om); | ||
18579 | |||
18580 | om | ||
18581 | |||
18582 | Specifies the output method. | ||
18583 | |||
18584 | ... | ||
18585 | |||
18586 | Specifies the variable-length argument list to get XOM values. | ||
18587 | |||
18588 | The XGetOMValues function presents a variable argument list | ||
18589 | programming interface for querying properties or features of | ||
18590 | the specified output method. This function returns NULL if it | ||
18591 | succeeds; otherwise, it returns the name of the first argument | ||
18592 | that could not be obtained. | ||
18593 | |||
18594 | To obtain the display associated with an output method, use | ||
18595 | XDisplayOfOM. | ||
18596 | |||
18597 | Display *XDisplayOfOM(XOM om); | ||
18598 | |||
18599 | om | ||
18600 | |||
18601 | Specifies the output method. | ||
18602 | |||
18603 | The XDisplayOfOM function returns the display associated with | ||
18604 | the specified output method. | ||
18605 | |||
18606 | To get the locale associated with an output method, use | ||
18607 | XLocaleOfOM. | ||
18608 | |||
18609 | char *XLocaleOfOM(XOM om); | ||
18610 | |||
18611 | om | ||
18612 | |||
18613 | Specifies the output method. | ||
18614 | |||
18615 | The XLocaleOfOM returns the locale associated with the | ||
18616 | specified output method. | ||
18617 | |||
18618 | X Output Method Values | ||
18619 | |||
18620 | The following table describes how XOM values are interpreted by | ||
18621 | an output method. The first column lists the XOM values. The | ||
18622 | second column indicates how each of the XOM values are treated | ||
18623 | by a particular output style. | ||
18624 | |||
18625 | The following key applies to this table. | ||
18626 | Key Explanation | ||
18627 | G This value may be read using XGetOMValues. | ||
18628 | |||
18629 | XOM Value Key | ||
18630 | XNRequiredCharSet G | ||
18631 | XNQueryOrientation G | ||
18632 | XNDirectionalDependentDrawing G | ||
18633 | XNContextualDrawing G | ||
18634 | |||
18635 | Required Char Set | ||
18636 | |||
18637 | The XNRequiredCharSet argument returns the list of charsets | ||
18638 | that are required for loading the fonts needed for the locale. | ||
18639 | The value of the argument is a pointer to a structure of type | ||
18640 | XOMCharSetList. | ||
18641 | |||
18642 | The XOMCharSetList structure is defined as follows: | ||
18643 | |||
18644 | |||
18645 | typedef struct { | ||
18646 | int charset_count; | ||
18647 | char **charset_list; | ||
18648 | } XOMCharSetList; | ||
18649 | |||
18650 | The charset_list member is a list of one or more | ||
18651 | null-terminated charset names, and the charset_count member is | ||
18652 | the number of charset names. | ||
18653 | |||
18654 | The required charset list is owned by Xlib and should not be | ||
18655 | modified or freed by the client. It will be freed by a call to | ||
18656 | XCloseOM with the associated XOM. Until freed, its contents | ||
18657 | will not be modified by Xlib. | ||
18658 | |||
18659 | Query Orientation | ||
18660 | |||
18661 | The XNQueryOrientation argument returns the global orientation | ||
18662 | of text when drawn. Other than XOMOrientation_LTR_TTB, the set | ||
18663 | of orientations supported is locale-dependent. The value of the | ||
18664 | argument is a pointer to a structure of type XOMOrientation. | ||
18665 | Clients are responsible for freeing the XOMOrientation | ||
18666 | structure by using XFree; this also frees the contents of the | ||
18667 | structure. | ||
18668 | |||
18669 | |||
18670 | typedef struct { | ||
18671 | int num_orientation; | ||
18672 | XOrientation *orientation; /* Input Text description */ | ||
18673 | } XOMOrientation; | ||
18674 | |||
18675 | typedef enum { | ||
18676 | XOMOrientation_LTR_TTB, | ||
18677 | XOMOrientation_RTL_TTB, | ||
18678 | XOMOrientation_TTB_LTR, | ||
18679 | XOMOrientation_TTB_RTL, | ||
18680 | XOMOrientation_Context | ||
18681 | } XOrientation; | ||
18682 | |||
18683 | The possible value for XOrientation may be: | ||
18684 | * XOMOrientation_LTR_TTB left-to-right, top-to-bottom global | ||
18685 | orientation | ||
18686 | * XOMOrientation_RTL_TTB right-to-left, top-to-bottom global | ||
18687 | orientation | ||
18688 | * XOMOrientation_TTB_LTR top-to-bottom, left-to-right global | ||
18689 | orientation | ||
18690 | * XOMOrientation_TTB_RTL top-to-bottom, right-to-left global | ||
18691 | orientation | ||
18692 | * XOMOrientation_Context contextual global orientation | ||
18693 | |||
18694 | Directional Dependent Drawing | ||
18695 | |||
18696 | The XNDirectionalDependentDrawing argument indicates whether | ||
18697 | the text rendering functions implement implicit handling of | ||
18698 | directional text. If this value is True, the output method has | ||
18699 | knowledge of directional dependencies and reorders text as | ||
18700 | necessary when rendering text. If this value is False, the | ||
18701 | output method does not implement any directional text handling, | ||
18702 | and all character directions are assumed to be left-to-right. | ||
18703 | |||
18704 | Regardless of the rendering order of characters, the origins of | ||
18705 | all characters are on the primary draw direction side of the | ||
18706 | drawing origin. | ||
18707 | |||
18708 | This OM value presents functionality identical to the | ||
18709 | XDirectionalDependentDrawing function. | ||
18710 | |||
18711 | Context Dependent Drawing | ||
18712 | |||
18713 | The XNContextualDrawing argument indicates whether the text | ||
18714 | rendering functions implement implicit context-dependent | ||
18715 | drawing. If this value is True, the output method has knowledge | ||
18716 | of context dependencies and performs character shape editing, | ||
18717 | combining glyphs to present a single character as necessary. | ||
18718 | The actual shape editing is dependent on the locale | ||
18719 | implementation and the font set used. | ||
18720 | |||
18721 | This OM value presents functionality identical to the | ||
18722 | XContextualDrawing function. | ||
18723 | |||
18724 | Output Context Functions | ||
18725 | |||
18726 | An output context is an abstraction that contains both the data | ||
18727 | required by an output method and the information required to | ||
18728 | display that data. There can be multiple output contexts for | ||
18729 | one output method. The programming interfaces for creating, | ||
18730 | reading, or modifying an output context use a variable argument | ||
18731 | list. The name elements of the argument lists are referred to | ||
18732 | as XOC values. It is intended that output methods be controlled | ||
18733 | by these XOC values. As new XOC values are created, they should | ||
18734 | be registered with the X Consortium. An XOC can be used | ||
18735 | anywhere an XFontSet can be used, and vice versa; XFontSet is | ||
18736 | retained for compatibility with previous releases. The concepts | ||
18737 | of output methods and output contexts include broader, more | ||
18738 | generalized abstraction than font set, supporting complex and | ||
18739 | more intelligent text display, and dealing not only with | ||
18740 | multiple fonts but also with context dependencies. However, | ||
18741 | XFontSet is widely used in several interfaces, so XOC is | ||
18742 | defined as an upward compatible type of XFontSet. | ||
18743 | |||
18744 | To create an output context, use XCreateOC. | ||
18745 | |||
18746 | XOC XCreateOC(XOM om); | ||
18747 | |||
18748 | om | ||
18749 | |||
18750 | Specifies the output method. | ||
18751 | |||
18752 | ... | ||
18753 | |||
18754 | Specifies the variable-length argument list to set XOC values. | ||
18755 | |||
18756 | The XCreateOC function creates an output context within the | ||
18757 | specified output method. | ||
18758 | |||
18759 | The base font names argument is mandatory at creation time, and | ||
18760 | the output context will not be created unless it is provided. | ||
18761 | All other output context values can be set later. | ||
18762 | |||
18763 | XCreateOC returns NULL if no output context could be created. | ||
18764 | NULL can be returned for any of the following reasons: | ||
18765 | * A required argument was not set. | ||
18766 | * A read-only argument was set. | ||
18767 | * An argument name is not recognized. | ||
18768 | * The output method encountered an output method | ||
18769 | implementation-dependent error. | ||
18770 | |||
18771 | XCreateOC can generate a BadAtom error. | ||
18772 | |||
18773 | To destroy an output context, use XDestroyOC. | ||
18774 | |||
18775 | void XDestroyOC(XOC oc); | ||
18776 | |||
18777 | oc | ||
18778 | |||
18779 | Specifies the output context. | ||
18780 | |||
18781 | The XDestroyOC function destroys the specified output context. | ||
18782 | |||
18783 | To get the output method associated with an output context, use | ||
18784 | XOMOfOC. | ||
18785 | |||
18786 | XOM XOMOfOC(XOC oc); | ||
18787 | |||
18788 | oc | ||
18789 | |||
18790 | Specifies the output context. | ||
18791 | |||
18792 | The XOMOfOC function returns the output method associated with | ||
18793 | the specified output context. | ||
18794 | |||
18795 | Xlib provides two functions for setting and reading output | ||
18796 | context values, respectively, XSetOCValues and XGetOCValues. | ||
18797 | Both functions have a variable-length argument list. In that | ||
18798 | argument list, any XOC value's name must be denoted with a | ||
18799 | character string using the X Portable Character Set. | ||
18800 | |||
18801 | To set XOC values, use XSetOCValues. | ||
18802 | |||
18803 | char *XSetOCValues(XOC oc); | ||
18804 | |||
18805 | oc | ||
18806 | |||
18807 | Specifies the output context. | ||
18808 | |||
18809 | ... | ||
18810 | |||
18811 | Specifies the variable-length argument list to set XOC values. | ||
18812 | |||
18813 | The XSetOCValues function returns NULL if no error occurred; | ||
18814 | otherwise, it returns the name of the first argument that could | ||
18815 | not be set. An argument might not be set for any of the | ||
18816 | following reasons: | ||
18817 | * The argument is read-only. | ||
18818 | * The argument name is not recognized. | ||
18819 | * An implementation-dependent error occurs. | ||
18820 | |||
18821 | Each value to be set must be an appropriate datum, matching the | ||
18822 | data type imposed by the semantics of the argument. | ||
18823 | |||
18824 | XSetOCValues can generate a BadAtom error. | ||
18825 | |||
18826 | To obtain XOC values, use XGetOCValues. | ||
18827 | |||
18828 | char *XGetOCValues(XOC oc); | ||
18829 | |||
18830 | oc | ||
18831 | |||
18832 | Specifies the output context. | ||
18833 | |||
18834 | ... | ||
18835 | |||
18836 | Specifies the variable-length argument list to get XOC values. | ||
18837 | |||
18838 | The XGetOCValues function returns NULL if no error occurred; | ||
18839 | otherwise, it returns the name of the first argument that could | ||
18840 | not be obtained. An argument might not be obtained for any of | ||
18841 | the following reasons: | ||
18842 | * The argument name is not recognized. | ||
18843 | * An implementation-dependent error occurs. | ||
18844 | |||
18845 | Each argument value following a name must point to a location | ||
18846 | where the value is to be stored. | ||
18847 | |||
18848 | Output Context Values | ||
18849 | |||
18850 | The following table describes how XOC values are interpreted by | ||
18851 | an output method. The first column lists the XOC values. The | ||
18852 | second column indicates the alternative interfaces that | ||
18853 | function identically and are provided for compatibility with | ||
18854 | previous releases. The third column indicates how each of the | ||
18855 | XOC values is treated. | ||
18856 | |||
18857 | The following keys apply to this table. | ||
18858 | Key Explanation | ||
18859 | C This value must be set with XCreateOC. | ||
18860 | D This value may be set using XCreateOC. If it is not set,a | ||
18861 | default is provided. | ||
18862 | G This value may be read using XGetOCValues. | ||
18863 | S This value must be set using XSetOCValues. | ||
18864 | |||
18865 | XOC Value Alternative Interface Key | ||
18866 | BaseFontName XCreateFontSet C-G | ||
18867 | MissingCharSet XCreateFontSet G | ||
18868 | DefaultString XCreateFontSet G | ||
18869 | Orientation - D-S-G | ||
18870 | ResourceName - S-G | ||
18871 | ResourceClass - S-G | ||
18872 | FontInfo XFontsOfFontSet G | ||
18873 | OMAutomatic - G | ||
18874 | |||
18875 | Base Font Name | ||
18876 | |||
18877 | The XNBaseFontName argument is a list of base font names that | ||
18878 | Xlib uses to load the fonts needed for the locale. The base | ||
18879 | font names are a comma-separated list. The string is | ||
18880 | null-terminated and is assumed to be in the Host Portable | ||
18881 | Character Encoding; otherwise, the result is | ||
18882 | implementation-dependent. White space immediately on either | ||
18883 | side of a separating comma is ignored. | ||
18884 | |||
18885 | Use of XLFD font names permits Xlib to obtain the fonts needed | ||
18886 | for a variety of locales from a single locale-independent base | ||
18887 | font name. The single base font name should name a family of | ||
18888 | fonts whose members are encoded in the various charsets needed | ||
18889 | by the locales of interest. | ||
18890 | |||
18891 | An XLFD base font name can explicitly name a charset needed for | ||
18892 | the locale. This allows the user to specify an exact font for | ||
18893 | use with a charset required by a locale, fully controlling the | ||
18894 | font selection. | ||
18895 | |||
18896 | If a base font name is not an XLFD name, Xlib will attempt to | ||
18897 | obtain an XLFD name from the font properties for the font. If | ||
18898 | Xlib is successful, the XGetOCValues function will return this | ||
18899 | XLFD name instead of the client-supplied name. | ||
18900 | |||
18901 | This argument must be set at creation time and cannot be | ||
18902 | changed. If no fonts exist for any of the required charsets, or | ||
18903 | if the locale definition in Xlib requires that a font exist for | ||
18904 | a particular charset and a font is not found for that charset, | ||
18905 | XCreateOC returns NULL. | ||
18906 | |||
18907 | When querying for the XNBaseFontName XOC value, XGetOCValues | ||
18908 | returns a null-terminated string identifying the base font | ||
18909 | names that Xlib used to load the fonts needed for the locale. | ||
18910 | This string is owned by Xlib and should not be modified or | ||
18911 | freed by the client. The string will be freed by a call to | ||
18912 | XDestroyOC with the associated XOC. Until freed, the string | ||
18913 | contents will not be modified by Xlib. | ||
18914 | |||
18915 | Missing CharSet | ||
18916 | |||
18917 | The XNMissingCharSet argument returns the list of required | ||
18918 | charsets that are missing from the font set. The value of the | ||
18919 | argument is a pointer to a structure of type XOMCharSetList. | ||
18920 | |||
18921 | If fonts exist for all of the charsets required by the current | ||
18922 | locale, charset_list is set to NULL and charset_count is set to | ||
18923 | zero. If no fonts exist for one or more of the required | ||
18924 | charsets, charset_list is set to a list of one or more | ||
18925 | null-terminated charset names for which no fonts exist, and | ||
18926 | charset_count is set to the number of missing charsets. The | ||
18927 | charsets are from the list of the required charsets for the | ||
18928 | encoding of the locale and do not include any charsets to which | ||
18929 | Xlib may be able to remap a required charset. | ||
18930 | |||
18931 | The missing charset list is owned by Xlib and should not be | ||
18932 | modified or freed by the client. It will be freed by a call to | ||
18933 | XDestroyOC with the associated XOC. Until freed, its contents | ||
18934 | will not be modified by Xlib. | ||
18935 | |||
18936 | Default String | ||
18937 | |||
18938 | When a drawing or measuring function is called with an XOC that | ||
18939 | has missing charsets, some characters in the locale will not be | ||
18940 | drawable. The XNDefaultString argument returns a pointer to a | ||
18941 | string that represents the glyphs that are drawn with this XOC | ||
18942 | when the charsets of the available fonts do not include all | ||
18943 | glyphs required to draw a character. The string does not | ||
18944 | necessarily consist of valid characters in the current locale | ||
18945 | and is not necessarily drawn with the fonts loaded for the font | ||
18946 | set, but the client can draw or measure the default glyphs by | ||
18947 | including this string in a string being drawn or measured with | ||
18948 | the XOC. | ||
18949 | |||
18950 | If the XNDefaultString argument returned the empty string (""), | ||
18951 | no glyphs are drawn and the escapement is zero. The returned | ||
18952 | string is null-terminated. It is owned by Xlib and should not | ||
18953 | be modified or freed by the client. It will be freed by a call | ||
18954 | to XDestroyOC with the associated XOC. Until freed, its | ||
18955 | contents will not be modified by Xlib. | ||
18956 | |||
18957 | Orientation | ||
18958 | |||
18959 | The XNOrientation argument specifies the current orientation of | ||
18960 | text when drawn. The value of this argument is one of the | ||
18961 | values returned by the XGetOMValues function with the | ||
18962 | XNQueryOrientation argument specified in the XOrientation list. | ||
18963 | The value of the argument is of type XOrientation. When | ||
18964 | XNOrientation is queried, the value specifies the current | ||
18965 | orientation. When XNOrientation is set, a value is used to set | ||
18966 | the current orientation. | ||
18967 | |||
18968 | When XOMOrientation_Context is set, the text orientation of the | ||
18969 | text is determined according to an implementation-defined | ||
18970 | method (for example, ISO 6429 control sequences), and the | ||
18971 | initial text orientation for locale-dependent Xlib functions is | ||
18972 | assumed to be XOMOrientation_LTR_TTB. | ||
18973 | |||
18974 | The XNOrientation value does not change the prime drawing | ||
18975 | direction for Xlib drawing functions. | ||
18976 | |||
18977 | Resource Name and Class | ||
18978 | |||
18979 | The XNResourceName and XNResourceClass arguments are strings | ||
18980 | that specify the full name and class used by the client to | ||
18981 | obtain resources for the display of the output context. These | ||
18982 | values should be used as prefixes for name and class when | ||
18983 | looking up resources that may vary according to the output | ||
18984 | context. If these values are not set, the resources will not be | ||
18985 | fully specified. | ||
18986 | |||
18987 | It is not intended that values that can be set as XOM values be | ||
18988 | set as resources. | ||
18989 | |||
18990 | When querying for the XNResourceName or XNResourceClass XOC | ||
18991 | value, XGetOCValues returns a null-terminated string. This | ||
18992 | string is owned by Xlib and should not be modified or freed by | ||
18993 | the client. The string will be freed by a call to XDestroyOC | ||
18994 | with the associated XOC or when the associated value is changed | ||
18995 | via XSetOCValues. Until freed, the string contents will not be | ||
18996 | modified by Xlib. | ||
18997 | |||
18998 | Font Info | ||
18999 | |||
19000 | The XNFontInfo argument specifies a list of one or more | ||
19001 | XFontStruct structures and font names for the fonts used for | ||
19002 | drawing by the given output context. The value of the argument | ||
19003 | is a pointer to a structure of type XOMFontInfo. | ||
19004 | |||
19005 | |||
19006 | |||
19007 | typedef struct { | ||
19008 | int num_font; | ||
19009 | XFontStruct **font_struct_list; | ||
19010 | char **font_name_list; | ||
19011 | } XOMFontInfo; | ||
19012 | |||
19013 | A list of pointers to the XFontStruct structures is returned to | ||
19014 | font_struct_list. A list of pointers to null-terminated, | ||
19015 | fully-specified font name strings in the locale of the output | ||
19016 | context is returned to font_name_list. The font_name_list order | ||
19017 | corresponds to the font_struct_list order. The number of | ||
19018 | XFontStruct structures and font names is returned to num_font. | ||
19019 | |||
19020 | Because it is not guaranteed that a given character will be | ||
19021 | imaged using a single font glyph, there is no provision for | ||
19022 | mapping a character or default string to the font properties, | ||
19023 | font ID, or direction hint for the font for the character. The | ||
19024 | client may access the XFontStruct list to obtain these values | ||
19025 | for all the fonts currently in use. | ||
19026 | |||
19027 | Xlib does not guarantee that fonts are loaded from the server | ||
19028 | at the creation of an XOC. Xlib may choose to cache font data, | ||
19029 | loading it only as needed to draw text or compute text | ||
19030 | dimensions. Therefore, existence of the per_char metrics in the | ||
19031 | XFontStruct structures in the XFontStructSet is undefined. | ||
19032 | Also, note that all properties in the XFontStruct structures | ||
19033 | are in the STRING encoding. | ||
19034 | |||
19035 | The client must not free the XOMFontInfo struct itself; it will | ||
19036 | be freed when the XOC is closed. | ||
19037 | |||
19038 | OM Automatic | ||
19039 | |||
19040 | The XNOMAutomatic argument returns whether the associated | ||
19041 | output context was created by XCreateFontSet or not. Because | ||
19042 | the XFreeFontSet function not only destroys the output context | ||
19043 | but also closes the implicit output method associated with it, | ||
19044 | XFreeFontSet should be used with any output context created by | ||
19045 | XCreateFontSet. However, it is possible that a client does not | ||
19046 | know how the output context was created. Before a client | ||
19047 | destroys the output context, it can query whether XNOMAutomatic | ||
19048 | is set to determine whether XFreeFontSet or XDestroyOC should | ||
19049 | be used to destroy the output context. | ||
19050 | |||
19051 | Creating and Freeing a Font Set | ||
19052 | |||
19053 | Xlib international text drawing is done using a set of one or | ||
19054 | more fonts, as needed for the locale of the text. Fonts are | ||
19055 | loaded according to a list of base font names supplied by the | ||
19056 | client and the charsets required by the locale. The XFontSet is | ||
19057 | an opaque type representing the state of a particular output | ||
19058 | thread and is equivalent to the type XOC. | ||
19059 | |||
19060 | The XCreateFontSet function is a convenience function for | ||
19061 | creating an output context using only default values. The | ||
19062 | returned XFontSet has an implicitly created XOM. This XOM has | ||
19063 | an OM value XNOMAutomatic automatically set to True so that the | ||
19064 | output context self indicates whether it was created by | ||
19065 | XCreateOC or XCreateFontSet. | ||
19066 | |||
19067 | XFontSet XCreateFontSet(Display *display, char | ||
19068 | *base_font_name_list, char ***missing_charset_list_return, int | ||
19069 | *missing_charset_count_return, char **def_string_return); | ||
19070 | |||
19071 | display | ||
19072 | |||
19073 | Specifies the connection to the X server. | ||
19074 | |||
19075 | base_font_name_list | ||
19076 | |||
19077 | Specifies the base font names. | ||
19078 | |||
19079 | missing_charset_list_return | ||
19080 | |||
19081 | Returns the missing charsets. | ||
19082 | |||
19083 | missing_charset_count_return | ||
19084 | |||
19085 | Returns the number of missing charsets. | ||
19086 | |||
19087 | def_string_return | ||
19088 | |||
19089 | Returns the string drawn for missing charsets. | ||
19090 | |||
19091 | The XCreateFontSet function creates a font set for the | ||
19092 | specified display. The font set is bound to the current locale | ||
19093 | when XCreateFontSet is called. The font set may be used in | ||
19094 | subsequent calls to obtain font and character information and | ||
19095 | to image text in the locale of the font set. | ||
19096 | |||
19097 | The base_font_name_list argument is a list of base font names | ||
19098 | that Xlib uses to load the fonts needed for the locale. The | ||
19099 | base font names are a comma-separated list. The string is | ||
19100 | null-terminated and is assumed to be in the Host Portable | ||
19101 | Character Encoding; otherwise, the result is | ||
19102 | implementation-dependent. White space immediately on either | ||
19103 | side of a separating comma is ignored. | ||
19104 | |||
19105 | Use of XLFD font names permits Xlib to obtain the fonts needed | ||
19106 | for a variety of locales from a single locale-independent base | ||
19107 | font name. The single base font name should name a family of | ||
19108 | fonts whose members are encoded in the various charsets needed | ||
19109 | by the locales of interest. | ||
19110 | |||
19111 | An XLFD base font name can explicitly name a charset needed for | ||
19112 | the locale. This allows the user to specify an exact font for | ||
19113 | use with a charset required by a locale, fully controlling the | ||
19114 | font selection. | ||
19115 | |||
19116 | If a base font name is not an XLFD name, Xlib will attempt to | ||
19117 | obtain an XLFD name from the font properties for the font. If | ||
19118 | this action is successful in obtaining an XLFD name, the | ||
19119 | XBaseFontNameListOfFontSet function will return this XLFD name | ||
19120 | instead of the client-supplied name. | ||
19121 | |||
19122 | Xlib uses the following algorithm to select the fonts that will | ||
19123 | be used to display text with the XFontSet. | ||
19124 | |||
19125 | For each font charset required by the locale, the base font | ||
19126 | name list is searched for the first appearance of one of the | ||
19127 | following cases that names a set of fonts that exist at the | ||
19128 | server: | ||
19129 | * The first XLFD-conforming base font name that specifies the | ||
19130 | required charset or a superset of the required charset in | ||
19131 | its CharSetRegistry and CharSetEncoding fields. The | ||
19132 | implementation may use a base font name whose specified | ||
19133 | charset is a superset of the required charset, for example, | ||
19134 | an ISO8859-1 font for an ASCII charset. | ||
19135 | * The first set of one or more XLFD-conforming base font | ||
19136 | names that specify one or more charsets that can be | ||
19137 | remapped to support the required charset. The Xlib | ||
19138 | implementation may recognize various mappings from a | ||
19139 | required charset to one or more other charsets and use the | ||
19140 | fonts for those charsets. For example, JIS Roman is ASCII | ||
19141 | with tilde and backslash replaced by yen and overbar; Xlib | ||
19142 | may load an ISO8859-1 font to support this character set if | ||
19143 | a JIS Roman font is not available. | ||
19144 | * The first XLFD-conforming font name or the first non-XLFD | ||
19145 | font name for which an XLFD font name can be obtained, | ||
19146 | combined with the required charset (replacing the | ||
19147 | CharSetRegistry and CharSetEncoding fields in the XLFD font | ||
19148 | name). As in case 1, the implementation may use a charset | ||
19149 | that is a superset of the required charset. | ||
19150 | * The first font name that can be mapped in some | ||
19151 | implementation-dependent manner to one or more fonts that | ||
19152 | support imaging text in the charset. | ||
19153 | |||
19154 | For example, assume that a locale required the charsets: | ||
19155 | |||
19156 | ISO8859-1 | ||
19157 | JISX0208.1983 | ||
19158 | JISX0201.1976 | ||
19159 | GB2312-1980.0 | ||
19160 | |||
19161 | The user could supply a base_font_name_list that explicitly | ||
19162 | specifies the charsets, ensuring that specific fonts are used | ||
19163 | if they exist. For example: | ||
19164 | |||
19165 | "-JIS-Fixed-Medium-R-Normal--26-180-100-100-C-240-JISX0208.1983-0,\\ | ||
19166 | -JIS-Fixed-Medium-R-Normal--26-180-100-100-C-120-JISX0201.1976-0,\\ | ||
19167 | -GB-Fixed-Medium-R-Normal--26-180-100-100-C-240-GB2312-1980.0,\\ | ||
19168 | -Adobe-Courier-Bold-R-Normal--25-180-75-75-M-150-ISO8859-1" | ||
19169 | |||
19170 | Alternatively, the user could supply a base_font_name_list that | ||
19171 | omits the charsets, letting Xlib select font charsets required | ||
19172 | for the locale. For example: | ||
19173 | |||
19174 | "-JIS-Fixed-Medium-R-Normal--26-180-100-100-C-240,\\ | ||
19175 | -JIS-Fixed-Medium-R-Normal--26-180-100-100-C-120,\\ | ||
19176 | -GB-Fixed-Medium-R-Normal--26-180-100-100-C-240,\\ | ||
19177 | -Adobe-Courier-Bold-R-Normal--25-180-100-100-M-150" | ||
19178 | |||
19179 | Alternatively, the user could simply supply a single base font | ||
19180 | name that allows Xlib to select from all available fonts that | ||
19181 | meet certain minimum XLFD property requirements. For example: | ||
19182 | |||
19183 | "-*-*-*-R-Normal--*-180-100-100-*-*" | ||
19184 | |||
19185 | If XCreateFontSet is unable to create the font set, either | ||
19186 | because there is insufficient memory or because the current | ||
19187 | locale is not supported, XCreateFontSet returns NULL, | ||
19188 | missing_charset_list_return is set to NULL, and | ||
19189 | missing_charset_count_return is set to zero. If fonts exist for | ||
19190 | all of the charsets required by the current locale, | ||
19191 | XCreateFontSet returns a valid XFontSet, | ||
19192 | missing_charset_list_return is set to NULL, and | ||
19193 | missing_charset_count_return is set to zero. | ||
19194 | |||
19195 | If no font exists for one or more of the required charsets, | ||
19196 | XCreateFontSet sets missing_charset_list_return to a list of | ||
19197 | one or more null-terminated charset names for which no font | ||
19198 | exists and sets missing_charset_count_return to the number of | ||
19199 | missing fonts. The charsets are from the list of the required | ||
19200 | charsets for the encoding of the locale and do not include any | ||
19201 | charsets to which Xlib may be able to remap a required charset. | ||
19202 | |||
19203 | If no font exists for any of the required charsets or if the | ||
19204 | locale definition in Xlib requires that a font exist for a | ||
19205 | particular charset and a font is not found for that charset, | ||
19206 | XCreateFontSet returns NULL. Otherwise, XCreateFontSet returns | ||
19207 | a valid XFontSet to font_set. | ||
19208 | |||
19209 | When an Xmb/wc drawing or measuring function is called with an | ||
19210 | XFontSet that has missing charsets, some characters in the | ||
19211 | locale will not be drawable. If def_string_return is non-NULL, | ||
19212 | XCreateFontSet returns a pointer to a string that represents | ||
19213 | the glyphs that are drawn with this XFontSet when the charsets | ||
19214 | of the available fonts do not include all font glyphs required | ||
19215 | to draw a codepoint. The string does not necessarily consist of | ||
19216 | valid characters in the current locale and is not necessarily | ||
19217 | drawn with the fonts loaded for the font set, but the client | ||
19218 | can draw and measure the default glyphs by including this | ||
19219 | string in a string being drawn or measured with the XFontSet. | ||
19220 | |||
19221 | If the string returned to def_string_return is the empty string | ||
19222 | (""), no glyphs are drawn, and the escapement is zero. The | ||
19223 | returned string is null-terminated. It is owned by Xlib and | ||
19224 | should not be modified or freed by the client. It will be freed | ||
19225 | by a call to XFreeFontSet with the associated XFontSet. Until | ||
19226 | freed, its contents will not be modified by Xlib. | ||
19227 | |||
19228 | The client is responsible for constructing an error message | ||
19229 | from the missing charset and default string information and may | ||
19230 | choose to continue operation in the case that some fonts did | ||
19231 | not exist. | ||
19232 | |||
19233 | The returned XFontSet and missing charset list should be freed | ||
19234 | with XFreeFontSet and XFreeStringList, respectively. The | ||
19235 | client-supplied base_font_name_list may be freed by the client | ||
19236 | after calling XCreateFontSet. | ||
19237 | |||
19238 | To obtain a list of XFontStruct structures and full font names | ||
19239 | given an XFontSet, use XFontsOfFontSet. | ||
19240 | |||
19241 | int XFontsOfFontSet(XFontSet font_set, XFontStruct | ||
19242 | ***font_struct_list_return, char ***font_name_list_return); | ||
19243 | |||
19244 | font_set | ||
19245 | |||
19246 | Specifies the font set. | ||
19247 | |||
19248 | font_struct_list_return | ||
19249 | |||
19250 | Returns the list of font structs. | ||
19251 | |||
19252 | font_name_list_return | ||
19253 | |||
19254 | Returns the list of font names. | ||
19255 | |||
19256 | The XFontsOfFontSet function returns a list of one or more | ||
19257 | XFontStructs and font names for the fonts used by the Xmb and | ||
19258 | Xwc layers for the given font set. A list of pointers to the | ||
19259 | XFontStruct structures is returned to font_struct_list_return. | ||
19260 | A list of pointers to null-terminated, fully specified font | ||
19261 | name strings in the locale of the font set is returned to | ||
19262 | font_name_list_return. The font_name_list order corresponds to | ||
19263 | the font_struct_list order. The number of XFontStruct | ||
19264 | structures and font names is returned as the value of the | ||
19265 | function. | ||
19266 | |||
19267 | Because it is not guaranteed that a given character will be | ||
19268 | imaged using a single font glyph, there is no provision for | ||
19269 | mapping a character or default string to the font properties, | ||
19270 | font ID, or direction hint for the font for the character. The | ||
19271 | client may access the XFontStruct list to obtain these values | ||
19272 | for all the fonts currently in use. | ||
19273 | |||
19274 | Xlib does not guarantee that fonts are loaded from the server | ||
19275 | at the creation of an XFontSet. Xlib may choose to cache font | ||
19276 | data, loading it only as needed to draw text or compute text | ||
19277 | dimensions. Therefore, existence of the per_char metrics in the | ||
19278 | XFontStruct structures in the XFontStructSet is undefined. | ||
19279 | Also, note that all properties in the XFontStruct structures | ||
19280 | are in the STRING encoding. | ||
19281 | |||
19282 | The XFontStruct and font name lists are owned by Xlib and | ||
19283 | should not be modified or freed by the client. They will be | ||
19284 | freed by a call to XFreeFontSet with the associated XFontSet. | ||
19285 | Until freed, their contents will not be modified by Xlib. | ||
19286 | |||
19287 | To obtain the base font name list and the selected font name | ||
19288 | list given an XFontSet, use XBaseFontNameListOfFontSet. | ||
19289 | |||
19290 | char *XBaseFontNameListOfFontSet(XFontSet font_set); | ||
19291 | |||
19292 | font_set | ||
19293 | |||
19294 | Specifies the font set. | ||
19295 | |||
19296 | The XBaseFontNameListOfFontSet function returns the original | ||
19297 | base font name list supplied by the client when the XFontSet | ||
19298 | was created. A null-terminated string containing a list of | ||
19299 | comma-separated font names is returned as the value of the | ||
19300 | function. White space may appear immediately on either side of | ||
19301 | separating commas. | ||
19302 | |||
19303 | If XCreateFontSet obtained an XLFD name from the font | ||
19304 | properties for the font specified by a non-XLFD base name, the | ||
19305 | XBaseFontNameListOfFontSet function will return the XLFD name | ||
19306 | instead of the non-XLFD base name. | ||
19307 | |||
19308 | The base font name list is owned by Xlib and should not be | ||
19309 | modified or freed by the client. It will be freed by a call to | ||
19310 | XFreeFontSet with the associated XFontSet. Until freed, its | ||
19311 | contents will not be modified by Xlib. | ||
19312 | |||
19313 | To obtain the locale name given an XFontSet, use | ||
19314 | XLocaleOfFontSet. | ||
19315 | |||
19316 | char *XLocaleOfFontSet(XFontSet font_set); | ||
19317 | |||
19318 | font_set | ||
19319 | |||
19320 | Specifies the font set. | ||
19321 | |||
19322 | The XLocaleOfFontSet function returns the name of the locale | ||
19323 | bound to the specified XFontSet, as a null-terminated string. | ||
19324 | |||
19325 | The returned locale name string is owned by Xlib and should not | ||
19326 | be modified or freed by the client. It may be freed by a call | ||
19327 | to XFreeFontSet with the associated XFontSet. Until freed, it | ||
19328 | will not be modified by Xlib. | ||
19329 | |||
19330 | The XFreeFontSet function is a convenience function for freeing | ||
19331 | an output context. XFreeFontSet also frees its associated XOM | ||
19332 | if the output context was created by XCreateFontSet. | ||
19333 | |||
19334 | void XFreeFontSet(Display *display, XFontSet font_set); | ||
19335 | |||
19336 | display | ||
19337 | |||
19338 | Specifies the connection to the X server. | ||
19339 | |||
19340 | font_set | ||
19341 | |||
19342 | Specifies the font set. | ||
19343 | |||
19344 | The XFreeFontSet function frees the specified font set. The | ||
19345 | associated base font name list, font name list, XFontStruct | ||
19346 | list, and XFontSetExtents, if any, are freed. | ||
19347 | |||
19348 | Obtaining Font Set Metrics | ||
19349 | |||
19350 | Metrics for the internationalized text drawing functions are | ||
19351 | defined in terms of a primary draw direction, which is the | ||
19352 | default direction in which the character origin advances for | ||
19353 | each succeeding character in the string. The Xlib interface is | ||
19354 | currently defined to support only a left-to-right primary draw | ||
19355 | direction. The drawing origin is the position passed to the | ||
19356 | drawing function when the text is drawn. The baseline is a line | ||
19357 | drawn through the drawing origin parallel to the primary draw | ||
19358 | direction. Character ink is the pixels painted in the | ||
19359 | foreground color and does not include interline or | ||
19360 | intercharacter spacing or image text background pixels. | ||
19361 | |||
19362 | The drawing functions are allowed to implement implicit text | ||
19363 | directionality control, reversing the order in which characters | ||
19364 | are rendered along the primary draw direction in response to | ||
19365 | locale-specific lexical analysis of the string. | ||
19366 | |||
19367 | Regardless of the character rendering order, the origins of all | ||
19368 | characters are on the primary draw direction side of the | ||
19369 | drawing origin. The screen location of a particular character | ||
19370 | image may be determined with XmbTextPerCharExtents or | ||
19371 | XwcTextPerCharExtents. | ||
19372 | |||
19373 | The drawing functions are allowed to implement | ||
19374 | context-dependent rendering, where the glyphs drawn for a | ||
19375 | string are not simply a concatenation of the glyphs that | ||
19376 | represent each individual character. A string of two characters | ||
19377 | drawn with XmbDrawString may render differently than if the two | ||
19378 | characters were drawn with separate calls to XmbDrawString. If | ||
19379 | the client appends or inserts a character in a previously drawn | ||
19380 | string, the client may need to redraw some adjacent characters | ||
19381 | to obtain proper rendering. | ||
19382 | |||
19383 | To find out about direction-dependent rendering, use | ||
19384 | XDirectionalDependentDrawing. | ||
19385 | |||
19386 | Bool XDirectionalDependentDrawing(XFontSet font_set); | ||
19387 | |||
19388 | font_set | ||
19389 | |||
19390 | Specifies the font set. | ||
19391 | |||
19392 | The XDirectionalDependentDrawing function returns True if the | ||
19393 | drawing functions implement implicit text directionality; | ||
19394 | otherwise, it returns False. | ||
19395 | |||
19396 | To find out about context-dependent rendering, use | ||
19397 | XContextualDrawing. | ||
19398 | |||
19399 | Bool XContextualDrawing(XFontSet font_set); | ||
19400 | |||
19401 | font_set | ||
19402 | |||
19403 | Specifies the font set. | ||
19404 | |||
19405 | The XContextualDrawing function returns True if text drawn with | ||
19406 | the font set might include context-dependent drawing; | ||
19407 | otherwise, it returns False. | ||
19408 | |||
19409 | To find out about context-dependent or direction-dependent | ||
19410 | rendering, use XContextDependentDrawing. | ||
19411 | |||
19412 | Bool XContextDependentDrawing(XFontSet font_set); | ||
19413 | |||
19414 | font_set | ||
19415 | |||
19416 | Specifies the font set. | ||
19417 | |||
19418 | The XContextDependentDrawing function returns True if the | ||
19419 | drawing functions implement implicit text directionality or if | ||
19420 | text drawn with the font_set might include context-dependent | ||
19421 | drawing; otherwise, it returns False. | ||
19422 | |||
19423 | The drawing functions do not interpret newline, tab, or other | ||
19424 | control characters. The behavior when nonprinting characters | ||
19425 | other than space are drawn is implementation-dependent. It is | ||
19426 | the client's responsibility to interpret control characters in | ||
19427 | a text stream. | ||
19428 | |||
19429 | The maximum character extents for the fonts that are used by | ||
19430 | the text drawing layers can be accessed by the XFontSetExtents | ||
19431 | structure: | ||
19432 | |||
19433 | |||
19434 | |||
19435 | typedef struct { | ||
19436 | XRectangle max_ink_extent; /* over all drawable characters */ | ||
19437 | XRectangle max_logical_extent; /* over all drawable characters */ | ||
19438 | } XFontSetExtents; | ||
19439 | |||
19440 | The XRectangle structures used to return font set metrics are | ||
19441 | the usual Xlib screen-oriented rectangles with x, y giving the | ||
19442 | upper left corner, and width and height always positive. | ||
19443 | |||
19444 | The max_ink_extent member gives the maximum extent, over all | ||
19445 | drawable characters, of the rectangles that bound the character | ||
19446 | glyph image drawn in the foreground color, relative to a | ||
19447 | constant origin. See XmbTextExtents and XwcTextExtents for | ||
19448 | detailed semantics. | ||
19449 | |||
19450 | The max_logical_extent member gives the maximum extent, over | ||
19451 | all drawable characters, of the rectangles that specify minimum | ||
19452 | spacing to other graphical features, relative to a constant | ||
19453 | origin. Other graphical features drawn by the client, for | ||
19454 | example, a border surrounding the text, should not intersect | ||
19455 | this rectangle. The max_logical_extent member should be used to | ||
19456 | compute minimum interline spacing and the minimum area that | ||
19457 | must be allowed in a text field to draw a given number of | ||
19458 | arbitrary characters. | ||
19459 | |||
19460 | Due to context-dependent rendering, appending a given character | ||
19461 | to a string may change the string's extent by an amount other | ||
19462 | than that character's individual extent. | ||
19463 | |||
19464 | The rectangles for a given character in a string can be | ||
19465 | obtained from XmbTextPerCharExtents or XwcTextPerCharExtents. | ||
19466 | |||
19467 | To obtain the maximum extents structure given an XFontSet, use | ||
19468 | XExtentsOfFontSet. | ||
19469 | |||
19470 | XFontSetExtents *XExtentsOfFontSet(XFontSet font_set); | ||
19471 | |||
19472 | font_set | ||
19473 | |||
19474 | Specifies the font set. | ||
19475 | |||
19476 | The XExtentsOfFontSet function returns an XFontSetExtents | ||
19477 | structure for the fonts used by the Xmb and Xwc layers for the | ||
19478 | given font set. | ||
19479 | |||
19480 | The XFontSetExtents structure is owned by Xlib and should not | ||
19481 | be modified or freed by the client. It will be freed by a call | ||
19482 | to XFreeFontSet with the associated XFontSet. Until freed, its | ||
19483 | contents will not be modified by Xlib. | ||
19484 | |||
19485 | To obtain the escapement in pixels of the specified text as a | ||
19486 | value, use XmbTextEscapement or XwcTextEscapement. | ||
19487 | |||
19488 | int XmbTextEscapement(XFontSet font_set, char *string, int | ||
19489 | num_bytes); | ||
19490 | |||
19491 | int XwcTextEscapement(XFontSet font_set, wchar_t *string, int | ||
19492 | num_wchars); | ||
19493 | |||
19494 | font_set | ||
19495 | |||
19496 | Specifies the font set. | ||
19497 | |||
19498 | string | ||
19499 | |||
19500 | Specifies the character string. | ||
19501 | |||
19502 | num_bytes | ||
19503 | |||
19504 | Specifies the number of bytes in the string argument. | ||
19505 | |||
19506 | num_wchars | ||
19507 | |||
19508 | Specifies the number of characters in the string argument. | ||
19509 | |||
19510 | The XmbTextEscapement and XwcTextEscapement functions return | ||
19511 | the escapement in pixels of the specified string as a value, | ||
19512 | using the fonts loaded for the specified font set. The | ||
19513 | escapement is the distance in pixels in the primary draw | ||
19514 | direction from the drawing origin to the origin of the next | ||
19515 | character to be drawn, assuming that the rendering of the next | ||
19516 | character is not dependent on the supplied string. | ||
19517 | |||
19518 | Regardless of the character rendering order, the escapement is | ||
19519 | always positive. | ||
19520 | |||
19521 | To obtain the overall_ink_return and overall_logical_return | ||
19522 | arguments, the overall bounding box of the string's image, and | ||
19523 | a logical bounding box, use XmbTextExtents or XwcTextExtents. | ||
19524 | |||
19525 | int XmbTextExtents(XFontSet font_set, char *string, int | ||
19526 | num_bytes, XRectangle *overall_ink_return, XRectangle | ||
19527 | *overall_logical_return); | ||
19528 | |||
19529 | int XwcTextExtents(XFontSet font_set, wchar_t *string, int | ||
19530 | num_wchars, XRectangle *overall_ink_return, XRectangle | ||
19531 | *overall_logical_return); | ||
19532 | |||
19533 | font_set | ||
19534 | |||
19535 | Specifies the font set. | ||
19536 | |||
19537 | string | ||
19538 | |||
19539 | Specifies the character string. | ||
19540 | |||
19541 | num_bytes | ||
19542 | |||
19543 | Specifies the number of bytes in the string argument. | ||
19544 | |||
19545 | num_wchars | ||
19546 | |||
19547 | Specifies the number of characters in the string argument. | ||
19548 | |||
19549 | overall_ink_return | ||
19550 | |||
19551 | Returns the overall ink dimensions. | ||
19552 | |||
19553 | overall_logical_return | ||
19554 | |||
19555 | Returns the overall logical dimensions. | ||
19556 | |||
19557 | The XmbTextExtents and XwcTextExtents functions set the | ||
19558 | components of the specified overall_ink_return and | ||
19559 | overall_logical_return arguments to the overall bounding box of | ||
19560 | the string's image and a logical bounding box for spacing | ||
19561 | purposes, respectively. They return the value returned by | ||
19562 | XmbTextEscapement or XwcTextEscapement. These metrics are | ||
19563 | relative to the drawing origin of the string, using the fonts | ||
19564 | loaded for the specified font set. | ||
19565 | |||
19566 | If the overall_ink_return argument is non-NULL, it is set to | ||
19567 | the bounding box of the string's character ink. The | ||
19568 | overall_ink_return for a nondescending, horizontally drawn | ||
19569 | Latin character is conventionally entirely above the baseline; | ||
19570 | that is, overall_ink_return.height <= -overall_ink_return.y. | ||
19571 | The overall_ink_return for a nonkerned character is entirely | ||
19572 | at, and to the right of, the origin; that is, | ||
19573 | overall_ink_return.x >= 0. A character consisting of a single | ||
19574 | pixel at the origin would set overall_ink_return fields y = 0, | ||
19575 | x = 0, width = 1, and height = 1. | ||
19576 | |||
19577 | If the overall_logical_return argument is non-NULL, it is set | ||
19578 | to the bounding box that provides minimum spacing to other | ||
19579 | graphical features for the string. Other graphical features, | ||
19580 | for example, a border surrounding the text, should not | ||
19581 | intersect this rectangle. | ||
19582 | |||
19583 | When the XFontSet has missing charsets, metrics for each | ||
19584 | unavailable character are taken from the default string | ||
19585 | returned by XCreateFontSet so that the metrics represent the | ||
19586 | text as it will actually be drawn. The behavior for an invalid | ||
19587 | codepoint is undefined. | ||
19588 | |||
19589 | To determine the effective drawing origin for a character in a | ||
19590 | drawn string, the client should call XmbTextPerCharExtents on | ||
19591 | the entire string, then on the character, and subtract the x | ||
19592 | values of the returned rectangles for the character. This is | ||
19593 | useful to redraw portions of a line of text or to justify | ||
19594 | words, but for context-dependent rendering, the client should | ||
19595 | not assume that it can redraw the character by itself and get | ||
19596 | the same rendering. | ||
19597 | |||
19598 | To obtain per-character information for a text string, use | ||
19599 | XmbTextPerCharExtents or XwcTextPerCharExtents. | ||
19600 | |||
19601 | Status XmbTextPerCharExtents(XFontSet font_set, char *string, | ||
19602 | int num_bytes, XRectangle *ink_array_return, XRectangle | ||
19603 | *logical_array_return, int array_size, int *num_chars_return, | ||
19604 | XRectangle *overall_ink_return, XRectangle | ||
19605 | *overall_logical_return); | ||
19606 | |||
19607 | Status XwcTextPerCharExtents(XFontSet font_set, wchar_t | ||
19608 | *string, int num_wchars, XRectangle *ink_array_return, | ||
19609 | XRectangle *logical_array_return, int array_size, int | ||
19610 | *num_chars_return, XRectangle *overall_ink_return, XRectangle | ||
19611 | *overall_logical_return); | ||
19612 | |||
19613 | font_set | ||
19614 | |||
19615 | Specifies the font set. | ||
19616 | |||
19617 | string | ||
19618 | |||
19619 | Specifies the character string. | ||
19620 | |||
19621 | num_bytes | ||
19622 | |||
19623 | Specifies the number of bytes in the string argument. | ||
19624 | |||
19625 | num_wchars | ||
19626 | |||
19627 | Specifies the number of characters in the string argument. | ||
19628 | |||
19629 | ink_array_return | ||
19630 | |||
19631 | Returns the ink dimensions for each character. | ||
19632 | |||
19633 | logical_array_return | ||
19634 | |||
19635 | Returns the logical dimensions for each character. | ||
19636 | |||
19637 | array_size | ||
19638 | |||
19639 | Specifies the size of ink_array_return and | ||
19640 | logical_array_return. The caller must pass in arrays of this | ||
19641 | size. | ||
19642 | |||
19643 | num_chars_return | ||
19644 | |||
19645 | Returns the number of characters in the string argument. | ||
19646 | |||
19647 | overall_ink_return | ||
19648 | |||
19649 | Returns the overall ink dimensions. | ||
19650 | |||
19651 | overall_logical_return | ||
19652 | |||
19653 | Returns the overall logical dimensions. | ||
19654 | |||
19655 | The XmbTextPerCharExtents and XwcTextPerCharExtents functions | ||
19656 | return the text dimensions of each character of the specified | ||
19657 | text, using the fonts loaded for the specified font set. Each | ||
19658 | successive element of ink_array_return and logical_array_return | ||
19659 | is set to the successive character's drawn metrics, relative to | ||
19660 | the drawing origin of the string and one rectangle for each | ||
19661 | character in the supplied text string. The number of elements | ||
19662 | of ink_array_return and logical_array_return that have been set | ||
19663 | is returned to num_chars_return. | ||
19664 | |||
19665 | Each element of ink_array_return is set to the bounding box of | ||
19666 | the corresponding character's drawn foreground color. Each | ||
19667 | element of logical_array_return is set to the bounding box that | ||
19668 | provides minimum spacing to other graphical features for the | ||
19669 | corresponding character. Other graphical features should not | ||
19670 | intersect any of the logical_array_return rectangles. | ||
19671 | |||
19672 | Note that an XRectangle represents the effective drawing | ||
19673 | dimensions of the character, regardless of the number of font | ||
19674 | glyphs that are used to draw the character or the direction in | ||
19675 | which the character is drawn. If multiple characters map to a | ||
19676 | single character glyph, the dimensions of all the XRectangles | ||
19677 | of those characters are the same. | ||
19678 | |||
19679 | When the XFontSet has missing charsets, metrics for each | ||
19680 | unavailable character are taken from the default string | ||
19681 | returned by XCreateFontSet so that the metrics represent the | ||
19682 | text as it will actually be drawn. The behavior for an invalid | ||
19683 | codepoint is undefined. | ||
19684 | |||
19685 | If the array_size is too small for the number of characters in | ||
19686 | the supplied text, the functions return zero and | ||
19687 | num_chars_return is set to the number of rectangles required. | ||
19688 | Otherwise, the functions return a nonzero value. | ||
19689 | |||
19690 | If the overall_ink_return or overall_logical_return argument is | ||
19691 | non-NULL, XmbTextPerCharExtents and XwcTextPerCharExtents | ||
19692 | return the maximum extent of the string's metrics to | ||
19693 | overall_ink_return or overall_logical_return, as returned by | ||
19694 | XmbTextExtents or XwcTextExtents. | ||
19695 | |||
19696 | Drawing Text Using Font Sets | ||
19697 | |||
19698 | The functions defined in this section draw text at a specified | ||
19699 | location in a drawable. They are similar to the functions | ||
19700 | XDrawText, XDrawString, and XDrawImageString except that they | ||
19701 | work with font sets instead of single fonts and interpret the | ||
19702 | text based on the locale of the font set instead of treating | ||
19703 | the bytes of the string as direct font indexes. See section 8.6 | ||
19704 | for details of the use of Graphics Contexts (GCs) and possible | ||
19705 | protocol errors. If a BadFont error is generated, characters | ||
19706 | prior to the offending character may have been drawn. | ||
19707 | |||
19708 | The text is drawn using the fonts loaded for the specified font | ||
19709 | set; the font in the GC is ignored and may be modified by the | ||
19710 | functions. No validation that all fonts conform to some width | ||
19711 | rule is performed. | ||
19712 | |||
19713 | The text functions XmbDrawText and XwcDrawText use the | ||
19714 | following structures: | ||
19715 | |||
19716 | |||
19717 | |||
19718 | typedef struct { | ||
19719 | char *chars; /* pointer to string */ | ||
19720 | int nchars; /* number of bytes */ | ||
19721 | int delta; /* pixel delta between strings */ | ||
19722 | XFontSet font_set; /* fonts, None means don't change */ | ||
19723 | } XmbTextItem; | ||
19724 | |||
19725 | |||
19726 | |||
19727 | typedef struct { | ||
19728 | wchar_t *chars; /* pointer to wide char string */ | ||
19729 | int nchars; /* number of wide characters */ | ||
19730 | int delta; /* pixel delta between strings */ | ||
19731 | XFontSet font_set; /* fonts, None means don't change */ | ||
19732 | } XwcTextItem; | ||
19733 | |||
19734 | To draw text using multiple font sets in a given drawable, use | ||
19735 | XmbDrawText or XwcDrawText. | ||
19736 | |||
19737 | void XmbDrawText(Display *display, Drawable d, GC gc, int x, | ||
19738 | int y, XmbTextItem *items, int nitems); | ||
19739 | |||
19740 | void XwcDrawText(Display *display, Drawable d, GC gc, int x, | ||
19741 | int y, XwcTextItem *items, int nitems); | ||
19742 | |||
19743 | display | ||
19744 | |||
19745 | Specifies the connection to the X server. | ||
19746 | |||
19747 | d | ||
19748 | |||
19749 | Specifies the drawable. | ||
19750 | |||
19751 | gc | ||
19752 | |||
19753 | Specifies the GC. | ||
19754 | |||
19755 | x | ||
19756 | |||
19757 | y | ||
19758 | |||
19759 | Specify the x and y coordinates of the position in the new | ||
19760 | parent window. | ||
19761 | |||
19762 | items | ||
19763 | |||
19764 | Specifies an array of text items. | ||
19765 | |||
19766 | nitems | ||
19767 | |||
19768 | Specifies the number of text items in the array. | ||
19769 | |||
19770 | The XmbDrawText and XwcDrawText functions allow complex spacing | ||
19771 | and font set shifts between text strings. Each text item is | ||
19772 | processed in turn, with the origin of a text element advanced | ||
19773 | in the primary draw direction by the escapement of the previous | ||
19774 | text item. A text item delta specifies an additional escapement | ||
19775 | of the text item drawing origin in the primary draw direction. | ||
19776 | A font_set member other than None in an item causes the font | ||
19777 | set to be used for this and subsequent text items in the | ||
19778 | text_items list. Leading text items with a font_set member set | ||
19779 | to None will not be drawn. | ||
19780 | |||
19781 | XmbDrawText and XwcDrawText do not perform any | ||
19782 | context-dependent rendering between text segments. Clients may | ||
19783 | compute the drawing metrics by passing each text segment to | ||
19784 | XmbTextExtents and XwcTextExtents or XmbTextPerCharExtents and | ||
19785 | XwcTextPerCharExtents. When the XFontSet has missing charsets, | ||
19786 | each unavailable character is drawn with the default string | ||
19787 | returned by XCreateFontSet. The behavior for an invalid | ||
19788 | codepoint is undefined. | ||
19789 | |||
19790 | To draw text using a single font set in a given drawable, use | ||
19791 | XmbDrawString or XwcDrawString. | ||
19792 | |||
19793 | void XmbDrawString(Display *display, Drawable d, XFontSet | ||
19794 | font_set, GC gc, int x, int y, char *string, int num_bytes); | ||
19795 | |||
19796 | void XwcDrawString(Display *display, Drawable d, XFontSet | ||
19797 | font_set, GC gc, int x, int y, wchar_t *string, int | ||
19798 | num_wchars); | ||
19799 | |||
19800 | display | ||
19801 | |||
19802 | Specifies the connection to the X server. | ||
19803 | |||
19804 | d | ||
19805 | |||
19806 | Specifies the drawable. | ||
19807 | |||
19808 | font_set | ||
19809 | |||
19810 | Specifies the font set. | ||
19811 | |||
19812 | gc | ||
19813 | |||
19814 | Specifies the GC. | ||
19815 | |||
19816 | x | ||
19817 | |||
19818 | y | ||
19819 | |||
19820 | Specify the x and y coordinates of the position in the new | ||
19821 | parent window. | ||
19822 | |||
19823 | string | ||
19824 | |||
19825 | Specifies the character string. | ||
19826 | |||
19827 | num_bytes | ||
19828 | |||
19829 | Specifies the number of bytes in the string argument. | ||
19830 | |||
19831 | num_wchars | ||
19832 | |||
19833 | Specifies the number of characters in the string argument. | ||
19834 | |||
19835 | The XmbDrawString and XwcDrawString functions draw the | ||
19836 | specified text with the foreground pixel. When the XFontSet has | ||
19837 | missing charsets, each unavailable character is drawn with the | ||
19838 | default string returned by XCreateFontSet. The behavior for an | ||
19839 | invalid codepoint is undefined. | ||
19840 | |||
19841 | To draw image text using a single font set in a given drawable, | ||
19842 | use XmbDrawImageString or XwcDrawImageString. | ||
19843 | |||
19844 | void XmbDrawImageString(Display *display, Drawable d, XFontSet | ||
19845 | font_set, GC gc, int x, int y, char *string, int num_bytes); | ||
19846 | |||
19847 | void XwcDrawImageString(Display *display, Drawable d, XFontSet | ||
19848 | font_set, GC gc, int x, int y, wchar_t *string, int | ||
19849 | num_wchars); | ||
19850 | |||
19851 | display | ||
19852 | |||
19853 | Specifies the connection to the X server. | ||
19854 | |||
19855 | d | ||
19856 | |||
19857 | Specifies the drawable. | ||
19858 | |||
19859 | font_set | ||
19860 | |||
19861 | Specifies the font set. | ||
19862 | |||
19863 | gc | ||
19864 | |||
19865 | Specifies the GC. | ||
19866 | |||
19867 | x | ||
19868 | |||
19869 | y | ||
19870 | |||
19871 | Specify the x and y coordinates of the position in the new | ||
19872 | parent window. | ||
19873 | |||
19874 | string | ||
19875 | |||
19876 | Specifies the character string. | ||
19877 | |||
19878 | num_bytes | ||
19879 | |||
19880 | Specifies the number of bytes in the string argument. | ||
19881 | |||
19882 | num_wchars | ||
19883 | |||
19884 | Specifies the number of characters in the string argument. | ||
19885 | |||
19886 | The XmbDrawImageString and XwcDrawImageString functions fill a | ||
19887 | destination rectangle with the background pixel defined in the | ||
19888 | GC and then paint the text with the foreground pixel. The | ||
19889 | filled rectangle is the rectangle returned to | ||
19890 | overall_logical_return by XmbTextExtents or XwcTextExtents for | ||
19891 | the same text and XFontSet. | ||
19892 | |||
19893 | When the XFontSet has missing charsets, each unavailable | ||
19894 | character is drawn with the default string returned by | ||
19895 | XCreateFontSet. The behavior for an invalid codepoint is | ||
19896 | undefined. | ||
19897 | |||
19898 | Input Methods | ||
19899 | |||
19900 | This section provides discussions of the following X Input | ||
19901 | Method (XIM) topics: | ||
19902 | * Input method overview | ||
19903 | * Input method management | ||
19904 | * Input method functions | ||
19905 | * Input method values | ||
19906 | * Input context functions | ||
19907 | * Input context values | ||
19908 | * Input method callback semantics | ||
19909 | * Event filtering | ||
19910 | * Getting keyboard input | ||
19911 | * Input method conventions | ||
19912 | |||
19913 | Input Method Overview | ||
19914 | |||
19915 | This section provides definitions for terms and concepts used | ||
19916 | for internationalized text input and a brief overview of the | ||
19917 | intended use of the mechanisms provided by Xlib. | ||
19918 | |||
19919 | A large number of languages in the world use alphabets | ||
19920 | consisting of a small set of symbols (letters) to form words. | ||
19921 | To enter text into a computer in an alphabetic language, a user | ||
19922 | usually has a keyboard on which there exist key symbols | ||
19923 | corresponding to the alphabet. Sometimes, a few characters of | ||
19924 | an alphabetic language are missing on the keyboard. Many | ||
19925 | computer users who speak a Latin-alphabet-based language only | ||
19926 | have an English-based keyboard. They need to hit a combination | ||
19927 | of keystrokes to enter a character that does not exist directly | ||
19928 | on the keyboard. A number of algorithms have been developed for | ||
19929 | entering such characters. These are known as European input | ||
19930 | methods, compose input methods, or dead-key input methods. | ||
19931 | |||
19932 | Japanese is an example of a language with a phonetic symbol | ||
19933 | set, where each symbol represents a specific sound. There are | ||
19934 | two phonetic symbol sets in Japanese: Katakana and Hiragana. In | ||
19935 | general, Katakana is used for words that are of foreign origin, | ||
19936 | and Hiragana is used for writing native Japanese words. | ||
19937 | Collectively, the two systems are called Kana. Each set | ||
19938 | consists of 48 characters. | ||
19939 | |||
19940 | Korean also has a phonetic symbol set, called Hangul. Each of | ||
19941 | the 24 basic phonetic symbols (14 consonants and 10 vowels) | ||
19942 | represents a specific sound. A syllable is composed of two or | ||
19943 | three parts: the initial consonants, the vowels, and the | ||
19944 | optional last consonants. With Hangul, syllables can be treated | ||
19945 | as the basic units on which text processing is done. For | ||
19946 | example, a delete operation may work on a phonetic symbol or a | ||
19947 | syllable. Korean code sets include several thousands of these | ||
19948 | syllables. A user types the phonetic symbols that make up the | ||
19949 | syllables of the words to be entered. The display may change as | ||
19950 | each phonetic symbol is entered. For example, when the second | ||
19951 | phonetic symbol of a syllable is entered, the first phonetic | ||
19952 | symbol may change its shape and size. Likewise, when the third | ||
19953 | phonetic symbol is entered, the first two phonetic symbols may | ||
19954 | change their shape and size. | ||
19955 | |||
19956 | Not all languages rely solely on alphabetic or phonetic | ||
19957 | systems. Some languages, including Japanese and Korean, employ | ||
19958 | an ideographic writing system. In an ideographic system, rather | ||
19959 | than taking a small set of symbols and combining them in | ||
19960 | different ways to create words, each word consists of one | ||
19961 | unique symbol (or, occasionally, several symbols). The number | ||
19962 | of symbols can be very large: approximately 50,000 have been | ||
19963 | identified in Hanzi, the Chinese ideographic system. | ||
19964 | |||
19965 | Two major aspects of ideographic systems impact their use with | ||
19966 | computers. First, the standard computer character sets in | ||
19967 | Japan, China, and Korea include roughly 8,000 characters, while | ||
19968 | sets in Taiwan have between 15,000 and 30,000 characters. This | ||
19969 | makes it necessary to use more than one byte to represent a | ||
19970 | character. Second, it obviously is impractical to have a | ||
19971 | keyboard that includes all of a given language's ideographic | ||
19972 | symbols. Therefore, a mechanism is required for entering | ||
19973 | characters so that a keyboard with a reasonable number of keys | ||
19974 | can be used. Those input methods are usually based on | ||
19975 | phonetics, but there also exist methods based on the graphical | ||
19976 | properties of characters. | ||
19977 | |||
19978 | In Japan, both Kana and the ideographic system Kanji are used. | ||
19979 | In Korea, Hangul and sometimes the ideographic system Hanja are | ||
19980 | used. Now consider entering ideographs in Japan, Korea, China, | ||
19981 | and Taiwan. | ||
19982 | |||
19983 | In Japan, either Kana or English characters are typed and then | ||
19984 | a region is selected (sometimes automatically) for conversion | ||
19985 | to Kanji. Several Kanji characters may have the same phonetic | ||
19986 | representation. If that is the case with the string entered, a | ||
19987 | menu of characters is presented and the user must choose the | ||
19988 | appropriate one. If no choice is necessary or a preference has | ||
19989 | been established, the input method does the substitution | ||
19990 | directly. When Latin characters are converted to Kana or Kanji, | ||
19991 | it is called a romaji conversion. | ||
19992 | |||
19993 | In Korea, it is usually acceptable to keep Korean text in | ||
19994 | Hangul form, but some people may choose to write | ||
19995 | Hanja-originated words in Hanja rather than in Hangul. To | ||
19996 | change Hangul to Hanja, the user selects a region for | ||
19997 | conversion and then follows the same basic method as that | ||
19998 | described for Japanese. | ||
19999 | |||
20000 | Probably because there are well-accepted phonetic writing | ||
20001 | systems for Japanese and Korean, computer input methods in | ||
20002 | these countries for entering ideographs are fairly standard. | ||
20003 | Keyboard keys have both English characters and phonetic symbols | ||
20004 | engraved on them, and the user can switch between the two sets. | ||
20005 | |||
20006 | The situation is different for Chinese. While there is a | ||
20007 | phonetic system called Pinyin promoted by authorities, there is | ||
20008 | no consensus for entering Chinese text. Some vendors use a | ||
20009 | phonetic decomposition (Pinyin or another), others use | ||
20010 | ideographic decomposition of Chinese words, with various | ||
20011 | implementations and keyboard layouts. There are about 16 known | ||
20012 | methods, none of which is a clear standard. | ||
20013 | |||
20014 | Also, there are actually two ideographic sets used: Traditional | ||
20015 | Chinese (the original written Chinese) and Simplified Chinese. | ||
20016 | Several years ago, the People's Republic of China launched a | ||
20017 | campaign to simplify some ideographic characters and eliminate | ||
20018 | redundancies altogether. Under the plan, characters would be | ||
20019 | streamlined every five years. Characters have been revised | ||
20020 | several times now, resulting in the smaller, simpler set that | ||
20021 | makes up Simplified Chinese. | ||
20022 | |||
20023 | Input Method Architecture | ||
20024 | |||
20025 | As shown in the previous section, there are many different | ||
20026 | input methods in use today, each varying with language, | ||
20027 | culture, and history. A common feature of many input methods is | ||
20028 | that the user may type multiple keystrokes to compose a single | ||
20029 | character (or set of characters). The process of composing | ||
20030 | characters from keystrokes is called preediting. It may require | ||
20031 | complex algorithms and large dictionaries involving substantial | ||
20032 | computer resources. | ||
20033 | |||
20034 | Input methods may require one or more areas in which to show | ||
20035 | the feedback of the actual keystrokes, to propose | ||
20036 | disambiguation to the user, to list dictionaries, and so on. | ||
20037 | The input method areas of concern are as follows: | ||
20038 | * The status area is a logical extension of the LEDs that | ||
20039 | exist on the physical keyboard. It is a window that is | ||
20040 | intended to present the internal state of the input method | ||
20041 | that is critical to the user. The status area may consist | ||
20042 | of text data and bitmaps or some combination. | ||
20043 | * The preedit area displays the intermediate text for those | ||
20044 | languages that are composing prior to the client handling | ||
20045 | the data. | ||
20046 | * The auxiliary area is used for pop-up menus and customizing | ||
20047 | dialogs that may be required for an input method. There may | ||
20048 | be multiple auxiliary areas for an input method. Auxiliary | ||
20049 | areas are managed by the input method independent of the | ||
20050 | client. Auxiliary areas are assumed to be separate dialogs, | ||
20051 | which are maintained by the input method. | ||
20052 | |||
20053 | There are various user interaction styles used for preediting. | ||
20054 | The ones supported by Xlib are as follows: | ||
20055 | * For on-the-spot input methods, preediting data will be | ||
20056 | displayed directly in the application window. Application | ||
20057 | data is moved to allow preedit data to appear at the point | ||
20058 | of insertion. | ||
20059 | * Over-the-spot preediting means that the data is displayed | ||
20060 | in a preedit window that is placed over the point of | ||
20061 | insertion. | ||
20062 | * Off-the-spot preediting means that the preedit window is | ||
20063 | inside the application window but not at the point of | ||
20064 | insertion. Often, this type of window is placed at the | ||
20065 | bottom of the application window. | ||
20066 | * Root-window preediting refers to input methods that use a | ||
20067 | preedit window that is the child of RootWindow. | ||
20068 | |||
20069 | It would require a lot of computing resources if portable | ||
20070 | applications had to include input methods for all the languages | ||
20071 | in the world. To avoid this, a goal of the Xlib design is to | ||
20072 | allow an application to communicate with an input method placed | ||
20073 | in a separate process. Such a process is called an input | ||
20074 | server. The server to which the application should connect is | ||
20075 | dependent on the environment when the application is started | ||
20076 | up, that is, the user language and the actual encoding to be | ||
20077 | used for it. The input method connection is said to be | ||
20078 | locale-dependent. It is also user-dependent. For a given | ||
20079 | language, the user can choose, to some extent, the user | ||
20080 | interface style of input method (if choice is possible among | ||
20081 | several). | ||
20082 | |||
20083 | Using an input server implies communication overhead, but | ||
20084 | applications can be migrated without relinking. Input methods | ||
20085 | can be implemented either as a stub communicating to an input | ||
20086 | server or as a local library. | ||
20087 | |||
20088 | An input method may be based on a front-end or a back-end | ||
20089 | architecture. In a front-end architecture, there are two | ||
20090 | separate connections to the X server: keystrokes go directly | ||
20091 | from the X server to the input method on one connection and | ||
20092 | other events to the regular client connection. The input method | ||
20093 | is then acting as a filter and sends composed strings to the | ||
20094 | client. A front-end architecture requires synchronization | ||
20095 | between the two connections to avoid lost key events or locking | ||
20096 | issues. | ||
20097 | |||
20098 | In a back-end architecture, a single X server connection is | ||
20099 | used. A dispatching mechanism must decide on this channel to | ||
20100 | delegate appropriate keystrokes to the input method. For | ||
20101 | instance, it may retain a Help keystroke for its own purpose. | ||
20102 | In the case where the input method is a separate process (that | ||
20103 | is, a server), there must be a special communication protocol | ||
20104 | between the back-end client and the input server. | ||
20105 | |||
20106 | A front-end architecture introduces synchronization issues and | ||
20107 | a filtering mechanism for noncharacter keystrokes (Function | ||
20108 | keys, Help, and so on). A back-end architecture sometimes | ||
20109 | implies more communication overhead and more process switching. | ||
20110 | If all three processes (X server, input server, client) are | ||
20111 | running on a single workstation, there are two process switches | ||
20112 | for each keystroke in a back-end architecture, but there is | ||
20113 | only one in a front-end architecture. | ||
20114 | |||
20115 | The abstraction used by a client to communicate with an input | ||
20116 | method is an opaque data structure represented by the XIM data | ||
20117 | type. This data structure is returned by the XOpenIM function, | ||
20118 | which opens an input method on a given display. Subsequent | ||
20119 | operations on this data structure encapsulate all communication | ||
20120 | between client and input method. There is no need for an X | ||
20121 | client to use any networking library or natural language | ||
20122 | package to use an input method. | ||
20123 | |||
20124 | A single input server may be used for one or more languages, | ||
20125 | supporting one or more encoding schemes. But the strings | ||
20126 | returned from an input method will always be encoded in the | ||
20127 | (single) locale associated with the XIM object. | ||
20128 | |||
20129 | Input Contexts | ||
20130 | |||
20131 | Xlib provides the ability to manage a multi-threaded state for | ||
20132 | text input. A client may be using multiple windows, each window | ||
20133 | with multiple text entry areas, and the user possibly switching | ||
20134 | among them at any time. The abstraction for representing the | ||
20135 | state of a particular input thread is called an input context. | ||
20136 | The Xlib representation of an input context is an XIC. | ||
20137 | |||
20138 | An input context is the abstraction retaining the state, | ||
20139 | properties, and semantics of communication between a client and | ||
20140 | an input method. An input context is a combination of an input | ||
20141 | method, a locale specifying the encoding of the character | ||
20142 | strings to be returned, a client window, internal state | ||
20143 | information, and various layout or appearance characteristics. | ||
20144 | The input context concept somewhat matches for input the | ||
20145 | graphics context abstraction defined for graphics output. | ||
20146 | |||
20147 | One input context belongs to exactly one input method. | ||
20148 | Different input contexts may be associated with the same input | ||
20149 | method, possibly with the same client window. An XIC is created | ||
20150 | with the XCreateIC function, providing an XIM argument and | ||
20151 | affiliating the input context to the input method for its | ||
20152 | lifetime. When an input method is closed with XCloseIM, all of | ||
20153 | its affiliated input contexts should not be used any more (and | ||
20154 | should preferably be destroyed before closing the input | ||
20155 | method). | ||
20156 | |||
20157 | Considering the example of a client window with multiple text | ||
20158 | entry areas, the application programmer could, for example, | ||
20159 | choose to implement as follows: | ||
20160 | * As many input contexts are created as text entry areas, and | ||
20161 | the client will get the input accumulated on each context | ||
20162 | each time it looks up in that context. | ||
20163 | * A single context is created for a top-level window in the | ||
20164 | application. If such a window contains several text entry | ||
20165 | areas, each time the user moves to another text entry area, | ||
20166 | the client has to indicate changes in the context. | ||
20167 | |||
20168 | A range of choices can be made by application designers to use | ||
20169 | either a single or multiple input contexts, according to the | ||
20170 | needs of their application. | ||
20171 | |||
20172 | Getting Keyboard Input | ||
20173 | |||
20174 | To obtain characters from an input method, a client must call | ||
20175 | the function XmbLookupString or XwcLookupString with an input | ||
20176 | context created from that input method. Both a locale and | ||
20177 | display are bound to an input method when it is opened, and an | ||
20178 | input context inherits this locale and display. Any strings | ||
20179 | returned by XmbLookupString or XwcLookupString will be encoded | ||
20180 | in that locale. | ||
20181 | |||
20182 | Focus Management | ||
20183 | |||
20184 | For each text entry area in which the XmbLookupString or | ||
20185 | XwcLookupString functions are used, there will be an associated | ||
20186 | input context. | ||
20187 | |||
20188 | When the application focus moves to a text entry area, the | ||
20189 | application must set the input context focus to the input | ||
20190 | context associated with that area. The input context focus is | ||
20191 | set by calling XSetICFocus with the appropriate input context. | ||
20192 | |||
20193 | Also, when the application focus moves out of a text entry | ||
20194 | area, the application should unset the focus for the associated | ||
20195 | input context by calling XUnsetICFocus. As an optimization, if | ||
20196 | XSetICFocus is called successively on two different input | ||
20197 | contexts, setting the focus on the second will automatically | ||
20198 | unset the focus on the first. | ||
20199 | |||
20200 | To set and unset the input context focus correctly, it is | ||
20201 | necessary to track application-level focus changes. Such focus | ||
20202 | changes do not necessarily correspond to X server focus | ||
20203 | changes. | ||
20204 | |||
20205 | If a single input context is being used to do input for | ||
20206 | multiple text entry areas, it will also be necessary to set the | ||
20207 | focus window of the input context whenever the focus window | ||
20208 | changes (see section 13.5.6.3). | ||
20209 | |||
20210 | Geometry Management | ||
20211 | |||
20212 | In most input method architectures (on-the-spot being the | ||
20213 | notable exception), the input method will perform the display | ||
20214 | of its own data. To provide better visual locality, it is often | ||
20215 | desirable to have the input method areas embedded within a | ||
20216 | client. To do this, the client may need to allocate space for | ||
20217 | an input method. Xlib provides support that allows the size and | ||
20218 | position of input method areas to be provided by a client. The | ||
20219 | input method areas that are supported for geometry management | ||
20220 | are the status area and the preedit area. | ||
20221 | |||
20222 | The fundamental concept on which geometry management for input | ||
20223 | method windows is based is the proper division of | ||
20224 | responsibilities between the client (or toolkit) and the input | ||
20225 | method. The division of responsibilities is as follows: | ||
20226 | * The client is responsible for the geometry of the input | ||
20227 | method window. | ||
20228 | * The input method is responsible for the contents of the | ||
20229 | input method window. | ||
20230 | |||
20231 | An input method is able to suggest a size to the client, but it | ||
20232 | cannot suggest a placement. Also the input method can only | ||
20233 | suggest a size. It does not determine the size, and it must | ||
20234 | accept the size it is given. | ||
20235 | |||
20236 | Before a client provides geometry management for an input | ||
20237 | method, it must determine if geometry management is needed. The | ||
20238 | input method indicates the need for geometry management by | ||
20239 | setting XIMPreeditArea or XIMStatusArea in its XIMStyles value | ||
20240 | returned by XGetIMValues. When a client has decided that it | ||
20241 | will provide geometry management for an input method, it | ||
20242 | indicates that decision by setting the XNInputStyle value in | ||
20243 | the XIC. | ||
20244 | |||
20245 | After a client has established with the input method that it | ||
20246 | will do geometry management, the client must negotiate the | ||
20247 | geometry with the input method. The geometry is negotiated by | ||
20248 | the following steps: | ||
20249 | * The client suggests an area to the input method by setting | ||
20250 | the XNAreaNeeded value for that area. If the client has no | ||
20251 | constraints for the input method, it either will not | ||
20252 | suggest an area or will set the width and height to zero. | ||
20253 | Otherwise, it will set one of the values. | ||
20254 | * The client will get the XIC value XNAreaNeeded. The input | ||
20255 | method will return its suggested size in this value. The | ||
20256 | input method should pay attention to any constraints | ||
20257 | suggested by the client. | ||
20258 | * The client sets the XIC value XNArea to inform the input | ||
20259 | method of the geometry of its window. The client should try | ||
20260 | to honor the geometry requested by the input method. The | ||
20261 | input method must accept this geometry. | ||
20262 | |||
20263 | Clients doing geometry management must be aware that setting | ||
20264 | other XIC values may affect the geometry desired by an input | ||
20265 | method. For example, XNFontSet and XNLineSpace may change the | ||
20266 | geometry desired by the input method. | ||
20267 | |||
20268 | The table of XIC values (see section 13.5.6) indicates the | ||
20269 | values that can cause the desired geometry to change when they | ||
20270 | are set. It is the responsibility of the client to renegotiate | ||
20271 | the geometry of the input method window when it is needed. | ||
20272 | |||
20273 | In addition, a geometry management callback is provided by | ||
20274 | which an input method can initiate a geometry change. | ||
20275 | |||
20276 | Event Filtering | ||
20277 | |||
20278 | A filtering mechanism is provided to allow input methods to | ||
20279 | capture X events transparently to clients. It is expected that | ||
20280 | toolkits (or clients) using XmbLookupString or XwcLookupString | ||
20281 | will call this filter at some point in the event processing | ||
20282 | mechanism to make sure that events needed by an input method | ||
20283 | can be filtered by that input method. | ||
20284 | |||
20285 | If there were no filter, a client could receive and discard | ||
20286 | events that are necessary for the proper functioning of an | ||
20287 | input method. The following provides a few examples of such | ||
20288 | events: | ||
20289 | * Expose events on preedit window in local mode. | ||
20290 | * Events may be used by an input method to communicate with | ||
20291 | an input server. Such input server protocol-related events | ||
20292 | have to be intercepted if one does not want to disturb | ||
20293 | client code. | ||
20294 | * Key events can be sent to a filter before they are bound to | ||
20295 | translations such as those the X Toolkit Intrinsics library | ||
20296 | provides. | ||
20297 | |||
20298 | Clients are expected to get the XIC value XNFilterEvents and | ||
20299 | augment the event mask for the client window with that event | ||
20300 | mask. This mask may be zero. | ||
20301 | |||
20302 | Callbacks | ||
20303 | |||
20304 | When an on-the-spot input method is implemented, only the | ||
20305 | client can insert or delete preedit data in place and possibly | ||
20306 | scroll existing text. This means that the echo of the | ||
20307 | keystrokes has to be achieved by the client itself, tightly | ||
20308 | coupled with the input method logic. | ||
20309 | |||
20310 | When the user enters a keystroke, the client calls | ||
20311 | XmbLookupString or XwcLookupString. At this point, in the | ||
20312 | on-the-spot case, the echo of the keystroke in the preedit has | ||
20313 | not yet been done. Before returning to the client logic that | ||
20314 | handles the input characters, the look-up function must call | ||
20315 | the echoing logic to insert the new keystroke. If the | ||
20316 | keystrokes entered so far make up a character, the keystrokes | ||
20317 | entered need to be deleted, and the composed character will be | ||
20318 | returned. Hence, what happens is that, while being called by | ||
20319 | client code, the input method logic has to call back to the | ||
20320 | client before it returns. The client code, that is, a callback | ||
20321 | procedure, is called from the input method logic. | ||
20322 | |||
20323 | There are a number of cases where the input method logic has to | ||
20324 | call back the client. Each of those cases is associated with a | ||
20325 | well-defined callback action. It is possible for the client to | ||
20326 | specify, for each input context, what callback is to be called | ||
20327 | for each action. | ||
20328 | |||
20329 | There are also callbacks provided for feedback of status | ||
20330 | information and a callback to initiate a geometry request for | ||
20331 | an input method. | ||
20332 | |||
20333 | Visible Position Feedback Masks | ||
20334 | |||
20335 | In the on-the-spot input style, there is a problem when | ||
20336 | attempting to draw preedit strings that are longer than the | ||
20337 | available space. Once the display area is exceeded, it is not | ||
20338 | clear how best to display the preedit string. The visible | ||
20339 | position feedback masks of XIMText help resolve this problem by | ||
20340 | allowing the input method to specify hints that indicate the | ||
20341 | essential portions of the preedit string. For example, such | ||
20342 | hints can help developers implement scrolling of a long preedit | ||
20343 | string within a short preedit display area. | ||
20344 | |||
20345 | Preedit String Management | ||
20346 | |||
20347 | As highlighted before, the input method architecture provides | ||
20348 | preediting, which supports a type of preprocessor input | ||
20349 | composition. In this case, composition consists of interpreting | ||
20350 | a sequence of key events and returning a committed string via | ||
20351 | XmbLookupString or XwcLookupString. This provides the basics | ||
20352 | for input methods. | ||
20353 | |||
20354 | In addition to preediting based on key events, a general | ||
20355 | framework is provided to give a client that desires it more | ||
20356 | advanced preediting based on the text within the client. This | ||
20357 | framework is called string conversion and is provided using XIC | ||
20358 | values. The fundamental concept of string conversion is to | ||
20359 | allow the input method to manipulate the client's text | ||
20360 | independent of any user preediting operation. | ||
20361 | |||
20362 | The need for string conversion is based on language needs and | ||
20363 | input method capabilities. The following are some examples of | ||
20364 | string conversion: | ||
20365 | * Transliteration conversion provides language-specific | ||
20366 | conversions within the input method. In the case of Korean | ||
20367 | input, users wish to convert a Hangul string into a Hanja | ||
20368 | string while in preediting, after preediting, or in other | ||
20369 | situations (for example, on a selected string). The | ||
20370 | conversion is triggered when the user presses a | ||
20371 | Hangul-to-Hanja key sequence (which may be input method | ||
20372 | specific). Sometimes the user may want to invoke the | ||
20373 | conversion after finishing preediting or on a user-selected | ||
20374 | string. Thus, the string to be converted is in an | ||
20375 | application buffer, not in the preedit area of the input | ||
20376 | method. The string conversion services allow the client to | ||
20377 | request this transliteration conversion from the input | ||
20378 | method. There are many other transliteration conversions | ||
20379 | defined for various languages, for example, Kana-to-Kanji | ||
20380 | conversion in Japanese. The key to remember is that | ||
20381 | transliteration conversions are triggered at the request of | ||
20382 | the user and returned to the client immediately without | ||
20383 | affecting the preedit area of the input method. | ||
20384 | * Reconversion of a previously committed string or a selected | ||
20385 | string is supported by many input methods as a convenience | ||
20386 | to the user. For example, a user tends to mistype the | ||
20387 | commit key while preediting. In that case, some input | ||
20388 | methods provide a special key sequence to request a | ||
20389 | ``reconvert'' operation on the committed string, similiar | ||
20390 | to the undo facility provided by most text editors. Another | ||
20391 | example is where the user is proofreading a document that | ||
20392 | has some misconversions from preediting and wants to | ||
20393 | correct the misconverted text. Such reconversion is again | ||
20394 | triggered by the user invoking some special action, but | ||
20395 | reconversions should not affect the state of the preedit | ||
20396 | area. | ||
20397 | * Context-sensitive conversion is required for some languages | ||
20398 | and input methods that need to retrieve text that surrounds | ||
20399 | the current spot location (cursor position) of the client's | ||
20400 | buffer. Such text is needed when the preediting operation | ||
20401 | depends on some surrounding characters (usually preceding | ||
20402 | the spot location). For example, in Thai language input, | ||
20403 | certain character sequences may be invalid and the input | ||
20404 | method may want to check whether characters constitute a | ||
20405 | valid word. Input methods that do such context-dependent | ||
20406 | checking need to retrieve the characters surrounding the | ||
20407 | current cursor position to obtain complete words. Unlike | ||
20408 | other conversions, this conversion is not explicitly | ||
20409 | requested by the user. Input methods that provide such | ||
20410 | context-sensitive conversion continuously need to request | ||
20411 | context from the client, and any change in the context of | ||
20412 | the spot location may affect such conversions. The client's | ||
20413 | context would be needed if the user moves the cursor and | ||
20414 | starts editing again. For this reason, an input method | ||
20415 | supporting this type of conversion should take notice of | ||
20416 | when the client calls XmbResetIC or XwcResetIC, which is | ||
20417 | usually an indication of a context change. | ||
20418 | |||
20419 | Context-sensitive conversions just need a copy of the client's | ||
20420 | text, while other conversions replace the client's text with | ||
20421 | new text to achieve the reconversion or transliteration. Yet in | ||
20422 | all cases the result of a conversion, either immediately or via | ||
20423 | preediting, is returned by the XmbLookupString and | ||
20424 | XwcLookupString functions. | ||
20425 | |||
20426 | String conversion support is dependent on the availability of | ||
20427 | the XNStringConversion or XNStringConversionCallback XIC | ||
20428 | values. Because the input method may not support string | ||
20429 | conversions, clients have to query the availability of string | ||
20430 | conversion operations by checking the supported XIC values list | ||
20431 | by calling XGetIMValues with the XNQueryICValuesList IM value. | ||
20432 | |||
20433 | The difference between these two values is whether the | ||
20434 | conversion is invoked by the client or the input method. The | ||
20435 | XNStringConversion XIC value is used by clients to request a | ||
20436 | string conversion from the input method. The client is | ||
20437 | responsible for determining which events are used to trigger | ||
20438 | the string conversion and whether the string to be converted | ||
20439 | should be copied or deleted. The type of conversion is | ||
20440 | determined by the input method; the client can only pass the | ||
20441 | string to be converted. The client is guaranteed that no | ||
20442 | XNStringConversionCallback will be issued when this value is | ||
20443 | set; thus, the client need only set one of these values. | ||
20444 | |||
20445 | The XNStringConversionCallback XIC value is used by the client | ||
20446 | to notify the input method that it will accept requests from | ||
20447 | the input method for string conversion. If this value is set, | ||
20448 | it is the input method's responsibility to determine which | ||
20449 | events are used to trigger the string conversion. When such | ||
20450 | events occur, the input method issues a call to the | ||
20451 | client-supplied procedure to retrieve the string to be | ||
20452 | converted. The client's callback procedure is notified whether | ||
20453 | to copy or delete the string and is provided with hints as to | ||
20454 | the amount of text needed. The | ||
20455 | XIMStringConversionCallbackStruct specifies which text should | ||
20456 | be passed back to the input method. | ||
20457 | |||
20458 | Finally, the input method may call the client's | ||
20459 | XNStringConversionCallback procedure multiple times if the | ||
20460 | string returned from the callback is not sufficient to perform | ||
20461 | a successful conversion. The arguments to the client's | ||
20462 | procedure allow the input method to define a position (in | ||
20463 | character units) relative to the client's cursor position and | ||
20464 | the size of the text needed. By varying the position and size | ||
20465 | of the desired text in subsequent callbacks, the input method | ||
20466 | can retrieve additional text. | ||
20467 | |||
20468 | Input Method Management | ||
20469 | |||
20470 | The interface to input methods might appear to be simply | ||
20471 | creating an input method (XOpenIM) and freeing an input method | ||
20472 | (XCloseIM). However, input methods may require complex | ||
20473 | communication with input method servers (IM servers), for | ||
20474 | example: | ||
20475 | * If the X server, IM server, and X clients are started | ||
20476 | asynchronously, some clients may attempt to connect to the | ||
20477 | IM server before it is fully operational, and fail. | ||
20478 | Therefore, some mechanism is needed to allow clients to | ||
20479 | detect when an IM server has started. | ||
20480 | |||
20481 | It is up to clients to decide what should be done when an IM | ||
20482 | server is not available (for example, wait, or use some other | ||
20483 | IM server). | ||
20484 | |||
20485 | * Some input methods may allow the underlying IM server to be | ||
20486 | switched. Such customization may be desired without | ||
20487 | restarting the entire client. | ||
20488 | |||
20489 | To support management of input methods in these cases, the | ||
20490 | following functions are provided: | ||
20491 | XRegisterIMInstantiateCallback This function allows clients to | ||
20492 | register a callback procedure to be called when Xlib detects | ||
20493 | that an IM server is up and available. | ||
20494 | XOpenIM A client calls this function as a result of the | ||
20495 | callback procedure being called. | ||
20496 | XSetIMValues, XSetICValues These functions use the XIM and XIC | ||
20497 | values, XNDestroyCallback, to allow a client to register a | ||
20498 | callback procedure to be called when Xlib detects that an IM | ||
20499 | server that was associated with an opened input method is no | ||
20500 | longer available. In addition, this function can be used to | ||
20501 | switch IM servers for those input methods that support such | ||
20502 | functionality. The IM value for switching IM servers is | ||
20503 | implementation-dependent; see the description below about | ||
20504 | switching IM servers. | ||
20505 | XUnregisterIMInstantiateCallback This function removes a | ||
20506 | callback procedure registered by the client. | ||
20507 | |||
20508 | Input methods that support switching of IM servers may exhibit | ||
20509 | some side-effects: | ||
20510 | * The input method will ensure that any new IM server | ||
20511 | supports any of the input styles being used by input | ||
20512 | contexts already associated with the input method. However, | ||
20513 | the list of supported input styles may be different. | ||
20514 | |||
20515 | * Geometry management requests on previously created input | ||
20516 | contexts may be initiated by the new IM server. | ||
20517 | |||
20518 | Hot Keys | ||
20519 | |||
20520 | Some clients need to guarantee which keys can be used to escape | ||
20521 | from the input method, regardless of the input method state; | ||
20522 | for example, the client-specific Help key or the keys to move | ||
20523 | the input focus. The HotKey mechanism allows clients to specify | ||
20524 | a set of keys for this purpose. However, the input method might | ||
20525 | not allow clients to specify hot keys. Therefore, clients have | ||
20526 | to query support of hot keys by checking the supported XIC | ||
20527 | values list by calling XGetIMValues with the | ||
20528 | XNQueryICValuesList IM value. When the hot keys specified | ||
20529 | conflict with the key bindings of the input method, hot keys | ||
20530 | take precedence over the key bindings of the input method. | ||
20531 | |||
20532 | Preedit State Operation | ||
20533 | |||
20534 | An input method may have several internal states, depending on | ||
20535 | its implementation and the locale. However, one state that is | ||
20536 | independent of locale and implementation is whether the input | ||
20537 | method is currently performing a preediting operation. Xlib | ||
20538 | provides the ability for an application to manage the preedit | ||
20539 | state programmatically. Two methods are provided for retrieving | ||
20540 | the preedit state of an input context. One method is to query | ||
20541 | the state by calling XGetICValues with the XNPreeditState XIC | ||
20542 | value. Another method is to receive notification whenever the | ||
20543 | preedit state is changed. To receive such notification, an | ||
20544 | application needs to register a callback by calling | ||
20545 | XSetICValues with the XNPreeditStateNotifyCallback XIC value. | ||
20546 | In order to change the preedit state programmatically, an | ||
20547 | application needs to call XSetICValues with XNPreeditState. | ||
20548 | |||
20549 | Availability of the preedit state is input method dependent. | ||
20550 | The input method may not provide the ability to set the state | ||
20551 | or to retrieve the state programmatically. Therefore, clients | ||
20552 | have to query availability of preedit state operations by | ||
20553 | checking the supported XIC values list by calling XGetIMValues | ||
20554 | with the XNQueryICValuesList IM value. | ||
20555 | |||
20556 | Input Method Functions | ||
20557 | |||
20558 | To open a connection, use XOpenIM. | ||
20559 | |||
20560 | XIM XOpenIM(Display *display, XrmDatabase db, char *res_name, | ||
20561 | char *res_class); | ||
20562 | |||
20563 | display | ||
20564 | |||
20565 | Specifies the connection to the X server. | ||
20566 | |||
20567 | db | ||
20568 | |||
20569 | Specifies a pointer to the resource database. | ||
20570 | |||
20571 | res_name | ||
20572 | |||
20573 | Specifies the full resource name of the application. | ||
20574 | |||
20575 | res_class | ||
20576 | |||
20577 | Specifies the full class name of the application. | ||
20578 | |||
20579 | The XOpenIM function opens an input method, matching the | ||
20580 | current locale and modifiers specification. Current locale and | ||
20581 | modifiers are bound to the input method at opening time. The | ||
20582 | locale associated with an input method cannot be changed | ||
20583 | dynamically. This implies that the strings returned by | ||
20584 | XmbLookupString or XwcLookupString, for any input context | ||
20585 | affiliated with a given input method, will be encoded in the | ||
20586 | locale current at the time the input method is opened. | ||
20587 | |||
20588 | The specific input method to which this call will be routed is | ||
20589 | identified on the basis of the current locale. XOpenIM will | ||
20590 | identify a default input method corresponding to the current | ||
20591 | locale. That default can be modified using XSetLocaleModifiers | ||
20592 | for the input method modifier. | ||
20593 | |||
20594 | The db argument is the resource database to be used by the | ||
20595 | input method for looking up resources that are private to the | ||
20596 | input method. It is not intended that this database be used to | ||
20597 | look up values that can be set as IC values in an input | ||
20598 | context. If db is NULL, no database is passed to the input | ||
20599 | method. | ||
20600 | |||
20601 | The res_name and res_class arguments specify the resource name | ||
20602 | and class of the application. They are intended to be used as | ||
20603 | prefixes by the input method when looking up resources that are | ||
20604 | common to all input contexts that may be created for this input | ||
20605 | method. The characters used for resource names and classes must | ||
20606 | be in the X Portable Character Set. The resources looked up are | ||
20607 | not fully specified if res_name or res_class is NULL. | ||
20608 | |||
20609 | The res_name and res_class arguments are not assumed to exist | ||
20610 | beyond the call to XOpenIM. The specified resource database is | ||
20611 | assumed to exist for the lifetime of the input method. | ||
20612 | |||
20613 | XOpenIM returns NULL if no input method could be opened. | ||
20614 | |||
20615 | To close a connection, use XCloseIM. | ||
20616 | |||
20617 | Status XCloseIM(XIM im); | ||
20618 | |||
20619 | im | ||
20620 | |||
20621 | Specifies the input method. | ||
20622 | |||
20623 | The XCloseIM function closes the specified input method. | ||
20624 | |||
20625 | To set input method attributes, use XSetIMValues. | ||
20626 | |||
20627 | char *XSetIMValues(XIM im); | ||
20628 | |||
20629 | im | ||
20630 | |||
20631 | Specifies the input method. | ||
20632 | |||
20633 | ... | ||
20634 | |||
20635 | Specifies the variable-length argument list to set XIM values. | ||
20636 | |||
20637 | The XSetIMValues function presents a variable argument list | ||
20638 | programming interface for setting attributes of the specified | ||
20639 | input method. It returns NULL if it succeeds; otherwise, it | ||
20640 | returns the name of the first argument that could not be set. | ||
20641 | Xlib does not attempt to set arguments from the supplied list | ||
20642 | that follow the failed argument; all arguments in the list | ||
20643 | preceding the failed argument have been set correctly. | ||
20644 | |||
20645 | To query an input method, use XGetIMValues. | ||
20646 | |||
20647 | char *XGetIMValues(XIM im); | ||
20648 | |||
20649 | im | ||
20650 | |||
20651 | Specifies the input method. | ||
20652 | |||
20653 | ... | ||
20654 | |||
20655 | Specifies the variable length argument list to get XIM values. | ||
20656 | |||
20657 | The XGetIMValues function presents a variable argument list | ||
20658 | programming interface for querying properties or features of | ||
20659 | the specified input method. This function returns NULL if it | ||
20660 | succeeds; otherwise, it returns the name of the first argument | ||
20661 | that could not be obtained. | ||
20662 | |||
20663 | Each XIM value argument (following a name) must point to a | ||
20664 | location where the XIM value is to be stored. That is, if the | ||
20665 | XIM value is of type T, the argument must be of type T*. If T | ||
20666 | itself is a pointer type, then XGetIMValues allocates memory to | ||
20667 | store the actual data, and the client is responsible for | ||
20668 | freeing this data by calling XFree with the returned pointer. | ||
20669 | |||
20670 | To obtain the display associated with an input method, use | ||
20671 | XDisplayOfIM. | ||
20672 | |||
20673 | Display *XDisplayOfIM(XIM im); | ||
20674 | |||
20675 | im | ||
20676 | |||
20677 | Specifies the input method. | ||
20678 | |||
20679 | The XDisplayOfIM function returns the display associated with | ||
20680 | the specified input method. | ||
20681 | |||
20682 | To get the locale associated with an input method, use | ||
20683 | XLocaleOfIM. | ||
20684 | |||
20685 | char *XLocaleOfIM(XIM im); | ||
20686 | |||
20687 | im | ||
20688 | |||
20689 | Specifies the input method. | ||
20690 | |||
20691 | The XLocaleOfIM function returns the locale associated with the | ||
20692 | specified input method. | ||
20693 | |||
20694 | To register an input method instantiate callback, use | ||
20695 | XRegisterIMInstantiateCallback. | ||
20696 | |||
20697 | Bool XRegisterIMInstantiateCallback(Display *display, | ||
20698 | XrmDatabase db, char *res_name, char *res_class, XIMProc | ||
20699 | callback, XPointer *client_data); | ||
20700 | |||
20701 | display | ||
20702 | |||
20703 | Specifies the connection to the X server. | ||
20704 | |||
20705 | db | ||
20706 | |||
20707 | Specifies a pointer to the resource database. | ||
20708 | |||
20709 | res_name | ||
20710 | |||
20711 | Specifies the full resource name of the application. | ||
20712 | |||
20713 | res_class | ||
20714 | |||
20715 | Specifies the full class name of the application. | ||
20716 | |||
20717 | callback | ||
20718 | |||
20719 | Specifies a pointer to the input method instantiate callback. | ||
20720 | |||
20721 | client_data | ||
20722 | |||
20723 | Specifies the additional client data. | ||
20724 | |||
20725 | The XRegisterIMInstantiateCallback function registers a | ||
20726 | callback to be invoked whenever a new input method becomes | ||
20727 | available for the specified display that matches the current | ||
20728 | locale and modifiers. | ||
20729 | |||
20730 | The function returns True if it succeeds; otherwise, it returns | ||
20731 | False. | ||
20732 | |||
20733 | The generic prototype is as follows: | ||
20734 | |||
20735 | void IMInstantiateCallback(Display *display, XPointer | ||
20736 | client_data, XPointer call_data); | ||
20737 | |||
20738 | display | ||
20739 | |||
20740 | Specifies the connection to the X server. | ||
20741 | |||
20742 | client_data | ||
20743 | |||
20744 | Specifies the additional client data. | ||
20745 | |||
20746 | call_data | ||
20747 | |||
20748 | Not used for this callback and always passed as NULL. | ||
20749 | |||
20750 | To unregister an input method instantiation callback, use | ||
20751 | XUnregisterIMInstantiateCallback. | ||
20752 | |||
20753 | Bool XUnregisterIMInstantiateCallback(Display *display, | ||
20754 | XrmDatabase db, char *res_name, char *res_class, XIMProc | ||
20755 | callback, XPointer *client_data); | ||
20756 | |||
20757 | display | ||
20758 | |||
20759 | Specifies the connection to the X server. | ||
20760 | |||
20761 | db | ||
20762 | |||
20763 | Specifies a pointer to the resource database. | ||
20764 | |||
20765 | res_name | ||
20766 | |||
20767 | Specifies the full resource name of the application. | ||
20768 | |||
20769 | res_class | ||
20770 | |||
20771 | Specifies the full class name of the application. | ||
20772 | |||
20773 | callback | ||
20774 | |||
20775 | Specifies a pointer to the input method instantiate callback. | ||
20776 | |||
20777 | client_data | ||
20778 | |||
20779 | Specifies the additional client data. | ||
20780 | |||
20781 | The XUnregisterIMInstantiateCallback function removes an input | ||
20782 | method instantiation callback previously registered. The | ||
20783 | function returns True if it succeeds; otherwise, it returns | ||
20784 | False. | ||
20785 | |||
20786 | Input Method Values | ||
20787 | |||
20788 | The following table describes how XIM values are interpreted by | ||
20789 | an input method. The first column lists the XIM values. The | ||
20790 | second column indicates how each of the XIM values are treated | ||
20791 | by that input style. | ||
20792 | |||
20793 | The following keys apply to this table. | ||
20794 | Key Explanation | ||
20795 | D This value may be set using XSetIMValues. If it is not set, a | ||
20796 | default is provided. | ||
20797 | S This value may be set using XSetIMValues. | ||
20798 | G This value may be read using XGetIMValues. | ||
20799 | |||
20800 | XIM Value Key | ||
20801 | XNQueryInputStyle G | ||
20802 | XNResourceName D-S-G | ||
20803 | XNResourceClass D-S-G | ||
20804 | XNDestroyCallback D-S-G | ||
20805 | XNQueryIMValuesList G | ||
20806 | XNQueryICValuesList G | ||
20807 | XNVisiblePosition G | ||
20808 | XNR6PreeditCallback D-S-G | ||
20809 | |||
20810 | XNR6PreeditCallback is obsolete and its use is not recommended | ||
20811 | (see section 13.5.4.6). | ||
20812 | |||
20813 | Query Input Style | ||
20814 | |||
20815 | A client should always query the input method to determine | ||
20816 | which input styles are supported. The client should then find | ||
20817 | an input style it is capable of supporting. | ||
20818 | |||
20819 | If the client cannot find an input style that it can support, | ||
20820 | it should negotiate with the user the continuation of the | ||
20821 | program (exit, choose another input method, and so on). | ||
20822 | |||
20823 | The argument value must be a pointer to a location where the | ||
20824 | returned value will be stored. The returned value is a pointer | ||
20825 | to a structure of type XIMStyles. Clients are responsible for | ||
20826 | freeing the XIMStyles structure. To do so, use XFree. | ||
20827 | |||
20828 | The XIMStyles structure is defined as follows: | ||
20829 | typedef unsigned long XIMStyle; | ||
20830 | |||
20831 | |||
20832 | #define XIMPreeditArea 0x0001L | ||
20833 | #define XIMPreeditCallbacks 0x0002L | ||
20834 | #define XIMPreeditPosition 0x0004L | ||
20835 | #define XIMPreeditNothing 0x0008L | ||
20836 | #define XIMPreeditNone 0x0010L | ||
20837 | |||
20838 | #define XIMStatusArea 0x0100L | ||
20839 | #define XIMStatusCallbacks 0x0200L | ||
20840 | #define XIMStatusNothing 0x0400L | ||
20841 | #define XIMStatusNone 0x0800L | ||
20842 | |||
20843 | typedef struct { | ||
20844 | unsigned short count_styles; | ||
20845 | XIMStyle * supported_styles; | ||
20846 | } XIMStyles; | ||
20847 | |||
20848 | |||
20849 | An XIMStyles structure contains the number of input styles | ||
20850 | supported in its count_styles field. This is also the size of | ||
20851 | the supported_styles array. | ||
20852 | |||
20853 | The supported styles is a list of bitmask combinations, which | ||
20854 | indicate the combination of styles for each of the areas | ||
20855 | supported. These areas are described later. Each element in the | ||
20856 | list should select one of the bitmask values for each area. The | ||
20857 | list describes the complete set of combinations supported. Only | ||
20858 | these combinations are supported by the input method. | ||
20859 | |||
20860 | The preedit category defines what type of support is provided | ||
20861 | by the input method for preedit information. | ||
20862 | XIMPreeditArea If chosen, the input method would require the | ||
20863 | client to provide some area values for it to do its preediting. | ||
20864 | Refer to XIC values XNArea and XNAreaNeeded. | ||
20865 | XIMPreeditPosition If chosen, the input method would require | ||
20866 | the client to provide positional values. Refer to XIC values | ||
20867 | XNSpotLocation and XNFocusWindow. | ||
20868 | XIMPreeditCallbacks If chosen, the input method would require | ||
20869 | the client to define the set of preedit callbacks. Refer to XIC | ||
20870 | values XNPreeditStartCallback, XNPreeditDoneCallback, | ||
20871 | XNPreeditDrawCallback, and XNPreeditCaretCallback. | ||
20872 | XIMPreeditNothing If chosen, the input method can function | ||
20873 | without any preedit values. | ||
20874 | XIMPreeditNone The input method does not provide any preedit | ||
20875 | feedback. Any preedit value is ignored. This style is mutually | ||
20876 | exclusive with the other preedit styles. | ||
20877 | |||
20878 | The status category defines what type of support is provided by | ||
20879 | the input method for status information. | ||
20880 | XIMStatusArea The input method requires the client to provide | ||
20881 | some area values for it to do its status feedback. See XNArea | ||
20882 | and XNAreaNeeded. | ||
20883 | XIMStatusCallbacks The input method requires the client to | ||
20884 | define the set of status callbacks, XNStatusStartCallback, | ||
20885 | XNStatusDoneCallback, and XNStatusDrawCallback. | ||
20886 | XIMStatusNothing The input method can function without any | ||
20887 | status values. | ||
20888 | XIMStatusNone The input method does not provide any status | ||
20889 | feedback. If chosen, any status value is ignored. This style is | ||
20890 | mutually exclusive with the other status styles. | ||
20891 | |||
20892 | Resource Name and Class | ||
20893 | |||
20894 | The XNResourceName and XNResourceClass arguments are strings | ||
20895 | that specify the full name and class used by the input method. | ||
20896 | These values should be used as prefixes for the name and class | ||
20897 | when looking up resources that may vary according to the input | ||
20898 | method. If these values are not set, the resources will not be | ||
20899 | fully specified. | ||
20900 | |||
20901 | It is not intended that values that can be set as XIM values be | ||
20902 | set as resources. | ||
20903 | |||
20904 | Destroy Callback | ||
20905 | |||
20906 | The XNDestroyCallback argument is a pointer to a structure of | ||
20907 | type XIMCallback. XNDestroyCallback is triggered when an input | ||
20908 | method stops its service for any reason. After the callback is | ||
20909 | invoked, the input method is closed and the associated input | ||
20910 | context(s) are destroyed by Xlib. Therefore, the client should | ||
20911 | not call XCloseIM or XDestroyIC. | ||
20912 | |||
20913 | The generic prototype of this callback function is as follows: | ||
20914 | |||
20915 | void DestroyCallback(XIM im, XPointer client_data, XPointer | ||
20916 | call_data); | ||
20917 | |||
20918 | im | ||
20919 | |||
20920 | Specifies the input method. | ||
20921 | |||
20922 | client_data | ||
20923 | |||
20924 | Specifies the additional client data. | ||
20925 | |||
20926 | call_data | ||
20927 | |||
20928 | Not used for this callback and always passed as NULL. | ||
20929 | |||
20930 | A DestroyCallback is always called with a NULL call_data | ||
20931 | argument. | ||
20932 | |||
20933 | Query IM/IC Values List | ||
20934 | |||
20935 | XNQueryIMValuesList and XNQueryICValuesList are used to query | ||
20936 | about XIM and XIC values supported by the input method. | ||
20937 | |||
20938 | The argument value must be a pointer to a location where the | ||
20939 | returned value will be stored. The returned value is a pointer | ||
20940 | to a structure of type XIMValuesList. Clients are responsible | ||
20941 | for freeing the XIMValuesList structure. To do so, use XFree. | ||
20942 | |||
20943 | The XIMValuesList structure is defined as follows: | ||
20944 | |||
20945 | |||
20946 | typedef struct { | ||
20947 | unsigned short count_values; | ||
20948 | char **supported_values; | ||
20949 | } XIMValuesList; | ||
20950 | |||
20951 | Visible Position | ||
20952 | |||
20953 | The XNVisiblePosition argument indicates whether the visible | ||
20954 | position masks of XIMFeedback in XIMText are available. | ||
20955 | |||
20956 | The argument value must be a pointer to a location where the | ||
20957 | returned value will be stored. The returned value is of type | ||
20958 | Bool. If the returned value is True, the input method uses the | ||
20959 | visible position masks of XIMFeedback in XIMText; otherwise, | ||
20960 | the input method does not use the masks. | ||
20961 | |||
20962 | Because this XIM value is optional, a client should call | ||
20963 | XGetIMValues with argument XNQueryIMValuesList before using | ||
20964 | this argument. If the XNVisiblePosition does not exist in the | ||
20965 | IM values list returned from XNQueryIMValuesList, the visible | ||
20966 | position masks of XIMFeedback in XIMText are not used to | ||
20967 | indicate the visible position. | ||
20968 | |||
20969 | Preedit Callback Behavior | ||
20970 | |||
20971 | The XNR6PreeditCallback argument originally included in the | ||
20972 | X11R6 specification has been deprecated.\(dg During formulation | ||
20973 | of the X11R6 specification, the behavior of the R6 | ||
20974 | PreeditDrawCallbacks was going to differ significantly from | ||
20975 | that of the R5 callbacks. Late changes to the specification | ||
20976 | converged the R5 and R6 behaviors, eliminating the need for | ||
20977 | XNR6PreeditCallback. Unfortunately, this argument was not | ||
20978 | removed from the R6 specification before it was published. | ||
20979 | |||
20980 | The XNR6PreeditCallback argument indicates whether the behavior | ||
20981 | of preedit callbacks regarding XIMPreeditDrawCallbackStruct | ||
20982 | values follows Release 5 or Release 6 semantics. | ||
20983 | |||
20984 | The value is of type Bool. When querying for | ||
20985 | XNR6PreeditCallback, if the returned value is True, the input | ||
20986 | method uses the Release 6 behavior; otherwise, it uses the | ||
20987 | Release 5 behavior. The default value is False. In order to use | ||
20988 | Release 6 semantics, the value of XNR6PreeditCallback must be | ||
20989 | set to True. | ||
20990 | |||
20991 | Because this XIM value is optional, a client should call | ||
20992 | XGetIMValues with argument XNQueryIMValuesList before using | ||
20993 | this argument. If the XNR6PreeditCallback does not exist in the | ||
20994 | IM values list returned from XNQueryIMValuesList, the | ||
20995 | PreeditCallback behavior is Release 5 semantics. | ||
20996 | |||
20997 | Input Context Functions | ||
20998 | |||
20999 | An input context is an abstraction that is used to contain both | ||
21000 | the data required (if any) by an input method and the | ||
21001 | information required to display that data. There may be | ||
21002 | multiple input contexts for one input method. The programming | ||
21003 | interfaces for creating, reading, or modifying an input context | ||
21004 | use a variable argument list. The name elements of the argument | ||
21005 | lists are referred to as XIC values. It is intended that input | ||
21006 | methods be controlled by these XIC values. As new XIC values | ||
21007 | are created, they should be registered with the X Consortium. | ||
21008 | |||
21009 | To create an input context, use XCreateIC. | ||
21010 | |||
21011 | XIC XCreateIC(XIM im); | ||
21012 | |||
21013 | im | ||
21014 | |||
21015 | Specifies the input method. | ||
21016 | |||
21017 | ... | ||
21018 | |||
21019 | Specifies the variable length argument list to set XIC values. | ||
21020 | |||
21021 | The XCreateIC function creates a context within the specified | ||
21022 | input method. | ||
21023 | |||
21024 | Some of the arguments are mandatory at creation time, and the | ||
21025 | input context will not be created if those arguments are not | ||
21026 | provided. The mandatory arguments are the input style and the | ||
21027 | set of text callbacks (if the input style selected requires | ||
21028 | callbacks). All other input context values can be set later. | ||
21029 | |||
21030 | XCreateIC returns a NULL value if no input context could be | ||
21031 | created. A NULL value could be returned for any of the | ||
21032 | following reasons: | ||
21033 | * A required argument was not set. | ||
21034 | * A read-only argument was set (for example, XNFilterEvents). | ||
21035 | * The argument name is not recognized. | ||
21036 | * The input method encountered an input method | ||
21037 | implementation-dependent error. | ||
21038 | |||
21039 | XCreateIC can generate BadAtom, BadColor, BadPixmap, and | ||
21040 | BadWindow errors. | ||
21041 | |||
21042 | To destroy an input context, use XDestroyIC. | ||
21043 | |||
21044 | void XDestroyIC(XIC ic); | ||
21045 | |||
21046 | ic | ||
21047 | |||
21048 | Specifies the input context. | ||
21049 | |||
21050 | XDestroyIC destroys the specified input context. | ||
21051 | |||
21052 | To communicate to and synchronize with input method for any | ||
21053 | changes in keyboard focus from the client side, use XSetICFocus | ||
21054 | and XUnsetICFocus. | ||
21055 | |||
21056 | void XSetICFocus(XIC ic); | ||
21057 | |||
21058 | ic | ||
21059 | |||
21060 | Specifies the input context. | ||
21061 | |||
21062 | The XSetICFocus function allows a client to notify an input | ||
21063 | method that the focus window attached to the specified input | ||
21064 | context has received keyboard focus. The input method should | ||
21065 | take action to provide appropriate feedback. Complete feedback | ||
21066 | specification is a matter of user interface policy. | ||
21067 | |||
21068 | Calling XSetICFocus does not affect the focus window value. | ||
21069 | |||
21070 | void XUnsetICFocus(XIC ic); | ||
21071 | |||
21072 | ic | ||
21073 | |||
21074 | Specifies the input context. | ||
21075 | |||
21076 | The XUnsetICFocus function allows a client to notify an input | ||
21077 | method that the specified input context has lost the keyboard | ||
21078 | focus and that no more input is expected on the focus window | ||
21079 | attached to that input context. The input method should take | ||
21080 | action to provide appropriate feedback. Complete feedback | ||
21081 | specification is a matter of user interface policy. | ||
21082 | |||
21083 | Calling XUnsetICFocus does not affect the focus window value; | ||
21084 | the client may still receive events from the input method that | ||
21085 | are directed to the focus window. | ||
21086 | |||
21087 | To reset the state of an input context to its initial state, | ||
21088 | use XmbResetIC or XwcResetIC. | ||
21089 | |||
21090 | char *XmbResetIC(XIC ic); | ||
21091 | |||
21092 | wchar_t *XwcResetIC(XIC ic); | ||
21093 | |||
21094 | ic | ||
21095 | |||
21096 | Specifies the input context. | ||
21097 | |||
21098 | When XNResetState is set to XIMInitialState, XmbResetIC and | ||
21099 | XwcResetIC reset an input context to its initial state; when | ||
21100 | XNResetState is set to XIMPreserveState, the current input | ||
21101 | context state is preserved. In both cases, any input pending on | ||
21102 | that context is deleted. The input method is required to clear | ||
21103 | the preedit area, if any, and update the status accordingly. | ||
21104 | Calling XmbResetIC or XwcResetIC does not change the focus. | ||
21105 | |||
21106 | The return value of XmbResetIC is its current preedit string as | ||
21107 | a multibyte string. If there is any preedit text drawn or | ||
21108 | visible to the user, then these procedures must return a | ||
21109 | non-NULL string. If there is no visible preedit text, then it | ||
21110 | is input method implementation-dependent whether these | ||
21111 | procedures return a non-NULL string or NULL. | ||
21112 | |||
21113 | The client should free the returned string by calling XFree. | ||
21114 | |||
21115 | To get the input method associated with an input context, use | ||
21116 | XIMOfIC. | ||
21117 | |||
21118 | XIM XIMOfIC(XIC ic); | ||
21119 | |||
21120 | ic | ||
21121 | |||
21122 | Specifies the input context. | ||
21123 | |||
21124 | The XIMOfIC function returns the input method associated with | ||
21125 | the specified input context. | ||
21126 | |||
21127 | Xlib provides two functions for setting and reading XIC values, | ||
21128 | respectively, XSetICValues and XGetICValues. Both functions | ||
21129 | have a variable-length argument list. In that argument list, | ||
21130 | any XIC value's name must be denoted with a character string | ||
21131 | using the X Portable Character Set. | ||
21132 | |||
21133 | To set XIC values, use XSetICValues. | ||
21134 | |||
21135 | char *XSetICValues(XIC ic); | ||
21136 | |||
21137 | ic | ||
21138 | |||
21139 | Specifies the input context. | ||
21140 | |||
21141 | ... | ||
21142 | |||
21143 | Specifies the variable length argument list to set XIC values. | ||
21144 | |||
21145 | The XSetICValues function returns NULL if no error occurred; | ||
21146 | otherwise, it returns the name of the first argument that could | ||
21147 | not be set. An argument might not be set for any of the | ||
21148 | following reasons: | ||
21149 | * The argument is read-only (for example, XNFilterEvents). | ||
21150 | * The argument name is not recognized. | ||
21151 | * An implementation-dependent error occurs. | ||
21152 | |||
21153 | Each value to be set must be an appropriate datum, matching the | ||
21154 | data type imposed by the semantics of the argument. | ||
21155 | |||
21156 | XSetICValues can generate BadAtom, BadColor, BadCursor, | ||
21157 | BadPixmap, and BadWindow errors. | ||
21158 | |||
21159 | To obtain XIC values, use XGetICValues. | ||
21160 | |||
21161 | char *XGetICValues(XIC ic); | ||
21162 | |||
21163 | ic | ||
21164 | |||
21165 | Specifies the input context. | ||
21166 | |||
21167 | ... | ||
21168 | |||
21169 | Specifies the variable length argument list to get XIC values. | ||
21170 | |||
21171 | The XGetICValues function returns NULL if no error occurred; | ||
21172 | otherwise, it returns the name of the first argument that could | ||
21173 | not be obtained. An argument could not be obtained for any of | ||
21174 | the following reasons: | ||
21175 | * The argument name is not recognized. | ||
21176 | * The input method encountered an implementation-dependent | ||
21177 | error. | ||
21178 | |||
21179 | Each IC attribute value argument (following a name) must point | ||
21180 | to a location where the IC value is to be stored. That is, if | ||
21181 | the IC value is of type T, the argument must be of type T*. If | ||
21182 | T itself is a pointer type, then XGetICValues allocates memory | ||
21183 | to store the actual data, and the client is responsible for | ||
21184 | freeing this data by calling XFree with the returned pointer. | ||
21185 | The exception to this rule is for an IC value of type | ||
21186 | XVaNestedList (for preedit and status attributes). In this | ||
21187 | case, the argument must also be of type XVaNestedList. Then, | ||
21188 | the rule of changing type T to T* and freeing the allocated | ||
21189 | data applies to each element of the nested list. | ||
21190 | |||
21191 | Input Context Values | ||
21192 | |||
21193 | The following tables describe how XIC values are interpreted by | ||
21194 | an input method depending on the input style chosen by the | ||
21195 | user. | ||
21196 | |||
21197 | The first column lists the XIC values. The second column | ||
21198 | indicates which values are involved in affecting, negotiating, | ||
21199 | and setting the geometry of the input method windows. The | ||
21200 | subentries under the third column indicate the different input | ||
21201 | styles that are supported. Each of these columns indicates how | ||
21202 | each of the XIC values are treated by that input style. | ||
21203 | |||
21204 | The following keys apply to these tables. | ||
21205 | Key Explanation | ||
21206 | C This value must be set with XCreateIC. | ||
21207 | D This value may be set using XCreateIC.> If it is not set,> a | ||
21208 | default is provided. | ||
21209 | G This value may be read using XGetICValues. | ||
21210 | GN This value may cause geometry negotiation when its value is | ||
21211 | set by means of XCreateIC or XSetICValues. | ||
21212 | GR This value will be the response of the input method when any | ||
21213 | GN value is changed. | ||
21214 | GS This value will cause the geometry of the input method | ||
21215 | window to be set. | ||
21216 | O This value must be set once and only once. It need not be set | ||
21217 | at create time. | ||
21218 | S This value may be set with XSetICValues. | ||
21219 | Ignored This value is ignored by the input method for the given | ||
21220 | input style. | ||
21221 | |||
21222 | XIC Value Geometry Mangement Preedit Callback Preedit Position | ||
21223 | Input Style Preedit Area Preedit Nothing Preedit None | ||
21224 | Input Style C-G C-G C-G C-G C-G | ||
21225 | Client Window O-G O-G O-G O-G Ignored | ||
21226 | Focus Window GN D-S-G D-S-G D-S-G D-S-G Ignored | ||
21227 | Resource Name Ignored D-S-G D-S-G D-S-G Ignored | ||
21228 | Resource Class Ignored D-S-G D-S-G D-S-G Ignored | ||
21229 | Geometry Callback Ignored Ignored D-S-G Ignored Ignored | ||
21230 | Filter Events G G G G Ignored | ||
21231 | Destroy Callback D-S-G D-S-G D-S-G D-S-G D-S-G | ||
21232 | String Conversion Callback S-G S-G S-G S-G S-G | ||
21233 | String Conversion D-S-G D-S-G D-S-G D-S-G D-S-G | ||
21234 | Reset State D-S-G D-S-G D-S-G D-S-G Ignored | ||
21235 | HotKey S-G S-G S-G S-G Ignored | ||
21236 | HotKeyState D-S-G D-S-G D-S-G D-S-G Ignored | ||
21237 | Preedit | ||
21238 | Area GS Ignored D-S-G D-S-G Ignored Ignored | ||
21239 | Area Needed GN-GR Ignored Ignored S-G Ignored Ignored | ||
21240 | Spot Location Ignored D-S-G Ignored Ignored Ignored | ||
21241 | Colormap Ignored D-S-G D-S-G D-S-G Ignored | ||
21242 | Foreground Ignored D-S-G D-S-G D-S-G Ignored | ||
21243 | Background Ignored D-S-G D-S-G D-S-G Ignored | ||
21244 | Background Pixmap Ignored D-S-G D-S-G D-S-G Ignored | ||
21245 | Font Set GN Ignored D-S-G D-S-G D-S-G Ignored | ||
21246 | Line Spacing GN Ignored D-S-G D-S-G D-S-G Ignored | ||
21247 | Cursor Ignored D-S-G D-S-G D-S-G Ignored | ||
21248 | Preedit State D-S-G D-S-G D-S-G D-S-G Ignored | ||
21249 | Preedit State Notify Callback S-G S-G S-G S-G Ignored | ||
21250 | Preedit Callbacks C-S-G Ignored Ignored Ignored Ignored | ||
21251 | |||
21252 | XIC Value Geomentry Management Status Callback Status Area | ||
21253 | Status Nothing Status None | ||
21254 | Input Style C-G C-G C-G C-G | ||
21255 | Client Window O-G O-G O-G Ignored | ||
21256 | Focus Window GN D-S-G D-S-G D-S-G Ignored | ||
21257 | Resource Name Ignored D-S-G D-S-G Ignored | ||
21258 | Resource Class Ignored D-S-G D-S-G Ignored | ||
21259 | Geometry Callback Ignored D-S-G Ignored Ignored | ||
21260 | Filter Events G G G G | ||
21261 | Status | ||
21262 | Area GS Ignored D-S-G Ignored Ignored | ||
21263 | Area Needed GN-GR Ignored S-G Ignored Ignored | ||
21264 | Colormap Ignored D-S-G D-S-G Ignored | ||
21265 | Foreground Ignored D-S-G D-S-G Ignored | ||
21266 | Background Ignored D-S-G D-S-G Ignored | ||
21267 | Background Pixmap Ignored D-S-G D-S-G Ignored | ||
21268 | Font Set GN Ignored D-S-G D-S-G Ignored | ||
21269 | Line Spacing GN Ignored D-S-G D-S-G Ignored | ||
21270 | Cursor Ignored D-S-G D-S-G Ignored | ||
21271 | Status Callbacks C-S-G Ignored Ignored Ignored | ||
21272 | |||
21273 | Input Style | ||
21274 | |||
21275 | The XNInputStyle argument specifies the input style to be used. | ||
21276 | The value of this argument must be one of the values returned | ||
21277 | by the XGetIMValues function with the XNQueryInputStyle | ||
21278 | argument specified in the supported_styles list. | ||
21279 | |||
21280 | Note that this argument must be set at creation time and cannot | ||
21281 | be changed. | ||
21282 | |||
21283 | Client Window | ||
21284 | |||
21285 | The XNClientWindow argument specifies to the input method the | ||
21286 | client window in which the input method can display data or | ||
21287 | create subwindows. Geometry values for input method areas are | ||
21288 | given with respect to the client window. Dynamic change of | ||
21289 | client window is not supported. This argument may be set only | ||
21290 | once and should be set before any input is done using this | ||
21291 | input context. If it is not set, the input method may not | ||
21292 | operate correctly. | ||
21293 | |||
21294 | If an attempt is made to set this value a second time with | ||
21295 | XSetICValues, the string XNClientWindow will be returned by | ||
21296 | XSetICValues, and the client window will not be changed. | ||
21297 | |||
21298 | If the client window is not a valid window ID on the display | ||
21299 | attached to the input method, a BadWindow error can be | ||
21300 | generated when this value is used by the input method. | ||
21301 | |||
21302 | Focus Window | ||
21303 | |||
21304 | The XNFocusWindow argument specifies the focus window. The | ||
21305 | primary purpose of the XNFocusWindow is to identify the window | ||
21306 | that will receive the key event when input is composed. In | ||
21307 | addition, the input method may possibly affect the focus window | ||
21308 | as follows: | ||
21309 | * Select events on it | ||
21310 | * Send events to it | ||
21311 | * Modify its properties | ||
21312 | * Grab the keyboard within that window | ||
21313 | |||
21314 | The associated value must be of type Window. If the focus | ||
21315 | window is not a valid window ID on the display attached to the | ||
21316 | input method, a BadWindow error can be generated when this | ||
21317 | value is used by the input method. | ||
21318 | |||
21319 | When this XIC value is left unspecified, the input method will | ||
21320 | use the client window as the default focus window. | ||
21321 | |||
21322 | Resource Name and Class | ||
21323 | |||
21324 | The XNResourceName and XNResourceClass arguments are strings | ||
21325 | that specify the full name and class used by the client to | ||
21326 | obtain resources for the client window. These values should be | ||
21327 | used as prefixes for name and class when looking up resources | ||
21328 | that may vary according to the input context. If these values | ||
21329 | are not set, the resources will not be fully specified. | ||
21330 | |||
21331 | It is not intended that values that can be set as XIC values be | ||
21332 | set as resources. | ||
21333 | |||
21334 | Geometry Callback | ||
21335 | |||
21336 | The XNGeometryCallback argument is a structure of type | ||
21337 | XIMCallback (see section 13.5.6.13.12). | ||
21338 | |||
21339 | The XNGeometryCallback argument specifies the geometry callback | ||
21340 | that a client can set. This callback is not required for | ||
21341 | correct operation of either an input method or a client. It can | ||
21342 | be set for a client whose user interface policy permits an | ||
21343 | input method to request the dynamic change of that input | ||
21344 | method's window. An input method that does dynamic change will | ||
21345 | need to filter any events that it uses to initiate the change. | ||
21346 | |||
21347 | Filter Events | ||
21348 | |||
21349 | The XNFilterEvents argument returns the event mask that an | ||
21350 | input method needs to have selected for. The client is expected | ||
21351 | to augment its own event mask for the client window with this | ||
21352 | one. | ||
21353 | |||
21354 | This argument is read-only, is set by the input method at | ||
21355 | create time, and is never changed. | ||
21356 | |||
21357 | The type of this argument is unsigned long. Setting this value | ||
21358 | will cause an error. | ||
21359 | |||
21360 | Destroy Callback | ||
21361 | |||
21362 | The XNDestroyCallback argument is a pointer to a structure of | ||
21363 | type XIMCallback (see section 13.5.6.13.12). This callback is | ||
21364 | triggered when the input method stops its service for any | ||
21365 | reason; for example, when a connection to an IM server is | ||
21366 | broken. After the destroy callback is called, the input context | ||
21367 | is destroyed and the input method is closed. Therefore, the | ||
21368 | client should not call XDestroyIC and XCloseIM. | ||
21369 | |||
21370 | String Conversion Callback | ||
21371 | |||
21372 | The XNStringConversionCallback argument is a structure of type | ||
21373 | XIMCallback (see section 13.5.6.13.12). | ||
21374 | |||
21375 | The XNStringConversionCallback argument specifies a string | ||
21376 | conversion callback. This callback is not required for correct | ||
21377 | operation of either the input method or the client. It can be | ||
21378 | set by a client to support string conversions that may be | ||
21379 | requested by the input method. An input method that does string | ||
21380 | conversions will filter any events that it uses to initiate the | ||
21381 | conversion. | ||
21382 | |||
21383 | Because this XIC value is optional, a client should call | ||
21384 | XGetIMValues with argument XNQueryICValuesList before using | ||
21385 | this argument. | ||
21386 | |||
21387 | String Conversion | ||
21388 | |||
21389 | The XNStringConversion argument is a structure of type | ||
21390 | XIMStringConversionText. | ||
21391 | |||
21392 | The XNStringConversion argument specifies the string to be | ||
21393 | converted by an input method. This argument is not required for | ||
21394 | correct operation of either the input method or the client. | ||
21395 | |||
21396 | String conversion facilitates the manipulation of text | ||
21397 | independent of preediting. It is essential for some input | ||
21398 | methods and clients to manipulate text by performing | ||
21399 | context-sensitive conversion, reconversion, or transliteration | ||
21400 | conversion on it. | ||
21401 | |||
21402 | Because this XIC value is optional, a client should call | ||
21403 | XGetIMValues with argument XNQueryICValuesList before using | ||
21404 | this argument. | ||
21405 | |||
21406 | The XIMStringConversionText structure is defined as follows: | ||
21407 | |||
21408 | |||
21409 | typedef struct _XIMStringConversionText { | ||
21410 | unsigned short length; | ||
21411 | XIMStringConversionFeedback *feedback; | ||
21412 | Bool encoding_is_wchar; | ||
21413 | union { | ||
21414 | char *mbs; | ||
21415 | wchar_t *wcs; | ||
21416 | } string; | ||
21417 | } XIMStringConversionText; | ||
21418 | |||
21419 | typedef unsigned long XIMStringConversionFeedback; | ||
21420 | |||
21421 | The feedback member is reserved for future use. The text to be | ||
21422 | converted is defined by the string and length members. The | ||
21423 | length is indicated in characters. To prevent the library from | ||
21424 | freeing memory pointed to by an uninitialized pointer, the | ||
21425 | client should set the feedback element to NULL. | ||
21426 | |||
21427 | Reset State | ||
21428 | |||
21429 | The XNResetState argument specifies the state the input context | ||
21430 | will return to after calling XmbResetIC or XwcResetIC. | ||
21431 | |||
21432 | The XIC state may be set to its initial state, as specified by | ||
21433 | the XNPreeditState value when XCreateIC was called, or it may | ||
21434 | be set to preserve the current state. | ||
21435 | |||
21436 | The valid masks for XIMResetState are as follows: | ||
21437 | |||
21438 | typedef unsigned long XIMResetState; | ||
21439 | |||
21440 | #define XIMInitialState (1L) | ||
21441 | #define XIMPreserveState (1L<<1) | ||
21442 | |||
21443 | |||
21444 | If XIMInitialState is set, then XmbResetIC and XwcResetIC will | ||
21445 | return to the initial XNPreeditState state of the XIC. | ||
21446 | |||
21447 | If XIMPreserveState is set, then XmbResetIC and XwcResetIC will | ||
21448 | preserve the current state of the XIC. | ||
21449 | |||
21450 | If XNResetState is left unspecified, the default is | ||
21451 | XIMInitialState. | ||
21452 | |||
21453 | XIMResetState values other than those specified above will | ||
21454 | default to XIMInitialState. | ||
21455 | |||
21456 | Because this XIC value is optional, a client should call | ||
21457 | XGetIMValues with argument XNQueryICValuesList before using | ||
21458 | this argument. | ||
21459 | |||
21460 | Hot Keys | ||
21461 | |||
21462 | The XNHotKey argument specifies the hot key list to the XIC. | ||
21463 | The hot key list is a pointer to the structure of type | ||
21464 | XIMHotKeyTriggers, which specifies the key events that must be | ||
21465 | received without any interruption of the input method. For the | ||
21466 | hot key list set with this argument to be utilized, the client | ||
21467 | must also set XNHotKeyState to XIMHotKeyStateON. | ||
21468 | |||
21469 | Because this XIC value is optional, a client should call | ||
21470 | XGetIMValues with argument XNQueryICValuesList before using | ||
21471 | this functionality. | ||
21472 | |||
21473 | The value of the argument is a pointer to a structure of type | ||
21474 | XIMHotKeyTriggers. | ||
21475 | |||
21476 | If an event for a key in the hot key list is found, then the | ||
21477 | process will receive the event and it will be processed inside | ||
21478 | the client. | ||
21479 | |||
21480 | |||
21481 | |||
21482 | typedef struct { | ||
21483 | KeySym keysym; | ||
21484 | unsigned int modifier; | ||
21485 | unsigned int modifier_mask; | ||
21486 | } XIMHotKeyTrigger; | ||
21487 | |||
21488 | typedef struct { | ||
21489 | int num_hot_key; | ||
21490 | XIMHotKeyTrigger *key; | ||
21491 | } XIMHotKeyTriggers; | ||
21492 | |||
21493 | The combination of modifier and modifier_mask are used to | ||
21494 | represent one of three states for each modifier: either the | ||
21495 | modifier must be on, or the modifier must be off, or the | ||
21496 | modifier is a ``don't care'' - it may be on or off. When a | ||
21497 | modifier_mask bit is set to 0, the state of the associated | ||
21498 | modifier is ignored when evaluating whether the key is hot or | ||
21499 | not. | ||
21500 | Modifier Bit Mask Bit Meaning | ||
21501 | 0 1 The modifier must be off. | ||
21502 | 1 1 The modifier must be on. | ||
21503 | n/a 0 Do not care if the modifier is on or off. | ||
21504 | |||
21505 | Hot Key State | ||
21506 | |||
21507 | The XNHotKeyState argument specifies the hot key state of the | ||
21508 | input method. This is usually used to switch the input method | ||
21509 | between hot key operation and normal input processing. | ||
21510 | |||
21511 | The value of the argument is a pointer to a structure of type | ||
21512 | XIMHotKeyState . | ||
21513 | typedef unsigned long XIMHotKeyState; | ||
21514 | |||
21515 | #define XIMHotKeyStateON (0x0001L) | ||
21516 | #define XIMHotKeyStateOFF (0x0002L) | ||
21517 | |||
21518 | |||
21519 | If not specified, the default is XIMHotKeyStateOFF. | ||
21520 | |||
21521 | Preedit and Status Attributes | ||
21522 | |||
21523 | The XNPreeditAttributes and XNStatusAttributes arguments | ||
21524 | specify to an input method the attributes to be used for the | ||
21525 | preedit and status areas, if any. Those attributes are passed | ||
21526 | to XSetICValues or XGetICValues as a nested variable-length | ||
21527 | list. The names to be used in these lists are described in the | ||
21528 | following sections. | ||
21529 | |||
21530 | Area | ||
21531 | |||
21532 | The value of the XNArea argument must be a pointer to a | ||
21533 | structure of type XRectangle. The interpretation of the XNArea | ||
21534 | argument is dependent on the input method style that has been | ||
21535 | set. | ||
21536 | |||
21537 | If the input method style is XIMPreeditPosition, XNArea | ||
21538 | specifies the clipping region within which preediting will take | ||
21539 | place. If the focus window has been set, the coordinates are | ||
21540 | assumed to be relative to the focus window. Otherwise, the | ||
21541 | coordinates are assumed to be relative to the client window. If | ||
21542 | neither has been set, the results are undefined. | ||
21543 | |||
21544 | If XNArea is not specified, is set to NULL, or is invalid, the | ||
21545 | input method will default the clipping region to the geometry | ||
21546 | of the XNFocusWindow. If the area specified is NULL or invalid, | ||
21547 | the results are undefined. | ||
21548 | |||
21549 | If the input style is XIMPreeditArea or XIMStatusArea, XNArea | ||
21550 | specifies the geometry provided by the client to the input | ||
21551 | method. The input method may use this area to display its data, | ||
21552 | either preedit or status depending on the area designated. The | ||
21553 | input method may create a window as a child of the client | ||
21554 | window with dimensions that fit the XNArea. The coordinates are | ||
21555 | relative to the client window. If the client window has not | ||
21556 | been set yet, the input method should save these values and | ||
21557 | apply them when the client window is set. If XNArea is not | ||
21558 | specified, is set to NULL, or is invalid, the results are | ||
21559 | undefined. | ||
21560 | |||
21561 | Area Needed | ||
21562 | |||
21563 | When set, the XNAreaNeeded argument specifies the geometry | ||
21564 | suggested by the client for this area (preedit or status). The | ||
21565 | value associated with the argument must be a pointer to a | ||
21566 | structure of type XRectangle. Note that the x, y values are not | ||
21567 | used and that nonzero values for width or height are the | ||
21568 | constraints that the client wishes the input method to respect. | ||
21569 | |||
21570 | When read, the XNAreaNeeded argument specifies the preferred | ||
21571 | geometry desired by the input method for the area. | ||
21572 | |||
21573 | This argument is only valid if the input style is | ||
21574 | XIMPreeditArea or XIMStatusArea. It is used for geometry | ||
21575 | negotiation between the client and the input method and has no | ||
21576 | other effect on the input method (see section 13.5.1.5). | ||
21577 | |||
21578 | Spot Location | ||
21579 | |||
21580 | The XNSpotLocation argument specifies to the input method the | ||
21581 | coordinates of the spot to be used by an input method executing | ||
21582 | with XNInputStyle set to XIMPreeditPosition. When specified to | ||
21583 | any input method other than XIMPreeditPosition, this XIC value | ||
21584 | is ignored. | ||
21585 | |||
21586 | The x coordinate specifies the position where the next | ||
21587 | character would be inserted. The y coordinate is the position | ||
21588 | of the baseline used by the current text line in the focus | ||
21589 | window. The x and y coordinates are relative to the focus | ||
21590 | window, if it has been set; otherwise, they are relative to the | ||
21591 | client window. If neither the focus window nor the client | ||
21592 | window has been set, the results are undefined. | ||
21593 | |||
21594 | The value of the argument is a pointer to a structure of type | ||
21595 | XPoint. | ||
21596 | |||
21597 | Colormap | ||
21598 | |||
21599 | Two different arguments can be used to indicate what colormap | ||
21600 | the input method should use to allocate colors, a colormap ID, | ||
21601 | or a standard colormap name. | ||
21602 | |||
21603 | The XNColormap argument is used to specify a colormap ID. The | ||
21604 | argument value is of type Colormap. An invalid argument may | ||
21605 | generate a BadColor error when it is used by the input method. | ||
21606 | |||
21607 | The XNStdColormap argument is used to indicate the name of the | ||
21608 | standard colormap in which the input method should allocate | ||
21609 | colors. The argument value is an Atom that should be a valid | ||
21610 | atom for calling XGetRGBColormaps. An invalid argument may | ||
21611 | generate a BadAtom error when it is used by the input method. | ||
21612 | |||
21613 | If the colormap is left unspecified, the client window colormap | ||
21614 | becomes the default. | ||
21615 | |||
21616 | Foreground and Background | ||
21617 | |||
21618 | The XNForeground and XNBackground arguments specify the | ||
21619 | foreground and background pixel, respectively. The argument | ||
21620 | value is of type unsigned long. It must be a valid pixel in the | ||
21621 | input method colormap. | ||
21622 | |||
21623 | If these values are left unspecified, the default is determined | ||
21624 | by the input method. | ||
21625 | |||
21626 | Background Pixmap | ||
21627 | |||
21628 | The XNBackgroundPixmap argument specifies a background pixmap | ||
21629 | to be used as the background of the window. The value must be | ||
21630 | of type Pixmap. An invalid argument may generate a BadPixmap | ||
21631 | error when it is used by the input method. | ||
21632 | |||
21633 | If this value is left unspecified, the default is determined by | ||
21634 | the input method. | ||
21635 | |||
21636 | Font Set | ||
21637 | |||
21638 | The XNFontSet argument specifies to the input method what font | ||
21639 | set is to be used. The argument value is of type XFontSet. | ||
21640 | |||
21641 | If this value is left unspecified, the default is determined by | ||
21642 | the input method. | ||
21643 | |||
21644 | Line Spacing | ||
21645 | |||
21646 | The XNLineSpace argument specifies to the input method what | ||
21647 | line spacing is to be used in the preedit window if more than | ||
21648 | one line is to be used. This argument is of type int. | ||
21649 | |||
21650 | If this value is left unspecified, the default is determined by | ||
21651 | the input method. | ||
21652 | |||
21653 | Cursor | ||
21654 | |||
21655 | The XNCursor argument specifies to the input method what cursor | ||
21656 | is to be used in the specified window. This argument is of type | ||
21657 | Cursor. | ||
21658 | |||
21659 | An invalid argument may generate a BadCursor error when it is | ||
21660 | used by the input method. If this value is left unspecified, | ||
21661 | the default is determined by the input method. | ||
21662 | |||
21663 | Preedit State | ||
21664 | |||
21665 | The XNPreeditState argument specifies the state of input | ||
21666 | preediting for the input method. Input preediting can be on or | ||
21667 | off. | ||
21668 | |||
21669 | The valid mask names for XNPreeditState are as follows: | ||
21670 | |||
21671 | typedef unsigned long XIMPreeditState; | ||
21672 | |||
21673 | #define XIMPreeditUnknown 0L | ||
21674 | #define XIMPreeditEnable 1L | ||
21675 | #define XIMPreeditDisable (1L<<1) | ||
21676 | |||
21677 | |||
21678 | If a value of XIMPreeditEnable is set, then input preediting is | ||
21679 | turned on by the input method. | ||
21680 | |||
21681 | If a value of XIMPreeditDisable is set, then input preediting | ||
21682 | is turned off by the input method. | ||
21683 | |||
21684 | If XNPreeditState is left unspecified, then the state will be | ||
21685 | implementation-dependent. | ||
21686 | |||
21687 | When XNResetState is set to XIMInitialState, the XNPreeditState | ||
21688 | value specified at the creation time will be reflected as the | ||
21689 | initial state for XmbResetIC and XwcResetIC. | ||
21690 | |||
21691 | Because this XIC value is optional, a client should call | ||
21692 | XGetIMValues with argument XNQueryICValuesList before using | ||
21693 | this argument. | ||
21694 | |||
21695 | Preedit State Notify Callback | ||
21696 | |||
21697 | The preedit state notify callback is triggered by the input | ||
21698 | method when the preediting state has changed. The value of the | ||
21699 | XNPreeditStateNotifyCallback argument is a pointer to a | ||
21700 | structure of type XIMCallback. The generic prototype is as | ||
21701 | follows: | ||
21702 | |||
21703 | void PreeditStateNotifyCallback(XIC ic, XPointer client_data, | ||
21704 | XIMPreeditStateNotifyCallbackStruct *call_data); | ||
21705 | |||
21706 | ic | ||
21707 | |||
21708 | Specifies the input context. | ||
21709 | |||
21710 | client_data | ||
21711 | |||
21712 | Specifies the additional client data. | ||
21713 | |||
21714 | call_data | ||
21715 | |||
21716 | Specifies the current preedit state. | ||
21717 | |||
21718 | The XIMPreeditStateNotifyCallbackStruct structure is defined as | ||
21719 | follows: | ||
21720 | |||
21721 | |||
21722 | |||
21723 | typedef struct _XIMPreeditStateNotifyCallbackStruct { | ||
21724 | XIMPreeditState state; | ||
21725 | } XIMPreeditStateNotifyCallbackStruct; | ||
21726 | |||
21727 | Because this XIC value is optional, a client should call | ||
21728 | XGetIMValues with argument XNQueryICValuesList before using | ||
21729 | this argument. | ||
21730 | |||
21731 | Preedit and Status Callbacks | ||
21732 | |||
21733 | A client that wants to support the input style | ||
21734 | XIMPreeditCallbacks must provide a set of preedit callbacks to | ||
21735 | the input method. The set of preedit callbacks is as follows: | ||
21736 | XNPreeditStartCallback This is called when the input method | ||
21737 | starts preedit. | ||
21738 | XNPreeditDoneCallback This is called when the input method | ||
21739 | stops preedit. | ||
21740 | XNPreeditDrawCallback This is called when a number of preedit | ||
21741 | keystrokes should be echoed. | ||
21742 | XNPreeditCaretCallback This is called to move the text | ||
21743 | insertion point within the preedit string. | ||
21744 | |||
21745 | A client that wants to support the input style | ||
21746 | XIMStatusCallbacks must provide a set of status callbacks to | ||
21747 | the input method. The set of status callbacks is as follows: | ||
21748 | XNStatusStartCallback This is called when the input method | ||
21749 | initializes the status area. | ||
21750 | XNStatusDoneCallback This is called when the input method no | ||
21751 | longer needs the status area. | ||
21752 | XNStatusDrawCallback This is called when updating of the status | ||
21753 | area is required. | ||
21754 | |||
21755 | The value of any status or preedit argument is a pointer to a | ||
21756 | structure of type XIMCallback. | ||
21757 | |||
21758 | |||
21759 | |||
21760 | typedef void (*XIMProc)(); | ||
21761 | |||
21762 | typedef struct { | ||
21763 | XPointer client_data; | ||
21764 | XIMProc callback; | ||
21765 | } XIMCallback; | ||
21766 | |||
21767 | Each callback has some particular semantics and will carry the | ||
21768 | data that expresses the environment necessary to the client | ||
21769 | into a specific data structure. This paragraph only describes | ||
21770 | the arguments to be used to set the callback. | ||
21771 | |||
21772 | Setting any of these values while doing preedit may cause | ||
21773 | unexpected results. | ||
21774 | |||
21775 | Input Method Callback Semantics | ||
21776 | |||
21777 | XIM callbacks are procedures defined by clients or text drawing | ||
21778 | packages that are to be called from the input method when | ||
21779 | selected events occur. Most clients will use a text editing | ||
21780 | package or a toolkit and, hence, will not need to define such | ||
21781 | callbacks. This section defines the callback semantics, when | ||
21782 | they are triggered, and what their arguments are. This | ||
21783 | information is mostly useful for X toolkit implementors. | ||
21784 | |||
21785 | Callbacks are mostly provided so that clients (or text editing | ||
21786 | packages) can implement on-the-spot preediting in their own | ||
21787 | window. In that case, the input method needs to communicate and | ||
21788 | synchronize with the client. The input method needs to | ||
21789 | communicate changes in the preedit window when it is under | ||
21790 | control of the client. Those callbacks allow the client to | ||
21791 | initialize the preedit area, display a new preedit string, move | ||
21792 | the text insertion point during preedit, terminate preedit, or | ||
21793 | update the status area. | ||
21794 | |||
21795 | All callback procedures follow the generic prototype: | ||
21796 | |||
21797 | void CallbackPrototype(XIC ic, XPointer client_data, SomeType | ||
21798 | call_data); | ||
21799 | |||
21800 | ic | ||
21801 | |||
21802 | Specifies the input context. | ||
21803 | |||
21804 | client_data | ||
21805 | |||
21806 | Specifies the additional client data. | ||
21807 | |||
21808 | call_data | ||
21809 | |||
21810 | Specifies data specific to the callback. | ||
21811 | |||
21812 | The call_data argument is a structure that expresses the | ||
21813 | arguments needed to achieve the semantics; that is, it is a | ||
21814 | specific data structure appropriate to the callback. In cases | ||
21815 | where no data is needed in the callback, this call_data | ||
21816 | argument is NULL. The client_data argument is a closure that | ||
21817 | has been initially specified by the client when specifying the | ||
21818 | callback and passed back. It may serve, for example, to inherit | ||
21819 | application context in the callback. | ||
21820 | |||
21821 | The following paragraphs describe the programming semantics and | ||
21822 | specific data structure associated with the different reasons. | ||
21823 | |||
21824 | Geometry Callback | ||
21825 | |||
21826 | The geometry callback is triggered by the input method to | ||
21827 | indicate that it wants the client to negotiate geometry. The | ||
21828 | generic prototype is as follows: | ||
21829 | |||
21830 | void GeometryCallback(XIC ic, XPointer client_data, XPointer | ||
21831 | call_data); | ||
21832 | |||
21833 | ic | ||
21834 | |||
21835 | Specifies the input context. | ||
21836 | |||
21837 | client_data | ||
21838 | |||
21839 | Specifies the additional client data. | ||
21840 | |||
21841 | call_data | ||
21842 | |||
21843 | Not used for this callback and always passed as NULL. | ||
21844 | |||
21845 | The callback is called with a NULL call_data argument. | ||
21846 | |||
21847 | Destroy Callback | ||
21848 | |||
21849 | The destroy callback is triggered by the input method when it | ||
21850 | stops service for any reason. After the callback is invoked, | ||
21851 | the input context will be freed by Xlib. The generic prototype | ||
21852 | is as follows: | ||
21853 | |||
21854 | void DestroyCallback(XIC ic, XPointer client_data, XPointer | ||
21855 | call_data); | ||
21856 | |||
21857 | ic | ||
21858 | |||
21859 | Specifies the input context. | ||
21860 | |||
21861 | client_data | ||
21862 | |||
21863 | Specifies the additional client data. | ||
21864 | |||
21865 | call_data | ||
21866 | |||
21867 | Not used for this callback and always passed as NULL. | ||
21868 | |||
21869 | The callback is called with a NULL call_data argument. | ||
21870 | |||
21871 | String Conversion Callback | ||
21872 | |||
21873 | The string conversion callback is triggered by the input method | ||
21874 | to request the client to return the string to be converted. The | ||
21875 | returned string may be either a multibyte or wide character | ||
21876 | string, with an encoding matching the locale bound to the input | ||
21877 | context. The callback prototype is as follows: | ||
21878 | |||
21879 | void StringConversionCallback(XIC ic, XPointer client_data, | ||
21880 | XIMStringConversionCallbackStruct *call_data); | ||
21881 | |||
21882 | ic | ||
21883 | |||
21884 | Specifies the input method. | ||
21885 | |||
21886 | client_data | ||
21887 | |||
21888 | Specifies the additional client data. | ||
21889 | |||
21890 | call_data | ||
21891 | |||
21892 | Specifies the amount of the string to be converted. | ||
21893 | |||
21894 | The callback is passed an XIMStringConversionCallbackStruct | ||
21895 | structure in the call_data argument. The text member is an | ||
21896 | XIMStringConversionText structure (see section 13.5.6.9) to be | ||
21897 | filled in by the client and describes the text to be sent to | ||
21898 | the input method. The data pointed to by the string and | ||
21899 | feedback elements of the XIMStringConversionText structure will | ||
21900 | be freed using XFree by the input method after the callback | ||
21901 | returns. So the client should not point to internal buffers | ||
21902 | that are critical to the client. Similarly, because the | ||
21903 | feedback element is currently reserved for future use, the | ||
21904 | client should set feedback to NULL to prevent the library from | ||
21905 | freeing memory at some random location due to an uninitialized | ||
21906 | pointer. | ||
21907 | |||
21908 | The XIMStringConversionCallbackStruct structure is defined as | ||
21909 | follows: | ||
21910 | |||
21911 | typedef struct _XIMStringConversionCallbackStruct { | ||
21912 | XIMStringConversionPosition position; | ||
21913 | XIMCaretDirection direction; | ||
21914 | short factor; | ||
21915 | XIMStringConversionOperation operation; | ||
21916 | XIMStringConversionText *text; | ||
21917 | } XIMStringConversionCallbackStruct; | ||
21918 | |||
21919 | typedef short XIMStringConversionPosition; | ||
21920 | |||
21921 | typedef unsigned short XIMStringConversionOperation; | ||
21922 | |||
21923 | #define XIMStringConversionSubstitution (0x0001) | ||
21924 | #define XIMStringConversionRetrieval (0x0001) | ||
21925 | |||
21926 | |||
21927 | XIMStringConversionPosition specifies the starting position of | ||
21928 | the string to be returned in the XIMStringConversionText | ||
21929 | structure. The value identifies a position, in units of | ||
21930 | characters, relative to the client's cursor position in the | ||
21931 | client's buffer. | ||
21932 | |||
21933 | The ending position of the text buffer is determined by the | ||
21934 | direction and factor members. Specifically, it is the character | ||
21935 | position relative to the starting point as defined by the | ||
21936 | XIMCaretDirection. The factor member of | ||
21937 | XIMStringConversionCallbackStruct specifies the number of | ||
21938 | XIMCaretDirection positions to be applied. For example, if the | ||
21939 | direction specifies XIMLineEnd and factor is 1, then all | ||
21940 | characters from the starting position to the end of the current | ||
21941 | display line are returned. If the direction specifies | ||
21942 | XIMForwardChar or XIMBackwardChar, then the factor specifies a | ||
21943 | relative position, indicated in characters, from the starting | ||
21944 | position. | ||
21945 | |||
21946 | XIMStringConversionOperation specifies whether the string to be | ||
21947 | converted should be deleted (substitution) or copied | ||
21948 | (retrieval) from the client's buffer. When the | ||
21949 | XIMStringConversionOperation is | ||
21950 | XIMStringConversionSubstitution, the client must delete the | ||
21951 | string to be converted from its own buffer. When the | ||
21952 | XIMStringConversionOperation is XIMStringConversionRetrieval, | ||
21953 | the client must not delete the string to be converted from its | ||
21954 | buffer. The substitute operation is typically used for | ||
21955 | reconversion and transliteration conversion, while the | ||
21956 | retrieval operation is typically used for context-sensitive | ||
21957 | conversion. | ||
21958 | |||
21959 | Preedit State Callbacks | ||
21960 | |||
21961 | When the input method turns preediting on or off, a | ||
21962 | PreeditStartCallback or PreeditDoneCallback callback is | ||
21963 | triggered to let the toolkit do the setup or the cleanup for | ||
21964 | the preedit region. | ||
21965 | |||
21966 | int PreeditStartCallback(XIC ic, XPointer client_data, XPointer | ||
21967 | call_data); | ||
21968 | |||
21969 | ic | ||
21970 | |||
21971 | Specifies the input context. | ||
21972 | |||
21973 | client_data | ||
21974 | |||
21975 | Specifies the additional client data. | ||
21976 | |||
21977 | call_data | ||
21978 | |||
21979 | Not used for this callback and always passed as NULL. | ||
21980 | |||
21981 | When preedit starts on the specified input context, the | ||
21982 | callback is called with a NULL call_data argument. | ||
21983 | PreeditStartCallback will return the maximum size of the | ||
21984 | preedit string. A positive number indicates the maximum number | ||
21985 | of bytes allowed in the preedit string, and a value of -1 | ||
21986 | indicates there is no limit. | ||
21987 | |||
21988 | void PreeditDoneCallback(XIC ic, XPointer client_data, XPointer | ||
21989 | call_data); | ||
21990 | |||
21991 | ic | ||
21992 | |||
21993 | Specifies the input context. | ||
21994 | |||
21995 | client_data | ||
21996 | |||
21997 | Specifies the additional client data. | ||
21998 | |||
21999 | call_data | ||
22000 | |||
22001 | Not used for this callback and always passed as NULL. | ||
22002 | |||
22003 | When preedit stops on the specified input context, the callback | ||
22004 | is called with a NULL call_data argument. The client can | ||
22005 | release the data allocated by PreeditStartCallback. | ||
22006 | |||
22007 | PreeditStartCallback should initialize appropriate data needed | ||
22008 | for displaying preedit information and for handling further | ||
22009 | PreeditDrawCallback calls. Once PreeditStartCallback is called, | ||
22010 | it will not be called again before PreeditDoneCallback has been | ||
22011 | called. | ||
22012 | |||
22013 | Preedit Draw Callback | ||
22014 | |||
22015 | This callback is triggered to draw and insert, delete or | ||
22016 | replace, preedit text in the preedit region. The preedit text | ||
22017 | may include unconverted input text such as Japanese Kana, | ||
22018 | converted text such as Japanese Kanji characters, or characters | ||
22019 | of both kinds. That string is either a multibyte or wide | ||
22020 | character string, whose encoding matches the locale bound to | ||
22021 | the input context. The callback prototype is as follows: | ||
22022 | |||
22023 | void PreeditDrawCallback(XIC ic, XPointer client_data, | ||
22024 | XIMPreeditDrawCallbackStruct *call_data); | ||
22025 | |||
22026 | ic | ||
22027 | |||
22028 | Specifies the input context. | ||
22029 | |||
22030 | client_data | ||
22031 | |||
22032 | Specifies the additional client data. | ||
22033 | |||
22034 | call_data | ||
22035 | |||
22036 | Specifies the preedit drawing information. | ||
22037 | |||
22038 | The callback is passed an XIMPreeditDrawCallbackStruct | ||
22039 | structure in the call_data argument. The text member of this | ||
22040 | structure contains the text to be drawn. After the string has | ||
22041 | been drawn, the caret should be moved to the specified | ||
22042 | location. | ||
22043 | |||
22044 | The XIMPreeditDrawCallbackStruct structure is defined as | ||
22045 | follows: | ||
22046 | |||
22047 | |||
22048 | |||
22049 | typedef struct _XIMPreeditDrawCallbackStruct { | ||
22050 | int caret; /* Cursor offset within preedit string */ | ||
22051 | int chg_first; /* Starting change position */ | ||
22052 | int chg_length; /* Length of the change in character count */ | ||
22053 | XIMText *text; | ||
22054 | } XIMPreeditDrawCallbackStruct; | ||
22055 | |||
22056 | The client must keep updating a buffer of the preedit text and | ||
22057 | the callback arguments referring to indexes in that buffer. The | ||
22058 | call_data fields have specific meanings according to the | ||
22059 | operation, as follows: | ||
22060 | * To indicate text deletion, the call_data member specifies a | ||
22061 | NULL text field. The text to be deleted is then the current | ||
22062 | text in the buffer from position chg_first (starting at | ||
22063 | zero) on a character length of chg_length. | ||
22064 | * When text is non-NULL, it indicates insertion or | ||
22065 | replacement of text in the buffer. | ||
22066 | * The chg_length member identifies the number of characters | ||
22067 | in the current preedit buffer that are affected by this | ||
22068 | call. A positive chg_length indicates that chg_length | ||
22069 | number of characters, starting at chg_first, must be | ||
22070 | deleted or must be replaced by text, whose length is | ||
22071 | specified in the XIMText structure. | ||
22072 | * A chg_length value of zero indicates that text must be | ||
22073 | inserted right at the position specified by chg_first. A | ||
22074 | value of zero for chg_first specifies the first character | ||
22075 | in the buffer. | ||
22076 | * chg_length and chg_first combine to identify the | ||
22077 | modification required to the preedit buffer; beginning at | ||
22078 | chg_first, replace chg_length number of characters with the | ||
22079 | text in the supplied XIMText structure. For example, | ||
22080 | suppose the preedit buffer contains the string "ABCDE". | ||
22081 | * | ||
22082 | |||
22083 | Text: A B C D E | ||
22084 | ^ ^ ^ ^ ^ ^ | ||
22085 | CharPos: 0 1 2 3 4 5 | ||
22086 | |||
22087 | |||
22088 | |||
22089 | The CharPos in the diagram shows the location of the | ||
22090 | character position relative to the character. | ||
22091 | * If the value of chg_first is 1 and the value of chg_length | ||
22092 | is 3, this says to replace 3 characters beginning at | ||
22093 | character position 1 with the string in the XIMText | ||
22094 | structure. Hence, BCD would be replaced by the value in the | ||
22095 | structure. | ||
22096 | * Though chg_length and chg_first are both signed integers | ||
22097 | they will never have a negative value. | ||
22098 | * The caret member identifies the character position before | ||
22099 | which the cursor should be placed - after modification to | ||
22100 | the preedit buffer has been completed. For example, if | ||
22101 | caret is zero, the cursor is at the beginning of the | ||
22102 | buffer. If the caret is one, the cursor is between the | ||
22103 | first and second character. | ||
22104 | |||
22105 | |||
22106 | typedef struct _XIMText { | ||
22107 | unsigned short length; | ||
22108 | XIMFeedback * feedback; | ||
22109 | Bool encoding_is_wchar; | ||
22110 | union { | ||
22111 | char * multi_byte; | ||
22112 | wchar_t * wide_char; | ||
22113 | } string; | ||
22114 | } XIMText; | ||
22115 | |||
22116 | The text string passed is actually a structure specifying as | ||
22117 | follows: | ||
22118 | * The length member is the text length in characters. | ||
22119 | * The encoding_is_wchar member is a value that indicates if | ||
22120 | the text string is encoded in wide character or multibyte | ||
22121 | format. The text string may be passed either as multibyte | ||
22122 | or as wide character; the input method controls in which | ||
22123 | form data is passed. The client's callback routine must be | ||
22124 | able to handle data passed in either form. | ||
22125 | * The string member is the text string. | ||
22126 | * The feedback member indicates rendering type for each | ||
22127 | character in the string member. If string is NULL | ||
22128 | (indicating that only highlighting of the existing preedit | ||
22129 | buffer should be updated), feedback points to length | ||
22130 | highlight elements that should be applied to the existing | ||
22131 | preedit buffer, beginning at chg_first. | ||
22132 | |||
22133 | The feedback member expresses the types of rendering feedback | ||
22134 | the callback should apply when drawing text. Rendering of the | ||
22135 | text to be drawn is specified either in generic ways (for | ||
22136 | example, primary, secondary) or in specific ways (reverse, | ||
22137 | underline). When generic indications are given, the client is | ||
22138 | free to choose the rendering style. It is necessary, however, | ||
22139 | that primary and secondary be mapped to two distinct rendering | ||
22140 | styles. | ||
22141 | |||
22142 | If an input method wants to control display of the preedit | ||
22143 | string, an input method can indicate the visibility hints using | ||
22144 | feedbacks in a specific way. The XIMVisibleToForward, | ||
22145 | XIMVisibleToBackword, and XIMVisibleToCenter masks are | ||
22146 | exclusively used for these visibility hints. The | ||
22147 | XIMVisibleToForward mask indicates that the preedit text is | ||
22148 | preferably displayed in the primary draw direction from the | ||
22149 | caret position in the preedit area forward. The | ||
22150 | XIMVisibleToBackword mask indicates that the preedit text is | ||
22151 | preferably displayed from the caret position in the preedit | ||
22152 | area backward, relative to the primary draw direction. The | ||
22153 | XIMVisibleToCenter mask indicates that the preedit text is | ||
22154 | preferably displayed with the caret position in the preedit | ||
22155 | area centered. | ||
22156 | |||
22157 | The insertion point of the preedit string could exist outside | ||
22158 | of the visible area when visibility hints are used. Only one of | ||
22159 | the masks is valid for the entire preedit string, and only one | ||
22160 | character can hold one of these feedbacks for a given input | ||
22161 | context at one time. This feedback may be OR'ed together with | ||
22162 | another highlight (such as XIMReverse). Only the most recently | ||
22163 | set feedback is valid, and any previous feedback is | ||
22164 | automatically canceled. This is a hint to the client, and the | ||
22165 | client is free to choose how to display the preedit string. | ||
22166 | |||
22167 | The feedback member also specifies how rendering of the text | ||
22168 | argument should be performed. If the feedback is NULL, the | ||
22169 | callback should apply the same feedback as is used for the | ||
22170 | surrounding characters in the preedit buffer; if chg_first is | ||
22171 | at a highlight boundary, the client can choose which of the two | ||
22172 | highlights to use. If feedback is not NULL, feedback specifies | ||
22173 | an array defining the rendering for each character of the | ||
22174 | string, and the length of the array is thus length. | ||
22175 | |||
22176 | If an input method wants to indicate that it is only updating | ||
22177 | the feedback of the preedit text without changing the content | ||
22178 | of it, the XIMText structure will contain a NULL value for the | ||
22179 | string field, the number of characters affected (relative to | ||
22180 | chg_first) will be in the length field, and the feedback field | ||
22181 | will point to an array of XIMFeedback. | ||
22182 | |||
22183 | Each element in the feedback array is a bitmask represented by | ||
22184 | a value of type XIMFeedback. The valid mask names are as | ||
22185 | follows: | ||
22186 | |||
22187 | typedef unsigned long XIMFeedback; | ||
22188 | |||
22189 | #define XIMReverse 1L | ||
22190 | #define XIMUnderline (1L<<1) | ||
22191 | #define XIMHighlight (1L<<2) | ||
22192 | #define XIMPrimary (1L<<5)* | ||
22193 | #define XIMSecondary (1L<<6)* | ||
22194 | #define XIMTertiary (1L<<7)* | ||
22195 | #define XIMVisibleToForward (1L<<8) | ||
22196 | #define XIMVisibleToBackward (1L<<9) | ||
22197 | #define XIMVisibleToCenter (1L<<10) | ||
22198 | |||
22199 | */- The values for XIMPrimary, XIMSecondary, and XIMTertiary were incorr | ||
22200 | ectly defined in | ||
22201 | the R5 specification. The X Consortium's X11R5 implementation correctly | ||
22202 | implemented the values for these highlights. The value of these highligh | ||
22203 | ts has | ||
22204 | been corrected in this specification to agree with the values in the | ||
22205 | Consortium's X11R5 and X11R6 implementations. | ||
22206 | |||
22207 | |||
22208 | Characters drawn with the XIMReverse highlight should be drawn | ||
22209 | by swapping the foreground and background colors used to draw | ||
22210 | normal, unhighlighted characters. Characters drawn with the | ||
22211 | XIMUnderline highlight should be underlined. Characters drawn | ||
22212 | with the XIMHighlight, XIMPrimary, XIMSecondary, and | ||
22213 | XIMTertiary highlights should be drawn in some unique manner | ||
22214 | that must be different from XIMReverse and XIMUnderline. The | ||
22215 | values for XIMPrimary, XIMSecondary, and XIMTertiary were | ||
22216 | incorrectly defined in the R5 specification. The X Consortium's | ||
22217 | X11R5 implementation correctly implemented the values for these | ||
22218 | highlights. The value of these highlights has been corrected in | ||
22219 | this specification to agree with the values in the Consortium's | ||
22220 | X11R5 and X11R6 implementations. | ||
22221 | |||
22222 | Preedit Caret Callback | ||
22223 | |||
22224 | An input method may have its own navigation keys to allow the | ||
22225 | user to move the text insertion point in the preedit area (for | ||
22226 | example, to move backward or forward). Consequently, input | ||
22227 | method needs to indicate to the client that it should move the | ||
22228 | text insertion point. It then calls the PreeditCaretCallback. | ||
22229 | |||
22230 | void PreeditCaretCallback(XIC ic, XPointer client_data, | ||
22231 | XIMPreeditCaretCallbackStruct *call_data); | ||
22232 | |||
22233 | ic | ||
22234 | |||
22235 | Specifies the input context. | ||
22236 | |||
22237 | client_data | ||
22238 | |||
22239 | Specifies the additional client data. | ||
22240 | |||
22241 | call_data | ||
22242 | |||
22243 | Specifies the preedit caret information. | ||
22244 | |||
22245 | The input method will trigger PreeditCaretCallback to move the | ||
22246 | text insertion point during preedit. The call_data argument | ||
22247 | contains a pointer to an XIMPreeditCaretCallbackStruct | ||
22248 | structure, which indicates where the caret should be moved. The | ||
22249 | callback must move the insertion point to its new location and | ||
22250 | return, in field position, the new offset value from the | ||
22251 | initial position. | ||
22252 | |||
22253 | The XIMPreeditCaretCallbackStruct structure is defined as | ||
22254 | follows: | ||
22255 | |||
22256 | |||
22257 | |||
22258 | typedef struct _XIMPreeditCaretCallbackStruct { | ||
22259 | int position; /* Caret offset within preedit string */ | ||
22260 | XIMCaretDirection direction; /* Caret moves direction */ | ||
22261 | XIMCaretStyle style; /* Feedback of the caret */ | ||
22262 | } XIMPreeditCaretCallbackStruct; | ||
22263 | |||
22264 | The XIMCaretStyle structure is defined as follows: | ||
22265 | |||
22266 | |||
22267 | |||
22268 | typedef enum { | ||
22269 | XIMIsInvisible, /* Disable caret feedback */ | ||
22270 | XIMIsPrimary, /* UI defined caret feedback */ | ||
22271 | XIMIsSecondary, /* UI defined caret feedback */ | ||
22272 | } XIMCaretStyle; | ||
22273 | |||
22274 | The XIMCaretDirection structure is defined as follows: | ||
22275 | |||
22276 | |||
22277 | |||
22278 | typedef enum { | ||
22279 | XIMForwardChar, XIMBackwardChar, | ||
22280 | XIMForwardWord, XIMBackwardWord, | ||
22281 | XIMCaretUp, XIMCaretDown, | ||
22282 | XIMNextLine, XIMPreviousLine, | ||
22283 | XIMLineStart, XIMLineEnd, | ||
22284 | XIMAbsolutePosition, | ||
22285 | XIMDontChange, | ||
22286 | } XIMCaretDirection; | ||
22287 | |||
22288 | These values are defined as follows: | ||
22289 | XIMForwardChar Move the caret forward one character position. | ||
22290 | XIMBackwardChar Move the caret backward one character position. | ||
22291 | XIMForwardWord Move the caret forward one word. | ||
22292 | XIMBackwardWord Move the caret backward one word. | ||
22293 | XIMCaretUp Move the caret up one line keeping the current | ||
22294 | horizontal offset. | ||
22295 | XIMCaretDown Move the caret down one line keeping the current | ||
22296 | horizontal offset. | ||
22297 | XIMPreviousLine Move the caret to the beginning of the previous | ||
22298 | line. | ||
22299 | XIMNextLine Move the caret to the beginning of the next line. | ||
22300 | XIMLineStart Move the caret to the beginning of the current | ||
22301 | display line that contains the caret. | ||
22302 | XIMLineEnd Move the caret to the end of the current display | ||
22303 | line that contains the caret. | ||
22304 | XIMAbsolutePosition The callback must move to the location | ||
22305 | specified by the position field of the callback data, indicated | ||
22306 | in characters, starting from the beginning of the preedit text. | ||
22307 | Hence, a value of zero means move back to the beginning of the | ||
22308 | preedit text. | ||
22309 | XIMDontChange The caret position does not change. | ||
22310 | |||
22311 | Status Callbacks | ||
22312 | |||
22313 | An input method may communicate changes in the status of an | ||
22314 | input context (for example, created, destroyed, or focus | ||
22315 | changes) with three status callbacks: StatusStartCallback, | ||
22316 | StatusDoneCallback, and StatusDrawCallback. | ||
22317 | |||
22318 | When the input context is created or gains focus, the input | ||
22319 | method calls the StatusStartCallback callback. | ||
22320 | |||
22321 | void StatusStartCallback(XIC ic, XPointer client_data, XPointer | ||
22322 | call_data); | ||
22323 | |||
22324 | ic | ||
22325 | |||
22326 | Specifies the input context. | ||
22327 | |||
22328 | client_data | ||
22329 | |||
22330 | Specifies the additional client data. | ||
22331 | |||
22332 | call_data | ||
22333 | |||
22334 | Not used for this callback and always passed as NULL. | ||
22335 | |||
22336 | The callback should initialize appropriate data for displaying | ||
22337 | status and for responding to StatusDrawCallback calls. Once | ||
22338 | StatusStartCallback is called, it will not be called again | ||
22339 | before StatusDoneCallback has been called. | ||
22340 | |||
22341 | When an input context is destroyed or when it loses focus, the | ||
22342 | input method calls StatusDoneCallback. | ||
22343 | |||
22344 | void StatusDoneCallback(XIC ic, XPointer client_data, XPointer | ||
22345 | call_data); | ||
22346 | |||
22347 | ic | ||
22348 | |||
22349 | Specifies the input context. | ||
22350 | |||
22351 | client_data | ||
22352 | |||
22353 | Specifies the additional client data. | ||
22354 | |||
22355 | call_data | ||
22356 | |||
22357 | Not used for this callback and always passed as NULL. | ||
22358 | |||
22359 | The callback may release any data allocated on StatusStart. | ||
22360 | |||
22361 | When an input context status has to be updated, the input | ||
22362 | method calls StatusDrawCallback. | ||
22363 | |||
22364 | void StatusDrawCallback(XIC ic, XPointer client_data, | ||
22365 | XIMStatusDrawCallbackStruct *call_data); | ||
22366 | |||
22367 | ic | ||
22368 | |||
22369 | Specifies the input context. | ||
22370 | |||
22371 | client_data | ||
22372 | |||
22373 | Specifies the additional client data. | ||
22374 | |||
22375 | call_data | ||
22376 | |||
22377 | Specifies the status drawing information. | ||
22378 | |||
22379 | The callback should update the status area by either drawing a | ||
22380 | string or imaging a bitmap in the status area. | ||
22381 | |||
22382 | The XIMStatusDataType and XIMStatusDrawCallbackStruct | ||
22383 | structures are defined as follows: | ||
22384 | |||
22385 | |||
22386 | |||
22387 | typedef enum { | ||
22388 | XIMTextType, | ||
22389 | XIMBitmapType, | ||
22390 | } XIMStatusDataType; | ||
22391 | |||
22392 | typedef struct _XIMStatusDrawCallbackStruct { | ||
22393 | XIMStatusDataType type; | ||
22394 | union { | ||
22395 | XIMText *text; | ||
22396 | Pixmap bitmap; | ||
22397 | } data; | ||
22398 | } XIMStatusDrawCallbackStruct; | ||
22399 | |||
22400 | The feedback styles XIMVisibleToForward, XIMVisibleToBackword, | ||
22401 | and XIMVisibleToCenter are not relevant and will not appear in | ||
22402 | the XIMFeedback element of the XIMText structure. | ||
22403 | |||
22404 | Event Filtering | ||
22405 | |||
22406 | Xlib provides the ability for an input method to register a | ||
22407 | filter internal to Xlib. This filter is called by a client (or | ||
22408 | toolkit) by calling XFilterEvent after calling XNextEvent. Any | ||
22409 | client that uses the XIM interface should call XFilterEvent to | ||
22410 | allow input methods to process their events without knowledge | ||
22411 | of the client's dispatching mechanism. A client's user | ||
22412 | interface policy may determine the priority of event filters | ||
22413 | with respect to other event-handling mechanisms (for example, | ||
22414 | modal grabs). | ||
22415 | |||
22416 | Clients may not know how many filters there are, if any, and | ||
22417 | what they do. They may only know if an event has been filtered | ||
22418 | on return of XFilterEvent. Clients should discard filtered | ||
22419 | events. | ||
22420 | |||
22421 | To filter an event, use XFilterEvent. | ||
22422 | |||
22423 | Bool XFilterEvent(XEvent *event, Window w); | ||
22424 | |||
22425 | event | ||
22426 | |||
22427 | Specifies the event to filter. | ||
22428 | |||
22429 | w | ||
22430 | |||
22431 | Specifies the window for which the filter is to be applied. | ||
22432 | |||
22433 | If the window argument is None, XFilterEvent applies the filter | ||
22434 | to the window specified in the XEvent structure. The window | ||
22435 | argument is provided so that layers above Xlib that do event | ||
22436 | redirection can indicate to which window an event has been | ||
22437 | redirected. | ||
22438 | |||
22439 | If XFilterEvent returns True, then some input method has | ||
22440 | filtered the event, and the client should discard the event. If | ||
22441 | XFilterEvent returns False, then the client should continue | ||
22442 | processing the event. | ||
22443 | |||
22444 | If a grab has occurred in the client and XFilterEvent returns | ||
22445 | True, the client should ungrab the keyboard. | ||
22446 | |||
22447 | Getting Keyboard Input | ||
22448 | |||
22449 | To get composed input from an input method, use XmbLookupString | ||
22450 | or XwcLookupString. | ||
22451 | |||
22452 | int XmbLookupString(XIC ic, XKeyPressedEvent *event, char | ||
22453 | *buffer_return, int bytes_buffer, KeySym *keysym_return, Status | ||
22454 | *status_return); | ||
22455 | |||
22456 | int XwcLookupString(XIC ic, XKeyPressedEvent *event, wchar_t | ||
22457 | *buffer_return, int wchars_buffer, KeySym *keysym_return, | ||
22458 | Status *status_return); | ||
22459 | |||
22460 | ic | ||
22461 | |||
22462 | Specifies the input context. | ||
22463 | |||
22464 | event | ||
22465 | |||
22466 | Specifies the key event to be used. | ||
22467 | |||
22468 | buffer_return | ||
22469 | |||
22470 | Returns a multibyte string or wide character string (if any) | ||
22471 | from the input method. | ||
22472 | |||
22473 | bytes_buffer | ||
22474 | |||
22475 | wchars_buffer | ||
22476 | |||
22477 | Specifies space available in the return buffer. | ||
22478 | |||
22479 | keysym_return | ||
22480 | |||
22481 | Returns the KeySym computed from the event if this argument is | ||
22482 | not NULL. | ||
22483 | |||
22484 | status_return | ||
22485 | |||
22486 | Returns a value indicating what kind of data is returned. | ||
22487 | |||
22488 | The XmbLookupString and XwcLookupString functions return the | ||
22489 | string from the input method specified in the buffer_return | ||
22490 | argument. If no string is returned, the buffer_return argument | ||
22491 | is unchanged. | ||
22492 | |||
22493 | The KeySym into which the KeyCode from the event was mapped is | ||
22494 | returned in the keysym_return argument if it is non-NULL and | ||
22495 | the status_return argument indicates that a KeySym was | ||
22496 | returned. If both a string and a KeySym are returned, the | ||
22497 | KeySym value does not necessarily correspond to the string | ||
22498 | returned. | ||
22499 | |||
22500 | XmbLookupString returns the length of the string in bytes, and | ||
22501 | XwcLookupString returns the length of the string in characters. | ||
22502 | Both XmbLookupString and XwcLookupString return text in the | ||
22503 | encoding of the locale bound to the input method of the | ||
22504 | specified input context. | ||
22505 | |||
22506 | Each string returned by XmbLookupString and XwcLookupString | ||
22507 | begins in the initial state of the encoding of the locale (if | ||
22508 | the encoding of the locale is state-dependent). | ||
22509 | |||
22510 | Note | ||
22511 | |||
22512 | To insure proper input processing, it is essential that the | ||
22513 | client pass only KeyPress events to XmbLookupString and | ||
22514 | XwcLookupString. Their behavior when a client passes a | ||
22515 | KeyRelease event is undefined. | ||
22516 | |||
22517 | Clients should check the status_return argument before using | ||
22518 | the other returned values. These two functions both return a | ||
22519 | value to status_return that indicates what has been returned in | ||
22520 | the other arguments. The possible values returned are: | ||
22521 | XBufferOverflow The input string to be returned is too large | ||
22522 | for the supplied buffer_return. The required size | ||
22523 | (XmbLookupString in bytes; XwcLookupString in characters) is | ||
22524 | returned as the value of the function, and the contents of | ||
22525 | buffer_return and keysym_return are not modified. The client | ||
22526 | should recall the function with the same event and a buffer of | ||
22527 | adequate size to obtain the string. | ||
22528 | XLookupNone No consistent input has been composed so far. The | ||
22529 | contents of buffer_return and keysym_return are not modified, | ||
22530 | and the function returns zero. | ||
22531 | XLookupChars Some input characters have been composed. They are | ||
22532 | placed in the buffer_return argument, and the string length is | ||
22533 | returned as the value of the function. The string is encoded in | ||
22534 | the locale bound to the input context. The content of the | ||
22535 | keysym_return argument is not modified. | ||
22536 | XLookupKeySym A KeySym has been returned instead of a string | ||
22537 | and is returned in keysym_return. The content of the | ||
22538 | buffer_return argument is not modified, and the function | ||
22539 | returns zero. | ||
22540 | XLookupBoth Both a KeySym and a string are returned; | ||
22541 | XLookupChars and XLookupKeySym occur simultaneously. | ||
22542 | |||
22543 | It does not make any difference if the input context passed as | ||
22544 | an argument to XmbLookupString and XwcLookupString is the one | ||
22545 | currently in possession of the focus or not. Input may have | ||
22546 | been composed within an input context before it lost the focus, | ||
22547 | and that input may be returned on subsequent calls to | ||
22548 | XmbLookupString or XwcLookupString even though it does not have | ||
22549 | any more keyboard focus. | ||
22550 | |||
22551 | Input Method Conventions | ||
22552 | |||
22553 | The input method architecture is transparent to the client. | ||
22554 | However, clients should respect a number of conventions in | ||
22555 | order to work properly. Clients must also be aware of possible | ||
22556 | effects of synchronization between input method and library in | ||
22557 | the case of a remote input server. | ||
22558 | |||
22559 | Client Conventions | ||
22560 | |||
22561 | A well-behaved client (or toolkit) should first query the input | ||
22562 | method style. If the client cannot satisfy the requirements of | ||
22563 | the supported styles (in terms of geometry management or | ||
22564 | callbacks), it should negotiate with the user continuation of | ||
22565 | the program or raise an exception or error of some sort. | ||
22566 | |||
22567 | Synchronization Conventions | ||
22568 | |||
22569 | A KeyPress event with a KeyCode of zero is used exclusively as | ||
22570 | a signal that an input method has composed input that can be | ||
22571 | returned by XmbLookupString or XwcLookupString. No other use is | ||
22572 | made of a KeyPress event with KeyCode of zero. | ||
22573 | |||
22574 | Such an event may be generated by either a front-end or a | ||
22575 | back-end input method in an implementation-dependent manner. | ||
22576 | Some possible ways to generate this event include: | ||
22577 | * A synthetic event sent by an input method server | ||
22578 | * An artificial event created by a input method filter and | ||
22579 | pushed onto a client's event queue | ||
22580 | * A KeyPress event whose KeyCode value is modified by an | ||
22581 | input method filter | ||
22582 | |||
22583 | When callback support is specified by the client, input methods | ||
22584 | will not take action unless they explicitly called back the | ||
22585 | client and obtained no response (the callback is not specified | ||
22586 | or returned invalid data). | ||
22587 | |||
22588 | String Constants | ||
22589 | |||
22590 | The following symbols for string constants are defined in | ||
22591 | <X11/Xlib.h>. Although they are shown here with particular | ||
22592 | macro definitions, they may be implemented as macros, as global | ||
22593 | symbols, or as a mixture of the two. The string pointer value | ||
22594 | itself is not significant; clients must not assume that | ||
22595 | inequality of two values implies inequality of the actual | ||
22596 | string data. | ||
22597 | #define XNVaNestedList "XNVaNestedList" | ||
22598 | #define XNSeparatorofNestedList "separatorofNestedList" | ||
22599 | #define XNQueryInputStyle "queryInputStyle" | ||
22600 | #define XNClientWindow "clientWindow" | ||
22601 | #define XNInputStyle "inputStyle" | ||
22602 | #define XNFocusWindow "focusWindow" | ||
22603 | #define XNResourceName "resourceName" | ||
22604 | #define XNResourceClass "resourceClass" | ||
22605 | #define XNGeometryCallback "geometryCallback" | ||
22606 | #define XNDestroyCallback "destroyCallback" | ||
22607 | #define XNFilterEvents "filterEvents" | ||
22608 | #define XNPreeditStartCallback "preeditStartCallback" | ||
22609 | #define XNPreeditDoneCallback "preeditDoneCallback" | ||
22610 | #define XNPreeditDrawCallback "preeditDrawCallback" | ||
22611 | #define XNPreeditCaretCallback "preeditCaretCallback" | ||
22612 | #define XNPreeditStateNotifyCallback "preeditStateNotifyCallback | ||
22613 | " | ||
22614 | #define XNPreeditAttributes "preeditAttributes" | ||
22615 | #define XNStatusStartCallback "statusStartCallback" | ||
22616 | #define XNStatusDoneCallback "statusDoneCallback" | ||
22617 | #define XNStatusDrawCallback "statusDrawCallback" | ||
22618 | #define XNStatusAttributes "statusAttributes" | ||
22619 | #define XNArea "area" | ||
22620 | #define XNAreaNeeded "areaNeeded" | ||
22621 | #define XNSpotLocation "spotLocation" | ||
22622 | #define XNColormap "colorMap" | ||
22623 | #define XNStdColormap "stdColorMap" | ||
22624 | #define XNForeground "foreground" | ||
22625 | #define XNBackground "background" | ||
22626 | #define XNBackgroundPixmap "backgroundPixmap" | ||
22627 | #define XNFontSet "fontSet" | ||
22628 | #define XNLineSpace "lineSpace" | ||
22629 | #define XNCursor "cursor" | ||
22630 | #define XNQueryIMValuesList "queryIMValuesList" | ||
22631 | #define XNQueryICValuesList "queryICValuesList" | ||
22632 | #define XNStringConversionCallback "stringConversionCallback" | ||
22633 | #define XNStringConversion "stringConversion" | ||
22634 | #define XNResetState "resetState" | ||
22635 | #define XNHotKey "hotkey" | ||
22636 | #define XNHotKeyState "hotkeyState" | ||
22637 | #define XNPreeditState "preeditState" | ||
22638 | #define XNVisiblePosition "visiblePosition" | ||
22639 | #define XNR6PreeditCallbackBehavior "r6PreeditCallback" | ||
22640 | #define XNRequiredCharSet "requiredCharSet" | ||
22641 | #define XNQueryOrientation "queryOrientation" | ||
22642 | #define XNDirectionalDependentDrawing "directionalDependentDrawin | ||
22643 | g" | ||
22644 | #define XNContextualDrawing "contextualDrawing" | ||
22645 | #define XNBaseFontName "baseFontName" | ||
22646 | #define XNMissingCharSet "missingCharSet" | ||
22647 | #define XNDefaultString "defaultString" | ||
22648 | #define XNOrientation "orientation" | ||
22649 | #define XNFontInfo "fontInfo" | ||
22650 | #define XNOMAutomatic "omAutomatic" | ||
22651 | |||
22652 | |||
22653 | Chapter 14. Inter-Client Communication Functions | ||
22654 | |||
22655 | Table of Contents | ||
22656 | |||
22657 | Client to Window Manager Communication | ||
22658 | |||
22659 | Manipulating Top-Level Windows | ||
22660 | Converting String Lists | ||
22661 | Setting and Reading Text Properties | ||
22662 | Setting and Reading the WM_NAME Property | ||
22663 | Setting and Reading the WM_ICON_NAME Property | ||
22664 | Setting and Reading the WM_HINTS Property | ||
22665 | Setting and Reading the WM_NORMAL_HINTS Property | ||
22666 | Setting and Reading the WM_CLASS Property | ||
22667 | Setting and Reading the WM_TRANSIENT_FOR Property | ||
22668 | Setting and Reading the WM_PROTOCOLS Property | ||
22669 | Setting and Reading the WM_COLORMAP_WINDOWS Property | ||
22670 | Setting and Reading the WM_ICON_SIZE Property | ||
22671 | Using Window Manager Convenience Functions | ||
22672 | |||
22673 | Client to Session Manager Communication | ||
22674 | |||
22675 | Setting and Reading the WM_COMMAND Property | ||
22676 | Setting and Reading the WM_CLIENT_MACHINE Property | ||
22677 | |||
22678 | Standard Colormaps | ||
22679 | |||
22680 | Standard Colormap Properties and Atoms | ||
22681 | Setting and Obtaining Standard Colormaps | ||
22682 | |||
22683 | The Inter-Client Communication Conventions Manual, hereafter | ||
22684 | referred to as the ICCCM, details the X Consortium approved | ||
22685 | conventions that govern inter-client communications. These | ||
22686 | conventions ensure peer-to-peer client cooperation in the use | ||
22687 | of selections, cut buffers, and shared resources as well as | ||
22688 | client cooperation with window and session managers. For | ||
22689 | further information, see the Inter-Client Communication | ||
22690 | Conventions Manual. | ||
22691 | |||
22692 | Xlib provides a number of standard properties and programming | ||
22693 | interfaces that are ICCCM compliant. The predefined atoms for | ||
22694 | some of these properties are defined in the <X11/Xatom.h> | ||
22695 | header file, where to avoid name conflicts with user symbols | ||
22696 | their #define name has an XA_ prefix. For further information | ||
22697 | about atoms and properties, see section 4.3. | ||
22698 | |||
22699 | Xlib's selection and cut buffer mechanisms provide the primary | ||
22700 | programming interfaces by which peer client applications | ||
22701 | communicate with each other (see sections 4.5 and 16.6). The | ||
22702 | functions discussed in this chapter provide the primary | ||
22703 | programming interfaces by which client applications communicate | ||
22704 | with their window and session managers as well as share | ||
22705 | standard colormaps. | ||
22706 | |||
22707 | The standard properties that are of special interest for | ||
22708 | communicating with window and session managers are: | ||
22709 | Name Type Format Description | ||
22710 | WM_CLASS STRING 8 Set by application programs to allow window | ||
22711 | and session managers to obtain the application's resources from | ||
22712 | the resource database. | ||
22713 | WM_CLIENT_MACHINE TEXT The string name of the machine on | ||
22714 | which the client application is running. | ||
22715 | WM_COLORMAP_WINDOWS WINDOWS 32 The list of window IDs that may | ||
22716 | need a different colormap from that of their top-level window. | ||
22717 | WM_COMMAND TEXT The command and arguments, null separated, | ||
22718 | used to invoke the application. | ||
22719 | WM_HINTS WM_HINTS 32 Additional hints set by the client for use | ||
22720 | by the window manager. The C type of this property is XWMHints. | ||
22721 | WM_ICON_NAME TEXT The name to be used in an icon. | ||
22722 | WM_ICON_SIZE WM_ICON_SIZE 32 The window manager may set this | ||
22723 | property on the root window to specify the icon sizes it | ||
22724 | supports. The C type of this property is XIconSize. | ||
22725 | WM_NAME TEXT The name of the application. | ||
22726 | WM_NORMAL_HINTS WM_NORMAL_HINTS 32 Size hints for a window in | ||
22727 | its normal state. The C type of this property is XSizeHints. | ||
22728 | WM_PROTOCOLS ATOM 32 List of atoms that identify the | ||
22729 | communications protocols between the client and window manager | ||
22730 | in which the client is willing to participate. | ||
22731 | WM_STATE WM_STATE 32 Intended for communication between window | ||
22732 | and session managers only. | ||
22733 | WM_TRANSIENT_FOR WINDOW 32 Set by application programs to | ||
22734 | indicate to the window manager that a transient top-level | ||
22735 | window, such as a dialog box. | ||
22736 | |||
22737 | The remainder of this chapter discusses: | ||
22738 | * Client to window manager communication | ||
22739 | * Client to session manager communication | ||
22740 | * Standard colormaps | ||
22741 | |||
22742 | Client to Window Manager Communication | ||
22743 | |||
22744 | This section discusses how to: | ||
22745 | * Manipulate top-level windows | ||
22746 | * Convert string lists | ||
22747 | * Set and read text properties | ||
22748 | * Set and read the WM_NAME property | ||
22749 | * Set and read the WM_ICON_NAME property | ||
22750 | * Set and read the WM_HINTS property | ||
22751 | * Set and read the WM_NORMAL_HINTS property | ||
22752 | * Set and read the WM_CLASS property | ||
22753 | * Set and read the WM_TRANSIENT_FOR property | ||
22754 | * Set and read the WM_PROTOCOLS property | ||
22755 | * Set and read the WM_COLORMAP_WINDOWS property | ||
22756 | * Set and read the WM_ICON_SIZE property | ||
22757 | * Use window manager convenience functions | ||
22758 | |||
22759 | Manipulating Top-Level Windows | ||
22760 | |||
22761 | Xlib provides functions that you can use to change the | ||
22762 | visibility or size of top-level windows (that is, those that | ||
22763 | were created as children of the root window). Note that the | ||
22764 | subwindows that you create are ignored by window managers. | ||
22765 | Therefore, you should use the basic window functions described | ||
22766 | in chapter 3 to manipulate your application's subwindows. | ||
22767 | |||
22768 | To request that a top-level window be iconified, use | ||
22769 | XIconifyWindow. | ||
22770 | |||
22771 | Status XIconifyWindow(Display *display, Window w, int | ||
22772 | screen_number); | ||
22773 | |||
22774 | display | ||
22775 | |||
22776 | Specifies the connection to the X server. | ||
22777 | |||
22778 | w | ||
22779 | |||
22780 | Specifies the window. | ||
22781 | |||
22782 | screen_number | ||
22783 | |||
22784 | Specifies the appropriate screen number on the host server. | ||
22785 | |||
22786 | The XIconifyWindow function sends a WM_CHANGE_STATE | ||
22787 | ClientMessage event with a format of 32 and a first data | ||
22788 | element of IconicState (as described in section 4.1.4 of the | ||
22789 | Inter-Client Communication Conventions Manual) and a window of | ||
22790 | w to the root window of the specified screen with an event mask | ||
22791 | set to SubstructureNotifyMask | SubstructureRedirectMask. | ||
22792 | Window managers may elect to receive this message and if the | ||
22793 | window is in its normal state, may treat it as a request to | ||
22794 | change the window's state from normal to iconic. If the | ||
22795 | WM_CHANGE_STATE property cannot be interned, XIconifyWindow | ||
22796 | does not send a message and returns a zero status. It returns a | ||
22797 | nonzero status if the client message is sent successfully; | ||
22798 | otherwise, it returns a zero status. | ||
22799 | |||
22800 | To request that a top-level window be withdrawn, use | ||
22801 | XWithdrawWindow. | ||
22802 | |||
22803 | Status XWithdrawWindow(Display *display, Window w, int | ||
22804 | screen_number); | ||
22805 | |||
22806 | display | ||
22807 | |||
22808 | Specifies the connection to the X server. | ||
22809 | |||
22810 | w | ||
22811 | |||
22812 | Specifies the window. | ||
22813 | |||
22814 | screen_number | ||
22815 | |||
22816 | Specifies the appropriate screen number on the host server. | ||
22817 | |||
22818 | The XWithdrawWindow function unmaps the specified window and | ||
22819 | sends a synthetic UnmapNotify event to the root window of the | ||
22820 | specified screen. Window managers may elect to receive this | ||
22821 | message and may treat it as a request to change the window's | ||
22822 | state to withdrawn. When a window is in the withdrawn state, | ||
22823 | neither its normal nor its iconic representations is visible. | ||
22824 | It returns a nonzero status if the UnmapNotify event is | ||
22825 | successfully sent; otherwise, it returns a zero status. | ||
22826 | |||
22827 | XWithdrawWindow can generate a BadWindow error. | ||
22828 | |||
22829 | To request that a top-level window be reconfigured, use | ||
22830 | XReconfigureWMWindow. | ||
22831 | |||
22832 | Status XReconfigureWMWindow(Display *display, Window w, int | ||
22833 | screen_number, unsigned int value_mask, XWindowChanges | ||
22834 | *values); | ||
22835 | |||
22836 | display | ||
22837 | |||
22838 | Specifies the connection to the X server. | ||
22839 | |||
22840 | w | ||
22841 | |||
22842 | Specifies the window. | ||
22843 | |||
22844 | screen_number | ||
22845 | |||
22846 | Specifies the appropriate screen number on the host server. | ||
22847 | |||
22848 | value_mask | ||
22849 | |||
22850 | Specifies which values are to be set using information in the | ||
22851 | values structure. This mask is the bitwise inclusive OR of the | ||
22852 | valid configure window values bits. | ||
22853 | |||
22854 | values | ||
22855 | |||
22856 | Specifies the XWindowChanges structure. | ||
22857 | |||
22858 | The XReconfigureWMWindow function issues a ConfigureWindow | ||
22859 | request on the specified top-level window. If the stacking mode | ||
22860 | is changed and the request fails with a BadMatch error, the | ||
22861 | error is trapped by Xlib and a synthetic ConfigureRequestEvent | ||
22862 | containing the same configuration parameters is sent to the | ||
22863 | root of the specified window. Window managers may elect to | ||
22864 | receive this event and treat it as a request to reconfigure the | ||
22865 | indicated window. It returns a nonzero status if the request or | ||
22866 | event is successfully sent; otherwise, it returns a zero | ||
22867 | status. | ||
22868 | |||
22869 | XReconfigureWMWindow can generate BadValue and BadWindow | ||
22870 | errors. | ||
22871 | |||
22872 | Converting String Lists | ||
22873 | |||
22874 | Many of the text properties allow a variety of types and | ||
22875 | formats. Because the data stored in these properties are not | ||
22876 | simple null-terminated strings, an XTextProperty structure is | ||
22877 | used to describe the encoding, type, and length of the text as | ||
22878 | well as its value. The XTextProperty structure contains: | ||
22879 | |||
22880 | |||
22881 | typedef struct { | ||
22882 | unsigned char *value; /* property data */ | ||
22883 | Atom encoding; /* type of property */ | ||
22884 | int format; /* 8, 16, or 32 */ | ||
22885 | unsigned long nitems; /* number of items in value */ | ||
22886 | } XTextProperty; | ||
22887 | |||
22888 | Xlib provides functions to convert localized text to or from | ||
22889 | encodings that support the inter-client communication | ||
22890 | conventions for text. In addition, functions are provided for | ||
22891 | converting between lists of pointers to character strings and | ||
22892 | text properties in the STRING encoding. | ||
22893 | |||
22894 | The functions for localized text return a signed integer error | ||
22895 | status that encodes Success as zero, specific error conditions | ||
22896 | as negative numbers, and partial conversion as a count of | ||
22897 | unconvertible characters. | ||
22898 | |||
22899 | #define #XNoMemory -1 | ||
22900 | #define #XLocaleNotSupported -2 | ||
22901 | #define #XConverterNotFound -3 | ||
22902 | |||
22903 | typedef enum { | ||
22904 | XStringStyle, /* STRING */ | ||
22905 | XCompoundTextStyle, /* COMPOUND_TEXT */ | ||
22906 | XTextStyle, /* text in owner's encoding (current loc | ||
22907 | ale) */ | ||
22908 | XStdICCTextStyle /* STRING, else COMPOUND_TEXT */ | ||
22909 | } XICCEncodingStyle; | ||
22910 | |||
22911 | To convert a list of text strings to an XTextProperty | ||
22912 | structure, use XmbTextListToTextProperty or | ||
22913 | XwcTextListToTextProperty. | ||
22914 | |||
22915 | int XmbTextListToTextProperty(Display *display, char **list, | ||
22916 | int count, XICCEncodingStyle style, XTextProperty | ||
22917 | *text_prop_return); | ||
22918 | |||
22919 | int XwcTextListToTextProperty(Display *display, wchar_t **list, | ||
22920 | int count, XICCEncodingStyle style, XTextProperty | ||
22921 | *text_prop_return); | ||
22922 | |||
22923 | display | ||
22924 | |||
22925 | Specifies the connection to the X server. | ||
22926 | |||
22927 | list | ||
22928 | |||
22929 | Specifies a list of null-terminated character strings. | ||
22930 | |||
22931 | count | ||
22932 | |||
22933 | Specifies the number of strings specified. | ||
22934 | |||
22935 | style | ||
22936 | |||
22937 | Specifies the manner in which the property is encoded. | ||
22938 | |||
22939 | text_prop_return | ||
22940 | |||
22941 | Returns the XTextProperty structure. | ||
22942 | |||
22943 | The XmbTextListToTextProperty and XwcTextListToTextProperty | ||
22944 | functions set the specified XTextProperty value to a set of | ||
22945 | null-separated elements representing the concatenation of the | ||
22946 | specified list of null-terminated text strings. A final | ||
22947 | terminating null is stored at the end of the value field of | ||
22948 | text_prop_return but is not included in the nitems member. | ||
22949 | |||
22950 | The functions set the encoding field of text_prop_return to an | ||
22951 | Atom for the specified display naming the encoding determined | ||
22952 | by the specified style and convert the specified text list to | ||
22953 | this encoding for storage in the text_prop_return value field. | ||
22954 | If the style XStringStyle or XCompoundTextStyle is specified, | ||
22955 | this encoding is ``STRING'' or ``COMPOUND_TEXT'', respectively. | ||
22956 | If the style XTextStyle is specified, this encoding is the | ||
22957 | encoding of the current locale. If the style XStdICCTextStyle | ||
22958 | is specified, this encoding is ``STRING'' if the text is fully | ||
22959 | convertible to STRING, else ``COMPOUND_TEXT''. | ||
22960 | |||
22961 | If insufficient memory is available for the new value string, | ||
22962 | the functions return XNoMemory. If the current locale is not | ||
22963 | supported, the functions return XLocaleNotSupported. In both of | ||
22964 | these error cases, the functions do not set text_prop_return. | ||
22965 | |||
22966 | To determine if the functions are guaranteed not to return | ||
22967 | XLocaleNotSupported, use XSupportsLocale. | ||
22968 | |||
22969 | If the supplied text is not fully convertible to the specified | ||
22970 | encoding, the functions return the number of unconvertible | ||
22971 | characters. Each unconvertible character is converted to an | ||
22972 | implementation-defined and encoding-specific default string. | ||
22973 | Otherwise, the functions return Success. Note that full | ||
22974 | convertibility to all styles except XStringStyle is guaranteed. | ||
22975 | |||
22976 | To free the storage for the value field, use XFree. | ||
22977 | |||
22978 | To obtain a list of text strings from an XTextProperty | ||
22979 | structure, use XmbTextPropertyToTextList or | ||
22980 | XwcTextPropertyToTextList. | ||
22981 | |||
22982 | int XmbTextPropertyToTextList(Display *display, XTextProperty | ||
22983 | *text_prop, char ***list_return, int *count_return); | ||
22984 | |||
22985 | int XwcTextPropertyToTextList(Display *display, XTextProperty | ||
22986 | *text_prop, wchar_t ***list_return, int *count_return); | ||
22987 | |||
22988 | display | ||
22989 | |||
22990 | Specifies the connection to the X server. | ||
22991 | |||
22992 | text_prop | ||
22993 | |||
22994 | Specifies the XTextProperty structure to be used. | ||
22995 | |||
22996 | list_return | ||
22997 | |||
22998 | Returns a list of null-terminated character strings. | ||
22999 | |||
23000 | count_return | ||
23001 | |||
23002 | Returns the number of strings. | ||
23003 | |||
23004 | The XmbTextPropertyToTextList and XwcTextPropertyToTextList | ||
23005 | functions return a list of text strings in the current locale | ||
23006 | representing the null-separated elements of the specified | ||
23007 | XTextProperty structure. The data in text_prop must be format | ||
23008 | 8. | ||
23009 | |||
23010 | Multiple elements of the property (for example, the strings in | ||
23011 | a disjoint text selection) are separated by a null byte. The | ||
23012 | contents of the property are not required to be | ||
23013 | null-terminated; any terminating null should not be included in | ||
23014 | text_prop.nitems. | ||
23015 | |||
23016 | If insufficient memory is available for the list and its | ||
23017 | elements, XmbTextPropertyToTextList and | ||
23018 | XwcTextPropertyToTextList return XNoMemory. If the current | ||
23019 | locale is not supported, the functions return | ||
23020 | XLocaleNotSupported. Otherwise, if the encoding field of | ||
23021 | text_prop is not convertible to the encoding of the current | ||
23022 | locale, the functions return XConverterNotFound. For supported | ||
23023 | locales, existence of a converter from COMPOUND_TEXT, STRING or | ||
23024 | the encoding of the current locale is guaranteed if | ||
23025 | XSupportsLocale returns True for the current locale (but the | ||
23026 | actual text may contain unconvertible characters). Conversion | ||
23027 | of other encodings is implementation-dependent. In all of these | ||
23028 | error cases, the functions do not set any return values. | ||
23029 | |||
23030 | Otherwise, XmbTextPropertyToTextList and | ||
23031 | XwcTextPropertyToTextList return the list of null-terminated | ||
23032 | text strings to list_return and the number of text strings to | ||
23033 | count_return. | ||
23034 | |||
23035 | If the value field of text_prop is not fully convertible to the | ||
23036 | encoding of the current locale, the functions return the number | ||
23037 | of unconvertible characters. Each unconvertible character is | ||
23038 | converted to a string in the current locale that is specific to | ||
23039 | the current locale. To obtain the value of this string, use | ||
23040 | XDefaultString. Otherwise, XmbTextPropertyToTextList and | ||
23041 | XwcTextPropertyToTextList return Success. | ||
23042 | |||
23043 | To free the storage for the list and its contents returned by | ||
23044 | XmbTextPropertyToTextList, use XFreeStringList. To free the | ||
23045 | storage for the list and its contents returned by | ||
23046 | XwcTextPropertyToTextList, use XwcFreeStringList. | ||
23047 | |||
23048 | To free the in-memory data associated with the specified wide | ||
23049 | character string list, use XwcFreeStringList. | ||
23050 | |||
23051 | void XwcFreeStringList(wchar_t **list); | ||
23052 | |||
23053 | list | ||
23054 | |||
23055 | Specifies the list of strings to be freed. | ||
23056 | |||
23057 | The XwcFreeStringList function frees memory allocated by | ||
23058 | XwcTextPropertyToTextList. | ||
23059 | |||
23060 | To obtain the default string for text conversion in the current | ||
23061 | locale, use | ||
23062 | |||
23063 | char *XDefaultString(void); | ||
23064 | |||
23065 | The XDefaultString function returns the default string used by | ||
23066 | Xlib for text conversion (for example, in | ||
23067 | XmbTextPropertyToTextList). The default string is the string in | ||
23068 | the current locale that is output when an unconvertible | ||
23069 | character is found during text conversion. If the string | ||
23070 | returned by XDefaultString is the empty string (""), no | ||
23071 | character is output in the converted text. XDefaultString does | ||
23072 | not return NULL. | ||
23073 | |||
23074 | The string returned by XDefaultString is independent of the | ||
23075 | default string for text drawing; see XCreateFontSet to obtain | ||
23076 | the default string for an XFontSet. | ||
23077 | |||
23078 | The behavior when an invalid codepoint is supplied to any Xlib | ||
23079 | function is undefined. | ||
23080 | |||
23081 | The returned string is null-terminated. It is owned by Xlib and | ||
23082 | should not be modified or freed by the client. It may be freed | ||
23083 | after the current locale is changed. Until freed, it will not | ||
23084 | be modified by Xlib. | ||
23085 | |||
23086 | To set the specified list of strings in the STRING encoding to | ||
23087 | a XTextProperty structure, use XStringListToTextProperty. | ||
23088 | |||
23089 | Status XStringListToTextProperty(char **list, int count, | ||
23090 | XTextProperty *text_prop_return); | ||
23091 | |||
23092 | list | ||
23093 | |||
23094 | Specifies a list of null-terminated character strings. | ||
23095 | |||
23096 | count | ||
23097 | |||
23098 | Specifies the number of strings. | ||
23099 | |||
23100 | text_prop_return | ||
23101 | |||
23102 | Returns the XTextProperty structure. | ||
23103 | |||
23104 | The XStringListToTextProperty function sets the specified | ||
23105 | XTextProperty to be of type STRING (format 8) with a value | ||
23106 | representing the concatenation of the specified list of | ||
23107 | null-separated character strings. An extra null byte (which is | ||
23108 | not included in the nitems member) is stored at the end of the | ||
23109 | value field of text_prop_return. The strings are assumed | ||
23110 | (without verification) to be in the STRING encoding. If | ||
23111 | insufficient memory is available for the new value string, | ||
23112 | XStringListToTextProperty does not set any fields in the | ||
23113 | XTextProperty structure and returns a zero status. Otherwise, | ||
23114 | it returns a nonzero status. To free the storage for the value | ||
23115 | field, use XFree. | ||
23116 | |||
23117 | To obtain a list of strings from a specified XTextProperty | ||
23118 | structure in the STRING encoding, use | ||
23119 | XTextPropertyToStringList. | ||
23120 | |||
23121 | Status XTextPropertyToStringList(XTextProperty *text_prop, char | ||
23122 | ***list_return, int *count_return); | ||
23123 | |||
23124 | text_prop | ||
23125 | |||
23126 | Specifies the XTextProperty structure to be used. | ||
23127 | |||
23128 | list_return | ||
23129 | |||
23130 | Returns a list of null-terminated character strings. | ||
23131 | |||
23132 | count_return | ||
23133 | |||
23134 | Returns the number of strings. | ||
23135 | |||
23136 | The XTextPropertyToStringList function returns a list of | ||
23137 | strings representing the null-separated elements of the | ||
23138 | specified XTextProperty structure. The data in text_prop must | ||
23139 | be of type STRING and format 8. Multiple elements of the | ||
23140 | property (for example, the strings in a disjoint text | ||
23141 | selection) are separated by NULL (encoding 0). The contents of | ||
23142 | the property are not null-terminated. If insufficient memory is | ||
23143 | available for the list and its elements, | ||
23144 | XTextPropertyToStringList sets no return values and returns a | ||
23145 | zero status. Otherwise, it returns a nonzero status. To free | ||
23146 | the storage for the list and its contents, use XFreeStringList. | ||
23147 | |||
23148 | To free the in-memory data associated with the specified string | ||
23149 | list, use XFreeStringList. | ||
23150 | |||
23151 | void XFreeStringList(char **list); | ||
23152 | |||
23153 | list | ||
23154 | |||
23155 | Specifies the list of strings to be freed. | ||
23156 | |||
23157 | The XFreeStringList function releases memory allocated by | ||
23158 | XmbTextPropertyToTextList and XTextPropertyToStringList and the | ||
23159 | missing charset list allocated by XCreateFontSet. | ||
23160 | |||
23161 | Setting and Reading Text Properties | ||
23162 | |||
23163 | Xlib provides two functions that you can use to set and read | ||
23164 | the text properties for a given window. You can use these | ||
23165 | functions to set and read those properties of type TEXT | ||
23166 | (WM_NAME, WM_ICON_NAME, WM_COMMAND, and WM_CLIENT_MACHINE). In | ||
23167 | addition, Xlib provides separate convenience functions that you | ||
23168 | can use to set each of these properties. For further | ||
23169 | information about these convenience functions, see sections | ||
23170 | 14.1.4, 14.1.5, 14.2.1, and 14.2.2, respectively. | ||
23171 | |||
23172 | To set one of a window's text properties, use XSetTextProperty. | ||
23173 | |||
23174 | void XSetTextProperty(Display *display, Window w, XTextProperty | ||
23175 | *text_prop, Atom property); | ||
23176 | |||
23177 | display | ||
23178 | |||
23179 | Specifies the connection to the X server. | ||
23180 | |||
23181 | w | ||
23182 | |||
23183 | Specifies the window. | ||
23184 | |||
23185 | text_prop | ||
23186 | |||
23187 | Specifies the XTextProperty structure to be used. | ||
23188 | |||
23189 | property | ||
23190 | |||
23191 | Specifies the property name. | ||
23192 | |||
23193 | The XSetTextProperty function replaces the existing specified | ||
23194 | property for the named window with the data, type, format, and | ||
23195 | number of items determined by the value field, the encoding | ||
23196 | field, the format field, and the nitems field, respectively, of | ||
23197 | the specified XTextProperty structure. If the property does not | ||
23198 | already exist, XSetTextProperty sets it for the specified | ||
23199 | window. | ||
23200 | |||
23201 | XSetTextProperty can generate BadAlloc, BadAtom, BadValue, and | ||
23202 | BadWindow errors. | ||
23203 | |||
23204 | To read one of a window's text properties, use | ||
23205 | XGetTextProperty. | ||
23206 | |||
23207 | Status XGetTextProperty(Display *display, Window w, | ||
23208 | XTextProperty *text_prop_return, Atom property); | ||
23209 | |||
23210 | display | ||
23211 | |||
23212 | Specifies the connection to the X server. | ||
23213 | |||
23214 | w | ||
23215 | |||
23216 | Specifies the window. | ||
23217 | |||
23218 | text_prop_return | ||
23219 | |||
23220 | Returns the XTextProperty structure. | ||
23221 | |||
23222 | property | ||
23223 | |||
23224 | Specifies the property name. | ||
23225 | |||
23226 | The XGetTextProperty function reads the specified property from | ||
23227 | the window and stores the data in the returned XTextProperty | ||
23228 | structure. It stores the data in the value field, the type of | ||
23229 | the data in the encoding field, the format of the data in the | ||
23230 | format field, and the number of items of data in the nitems | ||
23231 | field. An extra byte containing null (which is not included in | ||
23232 | the nitems member) is stored at the end of the value field of | ||
23233 | text_prop_return. The particular interpretation of the | ||
23234 | property's encoding and data as text is left to the calling | ||
23235 | application. If the specified property does not exist on the | ||
23236 | window, XGetTextProperty sets the value field to NULL, the | ||
23237 | encoding field to None, the format field to zero, and the | ||
23238 | nitems field to zero. | ||
23239 | |||
23240 | If it was able to read and store the data in the XTextProperty | ||
23241 | structure, XGetTextProperty returns a nonzero status; | ||
23242 | otherwise, it returns a zero status. | ||
23243 | |||
23244 | XGetTextProperty can generate BadAtom and BadWindow errors. | ||
23245 | |||
23246 | Setting and Reading the WM_NAME Property | ||
23247 | |||
23248 | Xlib provides convenience functions that you can use to set and | ||
23249 | read the WM_NAME property for a given window. | ||
23250 | |||
23251 | To set a window's WM_NAME property with the supplied | ||
23252 | convenience function, use XSetWMName. | ||
23253 | |||
23254 | void XSetWMName(Display *display, Window w, XTextProperty | ||
23255 | *text_prop); | ||
23256 | |||
23257 | display | ||
23258 | |||
23259 | Specifies the connection to the X server. | ||
23260 | |||
23261 | w | ||
23262 | |||
23263 | Specifies the window. | ||
23264 | |||
23265 | text_prop | ||
23266 | |||
23267 | Specifies the XTextProperty structure to be used. | ||
23268 | |||
23269 | The XSetWMName convenience function calls XSetTextProperty to | ||
23270 | set the WM_NAME property. | ||
23271 | |||
23272 | To read a window's WM_NAME property with the supplied | ||
23273 | convenience function, use XGetWMName. | ||
23274 | |||
23275 | Status XGetWMName(Display *display, Window w, XTextProperty | ||
23276 | *text_prop_return); | ||
23277 | |||
23278 | display | ||
23279 | |||
23280 | Specifies the connection to the X server. | ||
23281 | |||
23282 | w | ||
23283 | |||
23284 | Specifies the window. | ||
23285 | |||
23286 | text_prop_return | ||
23287 | |||
23288 | Returns the XTextProperty structure. | ||
23289 | |||
23290 | The XGetWMName convenience function calls XGetTextProperty to | ||
23291 | obtain the WM_NAME property. It returns a nonzero status on | ||
23292 | success; otherwise, it returns a zero status. | ||
23293 | |||
23294 | The following two functions have been superseded by XSetWMName | ||
23295 | and XGetWMName, respectively. You can use these additional | ||
23296 | convenience functions for window names that are encoded as | ||
23297 | STRING properties. | ||
23298 | |||
23299 | To assign a name to a window, use XStoreName. | ||
23300 | |||
23301 | XStoreName(Display *display, Window w, char *window_name); | ||
23302 | |||
23303 | display | ||
23304 | |||
23305 | Specifies the connection to the X server. | ||
23306 | |||
23307 | w | ||
23308 | |||
23309 | Specifies the window. | ||
23310 | |||
23311 | window_name | ||
23312 | |||
23313 | Specifies the window name, which should be a null-terminated | ||
23314 | string. | ||
23315 | |||
23316 | The XStoreName function assigns the name passed to window_name | ||
23317 | to the specified window. A window manager can display the | ||
23318 | window name in some prominent place, such as the title bar, to | ||
23319 | allow users to identify windows easily. Some window managers | ||
23320 | may display a window's name in the window's icon, although they | ||
23321 | are encouraged to use the window's icon name if one is provided | ||
23322 | by the application. If the string is not in the Host Portable | ||
23323 | Character Encoding, the result is implementation-dependent. | ||
23324 | |||
23325 | XStoreName can generate BadAlloc and BadWindow errors. | ||
23326 | |||
23327 | To get the name of a window, use XFetchName. | ||
23328 | |||
23329 | Status XFetchName(Display *display, Window w, char | ||
23330 | **window_name_return); | ||
23331 | |||
23332 | display | ||
23333 | |||
23334 | Specifies the connection to the X server. | ||
23335 | |||
23336 | w | ||
23337 | |||
23338 | Specifies the window. | ||
23339 | |||
23340 | window_name_return | ||
23341 | |||
23342 | Returns the window name, which is a null-terminated string. | ||
23343 | |||
23344 | The XFetchName function returns the name of the specified | ||
23345 | window. If it succeeds, it returns a nonzero status; otherwise, | ||
23346 | no name has been set for the window, and it returns zero. If | ||
23347 | the WM_NAME property has not been set for this window, | ||
23348 | XFetchName sets window_name_return to NULL. If the data | ||
23349 | returned by the server is in the Latin Portable Character | ||
23350 | Encoding, then the returned string is in the Host Portable | ||
23351 | Character Encoding. Otherwise, the result is | ||
23352 | implementation-dependent. When finished with it, a client must | ||
23353 | free the window name string using XFree. | ||
23354 | |||
23355 | XFetchName can generate a BadWindow error. | ||
23356 | |||
23357 | Setting and Reading the WM_ICON_NAME Property | ||
23358 | |||
23359 | Xlib provides convenience functions that you can use to set and | ||
23360 | read the WM_ICON_NAME property for a given window. | ||
23361 | |||
23362 | To set a window's WM_ICON_NAME property, use XSetWMIconName. | ||
23363 | |||
23364 | void XSetWMIconName(Display *display, Window w, XTextProperty | ||
23365 | *text_prop); | ||
23366 | |||
23367 | display | ||
23368 | |||
23369 | Specifies the connection to the X server. | ||
23370 | |||
23371 | w | ||
23372 | |||
23373 | Specifies the window. | ||
23374 | |||
23375 | text_prop | ||
23376 | |||
23377 | Specifies the XTextProperty structure to be used. | ||
23378 | |||
23379 | The XSetWMIconName convenience function calls XSetTextProperty | ||
23380 | to set the WM_ICON_NAME property. | ||
23381 | |||
23382 | To read a window's WM_ICON_NAME property, use XGetWMIconName. | ||
23383 | |||
23384 | Status XGetWMIconName(Display *display, Window w, XTextProperty | ||
23385 | *text_prop_return); | ||
23386 | |||
23387 | display | ||
23388 | |||
23389 | Specifies the connection to the X server. | ||
23390 | |||
23391 | w | ||
23392 | |||
23393 | Specifies the window. | ||
23394 | |||
23395 | text_prop_return | ||
23396 | |||
23397 | Returns the XTextProperty structure. | ||
23398 | |||
23399 | The XGetWMIconName convenience function calls XGetTextProperty | ||
23400 | to obtain the WM_ICON_NAME property. It returns a nonzero | ||
23401 | status on success; otherwise, it returns a zero status. | ||
23402 | |||
23403 | The next two functions have been superseded by XSetWMIconName | ||
23404 | and XGetWMIconName, respectively. You can use these additional | ||
23405 | convenience functions for window names that are encoded as | ||
23406 | STRING properties. | ||
23407 | |||
23408 | To set the name to be displayed in a window's icon, use | ||
23409 | XSetIconName. | ||
23410 | |||
23411 | XSetIconName(Display *display, Window w, char *icon_name); | ||
23412 | |||
23413 | display | ||
23414 | |||
23415 | Specifies the connection to the X server. | ||
23416 | |||
23417 | w | ||
23418 | |||
23419 | Specifies the window. | ||
23420 | |||
23421 | icon_name | ||
23422 | |||
23423 | Specifies the icon name, which should be a null-terminated | ||
23424 | string. | ||
23425 | |||
23426 | If the string is not in the Host Portable Character Encoding, | ||
23427 | the result is implementation-dependent. XSetIconName can | ||
23428 | generate BadAlloc and BadWindow errors. | ||
23429 | |||
23430 | To get the name a window wants displayed in its icon, use | ||
23431 | XGetIconName. | ||
23432 | |||
23433 | Status XGetIconName(Display *display, Window w, char | ||
23434 | **icon_name_return); | ||
23435 | |||
23436 | display | ||
23437 | |||
23438 | Specifies the connection to the X server. | ||
23439 | |||
23440 | w | ||
23441 | |||
23442 | Specifies the window. | ||
23443 | |||
23444 | icon_name_return | ||
23445 | |||
23446 | Returns the window's icon name, which is a null-terminated | ||
23447 | string. | ||
23448 | |||
23449 | The XGetIconName function returns the name to be displayed in | ||
23450 | the specified window's icon. If it succeeds, it returns a | ||
23451 | nonzero status; otherwise, if no icon name has been set for the | ||
23452 | window, it returns zero. If you never assigned a name to the | ||
23453 | window, XGetIconName sets icon_name_return to NULL. If the data | ||
23454 | returned by the server is in the Latin Portable Character | ||
23455 | Encoding, then the returned string is in the Host Portable | ||
23456 | Character Encoding. Otherwise, the result is | ||
23457 | implementation-dependent. When finished with it, a client must | ||
23458 | free the icon name string using XFree. | ||
23459 | |||
23460 | XGetIconName can generate a BadWindow error. | ||
23461 | |||
23462 | Setting and Reading the WM_HINTS Property | ||
23463 | |||
23464 | Xlib provides functions that you can use to set and read the | ||
23465 | WM_HINTS property for a given window. These functions use the | ||
23466 | flags and the XWMHints structure, as defined in the | ||
23467 | <X11/Xutil.h> header file. | ||
23468 | |||
23469 | To allocate an XWMHints structure, use XAllocWMHints. | ||
23470 | |||
23471 | XWMHints *XAllocWMHints(void); | ||
23472 | |||
23473 | The XAllocWMHints function allocates and returns a pointer to | ||
23474 | an XWMHints structure. Note that all fields in the XWMHints | ||
23475 | structure are initially set to zero. If insufficient memory is | ||
23476 | available, XAllocWMHints returns NULL. To free the memory | ||
23477 | allocated to this structure, use XFree. | ||
23478 | |||
23479 | The XWMHints structure contains: | ||
23480 | /* Window manager hints mask bits */ | ||
23481 | |||
23482 | #define InputHint (1L<<0) | ||
23483 | #define StateHint (1L<<1) | ||
23484 | #define IconPixmapHint (1L<<2) | ||
23485 | #define IconWindowHint (1L<<3) | ||
23486 | #define IconPositionHint (1L<<4) | ||
23487 | #define IconMaskHint (1L<<5) | ||
23488 | #define WindowGroupHint (1L<<6) | ||
23489 | #define UrgencyHint (1L<<8) | ||
23490 | #define AllHints (InputHint|StateHint|IconPixmapHin | ||
23491 | t| | ||
23492 | IconWIndowHint|IconPositionHint| | ||
23493 | IconMaskHint|WindowGroupHint) | ||
23494 | |||
23495 | |||
23496 | /* Values */ | ||
23497 | |||
23498 | typedef struct { | ||
23499 | long flags; /* marks which fields in this structure | ||
23500 | are defined */ | ||
23501 | Bool input; /* does this application rely on the win | ||
23502 | dow manager to | ||
23503 | get keyboard input? */ | ||
23504 | int initial_state; /* see below */ | ||
23505 | Pixmap icon_pixmap; /* pixmap to be used as icon */ | ||
23506 | Window icon_window; /* window to be used as icon */ | ||
23507 | int icon_x, icon_y; /* initial position of icon */ | ||
23508 | Pixmap icon_mask; /* pixmap to be used as mask for icon_pi | ||
23509 | xmap */ | ||
23510 | XID window_group; /* id of related window group */ | ||
23511 | /* this structure may be extended in the future */ | ||
23512 | } XWMHints; | ||
23513 | |||
23514 | The input member is used to communicate to the window manager | ||
23515 | the input focus model used by the application. Applications | ||
23516 | that expect input but never explicitly set focus to any of | ||
23517 | their subwindows (that is, use the push model of focus | ||
23518 | management), such as X Version 10 style applications that use | ||
23519 | real-estate driven focus, should set this member to True. | ||
23520 | Similarly, applications that set input focus to their | ||
23521 | subwindows only when it is given to their top-level window by a | ||
23522 | window manager should also set this member to True. | ||
23523 | Applications that manage their own input focus by explicitly | ||
23524 | setting focus to one of their subwindows whenever they want | ||
23525 | keyboard input (that is, use the pull model of focus | ||
23526 | management) should set this member to False. Applications that | ||
23527 | never expect any keyboard input also should set this member to | ||
23528 | False. | ||
23529 | |||
23530 | Pull model window managers should make it possible for push | ||
23531 | model applications to get input by setting input focus to the | ||
23532 | top-level windows of applications whose input member is True. | ||
23533 | Push model window managers should make sure that pull model | ||
23534 | applications do not break them by resetting input focus to | ||
23535 | PointerRoot when it is appropriate (for example, whenever an | ||
23536 | application whose input member is False sets input focus to one | ||
23537 | of its subwindows). | ||
23538 | |||
23539 | The definitions for the initial_state flag are: | ||
23540 | #define WithdrawnState 0 | ||
23541 | #define NormalState 1 /* most applications start this way */ | ||
23542 | #define IconicState 3 /* application wants to start as an icon | ||
23543 | */ | ||
23544 | |||
23545 | |||
23546 | The icon_mask specifies which pixels of the icon_pixmap should | ||
23547 | be used as the icon. This allows for nonrectangular icons. Both | ||
23548 | icon_pixmap and icon_mask must be bitmaps. The icon_window lets | ||
23549 | an application provide a window for use as an icon for window | ||
23550 | managers that support such use. The window_group lets you | ||
23551 | specify that this window belongs to a group of other windows. | ||
23552 | For example, if a single application manipulates multiple | ||
23553 | top-level windows, this allows you to provide enough | ||
23554 | information that a window manager can iconify all of the | ||
23555 | windows rather than just the one window. | ||
23556 | |||
23557 | The UrgencyHint flag, if set in the flags field, indicates that | ||
23558 | the client deems the window contents to be urgent, requiring | ||
23559 | the timely response of the user. The window manager will make | ||
23560 | some effort to draw the user's attention to this window while | ||
23561 | this flag is set. The client must provide some means by which | ||
23562 | the user can cause the urgency flag to be cleared (either | ||
23563 | mitigating the condition that made the window urgent or merely | ||
23564 | shutting off the alarm) or the window to be withdrawn. | ||
23565 | |||
23566 | To set a window's WM_HINTS property, use XSetWMHints. | ||
23567 | |||
23568 | XSetWMHints(Display *display, Window w, XWMHints *wmhints); | ||
23569 | |||
23570 | display | ||
23571 | |||
23572 | Specifies the connection to the X server. | ||
23573 | |||
23574 | w | ||
23575 | |||
23576 | Specifies the window. | ||
23577 | |||
23578 | wmhints | ||
23579 | |||
23580 | Specifies the XWMHints structure to be used. | ||
23581 | |||
23582 | The XSetWMHints function sets the window manager hints that | ||
23583 | include icon information and location, the initial state of the | ||
23584 | window, and whether the application relies on the window | ||
23585 | manager to get keyboard input. | ||
23586 | |||
23587 | XSetWMHints can generate BadAlloc and BadWindow errors. | ||
23588 | |||
23589 | To read a window's WM_HINTS property, use XGetWMHints. | ||
23590 | |||
23591 | XWMHints *XGetWMHints(Display *display, Window w); | ||
23592 | |||
23593 | display | ||
23594 | |||
23595 | Specifies the connection to the X server. | ||
23596 | |||
23597 | w | ||
23598 | |||
23599 | Specifies the window. | ||
23600 | |||
23601 | The XGetWMHints function reads the window manager hints and | ||
23602 | returns NULL if no WM_HINTS property was set on the window or | ||
23603 | returns a pointer to an XWMHints structure if it succeeds. When | ||
23604 | finished with the data, free the space used for it by calling | ||
23605 | XFree. | ||
23606 | |||
23607 | XGetWMHints can generate a BadWindow error. | ||
23608 | |||
23609 | Setting and Reading the WM_NORMAL_HINTS Property | ||
23610 | |||
23611 | Xlib provides functions that you can use to set or read the | ||
23612 | WM_NORMAL_HINTS property for a given window. The functions use | ||
23613 | the flags and the XSizeHints structure, as defined in the | ||
23614 | <X11/Xutil.h> header file. | ||
23615 | |||
23616 | The size of the XSizeHints structure may grow in future | ||
23617 | releases, as new components are added to support new ICCCM | ||
23618 | features. Passing statically allocated instances of this | ||
23619 | structure into Xlib may result in memory corruption when | ||
23620 | running against a future release of the library. As such, it is | ||
23621 | recommended that only dynamically allocated instances of the | ||
23622 | structure be used. | ||
23623 | |||
23624 | To allocate an XSizeHints structure, use XAllocSizeHints. | ||
23625 | |||
23626 | XSizeHints *XAllocSizeHints(void); | ||
23627 | |||
23628 | The XAllocSizeHints function allocates and returns a pointer to | ||
23629 | an XSizeHints structure. Note that all fields in the XSizeHints | ||
23630 | structure are initially set to zero. If insufficient memory is | ||
23631 | available, XAllocSizeHints returns NULL. To free the memory | ||
23632 | allocated to this structure, use XFree. | ||
23633 | |||
23634 | The XSizeHints structure contains: | ||
23635 | /* Size hints mask bits */ | ||
23636 | |||
23637 | #define USPosition (1L<<0) /* user specified x,y */ | ||
23638 | #define USSize (1L<<1) /* user specified width,he | ||
23639 | ight */ | ||
23640 | #define PPosition (1L<<2) /* program specified posis | ||
23641 | tion */ | ||
23642 | #define PSize (1L<<3) /* program specified size | ||
23643 | */ | ||
23644 | #define PMinSize (1L<<4) /* program specified minim | ||
23645 | um size */ | ||
23646 | #define PMaxSize (1L<<5) /* program specified maxim | ||
23647 | um size */ | ||
23648 | #define PResizeInc (1L<<5) /* program specified resiz | ||
23649 | e increments */ | ||
23650 | #define PAspect (1L<<6) /* program specified min a | ||
23651 | nd max aspect ratios */ | ||
23652 | #define PBaseSize (1L<<8) | ||
23653 | #define PWinGravity (1L<<9) | ||
23654 | #define PAllHints (PPosition|Psize| | ||
23655 | PMinSize|PMaxSize| | ||
23656 | PResizeInc|PAspect) | ||
23657 | |||
23658 | |||
23659 | /* Values */ | ||
23660 | |||
23661 | typedef struct { | ||
23662 | long flags; /* marks which fields in this structure | ||
23663 | are defined */ | ||
23664 | int x, y; /* Obsolete */ | ||
23665 | int width, height; /* Obsolete */ | ||
23666 | int min_width, min_height; | ||
23667 | int max_width, max_height; | ||
23668 | int width_inc, height_inc; | ||
23669 | struct { | ||
23670 | int x; /* numerator */ | ||
23671 | int y; /* denominator */ | ||
23672 | } min_aspect, max_aspect; | ||
23673 | int base_width, base_height; | ||
23674 | int win_gravity; | ||
23675 | /* this structure may be extended in the future */ | ||
23676 | } XSizeHints; | ||
23677 | |||
23678 | The x, y, width, and height members are now obsolete and are | ||
23679 | left solely for compatibility reasons. The min_width and | ||
23680 | min_height members specify the minimum window size that still | ||
23681 | allows the application to be useful. The max_width and | ||
23682 | max_height members specify the maximum window size. The | ||
23683 | width_inc and height_inc members define an arithmetic | ||
23684 | progression of sizes (minimum to maximum) into which the window | ||
23685 | prefers to be resized. The min_aspect and max_aspect members | ||
23686 | are expressed as ratios of x and y, and they allow an | ||
23687 | application to specify the range of aspect ratios it prefers. | ||
23688 | The base_width and base_height members define the desired size | ||
23689 | of the window. The window manager will interpret the position | ||
23690 | of the window and its border width to position the point of the | ||
23691 | outer rectangle of the overall window specified by the | ||
23692 | win_gravity member. The outer rectangle of the window includes | ||
23693 | any borders or decorations supplied by the window manager. In | ||
23694 | other words, if the window manager decides to place the window | ||
23695 | where the client asked, the position on the parent window's | ||
23696 | border named by the win_gravity will be placed where the client | ||
23697 | window would have been placed in the absence of a window | ||
23698 | manager. | ||
23699 | |||
23700 | Note that use of the PAllHints macro is highly discouraged. | ||
23701 | |||
23702 | To set a window's WM_NORMAL_HINTS property, use | ||
23703 | XSetWMNormalHints. | ||
23704 | |||
23705 | void XSetWMNormalHints(Display *display, Window w, XSizeHints | ||
23706 | *hints); | ||
23707 | |||
23708 | display | ||
23709 | |||
23710 | Specifies the connection to the X server. | ||
23711 | |||
23712 | w | ||
23713 | |||
23714 | Specifies the window. | ||
23715 | |||
23716 | hints | ||
23717 | |||
23718 | Specifies the size hints for the window in its normal state. | ||
23719 | |||
23720 | The XSetWMNormalHints function replaces the size hints for the | ||
23721 | WM_NORMAL_HINTS property on the specified window. If the | ||
23722 | property does not already exist, XSetWMNormalHints sets the | ||
23723 | size hints for the WM_NORMAL_HINTS property on the specified | ||
23724 | window. The property is stored with a type of WM_SIZE_HINTS and | ||
23725 | a format of 32. | ||
23726 | |||
23727 | XSetWMNormalHints can generate BadAlloc and BadWindow errors. | ||
23728 | |||
23729 | To read a window's WM_NORMAL_HINTS property, use | ||
23730 | XGetWMNormalHints. | ||
23731 | |||
23732 | Status XGetWMNormalHints(Display *display, Window w, XSizeHints | ||
23733 | *hints_return, long *supplied_return); | ||
23734 | |||
23735 | display | ||
23736 | |||
23737 | Specifies the connection to the X server. | ||
23738 | |||
23739 | w | ||
23740 | |||
23741 | Specifies the window. | ||
23742 | |||
23743 | hints_return | ||
23744 | |||
23745 | Returns the size hints for the window in its normal state. | ||
23746 | |||
23747 | supplied_return | ||
23748 | |||
23749 | Returns the hints that were supplied by the user. | ||
23750 | |||
23751 | The XGetWMNormalHints function returns the size hints stored in | ||
23752 | the WM_NORMAL_HINTS property on the specified window. If the | ||
23753 | property is of type WM_SIZE_HINTS, is of format 32, and is long | ||
23754 | enough to contain either an old (pre-ICCCM) or new size hints | ||
23755 | structure, XGetWMNormalHints sets the various fields of the | ||
23756 | XSizeHints structure, sets the supplied_return argument to the | ||
23757 | list of fields that were supplied by the user (whether or not | ||
23758 | they contained defined values), and returns a nonzero status. | ||
23759 | Otherwise, it returns a zero status. | ||
23760 | |||
23761 | If XGetWMNormalHints returns successfully and a pre-ICCCM size | ||
23762 | hints property is read, the supplied_return argument will | ||
23763 | contain the following bits: | ||
23764 | |||
23765 | (USPosition|USSize|PPosition|PSize|PMinSize| | ||
23766 | PMaxSize|PResizeInc|PAspect) | ||
23767 | |||
23768 | If the property is large enough to contain the base size and | ||
23769 | window gravity fields as well, the supplied_return argument | ||
23770 | will also contain the following bits: | ||
23771 | |||
23772 | PBaseSize|PWinGravity | ||
23773 | |||
23774 | XGetWMNormalHints can generate a BadWindow error. | ||
23775 | |||
23776 | To set a window's WM_SIZE_HINTS property, use XSetWMSizeHints. | ||
23777 | |||
23778 | void XSetWMSizeHints(Display *display, Window w, XSizeHints | ||
23779 | *hints, Atom property); | ||
23780 | |||
23781 | display | ||
23782 | |||
23783 | Specifies the connection to the X server. | ||
23784 | |||
23785 | w | ||
23786 | |||
23787 | Specifies the window. | ||
23788 | |||
23789 | hints | ||
23790 | |||
23791 | Specifies the XSizeHints structure to be used. | ||
23792 | |||
23793 | property | ||
23794 | |||
23795 | Specifies the property name. | ||
23796 | |||
23797 | The XSetWMSizeHints function replaces the size hints for the | ||
23798 | specified property on the named window. If the specified | ||
23799 | property does not already exist, XSetWMSizeHints sets the size | ||
23800 | hints for the specified property on the named window. The | ||
23801 | property is stored with a type of WM_SIZE_HINTS and a format of | ||
23802 | 32. To set a window's normal size hints, you can use the | ||
23803 | XSetWMNormalHints function. | ||
23804 | |||
23805 | XSetWMSizeHints can generate BadAlloc, BadAtom, and BadWindow | ||
23806 | errors. | ||
23807 | |||
23808 | To read a window's WM_SIZE_HINTS property, use XGetWMSizeHints. | ||
23809 | |||
23810 | Status XGetWMSizeHints(Display *display, Window w, XSizeHints | ||
23811 | *hints_return, long *supplied_return, Atom property); | ||
23812 | |||
23813 | display | ||
23814 | |||
23815 | Specifies the connection to the X server. | ||
23816 | |||
23817 | w | ||
23818 | |||
23819 | Specifies the window. | ||
23820 | |||
23821 | hints_return | ||
23822 | |||
23823 | Returns the XSizeHints structure. | ||
23824 | |||
23825 | supplied_return | ||
23826 | |||
23827 | Returns the hints that were supplied by the user. | ||
23828 | |||
23829 | property | ||
23830 | |||
23831 | Specifies the property name. | ||
23832 | |||
23833 | The XGetWMSizeHints function returns the size hints stored in | ||
23834 | the specified property on the named window. If the property is | ||
23835 | of type WM_SIZE_HINTS, is of format 32, and is long enough to | ||
23836 | contain either an old (pre-ICCCM) or new size hints structure, | ||
23837 | XGetWMSizeHints sets the various fields of the XSizeHints | ||
23838 | structure, sets the supplied_return argument to the list of | ||
23839 | fields that were supplied by the user (whether or not they | ||
23840 | contained defined values), and returns a nonzero status. | ||
23841 | Otherwise, it returns a zero status. To get a window's normal | ||
23842 | size hints, you can use the XGetWMNormalHints function. | ||
23843 | |||
23844 | If XGetWMSizeHints returns successfully and a pre-ICCCM size | ||
23845 | hints property is read, the supplied_return argument will | ||
23846 | contain the following bits: | ||
23847 | |||
23848 | (USPosition|USSize|PPosition|PSize|PMinSize| | ||
23849 | PMaxSize|PResizeInc|PAspect) | ||
23850 | |||
23851 | If the property is large enough to contain the base size and | ||
23852 | window gravity fields as well, the supplied_return argument | ||
23853 | will also contain the following bits: | ||
23854 | |||
23855 | PBaseSize|PWinGravity | ||
23856 | |||
23857 | XGetWMSizeHints can generate BadAtom and BadWindow errors. | ||
23858 | |||
23859 | Setting and Reading the WM_CLASS Property | ||
23860 | |||
23861 | Xlib provides functions that you can use to set and get the | ||
23862 | WM_CLASS property for a given window. These functions use the | ||
23863 | XClassHint structure, which is defined in the <X11/Xutil.h> | ||
23864 | header file. | ||
23865 | |||
23866 | To allocate an XClassHint structure, use XAllocClassHint. | ||
23867 | |||
23868 | XClassHint *XAllocClassHint(void); | ||
23869 | |||
23870 | The XAllocClassHint function allocates and returns a pointer to | ||
23871 | an XClassHint structure. Note that the pointer fields in the | ||
23872 | XClassHint structure are initially set to NULL. If insufficient | ||
23873 | memory is available, XAllocClassHint returns NULL. To free the | ||
23874 | memory allocated to this structure, use XFree. | ||
23875 | |||
23876 | The XClassHint contains: | ||
23877 | |||
23878 | |||
23879 | |||
23880 | typedef struct { | ||
23881 | char *res_name; | ||
23882 | char *res_class; | ||
23883 | } XClassHint; | ||
23884 | |||
23885 | The res_name member contains the application name, and the | ||
23886 | res_class member contains the application class. Note that the | ||
23887 | name set in this property may differ from the name set as | ||
23888 | WM_NAME. That is, WM_NAME specifies what should be displayed in | ||
23889 | the title bar and, therefore, can contain temporal information | ||
23890 | (for example, the name of a file currently in an editor's | ||
23891 | buffer). On the other hand, the name specified as part of | ||
23892 | WM_CLASS is the formal name of the application that should be | ||
23893 | used when retrieving the application's resources from the | ||
23894 | resource database. | ||
23895 | |||
23896 | To set a window's WM_CLASS property, use XSetClassHint. | ||
23897 | |||
23898 | XSetClassHint(Display *display, Window w, XClassHint | ||
23899 | *class_hints); | ||
23900 | |||
23901 | display | ||
23902 | |||
23903 | Specifies the connection to the X server. | ||
23904 | |||
23905 | w | ||
23906 | |||
23907 | Specifies the window. | ||
23908 | |||
23909 | class_hints | ||
23910 | |||
23911 | Specifies the XClassHint structure that is to be used. | ||
23912 | |||
23913 | The XSetClassHint function sets the class hint for the | ||
23914 | specified window. If the strings are not in the Host Portable | ||
23915 | Character Encoding, the result is implementation-dependent. | ||
23916 | |||
23917 | XSetClassHint can generate BadAlloc and BadWindow errors. | ||
23918 | |||
23919 | To read a window's WM_CLASS property, use XGetClassHint. | ||
23920 | |||
23921 | Status XGetClassHint(Display *display, Window w, XClassHint | ||
23922 | *class_hints_return); | ||
23923 | |||
23924 | display | ||
23925 | |||
23926 | Specifies the connection to the X server. | ||
23927 | |||
23928 | w | ||
23929 | |||
23930 | Specifies the window. | ||
23931 | |||
23932 | class_hints_return | ||
23933 | |||
23934 | Returns the XClassHint structure. | ||
23935 | |||
23936 | The XGetClassHint function returns the class hint of the | ||
23937 | specified window to the members of the supplied structure. If | ||
23938 | the data returned by the server is in the Latin Portable | ||
23939 | Character Encoding, then the returned strings are in the Host | ||
23940 | Portable Character Encoding. Otherwise, the result is | ||
23941 | implementation-dependent. It returns a nonzero status on | ||
23942 | success; otherwise, it returns a zero status. To free res_name | ||
23943 | and res_class when finished with the strings, use XFree on each | ||
23944 | individually. | ||
23945 | |||
23946 | XGetClassHint can generate a BadWindow error. | ||
23947 | |||
23948 | Setting and Reading the WM_TRANSIENT_FOR Property | ||
23949 | |||
23950 | Xlib provides functions that you can use to set and read the | ||
23951 | WM_TRANSIENT_FOR property for a given window. | ||
23952 | |||
23953 | To set a window's WM_TRANSIENT_FOR property, use | ||
23954 | XSetTransientForHint. | ||
23955 | |||
23956 | XSetTransientForHint(Display *display, Window w, Window | ||
23957 | prop_window); | ||
23958 | |||
23959 | display | ||
23960 | |||
23961 | Specifies the connection to the X server. | ||
23962 | |||
23963 | w | ||
23964 | |||
23965 | Specifies the window. | ||
23966 | |||
23967 | prop_window | ||
23968 | |||
23969 | Specifies the window that the WM_TRANSIENT_FOR property is to | ||
23970 | be set to. | ||
23971 | |||
23972 | The XSetTransientForHint function sets the WM_TRANSIENT_FOR | ||
23973 | property of the specified window to the specified prop_window. | ||
23974 | |||
23975 | XSetTransientForHint can generate BadAlloc and BadWindow | ||
23976 | errors. | ||
23977 | |||
23978 | To read a window's WM_TRANSIENT_FOR property, use | ||
23979 | XGetTransientForHint. | ||
23980 | |||
23981 | Status XGetTransientForHint(Display *display, Window w, Window | ||
23982 | *prop_window_return); | ||
23983 | |||
23984 | display | ||
23985 | |||
23986 | Specifies the connection to the X server. | ||
23987 | |||
23988 | w | ||
23989 | |||
23990 | Specifies the window. | ||
23991 | |||
23992 | prop_window_return | ||
23993 | |||
23994 | Returns the WM_TRANSIENT_FOR property of the specified window. | ||
23995 | |||
23996 | The XGetTransientForHint function returns the WM_TRANSIENT_FOR | ||
23997 | property for the specified window. It returns a nonzero status | ||
23998 | on success; otherwise, it returns a zero status. | ||
23999 | |||
24000 | XGetTransientForHint can generate a BadWindow error. | ||
24001 | |||
24002 | Setting and Reading the WM_PROTOCOLS Property | ||
24003 | |||
24004 | Xlib provides functions that you can use to set and read the | ||
24005 | WM_PROTOCOLS property for a given window. | ||
24006 | |||
24007 | To set a window's WM_PROTOCOLS property, use XSetWMProtocols. | ||
24008 | |||
24009 | Status XSetWMProtocols(Display *display, Window w, Atom | ||
24010 | *protocols, int count); | ||
24011 | |||
24012 | display | ||
24013 | |||
24014 | Specifies the connection to the X server. | ||
24015 | |||
24016 | w | ||
24017 | |||
24018 | Specifies the window. | ||
24019 | |||
24020 | protocols | ||
24021 | |||
24022 | Specifies the list of protocols. | ||
24023 | |||
24024 | count | ||
24025 | |||
24026 | Specifies the number of protocols in the list. | ||
24027 | |||
24028 | The XSetWMProtocols function replaces the WM_PROTOCOLS property | ||
24029 | on the specified window with the list of atoms specified by the | ||
24030 | protocols argument. If the property does not already exist, | ||
24031 | XSetWMProtocols sets the WM_PROTOCOLS property on the specified | ||
24032 | window to the list of atoms specified by the protocols | ||
24033 | argument. The property is stored with a type of ATOM and a | ||
24034 | format of 32. If it cannot intern the WM_PROTOCOLS atom, | ||
24035 | XSetWMProtocols returns a zero status. Otherwise, it returns a | ||
24036 | nonzero status. | ||
24037 | |||
24038 | XSetWMProtocols can generate BadAlloc and BadWindow errors. | ||
24039 | |||
24040 | To read a window's WM_PROTOCOLS property, use XGetWMProtocols. | ||
24041 | |||
24042 | Status XGetWMProtocols(Display *display, Window w, Atom | ||
24043 | **protocols_return, int *count_return); | ||
24044 | |||
24045 | display | ||
24046 | |||
24047 | Specifies the connection to the X server. | ||
24048 | |||
24049 | w | ||
24050 | |||
24051 | Specifies the window. | ||
24052 | |||
24053 | protocols_return | ||
24054 | |||
24055 | Returns the list of protocols. | ||
24056 | |||
24057 | count_return | ||
24058 | |||
24059 | Returns the number of protocols in the list. | ||
24060 | |||
24061 | The XGetWMProtocols function returns the list of atoms stored | ||
24062 | in the WM_PROTOCOLS property on the specified window. These | ||
24063 | atoms describe window manager protocols in which the owner of | ||
24064 | this window is willing to participate. If the property exists, | ||
24065 | is of type ATOM, is of format 32, and the atom WM_PROTOCOLS can | ||
24066 | be interned, XGetWMProtocols sets the protocols_return argument | ||
24067 | to a list of atoms, sets the count_return argument to the | ||
24068 | number of elements in the list, and returns a nonzero status. | ||
24069 | Otherwise, it sets neither of the return arguments and returns | ||
24070 | a zero status. To release the list of atoms, use XFree. | ||
24071 | |||
24072 | XGetWMProtocols can generate a BadWindow error. | ||
24073 | |||
24074 | Setting and Reading the WM_COLORMAP_WINDOWS Property | ||
24075 | |||
24076 | Xlib provides functions that you can use to set and read the | ||
24077 | WM_COLORMAP_WINDOWS property for a given window. | ||
24078 | |||
24079 | To set a window's WM_COLORMAP_WINDOWS property, use | ||
24080 | XSetWMColormapWindows. | ||
24081 | |||
24082 | Status XSetWMColormapWindows(Display *display, Window w, Window | ||
24083 | *colormap_windows, int count); | ||
24084 | |||
24085 | display | ||
24086 | |||
24087 | Specifies the connection to the X server. | ||
24088 | |||
24089 | w | ||
24090 | |||
24091 | Specifies the window. | ||
24092 | |||
24093 | colormap_windows | ||
24094 | |||
24095 | Specifies the list of windows. | ||
24096 | |||
24097 | count | ||
24098 | |||
24099 | Specifies the number of windows in the list. | ||
24100 | |||
24101 | The XSetWMColormapWindows function replaces the | ||
24102 | WM_COLORMAP_WINDOWS property on the specified window with the | ||
24103 | list of windows specified by the colormap_windows argument. If | ||
24104 | the property does not already exist, XSetWMColormapWindows sets | ||
24105 | the WM_COLORMAP_WINDOWS property on the specified window to the | ||
24106 | list of windows specified by the colormap_windows argument. The | ||
24107 | property is stored with a type of WINDOW and a format of 32. If | ||
24108 | it cannot intern the WM_COLORMAP_WINDOWS atom, | ||
24109 | XSetWMColormapWindows returns a zero status. Otherwise, it | ||
24110 | returns a nonzero status. | ||
24111 | |||
24112 | XSetWMColormapWindows can generate BadAlloc and BadWindow | ||
24113 | errors. | ||
24114 | |||
24115 | To read a window's WM_COLORMAP_WINDOWS property, use | ||
24116 | XGetWMColormapWindows. | ||
24117 | |||
24118 | Status XGetWMColormapWindows(Display *display, Window w, Window | ||
24119 | **colormap_windows_return, int *count_return); | ||
24120 | |||
24121 | display | ||
24122 | |||
24123 | Specifies the connection to the X server. | ||
24124 | |||
24125 | w | ||
24126 | |||
24127 | Specifies the window. | ||
24128 | |||
24129 | colormap_windows_return | ||
24130 | |||
24131 | Returns the list of windows. | ||
24132 | |||
24133 | count_return | ||
24134 | |||
24135 | Returns the number of windows in the list. | ||
24136 | |||
24137 | The XGetWMColormapWindows function returns the list of window | ||
24138 | identifiers stored in the WM_COLORMAP_WINDOWS property on the | ||
24139 | specified window. These identifiers indicate the colormaps that | ||
24140 | the window manager may need to install for this window. If the | ||
24141 | property exists, is of type WINDOW, is of format 32, and the | ||
24142 | atom WM_COLORMAP_WINDOWS can be interned, XGetWMColormapWindows | ||
24143 | sets the windows_return argument to a list of window | ||
24144 | identifiers, sets the count_return argument to the number of | ||
24145 | elements in the list, and returns a nonzero status. Otherwise, | ||
24146 | it sets neither of the return arguments and returns a zero | ||
24147 | status. To release the list of window identifiers, use XFree. | ||
24148 | |||
24149 | XGetWMColormapWindows can generate a BadWindow error. | ||
24150 | |||
24151 | Setting and Reading the WM_ICON_SIZE Property | ||
24152 | |||
24153 | Xlib provides functions that you can use to set and read the | ||
24154 | WM_ICON_SIZE property for a given window. These functions use | ||
24155 | the XIconSize structure, which is defined in the <X11/Xutil.h> | ||
24156 | header file. | ||
24157 | |||
24158 | To allocate an XIconSize structure, use XAllocIconSize. | ||
24159 | |||
24160 | XIconSize *XAllocIconSize(void); | ||
24161 | |||
24162 | The XAllocIconSize function allocates and returns a pointer to | ||
24163 | an XIconSize structure. Note that all fields in the XIconSize | ||
24164 | structure are initially set to zero. If insufficient memory is | ||
24165 | available, XAllocIconSize returns NULL. To free the memory | ||
24166 | allocated to this structure, use XFree. | ||
24167 | |||
24168 | The XIconSize structure contains: | ||
24169 | |||
24170 | |||
24171 | |||
24172 | typedef struct { | ||
24173 | int min_width, min_height; | ||
24174 | int max_width, max_height; | ||
24175 | int width_inc, height_inc; | ||
24176 | } XIconSize; | ||
24177 | |||
24178 | The width_inc and height_inc members define an arithmetic | ||
24179 | progression of sizes (minimum to maximum) that represent the | ||
24180 | supported icon sizes. | ||
24181 | |||
24182 | To set a window's WM_ICON_SIZE property, use XSetIconSizes. | ||
24183 | |||
24184 | XSetIconSizes(Display *display, Window w, XIconSize *size_list, | ||
24185 | int count); | ||
24186 | |||
24187 | display | ||
24188 | |||
24189 | Specifies the connection to the X server. | ||
24190 | |||
24191 | w | ||
24192 | |||
24193 | Specifies the window. | ||
24194 | |||
24195 | size_list | ||
24196 | |||
24197 | Specifies the size list. | ||
24198 | |||
24199 | count | ||
24200 | |||
24201 | Specifies the number of items in the size list. | ||
24202 | |||
24203 | The XSetIconSizes function is used only by window managers to | ||
24204 | set the supported icon sizes. | ||
24205 | |||
24206 | XSetIconSizes can generate BadAlloc and BadWindow errors. | ||
24207 | |||
24208 | To read a window's WM_ICON_SIZE property, use XGetIconSizes. | ||
24209 | |||
24210 | Status XGetIconSizes(Display *display, Window w, XIconSize | ||
24211 | **size_list_return, int *count_return); | ||
24212 | |||
24213 | display | ||
24214 | |||
24215 | Specifies the connection to the X server. | ||
24216 | |||
24217 | w | ||
24218 | |||
24219 | Specifies the window. | ||
24220 | |||
24221 | size_list_return | ||
24222 | |||
24223 | Returns the size list. | ||
24224 | |||
24225 | count_return | ||
24226 | |||
24227 | Returns the number of items in the size list. | ||
24228 | |||
24229 | The XGetIconSizes function returns zero if a window manager has | ||
24230 | not set icon sizes; otherwise, it returns nonzero. | ||
24231 | XGetIconSizes should be called by an application that wants to | ||
24232 | find out what icon sizes would be most appreciated by the | ||
24233 | window manager under which the application is running. The | ||
24234 | application should then use XSetWMHints to supply the window | ||
24235 | manager with an icon pixmap or window in one of the supported | ||
24236 | sizes. To free the data allocated in size_list_return, use | ||
24237 | XFree. | ||
24238 | |||
24239 | XGetIconSizes can generate a BadWindow error. | ||
24240 | |||
24241 | Using Window Manager Convenience Functions | ||
24242 | |||
24243 | The XmbSetWMProperties function stores the standard set of | ||
24244 | window manager properties, with text properties in standard | ||
24245 | encodings for internationalized text communication. The | ||
24246 | standard window manager properties for a given window are | ||
24247 | WM_NAME, WM_ICON_NAME, WM_HINTS, WM_NORMAL_HINTS, WM_CLASS, | ||
24248 | WM_COMMAND, WM_CLIENT_MACHINE, and WM_LOCALE_NAME. | ||
24249 | |||
24250 | void XmbSetWMProperties(Display *display, Window w, char | ||
24251 | *window_name, char *icon_name, char *argv[], int argc, | ||
24252 | XSizeHints *normal_hints, XWMHints *wm_hints, XClassHint | ||
24253 | *class_hints); | ||
24254 | |||
24255 | display | ||
24256 | |||
24257 | Specifies the connection to the X server. | ||
24258 | |||
24259 | w | ||
24260 | |||
24261 | Specifies the window. | ||
24262 | |||
24263 | window_name | ||
24264 | |||
24265 | Specifies the window name, which should be a null-terminated | ||
24266 | string. | ||
24267 | |||
24268 | icon_name | ||
24269 | |||
24270 | Specifies the icon name, which should be a null-terminated | ||
24271 | string. | ||
24272 | |||
24273 | argv | ||
24274 | |||
24275 | Specifies the application's argument list. | ||
24276 | |||
24277 | argc | ||
24278 | |||
24279 | Specifies the number of arguments. | ||
24280 | |||
24281 | hints | ||
24282 | |||
24283 | Specifies the size hints for the window in its normal state. | ||
24284 | |||
24285 | wm_hints | ||
24286 | |||
24287 | Specifies the XWMHints structure to be used. | ||
24288 | |||
24289 | class_hints | ||
24290 | |||
24291 | Specifies the XClassHint structure to be used. | ||
24292 | |||
24293 | The XmbSetWMProperties convenience function provides a simple | ||
24294 | programming interface for setting those essential window | ||
24295 | properties that are used for communicating with other clients | ||
24296 | (particularly window and session managers). | ||
24297 | |||
24298 | If the window_name argument is non-NULL, XmbSetWMProperties | ||
24299 | sets the WM_NAME property. If the icon_name argument is | ||
24300 | non-NULL, XmbSetWMProperties sets the WM_ICON_NAME property. | ||
24301 | The window_name and icon_name arguments are null-terminated | ||
24302 | strings in the encoding of the current locale. If the arguments | ||
24303 | can be fully converted to the STRING encoding, the properties | ||
24304 | are created with type ``STRING''; otherwise, the arguments are | ||
24305 | converted to Compound Text, and the properties are created with | ||
24306 | type ``COMPOUND_TEXT''. | ||
24307 | |||
24308 | If the normal_hints argument is non-NULL, XmbSetWMProperties | ||
24309 | calls XSetWMNormalHints, which sets the WM_NORMAL_HINTS | ||
24310 | property (see section 14.1.7). If the wm_hints argument is | ||
24311 | non-NULL, XmbSetWMProperties calls XSetWMHints, which sets the | ||
24312 | WM_HINTS property (see section 14.1.6). | ||
24313 | |||
24314 | If the argv argument is non-NULL, XmbSetWMProperties sets the | ||
24315 | WM_COMMAND property from argv and argc. An argc of zero | ||
24316 | indicates a zero-length command. | ||
24317 | |||
24318 | The hostname of the machine is stored using XSetWMClientMachine | ||
24319 | (see section 14.2.2). | ||
24320 | |||
24321 | If the class_hints argument is non-NULL, XmbSetWMProperties | ||
24322 | sets the WM_CLASS property. If the res_name member in the | ||
24323 | XClassHint structure is set to the NULL pointer and the | ||
24324 | RESOURCE_NAME environment variable is set, the value of the | ||
24325 | environment variable is substituted for res_name. If the | ||
24326 | res_name member is NULL, the environment variable is not set, | ||
24327 | and argv and argv[0] are set, then the value of argv[0], | ||
24328 | stripped of any directory prefixes, is substituted for | ||
24329 | res_name. | ||
24330 | |||
24331 | It is assumed that the supplied class_hints.res_name and argv, | ||
24332 | the RESOURCE_NAME environment variable, and the hostname of the | ||
24333 | machine are in the encoding of the locale announced for the | ||
24334 | LC_CTYPE category (on POSIX-compliant systems, the LC_CTYPE, | ||
24335 | else LANG environment variable). The corresponding WM_CLASS, | ||
24336 | WM_COMMAND, and WM_CLIENT_MACHINE properties are typed | ||
24337 | according to the local host locale announcer. No encoding | ||
24338 | conversion is performed prior to storage in the properties. | ||
24339 | |||
24340 | For clients that need to process the property text in a locale, | ||
24341 | XmbSetWMProperties sets the WM_LOCALE_NAME property to be the | ||
24342 | name of the current locale. The name is assumed to be in the | ||
24343 | Host Portable Character Encoding and is converted to STRING for | ||
24344 | storage in the property. | ||
24345 | |||
24346 | XmbSetWMProperties can generate BadAlloc and BadWindow errors. | ||
24347 | |||
24348 | To set a window's standard window manager properties with | ||
24349 | strings in client-specified encodings, use XSetWMProperties. | ||
24350 | The standard window manager properties for a given window are | ||
24351 | WM_NAME, WM_ICON_NAME, WM_HINTS, WM_NORMAL_HINTS, WM_CLASS, | ||
24352 | WM_COMMAND, and WM_CLIENT_MACHINE. | ||
24353 | |||
24354 | void XSetWMProperties(Display *display, Window w, XTextProperty | ||
24355 | *window_name, XTextProperty *icon_name, char **argv, int argc, | ||
24356 | XSizeHints *normal_hints, XWMHints *wm_hints, XClassHint | ||
24357 | *class_hints); | ||
24358 | |||
24359 | display | ||
24360 | |||
24361 | Specifies the connection to the X server. | ||
24362 | |||
24363 | w | ||
24364 | |||
24365 | Specifies the window. | ||
24366 | |||
24367 | window_name | ||
24368 | |||
24369 | Specifies the window name, which should be a null-terminated | ||
24370 | string. | ||
24371 | |||
24372 | icon_name | ||
24373 | |||
24374 | Specifies the icon name, which should be a null-terminated | ||
24375 | string. | ||
24376 | |||
24377 | argv | ||
24378 | |||
24379 | Specifies the application's argument list. | ||
24380 | |||
24381 | argc | ||
24382 | |||
24383 | Specifies the number of arguments. | ||
24384 | |||
24385 | normal_hints | ||
24386 | |||
24387 | Specifies the size hints for the window in its normal state. | ||
24388 | |||
24389 | wm_hints | ||
24390 | |||
24391 | Specifies the XWMHints structure to be used. | ||
24392 | |||
24393 | class_hints | ||
24394 | |||
24395 | Specifies the XClassHint structure to be used. | ||
24396 | |||
24397 | The XSetWMProperties convenience function provides a single | ||
24398 | programming interface for setting those essential window | ||
24399 | properties that are used for communicating with other clients | ||
24400 | (particularly window and session managers). | ||
24401 | |||
24402 | If the window_name argument is non-NULL, XSetWMProperties calls | ||
24403 | XSetWMName, which, in turn, sets the WM_NAME property (see | ||
24404 | section 14.1.4). If the icon_name argument is non-NULL, | ||
24405 | XSetWMProperties calls XSetWMIconName, which sets the | ||
24406 | WM_ICON_NAME property (see section 14.1.5). If the argv | ||
24407 | argument is non-NULL, XSetWMProperties calls XSetCommand, which | ||
24408 | sets the WM_COMMAND property (see section 14.2.1). Note that an | ||
24409 | argc of zero is allowed to indicate a zero-length command. Note | ||
24410 | also that the hostname of this machine is stored using | ||
24411 | XSetWMClientMachine (see section 14.2.2). | ||
24412 | |||
24413 | If the normal_hints argument is non-NULL, XSetWMProperties | ||
24414 | calls XSetWMNormalHints, which sets the WM_NORMAL_HINTS | ||
24415 | property (see section 14.1.7). If the wm_hints argument is | ||
24416 | non-NULL, XSetWMProperties calls XSetWMHints, which sets the | ||
24417 | WM_HINTS property (see section 14.1.6). | ||
24418 | |||
24419 | If the class_hints argument is non-NULL, XSetWMProperties calls | ||
24420 | XSetClassHint, which sets the WM_CLASS property (see section | ||
24421 | 14.1.8). If the res_name member in the XClassHint structure is | ||
24422 | set to the NULL pointer and the RESOURCE_NAME environment | ||
24423 | variable is set, then the value of the environment variable is | ||
24424 | substituted for res_name. If the res_name member is NULL, the | ||
24425 | environment variable is not set, and argv and argv[0] are set, | ||
24426 | then the value of argv[0], stripped of any directory prefixes, | ||
24427 | is substituted for res_name. | ||
24428 | |||
24429 | XSetWMProperties can generate BadAlloc and BadWindow errors. | ||
24430 | |||
24431 | Client to Session Manager Communication | ||
24432 | |||
24433 | This section discusses how to: | ||
24434 | * Set and read the WM_COMMAND property | ||
24435 | * Set and read the WM_CLIENT_MACHINE property | ||
24436 | |||
24437 | Setting and Reading the WM_COMMAND Property | ||
24438 | |||
24439 | Xlib provides functions that you can use to set and read the | ||
24440 | WM_COMMAND property for a given window. | ||
24441 | |||
24442 | To set a window's WM_COMMAND property, use XSetCommand. | ||
24443 | |||
24444 | XSetCommand(Display *display, Window w, char **argv, int argc); | ||
24445 | |||
24446 | display | ||
24447 | |||
24448 | Specifies the connection to the X server. | ||
24449 | |||
24450 | w | ||
24451 | |||
24452 | Specifies the window. | ||
24453 | |||
24454 | argv | ||
24455 | |||
24456 | Specifies the application's argument list. | ||
24457 | |||
24458 | argc | ||
24459 | |||
24460 | Specifies the number of arguments. | ||
24461 | |||
24462 | The XSetCommand function sets the command and arguments used to | ||
24463 | invoke the application. (Typically, argv is the argv array of | ||
24464 | your main program.) If the strings are not in the Host Portable | ||
24465 | Character Encoding, the result is implementation-dependent. | ||
24466 | |||
24467 | XSetCommand can generate BadAlloc and BadWindow errors. | ||
24468 | |||
24469 | To read a window's WM_COMMAND property, use XGetCommand. | ||
24470 | |||
24471 | Status XGetCommand(Display *display, Window w, char | ||
24472 | ***argv_return, int *argc_return); | ||
24473 | |||
24474 | display | ||
24475 | |||
24476 | Specifies the connection to the X server. | ||
24477 | |||
24478 | w | ||
24479 | |||
24480 | Specifies the window. | ||
24481 | |||
24482 | argv_return | ||
24483 | |||
24484 | Returns the application's argument list. | ||
24485 | |||
24486 | argc_return | ||
24487 | |||
24488 | Returns the number of arguments returned. | ||
24489 | |||
24490 | The XGetCommand function reads the WM_COMMAND property from the | ||
24491 | specified window and returns a string list. If the WM_COMMAND | ||
24492 | property exists, it is of type STRING and format 8. If | ||
24493 | sufficient memory can be allocated to contain the string list, | ||
24494 | XGetCommand fills in the argv_return and argc_return arguments | ||
24495 | and returns a nonzero status. Otherwise, it returns a zero | ||
24496 | status. If the data returned by the server is in the Latin | ||
24497 | Portable Character Encoding, then the returned strings are in | ||
24498 | the Host Portable Character Encoding. Otherwise, the result is | ||
24499 | implementation-dependent. To free the memory allocated to the | ||
24500 | string list, use XFreeStringList. | ||
24501 | |||
24502 | Setting and Reading the WM_CLIENT_MACHINE Property | ||
24503 | |||
24504 | Xlib provides functions that you can use to set and read the | ||
24505 | WM_CLIENT_MACHINE property for a given window. | ||
24506 | |||
24507 | To set a window's WM_CLIENT_MACHINE property, use | ||
24508 | XSetWMClientMachine. | ||
24509 | |||
24510 | void XSetWMClientMachine(Display *display, Window w, | ||
24511 | XTextProperty *text_prop); | ||
24512 | |||
24513 | display | ||
24514 | |||
24515 | Specifies the connection to the X server. | ||
24516 | |||
24517 | w | ||
24518 | |||
24519 | Specifies the window. | ||
24520 | |||
24521 | text_prop | ||
24522 | |||
24523 | Specifies the XTextProperty structure to be used. | ||
24524 | |||
24525 | The XSetWMClientMachine convenience function calls | ||
24526 | XSetTextProperty to set the WM_CLIENT_MACHINE property. | ||
24527 | |||
24528 | To read a window's WM_CLIENT_MACHINE property, use | ||
24529 | XGetWMClientMachine. | ||
24530 | |||
24531 | Status XGetWMClientMachine(Display *display, Window w, | ||
24532 | XTextProperty *text_prop_return); | ||
24533 | |||
24534 | display | ||
24535 | |||
24536 | Specifies the connection to the X server. | ||
24537 | |||
24538 | w | ||
24539 | |||
24540 | Specifies the window. | ||
24541 | |||
24542 | text_prop_return | ||
24543 | |||
24544 | Returns the XTextProperty structure. | ||
24545 | |||
24546 | The XGetWMClientMachine convenience function performs an | ||
24547 | XGetTextProperty on the WM_CLIENT_MACHINE property. It returns | ||
24548 | a nonzero status on success; otherwise, it returns a zero | ||
24549 | status. | ||
24550 | |||
24551 | Standard Colormaps | ||
24552 | |||
24553 | Applications with color palettes, smooth-shaded drawings, or | ||
24554 | digitized images demand large numbers of colors. In addition, | ||
24555 | these applications often require an efficient mapping from | ||
24556 | color triples to pixel values that display the appropriate | ||
24557 | colors. | ||
24558 | |||
24559 | As an example, consider a three-dimensional display program | ||
24560 | that wants to draw a smoothly shaded sphere. At each pixel in | ||
24561 | the image of the sphere, the program computes the intensity and | ||
24562 | color of light reflected back to the viewer. The result of each | ||
24563 | computation is a triple of red, green, and blue (RGB) | ||
24564 | coefficients in the range 0.0 to 1.0. To draw the sphere, the | ||
24565 | program needs a colormap that provides a large range of | ||
24566 | uniformly distributed colors. The colormap should be arranged | ||
24567 | so that the program can convert its RGB triples into pixel | ||
24568 | values very quickly, because drawing the entire sphere requires | ||
24569 | many such conversions. | ||
24570 | |||
24571 | On many current workstations, the display is limited to 256 or | ||
24572 | fewer colors. Applications must allocate colors carefully, not | ||
24573 | only to make sure they cover the entire range they need but | ||
24574 | also to make use of as many of the available colors as | ||
24575 | possible. On a typical X display, many applications are active | ||
24576 | at once. Most workstations have only one hardware look-up table | ||
24577 | for colors, so only one application colormap can be installed | ||
24578 | at a given time. The application using the installed colormap | ||
24579 | is displayed correctly, and the other applications go | ||
24580 | technicolor and are displayed with false colors. | ||
24581 | |||
24582 | As another example, consider a user who is running an image | ||
24583 | processing program to display earth-resources data. The image | ||
24584 | processing program needs a colormap set up with 8 reds, 8 | ||
24585 | greens, and 4 blues, for a total of 256 colors. Because some | ||
24586 | colors are already in use in the default colormap, the image | ||
24587 | processing program allocates and installs a new colormap. | ||
24588 | |||
24589 | The user decides to alter some of the colors in the image by | ||
24590 | invoking a color palette program to mix and choose colors. The | ||
24591 | color palette program also needs a colormap with eight reds, | ||
24592 | eight greens, and four blues, so just like the image processing | ||
24593 | program, it must allocate and install a new colormap. | ||
24594 | |||
24595 | Because only one colormap can be installed at a time, the color | ||
24596 | palette may be displayed incorrectly whenever the image | ||
24597 | processing program is active. Conversely, whenever the palette | ||
24598 | program is active, the image may be displayed incorrectly. The | ||
24599 | user can never match or compare colors in the palette and | ||
24600 | image. Contention for colormap resources can be reduced if | ||
24601 | applications with similar color needs share colormaps. | ||
24602 | |||
24603 | The image processing program and the color palette program | ||
24604 | could share the same colormap if there existed a convention | ||
24605 | that described how the colormap was set up. Whenever either | ||
24606 | program was active, both would be displayed correctly. | ||
24607 | |||
24608 | The standard colormap properties define a set of commonly used | ||
24609 | colormaps. Applications that share these colormaps and | ||
24610 | conventions display true colors more often and provide a better | ||
24611 | interface to the user. | ||
24612 | |||
24613 | Standard colormaps allow applications to share commonly used | ||
24614 | color resources. This allows many applications to be displayed | ||
24615 | in true colors simultaneously, even when each application needs | ||
24616 | an entirely filled colormap. | ||
24617 | |||
24618 | Several standard colormaps are described in this section. | ||
24619 | Usually, a window manager creates these colormaps. Applications | ||
24620 | should use the standard colormaps if they already exist. | ||
24621 | |||
24622 | To allocate an XStandardColormap structure, use | ||
24623 | XAllocStandardColormap. | ||
24624 | |||
24625 | XStandardColormap *XAllocStandardColormap(void); | ||
24626 | |||
24627 | The XAllocStandardColormap function allocates and returns a | ||
24628 | pointer to an XStandardColormap structure. Note that all fields | ||
24629 | in the XStandardColormap structure are initially set to zero. | ||
24630 | If insufficient memory is available, XAllocStandardColormap | ||
24631 | returns NULL. To free the memory allocated to this structure, | ||
24632 | use XFree. | ||
24633 | |||
24634 | The XStandardColormap structure contains: | ||
24635 | /* Hints */ | ||
24636 | |||
24637 | #define ReeaseByFreeingColormap ((XID)1L) | ||
24638 | |||
24639 | /* Values */ | ||
24640 | |||
24641 | typedef struct { | ||
24642 | Colormap colormap; | ||
24643 | unsigned long red_max; | ||
24644 | unsigned long red_mult; | ||
24645 | unsigned long green_max; | ||
24646 | unsigned long green_mult; | ||
24647 | unsigned long blue_max; | ||
24648 | unsigned long blue_mult; | ||
24649 | unsigned long base_pixel; | ||
24650 | VisualID visualid; | ||
24651 | XID killid; | ||
24652 | } XStandardColormap; | ||
24653 | |||
24654 | The colormap member is the colormap created by the | ||
24655 | XCreateColormap function. The red_max, green_max, and blue_max | ||
24656 | members give the maximum red, green, and blue values, | ||
24657 | respectively. Each color coefficient ranges from zero to its | ||
24658 | max, inclusive. For example, a common colormap allocation is | ||
24659 | 3/3/2 (3 planes for red, 3 planes for green, and 2 planes for | ||
24660 | blue). This colormap would have red_max = 7, green_max = 7, and | ||
24661 | blue_max = 3. An alternate allocation that uses only 216 colors | ||
24662 | is red_max = 5, green_max = 5, and blue_max = 5. | ||
24663 | |||
24664 | The red_mult, green_mult, and blue_mult members give the scale | ||
24665 | factors used to compose a full pixel value. (See the discussion | ||
24666 | of the base_pixel members for further information.) For a 3/3/2 | ||
24667 | allocation, red_mult might be 32, green_mult might be 4, and | ||
24668 | blue_mult might be 1. For a 6-colors-each allocation, red_mult | ||
24669 | might be 36, green_mult might be 6, and blue_mult might be 1. | ||
24670 | |||
24671 | The base_pixel member gives the base pixel value used to | ||
24672 | compose a full pixel value. Usually, the base_pixel is obtained | ||
24673 | from a call to the XAllocColorPlanes function. Given integer | ||
24674 | red, green, and blue coefficients in their appropriate ranges, | ||
24675 | one then can compute a corresponding pixel value by using the | ||
24676 | following expression: | ||
24677 | |||
24678 | |||
24679 | |||
24680 | (r * red_mult + g * green_mult + b * blue_mult + base_pixel) & 0xFFFFFFF | ||
24681 | F | ||
24682 | |||
24683 | For GrayScale colormaps, only the colormap, red_max, red_mult, | ||
24684 | and base_pixel members are defined. The other members are | ||
24685 | ignored. To compute a GrayScale pixel value, use the following | ||
24686 | expression: | ||
24687 | |||
24688 | |||
24689 | |||
24690 | (gray * red_mult + base_pixel) & 0xFFFFFFFF | ||
24691 | |||
24692 | Negative multipliers can be represented by converting the 2's | ||
24693 | complement representation of the multiplier into an unsigned | ||
24694 | long and storing the result in the appropriate _mult field. The | ||
24695 | step of masking by 0xFFFFFFFF effectively converts the | ||
24696 | resulting positive multiplier into a negative one. The masking | ||
24697 | step will take place automatically on many machine | ||
24698 | architectures, depending on the size of the integer type used | ||
24699 | to do the computation. | ||
24700 | |||
24701 | The visualid member gives the ID number of the visual from | ||
24702 | which the colormap was created. The killid member gives a | ||
24703 | resource ID that indicates whether the cells held by this | ||
24704 | standard colormap are to be released by freeing the colormap ID | ||
24705 | or by calling the XKillClient function on the indicated | ||
24706 | resource. (Note that this method is necessary for allocating | ||
24707 | out of an existing colormap.) | ||
24708 | |||
24709 | The properties containing the XStandardColormap information | ||
24710 | have the type RGB_COLOR_MAP. | ||
24711 | |||
24712 | The remainder of this section discusses standard colormap | ||
24713 | properties and atoms as well as how to manipulate standard | ||
24714 | colormaps. | ||
24715 | |||
24716 | Standard Colormap Properties and Atoms | ||
24717 | |||
24718 | Several standard colormaps are available. Each standard | ||
24719 | colormap is defined by a property, and each such property is | ||
24720 | identified by an atom. The following list names the atoms and | ||
24721 | describes the colormap associated with each one. The | ||
24722 | <X11/Xatom.h> header file contains the definitions for each of | ||
24723 | the following atoms, which are prefixed with XA_. | ||
24724 | |||
24725 | RGB_DEFAULT_MAP | ||
24726 | |||
24727 | This atom names a property. The value of the property is an | ||
24728 | array of XStandardColormap structures. Each entry in the array | ||
24729 | describes an RGB subset of the default color map for the Visual | ||
24730 | specified by visual_id. | ||
24731 | |||
24732 | Some applications only need a few RGB colors and may be able to | ||
24733 | allocate them from the system default colormap. This is the | ||
24734 | ideal situation because the fewer colormaps that are active in | ||
24735 | the system the more applications are displayed with correct | ||
24736 | colors at all times. | ||
24737 | |||
24738 | A typical allocation for the RGB_DEFAULT_MAP on 8-plane | ||
24739 | displays is 6 reds, 6 greens, and 6 blues. This gives 216 | ||
24740 | uniformly distributed colors (6 intensities of 36 different | ||
24741 | hues) and still leaves 40 elements of a 256-element colormap | ||
24742 | available for special-purpose colors for text, borders, and so | ||
24743 | on. | ||
24744 | |||
24745 | RGB_BEST_MAP | ||
24746 | |||
24747 | This atom names a property. The value of the property is an | ||
24748 | XStandardColormap. | ||
24749 | |||
24750 | The property defines the best RGB colormap available on the | ||
24751 | screen. (Of course, this is a subjective evaluation.) Many | ||
24752 | image processing and three-dimensional applications need to use | ||
24753 | all available colormap cells and to distribute as many | ||
24754 | perceptually distinct colors as possible over those cells. This | ||
24755 | implies that there may be more green values available than red, | ||
24756 | as well as more green or red than blue. | ||
24757 | |||
24758 | For an 8-plane PseudoColor visual, RGB_BEST_MAP is likely to be | ||
24759 | a 3/3/2 allocation. For a 24-plane DirectColor visual, | ||
24760 | RGB_BEST_MAP is normally an 8/8/8 allocation. | ||
24761 | |||
24762 | RGB_RED_MAP,RGB_GREEN_MAP,RGB_BLUE_MAP | ||
24763 | |||
24764 | These atoms name properties. The value of each property is an | ||
24765 | XStandardColormap. | ||
24766 | |||
24767 | The properties define all-red, all-green, and all-blue | ||
24768 | colormaps, respectively. These maps are used by applications | ||
24769 | that want to make color-separated images. For example, a user | ||
24770 | might generate a full-color image on an 8-plane display both by | ||
24771 | rendering an image three times (once with high color resolution | ||
24772 | in red, once with green, and once with blue) and by multiply | ||
24773 | exposing a single frame in a camera. | ||
24774 | |||
24775 | RGB_GRAY_MAP | ||
24776 | |||
24777 | This atom names a property. The value of the property is an | ||
24778 | XStandardColormap. | ||
24779 | |||
24780 | The property describes the best GrayScale colormap available on | ||
24781 | the screen. As previously mentioned, only the colormap, | ||
24782 | red_max, red_mult, and base_pixel members of the | ||
24783 | XStandardColormap structure are used for GrayScale colormaps. | ||
24784 | |||
24785 | Setting and Obtaining Standard Colormaps | ||
24786 | |||
24787 | Xlib provides functions that you can use to set and obtain an | ||
24788 | XStandardColormap structure. | ||
24789 | |||
24790 | To set an XStandardColormap structure, use XSetRGBColormaps. | ||
24791 | |||
24792 | void XSetRGBColormaps(Display *display, Window w, | ||
24793 | XStandardColormap *std_colormap, int count, Atom property); | ||
24794 | |||
24795 | display | ||
24796 | |||
24797 | Specifies the connection to the X server. | ||
24798 | |||
24799 | w | ||
24800 | |||
24801 | Specifies the window. | ||
24802 | |||
24803 | std_colormap | ||
24804 | |||
24805 | Specifies the XStandardColormap structure to be used. | ||
24806 | |||
24807 | count | ||
24808 | |||
24809 | Specifies the number of colormaps. | ||
24810 | |||
24811 | property | ||
24812 | |||
24813 | Specifies the property name. | ||
24814 | |||
24815 | The XSetRGBColormaps function replaces the RGB colormap | ||
24816 | definition in the specified property on the named window. If | ||
24817 | the property does not already exist, XSetRGBColormaps sets the | ||
24818 | RGB colormap definition in the specified property on the named | ||
24819 | window. The property is stored with a type of RGB_COLOR_MAP and | ||
24820 | a format of 32. Note that it is the caller's responsibility to | ||
24821 | honor the ICCCM restriction that only RGB_DEFAULT_MAP contain | ||
24822 | more than one definition. | ||
24823 | |||
24824 | The XSetRGBColormaps function usually is only used by window or | ||
24825 | session managers. To create a standard colormap, follow this | ||
24826 | procedure: | ||
24827 | * Open a new connection to the same server. | ||
24828 | * Grab the server. | ||
24829 | * See if the property is on the property list of the root | ||
24830 | window for the screen. | ||
24831 | * If the desired property is not present: | ||
24832 | * Create a colormap (unless you are using the default | ||
24833 | colormap of the screen). | ||
24834 | * Determine the color characteristics of the visual. | ||
24835 | * Allocate cells in the colormap (or create it with | ||
24836 | AllocAll). | ||
24837 | * Call XStoreColors to store appropriate color values in the | ||
24838 | colormap. | ||
24839 | * Fill in the descriptive members in the XStandardColormap | ||
24840 | structure. | ||
24841 | * Attach the property to the root window. | ||
24842 | * Use XSetCloseDownMode to make the resource permanent. | ||
24843 | * Ungrab the server. | ||
24844 | |||
24845 | XSetRGBColormaps can generate BadAlloc, BadAtom, and BadWindow | ||
24846 | errors. | ||
24847 | |||
24848 | To obtain the XStandardColormap structure associated with the | ||
24849 | specified property, use XGetRGBColormaps. | ||
24850 | |||
24851 | Status XGetRGBColormaps(Display *display, Window w, | ||
24852 | XStandardColormap **std_colormap_return, int *count_return, | ||
24853 | Atom property); | ||
24854 | |||
24855 | display | ||
24856 | |||
24857 | Specifies the connection to the X server. | ||
24858 | |||
24859 | w | ||
24860 | |||
24861 | Specifies the window. | ||
24862 | |||
24863 | std_colormap_return | ||
24864 | |||
24865 | Returns the XStandardColormap structure. | ||
24866 | |||
24867 | count_return | ||
24868 | |||
24869 | Returns the number of colormaps. | ||
24870 | |||
24871 | property | ||
24872 | |||
24873 | Specifies the property name. | ||
24874 | |||
24875 | The XGetRGBColormaps function returns the RGB colormap | ||
24876 | definitions stored in the specified property on the named | ||
24877 | window. If the property exists, is of type RGB_COLOR_MAP, is of | ||
24878 | format 32, and is long enough to contain a colormap definition, | ||
24879 | XGetRGBColormaps allocates and fills in space for the returned | ||
24880 | colormaps and returns a nonzero status. If the visualid is not | ||
24881 | present, XGetRGBColormaps assumes the default visual for the | ||
24882 | screen on which the window is located; if the killid is not | ||
24883 | present, None is assumed, which indicates that the resources | ||
24884 | cannot be released. Otherwise, none of the fields are set, and | ||
24885 | XGetRGBColormaps returns a zero status. Note that it is the | ||
24886 | caller's responsibility to honor the ICCCM restriction that | ||
24887 | only RGB_DEFAULT_MAP contain more than one definition. | ||
24888 | |||
24889 | XGetRGBColormaps can generate BadAtom and BadWindow errors. | ||
24890 | |||
24891 | Chapter 15. Resource Manager Functions | ||
24892 | |||
24893 | Table of Contents | ||
24894 | |||
24895 | Resource File Syntax | ||
24896 | Resource Manager Matching Rules | ||
24897 | Quarks | ||
24898 | Creating and Storing Databases | ||
24899 | Merging Resource Databases | ||
24900 | Looking Up Resources | ||
24901 | Storing into a Resource Database | ||
24902 | Enumerating Database Entries | ||
24903 | Parsing Command Line Options | ||
24904 | |||
24905 | A program often needs a variety of options in the X environment | ||
24906 | (for example, fonts, colors, icons, and cursors). Specifying | ||
24907 | all of these options on the command line is awkward because | ||
24908 | users may want to customize many aspects of the program and | ||
24909 | need a convenient way to establish these customizations as the | ||
24910 | default settings. The resource manager is provided for this | ||
24911 | purpose. Resource specifications are usually stored in | ||
24912 | human-readable files and in server properties. | ||
24913 | |||
24914 | The resource manager is a database manager with a twist. In | ||
24915 | most database systems, you perform a query using an imprecise | ||
24916 | specification, and you get back a set of records. The resource | ||
24917 | manager, however, allows you to specify a large set of values | ||
24918 | with an imprecise specification, to query the database with a | ||
24919 | precise specification, and to get back only a single value. | ||
24920 | This should be used by applications that need to know what the | ||
24921 | user prefers for colors, fonts, and other resources. It is this | ||
24922 | use as a database for dealing with X resources that inspired | ||
24923 | the name "Resource Manager," although the resource manager can | ||
24924 | be and is used in other ways. | ||
24925 | |||
24926 | For example, a user of your application may want to specify | ||
24927 | that all windows should have a blue background but that all | ||
24928 | mail-reading windows should have a red background. With | ||
24929 | well-engineered and coordinated applications, a user can define | ||
24930 | this information using only two lines of specifications. | ||
24931 | |||
24932 | As an example of how the resource manager works, consider a | ||
24933 | mail-reading application called xmh. Assume that it is designed | ||
24934 | so that it uses a complex window hierarchy all the way down to | ||
24935 | individual command buttons, which may be actual small | ||
24936 | subwindows in some toolkits. These are often called objects or | ||
24937 | widgets. In such toolkit systems, each user interface object | ||
24938 | can be composed of other objects and can be assigned a name and | ||
24939 | a class. Fully qualified names or classes can have arbitrary | ||
24940 | numbers of component names, but a fully qualified name always | ||
24941 | has the same number of component names as a fully qualified | ||
24942 | class. This generally reflects the structure of the application | ||
24943 | as composed of these objects, starting with the application | ||
24944 | itself. | ||
24945 | |||
24946 | For example, the xmh mail program has a name "xmh" and is one | ||
24947 | of a class of "Mail" programs. By convention, the first | ||
24948 | character of class components is capitalized, and the first | ||
24949 | letter of name components is in lowercase. Each name and class | ||
24950 | finally has an attribute (for example, "foreground" or "font"). | ||
24951 | If each window is properly assigned a name and class, it is | ||
24952 | easy for the user to specify attributes of any portion of the | ||
24953 | application. | ||
24954 | |||
24955 | At the top level, the application might consist of a paned | ||
24956 | window (that is, a window divided into several sections) named | ||
24957 | "toc". One pane of the paned window is a button box window | ||
24958 | named "buttons" and is filled with command buttons. One of | ||
24959 | these command buttons is used to incorporate new mail and has | ||
24960 | the name "incorporate". This window has a fully qualified name, | ||
24961 | "xmh.toc.buttons.incorporate", and a fully qualified class, | ||
24962 | "Xmh.Paned.Box.Command". Its fully qualified name is the name | ||
24963 | of its parent, "xmh.toc.buttons", followed by its name, | ||
24964 | "incorporate". Its class is the class of its parent, | ||
24965 | "Xmh.Paned.Box", followed by its particular class, "Command". | ||
24966 | The fully qualified name of a resource is the attribute's name | ||
24967 | appended to the object's fully qualified name, and the fully | ||
24968 | qualified class is its class appended to the object's class. | ||
24969 | |||
24970 | The incorporate button might need the following resources: | ||
24971 | Title string, Font, Foreground color for its inactive state, | ||
24972 | Background color for its inactive state, Foreground color for | ||
24973 | its active state, and Background color for its active state. | ||
24974 | Each resource is considered to be an attribute of the button | ||
24975 | and, as such, has a name and a class. For example, the | ||
24976 | foreground color for the button in its active state might be | ||
24977 | named "activeForeground", and its class might be "Foreground". | ||
24978 | |||
24979 | When an application looks up a resource (for example, a color), | ||
24980 | it passes the complete name and complete class of the resource | ||
24981 | to a look-up routine. The resource manager compares this | ||
24982 | complete specification against the incomplete specifications of | ||
24983 | entries in the resource database, finds the best match, and | ||
24984 | returns the corresponding value for that entry. | ||
24985 | |||
24986 | The definitions for the resource manager are contained in | ||
24987 | <X11/Xresource.h>. | ||
24988 | |||
24989 | Resource File Syntax | ||
24990 | |||
24991 | The syntax of a resource file is a sequence of resource lines | ||
24992 | terminated by newline characters or the end of the file. The | ||
24993 | syntax of an individual resource line is: | ||
24994 | |||
24995 | |||
24996 | |||
24997 | ResourceLine = Comment | IncludeFile | ResourceSpec | <empty lin | ||
24998 | e> | ||
24999 | Comment = "!" {<any character except null or newline>} | ||
25000 | IncludeFile = "#" WhiteSpace "include" WhiteSpace FileName White | ||
25001 | Space | ||
25002 | FileName = <valid filename for operating system> | ||
25003 | ResourceSpec = WhiteSpace ResourceName WhiteSpace ":" WhiteSpace | ||
25004 | Value | ||
25005 | ResourceName = [Binding] {Component Binding} ComponentName | ||
25006 | Binding = "." | "*" | ||
25007 | WhiteSpace = {<space> | <horizontal tab>} | ||
25008 | Component = "?" | ComponentName | ||
25009 | ComponentName = NameChar {NameChar} | ||
25010 | NameChar = "a"-"z" | "A"-"Z" | "0"-"9" | "_" | "-" | ||
25011 | Value = {<any character except null or unescaped newline>} | ||
25012 | |||
25013 | Elements separated by vertical bar (|) are alternatives. Curly | ||
25014 | braces ({......}) indicate zero or more repetitions of the | ||
25015 | enclosed elements. Square brackets ([......]) indicate that the | ||
25016 | enclosed element is optional. Quotes ("......") are used around | ||
25017 | literal characters. | ||
25018 | |||
25019 | IncludeFile lines are interpreted by replacing the line with | ||
25020 | the contents of the specified file. The word "include" must be | ||
25021 | in lowercase. The file name is interpreted relative to the | ||
25022 | directory of the file in which the line occurs (for example, if | ||
25023 | the file name contains no directory or contains a relative | ||
25024 | directory specification). | ||
25025 | |||
25026 | If a ResourceName contains a contiguous sequence of two or more | ||
25027 | Binding characters, the sequence will be replaced with a single | ||
25028 | ".." character if the sequence contains only ".." characters; | ||
25029 | otherwise, the sequence will be replaced with a single "*" | ||
25030 | character. | ||
25031 | |||
25032 | A resource database never contains more than one entry for a | ||
25033 | given ResourceName. If a resource file contains multiple lines | ||
25034 | with the same ResourceName, the last line in the file is used. | ||
25035 | |||
25036 | Any white space characters before or after the name or colon in | ||
25037 | a ResourceSpec are ignored. To allow a Value to begin with | ||
25038 | white space, the two-character sequence "\\space" (backslash | ||
25039 | followed by space) is recognized and replaced by a space | ||
25040 | character, and the two-character sequence "\\tab" (backslash | ||
25041 | followed by horizontal tab) is recognized and replaced by a | ||
25042 | horizontal tab character. To allow a Value to contain embedded | ||
25043 | newline characters, the two-character sequence "\\n" is | ||
25044 | recognized and replaced by a newline character. To allow a | ||
25045 | Value to be broken across multiple lines in a text file, the | ||
25046 | two-character sequence "\\newline" (backslash followed by | ||
25047 | newline) is recognized and removed from the value. To allow a | ||
25048 | Value to contain arbitrary character codes, the four-character | ||
25049 | sequence "\\nnn", where each n is a digit character in the | ||
25050 | range of "0"-"7", is recognized and replaced with a single byte | ||
25051 | that contains the octal value specified by the sequence. | ||
25052 | Finally, the two-character sequence "\newline" is recognized | ||
25053 | and replaced with a single backslash. | ||
25054 | |||
25055 | As an example of these sequences, the following resource line | ||
25056 | contains a value consisting of four characters: a backslash, a | ||
25057 | null, a "z", and a newline: | ||
25058 | magic.values: \\000\ | ||
25059 | z\n | ||
25060 | |||
25061 | Resource Manager Matching Rules | ||
25062 | |||
25063 | The algorithm for determining which resource database entry | ||
25064 | matches a given query is the heart of the resource manager. All | ||
25065 | queries must fully specify the name and class of the desired | ||
25066 | resource (use of the characters "*" and "?" is not permitted). | ||
25067 | The library supports up to 100 components in a full name or | ||
25068 | class. Resources are stored in the database with only partially | ||
25069 | specified names and classes, using pattern matching constructs. | ||
25070 | An asterisk (*) is a loose binding and is used to represent any | ||
25071 | number of intervening components, including none. A period (.) | ||
25072 | is a tight binding and is used to separate immediately adjacent | ||
25073 | components. A question mark (?) is used to match any single | ||
25074 | component name or class. A database entry cannot end in a loose | ||
25075 | binding; the final component (which cannot be the character | ||
25076 | "?") must be specified. The lookup algorithm searches the | ||
25077 | database for the entry that most closely matches (is most | ||
25078 | specific for) the full name and class being queried. When more | ||
25079 | than one database entry matches the full name and class, | ||
25080 | precedence rules are used to select just one. | ||
25081 | |||
25082 | The full name and class are scanned from left to right (from | ||
25083 | highest level in the hierarchy to lowest), one component at a | ||
25084 | time. At each level, the corresponding component and/or binding | ||
25085 | of each matching entry is determined, and these matching | ||
25086 | components and bindings are compared according to precedence | ||
25087 | rules. Each of the rules is applied at each level before moving | ||
25088 | to the next level, until a rule selects a single entry over all | ||
25089 | others. The rules, in order of precedence, are: | ||
25090 | * An entry that contains a matching component (whether name, | ||
25091 | class, or the character "?") takes precedence over entries | ||
25092 | that elide the level (that is, entries that match the level | ||
25093 | in a loose binding). | ||
25094 | * An entry with a matching name takes precedence over both | ||
25095 | entries with a matching class and entries that match using | ||
25096 | the character "?". An entry with a matching class takes | ||
25097 | precedence over entries that match using the character "?". | ||
25098 | * An entry preceded by a tight binding takes precedence over | ||
25099 | entries preceded by a loose binding. | ||
25100 | |||
25101 | To illustrate these rules, consider the following resource | ||
25102 | database entries: | ||
25103 | |||
25104 | |||
25105 | xmh*Paned*activeForeground: red (entry A) | ||
25106 | *incorporate.Foreground: blue (entry B) | ||
25107 | xmh.toc*Command*activeForeground: green (entry C) | ||
25108 | xmh.toc*?.Foreground: white (entry D) | ||
25109 | xmh.toc*Command.activeForeground: black (entry E) | ||
25110 | |||
25111 | Consider a query for the resource: | ||
25112 | |||
25113 | |||
25114 | |||
25115 | xmh.toc.messagefunctions.incorporate.activeForeground (name) | ||
25116 | Xmh.Paned.Box.Command.Foreground (class) | ||
25117 | |||
25118 | At the first level (xmh, Xmh), rule 1 eliminates entry B. At | ||
25119 | the second level (toc, Paned), rule 2 eliminates entry A. At | ||
25120 | the third level (messagefunctions, Box), no entries are | ||
25121 | eliminated. At the fourth level (incorporate, Command), rule 2 | ||
25122 | eliminates entry D. At the fifth level (activeForeground, | ||
25123 | Foreground), rule 3 eliminates entry C. | ||
25124 | |||
25125 | Quarks | ||
25126 | |||
25127 | Most uses of the resource manager involve defining names, | ||
25128 | classes, and representation types as string constants. However, | ||
25129 | always referring to strings in the resource manager can be | ||
25130 | slow, because it is so heavily used in some toolkits. To solve | ||
25131 | this problem, a shorthand for a string is used in place of the | ||
25132 | string in many of the resource manager functions. Simple | ||
25133 | comparisons can be performed rather than string comparisons. | ||
25134 | The shorthand name for a string is called a quark and is the | ||
25135 | type XrmQuark. On some occasions, you may want to allocate a | ||
25136 | quark that has no string equivalent. | ||
25137 | |||
25138 | A quark is to a string what an atom is to a string in the | ||
25139 | server, but its use is entirely local to your application. | ||
25140 | |||
25141 | To allocate a new quark, use XrmUniqueQuark. | ||
25142 | |||
25143 | XrmQuark XrmUniqueQuark(void); | ||
25144 | |||
25145 | The XrmUniqueQuark function allocates a quark that is | ||
25146 | guaranteed not to represent any string that is known to the | ||
25147 | resource manager. | ||
25148 | |||
25149 | Each name, class, and representation type is typedef'd as an | ||
25150 | XrmQuark. | ||
25151 | |||
25152 | typedef int XrmQuark, *XrmQuarkList; | ||
25153 | typedef XrmQuark XrmName; | ||
25154 | typedef XrmQuark XrmClass; | ||
25155 | typedef XrmQuark XrmRepresentation; | ||
25156 | #define NULLQUARK ((XrmQuark) 0) | ||
25157 | |||
25158 | Lists are represented as null-terminated arrays of quarks. The | ||
25159 | size of the array must be large enough for the number of | ||
25160 | components used. | ||
25161 | |||
25162 | typedef XrmQuarkList XrmNameList; | ||
25163 | typedef XrmQuarkList XrmClassList; | ||
25164 | |||
25165 | To convert a string to a quark, use XrmStringToQuark or | ||
25166 | XrmPermStringToQuark. | ||
25167 | #define XrmStringToName(string) XrmStringToQuark(string) | ||
25168 | #define XrmStringToClass(string) XrmStringToQuark(string) | ||
25169 | #define XrmStringToRepresentation(string) XrmStringToQuark(string) | ||
25170 | |||
25171 | XrmQuark XrmStringToQuark(char *string); | ||
25172 | |||
25173 | string | ||
25174 | |||
25175 | Specifies the string for which a quark(Ql is to be allocated. | ||
25176 | |||
25177 | These functions can be used to convert from string to quark | ||
25178 | representation. If the string is not in the Host Portable | ||
25179 | Character Encoding, the conversion is implementation-dependent. | ||
25180 | The string argument to XrmStringToQuark need not be permanently | ||
25181 | allocated storage. XrmPermStringToQuark is just like | ||
25182 | XrmStringToQuark, except that Xlib is permitted to assume the | ||
25183 | string argument is permanently allocated, and, hence, that it | ||
25184 | can be used as the value to be returned by XrmQuarkToString. | ||
25185 | |||
25186 | For any given quark, if XrmStringToQuark returns a non-NULL | ||
25187 | value, all future calls will return the same value (identical | ||
25188 | address). | ||
25189 | |||
25190 | To convert a quark to a string, use XrmQuarkToString. | ||
25191 | #define XrmNameToString(name) XrmQuarkToString(name) | ||
25192 | #define XrmClassToString(class) XrmQuarkToString(name) | ||
25193 | #define XrmRepresentationToString(type) XrmQuarkToString(type) | ||
25194 | |||
25195 | char *XrmQuarkToString(XrmQuark quark); | ||
25196 | |||
25197 | quark | ||
25198 | |||
25199 | Specifies the quark for which the equivalent string is desired. | ||
25200 | |||
25201 | These functions can be used to convert from quark | ||
25202 | representation to string. The string pointed to by the return | ||
25203 | value must not be modified or freed. The returned string is | ||
25204 | byte-for-byte equal to the original string passed to one of the | ||
25205 | string-to-quark routines. If no string exists for that quark, | ||
25206 | XrmQuarkToString returns NULL. For any given quark, if | ||
25207 | XrmQuarkToString returns a non-NULL value, all future calls | ||
25208 | will return the same value (identical address). | ||
25209 | |||
25210 | To convert a string with one or more components to a quark | ||
25211 | list, use XrmStringToQuarkList. | ||
25212 | #define XrmStringToNameList(str,name) XrmStringToQuarkList((str), (name | ||
25213 | )) | ||
25214 | #define XrmStringToClassList(str,class) XrmStringToQuarkList((str), (cl | ||
25215 | ass)) | ||
25216 | |||
25217 | void XrmStringToQuarkList(char *string, XrmQuarkList | ||
25218 | quarks_return); | ||
25219 | |||
25220 | string | ||
25221 | |||
25222 | Specifies the string for which a quark list is to be allocated. | ||
25223 | |||
25224 | quarks_return | ||
25225 | |||
25226 | Returns the list of quarks. The caller must allocate sufficient | ||
25227 | space for the quarks list before calling XrmStringToQuarkList. | ||
25228 | |||
25229 | The XrmStringToQuarkList function converts the null-terminated | ||
25230 | string (generally a fully qualified name) to a list of quarks. | ||
25231 | Note that the string must be in the valid ResourceName format | ||
25232 | (see section 15.1). If the string is not in the Host Portable | ||
25233 | Character Encoding, the conversion is implementation-dependent. | ||
25234 | |||
25235 | A binding list is a list of type XrmBindingList and indicates | ||
25236 | if components of name or class lists are bound tightly or | ||
25237 | loosely (that is, if wildcarding of intermediate components is | ||
25238 | specified). | ||
25239 | |||
25240 | typedef enum {XrmBindTightly, XrmBindLoosely} XrmBinding, *XrmBindingLis | ||
25241 | t; | ||
25242 | |||
25243 | XrmBindTightly indicates that a period separates the | ||
25244 | components, and XrmBindLoosely indicates that an asterisk | ||
25245 | separates the components. | ||
25246 | |||
25247 | To convert a string with one or more components to a binding | ||
25248 | list and a quark list, use XrmStringToBindingQuarkList. | ||
25249 | |||
25250 | XrmStringToBindingQuarkList(char *string, XrmBindingList | ||
25251 | bindings_return, XrmQuarkList quarks_return); | ||
25252 | |||
25253 | string | ||
25254 | |||
25255 | Specifies the string for which a quark list is to be allocated. | ||
25256 | |||
25257 | bindings_return | ||
25258 | |||
25259 | Returns the binding list. The caller must allocate sufficient | ||
25260 | space for the binding list before calling | ||
25261 | XrmStringToBindingQuarkList. | ||
25262 | |||
25263 | quarks_return | ||
25264 | |||
25265 | Returns the list of quarks. The caller must allocate sufficient | ||
25266 | space for the quarks list before calling | ||
25267 | XrmStringToBindingQuarkList. | ||
25268 | |||
25269 | Component names in the list are separated by a period or an | ||
25270 | asterisk character. The string must be in the format of a valid | ||
25271 | ResourceName (see section 15.1). If the string does not start | ||
25272 | with a period or an asterisk, a tight binding is assumed. For | ||
25273 | example, the string ``*a.b*c'' becomes: | ||
25274 | |||
25275 | |||
25276 | |||
25277 | quarks: a b c | ||
25278 | bindings: loose tight loose | ||
25279 | |||
25280 | Creating and Storing Databases | ||
25281 | |||
25282 | A resource database is an opaque type, XrmDatabase. Each | ||
25283 | database value is stored in an XrmValue structure. This | ||
25284 | structure consists of a size, an address, and a representation | ||
25285 | type. The size is specified in bytes. The representation type | ||
25286 | is a way for you to store data tagged by some | ||
25287 | application-defined type (for example, the strings ``font'' or | ||
25288 | ``color''). It has nothing to do with the C data type or with | ||
25289 | its class. The XrmValue structure is defined as: | ||
25290 | |||
25291 | |||
25292 | |||
25293 | typedef struct { | ||
25294 | unsigned int size; | ||
25295 | XPointer addr; | ||
25296 | } XrmValue, *XrmValuePtr; | ||
25297 | |||
25298 | To initialize the resource manager, use XrmInitialize. | ||
25299 | |||
25300 | void XrmInitialize(void XrmInitialize(\|)); | ||
25301 | |||
25302 | To retrieve a database from disk, use XrmGetFileDatabase. | ||
25303 | |||
25304 | XrmDatabase XrmGetFileDatabase(char *filename); | ||
25305 | |||
25306 | filename | ||
25307 | |||
25308 | Specifies the resource database file name. | ||
25309 | |||
25310 | The XrmGetFileDatabase function opens the specified file, | ||
25311 | creates a new resource database, and loads it with the | ||
25312 | specifications read in from the specified file. The specified | ||
25313 | file should contain a sequence of entries in valid ResourceLine | ||
25314 | format (see section 15.1); the database that results from | ||
25315 | reading a file with incorrect syntax is | ||
25316 | implementation-dependent. The file is parsed in the current | ||
25317 | locale, and the database is created in the current locale. If | ||
25318 | it cannot open the specified file, XrmGetFileDatabase returns | ||
25319 | NULL. | ||
25320 | |||
25321 | To store a copy of a database to disk, use XrmPutFileDatabase. | ||
25322 | |||
25323 | void XrmPutFileDatabase(XrmDatabase database, char *stored_db); | ||
25324 | |||
25325 | database | ||
25326 | |||
25327 | Specifies the database that is to be used. | ||
25328 | |||
25329 | stored_db | ||
25330 | |||
25331 | Specifies the file name for the stored database. | ||
25332 | |||
25333 | The XrmPutFileDatabase function stores a copy of the specified | ||
25334 | database in the specified file. Text is written to the file as | ||
25335 | a sequence of entries in valid ResourceLine format (see section | ||
25336 | 15.1). The file is written in the locale of the database. | ||
25337 | Entries containing resource names that are not in the Host | ||
25338 | Portable Character Encoding or containing values that are not | ||
25339 | in the encoding of the database locale, are written in an | ||
25340 | implementation-dependent manner. The order in which entries are | ||
25341 | written is implementation-dependent. Entries with | ||
25342 | representation types other than ``String'' are ignored. | ||
25343 | |||
25344 | To obtain a pointer to the screen-independent resources of a | ||
25345 | display, use XResourceManagerString. | ||
25346 | |||
25347 | char *XResourceManagerString(Display *display); | ||
25348 | |||
25349 | display | ||
25350 | |||
25351 | Specifies the connection to the X server. | ||
25352 | |||
25353 | The XResourceManagerString function returns the | ||
25354 | RESOURCE_MANAGER property from the server's root window of | ||
25355 | screen zero, which was returned when the connection was opened | ||
25356 | using XOpenDisplay. The property is converted from type STRING | ||
25357 | to the current locale. The conversion is identical to that | ||
25358 | produced by XmbTextPropertyToTextList for a single element | ||
25359 | STRING property. The returned string is owned by Xlib and | ||
25360 | should not be freed by the client. The property value must be | ||
25361 | in a format that is acceptable to XrmGetStringDatabase. If no | ||
25362 | property exists, NULL is returned. | ||
25363 | |||
25364 | To obtain a pointer to the screen-specific resources of a | ||
25365 | screen, use XScreenResourceString. | ||
25366 | |||
25367 | char *XScreenResourceString(Screen *screen); | ||
25368 | |||
25369 | screen | ||
25370 | |||
25371 | Specifies the screen. | ||
25372 | |||
25373 | The XScreenResourceString function returns the SCREEN_RESOURCES | ||
25374 | property from the root window of the specified screen. The | ||
25375 | property is converted from type STRING to the current locale. | ||
25376 | The conversion is identical to that produced by | ||
25377 | XmbTextPropertyToTextList for a single element STRING property. | ||
25378 | The property value must be in a format that is acceptable to | ||
25379 | XrmGetStringDatabase. If no property exists, NULL is returned. | ||
25380 | The caller is responsible for freeing the returned string by | ||
25381 | using XFree. | ||
25382 | |||
25383 | To create a database from a string, use XrmGetStringDatabase. | ||
25384 | |||
25385 | XrmDatabase XrmGetStringDatabase(char *data); | ||
25386 | |||
25387 | data | ||
25388 | |||
25389 | Specifies the database contents using a string. | ||
25390 | |||
25391 | The XrmGetStringDatabase function creates a new database and | ||
25392 | stores the resources specified in the specified null-terminated | ||
25393 | string. XrmGetStringDatabase is similar to XrmGetFileDatabase | ||
25394 | except that it reads the information out of a string instead of | ||
25395 | out of a file. The string should contain a sequence of entries | ||
25396 | in valid ResourceLine format (see section 15.1) terminated by a | ||
25397 | null character; the database that results from using a string | ||
25398 | with incorrect syntax is implementation-dependent. The string | ||
25399 | is parsed in the current locale, and the database is created in | ||
25400 | the current locale. | ||
25401 | |||
25402 | To obtain the locale name of a database, use | ||
25403 | XrmLocaleOfDatabase. | ||
25404 | |||
25405 | char *XrmLocaleOfDatabase(XrmDatabase database); | ||
25406 | |||
25407 | database | ||
25408 | |||
25409 | Specifies the resource database. | ||
25410 | |||
25411 | The XrmLocaleOfDatabase function returns the name of the locale | ||
25412 | bound to the specified database, as a null-terminated string. | ||
25413 | The returned locale name string is owned by Xlib and should not | ||
25414 | be modified or freed by the client. Xlib is not permitted to | ||
25415 | free the string until the database is destroyed. Until the | ||
25416 | string is freed, it will not be modified by Xlib. | ||
25417 | |||
25418 | To destroy a resource database and free its allocated memory, | ||
25419 | use XrmDestroyDatabase. | ||
25420 | |||
25421 | void XrmDestroyDatabase(XrmDatabase database); | ||
25422 | |||
25423 | database | ||
25424 | |||
25425 | Specifies the resource database. | ||
25426 | |||
25427 | If database is NULL, XrmDestroyDatabase returns immediately. | ||
25428 | |||
25429 | To associate a resource database with a display, use | ||
25430 | XrmSetDatabase. | ||
25431 | |||
25432 | void XrmSetDatabase(Display *display, XrmDatabase database); | ||
25433 | |||
25434 | display | ||
25435 | |||
25436 | Specifies the connection to the X server. | ||
25437 | |||
25438 | database | ||
25439 | |||
25440 | Specifies the resource database. | ||
25441 | |||
25442 | The XrmSetDatabase function associates the specified resource | ||
25443 | database (or NULL) with the specified display. The database | ||
25444 | previously associated with the display (if any) is not | ||
25445 | destroyed. A client or toolkit may find this function | ||
25446 | convenient for retaining a database once it is constructed. | ||
25447 | |||
25448 | To get the resource database associated with a display, use | ||
25449 | XrmGetDatabase. | ||
25450 | |||
25451 | XrmDatabase XrmGetDatabase(Display *display); | ||
25452 | |||
25453 | display | ||
25454 | |||
25455 | Specifies the connection to the X server. | ||
25456 | |||
25457 | The XrmGetDatabase function returns the database associated | ||
25458 | with the specified display. It returns NULL if a database has | ||
25459 | not yet been set. | ||
25460 | |||
25461 | Merging Resource Databases | ||
25462 | |||
25463 | To merge the contents of a resource file into a database, use | ||
25464 | XrmCombineFileDatabase. | ||
25465 | |||
25466 | Status XrmCombineFileDatabase(char *filename, XrmDatabase | ||
25467 | *target_db, Bool override); | ||
25468 | |||
25469 | filename | ||
25470 | |||
25471 | Specifies the resource database file name. | ||
25472 | |||
25473 | target_db | ||
25474 | |||
25475 | Specifies the resource database into which the source database | ||
25476 | is to be merged. | ||
25477 | |||
25478 | override | ||
25479 | |||
25480 | Specifies whether source entries override target ones. | ||
25481 | |||
25482 | The XrmCombineFileDatabase function merges the contents of a | ||
25483 | resource file into a database. If the same specifier is used | ||
25484 | for an entry in both the file and the database, the entry in | ||
25485 | the file will replace the entry in the database if override is | ||
25486 | True; otherwise, the entry in the file is discarded. The file | ||
25487 | is parsed in the current locale. If the file cannot be read, a | ||
25488 | zero status is returned; otherwise, a nonzero status is | ||
25489 | returned. If target_db contains NULL, XrmCombineFileDatabase | ||
25490 | creates and returns a new database to it. Otherwise, the | ||
25491 | database pointed to by target_db is not destroyed by the merge. | ||
25492 | The database entries are merged without changing values or | ||
25493 | types, regardless of the locale of the database. The locale of | ||
25494 | the target database is not modified. | ||
25495 | |||
25496 | To merge the contents of one database into another database, | ||
25497 | use XrmCombineDatabase. | ||
25498 | |||
25499 | void XrmCombineDatabase(XrmDatabase source_db, XrmDatabase | ||
25500 | *target_db, Bool override); | ||
25501 | |||
25502 | source_db | ||
25503 | |||
25504 | Specifies the resource database that is to be merged into the | ||
25505 | target database. | ||
25506 | |||
25507 | target_db | ||
25508 | |||
25509 | Specifies the resource database into which the source database | ||
25510 | is to be merged. | ||
25511 | |||
25512 | override | ||
25513 | |||
25514 | Specifies whether source entries override target ones. | ||
25515 | |||
25516 | The XrmCombineDatabase function merges the contents of one | ||
25517 | database into another. If the same specifier is used for an | ||
25518 | entry in both databases, the entry in the source_db will | ||
25519 | replace the entry in the target_db if override is True; | ||
25520 | otherwise, the entry in source_db is discarded. If target_db | ||
25521 | contains NULL, XrmCombineDatabase simply stores source_db in | ||
25522 | it. Otherwise, source_db is destroyed by the merge, but the | ||
25523 | database pointed to by target_db is not destroyed. The database | ||
25524 | entries are merged without changing values or types, regardless | ||
25525 | of the locales of the databases. The locale of the target | ||
25526 | database is not modified. | ||
25527 | |||
25528 | To merge the contents of one database into another database | ||
25529 | with override semantics, use XrmMergeDatabases. | ||
25530 | |||
25531 | void XrmMergeDatabases(XrmDatabase source_db, XrmDatabase | ||
25532 | *target_db); | ||
25533 | |||
25534 | source_db | ||
25535 | |||
25536 | Specifies the resource database that is to be merged into the | ||
25537 | target database. | ||
25538 | |||
25539 | target_db | ||
25540 | |||
25541 | Specifies the resource database into which the source database | ||
25542 | is to be merged. | ||
25543 | |||
25544 | Calling the XrmMergeDatabases function is equivalent to calling | ||
25545 | the XrmCombineDatabase function with an override argument of | ||
25546 | True. | ||
25547 | |||
25548 | Looking Up Resources | ||
25549 | |||
25550 | To retrieve a resource from a resource database, use | ||
25551 | XrmGetResource, XrmQGetResource, or XrmQGetSearchResource. | ||
25552 | |||
25553 | Bool XrmGetResource(XrmDatabase database, char *str_name, char | ||
25554 | *str_class, char **str_type_return, XrmValue *value_return); | ||
25555 | |||
25556 | database | ||
25557 | |||
25558 | Specifies the database that is to be used. | ||
25559 | |||
25560 | str_name | ||
25561 | |||
25562 | Specifies the fully qualified name of the value being retrieved | ||
25563 | (as a string). | ||
25564 | |||
25565 | str_class | ||
25566 | |||
25567 | Specifies the fully qualified class of the value being | ||
25568 | retrieved (as a string). | ||
25569 | |||
25570 | str_type_return | ||
25571 | |||
25572 | Returns the representation type of the destination (as a | ||
25573 | string). | ||
25574 | |||
25575 | value_return | ||
25576 | |||
25577 | Returns the value in the database. | ||
25578 | |||
25579 | Bool XrmQGetResource(XrmDatabase database, XrmNameList | ||
25580 | quark_name, XrmClassList quark_class, XrmRepresentation | ||
25581 | *quark_type_return, XrmValue *value_return); | ||
25582 | |||
25583 | database | ||
25584 | |||
25585 | Specifies the database that is to be used. | ||
25586 | |||
25587 | quark_name | ||
25588 | |||
25589 | Specifies the fully qualified name of the value being retrieved | ||
25590 | (as a quark). | ||
25591 | |||
25592 | quark_class | ||
25593 | |||
25594 | Specifies the fully qualified class of the value being | ||
25595 | retrieved (as a quark). | ||
25596 | |||
25597 | quark_type_return | ||
25598 | |||
25599 | Returns the representation type of the destination (as a | ||
25600 | quark). | ||
25601 | |||
25602 | value_return | ||
25603 | |||
25604 | Returns the value in the database. | ||
25605 | |||
25606 | The XrmGetResource and XrmQGetResource functions retrieve a | ||
25607 | resource from the specified database. Both take a fully | ||
25608 | qualified name/class pair, a destination resource | ||
25609 | representation, and the address of a value (size/address pair). | ||
25610 | The value and returned type point into database memory; | ||
25611 | therefore, you must not modify the data. | ||
25612 | |||
25613 | The database only frees or overwrites entries on | ||
25614 | XrmPutResource, XrmQPutResource, or XrmMergeDatabases. A client | ||
25615 | that is not storing new values into the database or is not | ||
25616 | merging the database should be safe using the address passed | ||
25617 | back at any time until it exits. If a resource was found, both | ||
25618 | XrmGetResource and XrmQGetResource return True; otherwise, they | ||
25619 | return False. | ||
25620 | |||
25621 | Most applications and toolkits do not make random probes into a | ||
25622 | resource database to fetch resources. The X toolkit access | ||
25623 | pattern for a resource database is quite stylized. A series of | ||
25624 | from 1 to 20 probes is made with only the last name/class | ||
25625 | differing in each probe. The XrmGetResource function is at | ||
25626 | worst a 2^n algorithm, where n is the length of the name/class | ||
25627 | list. This can be improved upon by the application programmer | ||
25628 | by prefetching a list of database levels that might match the | ||
25629 | first part of a name/class list. | ||
25630 | |||
25631 | To obtain a list of database levels, use XrmQGetSearchList. | ||
25632 | |||
25633 | Bool XrmQGetSearchResource(XrmDatabase database, XrmNameList | ||
25634 | names, XrmClassList classes, XrmSearchList list_return, int | ||
25635 | list_length); | ||
25636 | |||
25637 | database | ||
25638 | |||
25639 | Specifies the database that is to be used. | ||
25640 | |||
25641 | names | ||
25642 | |||
25643 | Specifies a list of resource names. | ||
25644 | |||
25645 | classes | ||
25646 | |||
25647 | Specifies a list of resource classes. | ||
25648 | |||
25649 | list_return | ||
25650 | |||
25651 | Returns a search list for further use. The caller must allocate | ||
25652 | sufficient space for the list before calling XrmQGetSearchList. | ||
25653 | |||
25654 | list_length | ||
25655 | |||
25656 | Specifies the number of entries (not the byte size) allocated | ||
25657 | for list_return. | ||
25658 | |||
25659 | The XrmQGetSearchList function takes a list of names and | ||
25660 | classes and returns a list of database levels where a match | ||
25661 | might occur. The returned list is in best-to-worst order and | ||
25662 | uses the same algorithm as XrmGetResource for determining | ||
25663 | precedence. If list_return was large enough for the search | ||
25664 | list, XrmQGetSearchList returns True; otherwise, it returns | ||
25665 | False. | ||
25666 | |||
25667 | The size of the search list that the caller must allocate is | ||
25668 | dependent upon the number of levels and wildcards in the | ||
25669 | resource specifiers that are stored in the database. The worst | ||
25670 | case length is 3^n, where n is the number of name or class | ||
25671 | components in names or classes. | ||
25672 | |||
25673 | When using XrmQGetSearchList followed by multiple probes for | ||
25674 | resources with a common name and class prefix, only the common | ||
25675 | prefix should be specified in the name and class list to | ||
25676 | XrmQGetSearchList. | ||
25677 | |||
25678 | To search resource database levels for a given resource, use | ||
25679 | XrmQGetSearchResource. | ||
25680 | |||
25681 | Bool XrmQGetSearchResource(XrmSearchList list, XrmName name, | ||
25682 | XrmClass class, XrmRepresentation *type_return, XrmValue | ||
25683 | *value_return); | ||
25684 | |||
25685 | list | ||
25686 | |||
25687 | Specifies the search list returned by XrmQGetSearchList. | ||
25688 | |||
25689 | name | ||
25690 | |||
25691 | Specifies the resource name. | ||
25692 | |||
25693 | class | ||
25694 | |||
25695 | Specifies the resource class. | ||
25696 | |||
25697 | type_return | ||
25698 | |||
25699 | Returns data representation type. | ||
25700 | |||
25701 | value_return | ||
25702 | |||
25703 | Returns the value in the database. | ||
25704 | |||
25705 | The XrmQGetSearchResource function searches the specified | ||
25706 | database levels for the resource that is fully identified by | ||
25707 | the specified name and class. The search stops with the first | ||
25708 | match. XrmQGetSearchResource returns True if the resource was | ||
25709 | found; otherwise, it returns False. | ||
25710 | |||
25711 | A call to XrmQGetSearchList with a name and class list | ||
25712 | containing all but the last component of a resource name | ||
25713 | followed by a call to XrmQGetSearchResource with the last | ||
25714 | component name and class returns the same database entry as | ||
25715 | XrmGetResource and XrmQGetResource with the fully qualified | ||
25716 | name and class. | ||
25717 | |||
25718 | Storing into a Resource Database | ||
25719 | |||
25720 | To store resources into the database, use XrmPutResource or | ||
25721 | XrmQPutResource. Both functions take a partial resource | ||
25722 | specification, a representation type, and a value. This value | ||
25723 | is copied into the specified database. | ||
25724 | |||
25725 | void XrmPutResource(XrmDatabase *database, char *specifier, | ||
25726 | char *type, XrmValue *value); | ||
25727 | |||
25728 | database | ||
25729 | |||
25730 | Specifies the resource database. | ||
25731 | |||
25732 | specifier | ||
25733 | |||
25734 | Specifies a complete or partial specification of the resource. | ||
25735 | |||
25736 | type | ||
25737 | |||
25738 | Specifies the type of the resource. | ||
25739 | |||
25740 | value | ||
25741 | |||
25742 | Specifies the value of the resource, which is specified as a | ||
25743 | string. | ||
25744 | |||
25745 | If database contains NULL, XrmPutResource creates a new | ||
25746 | database and returns a pointer to it. XrmPutResource is a | ||
25747 | convenience function that calls XrmStringToBindingQuarkList | ||
25748 | followed by: | ||
25749 | |||
25750 | XrmQPutResource(database, bindings, quarks, XrmStringToQuark(type), valu | ||
25751 | e) | ||
25752 | |||
25753 | If the specifier and type are not in the Host Portable | ||
25754 | Character Encoding, the result is implementation-dependent. The | ||
25755 | value is stored in the database without modification. | ||
25756 | |||
25757 | void XrmQPutResource(XrmDatabase *database, XrmBindingList | ||
25758 | bindings, XrmQuarkList quarks, XrmRepresentation type, XrmValue | ||
25759 | *value); | ||
25760 | |||
25761 | database | ||
25762 | |||
25763 | Specifies the resource database. | ||
25764 | |||
25765 | bindings | ||
25766 | |||
25767 | Specifies a list of bindings. | ||
25768 | |||
25769 | quarks | ||
25770 | |||
25771 | Specifies the complete or partial name or the class list of the | ||
25772 | resource. | ||
25773 | |||
25774 | type | ||
25775 | |||
25776 | Specifies the type of the resource. | ||
25777 | |||
25778 | value | ||
25779 | |||
25780 | Specifies the value of the resource, which is specified as a | ||
25781 | string. | ||
25782 | |||
25783 | If database contains NULL, XrmQPutResource creates a new | ||
25784 | database and returns a pointer to it. If a resource entry with | ||
25785 | the identical bindings and quarks already exists in the | ||
25786 | database, the previous type and value are replaced by the new | ||
25787 | specified type and value. The value is stored in the database | ||
25788 | without modification. | ||
25789 | |||
25790 | To add a resource that is specified as a string, use | ||
25791 | XrmPutStringResource. | ||
25792 | |||
25793 | void XrmPutStringResource(XrmDatabase *database, char | ||
25794 | *specifier, char *value); | ||
25795 | |||
25796 | database | ||
25797 | |||
25798 | Specifies the resource database. | ||
25799 | |||
25800 | specifier | ||
25801 | |||
25802 | Specifies a complete or partial specification of the resource. | ||
25803 | |||
25804 | value | ||
25805 | |||
25806 | Specifies the value of the resource, which is specified as a | ||
25807 | string. | ||
25808 | |||
25809 | If database contains NULL, XrmPutStringResource creates a new | ||
25810 | database and returns a pointer to it. XrmPutStringResource adds | ||
25811 | a resource with the specified value to the specified database. | ||
25812 | XrmPutStringResource is a convenience function that first calls | ||
25813 | XrmStringToBindingQuarkList on the specifier and then calls | ||
25814 | XrmQPutResource, using a ``String'' representation type. If the | ||
25815 | specifier is not in the Host Portable Character Encoding, the | ||
25816 | result is implementation-dependent. The value is stored in the | ||
25817 | database without modification. | ||
25818 | |||
25819 | To add a string resource using quarks as a specification, use | ||
25820 | XrmQPutStringResource. | ||
25821 | |||
25822 | void XrmQPutStringResource(XrmDatabase *database, | ||
25823 | XrmBindingList bindings, XrmQuarkList quarks, char *value); | ||
25824 | |||
25825 | database | ||
25826 | |||
25827 | Specifies the resource database. | ||
25828 | |||
25829 | bindings | ||
25830 | |||
25831 | Specifies a list of bindings. | ||
25832 | |||
25833 | quarks | ||
25834 | |||
25835 | Specifies the complete or partial name or the class list of the | ||
25836 | resource. | ||
25837 | |||
25838 | value | ||
25839 | |||
25840 | Specifies the value of the resource, which is specified as a | ||
25841 | string. | ||
25842 | |||
25843 | If database contains NULL, XrmQPutStringResource creates a new | ||
25844 | database and returns a pointer to it. XrmQPutStringResource is | ||
25845 | a convenience routine that constructs an XrmValue for the value | ||
25846 | string (by calling strlen to compute the size) and then calls | ||
25847 | XrmQPutResource, using a ``String'' representation type. The | ||
25848 | value is stored in the database without modification. | ||
25849 | |||
25850 | To add a single resource entry that is specified as a string | ||
25851 | that contains both a name and a value, use XrmPutLineResource. | ||
25852 | |||
25853 | void XrmPutLineResource(XrmDatabase *database, char *line); | ||
25854 | |||
25855 | database | ||
25856 | |||
25857 | Specifies the resource database. | ||
25858 | |||
25859 | line | ||
25860 | |||
25861 | Specifies the resource name and value pair as a single string. | ||
25862 | |||
25863 | If database contains NULL, XrmPutLineResource creates a new | ||
25864 | database and returns a pointer to it. XrmPutLineResource adds a | ||
25865 | single resource entry to the specified database. The line | ||
25866 | should be in valid ResourceLine format (see section 15.1) | ||
25867 | terminated by a newline or null character; the database that | ||
25868 | results from using a string with incorrect syntax is | ||
25869 | implementation-dependent. The string is parsed in the locale of | ||
25870 | the database. If the ResourceName is not in the Host Portable | ||
25871 | Character Encoding, the result is implementation-dependent. | ||
25872 | Note that comment lines are not stored. | ||
25873 | |||
25874 | Enumerating Database Entries | ||
25875 | |||
25876 | To enumerate the entries of a database, use | ||
25877 | XrmEnumerateDatabase. | ||
25878 | #define XrmEnumAllLevels 0 | ||
25879 | #define XrmEnumOneLevel 0 | ||
25880 | |||
25881 | Bool XrmEnumerateDatabase(XrmDatabase database, XrmNameList | ||
25882 | name_prefix, XrmClassList class_prefix, int mode, Bool | ||
25883 | (*proc)(), XPointer arg); | ||
25884 | |||
25885 | database | ||
25886 | |||
25887 | Specifies the resource database. | ||
25888 | |||
25889 | name_prefix | ||
25890 | |||
25891 | Specifies the resource name prefix. | ||
25892 | |||
25893 | class_prefix | ||
25894 | |||
25895 | Specifies the resource class prefix. | ||
25896 | |||
25897 | mode | ||
25898 | |||
25899 | Specifies the number of levels to enumerate. | ||
25900 | |||
25901 | proc | ||
25902 | |||
25903 | Specifies the procedure that is to be called for each matching | ||
25904 | entry. | ||
25905 | |||
25906 | arg | ||
25907 | |||
25908 | Specifies the user-supplied argument that will be passed to the | ||
25909 | procedure. | ||
25910 | |||
25911 | The XrmEnumerateDatabase function calls the specified procedure | ||
25912 | for each resource in the database that would match some | ||
25913 | completion of the given name/class resource prefix. The order | ||
25914 | in which resources are found is implementation-dependent. If | ||
25915 | mode is XrmEnumOneLevel, a resource must match the given | ||
25916 | name/class prefix with just a single name and class appended. | ||
25917 | If mode is XrmEnumAllLevels, the resource must match the given | ||
25918 | name/class prefix with one or more names and classes appended. | ||
25919 | If the procedure returns True, the enumeration terminates and | ||
25920 | the function returns True. If the procedure always returns | ||
25921 | False, all matching resources are enumerated and the function | ||
25922 | returns False. | ||
25923 | |||
25924 | The procedure is called with the following arguments: | ||
25925 | |||
25926 | |||
25927 | |||
25928 | (*proc)(database, bindings, quarks, type, value, arg) | ||
25929 | XrmDatabase *database; | ||
25930 | XrmBindingList bindings; | ||
25931 | XrmQuarkList quarks; | ||
25932 | XrmRepresentation *type; | ||
25933 | XrmValue *value; | ||
25934 | XPointer arg; | ||
25935 | |||
25936 | The bindings and quarks lists are terminated by NULLQUARK. Note | ||
25937 | that pointers to the database and type are passed, but these | ||
25938 | values should not be modified. | ||
25939 | |||
25940 | The procedure must not modify the database. If Xlib has been | ||
25941 | initialized for threads, the procedure is called with the | ||
25942 | database locked and the result of a call by the procedure to | ||
25943 | any Xlib function using the same database is not defined. | ||
25944 | |||
25945 | Parsing Command Line Options | ||
25946 | |||
25947 | The XrmParseCommand function can be used to parse the command | ||
25948 | line arguments to a program and modify a resource database with | ||
25949 | selected entries from the command line. | ||
25950 | |||
25951 | |||
25952 | |||
25953 | typedef enum { | ||
25954 | XrmoptionNoArg, /* Value is specified in XrmOptionDescRec.value | ||
25955 | */ | ||
25956 | XrmoptionIsArg, /* Value is the option string itself */ | ||
25957 | XrmoptionStickyArg, /* Value is characters immediately followin | ||
25958 | g option */ | ||
25959 | XrmoptionSepArg, /* Value is next argument in argv */ | ||
25960 | XrmoptionResArg, /* Resource and value in next argument in argv | ||
25961 | */ | ||
25962 | XrmoptionSkipArg, /* Ignore this option and the next argument i | ||
25963 | n argv */ | ||
25964 | XrmoptionSkipLine, /* Ignore this option and the rest of argv * | ||
25965 | / | ||
25966 | XrmoptionSkipNArgs /* Ignore this option and the next | ||
25967 | \ \ \ XrmOptionDescRec.value arguments in argv */ | ||
25968 | } XrmOptionKind; | ||
25969 | |||
25970 | Note that XrmoptionSkipArg is equivalent to XrmoptionSkipNArgs | ||
25971 | with the XrmOptionDescRec.value field containing the value one. | ||
25972 | Note also that the value zero for XrmoptionSkipNArgs indicates | ||
25973 | that only the option itself is to be skipped. | ||
25974 | |||
25975 | |||
25976 | |||
25977 | typedef struct { | ||
25978 | char *option; /* Option specification string in argv | ||
25979 | */ | ||
25980 | char *specifier; /* Binding and resource name (sans application | ||
25981 | name) */ | ||
25982 | XrmOptionKind argKind; /* Which style of option it is * | ||
25983 | / | ||
25984 | XPointer value; /* Value to provide if XrmoptionNoArg or | ||
25985 | \ \ \ XrmoptionSkipNArgs */ | ||
25986 | } XrmOptionDescRec, *XrmOptionDescList; | ||
25987 | |||
25988 | To load a resource database from a C command line, use | ||
25989 | XrmParseCommand. | ||
25990 | |||
25991 | void XrmParseCommand(XrmDatabase *database, XrmOptionDescList | ||
25992 | table, int table_count, char *name, int *argc_in_out, char | ||
25993 | **argv_in_out); | ||
25994 | |||
25995 | database | ||
25996 | |||
25997 | Specifies the resource database. | ||
25998 | |||
25999 | table | ||
26000 | |||
26001 | Specifies the table of command line arguments to be parsed. | ||
26002 | |||
26003 | table_count | ||
26004 | |||
26005 | Specifies the number of entries in the table. | ||
26006 | |||
26007 | name | ||
26008 | |||
26009 | Specifies the application name. | ||
26010 | |||
26011 | argc_in_out | ||
26012 | |||
26013 | Specifies the number of arguments and returns the number of | ||
26014 | remaining arguments. | ||
26015 | |||
26016 | argv_in_out | ||
26017 | |||
26018 | Specifies the command line arguments and returns the remaining | ||
26019 | arguments. | ||
26020 | |||
26021 | The XrmParseCommand function parses an (argc, argv) pair | ||
26022 | according to the specified option table, loads recognized | ||
26023 | options into the specified database with type ``String,'' and | ||
26024 | modifies the (argc, argv) pair to remove all recognized | ||
26025 | options. If database contains NULL, XrmParseCommand creates a | ||
26026 | new database and returns a pointer to it. Otherwise, entries | ||
26027 | are added to the database specified. If a database is created, | ||
26028 | it is created in the current locale. | ||
26029 | |||
26030 | The specified table is used to parse the command line. | ||
26031 | Recognized options in the table are removed from argv, and | ||
26032 | entries are added to the specified resource database in the | ||
26033 | order they occur in argv. The table entries contain information | ||
26034 | on the option string, the option name, the style of option, and | ||
26035 | a value to provide if the option kind is XrmoptionNoArg. The | ||
26036 | option names are compared byte-for-byte to arguments in argv, | ||
26037 | independent of any locale. The resource values given in the | ||
26038 | table are stored in the resource database without modification. | ||
26039 | All resource database entries are created using a ``String'' | ||
26040 | representation type. The argc argument specifies the number of | ||
26041 | arguments in argv and is set on return to the remaining number | ||
26042 | of arguments that were not parsed. The name argument should be | ||
26043 | the name of your application for use in building the database | ||
26044 | entry. The name argument is prefixed to the resourceName in the | ||
26045 | option table before storing a database entry. The name argument | ||
26046 | is treated as a single component, even if it has embedded | ||
26047 | periods. No separating (binding) character is inserted, so the | ||
26048 | table must contain either a period (.) or an asterisk (*) as | ||
26049 | the first character in each resourceName entry. To specify a | ||
26050 | more completely qualified resource name, the resourceName entry | ||
26051 | can contain multiple components. If the name argument and the | ||
26052 | resourceNames are not in the Host Portable Character Encoding, | ||
26053 | the result is implementation-dependent. | ||
26054 | |||
26055 | The following provides a sample option table: | ||
26056 | |||
26057 | |||
26058 | |||
26059 | static XrmOptionDescRec opTable[] = { | ||
26060 | {"-background", "*background", XrmoptionSepArg, ( | ||
26061 | XPointer) NULL}, | ||
26062 | {"-bd", "*borderColor", XrmoptionSepArg, ( | ||
26063 | XPointer) NULL}, | ||
26064 | {"-bg", "*background", XrmoptionSepArg, ( | ||
26065 | XPointer) NULL}, | ||
26066 | {"-borderwidth", "*TopLevelShell.borderWidth", XrmoptionSepArg, ( | ||
26067 | XPointer) NULL}, | ||
26068 | {"-bordercolor", "*borderColor", XrmoptionSepArg, ( | ||
26069 | XPointer) NULL}, | ||
26070 | {"-bw", "*TopLevelShell.borderWidth", XrmoptionSepArg, ( | ||
26071 | XPointer) NULL}, | ||
26072 | {"-display", ".display", XrmoptionSepArg, ( | ||
26073 | XPointer) NULL}, | ||
26074 | {"-fg", "*foreground", XrmoptionSepArg, ( | ||
26075 | XPointer) NULL}, | ||
26076 | {"-fn", "*font", XrmoptionSepArg, ( | ||
26077 | XPointer) NULL}, | ||
26078 | {"-font", "*font", XrmoptionSepArg, ( | ||
26079 | XPointer) NULL}, | ||
26080 | {"-foreground", "*foreground", XrmoptionSepArg, ( | ||
26081 | XPointer) NULL}, | ||
26082 | {"-geometry", ".TopLevelShell.geometry", XrmoptionSepArg, ( | ||
26083 | XPointer) NULL}, | ||
26084 | {"-iconic", ".TopLevelShell.iconic", XrmoptionNoArg, ( | ||
26085 | XPointer) "on"}, | ||
26086 | {"-name", ".name", XrmoptionSepArg, ( | ||
26087 | XPointer) NULL}, | ||
26088 | {"-reverse", "*reverseVideo", XrmoptionNoArg, ( | ||
26089 | XPointer) "on"}, | ||
26090 | {"-rv", "*reverseVideo", XrmoptionNoArg, ( | ||
26091 | XPointer) "on"}, | ||
26092 | {"-synchronous", "*synchronous", XrmoptionNoArg, ( | ||
26093 | XPointer) "on"}, | ||
26094 | {"-title", ".TopLevelShell.title", XrmoptionSepArg, ( | ||
26095 | XPointer) NULL}, | ||
26096 | {"-xrm", NULL, XrmoptionResArg, ( | ||
26097 | XPointer) NULL}, | ||
26098 | }; | ||
26099 | |||
26100 | In this table, if the -background (or -bg) option is used to | ||
26101 | set background colors, the stored resource specifier matches | ||
26102 | all resources of attribute background. If the -borderwidth | ||
26103 | option is used, the stored resource specifier applies only to | ||
26104 | border width attributes of class TopLevelShell (that is, | ||
26105 | outer-most windows, including pop-up windows). If the -title | ||
26106 | option is used to set a window name, only the topmost | ||
26107 | application windows receive the resource. | ||
26108 | |||
26109 | When parsing the command line, any unique unambiguous | ||
26110 | abbreviation for an option name in the table is considered a | ||
26111 | match for the option. Note that uppercase and lowercase matter. | ||
26112 | |||
26113 | Chapter 16. Application Utility Functions | ||
26114 | |||
26115 | Table of Contents | ||
26116 | |||
26117 | Using Keyboard Utility Functions | ||
26118 | |||
26119 | KeySym Classification Macros | ||
26120 | |||
26121 | Using Latin-1 Keyboard Event Functions | ||
26122 | Allocating Permanent Storage | ||
26123 | Parsing the Window Geometry | ||
26124 | Manipulating Regions | ||
26125 | |||
26126 | Creating, Copying, or Destroying Regions | ||
26127 | Moving or Shrinking Regions | ||
26128 | Computing with Regions | ||
26129 | Determining if Regions Are Empty or Equal | ||
26130 | Locating a Point or a Rectangle in a Region | ||
26131 | |||
26132 | Using Cut Buffers | ||
26133 | Determining the Appropriate Visual Type | ||
26134 | Manipulating Images | ||
26135 | Manipulating Bitmaps | ||
26136 | Using the Context Manager | ||
26137 | |||
26138 | Once you have initialized the X system, you can use the Xlib | ||
26139 | utility functions to: | ||
26140 | * Use keyboard utility functions | ||
26141 | * Use Latin-1 keyboard event functions | ||
26142 | * Allocate permanent storage | ||
26143 | * Parse the window geometry | ||
26144 | * Manipulate regions | ||
26145 | * Use cut buffers | ||
26146 | * Determine the appropriate visual type | ||
26147 | * Manipulate images | ||
26148 | * Manipulate bitmaps | ||
26149 | * Use the context manager | ||
26150 | |||
26151 | As a group, the functions discussed in this chapter provide the | ||
26152 | functionality that is frequently needed and that spans | ||
26153 | toolkits. Many of these functions do not generate actual | ||
26154 | protocol requests to the server. | ||
26155 | |||
26156 | Using Keyboard Utility Functions | ||
26157 | |||
26158 | This section discusses mapping between KeyCodes and KeySyms, | ||
26159 | classifying KeySyms, and mapping between KeySyms and string | ||
26160 | names. The first three functions in this section operate on a | ||
26161 | cached copy of the server keyboard mapping. The first four | ||
26162 | KeySyms for each KeyCode are modified according to the rules | ||
26163 | given in section 12.7. To obtain the untransformed KeySyms | ||
26164 | defined for a key, use the functions described in section 12.7. | ||
26165 | |||
26166 | To obtain a KeySym for the KeyCode of an event, use | ||
26167 | XLookupKeysym. | ||
26168 | |||
26169 | KeySym XLookupKeysym(XKeyEvent *key_event, int index); | ||
26170 | |||
26171 | key_event | ||
26172 | |||
26173 | Specifies the KeyPress or KeyRelease event. | ||
26174 | |||
26175 | index | ||
26176 | |||
26177 | Specifies the index into the KeySyms list for the event's | ||
26178 | KeyCode. | ||
26179 | |||
26180 | The XLookupKeysym function uses a given keyboard event and the | ||
26181 | index you specified to return the KeySym from the list that | ||
26182 | corresponds to the KeyCode member in the XKeyPressedEvent or | ||
26183 | XKeyReleasedEvent structure. If no KeySym is defined for the | ||
26184 | KeyCode of the event, XLookupKeysym returns NoSymbol. | ||
26185 | |||
26186 | To obtain a KeySym for a specific KeyCode, use | ||
26187 | XKeycodeToKeysym. | ||
26188 | |||
26189 | KeySym XKeycodeToKeysym(Display *display, KeyCode keycode, int | ||
26190 | index); | ||
26191 | |||
26192 | display | ||
26193 | |||
26194 | Specifies the connection to the X server. | ||
26195 | |||
26196 | keycode | ||
26197 | |||
26198 | Specifies the KeyCode. | ||
26199 | |||
26200 | index | ||
26201 | |||
26202 | Specifies the element of KeyCode vector. | ||
26203 | |||
26204 | The XKeycodeToKeysym function uses internal Xlib tables and | ||
26205 | returns the KeySym defined for the specified KeyCode and the | ||
26206 | element of the KeyCode vector. If no symbol is defined, | ||
26207 | XKeycodeToKeysym returns NoSymbol. | ||
26208 | |||
26209 | To obtain a KeyCode for a key having a specific KeySym, use | ||
26210 | XKeysymToKeycode. | ||
26211 | |||
26212 | KeyCode XKeysymToKeycode(Display *display, KeySym keysym); | ||
26213 | |||
26214 | display | ||
26215 | |||
26216 | Specifies the connection to the X server. | ||
26217 | |||
26218 | keysym | ||
26219 | |||
26220 | Specifies the KeySym that is to be searched for. | ||
26221 | |||
26222 | If the specified KeySym is not defined for any KeyCode, | ||
26223 | XKeysymToKeycode returns zero. | ||
26224 | |||
26225 | The mapping between KeyCodes and KeySyms is cached internal to | ||
26226 | Xlib. When this information is changed at the server, an Xlib | ||
26227 | function must be called to refresh the cache. To refresh the | ||
26228 | stored modifier and keymap information, use | ||
26229 | XRefreshKeyboardMapping. | ||
26230 | |||
26231 | XRefreshKeyboardMapping(XMappingEvent *event_map); | ||
26232 | |||
26233 | event_map | ||
26234 | |||
26235 | Specifies the mapping event that is to be used. | ||
26236 | |||
26237 | The XRefreshKeyboardMapping function refreshes the stored | ||
26238 | modifier and keymap information. You usually call this function | ||
26239 | when a MappingNotify event with a request member of | ||
26240 | MappingKeyboard or MappingModifier occurs. The result is to | ||
26241 | update Xlib's knowledge of the keyboard. | ||
26242 | |||
26243 | To obtain the uppercase and lowercase forms of a KeySym, use | ||
26244 | XConvertCase. | ||
26245 | |||
26246 | void XConvertCase(KeySym keysym, KeySym *lower_return, KeySym | ||
26247 | *upper_return); | ||
26248 | |||
26249 | keysym | ||
26250 | |||
26251 | Specifies the KeySym that is to be converted. | ||
26252 | |||
26253 | lower_return | ||
26254 | |||
26255 | Returns the lowercase form of keysym, or keysym. | ||
26256 | |||
26257 | upper_return | ||
26258 | |||
26259 | Returns the uppercase form of keysym, or keysym. | ||
26260 | |||
26261 | The XConvertCase function returns the uppercase and lowercase | ||
26262 | forms of the specified Keysym, if the KeySym is subject to case | ||
26263 | conversion; otherwise, the specified KeySym is returned to both | ||
26264 | lower_return and upper_return. Support for conversion of other | ||
26265 | than Latin and Cyrillic KeySyms is implementation-dependent. | ||
26266 | |||
26267 | KeySyms have string names as well as numeric codes. To convert | ||
26268 | the name of the KeySym to the KeySym code, use XStringToKeysym. | ||
26269 | |||
26270 | KeySym XStringToKeysym(char *string); | ||
26271 | |||
26272 | string | ||
26273 | |||
26274 | Specifies the name of the KeySym that is to be converted. | ||
26275 | |||
26276 | Standard KeySym names are obtained from <X11/keysymdef.h> by | ||
26277 | removing the XK_ prefix from each name. KeySyms that are not | ||
26278 | part of the Xlib standard also may be obtained with this | ||
26279 | function. The set of KeySyms that are available in this manner | ||
26280 | and the mechanisms by which Xlib obtains them is | ||
26281 | implementation-dependent. | ||
26282 | |||
26283 | If the KeySym name is not in the Host Portable Character | ||
26284 | Encoding, the result is implementation-dependent. If the | ||
26285 | specified string does not match a valid KeySym, XStringToKeysym | ||
26286 | returns NoSymbol. | ||
26287 | |||
26288 | To convert a KeySym code to the name of the KeySym, use | ||
26289 | XKeysymToString. | ||
26290 | |||
26291 | char *XKeysymToString(KeySym keysym); | ||
26292 | |||
26293 | keysym | ||
26294 | |||
26295 | Specifies the KeySym that is to be converted. | ||
26296 | |||
26297 | The returned string is in a static area and must not be | ||
26298 | modified. The returned string is in the Host Portable Character | ||
26299 | Encoding. If the specified KeySym is not defined, | ||
26300 | XKeysymToString returns a NULL. | ||
26301 | |||
26302 | KeySym Classification Macros | ||
26303 | |||
26304 | You may want to test if a KeySym is, for example, on the keypad | ||
26305 | or on one of the function keys. You can use KeySym macros to | ||
26306 | perform the following tests. | ||
26307 | |||
26308 | IsCursorKey(keysym) | ||
26309 | |||
26310 | keysym | ||
26311 | |||
26312 | Specifies the KeySym that is to be tested. | ||
26313 | |||
26314 | Returns True if the specified KeySym is a cursor key. | ||
26315 | |||
26316 | IsFunctionKey(keysym) | ||
26317 | |||
26318 | keysym | ||
26319 | |||
26320 | Specifies the KeySym that is to be tested. | ||
26321 | |||
26322 | Returns True if the specified KeySym is a function key. | ||
26323 | |||
26324 | IsKeypadKey(keysym) | ||
26325 | |||
26326 | keysym | ||
26327 | |||
26328 | Specifies the KeySym that is to be tested. | ||
26329 | |||
26330 | Returns True if the specified KeySym is a standard keypad key. | ||
26331 | |||
26332 | IsPrivateKeypadKey(keysym) | ||
26333 | |||
26334 | keysym | ||
26335 | |||
26336 | Specifies the KeySym that is to be tested. | ||
26337 | |||
26338 | Returns True if the specified KeySym is a vendor-private keypad | ||
26339 | key. | ||
26340 | |||
26341 | IsMiscFunctionKey(keysym) | ||
26342 | |||
26343 | keysym | ||
26344 | |||
26345 | Specifies the KeySym that is to be tested. | ||
26346 | |||
26347 | Returns True if the specified KeySym is a miscellaneous | ||
26348 | function key. | ||
26349 | |||
26350 | IsModifierKey(keysym) | ||
26351 | |||
26352 | keysym | ||
26353 | |||
26354 | Specifies the KeySym that is to be tested. | ||
26355 | |||
26356 | Returns True if the specified KeySym is a modifier key. | ||
26357 | |||
26358 | IsPFKey(keysym) | ||
26359 | |||
26360 | keysym | ||
26361 | |||
26362 | Specifies the KeySym that is to be tested. | ||
26363 | |||
26364 | Returns True if the specified KeySym is a PF key. | ||
26365 | |||
26366 | Using Latin-1 Keyboard Event Functions | ||
26367 | |||
26368 | Chapter 13 describes internationalized text input facilities, | ||
26369 | but sometimes it is expedient to write an application that only | ||
26370 | deals with Latin-1 characters and ASCII controls, so Xlib | ||
26371 | provides a simple function for that purpose. XLookupString | ||
26372 | handles the standard modifier semantics described in section | ||
26373 | 12.7. This function does not use any of the input method | ||
26374 | facilities described in chapter 13 and does not depend on the | ||
26375 | current locale. | ||
26376 | |||
26377 | To map a key event to an ISO Latin-1 string, use XLookupString. | ||
26378 | |||
26379 | int XLookupString(XKeyEvent *event_struct, char *buffer_return, | ||
26380 | int bytes_buffer, KeySym *keysym_return, XComposeStatus | ||
26381 | *status_in_out); | ||
26382 | |||
26383 | event_struct | ||
26384 | |||
26385 | Specifies the key event structure to be used. You can pass | ||
26386 | XKeyPressedEvent or XKeyReleasedEvent. | ||
26387 | |||
26388 | buffer_return | ||
26389 | |||
26390 | Returns the translated characters. | ||
26391 | |||
26392 | bytes_buffer | ||
26393 | |||
26394 | Specifies the length of the buffer. No more than bytes_buffer | ||
26395 | of translation are returned. | ||
26396 | |||
26397 | keysym_return | ||
26398 | |||
26399 | Returns the KeySym computed from the event if this argument is | ||
26400 | not NULL. | ||
26401 | |||
26402 | status_in_out | ||
26403 | |||
26404 | Specifies or returns the XComposeStatus structure or NULL. | ||
26405 | |||
26406 | The XLookupString function translates a key event to a KeySym | ||
26407 | and a string. The KeySym is obtained by using the standard | ||
26408 | interpretation of the Shift, Lock, group, and numlock modifiers | ||
26409 | as defined in the X Protocol specification. If the KeySym has | ||
26410 | been rebound (see XRebindKeysym), the bound string will be | ||
26411 | stored in the buffer. Otherwise, the KeySym is mapped, if | ||
26412 | possible, to an ISO Latin-1 character or (if the Control | ||
26413 | modifier is on) to an ASCII control character, and that | ||
26414 | character is stored in the buffer. XLookupString returns the | ||
26415 | number of characters that are stored in the buffer. | ||
26416 | |||
26417 | If present (non-NULL), the XComposeStatus structure records the | ||
26418 | state, which is private to Xlib, that needs preservation across | ||
26419 | calls to XLookupString to implement compose processing. The | ||
26420 | creation of XComposeStatus structures is | ||
26421 | implementation-dependent; a portable program must pass NULL for | ||
26422 | this argument. | ||
26423 | |||
26424 | XLookupString depends on the cached keyboard information | ||
26425 | mentioned in the previous section, so it is necessary to use | ||
26426 | XRefreshKeyboardMapping to keep this information up-to-date. | ||
26427 | |||
26428 | To rebind the meaning of a KeySym for XLookupString, use | ||
26429 | XRebindKeysym. | ||
26430 | |||
26431 | XRebindKeysym(Display *display, KeySym keysym, KeySym list[], | ||
26432 | int mod_count, unsignedchar *string, int num_bytes); | ||
26433 | |||
26434 | display | ||
26435 | |||
26436 | Specifies the connection to the X server. | ||
26437 | |||
26438 | keysym | ||
26439 | |||
26440 | Specifies the KeySym that is to be rebound. | ||
26441 | |||
26442 | list | ||
26443 | |||
26444 | Specifies the KeySyms to be used as modifiers. | ||
26445 | |||
26446 | mod_count | ||
26447 | |||
26448 | Specifies the number of modifiers in the modifier list. | ||
26449 | |||
26450 | string | ||
26451 | |||
26452 | Specifies the string that is copied and will be returned by | ||
26453 | XLookupString. | ||
26454 | |||
26455 | num_bytes | ||
26456 | |||
26457 | Specifies the number of bytes in the string argument. | ||
26458 | |||
26459 | The XRebindKeysym function can be used to rebind the meaning of | ||
26460 | a KeySym for the client. It does not redefine any key in the X | ||
26461 | server but merely provides an easy way for long strings to be | ||
26462 | attached to keys. XLookupString returns this string when the | ||
26463 | appropriate set of modifier keys are pressed and when the | ||
26464 | KeySym would have been used for the translation. No text | ||
26465 | conversions are performed; the client is responsible for | ||
26466 | supplying appropriately encoded strings. Note that you can | ||
26467 | rebind a KeySym that may not exist. | ||
26468 | |||
26469 | Allocating Permanent Storage | ||
26470 | |||
26471 | To allocate some memory you will never give back, use | ||
26472 | Xpermalloc. | ||
26473 | |||
26474 | char *Xpermalloc(unsigned int size); | ||
26475 | |||
26476 | The Xpermalloc function allocates storage that can never be | ||
26477 | freed for the life of the program. The memory is allocated with | ||
26478 | alignment for the C type double. This function may provide some | ||
26479 | performance and space savings over the standard operating | ||
26480 | system memory allocator. | ||
26481 | |||
26482 | Parsing the Window Geometry | ||
26483 | |||
26484 | To parse standard window geometry strings, use XParseGeometry. | ||
26485 | |||
26486 | int XParseGeometry(char *parsestring, int *x_return, int | ||
26487 | *y_return, unsigned int *width_return, unsigned int | ||
26488 | *height_return); | ||
26489 | |||
26490 | parsestring | ||
26491 | |||
26492 | Specifies the string you want to parse. | ||
26493 | |||
26494 | x_return | ||
26495 | |||
26496 | y_return | ||
26497 | |||
26498 | Return the x and y offsets. | ||
26499 | |||
26500 | width_return | ||
26501 | |||
26502 | height_return | ||
26503 | |||
26504 | Return the width and height determined. | ||
26505 | |||
26506 | By convention, X applications use a standard string to indicate | ||
26507 | window size and placement. XParseGeometry makes it easier to | ||
26508 | conform to this standard because it allows you to parse the | ||
26509 | standard window geometry. Specifically, this function lets you | ||
26510 | parse strings of the form: | ||
26511 | |||
26512 | [=][<width>{xX}<height>][{+-}<xoffset>{+-}<yoffset>] | ||
26513 | |||
26514 | The fields map into the arguments associated with this | ||
26515 | function. (Items enclosed in <> are integers, items in [] are | ||
26516 | optional, and items enclosed in {} indicate ``choose one of.'' | ||
26517 | Note that the brackets should not appear in the actual string.) | ||
26518 | If the string is not in the Host Portable Character Encoding, | ||
26519 | the result is implementation-dependent. | ||
26520 | |||
26521 | The XParseGeometry function returns a bitmask that indicates | ||
26522 | which of the four values (width, height, xoffset, and yoffset) | ||
26523 | were actually found in the string and whether the x and y | ||
26524 | values are negative. By convention, -0 is not equal to +0, | ||
26525 | because the user needs to be able to say ``position the window | ||
26526 | relative to the right or bottom edge.'' For each value found, | ||
26527 | the corresponding argument is updated. For each value not | ||
26528 | found, the argument is left unchanged. The bits are represented | ||
26529 | by XValue, YValue, WidthValue, HeightValue, XNegative, or | ||
26530 | YNegative and are defined in <X11/Xutil.h>. They will be set | ||
26531 | whenever one of the values is defined or one of the signs is | ||
26532 | set. | ||
26533 | |||
26534 | If the function returns either the XValue or YValue flag, you | ||
26535 | should place the window at the requested position. | ||
26536 | |||
26537 | To construct a window's geometry information, use XWMGeometry. | ||
26538 | |||
26539 | int XWMGeometry(Display *display, int screen, char *user_geom, | ||
26540 | char *def_geom, unsigned int bwidth, XSizeHints *hints, int | ||
26541 | *x_return, int *y_return, int *width_return, int | ||
26542 | *height_return, int *gravity_return); | ||
26543 | |||
26544 | display | ||
26545 | |||
26546 | Specifies the connection to the X server. | ||
26547 | |||
26548 | screen | ||
26549 | |||
26550 | Specifies the screen. | ||
26551 | |||
26552 | user_geom | ||
26553 | |||
26554 | Specifies the user-specified geometry or NULL. | ||
26555 | |||
26556 | def_geom | ||
26557 | |||
26558 | Specifies the application's default geometry or NULL. | ||
26559 | |||
26560 | bwidth | ||
26561 | |||
26562 | Specifies the border width. | ||
26563 | |||
26564 | hints | ||
26565 | |||
26566 | Specifies the size hints for the window in its normal state. | ||
26567 | |||
26568 | x_return | ||
26569 | |||
26570 | y_return | ||
26571 | |||
26572 | Return the x and y offsets. | ||
26573 | |||
26574 | width_return | ||
26575 | |||
26576 | height_return | ||
26577 | |||
26578 | Return the width and height determined. | ||
26579 | |||
26580 | gravity_return | ||
26581 | |||
26582 | Returns the window gravity. | ||
26583 | |||
26584 | The XWMGeometry function combines any geometry information | ||
26585 | (given in the format used by XParseGeometry) specified by the | ||
26586 | user and by the calling program with size hints (usually the | ||
26587 | ones to be stored in WM_NORMAL_HINTS) and returns the position, | ||
26588 | size, and gravity (NorthWestGravity, NorthEastGravity, | ||
26589 | SouthEastGravity, or SouthWestGravity) that describe the | ||
26590 | window. If the base size is not set in the XSizeHints | ||
26591 | structure, the minimum size is used if set. Otherwise, a base | ||
26592 | size of zero is assumed. If no minimum size is set in the hints | ||
26593 | structure, the base size is used. A mask (in the form returned | ||
26594 | by XParseGeometry) that describes which values came from the | ||
26595 | user specification and whether or not the position coordinates | ||
26596 | are relative to the right and bottom edges is returned. Note | ||
26597 | that these coordinates will have already been accounted for in | ||
26598 | the x_return and y_return values. | ||
26599 | |||
26600 | Note that invalid geometry specifications can cause a width or | ||
26601 | height of zero to be returned. The caller may pass the address | ||
26602 | of the hints win_gravity field as gravity_return to update the | ||
26603 | hints directly. | ||
26604 | |||
26605 | Manipulating Regions | ||
26606 | |||
26607 | Regions are arbitrary sets of pixel locations. Xlib provides | ||
26608 | functions for manipulating regions. The opaque type Region is | ||
26609 | defined in <X11/Xutil.h>. Xlib provides functions that you can | ||
26610 | use to manipulate regions. This section discusses how to: | ||
26611 | * Create, copy, or destroy regions | ||
26612 | * Move or shrink regions | ||
26613 | * Compute with regions | ||
26614 | * Determine if regions are empty or equal | ||
26615 | * Locate a point or rectangle in a region | ||
26616 | |||
26617 | Creating, Copying, or Destroying Regions | ||
26618 | |||
26619 | To create a new empty region, use XCreateRegion. | ||
26620 | |||
26621 | Region XCreateRegion(void); | ||
26622 | |||
26623 | To generate a region from a polygon, use XPolygonRegion. | ||
26624 | |||
26625 | Region XPolygonRegion(XPoint points[], int n, int fill_rule); | ||
26626 | |||
26627 | points | ||
26628 | |||
26629 | Specifies an array of points. | ||
26630 | |||
26631 | n | ||
26632 | |||
26633 | Specifies the number of points in the polygon. | ||
26634 | |||
26635 | fill_rule | ||
26636 | |||
26637 | Specifies the fill-rule you want to set for the specified GC. | ||
26638 | You can pass EvenOddRule or WindingRule. | ||
26639 | |||
26640 | The XPolygonRegion function returns a region for the polygon | ||
26641 | defined by the points array. For an explanation of fill_rule, | ||
26642 | see XCreateGC. | ||
26643 | |||
26644 | To set the clip-mask of a GC to a region, use XSetRegion. | ||
26645 | |||
26646 | XSetRegion(Display *display, GC gc, Region r); | ||
26647 | |||
26648 | display | ||
26649 | |||
26650 | Specifies the connection to the X server. | ||
26651 | |||
26652 | gc | ||
26653 | |||
26654 | Specifies the GC. | ||
26655 | |||
26656 | r | ||
26657 | |||
26658 | Specifies the region. | ||
26659 | |||
26660 | The XSetRegion function sets the clip-mask in the GC to the | ||
26661 | specified region. The region is specified relative to the | ||
26662 | drawable's origin. The resulting GC clip origin is | ||
26663 | implementation-dependent. Once it is set in the GC, the region | ||
26664 | can be destroyed. | ||
26665 | |||
26666 | To deallocate the storage associated with a specified region, | ||
26667 | use XDestroyRegion. | ||
26668 | |||
26669 | XDestroyRegion(Region r); | ||
26670 | |||
26671 | r | ||
26672 | |||
26673 | Specifies the region. | ||
26674 | |||
26675 | Moving or Shrinking Regions | ||
26676 | |||
26677 | To move a region by a specified amount, use XOffsetRegion. | ||
26678 | |||
26679 | XOffsetRegion(Region r, int dx, int dy); | ||
26680 | |||
26681 | r | ||
26682 | |||
26683 | Specifies the region. | ||
26684 | |||
26685 | dx | ||
26686 | |||
26687 | dy | ||
26688 | |||
26689 | Specify the x and y coordinates, which define the amount you | ||
26690 | want to move the specified region. | ||
26691 | |||
26692 | To reduce a region by a specified amount, use XShrinkRegion. | ||
26693 | |||
26694 | XShrinkRegion(Region r, int dx, int dy); | ||
26695 | |||
26696 | r | ||
26697 | |||
26698 | Specifies the region. | ||
26699 | |||
26700 | dx | ||
26701 | |||
26702 | dy | ||
26703 | |||
26704 | Specify the x and y coordinates, which define the amount you | ||
26705 | want to shrink the specified region. | ||
26706 | |||
26707 | Positive values shrink the size of the region, and negative | ||
26708 | values expand the region. | ||
26709 | |||
26710 | Computing with Regions | ||
26711 | |||
26712 | To generate the smallest rectangle enclosing a region, use | ||
26713 | XClipBox. | ||
26714 | |||
26715 | XClipBox(Region r, XRectangle *rect_return); | ||
26716 | |||
26717 | r | ||
26718 | |||
26719 | Specifies the region. | ||
26720 | |||
26721 | rect_return | ||
26722 | |||
26723 | Returns the smallest enclosing rectangle. | ||
26724 | |||
26725 | The XClipBox function returns the smallest rectangle enclosing | ||
26726 | the specified region. | ||
26727 | |||
26728 | To compute the intersection of two regions, use | ||
26729 | XIntersectRegion. | ||
26730 | |||
26731 | XIntersectRegion(Region sra, Region srb, Region dr_return); | ||
26732 | |||
26733 | sra | ||
26734 | |||
26735 | srb | ||
26736 | |||
26737 | Specify the two regions with which you want to perform the | ||
26738 | computation. | ||
26739 | |||
26740 | dr_return | ||
26741 | |||
26742 | Returns the result of the computation. | ||
26743 | |||
26744 | To compute the union of two regions, use XUnionRegion. | ||
26745 | |||
26746 | XUnionRegion(Region sra, Region srb, Region dr_return); | ||
26747 | |||
26748 | sra | ||
26749 | |||
26750 | srb | ||
26751 | |||
26752 | Specify the two regions with which you want to perform the | ||
26753 | computation. | ||
26754 | |||
26755 | dr_return | ||
26756 | |||
26757 | Returns the result of the computation. | ||
26758 | |||
26759 | To create a union of a source region and a rectangle, use | ||
26760 | XUnionRectWithRegion. | ||
26761 | |||
26762 | XUnionRectWithRegion(XRectangle *rectangle, Region src_region, | ||
26763 | Region dest_region_return); | ||
26764 | |||
26765 | rectangle | ||
26766 | |||
26767 | Specifies the rectangle. | ||
26768 | |||
26769 | src_region | ||
26770 | |||
26771 | Specifies the source region to be used. | ||
26772 | |||
26773 | dest_region_return | ||
26774 | |||
26775 | Returns the destination region. | ||
26776 | |||
26777 | The XUnionRectWithRegion function updates the destination | ||
26778 | region from a union of the specified rectangle and the | ||
26779 | specified source region. | ||
26780 | |||
26781 | To subtract two regions, use XSubtractRegion. | ||
26782 | |||
26783 | XSubtractRegion(Region sra, Region srb, Region dr_return); | ||
26784 | |||
26785 | sra | ||
26786 | |||
26787 | srb | ||
26788 | |||
26789 | Specify the two regions with which you want to perform the | ||
26790 | computation. | ||
26791 | |||
26792 | dr_return | ||
26793 | |||
26794 | Returns the result of the computation. | ||
26795 | |||
26796 | The XSubtractRegion function subtracts srb from sra and stores | ||
26797 | the results in dr_return. | ||
26798 | |||
26799 | To calculate the difference between the union and intersection | ||
26800 | of two regions, use XXorRegion. | ||
26801 | |||
26802 | XXorRegion(Region sra, Region srb, Region dr_return); | ||
26803 | |||
26804 | sra | ||
26805 | |||
26806 | srb | ||
26807 | |||
26808 | Specify the two regions with which you want to perform the | ||
26809 | computation. | ||
26810 | |||
26811 | dr_return | ||
26812 | |||
26813 | Returns the result of the computation. | ||
26814 | |||
26815 | Determining if Regions Are Empty or Equal | ||
26816 | |||
26817 | To determine if the specified region is empty, use | ||
26818 | XEmptyRegion. | ||
26819 | |||
26820 | Bool XEmptyRegion(Region r); | ||
26821 | |||
26822 | r | ||
26823 | |||
26824 | Specifies the region. | ||
26825 | |||
26826 | The XEmptyRegion function returns True if the region is empty. | ||
26827 | |||
26828 | To determine if two regions have the same offset, size, and | ||
26829 | shape, use XEqualRegion. | ||
26830 | |||
26831 | Bool XEqualRegion(Region r1, Region r2); | ||
26832 | |||
26833 | r1 | ||
26834 | |||
26835 | r2 | ||
26836 | |||
26837 | Specify the two regions. | ||
26838 | |||
26839 | The XEqualRegion function returns True if the two regions have | ||
26840 | the same offset, size, and shape. | ||
26841 | |||
26842 | Locating a Point or a Rectangle in a Region | ||
26843 | |||
26844 | To determine if a specified point resides in a specified | ||
26845 | region, use XPointInRegion. | ||
26846 | |||
26847 | Bool XPointInRegion(Region r, int x, int y); | ||
26848 | |||
26849 | r | ||
26850 | |||
26851 | Specifies the region. | ||
26852 | |||
26853 | x | ||
26854 | |||
26855 | y | ||
26856 | |||
26857 | Specify the x and y coordinates, which define the point. | ||
26858 | |||
26859 | The XPointInRegion function returns True if the point (x, y) is | ||
26860 | contained in the region r. | ||
26861 | |||
26862 | To determine if a specified rectangle is inside a region, use | ||
26863 | XRectInRegion. | ||
26864 | |||
26865 | int XRectInRegion(Region r, int x, int y, unsigned int width, | ||
26866 | unsigned int height); | ||
26867 | |||
26868 | r | ||
26869 | |||
26870 | Specifies the region. | ||
26871 | |||
26872 | x | ||
26873 | |||
26874 | y | ||
26875 | |||
26876 | Specify the x and y coordinates, which define the coordinates | ||
26877 | of the upper-left corner of the rectangle. | ||
26878 | |||
26879 | width | ||
26880 | |||
26881 | height | ||
26882 | |||
26883 | Specify the width and height, which define the rectangle. | ||
26884 | |||
26885 | The XRectInRegion function returns RectangleIn if the rectangle | ||
26886 | is entirely in the specified region, RectangleOut if the | ||
26887 | rectangle is entirely out of the specified region, and | ||
26888 | RectanglePart if the rectangle is partially in the specified | ||
26889 | region. | ||
26890 | |||
26891 | Using Cut Buffers | ||
26892 | |||
26893 | Xlib provides functions to manipulate cut buffers, a very | ||
26894 | simple form of cut-and-paste inter-client communication. | ||
26895 | Selections are a much more powerful and useful mechanism for | ||
26896 | interchanging data between client (see section 4.5) and | ||
26897 | generally should be used instead of cut buffers. | ||
26898 | |||
26899 | Cut buffers are implemented as properties on the first root | ||
26900 | window of the display. The buffers can only contain text, in | ||
26901 | the STRING encoding. The text encoding is not changed by Xlib | ||
26902 | when fetching or storing. Eight buffers are provided and can be | ||
26903 | accessed as a ring or as explicit buffers (numbered 0 through | ||
26904 | 7). | ||
26905 | |||
26906 | To store data in cut buffer 0, use XStoreBytes. | ||
26907 | |||
26908 | XStoreBytes(Display *display, char *bytes, int nbytes); | ||
26909 | |||
26910 | display | ||
26911 | |||
26912 | Specifies the connection to the X server. | ||
26913 | |||
26914 | bytes | ||
26915 | |||
26916 | Specifies the bytes, which are not necessarily ASCII or | ||
26917 | null-terminated. | ||
26918 | |||
26919 | nbytes | ||
26920 | |||
26921 | Specifies the number of bytes to be stored. | ||
26922 | |||
26923 | The data can have embedded null characters and need not be | ||
26924 | null-terminated. The cut buffer's contents can be retrieved | ||
26925 | later by any client calling XFetchBytes. | ||
26926 | |||
26927 | XStoreBytes can generate a BadAlloc error. | ||
26928 | |||
26929 | To store data in a specified cut buffer, use XStoreBuffer. | ||
26930 | |||
26931 | XStoreBuffer(Display *display, char *bytes, int nbytes, int | ||
26932 | buffer); | ||
26933 | |||
26934 | display | ||
26935 | |||
26936 | Specifies the connection to the X server. | ||
26937 | |||
26938 | bytes | ||
26939 | |||
26940 | Specifies the bytes, which are not necessarily ASCII or | ||
26941 | null-terminated. | ||
26942 | |||
26943 | nbytes | ||
26944 | |||
26945 | Specifies the number of bytes to be stored. | ||
26946 | |||
26947 | buffer | ||
26948 | |||
26949 | Specifies the buffer in which you want to store the bytes. | ||
26950 | |||
26951 | If an invalid buffer is specified, the call has no effect. The | ||
26952 | data can have embedded null characters and need not be | ||
26953 | null-terminated. | ||
26954 | |||
26955 | XStoreBuffer can generate a BadAlloc error. | ||
26956 | |||
26957 | To return data from cut buffer 0, use XFetchBytes. | ||
26958 | |||
26959 | char *XFetchBytes(Display *display, int *nbytes_return); | ||
26960 | |||
26961 | display | ||
26962 | |||
26963 | Specifies the connection to the X server. | ||
26964 | |||
26965 | nbytes_return | ||
26966 | |||
26967 | Returns the number of bytes in the buffer. | ||
26968 | |||
26969 | The XFetchBytes function returns the number of bytes in the | ||
26970 | nbytes_return argument, if the buffer contains data. Otherwise, | ||
26971 | the function returns NULL and sets nbytes to 0. The appropriate | ||
26972 | amount of storage is allocated and the pointer returned. The | ||
26973 | client must free this storage when finished with it by calling | ||
26974 | XFree. | ||
26975 | |||
26976 | To return data from a specified cut buffer, use XFetchBuffer. | ||
26977 | |||
26978 | char *XFetchBuffer(Display *display, int *nbytes_return, int | ||
26979 | buffer); | ||
26980 | |||
26981 | display | ||
26982 | |||
26983 | Specifies the connection to the X server. | ||
26984 | |||
26985 | nbytes_return | ||
26986 | |||
26987 | Returns the number of bytes in the buffer. | ||
26988 | |||
26989 | buffer | ||
26990 | |||
26991 | Specifies the buffer from which you want the stored data | ||
26992 | returned. | ||
26993 | |||
26994 | The XFetchBuffer function returns zero to the nbytes_return | ||
26995 | argument if there is no data in the buffer or if an invalid | ||
26996 | buffer is specified. | ||
26997 | |||
26998 | To rotate the cut buffers, use XRotateBuffers. | ||
26999 | |||
27000 | XRotateBuffers(Display *display, int rotate); | ||
27001 | |||
27002 | display | ||
27003 | |||
27004 | Specifies the connection to the X server. | ||
27005 | |||
27006 | rotate | ||
27007 | |||
27008 | Specifies how much to rotate the cut buffers. | ||
27009 | |||
27010 | The XRotateBuffers function rotates the cut buffers, such that | ||
27011 | buffer 0 becomes buffer n, buffer 1 becomes n + 1 mod 8, and so | ||
27012 | on. This cut buffer numbering is global to the display. Note | ||
27013 | that XRotateBuffers generates BadMatch errors if any of the | ||
27014 | eight buffers have not been created. | ||
27015 | |||
27016 | Determining the Appropriate Visual Type | ||
27017 | |||
27018 | A single display can support multiple screens. Each screen can | ||
27019 | have several different visual types supported at different | ||
27020 | depths. You can use the functions described in this section to | ||
27021 | determine which visual to use for your application. | ||
27022 | |||
27023 | The functions in this section use the visual information masks | ||
27024 | and the XVisualInfo structure, which is defined in | ||
27025 | <X11/Xutil.h> and contains: | ||
27026 | |||
27027 | /* Visual information mask bits */ | ||
27028 | |||
27029 | |||
27030 | #define VisualNoMask 0x0 | ||
27031 | #define VisualIDMask 0x1 | ||
27032 | #define VisualScreenMask 0x2 | ||
27033 | #define VisualDepthMask 0x4 | ||
27034 | #define VisualClassMask 0x8 | ||
27035 | #define VisualRedMaskMask 0x10 | ||
27036 | #define VisualGreenMaskMask 0x20 | ||
27037 | #define VisualBlueMaskMask 0x40 | ||
27038 | #define VisualColormapSizeMask 0x80 | ||
27039 | #define VisualBitsPerRGBMask 0x100 | ||
27040 | #define VisualAllMask 0x1FF | ||
27041 | |||
27042 | |||
27043 | |||
27044 | |||
27045 | /* Values */ | ||
27046 | |||
27047 | typedef struct { | ||
27048 | Visual *visual; | ||
27049 | VisualID visualid; | ||
27050 | int screen; | ||
27051 | unsigned int depth; | ||
27052 | int class; | ||
27053 | unsigned long red_mask; | ||
27054 | unsigned long green_mask; | ||
27055 | unsigned long blue_mask; | ||
27056 | int colormap_size; | ||
27057 | int bits_per_rgb; | ||
27058 | } XVisualInfo; | ||
27059 | |||
27060 | To obtain a list of visual information structures that match a | ||
27061 | specified template, use XGetVisualInfo. | ||
27062 | |||
27063 | XVisualInfo *XGetVisualInfo(Display *display, long vinfo_mask, | ||
27064 | XVisualInfo *vinfo_template, int *nitems_return); | ||
27065 | |||
27066 | display | ||
27067 | |||
27068 | Specifies the connection to the X server. | ||
27069 | |||
27070 | vinfo_mask | ||
27071 | |||
27072 | Specifies the visual mask value. | ||
27073 | |||
27074 | vinfo_template | ||
27075 | |||
27076 | Specifies the visual attributes that are to be used in matching | ||
27077 | the visual structures. | ||
27078 | |||
27079 | nitems_return | ||
27080 | |||
27081 | Returns the number of matching visual structures. | ||
27082 | |||
27083 | The XGetVisualInfo function returns a list of visual structures | ||
27084 | that have attributes equal to the attributes specified by | ||
27085 | vinfo_template. If no visual structures match the template | ||
27086 | using the specified vinfo_mask, XGetVisualInfo returns a NULL. | ||
27087 | To free the data returned by this function, use XFree. | ||
27088 | |||
27089 | To obtain the visual information that matches the specified | ||
27090 | depth and class of the screen, use XMatchVisualInfo. | ||
27091 | |||
27092 | Status XMatchVisualInfo(Display *display, int screen, int | ||
27093 | depth, int class, XVisualInfo *vinfo_return); | ||
27094 | |||
27095 | display | ||
27096 | |||
27097 | Specifies the connection to the X server. | ||
27098 | |||
27099 | screen | ||
27100 | |||
27101 | Specifies the screen. | ||
27102 | |||
27103 | depth | ||
27104 | |||
27105 | Specifies the depth of the screen. | ||
27106 | |||
27107 | class | ||
27108 | |||
27109 | Specifies the class of the screen. | ||
27110 | |||
27111 | vinfo_return | ||
27112 | |||
27113 | Returns the matched visual information. | ||
27114 | |||
27115 | The XMatchVisualInfo function returns the visual information | ||
27116 | for a visual that matches the specified depth and class for a | ||
27117 | screen. Because multiple visuals that match the specified depth | ||
27118 | and class can exist, the exact visual chosen is undefined. If a | ||
27119 | visual is found, XMatchVisualInfo returns nonzero and the | ||
27120 | information on the visual to vinfo_return. Otherwise, when a | ||
27121 | visual is not found, XMatchVisualInfo returns zero. | ||
27122 | |||
27123 | Manipulating Images | ||
27124 | |||
27125 | Xlib provides several functions that perform basic operations | ||
27126 | on images. All operations on images are defined using an XImage | ||
27127 | structure, as defined in <X11/Xlib.h>. Because the number of | ||
27128 | different types of image formats can be very large, this hides | ||
27129 | details of image storage properly from applications. | ||
27130 | |||
27131 | This section describes the functions for generic operations on | ||
27132 | images. Manufacturers can provide very fast implementations of | ||
27133 | these for the formats frequently encountered on their hardware. | ||
27134 | These functions are neither sufficient nor desirable to use for | ||
27135 | general image processing. Rather, they are here to provide | ||
27136 | minimal functions on screen format images. The basic operations | ||
27137 | for getting and putting images are XGetImage and XPutImage. | ||
27138 | |||
27139 | Note that no functions have been defined, as yet, to read and | ||
27140 | write images to and from disk files. | ||
27141 | |||
27142 | The XImage structure describes an image as it exists in the | ||
27143 | client's memory. The user can request that some of the members | ||
27144 | such as height, width, and xoffset be changed when the image is | ||
27145 | sent to the server. Note that bytes_per_line in concert with | ||
27146 | offset can be used to extract a subset of the image. Other | ||
27147 | members (for example, byte order, bitmap_unit, and so forth) | ||
27148 | are characteristics of both the image and the server. If these | ||
27149 | members differ between the image and the server, XPutImage | ||
27150 | makes the appropriate conversions. The first byte of the first | ||
27151 | line of plane n must be located at the address (data + (n * | ||
27152 | height * bytes_per_line)). For a description of the XImage | ||
27153 | structure, see section 8.7. | ||
27154 | |||
27155 | To allocate an XImage structure and initialize it with image | ||
27156 | format values from a display, use XCreateImage. | ||
27157 | |||
27158 | XImage *XCreateImage(Display *display, Visual *visual, unsigned | ||
27159 | int depth, int format, int offset, char *data, unsigned int | ||
27160 | width, unsigned int height, int bitmap_pad, int | ||
27161 | bytes_per_line); | ||
27162 | |||
27163 | display | ||
27164 | |||
27165 | Specifies the connection to the X server. | ||
27166 | |||
27167 | visual | ||
27168 | |||
27169 | Specifies the Visual structure. | ||
27170 | |||
27171 | depth | ||
27172 | |||
27173 | Specifies the depth of the image. | ||
27174 | |||
27175 | format | ||
27176 | |||
27177 | Specifies the format for the image. You can pass XYBitmap, | ||
27178 | XYPixmap, or ZPixmap. | ||
27179 | |||
27180 | offset | ||
27181 | |||
27182 | Specifies the number of pixels to ignore at the beginning of | ||
27183 | the scanline. | ||
27184 | |||
27185 | data | ||
27186 | |||
27187 | Specifies the image data. | ||
27188 | |||
27189 | width | ||
27190 | |||
27191 | Specifies the width of the image, in pixels. | ||
27192 | |||
27193 | height | ||
27194 | |||
27195 | Specifies the height of the image, in pixels. | ||
27196 | |||
27197 | bitmap_pad | ||
27198 | |||
27199 | Specifies the quantum of a scanline (8, 16, or 32). In other | ||
27200 | words, the start of one scanline is separated in client memory | ||
27201 | from the start of the next scanline by an integer multiple of | ||
27202 | this many bits. | ||
27203 | |||
27204 | bytes_per_line | ||
27205 | |||
27206 | Specifies the number of bytes in the client image between the | ||
27207 | start of one scanline and the start of the next. | ||
27208 | |||
27209 | The XCreateImage function allocates the memory needed for an | ||
27210 | XImage structure for the specified display but does not | ||
27211 | allocate space for the image itself. Rather, it initializes the | ||
27212 | structure byte-order, bit-order, and bitmap-unit values from | ||
27213 | the display and returns a pointer to the XImage structure. The | ||
27214 | red, green, and blue mask values are defined for Z format | ||
27215 | images only and are derived from the Visual structure passed | ||
27216 | in. Other values also are passed in. The offset permits the | ||
27217 | rapid displaying of the image without requiring each scanline | ||
27218 | to be shifted into position. If you pass a zero value in | ||
27219 | bytes_per_line, Xlib assumes that the scanlines are contiguous | ||
27220 | in memory and calculates the value of bytes_per_line itself. | ||
27221 | |||
27222 | Note that when the image is created using XCreateImage, | ||
27223 | XGetImage, or XSubImage, the destroy procedure that the | ||
27224 | XDestroyImage function calls frees both the image structure and | ||
27225 | the data pointed to by the image structure. | ||
27226 | |||
27227 | The basic functions used to get a pixel, set a pixel, create a | ||
27228 | subimage, and add a constant value to an image are defined in | ||
27229 | the image object. The functions in this section are really | ||
27230 | macro invocations of the functions in the image object and are | ||
27231 | defined in <X11/Xutil.h>. | ||
27232 | |||
27233 | To obtain a pixel value in an image, use XGetPixel. | ||
27234 | |||
27235 | unsigned long XGetPixel(XImage *ximage, int x, int y); | ||
27236 | |||
27237 | ximage | ||
27238 | |||
27239 | Specifies the image. | ||
27240 | |||
27241 | x | ||
27242 | |||
27243 | y | ||
27244 | |||
27245 | Specify the x and y coordinates. | ||
27246 | |||
27247 | The XGetPixel function returns the specified pixel from the | ||
27248 | named image. The pixel value is returned in normalized format | ||
27249 | (that is, the least significant byte of the long is the least | ||
27250 | significant byte of the pixel). The image must contain the x | ||
27251 | and y coordinates. | ||
27252 | |||
27253 | To set a pixel value in an image, use XPutPixel. | ||
27254 | |||
27255 | XPutPixel(XImage *ximage, int x, int y, unsigned long pixel); | ||
27256 | |||
27257 | ximage | ||
27258 | |||
27259 | Specifies the image. | ||
27260 | |||
27261 | x | ||
27262 | |||
27263 | y | ||
27264 | |||
27265 | Specify the x and y coordinates. | ||
27266 | |||
27267 | pixel | ||
27268 | |||
27269 | Specifies the new pixel value. | ||
27270 | |||
27271 | The XPutPixel function overwrites the pixel in the named image | ||
27272 | with the specified pixel value. The input pixel value must be | ||
27273 | in normalized format (that is, the least significant byte of | ||
27274 | the long is the least significant byte of the pixel). The image | ||
27275 | must contain the x and y coordinates. | ||
27276 | |||
27277 | To create a subimage, use XSubImage. | ||
27278 | |||
27279 | XImage *XSubImage(XImage *ximage, int x, int y, unsigned int | ||
27280 | subimage_width, unsigned int subimage_height); | ||
27281 | |||
27282 | ximage | ||
27283 | |||
27284 | Specifies the image. | ||
27285 | |||
27286 | x | ||
27287 | |||
27288 | y | ||
27289 | |||
27290 | Specify the x and y coordinates. | ||
27291 | |||
27292 | subimage_width | ||
27293 | |||
27294 | Specifies the width of the new subimage, in pixels. | ||
27295 | |||
27296 | subimage_height | ||
27297 | |||
27298 | Specifies the height of the new subimage, in pixels. | ||
27299 | |||
27300 | The XSubImage function creates a new image that is a subsection | ||
27301 | of an existing one. It allocates the memory necessary for the | ||
27302 | new XImage structure and returns a pointer to the new image. | ||
27303 | The data is copied from the source image, and the image must | ||
27304 | contain the rectangle defined by x, y, subimage_width, and | ||
27305 | subimage_height. | ||
27306 | |||
27307 | To increment each pixel in an image by a constant value, use | ||
27308 | XAddPixel. | ||
27309 | |||
27310 | XAddPixel(XImage *ximage, long value); | ||
27311 | |||
27312 | ximage | ||
27313 | |||
27314 | Specifies the image. | ||
27315 | |||
27316 | value | ||
27317 | |||
27318 | Specifies the constant value that is to be added. | ||
27319 | |||
27320 | The XAddPixel function adds a constant value to every pixel in | ||
27321 | an image. It is useful when you have a base pixel value from | ||
27322 | allocating color resources and need to manipulate the image to | ||
27323 | that form. | ||
27324 | |||
27325 | To deallocate the memory allocated in a previous call to | ||
27326 | XCreateImage, use XDestroyImage. | ||
27327 | |||
27328 | XDestroyImage(XImage *ximage); | ||
27329 | |||
27330 | ximage | ||
27331 | |||
27332 | Specifies the image. | ||
27333 | |||
27334 | The XDestroyImage function deallocates the memory associated | ||
27335 | with the XImage structure. | ||
27336 | |||
27337 | Note that when the image is created using XCreateImage, | ||
27338 | XGetImage, or XSubImage, the destroy procedure that this macro | ||
27339 | calls frees both the image structure and the data pointed to by | ||
27340 | the image structure. | ||
27341 | |||
27342 | Manipulating Bitmaps | ||
27343 | |||
27344 | Xlib provides functions that you can use to read a bitmap from | ||
27345 | a file, save a bitmap to a file, or create a bitmap. This | ||
27346 | section describes those functions that transfer bitmaps to and | ||
27347 | from the client's file system, thus allowing their reuse in a | ||
27348 | later connection (for example, from an entirely different | ||
27349 | client or to a different display or server). | ||
27350 | |||
27351 | The X version 11 bitmap file format is: | ||
27352 | |||
27353 | #define name_width width | ||
27354 | #define name_height height | ||
27355 | #define name_x_hot x | ||
27356 | #define name_y_hot y | ||
27357 | static unsigned char name_bits[] = { 0xNN,... } | ||
27358 | |||
27359 | The lines for the variables ending with _x_hot and _y_hot | ||
27360 | suffixes are optional because they are present only if a | ||
27361 | hotspot has been defined for this bitmap. The lines for the | ||
27362 | other variables are required. The word ``unsigned'' is | ||
27363 | optional; that is, the type of the _bits array can be ``char'' | ||
27364 | or ``unsigned char''. The _bits array must be large enough to | ||
27365 | contain the size bitmap. The bitmap unit is 8. | ||
27366 | |||
27367 | To read a bitmap from a file and store it in a pixmap, use | ||
27368 | XReadBitmapFile. | ||
27369 | |||
27370 | int XReadBitmapFile(Display *display, Drawable d, char | ||
27371 | *filename, unsigned int *width_return, unsigned int | ||
27372 | *height_return, Pixmap *bitmap_return, int *x_hot_return, int | ||
27373 | *y_hot_return); | ||
27374 | |||
27375 | display | ||
27376 | |||
27377 | Specifies the connection to the X server. | ||
27378 | |||
27379 | d | ||
27380 | |||
27381 | Specifies the drawable that indicates the screen. | ||
27382 | |||
27383 | filename | ||
27384 | |||
27385 | Specifies the file name to use. The format of the file name is | ||
27386 | operating-system dependent. | ||
27387 | |||
27388 | width_return | ||
27389 | |||
27390 | height_return | ||
27391 | |||
27392 | Return the width and height values of the read in bitmap file. | ||
27393 | |||
27394 | bitmap_return | ||
27395 | |||
27396 | Returns the bitmap that is created. | ||
27397 | |||
27398 | x_hot_return | ||
27399 | |||
27400 | y_hot_return | ||
27401 | |||
27402 | Return the hotspot coordinates. | ||
27403 | |||
27404 | The XReadBitmapFile function reads in a file containing a | ||
27405 | bitmap. The file is parsed in the encoding of the current | ||
27406 | locale. The ability to read other than the standard format is | ||
27407 | implementation-dependent. If the file cannot be opened, | ||
27408 | XReadBitmapFile returns BitmapOpenFailed. If the file can be | ||
27409 | opened but does not contain valid bitmap data, it returns | ||
27410 | BitmapFileInvalid. If insufficient working storage is | ||
27411 | allocated, it returns BitmapNoMemory. If the file is readable | ||
27412 | and valid, it returns BitmapSuccess. | ||
27413 | |||
27414 | XReadBitmapFile returns the bitmap's height and width, as read | ||
27415 | from the file, to width_return and height_return. It then | ||
27416 | creates a pixmap of the appropriate size, reads the bitmap data | ||
27417 | from the file into the pixmap, and assigns the pixmap to the | ||
27418 | caller's variable bitmap. The caller must free the bitmap using | ||
27419 | XFreePixmap when finished. If name_x_hot and name_y_hot exist, | ||
27420 | XReadBitmapFile returns them to x_hot_return and y_hot_return; | ||
27421 | otherwise, it returns -1,-1. | ||
27422 | |||
27423 | XReadBitmapFile can generate BadAlloc, BadDrawable, and BadGC | ||
27424 | errors. | ||
27425 | |||
27426 | To read a bitmap from a file and return it as data, use | ||
27427 | XReadBitmapFileData. | ||
27428 | |||
27429 | int XReadBitmapFileData(char *filename, unsigned int | ||
27430 | *width_return, unsigned int *height_return, unsignedchar | ||
27431 | *data_return, int *x_hot_return, int *y_hot_return); | ||
27432 | |||
27433 | filename | ||
27434 | |||
27435 | Specifies the file name to use. The format of the file name is | ||
27436 | operating-system dependent. | ||
27437 | |||
27438 | width_return | ||
27439 | |||
27440 | height_return | ||
27441 | |||
27442 | Return the width and height values of the read in bitmap file. | ||
27443 | |||
27444 | data_return | ||
27445 | |||
27446 | Returns the bitmap data. | ||
27447 | |||
27448 | x_hot_return | ||
27449 | |||
27450 | y_hot_return | ||
27451 | |||
27452 | Return the hotspot coordinates. | ||
27453 | |||
27454 | The XReadBitmapFileData function reads in a file containing a | ||
27455 | bitmap, in the same manner as XReadBitmapFile, but returns the | ||
27456 | data directly rather than creating a pixmap in the server. The | ||
27457 | bitmap data is returned in data_return; the client must free | ||
27458 | this storage when finished with it by calling XFree. The status | ||
27459 | and other return values are the same as for XReadBitmapFile. | ||
27460 | |||
27461 | To write out a bitmap from a pixmap to a file, use | ||
27462 | XWriteBitmapFile. | ||
27463 | |||
27464 | int XWriteBitmapFile(Display *display, char *filename, Pixmap | ||
27465 | bitmap, unsigned int width, unsigned int height, int x_hot, int | ||
27466 | y_hot); | ||
27467 | |||
27468 | display | ||
27469 | |||
27470 | Specifies the connection to the X server. | ||
27471 | |||
27472 | filename | ||
27473 | |||
27474 | Specifies the file name to use. The format of the file name is | ||
27475 | operating-system dependent. | ||
27476 | |||
27477 | bitmap | ||
27478 | |||
27479 | Specifies the bitmap. | ||
27480 | |||
27481 | width | ||
27482 | |||
27483 | height | ||
27484 | |||
27485 | Specify the width and height. | ||
27486 | |||
27487 | x_hot | ||
27488 | |||
27489 | y_hot | ||
27490 | |||
27491 | Specify where to place the hotspot coordinates (or -1,-1 if | ||
27492 | none are present) in the file. | ||
27493 | |||
27494 | The XWriteBitmapFile function writes a bitmap out to a file in | ||
27495 | the X Version 11 format. The name used in the output file is | ||
27496 | derived from the file name by deleting the directory prefix. | ||
27497 | The file is written in the encoding of the current locale. If | ||
27498 | the file cannot be opened for writing, it returns | ||
27499 | BitmapOpenFailed. If insufficient memory is allocated, | ||
27500 | XWriteBitmapFile returns BitmapNoMemory; otherwise, on no | ||
27501 | error, it returns BitmapSuccess. If x_hot and y_hot are not -1, | ||
27502 | -1, XWriteBitmapFile writes them out as the hotspot coordinates | ||
27503 | for the bitmap. | ||
27504 | |||
27505 | XWriteBitmapFile can generate BadDrawable and BadMatch errors. | ||
27506 | |||
27507 | To create a pixmap and then store bitmap-format data into it, | ||
27508 | use XCreatePixmapFromBitmapData. | ||
27509 | |||
27510 | Pixmap XCreatePixmapFromBitmapData(Display *display, Drawable | ||
27511 | d, char *data, unsigned int width, unsigned int height, | ||
27512 | unsigned long fg, unsigned long bg, unsigned int depth); | ||
27513 | |||
27514 | display | ||
27515 | |||
27516 | Specifies the connection to the X server. | ||
27517 | |||
27518 | d | ||
27519 | |||
27520 | Specifies the drawable that indicates the screen. | ||
27521 | |||
27522 | data | ||
27523 | |||
27524 | Specifies the data in bitmap format. | ||
27525 | |||
27526 | width | ||
27527 | |||
27528 | height | ||
27529 | |||
27530 | Specify the width and height. | ||
27531 | |||
27532 | fg | ||
27533 | |||
27534 | bg | ||
27535 | |||
27536 | Specify the foreground and background pixel values to use. | ||
27537 | |||
27538 | depth | ||
27539 | |||
27540 | Specifies the depth of the pixmap. | ||
27541 | |||
27542 | The XCreatePixmapFromBitmapData function creates a pixmap of | ||
27543 | the given depth and then does a bitmap-format XPutImage of the | ||
27544 | data into it. The depth must be supported by the screen of the | ||
27545 | specified drawable, or a BadMatch error results. | ||
27546 | |||
27547 | XCreatePixmapFromBitmapData can generate BadAlloc, BadDrawable, | ||
27548 | BadGC, and BadValue errors. | ||
27549 | |||
27550 | To include a bitmap written out by XWriteBitmapFile in a | ||
27551 | program directly, as opposed to reading it in every time at run | ||
27552 | time, use XCreateBitmapFromData. | ||
27553 | |||
27554 | Pixmap XCreateBitmapFromData(Display *display, Drawable d, char | ||
27555 | *data, unsigned int width, unsigned int height); | ||
27556 | |||
27557 | display | ||
27558 | |||
27559 | Specifies the connection to the X server. | ||
27560 | |||
27561 | d | ||
27562 | |||
27563 | Specifies the drawable that indicates the screen. | ||
27564 | |||
27565 | data | ||
27566 | |||
27567 | Specifies the location of the bitmap data. | ||
27568 | |||
27569 | width | ||
27570 | |||
27571 | height | ||
27572 | |||
27573 | Specify the width and height. | ||
27574 | |||
27575 | The XCreateBitmapFromData function allows you to include in | ||
27576 | your C program (using #include) a bitmap file that was written | ||
27577 | out by XWriteBitmapFile (X version 11 format only) without | ||
27578 | reading in the bitmap file. The following example creates a | ||
27579 | gray bitmap: | ||
27580 | |||
27581 | #include "gray.bitmap" | ||
27582 | |||
27583 | Pixmap bitmap; | ||
27584 | bitmap = XCreateBitmapFromData(display, window, gray_bits, gray_width, g | ||
27585 | ray_height); | ||
27586 | |||
27587 | If insufficient working storage was allocated, | ||
27588 | XCreateBitmapFromData returns None. It is your responsibility | ||
27589 | to free the bitmap using XFreePixmap when finished. | ||
27590 | |||
27591 | XCreateBitmapFromData can generate BadAlloc and BadGC errors. | ||
27592 | |||
27593 | Using the Context Manager | ||
27594 | |||
27595 | The context manager provides a way of associating data with an | ||
27596 | X resource ID (mostly typically a window) in your program. Note | ||
27597 | that this is local to your program; the data is not stored in | ||
27598 | the server on a property list. Any amount of data in any number | ||
27599 | of pieces can be associated with a resource ID, and each piece | ||
27600 | of data has a type associated with it. The context manager | ||
27601 | requires knowledge of the resource ID and type to store or | ||
27602 | retrieve data. | ||
27603 | |||
27604 | Essentially, the context manager can be viewed as a | ||
27605 | two-dimensional, sparse array: one dimension is subscripted by | ||
27606 | the X resource ID and the other by a context type field. Each | ||
27607 | entry in the array contains a pointer to the data. Xlib | ||
27608 | provides context management functions with which you can save | ||
27609 | data values, get data values, delete entries, and create a | ||
27610 | unique context type. The symbols used are in <X11/Xutil.h>. | ||
27611 | |||
27612 | To save a data value that corresponds to a resource ID and | ||
27613 | context type, use XSaveContext. | ||
27614 | |||
27615 | int XSaveContext(Display *display, XID rid, XContext context, | ||
27616 | XPointer data); | ||
27617 | |||
27618 | display | ||
27619 | |||
27620 | Specifies the connection to the X server. | ||
27621 | |||
27622 | rid | ||
27623 | |||
27624 | Specifies the resource ID with which the data is associated. | ||
27625 | |||
27626 | context | ||
27627 | |||
27628 | Specifies the context type to which the data belongs. | ||
27629 | |||
27630 | data | ||
27631 | |||
27632 | Specifies the data to be associated with the window and type. | ||
27633 | |||
27634 | If an entry with the specified resource ID and type already | ||
27635 | exists, XSaveContext overrides it with the specified context. | ||
27636 | The XSaveContext function returns a nonzero error code if an | ||
27637 | error has occurred and zero otherwise. Possible errors are | ||
27638 | XCNOMEM (out of memory). | ||
27639 | |||
27640 | To get the data associated with a resource ID and type, use | ||
27641 | XFindContext. | ||
27642 | |||
27643 | int XFindContext(Display *display, XID rid, XContext context, | ||
27644 | XPointer *data_return); | ||
27645 | |||
27646 | display | ||
27647 | |||
27648 | Specifies the connection to the X server. | ||
27649 | |||
27650 | rid | ||
27651 | |||
27652 | Specifies the resource ID with which the data is associated. | ||
27653 | |||
27654 | context | ||
27655 | |||
27656 | Specifies the context type to which the data belongs. | ||
27657 | |||
27658 | data_return | ||
27659 | |||
27660 | Returns the data. | ||
27661 | |||
27662 | Because it is a return value, the data is a pointer. The | ||
27663 | XFindContext function returns a nonzero error code if an error | ||
27664 | has occurred and zero otherwise. Possible errors are XCNOENT | ||
27665 | (context-not-found). | ||
27666 | |||
27667 | To delete an entry for a given resource ID and type, use | ||
27668 | XDeleteContext. | ||
27669 | |||
27670 | int XDeleteContext(Display *display, XID rid, XContext | ||
27671 | context); | ||
27672 | |||
27673 | display | ||
27674 | |||
27675 | Specifies the connection to the X server. | ||
27676 | |||
27677 | rid | ||
27678 | |||
27679 | Specifies the resource ID with which the data is associated. | ||
27680 | |||
27681 | context | ||
27682 | |||
27683 | Specifies the context type to which the data belongs. | ||
27684 | |||
27685 | The XDeleteContext function deletes the entry for the given | ||
27686 | resource ID and type from the data structure. This function | ||
27687 | returns the same error codes that XFindContext returns if | ||
27688 | called with the same arguments. XDeleteContext does not free | ||
27689 | the data whose address was saved. | ||
27690 | |||
27691 | To create a unique context type that may be used in subsequent | ||
27692 | calls to XSaveContext and XFindContext, use XUniqueContext. | ||
27693 | |||
27694 | XContext XUniqueContext(void); | ||
27695 | |||
27696 | Appendix A. Xlib Functions and Protocol Requests | ||
27697 | |||
27698 | This appendix provides two tables that relate to Xlib functions | ||
27699 | and the X protocol. The following table lists each Xlib | ||
27700 | function (in alphabetical order) and the corresponding protocol | ||
27701 | request that it generates. | ||
27702 | |||
27703 | Table A.1. Protocol requests made by each Xlib function | ||
27704 | Xlib Function Protocol Request | ||
27705 | XActivateScreenSaver ForceScreenSaver | ||
27706 | XAddHost ChangeHosts | ||
27707 | XAddHosts ChangeHosts | ||
27708 | XAddToSaveSet ChangeSaveSet | ||
27709 | XAllocColor AllocColor | ||
27710 | XAllocColorCells AllocColorCells | ||
27711 | XAllocColorPlanes AllocColorPlanes | ||
27712 | XAllocNamedColor AllocNamedColor | ||
27713 | XAllowEvents AllowEvents | ||
27714 | XAutoRepeatOff ChangeKeyboardControl | ||
27715 | XAutoRepeatOn ChangeKeyboardControl | ||
27716 | XBell Bell | ||
27717 | XChangeActivePointerGrab ChangeActivePointerGrab | ||
27718 | XChangeGC ChangeGC | ||
27719 | XChangeKeyboardControl ChangeKeyboardControl | ||
27720 | XChangeKeyboardMapping ChangeKeyboardMapping | ||
27721 | XChangePointerControl ChangePointerControl | ||
27722 | XChangeProperty ChangeProperty | ||
27723 | XChangeSaveSet ChangeSaveSet | ||
27724 | XChangeWindowAttributes ChangeWindowAttributes | ||
27725 | XCirculateSubwindows CirculateWindow | ||
27726 | XCirculateSubwindowsDown CirculateWindow | ||
27727 | XCirculateSubwindowsUp CirculateWindow | ||
27728 | XClearArea ClearArea | ||
27729 | XClearWindow ClearArea | ||
27730 | XConfigureWindow ConfigureWindow | ||
27731 | XConvertSelection ConvertSelection | ||
27732 | XCopyArea CopyArea | ||
27733 | XCopyColormapAndFree CopyColormapAndFree | ||
27734 | XCopyGC CopyGC | ||
27735 | XCopyPlane CopyPlane | ||
27736 | XCreateBitmapFromData CreateGC | ||
27737 | CreatePixmap | ||
27738 | FreeGC | ||
27739 | PutImage | ||
27740 | XCreateColormap CreateColormap | ||
27741 | XCreateFontCursor CreateGlyphCursor | ||
27742 | XCreateGC CreateGC | ||
27743 | XCreateGlyphCursor CreateGlyphCursor | ||
27744 | XCreatePixmap CreatePixmap | ||
27745 | XCreatePixmapCursor CreateCursor | ||
27746 | XCreatePixmapFromData CreateGC | ||
27747 | CreatePixmap | ||
27748 | FreeGC | ||
27749 | PutImage | ||
27750 | XCreateSimpleWindow CreateWindow | ||
27751 | XCreateWindow CreateWindow | ||
27752 | XDefineCursor ChangeWindowAttributes | ||
27753 | XDeleteProperty DeleteProperty | ||
27754 | XDestroySubwindows DestroySubwindows | ||
27755 | XDestroyWindow DestroyWindow | ||
27756 | XDisableAccessControl SetAccessControl | ||
27757 | XDrawArc PolyArc | ||
27758 | XDrawArcs PolyArc | ||
27759 | XDrawImageString ImageText8 | ||
27760 | XDrawImageString16 ImageText16 | ||
27761 | XDrawLine PolySegment | ||
27762 | XDrawLines PolyLine | ||
27763 | XDrawPoint PolyPoint | ||
27764 | XDrawPoints PolyPoint | ||
27765 | XDrawRectangle PolyRectangle | ||
27766 | XDrawRectangles PolyRectangle | ||
27767 | XDrawSegments PolySegment | ||
27768 | XDrawString PolyText8 | ||
27769 | XDrawString16 PolyText16 | ||
27770 | XDrawText PolyText8 | ||
27771 | XDrawText16 PolyText16 | ||
27772 | XEnableAccessControl SetAccessControl | ||
27773 | XFetchBytes GetProperty | ||
27774 | XFetchName GetProperty | ||
27775 | XFillArc PolyFillArc | ||
27776 | XFillArcs PolyFillArc | ||
27777 | XFillPolygon FillPoly | ||
27778 | XFillRectangle PolyFillRectangle | ||
27779 | XFillRectangles PolyFillRectangle | ||
27780 | XForceScreenSaver ForceScreenSaver | ||
27781 | XFreeColormap FreeColormap | ||
27782 | XFreeColors FreeColors | ||
27783 | XFreeCursor FreeCursor | ||
27784 | XFreeFont CloseFont | ||
27785 | XFreeGC FreeGC | ||
27786 | XFreePixmap FreePixmap | ||
27787 | XGetAtomName GetAtomName | ||
27788 | XGetClassHint GetProperty | ||
27789 | XGetFontPath GetFontPath | ||
27790 | XGetGeometry GetGeometry | ||
27791 | XGetIconName GetProperty | ||
27792 | XGetIconSizes GetProperty | ||
27793 | XGetImage GetImage | ||
27794 | XGetInputFocus GetInputFocus | ||
27795 | XGetKeyboardControl GetKeyboardControl | ||
27796 | XGetKeyboardMapping GetKeyboardMapping | ||
27797 | XGetModifierMapping GetModifierMapping | ||
27798 | GetMotionEvents | ||
27799 | XGetNormalHints GetProperty | ||
27800 | XGetPointerControl GetPointerControl | ||
27801 | XGetPointerMapping GetPointerMapping | ||
27802 | XGetRGBColormaps GetProperty | ||
27803 | XGetScreenSaver GetScreenSaver | ||
27804 | XGetSelectionOwner GetSelectionOwner | ||
27805 | XGetSizeHints GetProperty | ||
27806 | XGetTextProperty GetProperty | ||
27807 | XGetTransientForHint GetProperty | ||
27808 | XGetWMClientMachine GetProperty | ||
27809 | XGetWMColormapWindows GetProperty | ||
27810 | InternAtom | ||
27811 | XGetWMHints GetProperty | ||
27812 | XGetWMIconName GetProperty | ||
27813 | XGetWMName GetProperty | ||
27814 | XGetWMNormalHints GetProperty | ||
27815 | XGetWMProtocols GetProperty | ||
27816 | InternAtom | ||
27817 | XGetWMSizeHints GetProperty | ||
27818 | XGetWindowAttributes GetWindowAttributes | ||
27819 | GetGeometry | ||
27820 | XGetWindowProperty GetProperty | ||
27821 | XGetZoomHints GetProperty | ||
27822 | XGrabButton GrabButton | ||
27823 | XGrabKey GrabKey | ||
27824 | XGrabKeyboard GrabKeyboard | ||
27825 | XGrabPointer GrabPointer | ||
27826 | XGrabServer GrabServer | ||
27827 | XIconifyWindow InternAtom | ||
27828 | SendEvent | ||
27829 | XInitExtension QueryExtension | ||
27830 | XInstallColormap InstallColormap | ||
27831 | XInternAtom InternAtom | ||
27832 | XKillClient KillClient | ||
27833 | XListExtensions ListExtensions | ||
27834 | XListFonts ListFonts | ||
27835 | XListFontsWithInfo ListFontsWithInfo | ||
27836 | XListHosts ListHosts | ||
27837 | XListInstalledColormaps ListInstalledColormaps | ||
27838 | XListProperties ListProperties | ||
27839 | XLoadFont OpenFont | ||
27840 | XLoadQueryFont OpenFont | ||
27841 | QueryFont | ||
27842 | XLookupColor LookupColor | ||
27843 | XLowerWindow ConfigureWindow | ||
27844 | XMapRaised ConfigureWindow | ||
27845 | MapWindow | ||
27846 | XMapSubwindows MapSubwindows | ||
27847 | XMapWindow MapWindow | ||
27848 | XMoveResizeWindow ConfigureWindow | ||
27849 | XMoveWindow ConfigureWindow | ||
27850 | XNoOp NoOperation | ||
27851 | XOpenDisplay CreateGC | ||
27852 | XParseColor LookupColor | ||
27853 | XPutImage PutImage | ||
27854 | XQueryBestCursor QueryBestSize | ||
27855 | XQueryBestSize QueryBestSize | ||
27856 | XQueryBestStipple QueryBestSize | ||
27857 | XQueryBestTile QueryBestSize | ||
27858 | XQueryColor QueryColors | ||
27859 | XQueryColors QueryColors | ||
27860 | XQueryExtension QueryExtension | ||
27861 | XQueryFont QueryFont | ||
27862 | XQueryKeymap QueryKeymap | ||
27863 | XQueryPointer QueryPointer | ||
27864 | XQueryTextExtents QueryTextExtents | ||
27865 | XQueryTextExtents16 QueryTextExtents | ||
27866 | XQueryTree QueryTree | ||
27867 | XRaiseWindow ConfigureWindow | ||
27868 | XReadBitmapFile CreateGC | ||
27869 | CreatePixmap | ||
27870 | FreeGC | ||
27871 | PutImage | ||
27872 | XRecolorCursor RecolorCursor | ||
27873 | XReconfigureWMWindow ConfigureWindow | ||
27874 | SendEvent | ||
27875 | XRemoveFromSaveSet ChangeSaveSet | ||
27876 | XRemoveHost ChangeHosts | ||
27877 | XRemoveHosts ChangeHosts | ||
27878 | XReparentWindow ReparentWindow | ||
27879 | XResetScreenSaver ForceScreenSaver | ||
27880 | XResizeWindow ConfigureWindow | ||
27881 | XRestackWindows ConfigureWindow | ||
27882 | XRotateBuffers RotateProperties | ||
27883 | XRotateWindowProperties RotateProperties | ||
27884 | XSelectInput ChangeWindowAttributes | ||
27885 | XSendEvent SendEvent | ||
27886 | XSetAccessControl SetAccessControl | ||
27887 | XSetArcMode ChangeGC | ||
27888 | XSetBackground ChangeGC | ||
27889 | XSetClassHint ChangeProperty | ||
27890 | XSetClipMask ChangeGC | ||
27891 | XSetClipOrigin ChangeGC | ||
27892 | XSetClipRectangles SetClipRectangles | ||
27893 | XSetCloseDownMode SetCloseDownMode | ||
27894 | XSetCommand ChangeProperty | ||
27895 | XSetDashes SetDashes | ||
27896 | XSetFillRule ChangeGC | ||
27897 | XSetFillStyle ChangeGC | ||
27898 | XSetFont ChangeGC | ||
27899 | XSetFontPath SetFontPath | ||
27900 | XSetForeground ChangeGC | ||
27901 | XSetFunction ChangeGC | ||
27902 | XSetGraphicsExposures ChangeGC | ||
27903 | XSetIconName ChangeProperty | ||
27904 | XSetIconSizes ChangeProperty | ||
27905 | XSetInputFocus SetInputFocus | ||
27906 | XSetLineAttributes ChangeGC | ||
27907 | XSetModifierMapping SetModifierMapping | ||
27908 | XSetNormalHints ChangeProperty | ||
27909 | XSetPlaneMask ChangeGC | ||
27910 | XSetPointerMapping SetPointerMapping | ||
27911 | XSetRGBColormaps ChangeProperty | ||
27912 | XSetScreenSaver SetScreenSaver | ||
27913 | XSetSelectionOwner SetSelectionOwner | ||
27914 | XSetSizeHints ChangeProperty | ||
27915 | XSetStandardProperties ChangeProperty | ||
27916 | XSetState ChangeGC | ||
27917 | XSetStipple ChangeGC | ||
27918 | XSetSubwindowMode ChangeGC | ||
27919 | XSetTextProperty ChangeProperty | ||
27920 | XSetTile ChangeGC | ||
27921 | XSetTransientForHint ChangeProperty | ||
27922 | XSetTSOrigin ChangeGC | ||
27923 | XSetWMClientMachine ChangeProperty | ||
27924 | XSetWMColormapWindows ChangeProperty | ||
27925 | InternAtom | ||
27926 | XSetWMHints ChangeProperty | ||
27927 | XSetWMIconName ChangeProperty | ||
27928 | XSetWMName ChangeProperty | ||
27929 | XSetWMNormalHints ChangeProperty | ||
27930 | XSetWMProperties ChangeProperty | ||
27931 | XSetWMProtocols ChangeProperty | ||
27932 | InternAtom | ||
27933 | XSetWMSizeHints ChangeProperty | ||
27934 | XSetWindowBackground ChangeWindowAttributes | ||
27935 | XSetWindowBackgroundPixmap ChangeWindowAttributes | ||
27936 | XSetWindowBorder ChangeWindowAttributes | ||
27937 | XSetWindowBorderPixmap ChangeWindowAttributes | ||
27938 | XSetWindowBorderWidth ConfigureWindow | ||
27939 | XSetWindowColormap ChangeWindowAttributes | ||
27940 | XSetZoomHints ChangeProperty | ||
27941 | XStoreBuffer ChangeProperty | ||
27942 | XStoreBytes ChangeProperty | ||
27943 | XStoreColor StoreColors | ||
27944 | XStoreColors StoreColors | ||
27945 | XStoreName ChangeProperty | ||
27946 | XStoreNamedColor StoreNamedColor | ||
27947 | XSync GetInputFocus | ||
27948 | XSynchronize GetInputFocus | ||
27949 | XTranslateCoordinates TranslateCoordinates | ||
27950 | XUndefineCursor ChangeWindowAttributes | ||
27951 | XUngrabButton UngrabButton | ||
27952 | XUngrabKey UngrabKey | ||
27953 | XUngrabKeyboard UngrabKeyboard | ||
27954 | XUngrabPointer UngrabPointer | ||
27955 | XUngrabServer UngrabServer | ||
27956 | XUninstallColormap UninstallColormap | ||
27957 | XUnloadFont CloseFont | ||
27958 | XUnmapSubwindows UnmapSubwindows | ||
27959 | XUnmapWindow UnmapWindow | ||
27960 | XWarpPointer WarpPointer | ||
27961 | XWithdrawWindow SendEvent | ||
27962 | UnmapWindow | ||
27963 | |||
27964 | The following table lists each X protocol request (in | ||
27965 | alphabetical order) and the Xlib functions that reference it. | ||
27966 | |||
27967 | Table A.2. Xlib functions which use each Protocol Request | ||
27968 | Protocol Request Xlib Function | ||
27969 | AllocColor XAllocColor | ||
27970 | AllocColorCells XAllocColorCells | ||
27971 | AllocColorPlanes XAllocColorPlanes | ||
27972 | AllocNamedColor XAllocNamedColor | ||
27973 | AllowEvents XAllowEvents | ||
27974 | Bell XBell | ||
27975 | ChangeActivePointerGrab XChangeActivePointerGrab | ||
27976 | ChangeGC XChangeGC | ||
27977 | XSetArcMode | ||
27978 | XSetBackground | ||
27979 | XSetClipMask | ||
27980 | XSetClipOrigin | ||
27981 | XSetFillRule | ||
27982 | XSetFillStyle | ||
27983 | XSetFont | ||
27984 | XSetForeground | ||
27985 | XSetFunction | ||
27986 | XSetGraphicsExposures | ||
27987 | XSetLineAttributes | ||
27988 | XSetPlaneMask | ||
27989 | XSetState | ||
27990 | XSetStipple | ||
27991 | XSetSubwindowMode | ||
27992 | XSetTile | ||
27993 | XSetTSOrigin | ||
27994 | ChangeHosts XAddHost | ||
27995 | XAddHosts | ||
27996 | XRemoveHost | ||
27997 | XRemoveHosts | ||
27998 | ChangeKeyboardControl XAutoRepeatOff | ||
27999 | XAutoRepeatOn | ||
28000 | XChangeKeyboardControl | ||
28001 | ChangeKeyboardMapping XChangeKeyboardMapping | ||
28002 | ChangePointerControl XChangePointerControl | ||
28003 | ChangeProperty XChangeProperty | ||
28004 | XSetClassHint | ||
28005 | XSetCommand | ||
28006 | XSetIconName | ||
28007 | XSetIconSizes | ||
28008 | XSetNormalHints | ||
28009 | XSetRGBColormaps | ||
28010 | XSetSizeHints | ||
28011 | XSetStandardProperties | ||
28012 | XSetTextProperty | ||
28013 | XSetTransientForHint | ||
28014 | XSetWMClientMachine | ||
28015 | XSetWMColormapWindows | ||
28016 | XSetWMHints | ||
28017 | XSetWMIconName | ||
28018 | XSetWMName | ||
28019 | XSetWMNormalHints | ||
28020 | XSetWMProperties | ||
28021 | XSetWMProtocols | ||
28022 | XSetWMSizeHints | ||
28023 | XSetZoomHints | ||
28024 | XStoreBuffer | ||
28025 | XStoreBytes | ||
28026 | XStoreName | ||
28027 | ChangeSaveSet XAddToSaveSet | ||
28028 | XChangeSaveSet | ||
28029 | XRemoveFromSaveSet | ||
28030 | ChangeWindowAttributes XChangeWindowAttributes | ||
28031 | XDefineCursor | ||
28032 | XSelectInput | ||
28033 | XSetWindowBackground | ||
28034 | XSetWindowBackgroundPixmap | ||
28035 | XSetWindowBorder | ||
28036 | XSetWindowBorderPixmap | ||
28037 | XSetWindowColormap | ||
28038 | XUndefineCursor | ||
28039 | CirculateWindow XCirculateSubwindowsDown | ||
28040 | XCirculateSubwindowsUp | ||
28041 | XCirculateSubwindows | ||
28042 | ClearArea XClearArea | ||
28043 | XClearWindow | ||
28044 | CloseFont XFreeFont | ||
28045 | XUnloadFont | ||
28046 | ConfigureWindow XConfigureWindow | ||
28047 | XLowerWindow | ||
28048 | XMapRaised | ||
28049 | XMoveResizeWindow | ||
28050 | XMoveWindow | ||
28051 | XRaiseWindow | ||
28052 | XReconfigureWMWindow | ||
28053 | XResizeWindow | ||
28054 | XRestackWindows | ||
28055 | XSetWindowBorderWidth | ||
28056 | ConvertSelection XConvertSelection | ||
28057 | CopyArea XCopyArea | ||
28058 | CopyColormapAndFree XCopyColormapAndFree | ||
28059 | CopyGC XCopyGC | ||
28060 | CopyPlane XCopyPlane | ||
28061 | CreateColormap XCreateColormap | ||
28062 | CreateCursor XCreatePixmapCursor | ||
28063 | CreateGC XCreateGC | ||
28064 | XCreateBitmapFromData | ||
28065 | XCreatePixmapFromData | ||
28066 | XOpenDisplay | ||
28067 | XReadBitmapFile | ||
28068 | CreateGlyphCursor XCreateFontCursor | ||
28069 | XCreateGlyphCursor | ||
28070 | CreatePixmap XCreatePixmap | ||
28071 | XCreateBitmapFromData | ||
28072 | XCreatePixmapFromData | ||
28073 | XReadBitmapFile | ||
28074 | CreateWindow XCreateSimpleWindow | ||
28075 | XCreateWindow | ||
28076 | DeleteProperty XDeleteProperty | ||
28077 | DestroySubwindows XDestroySubwindows | ||
28078 | DestroyWindow XDestroyWindow | ||
28079 | FillPoly XFillPolygon | ||
28080 | ForceScreenSaver XActivateScreenSaver | ||
28081 | XForceScreenSaver | ||
28082 | XResetScreenSaver | ||
28083 | FreeColormap XFreeColormap | ||
28084 | FreeColors XFreeColors | ||
28085 | FreeCursor XFreeCursor | ||
28086 | FreeGC XFreeGC | ||
28087 | XCreateBitmapFromData | ||
28088 | XCreatePixmapFromData | ||
28089 | XReadBitmapFile | ||
28090 | FreePixmap XFreePixmap | ||
28091 | GetAtomName XGetAtomName | ||
28092 | GetFontPath XGetFontPath | ||
28093 | GetGeometry XGetGeometry | ||
28094 | XGetWindowAttributes | ||
28095 | GetImage XGetImage | ||
28096 | GetInputFocus XGetInputFocus | ||
28097 | XSync | ||
28098 | XSynchronize | ||
28099 | GetKeyboardControl XGetKeyboardControl | ||
28100 | GetKeyboardMapping XGetKeyboardMapping | ||
28101 | GetModifierMapping XGetModifierMapping | ||
28102 | GetMotionEvents | ||
28103 | GetPointerControl XGetPointerControl | ||
28104 | GetPointerMapping XGetPointerMapping | ||
28105 | GetProperty XFetchBytes | ||
28106 | XFetchName | ||
28107 | XGetClassHint | ||
28108 | XGetIconName | ||
28109 | XGetIconSizes | ||
28110 | XGetNormalHints | ||
28111 | XGetRGBColormaps | ||
28112 | XGetSizeHints | ||
28113 | XGetTextProperty | ||
28114 | XGetTransientForHint | ||
28115 | XGetWMClientMachine | ||
28116 | XGetWMColormapWindows | ||
28117 | XGetWMHints | ||
28118 | XGetWMIconName | ||
28119 | XGetWMName | ||
28120 | XGetWMNormalHints | ||
28121 | XGetWMProtocols | ||
28122 | XGetWMSizeHints | ||
28123 | XGetWindowProperty | ||
28124 | XGetZoomHints | ||
28125 | GetSelectionOwner XGetSelectionOwner | ||
28126 | GetWindowAttributes XGetWindowAttributes | ||
28127 | GrabButton XGrabButton | ||
28128 | GrabKey XGrabKey | ||
28129 | GrabKeyboard XGrabKeyboard | ||
28130 | GrabPointer XGrabPointer | ||
28131 | GrabServer XGrabServer | ||
28132 | ImageText8 XDrawImageString | ||
28133 | ImageText16 XDrawImageString16 | ||
28134 | InstallColormap XInstallColormap | ||
28135 | InternAtom XGetWMColormapWindows | ||
28136 | XGetWMProtocols | ||
28137 | XIconifyWindow | ||
28138 | XInternAtom | ||
28139 | XSetWMColormapWindows | ||
28140 | XSetWMProtocols | ||
28141 | KillClient XKillClient | ||
28142 | ListExtensions XListExtensions | ||
28143 | ListFonts XListFonts | ||
28144 | ListFontsWithInfo XListFontsWithInfo | ||
28145 | ListHosts XListHosts | ||
28146 | ListInstalledColormaps XListInstalledColormaps | ||
28147 | ListProperties XListProperties | ||
28148 | LookupColor XLookupColor | ||
28149 | XParseColor | ||
28150 | MapSubwindows XMapSubwindows | ||
28151 | MapWindow XMapRaised | ||
28152 | XMapWindow | ||
28153 | NoOperation XNoOp | ||
28154 | OpenFont XLoadFont | ||
28155 | XLoadQueryFont | ||
28156 | PolyArc XDrawArc | ||
28157 | XDrawArcs | ||
28158 | PolyFillArc XFillArc | ||
28159 | XFillArcs | ||
28160 | PolyFillRectangle XFillRectangle | ||
28161 | XFillRectangles | ||
28162 | PolyLine XDrawLines | ||
28163 | PolyPoint XDrawPoint | ||
28164 | XDrawPoints | ||
28165 | PolyRectangle XDrawRectangle | ||
28166 | XDrawRectangles | ||
28167 | PolySegment XDrawLine | ||
28168 | XDrawSegments | ||
28169 | PolyText8 XDrawString | ||
28170 | XDrawText | ||
28171 | PolyText16 XDrawString16 | ||
28172 | XDrawText16 | ||
28173 | PutImage XPutImage | ||
28174 | XCreateBitmapFromData | ||
28175 | XCreatePixmapFromData | ||
28176 | XReadBitmapFile | ||
28177 | QueryBestSize XQueryBestCursor | ||
28178 | XQueryBestSize | ||
28179 | XQueryBestStipple | ||
28180 | XQueryBestTile | ||
28181 | QueryColors XQueryColor | ||
28182 | XQueryColors | ||
28183 | QueryExtension XInitExtension | ||
28184 | XQueryExtension | ||
28185 | QueryFont XLoadQueryFont | ||
28186 | XQueryFont | ||
28187 | QueryKeymap XQueryKeymap | ||
28188 | QueryPointer XQueryPointer | ||
28189 | QueryTextExtents XQueryTextExtents | ||
28190 | XQueryTextExtents16 | ||
28191 | QueryTree XQueryTree | ||
28192 | RecolorCursor XRecolorCursor | ||
28193 | ReparentWindow XReparentWindow | ||
28194 | RotateProperties XRotateBuffers | ||
28195 | XRotateWindowProperties | ||
28196 | SendEvent XIconifyWindow | ||
28197 | XReconfigureWMWindow | ||
28198 | XSendEvent | ||
28199 | XWithdrawWindow | ||
28200 | SetAccessControl XDisableAccessControl | ||
28201 | XEnableAccessControl | ||
28202 | XSetAccessControl | ||
28203 | SetClipRectangles XSetClipRectangles | ||
28204 | SetCloseDownMode XSetCloseDownMode | ||
28205 | SetDashes XSetDashes | ||
28206 | SetFontPath XSetFontPath | ||
28207 | SetInputFocus XSetInputFocus | ||
28208 | SetModifierMapping XSetModifierMapping | ||
28209 | SetPointerMapping XSetPointerMapping | ||
28210 | SetScreenSaver XGetScreenSaver | ||
28211 | XSetScreenSaver | ||
28212 | SetSelectionOwner XSetSelectionOwner | ||
28213 | StoreColors XStoreColor | ||
28214 | XStoreColors | ||
28215 | StoreNamedColor XStoreNamedColor | ||
28216 | TranslateCoordinates XTranslateCoordinates | ||
28217 | UngrabButton XUngrabButton | ||
28218 | UngrabKey XUngrabKey | ||
28219 | UngrabKeyboard XUngrabKeyboard | ||
28220 | UngrabPointer XUngrabPointer | ||
28221 | UngrabServer XUngrabServer | ||
28222 | UninstallColormap XUninstallColormap | ||
28223 | UnmapSubwindows XUnmapSubWindows | ||
28224 | UnmapWindow XUnmapWindow | ||
28225 | XWithdrawWindow | ||
28226 | WarpPointer XWarpPointer | ||
28227 | |||
28228 | Appendix B. X Font Cursors | ||
28229 | |||
28230 | The following are the available cursors that can be used with | ||
28231 | XCreateFontCursor. | ||
28232 | #define XC_X_cursor 0 #define XC_ll_angle 76 | ||
28233 | #define XC_arrow 2 #define XC_lr_angle 78 | ||
28234 | #define XC_based_arrow_down 4 #define XC_man 80 | ||
28235 | #define XC_based_arrow_up 6 #define XC_middlebutton 82 | ||
28236 | #define XC_boat 8 #define XC_mouse 84 | ||
28237 | #define XC_bogosity 10 #define XC_pencil 86 | ||
28238 | #define XC_bottom_left_corner 12 #define XC_pirate 88 | ||
28239 | #define XC_bottom_right_corner 14 #define XC_plus 90 | ||
28240 | #define XC_bottom_side 16 #define XC_question_arrow 92 | ||
28241 | #define XC_bottom_tee 18 #define XC_right_ptr 94 | ||
28242 | #define XC_box_spiral 20 #define XC_right_side 96 | ||
28243 | #define XC_center_ptr 22 #define XC_right_tee 98 | ||
28244 | #define XC_circle 24 #define XC_rightbutton 100 | ||
28245 | #define XC_clock 26 #define XC_rtl_logo 102 | ||
28246 | #define XC_coffee_mug 28 #define XC_sailboat 104 | ||
28247 | #define XC_cross 30 #define XC_sb_down_arrow 106 | ||
28248 | #define XC_cross_reverse 32 #define XC_sb_h_double_arrow 1 | ||
28249 | 08 | ||
28250 | #define XC_crosshair 34 #define XC_sb_left_arrow 110 | ||
28251 | #define XC_diamond_cross 36 #define XC_sb_right_arrow 112 | ||
28252 | #define XC_dot 38 #define XC_sb_up_arrow 114 | ||
28253 | #define XC_dot_box_mask 40 #define XC_sb_v_double_arrow 1 | ||
28254 | 16 | ||
28255 | #define XC_double_arrow 42 #define XC_shuttle 118 | ||
28256 | #define XC_draft_large 44 #define XC_sizing 120 | ||
28257 | #define XC_draft_small 46 #define XC_spider 122 | ||
28258 | #define XC_draped_box 48 #define XC_spraycan 124 | ||
28259 | #define XC_exchange 50 #define XC_star 126 | ||
28260 | #define XC_fleur 52 #define XC_target 128 | ||
28261 | #define XC_gobbler 54 #define XC_tcross 130 | ||
28262 | #define XC_gumby 56 #define XC_top_left_arrow 132 | ||
28263 | #define XC_hand1 58 #define XC_top_left_corner 134 | ||
28264 | #define XC_hand2 60 #define XC_top_right_corner 13 | ||
28265 | 6 | ||
28266 | #define XC_heart 62 #define XC_top_side 138 | ||
28267 | #define XC_icon 64 #define XC_top_tee 140 | ||
28268 | #define XC_iron_cross 66 #define XC_trek 142 | ||
28269 | #define XC_left_ptr 68 #define XC_ul_angle 144 | ||
28270 | #define XC_left_side 70 #define XC_umbrella 146 | ||
28271 | #define XC_left_tee 72 #define XC_ur_angle 148 | ||
28272 | #define XC_leftbutton 74 #define XC_watch 150 | ||
28273 | #define XC_xterm 152 | ||
28274 | |||
28275 | Appendix C. Extensions | ||
28276 | |||
28277 | Table of Contents | ||
28278 | |||
28279 | Basic Protocol Support Routines | ||
28280 | Hooking into Xlib | ||
28281 | |||
28282 | Hooks into the Library | ||
28283 | Hooks onto Xlib Data Structures | ||
28284 | |||
28285 | GC Caching | ||
28286 | Graphics Batching | ||
28287 | Writing Extension Stubs | ||
28288 | |||
28289 | Requests, Replies, and Xproto.h | ||
28290 | Request Format | ||
28291 | Starting to Write a Stub Procedure | ||
28292 | Locking Data Structures | ||
28293 | Sending the Protocol Request and Arguments | ||
28294 | Variable Length Arguments | ||
28295 | Replies | ||
28296 | Synchronous Calling | ||
28297 | Allocating and Deallocating Memory | ||
28298 | Portability Considerations | ||
28299 | Deriving the Correct Extension Opcode | ||
28300 | |||
28301 | Because X can evolve by extensions to the core protocol, it is | ||
28302 | important that extensions not be perceived as second-class | ||
28303 | citizens. At some point, your favorite extensions may be | ||
28304 | adopted as additional parts of the X Standard. | ||
28305 | |||
28306 | Therefore, there should be little to distinguish the use of an | ||
28307 | extension from that of the core protocol. To avoid having to | ||
28308 | initialize extensions explicitly in application programs, it is | ||
28309 | also important that extensions perform lazy evaluations, | ||
28310 | automatically initializing themselves when called for the first | ||
28311 | time. | ||
28312 | |||
28313 | This appendix describes techniques for writing extensions to | ||
28314 | Xlib that will run at essentially the same performance as the | ||
28315 | core protocol requests. | ||
28316 | |||
28317 | Note | ||
28318 | |||
28319 | It is expected that a given extension to X consists of multiple | ||
28320 | requests. Defining 10 new features as 10 separate extensions is | ||
28321 | a bad practice. Rather, they should be packaged into a single | ||
28322 | extension and should use minor opcodes to distinguish the | ||
28323 | requests. | ||
28324 | |||
28325 | The symbols and macros used for writing stubs to Xlib are | ||
28326 | listed in <X11/Xlibint.h>. | ||
28327 | |||
28328 | Basic Protocol Support Routines | ||
28329 | |||
28330 | The basic protocol requests for extensions are XQueryExtension | ||
28331 | and XListExtensions. | ||
28332 | |||
28333 | Bool XQueryExtension(Display *display, char *name, int | ||
28334 | *major_opcode_return, int *first_event_return, int | ||
28335 | *first_error_return); | ||
28336 | |||
28337 | display | ||
28338 | |||
28339 | Specifies the connection to the X server. | ||
28340 | |||
28341 | name | ||
28342 | |||
28343 | Specifies the extension name. | ||
28344 | |||
28345 | major_opcode_return | ||
28346 | |||
28347 | Returns the major opcode. | ||
28348 | |||
28349 | first_event_return | ||
28350 | |||
28351 | Returns the first event code, if any. | ||
28352 | |||
28353 | first_error_return | ||
28354 | |||
28355 | Returns the first error code, if any. | ||
28356 | |||
28357 | The XQueryExtension function determines if the named extension | ||
28358 | is present. If the extension is not present, XQueryExtension | ||
28359 | returns False; otherwise, it returns True. If the extension is | ||
28360 | present, XQueryExtension returns the major opcode for the | ||
28361 | extension to major_opcode_return; otherwise, it returns zero. | ||
28362 | Any minor opcode and the request formats are specific to the | ||
28363 | extension. If the extension involves additional event types, | ||
28364 | XQueryExtension returns the base event type code to | ||
28365 | first_event_return; otherwise, it returns zero. The format of | ||
28366 | the events is specific to the extension. If the extension | ||
28367 | involves additional error codes, XQueryExtension returns the | ||
28368 | base error code to first_error_return; otherwise, it returns | ||
28369 | zero. The format of additional data in the errors is specific | ||
28370 | to the extension. | ||
28371 | |||
28372 | If the extension name is not in the Host Portable Character | ||
28373 | Encoding the result is implementation-dependent. Uppercase and | ||
28374 | lowercase matter; the strings ``thing'', ``Thing'', and | ||
28375 | ``thinG'' are all considered different names. | ||
28376 | |||
28377 | char **XListExtensions(Display *display, int | ||
28378 | *nextensions_return); | ||
28379 | |||
28380 | display | ||
28381 | |||
28382 | Specifies the connection to the X server. | ||
28383 | |||
28384 | nextensions_return | ||
28385 | |||
28386 | Returns the number of extensions listed. | ||
28387 | |||
28388 | The XListExtensions function returns a list of all extensions | ||
28389 | supported by the server. If the data returned by the server is | ||
28390 | in the Latin Portable Character Encoding, then the returned | ||
28391 | strings are in the Host Portable Character Encoding. Otherwise, | ||
28392 | the result is implementation-dependent. | ||
28393 | |||
28394 | XFreeExtensionList(char **list); | ||
28395 | |||
28396 | list | ||
28397 | |||
28398 | Specifies the list of extension names. | ||
28399 | |||
28400 | The XFreeExtensionList function frees the memory allocated by | ||
28401 | XListExtensions. | ||
28402 | |||
28403 | Hooking into Xlib | ||
28404 | |||
28405 | These functions allow you to hook into the library. They are | ||
28406 | not normally used by application programmers but are used by | ||
28407 | people who need to extend the core X protocol and the X library | ||
28408 | interface. The functions, which generate protocol requests for | ||
28409 | X, are typically called stubs. | ||
28410 | |||
28411 | In extensions, stubs first should check to see if they have | ||
28412 | initialized themselves on a connection. If they have not, they | ||
28413 | then should call XInitExtension to attempt to initialize | ||
28414 | themselves on the connection. | ||
28415 | |||
28416 | If the extension needs to be informed of GC/font allocation or | ||
28417 | deallocation or if the extension defines new event types, the | ||
28418 | functions described here allow the extension to be called when | ||
28419 | these events occur. | ||
28420 | |||
28421 | The XExtCodes structure returns the information from | ||
28422 | XInitExtension and is defined in <X11/Xlib.h>: | ||
28423 | |||
28424 | typedef struct _XExtCodes { /* public to extension, cannot be change | ||
28425 | d */ | ||
28426 | int extension; /* extension number */ | ||
28427 | int major_opcode; /* major op-code assigned by server */ | ||
28428 | int first_event; /* first event number for the extension | ||
28429 | */ | ||
28430 | int first_error; /* first error number for the extension | ||
28431 | */ | ||
28432 | } XExtCodes; | ||
28433 | |||
28434 | XExtCodes *XInitExtension(Display *display, char *name); | ||
28435 | |||
28436 | display | ||
28437 | |||
28438 | Specifies the connection to the X server. | ||
28439 | |||
28440 | name | ||
28441 | |||
28442 | Specifies the extension name. | ||
28443 | |||
28444 | The XInitExtension function determines if the named extension | ||
28445 | exists. Then, it allocates storage for maintaining the | ||
28446 | information about the extension on the connection, chains this | ||
28447 | onto the extension list for the connection, and returns the | ||
28448 | information the stub implementor will need to access the | ||
28449 | extension. If the extension does not exist, XInitExtension | ||
28450 | returns NULL. | ||
28451 | |||
28452 | If the extension name is not in the Host Portable Character | ||
28453 | Encoding, the result is implementation-dependent. Uppercase and | ||
28454 | lowercase matter; the strings ``thing'', ``Thing'', and | ||
28455 | ``thinG'' are all considered different names. | ||
28456 | |||
28457 | The extension number in the XExtCodes structure is needed in | ||
28458 | the other calls that follow. This extension number is unique | ||
28459 | only to a single connection. | ||
28460 | |||
28461 | XExtCodes *XAddExtension(Display *display); | ||
28462 | |||
28463 | display | ||
28464 | |||
28465 | Specifies the connection to the X server. | ||
28466 | |||
28467 | For local Xlib extensions, the XAddExtension function allocates | ||
28468 | the XExtCodes structure, bumps the extension number count, and | ||
28469 | chains the extension onto the extension list. (This permits | ||
28470 | extensions to Xlib without requiring server extensions.) | ||
28471 | |||
28472 | Hooks into the Library | ||
28473 | |||
28474 | These functions allow you to define procedures that are to be | ||
28475 | called when various circumstances occur. The procedures include | ||
28476 | the creation of a new GC for a connection, the copying of a GC, | ||
28477 | the freeing of a GC, the creating and freeing of fonts, the | ||
28478 | conversion of events defined by extensions to and from wire | ||
28479 | format, and the handling of errors. | ||
28480 | |||
28481 | All of these functions return the previous procedure defined | ||
28482 | for this extension. | ||
28483 | |||
28484 | int XESetCloseDisplay(Display *display, int extension, int | ||
28485 | (*proc)()); | ||
28486 | |||
28487 | display | ||
28488 | |||
28489 | Specifies the connection to the X server. | ||
28490 | |||
28491 | extension | ||
28492 | |||
28493 | Specifies the extension number. | ||
28494 | |||
28495 | proc | ||
28496 | |||
28497 | Specifies the procedure to call when the display is closed. | ||
28498 | |||
28499 | The XESetCloseDisplay function defines a procedure to be called | ||
28500 | whenever XCloseDisplay is called. It returns any previously | ||
28501 | defined procedure, usually NULL. | ||
28502 | |||
28503 | When XCloseDisplay is called, your procedure is called with | ||
28504 | these arguments: | ||
28505 | |||
28506 | int (*proc)(Display *display, XExtCodes *codes); | ||
28507 | |||
28508 | int *XESetCreateGC(Display *display, int extension, int | ||
28509 | (*proc)()); | ||
28510 | |||
28511 | display | ||
28512 | |||
28513 | Specifies the connection to the X server. | ||
28514 | |||
28515 | extension | ||
28516 | |||
28517 | Specifies the extension number. | ||
28518 | |||
28519 | proc | ||
28520 | |||
28521 | Specifies the procedure to call when a GC is closed. | ||
28522 | |||
28523 | The XESetCreateGC function defines a procedure to be called | ||
28524 | whenever a new GC is created. It returns any previously defined | ||
28525 | procedure, usually NULL. | ||
28526 | |||
28527 | When a GC is created, your procedure is called with these | ||
28528 | arguments: | ||
28529 | |||
28530 | int (*proc)(Display *display, GC gc, XExtCodes *codes); | ||
28531 | |||
28532 | int *XESetCopyGC(Display *display, int extension, int | ||
28533 | (*proc)()); | ||
28534 | |||
28535 | display | ||
28536 | |||
28537 | Specifies the connection to the X server. | ||
28538 | |||
28539 | extension | ||
28540 | |||
28541 | Specifies the extension number. | ||
28542 | |||
28543 | proc | ||
28544 | |||
28545 | Specifies the procedure to call when GC components are copied. | ||
28546 | |||
28547 | The XESetCopyGC function defines a procedure to be called | ||
28548 | whenever a GC is copied. It returns any previously defined | ||
28549 | procedure, usually NULL. | ||
28550 | |||
28551 | When a GC is copied, your procedure is called with these | ||
28552 | arguments: | ||
28553 | |||
28554 | int (*proc)(Display *display, GC gc, XExtCodes *codes); | ||
28555 | |||
28556 | int *XESetFreeGC(Display *display, int extension, int | ||
28557 | (*proc)()); | ||
28558 | |||
28559 | display | ||
28560 | |||
28561 | Specifies the connection to the X server. | ||
28562 | |||
28563 | extension | ||
28564 | |||
28565 | Specifies the extension number. | ||
28566 | |||
28567 | proc | ||
28568 | |||
28569 | Specifies the procedure to call when a GC is freed. | ||
28570 | |||
28571 | The XESetFreeGC function defines a procedure to be called | ||
28572 | whenever a GC is freed. It returns any previously defined | ||
28573 | procedure, usually NULL. | ||
28574 | |||
28575 | When a GC is freed, your procedure is called with these | ||
28576 | arguments: | ||
28577 | |||
28578 | int (*proc)(Display *display, GC gc, XExtCodes *codes); | ||
28579 | |||
28580 | int *XESetCreateFont(Display *display, int extension, int | ||
28581 | (*proc)()); | ||
28582 | |||
28583 | display | ||
28584 | |||
28585 | Specifies the connection to the X server. | ||
28586 | |||
28587 | extension | ||
28588 | |||
28589 | Specifies the extension number. | ||
28590 | |||
28591 | proc | ||
28592 | |||
28593 | Specifies the procedure to call when a font is created. | ||
28594 | |||
28595 | The XESetCreateFont function defines a procedure to be called | ||
28596 | whenever XLoadQueryFont and XQueryFont are called. It returns | ||
28597 | any previously defined procedure, usually NULL. | ||
28598 | |||
28599 | When XLoadQueryFont or XQueryFont is called, your procedure is | ||
28600 | called with these arguments: | ||
28601 | |||
28602 | int (*proc)(Display *display, XFontStruct *fs, XExtCodes | ||
28603 | *codes); | ||
28604 | |||
28605 | int *XESetFreeFont(Display *display, int extension, int | ||
28606 | (*proc)()); | ||
28607 | |||
28608 | display | ||
28609 | |||
28610 | Specifies the connection to the X server. | ||
28611 | |||
28612 | extension | ||
28613 | |||
28614 | Specifies the extension number. | ||
28615 | |||
28616 | proc | ||
28617 | |||
28618 | Specifies the procedure to call when a font is freed. | ||
28619 | |||
28620 | The XESetFreeFont function defines a procedure to be called | ||
28621 | whenever XFreeFont is called. It returns any previously defined | ||
28622 | procedure, usually NULL. | ||
28623 | |||
28624 | When XFreeFont is called, your procedure is called with these | ||
28625 | arguments: | ||
28626 | |||
28627 | int (*proc)(Display *display, XFontStruct *fs, XExtCodes | ||
28628 | *codes); | ||
28629 | |||
28630 | The XESetWireToEvent and XESetEventToWire functions allow you | ||
28631 | to define new events to the library. An XEvent structure always | ||
28632 | has a type code (type int) as the first component. This | ||
28633 | uniquely identifies what kind of event it is. The second | ||
28634 | component is always the serial number (type unsigned long) of | ||
28635 | the last request processed by the server. The third component | ||
28636 | is always a Boolean (type Bool) indicating whether the event | ||
28637 | came from a SendEvent protocol request. The fourth component is | ||
28638 | always a pointer to the display the event was read from. The | ||
28639 | fifth component is always a resource ID of one kind or another, | ||
28640 | usually a window, carefully selected to be useful to toolkit | ||
28641 | dispatchers. The fifth component should always exist, even if | ||
28642 | the event does not have a natural destination; if there is no | ||
28643 | value from the protocol to put in this component, initialize it | ||
28644 | to zero. There is an implementation limit such that your host | ||
28645 | event structure size cannot be bigger than the size of the | ||
28646 | XEvent union of structures. There also is no way to guarantee | ||
28647 | that more than 24 elements or 96 characters in the structure | ||
28648 | will be fully portable between machines. | ||
28649 | |||
28650 | int *XESetWireToEvent(Display *display, int event_number, | ||
28651 | Status (*proc)()); | ||
28652 | |||
28653 | display | ||
28654 | |||
28655 | Specifies the connection to the X server. | ||
28656 | |||
28657 | event_number | ||
28658 | |||
28659 | Specifies the event code. | ||
28660 | |||
28661 | proc | ||
28662 | |||
28663 | Specifies the procedure to call when converting an event. | ||
28664 | |||
28665 | The XESetWireToEvent function defines a procedure to be called | ||
28666 | when an event needs to be converted from wire format (xEvent) | ||
28667 | to host format (XEvent). The event number defines which | ||
28668 | protocol event number to install a conversion procedure for. | ||
28669 | XESetWireToEvent returns any previously defined procedure. You | ||
28670 | can replace a core event conversion function with one of your | ||
28671 | own, although this is not encouraged. It would, however, allow | ||
28672 | you to intercept a core event and modify it before being placed | ||
28673 | in the queue or otherwise examined. When Xlib needs to convert | ||
28674 | an event from wire format to host format, your procedure is | ||
28675 | called with these arguments: | ||
28676 | |||
28677 | int (*proc)(Display *display, XEvent *re, xEvent *event); | ||
28678 | |||
28679 | Your procedure must return status to indicate if the conversion | ||
28680 | succeeded. The re argument is a pointer to where the host | ||
28681 | format event should be stored, and the event argument is the | ||
28682 | 32-byte wire event structure. In the XEvent structure you are | ||
28683 | creating, you must fill in the five required members of the | ||
28684 | event structure. You should fill in the type member with the | ||
28685 | type specified for the xEvent structure. You should copy all | ||
28686 | other members from the xEvent structure (wire format) to the | ||
28687 | XEvent structure (host format). Your conversion procedure | ||
28688 | should return True if the event should be placed in the queue | ||
28689 | or False if it should not be placed in the queue. | ||
28690 | |||
28691 | To initialize the serial number component of the event, call | ||
28692 | _XSetLastRequestRead with the event and use the return value. | ||
28693 | |||
28694 | unsigned long_XSetLastRequestRead(Display *display, | ||
28695 | xGenericReply *rep); | ||
28696 | |||
28697 | display | ||
28698 | |||
28699 | Specifies the connection to the X server. | ||
28700 | |||
28701 | rep | ||
28702 | |||
28703 | Specifies the wire event structure. | ||
28704 | |||
28705 | The _XSetLastRequestRead function computes and returns a | ||
28706 | complete serial number from the partial serial number in the | ||
28707 | event. | ||
28708 | |||
28709 | Status *XESetEventToWire(Display *display, int event_number, | ||
28710 | int (*proc)()); | ||
28711 | |||
28712 | display | ||
28713 | |||
28714 | Specifies the connection to the X server. | ||
28715 | |||
28716 | event_number | ||
28717 | |||
28718 | Specifies the event code. | ||
28719 | |||
28720 | proc | ||
28721 | |||
28722 | Specifies the procedure to call when converting an event. | ||
28723 | |||
28724 | The XESetEventToWire function defines a procedure to be called | ||
28725 | when an event needs to be converted from host format (XEvent) | ||
28726 | to wire format (xEvent) form. The event number defines which | ||
28727 | protocol event number to install a conversion procedure for. | ||
28728 | XESetEventToWire returns any previously defined procedure. It | ||
28729 | returns zero if the conversion fails or nonzero otherwise. You | ||
28730 | can replace a core event conversion function with one of your | ||
28731 | own, although this is not encouraged. It would, however, allow | ||
28732 | you to intercept a core event and modify it before being sent | ||
28733 | to another client. When Xlib needs to convert an event from | ||
28734 | host format to wire format, your procedure is called with these | ||
28735 | arguments: | ||
28736 | |||
28737 | int (*proc)(Display *display, XEvent *re, xEvent *event); | ||
28738 | |||
28739 | The re argument is a pointer to the host format event, and the | ||
28740 | event argument is a pointer to where the 32-byte wire event | ||
28741 | structure should be stored. You should fill in the type with | ||
28742 | the type from the XEvent structure. All other members then | ||
28743 | should be copied from the host format to the xEvent structure. | ||
28744 | |||
28745 | Bool *XESetWireToError(Display *display, int error_number, Bool | ||
28746 | (*proc)()); | ||
28747 | |||
28748 | display | ||
28749 | |||
28750 | Specifies the connection to the X server. | ||
28751 | |||
28752 | error_number | ||
28753 | |||
28754 | Specifies the error code. | ||
28755 | |||
28756 | proc | ||
28757 | |||
28758 | Specifies the procedure to call when an error is received. | ||
28759 | |||
28760 | The XESetWireToError function defines a procedure to be called | ||
28761 | when an extension error needs to be converted from wire format | ||
28762 | to host format. The error number defines which protocol error | ||
28763 | code to install the conversion procedure for. XESetWireToError | ||
28764 | returns any previously defined procedure. | ||
28765 | |||
28766 | Use this function for extension errors that contain additional | ||
28767 | error values beyond those in a core X error, when multiple wire | ||
28768 | errors must be combined into a single Xlib error, or when it is | ||
28769 | necessary to intercept an X error before it is otherwise | ||
28770 | examined. | ||
28771 | |||
28772 | When Xlib needs to convert an error from wire format to host | ||
28773 | format, the procedure is called with these arguments: | ||
28774 | |||
28775 | int (*proc)(Display *display, XErrorEvent *he, xError *we); | ||
28776 | |||
28777 | The he argument is a pointer to where the host format error | ||
28778 | should be stored. The structure pointed at by he is guaranteed | ||
28779 | to be as large as an XEvent structure and so can be cast to a | ||
28780 | type larger than an XErrorEvent to store additional values. If | ||
28781 | the error is to be completely ignored by Xlib (for example, | ||
28782 | several protocol error structures will be combined into one | ||
28783 | Xlib error), then the function should return False; otherwise, | ||
28784 | it should return True. | ||
28785 | |||
28786 | int *XESetError(Display *display, int extension, int | ||
28787 | (*proc)()); | ||
28788 | |||
28789 | display | ||
28790 | |||
28791 | Specifies the connection to the X server. | ||
28792 | |||
28793 | extension | ||
28794 | |||
28795 | Specifies the extension number. | ||
28796 | |||
28797 | proc | ||
28798 | |||
28799 | Specifies the procedure to call when an error is received. | ||
28800 | |||
28801 | Inside Xlib, there are times that you may want to suppress the | ||
28802 | calling of the external error handling when an error occurs. | ||
28803 | This allows status to be returned on a call at the cost of the | ||
28804 | call being synchronous (though most such functions are query | ||
28805 | operations, in any case, and are typically programmed to be | ||
28806 | synchronous). | ||
28807 | |||
28808 | When Xlib detects a protocol error in _XReply, it calls your | ||
28809 | procedure with these arguments: | ||
28810 | |||
28811 | int (*proc)(Display *display, xError *err, XExtCodes *codes, | ||
28812 | int *ret_code); | ||
28813 | |||
28814 | The err argument is a pointer to the 32-byte wire format error. | ||
28815 | The codes argument is a pointer to the extension codes | ||
28816 | structure. The ret_code argument is the return code you may | ||
28817 | want _XReply returned to. | ||
28818 | |||
28819 | If your procedure returns a zero value, the error is not | ||
28820 | suppressed, and the client's error handler is called. (For | ||
28821 | further information, see section 11.8.2.) If your procedure | ||
28822 | returns nonzero, the error is suppressed, and _XReply returns | ||
28823 | the value of ret_code. | ||
28824 | |||
28825 | char *XESetErrorString(Display *display, int extension, char | ||
28826 | *(*proc)()); | ||
28827 | |||
28828 | display | ||
28829 | |||
28830 | Specifies the connection to the X server. | ||
28831 | |||
28832 | extension | ||
28833 | |||
28834 | Specifies the extension number. | ||
28835 | |||
28836 | proc | ||
28837 | |||
28838 | Specifies the procedure to call to obtain an error string. | ||
28839 | |||
28840 | The XGetErrorText function returns a string to the user for an | ||
28841 | error. XESetErrorString allows you to define a procedure to be | ||
28842 | called that should return a pointer to the error message. The | ||
28843 | following is an example. | ||
28844 | |||
28845 | int (*proc)(Display *display, int code, XExtCodes *codes, char | ||
28846 | *buffer, int nbytes); | ||
28847 | |||
28848 | Your procedure is called with the error code for every error | ||
28849 | detected. You should copy nbytes of a null-terminated string | ||
28850 | containing the error message into buffer. | ||
28851 | |||
28852 | void *XESetPrintErrorValues(Display *display, int extension, | ||
28853 | void (*proc)()); | ||
28854 | |||
28855 | display | ||
28856 | |||
28857 | Specifies the connection to the X server. | ||
28858 | |||
28859 | extension | ||
28860 | |||
28861 | Specifies the extension number. | ||
28862 | |||
28863 | proc | ||
28864 | |||
28865 | Specifies the procedure to call when an error is printed. | ||
28866 | |||
28867 | The XESetPrintErrorValues function defines a procedure to be | ||
28868 | called when an extension error is printed, to print the error | ||
28869 | values. Use this function for extension errors that contain | ||
28870 | additional error values beyond those in a core X error. It | ||
28871 | returns any previously defined procedure. | ||
28872 | |||
28873 | When Xlib needs to print an error, the procedure is called with | ||
28874 | these arguments: | ||
28875 | |||
28876 | void (*proc)(Display *display, XErrorEvent *ev, void *fp); | ||
28877 | |||
28878 | The structure pointed at by ev is guaranteed to be as large as | ||
28879 | an XEvent structure and so can be cast to a type larger than an | ||
28880 | XErrorEvent to obtain additional values set by using | ||
28881 | XESetWireToError. The underlying type of the fp argument is | ||
28882 | system dependent; on a POSIX-compliant system, fp should be | ||
28883 | cast to type FILE*. | ||
28884 | |||
28885 | int *XESetFlushGC(Display *display, int extension, int | ||
28886 | *(*proc)()); | ||
28887 | |||
28888 | display | ||
28889 | |||
28890 | Specifies the connection to the X server. | ||
28891 | |||
28892 | extension | ||
28893 | |||
28894 | Specifies the extension number. | ||
28895 | |||
28896 | proc | ||
28897 | |||
28898 | Specifies the procedure to call when a GC is flushed. | ||
28899 | |||
28900 | The procedure set by the XESetFlushGC function has the same | ||
28901 | interface as the procedure set by the XESetCopyGC function, but | ||
28902 | is called when a GC cache needs to be updated in the server. | ||
28903 | |||
28904 | int *XESetCopyGC(Display *display, int extension, int | ||
28905 | *(*proc)()); | ||
28906 | |||
28907 | display | ||
28908 | |||
28909 | Specifies the connection to the X server. | ||
28910 | |||
28911 | extension | ||
28912 | |||
28913 | Specifies the extension number. | ||
28914 | |||
28915 | proc | ||
28916 | |||
28917 | Specifies the procedure to call when a buffer is flushed. | ||
28918 | |||
28919 | The XESetBeforeFlush function defines a procedure to be called | ||
28920 | when data is about to be sent to the server. When data is about | ||
28921 | to be sent, your procedure is called one or more times with | ||
28922 | these arguments: | ||
28923 | |||
28924 | void (*proc)(Display *display, XExtCodes *codes, char *data, | ||
28925 | long len); | ||
28926 | |||
28927 | The data argument specifies a portion of the outgoing data | ||
28928 | buffer, and its length in bytes is specified by the len | ||
28929 | argument. Your procedure must not alter the contents of the | ||
28930 | data and must not do additional protocol requests to the same | ||
28931 | display. | ||
28932 | |||
28933 | Hooks onto Xlib Data Structures | ||
28934 | |||
28935 | Various Xlib data structures have provisions for extension | ||
28936 | procedures to chain extension supplied data onto a list. These | ||
28937 | structures are GC, Visual, Screen, ScreenFormat, Display, and | ||
28938 | XFontStruct. Because the list pointer is always the first | ||
28939 | member in the structure, a single set of procedures can be used | ||
28940 | to manipulate the data on these lists. | ||
28941 | |||
28942 | The following structure is used in the functions in this | ||
28943 | section and is defined in <X11/Xlib.h> | ||
28944 | |||
28945 | typedef struct _XExtData { | ||
28946 | int number; /* number returned by XInitExtension */ | ||
28947 | struct _XExtData *next; /* next item on list of data for structu | ||
28948 | re */ | ||
28949 | int (*free_private)(); /* if defined, called to free private * | ||
28950 | / | ||
28951 | XPointer private_data; /* data private to this extension. */ | ||
28952 | } XExtData; | ||
28953 | |||
28954 | When any of the data structures listed above are freed, the | ||
28955 | list is walked, and the structure's free procedure (if any) is | ||
28956 | called. If free is NULL, then the library frees both the data | ||
28957 | pointed to by the private_data member and the structure itself. | ||
28958 | |||
28959 | union { Display *display; | ||
28960 | GC gc; | ||
28961 | Visual *visual; | ||
28962 | Screen *screen; | ||
28963 | ScreenFormat *pixmap_format; | ||
28964 | XFontStruct *font } XEDataObject; | ||
28965 | |||
28966 | XExtData **XEHeadOfExtensionList(XEDataObject object); | ||
28967 | |||
28968 | object | ||
28969 | |||
28970 | Specifies the object. | ||
28971 | |||
28972 | The XEHeadOfExtensionList function returns a pointer to the | ||
28973 | list of extension structures attached to the specified object. | ||
28974 | In concert with XAddToExtensionList, XEHeadOfExtensionList | ||
28975 | allows an extension to attach arbitrary data to any of the | ||
28976 | structures of types contained in XEDataObject. | ||
28977 | |||
28978 | XAddToExtensionList(XExtData **structure, XExtData *ext_data); | ||
28979 | |||
28980 | structure | ||
28981 | |||
28982 | Specifies the extension list. | ||
28983 | |||
28984 | ext_data | ||
28985 | |||
28986 | Specifies the extension data structure to add. | ||
28987 | |||
28988 | The structure argument is a pointer to one of the data | ||
28989 | structures enumerated above. You must initialize | ||
28990 | ext_data->number with the extension number before calling this | ||
28991 | function. | ||
28992 | |||
28993 | XExtData *XFindOnExtensionList(struct_XExtData **structure, int | ||
28994 | number); | ||
28995 | |||
28996 | structure | ||
28997 | |||
28998 | Specifies the extension list. | ||
28999 | |||
29000 | number | ||
29001 | |||
29002 | Specifies the extension number from XInitExtension. | ||
29003 | |||
29004 | The XFindOnExtensionList function returns the first extension | ||
29005 | data structure for the extension numbered number. It is | ||
29006 | expected that an extension will add at most one extension data | ||
29007 | structure to any single data structure's extension data list. | ||
29008 | There is no way to find additional structures. | ||
29009 | |||
29010 | The XAllocID macro, which allocates and returns a resource ID, | ||
29011 | is defined in <X11/Xlib.h>. | ||
29012 | |||
29013 | XAllocID(Display *display); | ||
29014 | |||
29015 | display | ||
29016 | |||
29017 | Specifies the connection to the X server. | ||
29018 | |||
29019 | This macro is a call through the Display structure to an | ||
29020 | internal resource ID allocator. It returns a resource ID that | ||
29021 | you can use when creating new resources. | ||
29022 | |||
29023 | The XAllocIDs macro allocates and returns an array of resource | ||
29024 | ID. | ||
29025 | |||
29026 | XAllocIDs(Display *display, XID *ids_return, int count); | ||
29027 | |||
29028 | display | ||
29029 | |||
29030 | Specifies the connection to the X server. | ||
29031 | |||
29032 | ids_return | ||
29033 | |||
29034 | Returns the resource IDs. | ||
29035 | |||
29036 | rep | ||
29037 | |||
29038 | Specifies the number of resource IDs requested. | ||
29039 | |||
29040 | This macro is a call through the Display structure to an | ||
29041 | internal resource ID allocator. It returns resource IDs to the | ||
29042 | array supplied by the caller. To correctly handle automatic | ||
29043 | reuse of resource IDs, you must call XAllocIDs when requesting | ||
29044 | multiple resource IDs. This call might generate protocol | ||
29045 | requests. | ||
29046 | |||
29047 | GC Caching | ||
29048 | |||
29049 | GCs are cached by the library to allow merging of independent | ||
29050 | change requests to the same GC into single protocol requests. | ||
29051 | This is typically called a write-back cache. Any extension | ||
29052 | procedure whose behavior depends on the contents of a GC must | ||
29053 | flush the GC cache to make sure the server has up-to-date | ||
29054 | contents in its GC. | ||
29055 | |||
29056 | The FlushGC macro checks the dirty bits in the library's GC | ||
29057 | structure and calls _XFlushGCCache if any elements have | ||
29058 | changed. The FlushGC macro is defined as follows: | ||
29059 | |||
29060 | FlushGC(Display *display, GC gc); | ||
29061 | |||
29062 | display | ||
29063 | |||
29064 | Specifies the connection to the X server. | ||
29065 | |||
29066 | gc | ||
29067 | |||
29068 | Specifies the GC. | ||
29069 | |||
29070 | Note that if you extend the GC to add additional resource ID | ||
29071 | components, you should ensure that the library stub sends the | ||
29072 | change request immediately. This is because a client can free a | ||
29073 | resource immediately after using it, so if you only stored the | ||
29074 | value in the cache without forcing a protocol request, the | ||
29075 | resource might be destroyed before being set into the GC. You | ||
29076 | can use the _XFlushGCCache procedure to force the cache to be | ||
29077 | flushed. The _XFlushGCCache procedure is defined as follows: | ||
29078 | |||
29079 | _XFlushGCCache(Display *display, GC gc); | ||
29080 | |||
29081 | display | ||
29082 | |||
29083 | Specifies the connection to the X server. | ||
29084 | |||
29085 | gc | ||
29086 | |||
29087 | Specifies the GC. | ||
29088 | |||
29089 | Graphics Batching | ||
29090 | |||
29091 | If you extend X to add more poly graphics primitives, you may | ||
29092 | be able to take advantage of facilities in the library to allow | ||
29093 | back-to-back single calls to be transformed into poly requests. | ||
29094 | This may dramatically improve performance of programs that are | ||
29095 | not written using poly requests. A pointer to an xReq, called | ||
29096 | last_req in the display structure, is the last request being | ||
29097 | processed. By checking that the last request type, drawable, | ||
29098 | gc, and other options are the same as the new one and that | ||
29099 | there is enough space left in the buffer, you may be able to | ||
29100 | just extend the previous graphics request by extending the | ||
29101 | length field of the request and appending the data to the | ||
29102 | buffer. This can improve performance by five times or more in | ||
29103 | naive programs. For example, here is the source for the | ||
29104 | XDrawPoint stub. (Writing extension stubs is discussed in the | ||
29105 | next section.) | ||
29106 | #include <X11/Xlibint.h> | ||
29107 | |||
29108 | /* precompute the maximum size of batching request allowed */ | ||
29109 | |||
29110 | static int size = sizeof(xPolyPointReq) + EPERBATCH * sizeof(xPoint); | ||
29111 | |||
29112 | XDrawPoint(dpy, d, gc, x, y) | ||
29113 | register Display *dpy; | ||
29114 | Drawable d; | ||
29115 | GC gc; | ||
29116 | int x, y; /* INT16 */ | ||
29117 | { | ||
29118 | xPoint *point; | ||
29119 | LockDisplay(dpy); | ||
29120 | FlushGC(dpy, gc); | ||
29121 | { | ||
29122 | register xPolyPointReq *req = (xPolyPointReq *) dpy->last_req; | ||
29123 | /* if same as previous request, with same drawable, batch requests * | ||
29124 | / | ||
29125 | if ( | ||
29126 | (req->reqType == X_PolyPoint) | ||
29127 | && (req->drawable == d) | ||
29128 | && (req->gc == gc->gid) | ||
29129 | && (req->coordMode == CoordModeOrigin) | ||
29130 | && ((dpy->bufptr + sizeof (xPoint)) <= dpy->bufmax) | ||
29131 | && (((char *)dpy->bufptr - (char *)req) < size) ) { | ||
29132 | point = (xPoint *) dpy->bufptr; | ||
29133 | req->length += sizeof (xPoint) >> 2; | ||
29134 | dpy->bufptr += sizeof (xPoint); | ||
29135 | } | ||
29136 | |||
29137 | else { | ||
29138 | GetReqExtra(PolyPoint, 4, req); /* 1 point = 4 bytes */ | ||
29139 | req->drawable = d; | ||
29140 | req->gc = gc->gid; | ||
29141 | req->coordMode = CoordModeOrigin; | ||
29142 | point = (xPoint *) (req + 1); | ||
29143 | } | ||
29144 | point->x = x; | ||
29145 | point->y = y; | ||
29146 | } | ||
29147 | UnlockDisplay(dpy); | ||
29148 | SyncHandle(); | ||
29149 | } | ||
29150 | |||
29151 | To keep clients from generating very long requests that may | ||
29152 | monopolize the server, there is a symbol defined in | ||
29153 | <X11/Xlibint.h> of EPERBATCH on the number of requests batched. | ||
29154 | Most of the performance benefit occurs in the first few merged | ||
29155 | requests. Note that FlushGC is called before picking up the | ||
29156 | value of last_req, because it may modify this field. | ||
29157 | |||
29158 | Writing Extension Stubs | ||
29159 | |||
29160 | All X requests always contain the length of the request, | ||
29161 | expressed as a 16-bit quantity of 32 bit words. This means that | ||
29162 | a single request can be no more than 256K bytes in length. Some | ||
29163 | servers may not support single requests of such a length. The | ||
29164 | value of dpy->max_request_size contains the maximum length as | ||
29165 | defined by the server implementation. For further information, | ||
29166 | see X Window System Protocol. | ||
29167 | |||
29168 | Requests, Replies, and Xproto.h | ||
29169 | |||
29170 | The <X11/Xproto.h> file contains three sets of definitions that | ||
29171 | are of interest to the stub implementor: request names, request | ||
29172 | structures, and reply structures. | ||
29173 | |||
29174 | You need to generate a file equivalent to <X11/Xproto.h> for | ||
29175 | your extension and need to include it in your stub procedure. | ||
29176 | Each stub procedure also must include <X11/Xlibint.h>. | ||
29177 | |||
29178 | The identifiers are deliberately chosen in such a way that, if | ||
29179 | the request is called X_DoSomething, then its request structure | ||
29180 | is xDoSomethingReq, and its reply is xDoSomethingReply. The | ||
29181 | GetReq family of macros, defined in <X11/Xlibint.h>, takes | ||
29182 | advantage of this naming scheme. | ||
29183 | |||
29184 | For each X request, there is a definition in <X11/Xproto.h> | ||
29185 | that looks similar to this: | ||
29186 | |||
29187 | #define X_DoSomething 42 | ||
29188 | |||
29189 | In your extension header file, this will be a minor opcode, | ||
29190 | instead of a major opcode. | ||
29191 | |||
29192 | Request Format | ||
29193 | |||
29194 | Every request contains an 8-bit major opcode and a 16-bit | ||
29195 | length field expressed in units of 4 bytes. Every request | ||
29196 | consists of 4 bytes of header (containing the major opcode, the | ||
29197 | length field, and a data byte) followed by zero or more | ||
29198 | additional bytes of data. The length field defines the total | ||
29199 | length of the request, including the header. The length field | ||
29200 | in a request must equal the minimum length required to contain | ||
29201 | the request. If the specified length is smaller or larger than | ||
29202 | the required length, the server should generate a BadLength | ||
29203 | error. Unused bytes in a request are not required to be zero. | ||
29204 | Extensions should be designed in such a way that long protocol | ||
29205 | requests can be split up into smaller requests, if it is | ||
29206 | possible to exceed the maximum request size of the server. The | ||
29207 | protocol guarantees the maximum request size to be no smaller | ||
29208 | than 4096 units (16384 bytes). | ||
29209 | |||
29210 | Major opcodes 128 through 255 are reserved for extensions. | ||
29211 | Extensions are intended to contain multiple requests, so | ||
29212 | extension requests typically have an additional minor opcode | ||
29213 | encoded in the second data byte in the request header, but the | ||
29214 | placement and interpretation of this minor opcode as well as | ||
29215 | all other fields in extension requests are not defined by the | ||
29216 | core protocol. Every request is implicitly assigned a sequence | ||
29217 | number (starting with one) used in replies, errors, and events. | ||
29218 | |||
29219 | Most protocol requests have a corresponding structure typedef | ||
29220 | in <X11/Xproto.h>, which looks like: | ||
29221 | |||
29222 | typedef struct _DoSomethingReq { | ||
29223 | CARD8 reqType; /* X_DoSomething */ | ||
29224 | CARD8 someDatum; /* used differently in different request | ||
29225 | s */ | ||
29226 | CARD16 length; /* total # of bytes in request, divided | ||
29227 | by 4 */ | ||
29228 | ... | ||
29229 | /* request-specific data */ | ||
29230 | ... | ||
29231 | } xDoSomethingReq; | ||
29232 | |||
29233 | If a core protocol request has a single 32-bit argument, you | ||
29234 | need not declare a request structure in your extension header | ||
29235 | file. Instead, such requests use the xResourceReq structure in | ||
29236 | <X11/Xproto.h>. This structure is used for any request whose | ||
29237 | single argument is a Window, Pixmap, Drawable, GContext, Font, | ||
29238 | Cursor, Colormap, Atom, or VisualID. | ||
29239 | |||
29240 | typedef struct _ResourceReq { | ||
29241 | CARD8 reqType; /* the request type, e.g. X_DoSomething */ | ||
29242 | BYTE pad; /* not used */ | ||
29243 | CARD16 length; /* 2 (= total # of bytes in request, divided by | ||
29244 | 4) */ | ||
29245 | CARD32 id; /* the Window, Drawable, Font, GContext, etc. */ | ||
29246 | } xResourceReq; | ||
29247 | |||
29248 | If convenient, you can do something similar in your extension | ||
29249 | header file. | ||
29250 | |||
29251 | In both of these structures, the reqType field identifies the | ||
29252 | type of the request (for example, X_MapWindow or | ||
29253 | X_CreatePixmap). The length field tells how long the request is | ||
29254 | in units of 4-byte longwords. This length includes both the | ||
29255 | request structure itself and any variable-length data, such as | ||
29256 | strings or lists, that follow the request structure. Request | ||
29257 | structures come in different sizes, but all requests are padded | ||
29258 | to be multiples of four bytes long. | ||
29259 | |||
29260 | A few protocol requests take no arguments at all. Instead, they | ||
29261 | use the xReq structure in <X11/Xproto.h>, which contains only a | ||
29262 | reqType and a length (and a pad byte). | ||
29263 | |||
29264 | If the protocol request requires a reply, then <X11/Xproto.h> | ||
29265 | also contains a reply structure typedef: | ||
29266 | |||
29267 | typedef struct _DoSomethingReply { | ||
29268 | BYTE type; /* always X_Reply */ | ||
29269 | BYTE someDatum; /* used differently in different requests */ | ||
29270 | CARD16 sequenceNumber; /* # of requests sent so far */ | ||
29271 | CARD32 length; /* # of additional bytes, divided by 4 */ | ||
29272 | ... | ||
29273 | /* request-specific data */ | ||
29274 | ... | ||
29275 | } xDoSomethingReply; | ||
29276 | |||
29277 | Most of these reply structures are 32 bytes long. If there are | ||
29278 | not that many reply values, then they contain a sufficient | ||
29279 | number of pad fields to bring them up to 32 bytes. The length | ||
29280 | field is the total number of bytes in the request minus 32, | ||
29281 | divided by 4. This length will be nonzero only if: | ||
29282 | * The reply structure is followed by variable-length data, | ||
29283 | such as a list or string. | ||
29284 | * The reply structure is longer than 32 bytes. | ||
29285 | |||
29286 | Only GetWindowAttributesl, QueryFont, QueryKeymap, and | ||
29287 | GetKeyboardControl have reply structures longer than 32 bytes | ||
29288 | in the core protocol. | ||
29289 | |||
29290 | A few protocol requests return replies that contain no data. | ||
29291 | <X11/Xproto.h> does not define reply structures for these. | ||
29292 | Instead, they use the xGenericReply structure, which contains | ||
29293 | only a type, length, and sequence number (and sufficient | ||
29294 | padding to make it 32 bytes long). | ||
29295 | |||
29296 | Starting to Write a Stub Procedure | ||
29297 | |||
29298 | An Xlib stub procedure should start like this: | ||
29299 | |||
29300 | #include "<X11/Xlibint.h> | ||
29301 | |||
29302 | XDoSomething (arguments, ... ) | ||
29303 | /* argument declarations */ | ||
29304 | { | ||
29305 | |||
29306 | register XDoSomethingReq *req; | ||
29307 | ... | ||
29308 | |||
29309 | If the protocol request has a reply, then the variable | ||
29310 | declarations should include the reply structure for the | ||
29311 | request. The following is an example: | ||
29312 | |||
29313 | xDoSomethingReply rep; | ||
29314 | |||
29315 | Locking Data Structures | ||
29316 | |||
29317 | To lock the display structure for systems that want to support | ||
29318 | multithreaded access to a single display connection, each stub | ||
29319 | will need to lock its critical section. Generally, this section | ||
29320 | is the point from just before the appropriate GetReq call until | ||
29321 | all arguments to the call have been stored into the buffer. The | ||
29322 | precise instructions needed for this locking depend upon the | ||
29323 | machine architecture. Two calls, which are generally | ||
29324 | implemented as macros, have been provided. | ||
29325 | |||
29326 | LockDisplay(Display *display); | ||
29327 | |||
29328 | UnlockDisplay(Display *display); | ||
29329 | |||
29330 | display | ||
29331 | |||
29332 | Specifies the connection to the X server. | ||
29333 | |||
29334 | Sending the Protocol Request and Arguments | ||
29335 | |||
29336 | After the variable declarations, a stub procedure should call | ||
29337 | one of four macros defined in <X11/Xlibint.h>: GetReq, | ||
29338 | GetReqExtra, GetResReq, or GetEmptyReq. All of these macros | ||
29339 | take, as their first argument, the name of the protocol request | ||
29340 | as declared in <X11/Xproto.h> except with X_ removed. Each one | ||
29341 | declares a Display structure pointer, called dpy, and a pointer | ||
29342 | to a request structure, called req, which is of the appropriate | ||
29343 | type. The macro then appends the request structure to the | ||
29344 | output buffer, fills in its type and length field, and sets req | ||
29345 | to point to it. | ||
29346 | |||
29347 | If the protocol request has no arguments (for instance, | ||
29348 | X_GrabServer), then use GetEmptyReq. | ||
29349 | |||
29350 | GetEmptyReq (DoSomething, req); | ||
29351 | |||
29352 | If the protocol request has a single 32-bit argument (such as a | ||
29353 | Pixmap, Window, Drawable, Atom, and so on), then use GetResReq. | ||
29354 | The second argument to the macro is the 32-bit object. | ||
29355 | X_MapWindow is a good example. | ||
29356 | |||
29357 | GetResReq (DoSomething, rid, req); | ||
29358 | |||
29359 | The rid argument is the Pixmap, Window, or other resource ID. | ||
29360 | |||
29361 | If the protocol request takes any other argument list, then | ||
29362 | call GetReq. After the GetReq, you need to set all the other | ||
29363 | fields in the request structure, usually from arguments to the | ||
29364 | stub procedure. | ||
29365 | |||
29366 | GetReq (DoSomething, req); | ||
29367 | /* fill in arguments here */ | ||
29368 | req->arg1 = arg1; | ||
29369 | req->arg2 = arg2; | ||
29370 | ... | ||
29371 | |||
29372 | A few stub procedures (such as XCreateGC and XCreatePixmap) | ||
29373 | return a resource ID to the caller but pass a resource ID as an | ||
29374 | argument to the protocol request. Such procedures use the macro | ||
29375 | XAllocID to allocate a resource ID from the range of IDs that | ||
29376 | were assigned to this client when it opened the connection. | ||
29377 | |||
29378 | rid = req->rid = XAllocID(); | ||
29379 | ... | ||
29380 | return (rid); | ||
29381 | |||
29382 | Finally, some stub procedures transmit a fixed amount of | ||
29383 | variable-length data after the request. Typically, these | ||
29384 | procedures (such as XMoveWindow and XSetBackground) are special | ||
29385 | cases of more general functions like XMoveResizeWindow and | ||
29386 | XChangeGC. These procedures use GetReqExtra, which is the same | ||
29387 | as GetReq except that it takes an additional argument (the | ||
29388 | number of extra bytes to allocate in the output buffer after | ||
29389 | the request structure). This number should always be a multiple | ||
29390 | of four. Note that it is possible for req to be set to NULL as | ||
29391 | a defensive measure if the requested length exceeds the Xlib's | ||
29392 | buffer size (normally 16K). | ||
29393 | |||
29394 | Variable Length Arguments | ||
29395 | |||
29396 | Some protocol requests take additional variable-length data | ||
29397 | that follow the xDoSomethingReq structure. The format of this | ||
29398 | data varies from request to request. Some requests require a | ||
29399 | sequence of 8-bit bytes, others a sequence of 16-bit or 32-bit | ||
29400 | entities, and still others a sequence of structures. | ||
29401 | |||
29402 | It is necessary to add the length of any variable-length data | ||
29403 | to the length field of the request structure. That length field | ||
29404 | is in units of 32-bit longwords. If the data is a string or | ||
29405 | other sequence of 8-bit bytes, then you must round the length | ||
29406 | up and shift it before adding: | ||
29407 | |||
29408 | req->length += (nbytes+3)>>2; | ||
29409 | |||
29410 | To transmit variable-length data, use the Data macros. If the | ||
29411 | data fits into the output buffer, then this macro copies it to | ||
29412 | the buffer. If it does not fit, however, the Data macro calls | ||
29413 | _XSend, which transmits first the contents of the buffer and | ||
29414 | then your data. The Data macros take three arguments: the | ||
29415 | display, a pointer to the beginning of the data, and the number | ||
29416 | of bytes to be sent. | ||
29417 | |||
29418 | Data(display, (char *) data, nbytes); | ||
29419 | |||
29420 | Data16(display, (short *) data, nbytes); | ||
29421 | |||
29422 | Data32(display, (long *) data, nbytes); | ||
29423 | |||
29424 | Data, Data16, and Data32 are macros that may use their last | ||
29425 | argument more than once, so that argument should be a variable | ||
29426 | rather than an expression such as ``nitems*sizeof(item)''. You | ||
29427 | should do that kind of computation in a separate statement | ||
29428 | before calling them. Use the appropriate macro when sending | ||
29429 | byte, short, or long data. | ||
29430 | |||
29431 | If the protocol request requires a reply, then call the | ||
29432 | procedure _XSend instead of the Data macro. _XSend takes the | ||
29433 | same arguments, but because it sends your data immediately | ||
29434 | instead of copying it into the output buffer (which would later | ||
29435 | be flushed anyway by the following call on _XReply), it is | ||
29436 | faster. | ||
29437 | |||
29438 | Replies | ||
29439 | |||
29440 | If the protocol request has a reply, then call _XReply after | ||
29441 | you have finished dealing with all the fixed-length and | ||
29442 | variable-length arguments. _XReply flushes the output buffer | ||
29443 | and waits for an xReply packet to arrive. If any events arrive | ||
29444 | in the meantime, _XReply places them in the queue for later | ||
29445 | use. | ||
29446 | |||
29447 | Status _XReply(Display *display, xReply *rep, int extra, Bool | ||
29448 | discard); | ||
29449 | |||
29450 | display | ||
29451 | |||
29452 | Specifies the connection to the X server. | ||
29453 | |||
29454 | rep | ||
29455 | |||
29456 | Specifies the reply structure. | ||
29457 | |||
29458 | extra | ||
29459 | |||
29460 | Specifies the number of 32-bit words expected after the replay. | ||
29461 | |||
29462 | discard | ||
29463 | |||
29464 | Specifies if any data beyond that specified in the extra | ||
29465 | argument should be discarded. | ||
29466 | |||
29467 | The _XReply function waits for a reply packet and copies its | ||
29468 | contents into the specified rep. _XReply handles error and | ||
29469 | event packets that occur before the reply is received. _XReply | ||
29470 | takes four arguments: | ||
29471 | * A Display * structure | ||
29472 | * A pointer to a reply structure (which must be cast to an | ||
29473 | xReply *) | ||
29474 | * The number of additional 32-bit words (beyond sizeof( | ||
29475 | xReply) = 32 bytes) in the reply structure | ||
29476 | * A Boolean that indicates whether _XReply is to discard any | ||
29477 | additional bytes beyond those it was told to read | ||
29478 | |||
29479 | Because most reply structures are 32 bytes long, the third | ||
29480 | argument is usually 0. The only core protocol exceptions are | ||
29481 | the replies to GetWindowAttributesl, QueryFont, QueryKeymap, | ||
29482 | and GetKeyboardControl, which have longer replies. | ||
29483 | |||
29484 | The last argument should be False if the reply structure is | ||
29485 | followed by additional variable-length data (such as a list or | ||
29486 | string). It should be True if there is not any variable-length | ||
29487 | data. This last argument is provided for upward-compatibility | ||
29488 | reasons to allow a client to communicate properly with a | ||
29489 | hypothetical later version of the server that sends more data | ||
29490 | than the client expected. For example, some later version of | ||
29491 | GetWindowAttributesl might use a larger, but compatible, | ||
29492 | xGetWindowAttributesReply that contains additional attribute | ||
29493 | data at the end. _XReply returns True if it received a reply | ||
29494 | successfully or False if it received any sort of error. | ||
29495 | |||
29496 | For a request with a reply that is not followed by | ||
29497 | variable-length data, you write something like: | ||
29498 | |||
29499 | _XReply(display, (xReply *)&rep, 0, True); | ||
29500 | *ret1 = rep.ret1; | ||
29501 | *ret2 = rep.ret2; | ||
29502 | *ret3 = rep.ret3; | ||
29503 | ... | ||
29504 | UnlockDisplay(dpy); | ||
29505 | SyncHandle(); | ||
29506 | return (rep.ret4); | ||
29507 | } | ||
29508 | |||
29509 | If there is variable-length data after the reply, change the | ||
29510 | True to False, and use the appropriate _XRead function to read | ||
29511 | the variable-length data. | ||
29512 | |||
29513 | _XRead(Display *display, char *data_return, long nbytes); | ||
29514 | |||
29515 | display | ||
29516 | |||
29517 | Specifies the connection to the X server. | ||
29518 | |||
29519 | data_return | ||
29520 | |||
29521 | Specifies the buffer. | ||
29522 | |||
29523 | nbytes | ||
29524 | |||
29525 | Specifies the number of bytes required. | ||
29526 | |||
29527 | The _XRead function reads the specified number of bytes into | ||
29528 | data_return. | ||
29529 | |||
29530 | _XRead16(Display *display, short *data_return, long nbytes); | ||
29531 | |||
29532 | display | ||
29533 | |||
29534 | Specifies the connection to the X server. | ||
29535 | |||
29536 | data_return | ||
29537 | |||
29538 | Specifies the buffer. | ||
29539 | |||
29540 | nbytes | ||
29541 | |||
29542 | Specifies the number of bytes required. | ||
29543 | |||
29544 | The _XRead16 function reads the specified number of bytes, | ||
29545 | unpacking them as 16-bit quantities, into the specified array | ||
29546 | as shorts. | ||
29547 | |||
29548 | _XRead32(Display *display, long *data_return, long nbytes); | ||
29549 | |||
29550 | display | ||
29551 | |||
29552 | Specifies the connection to the X server. | ||
29553 | |||
29554 | data_return | ||
29555 | |||
29556 | Specifies the buffer. | ||
29557 | |||
29558 | nbytes | ||
29559 | |||
29560 | Specifies the number of bytes required. | ||
29561 | |||
29562 | The _XRead32 function reads the specified number of bytes, | ||
29563 | unpacking them as 32-bit quantities, into the specified array | ||
29564 | as longs. | ||
29565 | |||
29566 | _XRead16Pad(Display *display, short *data_return, long nbytes); | ||
29567 | |||
29568 | display | ||
29569 | |||
29570 | Specifies the connection to the X server. | ||
29571 | |||
29572 | data_return | ||
29573 | |||
29574 | Specifies the buffer. | ||
29575 | |||
29576 | nbytes | ||
29577 | |||
29578 | Specifies the number of bytes required. | ||
29579 | |||
29580 | The _XRead16Pad function reads the specified number of bytes, | ||
29581 | unpacking them as 16-bit quantities, into the specified array | ||
29582 | as shorts. If the number of bytes is not a multiple of four, | ||
29583 | _XRead16Pad reads and discards up to two additional pad bytes. | ||
29584 | |||
29585 | _XReadPad(Display *display, char *data_return, long nbytes); | ||
29586 | |||
29587 | display | ||
29588 | |||
29589 | Specifies the connection to the X server. | ||
29590 | |||
29591 | data_return | ||
29592 | |||
29593 | Specifies the buffer. | ||
29594 | |||
29595 | nbytes | ||
29596 | |||
29597 | Specifies the number of bytes required. | ||
29598 | |||
29599 | The _XReadPad function reads the specified number of bytes into | ||
29600 | data_return. If the number of bytes is not a multiple of four, | ||
29601 | _XReadPad reads and discards up to three additional pad bytes. | ||
29602 | |||
29603 | Each protocol request is a little different. For further | ||
29604 | information, see the Xlib sources for examples. | ||
29605 | |||
29606 | Synchronous Calling | ||
29607 | |||
29608 | Each procedure should have a call, just before returning to the | ||
29609 | user, to a macro called SyncHandle. If synchronous mode is | ||
29610 | enabled (see XSynchronize), the request is sent immediately. | ||
29611 | The library, however, waits until any error the procedure could | ||
29612 | generate at the server has been handled. | ||
29613 | |||
29614 | Allocating and Deallocating Memory | ||
29615 | |||
29616 | To support the possible reentry of these procedures, you must | ||
29617 | observe several conventions when allocating and deallocating | ||
29618 | memory, most often done when returning data to the user from | ||
29619 | the window system of a size the caller could not know in | ||
29620 | advance (for example, a list of fonts or a list of extensions). | ||
29621 | The standard C library functions on many systems are not | ||
29622 | protected against signals or other multithreaded uses. The | ||
29623 | following analogies to standard I/O library functions have been | ||
29624 | defined: | ||
29625 | |||
29626 | These should be used in place of any calls you would make to | ||
29627 | the normal C library functions. | ||
29628 | |||
29629 | If you need a single scratch buffer inside a critical section | ||
29630 | (for example, to pack and unpack data to and from the wire | ||
29631 | protocol), the general memory allocators may be too expensive | ||
29632 | to use (particularly in output functions, which are performance | ||
29633 | critical). The following function returns a scratch buffer for | ||
29634 | use within a critical section: | ||
29635 | |||
29636 | char *_XAllocScratch(Display *display, unsigned long nbytes); | ||
29637 | |||
29638 | display | ||
29639 | |||
29640 | Specifies the connection to the X server. | ||
29641 | |||
29642 | nbytes | ||
29643 | |||
29644 | Specifies the number of bytes required. | ||
29645 | |||
29646 | This storage must only be used inside of a critical section of | ||
29647 | your stub. The returned pointer cannot be assumed valid after | ||
29648 | any call that might permit another thread to execute inside | ||
29649 | Xlib. For example, the pointer cannot be assumed valid after | ||
29650 | any use of the GetReq or Data families of macros, after any use | ||
29651 | of _XReply, or after any use of the _XSend or _XRead families | ||
29652 | of functions. | ||
29653 | |||
29654 | The following function returns a scratch buffer for use across | ||
29655 | critical sections: | ||
29656 | |||
29657 | char *_XAllocTemp(Display *display, unsigned long nbytes); | ||
29658 | |||
29659 | display | ||
29660 | |||
29661 | Specifies the connection to the X server. | ||
29662 | |||
29663 | nbytes | ||
29664 | |||
29665 | Specifies the number of bytes required. | ||
29666 | |||
29667 | This storage can be used across calls that might permit another | ||
29668 | thread to execute inside Xlib. The storage must be explicitly | ||
29669 | returned to Xlib. The following function returns the storage: | ||
29670 | |||
29671 | void _XFreeTemp(Display *display, char *buf, unsigned long | ||
29672 | nbytes); | ||
29673 | |||
29674 | display | ||
29675 | |||
29676 | Specifies the connection to the X server. | ||
29677 | |||
29678 | buf | ||
29679 | |||
29680 | Specifies the buffer to return. | ||
29681 | |||
29682 | nbytes | ||
29683 | |||
29684 | Specifies the size of the buffer. | ||
29685 | |||
29686 | You must pass back the same pointer and size that were returned | ||
29687 | by _XAllocTemp. | ||
29688 | |||
29689 | Portability Considerations | ||
29690 | |||
29691 | Many machine architectures do not correctly or efficiently | ||
29692 | access data at unaligned locations; their compilers pad out | ||
29693 | structures to preserve this characteristic. Many other machines | ||
29694 | capable of unaligned references pad inside of structures as | ||
29695 | well to preserve alignment, because accessing aligned data is | ||
29696 | usually much faster. Because the library and the server use | ||
29697 | structures to access data at arbitrary points in a byte stream, | ||
29698 | all data in request and reply packets must be naturally | ||
29699 | aligned; that is, 16-bit data starts on 16-bit boundaries in | ||
29700 | the request and 32-bit data on 32-bit boundaries. All requests | ||
29701 | must be a multiple of 32 bits in length to preserve the natural | ||
29702 | alignment in the data stream. You must pad structures out to | ||
29703 | 32-bit boundaries. Pad information does not have to be zeroed | ||
29704 | unless you want to preserve such fields for future use in your | ||
29705 | protocol requests, but it is recommended to zero it to avoid | ||
29706 | inadvertant data leakage and improve compressability. Floating | ||
29707 | point varies radically between machines and should be avoided | ||
29708 | completely if at all possible. | ||
29709 | |||
29710 | This code may run on machines with 16-bit ints. So, if any | ||
29711 | integer argument, variable, or return value either can take | ||
29712 | only nonnegative values or is declared as a CARD16 in the | ||
29713 | protocol, be sure to declare it as unsigned int and not as int. | ||
29714 | (This, of course, does not apply to Booleans or enumerations.) | ||
29715 | |||
29716 | Similarly, if any integer argument or return value is declared | ||
29717 | CARD32 in the protocol, declare it as an unsigned long and not | ||
29718 | as int or long. This also goes for any internal variables that | ||
29719 | may take on values larger than the maximum 16-bit unsigned int. | ||
29720 | |||
29721 | The library has always assumed that a char is 8 bits, a short | ||
29722 | is 16 bits, an int is 16 or 32 bits, and a long is 32 bits. | ||
29723 | Unfortunately, this assumption remains on machines where a long | ||
29724 | can hold 64-bits, and many functions and structures require | ||
29725 | unnecessarily large fields to avoid breaking compatibility with | ||
29726 | existing code. Special care must be taken with arrays of values | ||
29727 | that are transmitted in the protocol as CARD32 or INT32 but | ||
29728 | have to be converted to arrays of 64-bit long when passed to or | ||
29729 | from client applications. | ||
29730 | |||
29731 | The PackData macro is a half-hearted attempt to deal with the | ||
29732 | possibility of 32 bit shorts. However, much more work is needed | ||
29733 | to make this work properly. | ||
29734 | |||
29735 | Deriving the Correct Extension Opcode | ||
29736 | |||
29737 | The remaining problem a writer of an extension stub procedure | ||
29738 | faces that the core protocol does not face is to map from the | ||
29739 | call to the proper major and minor opcodes. While there are a | ||
29740 | number of strategies, the simplest and fastest is outlined | ||
29741 | below. | ||
29742 | * Declare an array of pointers, _NFILE long (this is normally | ||
29743 | found in <stdio.h> and is the number of file descriptors | ||
29744 | supported on the system) of type XExtCodes. Make sure these | ||
29745 | are all initialized to NULL. | ||
29746 | * When your stub is entered, your initialization test is just | ||
29747 | to use the display pointer passed in to access the file | ||
29748 | descriptor and an index into the array. If the entry is | ||
29749 | NULL, then this is the first time you are entering the | ||
29750 | procedure for this display. Call your initialization | ||
29751 | procedure and pass to it the display pointer. | ||
29752 | * Once in your initialization procedure, call XInitExtension; | ||
29753 | if it succeeds, store the pointer returned into this array. | ||
29754 | Make sure to establish a close display handler to allow you | ||
29755 | to zero the entry. Do whatever other initialization your | ||
29756 | extension requires. (For example, install event handlers | ||
29757 | and so on.) Your initialization procedure would normally | ||
29758 | return a pointer to the XExtCodes structure for this | ||
29759 | extension, which is what would normally be found in your | ||
29760 | array of pointers. | ||
29761 | * After returning from your initialization procedure, the | ||
29762 | stub can now continue normally, because it has its major | ||
29763 | opcode safely in its hand in the XExtCodes structure. | ||
29764 | |||
29765 | Appendix D. Compatibility Functions | ||
29766 | |||
29767 | Table of Contents | ||
29768 | |||
29769 | X Version 11 Compatibility Functions | ||
29770 | |||
29771 | Setting Standard Properties | ||
29772 | Setting and Getting Window Sizing Hints | ||
29773 | Getting and Setting an XStandardColormap Structure | ||
29774 | Parsing Window Geometry | ||
29775 | Getting the X Environment Defaults | ||
29776 | |||
29777 | X Version 10 Compatibility Functions | ||
29778 | |||
29779 | Drawing and Filling Polygons and Curves | ||
29780 | Associating User Data with a Value | ||
29781 | |||
29782 | The X Version 11 and X Version 10 functions discussed in this | ||
29783 | appendix are obsolete, have been superseded by newer X Version | ||
29784 | 11 functions, and are maintained for compatibility reasons | ||
29785 | only. | ||
29786 | |||
29787 | X Version 11 Compatibility Functions | ||
29788 | |||
29789 | You can use the X Version 11 compatibility functions to: | ||
29790 | * Set standard properties | ||
29791 | * Set and get window sizing hints | ||
29792 | * Set and get an XStandardColormap structure | ||
29793 | * Parse window geometry | ||
29794 | * Get X environment defaults | ||
29795 | |||
29796 | Setting Standard Properties | ||
29797 | |||
29798 | To specify a minimum set of properties describing the simplest | ||
29799 | application, use XSetStandardProperties. This function has been | ||
29800 | superseded by XSetWMProperties and sets all or portions of the | ||
29801 | WM_NAME, WM_ICON_NAME, WM_HINTS, WM_COMMAND, and | ||
29802 | WM_NORMAL_HINTS properties. | ||
29803 | |||
29804 | XSetStandardProperties(Display *display, Window w, char | ||
29805 | *window_name, char *icon_name, Pixmap icon_pixmap, char **argv, | ||
29806 | int argc, XSizeHints *hints); | ||
29807 | |||
29808 | display | ||
29809 | |||
29810 | Specifies the connection to the X server. | ||
29811 | |||
29812 | w | ||
29813 | |||
29814 | Specifies the window. | ||
29815 | |||
29816 | window_name | ||
29817 | |||
29818 | Specifies the window name, which should be a null-terminated | ||
29819 | string. | ||
29820 | |||
29821 | icon_name | ||
29822 | |||
29823 | Specifies the icon name, which should be a null-terminated | ||
29824 | string. | ||
29825 | |||
29826 | icon_pixmap | ||
29827 | |||
29828 | Specifies the bitmap that is to be used for the icon or None. | ||
29829 | |||
29830 | argv | ||
29831 | |||
29832 | Specifies the application's argument list. | ||
29833 | |||
29834 | argc | ||
29835 | |||
29836 | Specifies the number of arguments. | ||
29837 | |||
29838 | hints | ||
29839 | |||
29840 | Specifies a pointer to the size hints for the window in its | ||
29841 | normal state. | ||
29842 | |||
29843 | The XSetStandardProperties function provides a means by which | ||
29844 | simple applications set the most essential properties with a | ||
29845 | single call. XSetStandardProperties should be used to give a | ||
29846 | window manager some information about your program's | ||
29847 | preferences. It should not be used by applications that need to | ||
29848 | communicate more information than is possible with | ||
29849 | XSetStandardProperties. (Typically, argv is the argv array of | ||
29850 | your main program.) If the strings are not in the Host Portable | ||
29851 | Character Encoding, the result is implementation-dependent. | ||
29852 | |||
29853 | XSetStandardProperties can generate BadAlloc and BadWindow | ||
29854 | errors. | ||
29855 | |||
29856 | Setting and Getting Window Sizing Hints | ||
29857 | |||
29858 | Xlib provides functions that you can use to set or get window | ||
29859 | sizing hints. The functions discussed in this section use the | ||
29860 | flags and the XSizeHints structure, as defined in the | ||
29861 | <X11/Xutil.h> header file and use the WM_NORMAL_HINTS property. | ||
29862 | |||
29863 | To set the size hints for a given window in its normal state, | ||
29864 | use XSetNormalHints. This function has been superseded by | ||
29865 | XSetWMNormalHints. | ||
29866 | |||
29867 | XSetNormalHints(Display *display, Window w, XSizeHints *hints); | ||
29868 | |||
29869 | display | ||
29870 | |||
29871 | Specifies the connection to the X server. | ||
29872 | |||
29873 | w | ||
29874 | |||
29875 | Specifies the window. | ||
29876 | |||
29877 | hints | ||
29878 | |||
29879 | Specifies a pointer to the size hints for the window in its | ||
29880 | normal state. | ||
29881 | |||
29882 | The XSetNormalHints function sets the size hints structure for | ||
29883 | the specified window. Applications use XSetNormalHints to | ||
29884 | inform the window manager of the size or position desirable for | ||
29885 | that window. In addition, an application that wants to move or | ||
29886 | resize itself should call XSetNormalHints and specify its new | ||
29887 | desired location and size as well as making direct Xlib calls | ||
29888 | to move or resize. This is because window managers may ignore | ||
29889 | redirected configure requests, but they pay attention to | ||
29890 | property changes. | ||
29891 | |||
29892 | To set size hints, an application not only must assign values | ||
29893 | to the appropriate members in the hints structure but also must | ||
29894 | set the flags member of the structure to indicate which | ||
29895 | information is present and where it came from. A call to | ||
29896 | XSetNormalHints is meaningless, unless the flags member is set | ||
29897 | to indicate which members of the structure have been assigned | ||
29898 | values. | ||
29899 | |||
29900 | XSetNormalHints can generate BadAlloc and BadWindow errors. | ||
29901 | |||
29902 | To return the size hints for a window in its normal state, use | ||
29903 | XGetNormalHints. This function has been superseded by | ||
29904 | XGetWMNormalHints. | ||
29905 | |||
29906 | Status XGetNormalHints(Display *display, Window w, XSizeHints | ||
29907 | *hints_return); | ||
29908 | |||
29909 | display | ||
29910 | |||
29911 | Specifies the connection to the X server. | ||
29912 | |||
29913 | w | ||
29914 | |||
29915 | Specifies the window. | ||
29916 | |||
29917 | hints_return | ||
29918 | |||
29919 | Returns the size hints for the window in its normal state. | ||
29920 | |||
29921 | The XGetNormalHints function returns the size hints for a | ||
29922 | window in its normal state. It returns a nonzero status if it | ||
29923 | succeeds or zero if the application specified no normal size | ||
29924 | hints for this window. | ||
29925 | |||
29926 | XGetNormalHints can generate a BadWindow error. | ||
29927 | |||
29928 | The next two functions set and read the WM_ZOOM_HINTS property. | ||
29929 | |||
29930 | To set the zoom hints for a window, use XSetZoomHints. This | ||
29931 | function is no longer supported by the Inter-Client | ||
29932 | Communication Conventions Manual. | ||
29933 | |||
29934 | XSetZoomHints(Display *display, Window w, XSizeHints *zhints); | ||
29935 | |||
29936 | display | ||
29937 | |||
29938 | Specifies the connection to the X server. | ||
29939 | |||
29940 | w | ||
29941 | |||
29942 | Specifies the window. | ||
29943 | |||
29944 | zhints | ||
29945 | |||
29946 | Specifies a pointer to the zoom hints. | ||
29947 | |||
29948 | Many window managers think of windows in one of three states: | ||
29949 | iconic, normal, or zoomed. The XSetZoomHints function provides | ||
29950 | the window manager with information for the window in the | ||
29951 | zoomed state. | ||
29952 | |||
29953 | XSetZoomHints can generate BadAlloc and BadWindow errors. | ||
29954 | |||
29955 | To read the zoom hints for a window, use XGetZoomHints. This | ||
29956 | function is no longer supported by the Inter-Client | ||
29957 | Communication Conventions Manual. | ||
29958 | |||
29959 | Status XGetZoomHints(Display *display, Window w, XSizeHints | ||
29960 | *zhints_return); | ||
29961 | |||
29962 | display | ||
29963 | |||
29964 | Specifies the connection to the X server. | ||
29965 | |||
29966 | w | ||
29967 | |||
29968 | Specifies the window. | ||
29969 | |||
29970 | zhints_return | ||
29971 | |||
29972 | Returns the zoom hints. | ||
29973 | |||
29974 | The XGetZoomHints function returns the size hints for a window | ||
29975 | in its zoomed state. It returns a nonzero status if it succeeds | ||
29976 | or zero if the application specified no zoom size hints for | ||
29977 | this window. | ||
29978 | |||
29979 | XGetZoomHints can generate a BadWindow error. | ||
29980 | |||
29981 | To set the value of any property of type WM_SIZE_HINTS, use | ||
29982 | XSetSizeHints. This function has been superseded by | ||
29983 | XSetWMSizeHints. | ||
29984 | |||
29985 | XSetSizeHints(Display *display, Window w, XSizeHints *hints, | ||
29986 | Atom property); | ||
29987 | |||
29988 | display | ||
29989 | |||
29990 | Specifies the connection to the X server. | ||
29991 | |||
29992 | w | ||
29993 | |||
29994 | Specifies the window. | ||
29995 | |||
29996 | hints | ||
29997 | |||
29998 | Specifies a pointer to the size hints. | ||
29999 | |||
30000 | property | ||
30001 | |||
30002 | Specifies the property name. | ||
30003 | |||
30004 | The XSetSizeHints function sets the XSizeHints structure for | ||
30005 | the named property and the specified window. This is used by | ||
30006 | XSetNormalHints and XSetZoomHints and can be used to set the | ||
30007 | value of any property of type WM_SIZE_HINTS. Thus, it may be | ||
30008 | useful if other properties of that type get defined. | ||
30009 | |||
30010 | XSetSizeHints can generate BadAlloc, BadAtom, and BadWindow | ||
30011 | errors. | ||
30012 | |||
30013 | To read the value of any property of type WM_SIZE_HINTS, use | ||
30014 | XGetSizeHints. This function has been superseded by | ||
30015 | XGetWMSizeHints. | ||
30016 | |||
30017 | Status XGetSizeHints(Display *display, Window w, XSizeHints | ||
30018 | *hints_return, Atom property); | ||
30019 | |||
30020 | display | ||
30021 | |||
30022 | Specifies the connection to the X server. | ||
30023 | |||
30024 | w | ||
30025 | |||
30026 | Specifies the window. | ||
30027 | |||
30028 | hints_return | ||
30029 | |||
30030 | Returns the size hints. | ||
30031 | |||
30032 | property | ||
30033 | |||
30034 | Specifies the property name. | ||
30035 | |||
30036 | The XGetSizeHints function returns the XSizeHints structure for | ||
30037 | the named property and the specified window. This is used by | ||
30038 | XGetNormalHints and XGetZoomHints. It also can be used to | ||
30039 | retrieve the value of any property of type WM_SIZE_HINTS. Thus, | ||
30040 | it may be useful if other properties of that type get defined. | ||
30041 | XGetSizeHints returns a nonzero status if a size hint was | ||
30042 | defined or zero otherwise. | ||
30043 | |||
30044 | XGetSizeHints can generate BadAtom and BadWindow errors. | ||
30045 | |||
30046 | Getting and Setting an XStandardColormap Structure | ||
30047 | |||
30048 | To get the XStandardColormap structure associated with one of | ||
30049 | the described atoms, use XGetStandardColormap. This function | ||
30050 | has been superseded by XGetRGBColormaps. | ||
30051 | |||
30052 | Status XGetStandardColormap(Display *display, Window w, | ||
30053 | XStandardColormap *colormap_return, Atom property); | ||
30054 | |||
30055 | display | ||
30056 | |||
30057 | Specifies the connection to the X server. | ||
30058 | |||
30059 | w | ||
30060 | |||
30061 | Specifies the window. | ||
30062 | |||
30063 | colormap_return | ||
30064 | |||
30065 | Returns the colormap associated with the specified atom. | ||
30066 | |||
30067 | property | ||
30068 | |||
30069 | Specifies the property name. | ||
30070 | |||
30071 | The XGetStandardColormap function returns the colormap | ||
30072 | definition associated with the atom supplied as the property | ||
30073 | argument. XGetStandardColormap returns a nonzero status if | ||
30074 | successful and zero otherwise. For example, to fetch the | ||
30075 | standard GrayScale colormap for a display, you use | ||
30076 | XGetStandardColormap with the following syntax: | ||
30077 | XGetStandardColormap(dpy, DefaultRootWindow(dpy), &cmap, XA_RGB_GRAY_MAP | ||
30078 | ); | ||
30079 | |||
30080 | See section 14.3 for the semantics of standard colormaps. | ||
30081 | |||
30082 | XGetStandardColormap can generate BadAtom and BadWindow errors. | ||
30083 | |||
30084 | To set a standard colormap, use XSetStandardColormap. This | ||
30085 | function has been superseded by XSetRGBColormaps. | ||
30086 | |||
30087 | XSetStandardColormap(Display *display, Window w, | ||
30088 | XStandardColormap *colormap, Atom property); | ||
30089 | |||
30090 | display | ||
30091 | |||
30092 | Specifies the connection to the X server. | ||
30093 | |||
30094 | w | ||
30095 | |||
30096 | Specifies the window. | ||
30097 | |||
30098 | colormap | ||
30099 | |||
30100 | Specifies the colormap. | ||
30101 | |||
30102 | property | ||
30103 | |||
30104 | Specifies the property name. | ||
30105 | |||
30106 | The XSetStandardColormap function usually is only used by | ||
30107 | window or session managers. | ||
30108 | |||
30109 | XSetStandardColormap can generate BadAlloc, BadAtom, | ||
30110 | BadDrawable, and BadWindow errors. | ||
30111 | |||
30112 | Parsing Window Geometry | ||
30113 | |||
30114 | To parse window geometry given a user-specified position and a | ||
30115 | default position, use XGeometry. This function has been | ||
30116 | superseded by XWMGeometry. | ||
30117 | |||
30118 | int XGeometry(Display *display, int screen, char *position, | ||
30119 | char *default_position, unsigned int bwidth, unsigned int | ||
30120 | fwidth, unsigned int fheight, int xadder, int yadder, int | ||
30121 | *x_return, int *y_return, int *width_return, int | ||
30122 | *height_return); | ||
30123 | |||
30124 | display | ||
30125 | |||
30126 | Specifies the connection to the X server. | ||
30127 | |||
30128 | screen | ||
30129 | |||
30130 | Specifies the screen. | ||
30131 | |||
30132 | position | ||
30133 | |||
30134 | default_position | ||
30135 | |||
30136 | Specify the geometry specifications. | ||
30137 | |||
30138 | bwidth | ||
30139 | |||
30140 | Specifies the border width. | ||
30141 | |||
30142 | fheight | ||
30143 | |||
30144 | fwidth | ||
30145 | |||
30146 | Specify the font height and width in pixels (increment size). | ||
30147 | |||
30148 | xadder | ||
30149 | |||
30150 | yadder | ||
30151 | |||
30152 | Specify additional interior padding needed in the window. | ||
30153 | |||
30154 | x_return | ||
30155 | |||
30156 | y_return | ||
30157 | |||
30158 | Return the x and y offsets. | ||
30159 | |||
30160 | width_return | ||
30161 | |||
30162 | height_return | ||
30163 | |||
30164 | Return the width and height determined. | ||
30165 | |||
30166 | You pass in the border width (bwidth), size of the increments | ||
30167 | fwidth and fheight (typically font width and height), and any | ||
30168 | additional interior space (xadder and yadder) to make it easy | ||
30169 | to compute the resulting size. The XGeometry function returns | ||
30170 | the position the window should be placed given a position and a | ||
30171 | default position. XGeometry determines the placement of a | ||
30172 | window using a geometry specification as specified by | ||
30173 | XParseGeometry and the additional information about the window. | ||
30174 | Given a fully qualified default geometry specification and an | ||
30175 | incomplete geometry specification, XParseGeometry returns a | ||
30176 | bitmask value as defined above in the XParseGeometry call, by | ||
30177 | using the position argument. | ||
30178 | |||
30179 | The returned width and height will be the width and height | ||
30180 | specified by default_position as overridden by any | ||
30181 | user-specified position. They are not affected by fwidth, | ||
30182 | fheight, xadder, or yadder. The x and y coordinates are | ||
30183 | computed by using the border width, the screen width and | ||
30184 | height, padding as specified by xadder and yadder, and the | ||
30185 | fheight and fwidth times the width and height from the geometry | ||
30186 | specifications. | ||
30187 | |||
30188 | Getting the X Environment Defaults | ||
30189 | |||
30190 | The XGetDefault function provides a primitive interface to the | ||
30191 | resource manager facilities discussed in chapter 15. It is only | ||
30192 | useful in very simple applications. | ||
30193 | |||
30194 | char *XGetDefault(Display *display, char *program, char | ||
30195 | *option); | ||
30196 | |||
30197 | display | ||
30198 | |||
30199 | Specifies the connection to the X server. | ||
30200 | |||
30201 | program | ||
30202 | |||
30203 | Specifies the program name for the Xlib defaults (usually | ||
30204 | argv[0] of the main program). | ||
30205 | |||
30206 | option | ||
30207 | |||
30208 | Specifies the option name. | ||
30209 | |||
30210 | The XGetDefault function returns the value of the resource | ||
30211 | prog.option, where prog is the program argument with the | ||
30212 | directory prefix removed and option must be a single component. | ||
30213 | Note that multilevel resources cannot be used with XGetDefault. | ||
30214 | The class "Program.Name" is always used for the resource | ||
30215 | lookup. If the specified option name does not exist for this | ||
30216 | program, XGetDefault returns NULL. The strings returned by | ||
30217 | XGetDefault are owned by Xlib and should not be modified or | ||
30218 | freed by the client. | ||
30219 | |||
30220 | If a database has been set with XrmSetDatabase, that database | ||
30221 | is used for the lookup. Otherwise, a database is created and is | ||
30222 | set in the display (as if by calling XrmSetDatabase). The | ||
30223 | database is created in the current locale. To create a | ||
30224 | database, XGetDefault uses resources from the RESOURCE_MANAGER | ||
30225 | property on the root window of screen zero. If no such property | ||
30226 | exists, a resource file in the user's home directory is used. | ||
30227 | On a POSIX-conformant system, this file is "$HOME/.Xdefaults". | ||
30228 | After loading these defaults, XGetDefault merges additional | ||
30229 | defaults specified by the XENVIRONMENT environment variable. If | ||
30230 | XENVIRONMENT is defined, it contains a full path name for the | ||
30231 | additional resource file. If XENVIRONMENT is not defined, | ||
30232 | XGetDefault looks for "$HOME/.Xdefaults-name" , where name | ||
30233 | specifies the name of the machine on which the application is | ||
30234 | running. | ||
30235 | |||
30236 | X Version 10 Compatibility Functions | ||
30237 | |||
30238 | You can use the X Version 10 compatibility functions to: | ||
30239 | * Draw and fill polygons and curves | ||
30240 | * Associate user data with a value | ||
30241 | |||
30242 | Drawing and Filling Polygons and Curves | ||
30243 | |||
30244 | Xlib provides functions that you can use to draw or fill | ||
30245 | arbitrary polygons or curves. These functions are provided | ||
30246 | mainly for compatibility with X Version 10 and have no server | ||
30247 | support. That is, they call other Xlib functions, not the | ||
30248 | server directly. Thus, if you just have straight lines to draw, | ||
30249 | using XDrawLines or XDrawSegments is much faster. | ||
30250 | |||
30251 | The functions discussed here provide all the functionality of | ||
30252 | the X Version 10 functions XDraw, XDrawFilled, XDrawPatterned, | ||
30253 | XDrawDashed, and XDrawTiled. They are as compatible as possible | ||
30254 | given X Version 11's new line-drawing functions. One thing to | ||
30255 | note, however, is that VertexDrawLastPoint is no longer | ||
30256 | supported. Also, the error status returned is the opposite of | ||
30257 | what it was under X Version 10 (this is the X Version 11 | ||
30258 | standard error status). XAppendVertex and XClearVertexFlag from | ||
30259 | X Version 10 also are not supported. | ||
30260 | |||
30261 | Just how the graphics context you use is set up actually | ||
30262 | determines whether you get dashes or not, and so on. Lines are | ||
30263 | properly joined if they connect and include the closing of a | ||
30264 | closed figure (see XDrawLines). The functions discussed here | ||
30265 | fail (return zero) only if they run out of memory or are passed | ||
30266 | a Vertex list that has a Vertex with VertexStartClosed set that | ||
30267 | is not followed by a Vertex with VertexEndClosed set. | ||
30268 | |||
30269 | To achieve the effects of the X Version 10 XDraw, XDrawDashed, | ||
30270 | and XDrawPatterned, use XDraw. | ||
30271 | |||
30272 | #include <X11/X10.h> | ||
30273 | |||
30274 | Status XDraw(Display *display, Drawable d, GC gc, Vertex | ||
30275 | *vlist, int vcount); | ||
30276 | |||
30277 | display | ||
30278 | |||
30279 | Specifies the connection to the X server. | ||
30280 | |||
30281 | d | ||
30282 | |||
30283 | Specifies the drawable. | ||
30284 | |||
30285 | gc | ||
30286 | |||
30287 | Specifies the GC. | ||
30288 | |||
30289 | vlist | ||
30290 | |||
30291 | Specifies a pointer to the list of vertices that indicate what | ||
30292 | to draw. | ||
30293 | |||
30294 | vcount | ||
30295 | |||
30296 | Specifies how many vertices are in vlist. | ||
30297 | |||
30298 | The XDraw function draws an arbitrary polygon or curve. The | ||
30299 | figure drawn is defined by the specified list of vertices | ||
30300 | (vlist). The points are connected by lines as specified in the | ||
30301 | flags in the vertex structure. | ||
30302 | |||
30303 | Each Vertex, as defined in <X11/X10.h>, is a structure with the | ||
30304 | following members: | ||
30305 | typedef struct _Vertex { | ||
30306 | short x,y; | ||
30307 | unsigned short flags; | ||
30308 | } Vertex; | ||
30309 | |||
30310 | The x and y members are the coordinates of the vertex that are | ||
30311 | relative to either the upper left inside corner of the drawable | ||
30312 | (if VertexRelative is zero) or the previous vertex (if | ||
30313 | VertexRelative is one). | ||
30314 | |||
30315 | The flags, as defined in <X11/X10.h>, are as follows: | ||
30316 | VertexRelative 0x0001 /* else absolute */ | ||
30317 | VertexDontDraw 0x0002 /* else draw */ | ||
30318 | VertexCurved 0x0004 /* else straight */ | ||
30319 | VertexStartClosed 0x0008 /* else not */ | ||
30320 | VertexEndClosed 0x0010 /* else not */ | ||
30321 | |||
30322 | * If VertexRelative is not set, the coordinates are absolute | ||
30323 | (that is, relative to the drawable's origin). The first | ||
30324 | vertex must be an absolute vertex. | ||
30325 | * If VertexDontDraw is one, no line or curve is drawn from | ||
30326 | the previous vertex to this one. This is analogous to | ||
30327 | picking up the pen and moving to another place before | ||
30328 | drawing another line. | ||
30329 | * If VertexCurved is one, a spline algorithm is used to draw | ||
30330 | a smooth curve from the previous vertex through this one to | ||
30331 | the next vertex. Otherwise, a straight line is drawn from | ||
30332 | the previous vertex to this one. It makes sense to set | ||
30333 | VertexCurved to one only if a previous and next vertex are | ||
30334 | both defined (either explicitly in the array or through the | ||
30335 | definition of a closed curve). | ||
30336 | * It is permissible for VertexDontDraw bits and VertexCurved | ||
30337 | bits both to be one. This is useful if you want to define | ||
30338 | the previous point for the smooth curve but do not want an | ||
30339 | actual curve drawing to start until this point. | ||
30340 | * If VertexStartClosed is one, then this point marks the | ||
30341 | beginning of a closed curve. This vertex must be followed | ||
30342 | later in the array by another vertex whose effective | ||
30343 | coordinates are identical and that has a VertexEndClosed | ||
30344 | bit of one. The points in between form a cycle to determine | ||
30345 | predecessor and successor vertices for the spline | ||
30346 | algorithm. | ||
30347 | |||
30348 | This function uses these GC components: function, plane-mask, | ||
30349 | line-width, line-style, cap-style, join-style, fill-style, | ||
30350 | subwindow-mode, clip-x-origin, clip-y-origin, and clip-mask. It | ||
30351 | also uses these GC mode-dependent components: foreground, | ||
30352 | background, tile, stipple, tile-stipple-x-origin, | ||
30353 | tile-stipple-y-origin, dash-offset, and dash-list. | ||
30354 | |||
30355 | To achieve the effects of the X Version 10 XDrawTiled and | ||
30356 | XDrawFilled, use XDrawFilled. | ||
30357 | |||
30358 | #include <X11/X10.h> | ||
30359 | |||
30360 | Status XDrawFilled(Display *display, Drawable d, GC gc, Vertex | ||
30361 | *vlist, int vcount); | ||
30362 | |||
30363 | display | ||
30364 | |||
30365 | Specifies the connection to the X server. | ||
30366 | |||
30367 | d | ||
30368 | |||
30369 | Specifies the drawable. | ||
30370 | |||
30371 | gc | ||
30372 | |||
30373 | Specifies the GC. | ||
30374 | |||
30375 | vlist | ||
30376 | |||
30377 | Specifies a pointer to the list of vertices that indicate what | ||
30378 | to draw. | ||
30379 | |||
30380 | vcount | ||
30381 | |||
30382 | Specifies how many vertices are in vlist. | ||
30383 | |||
30384 | The XDrawFilled function draws arbitrary polygons or curves and | ||
30385 | then fills them. | ||
30386 | |||
30387 | This function uses these GC components: function, plane-mask, | ||
30388 | line-width, line-style, cap-style, join-style, fill-style, | ||
30389 | subwindow-mode, clip-x-origin, clip-y-origin, and clip-mask. It | ||
30390 | also uses these GC mode-dependent components: foreground, | ||
30391 | background, tile, stipple, tile-stipple-x-origin, | ||
30392 | tile-stipple-y-origin, dash-offset, dash-list, fill-style, and | ||
30393 | fill-rule. | ||
30394 | |||
30395 | Associating User Data with a Value | ||
30396 | |||
30397 | These functions have been superseded by the context management | ||
30398 | functions (see section 16.10). It is often necessary to | ||
30399 | associate arbitrary information with resource IDs. Xlib | ||
30400 | provides the XAssocTable functions that you can use to make | ||
30401 | such an association. Application programs often need to be able | ||
30402 | to easily refer to their own data structures when an event | ||
30403 | arrives. The XAssocTable system provides users of the X library | ||
30404 | with a method for associating their own data structures with X | ||
30405 | resources (Pixmaps, Fonts, Windows, and so on). | ||
30406 | |||
30407 | An XAssocTable can be used to type X resources. For example, | ||
30408 | the user may want to have three or four types of windows, each | ||
30409 | with different properties. This can be accomplished by | ||
30410 | associating each X window ID with a pointer to a window | ||
30411 | property data structure defined by the user. A generic type has | ||
30412 | been defined in the X library for resource IDs. It is called an | ||
30413 | XID. | ||
30414 | |||
30415 | There are a few guidelines that should be observed when using | ||
30416 | an XAssocTable : | ||
30417 | * All XIDs are relative to the specified display. | ||
30418 | * Because of the hashing scheme used by the association | ||
30419 | mechanism, the following rules for determining the size of | ||
30420 | a XAssocTable should be followed. Associations will be made | ||
30421 | and looked up more efficiently if the table size (number of | ||
30422 | buckets in the hashing system) is a power of two and if | ||
30423 | there are not more than 8 XIDs per bucket. | ||
30424 | |||
30425 | To return a pointer to a new XAssocTable, use | ||
30426 | XCreateAssocTable. | ||
30427 | |||
30428 | XAssocTable *XCreateAssocTable(int size); | ||
30429 | |||
30430 | size | ||
30431 | |||
30432 | Specifies the number of buckets in the hash system of | ||
30433 | XAssocTable. | ||
30434 | |||
30435 | The size argument specifies the number of buckets in the hash | ||
30436 | system of XAssocTable. For reasons of efficiency the number of | ||
30437 | buckets should be a power of two. Some size suggestions might | ||
30438 | be: use 32 buckets per 100 objects, and a reasonable maximum | ||
30439 | number of objects per buckets is 8. If an error allocating | ||
30440 | memory for the XAssocTable occurs, a NULL pointer is returned. | ||
30441 | |||
30442 | To create an entry in a given XAssocTable, use XMakeAssoc. | ||
30443 | |||
30444 | XMakeAssoc(Display *display, XAssocTable *table, XID x_id, char | ||
30445 | *data); | ||
30446 | |||
30447 | display | ||
30448 | |||
30449 | Specifies the connection to the X server. | ||
30450 | |||
30451 | table | ||
30452 | |||
30453 | Specifies the assoc table. | ||
30454 | |||
30455 | x_id | ||
30456 | |||
30457 | Specifies the X resource ID. | ||
30458 | |||
30459 | data | ||
30460 | |||
30461 | Specifies the data to be associated with the X resource ID. | ||
30462 | |||
30463 | The XMakeAssoc function inserts data into an XAssocTable keyed | ||
30464 | on an XID. Data is inserted into the table only once. Redundant | ||
30465 | inserts are ignored. The queue in each association bucket is | ||
30466 | sorted from the lowest XID to the highest XID. | ||
30467 | |||
30468 | To obtain data from a given XAssocTable, use XLookUpAssoc. | ||
30469 | |||
30470 | char *XLookUpAssoc(Display *display, XAssocTable *table, XID | ||
30471 | x_id); | ||
30472 | |||
30473 | display | ||
30474 | |||
30475 | Specifies the connection to the X server. | ||
30476 | |||
30477 | table | ||
30478 | |||
30479 | Specifies the assoc table. | ||
30480 | |||
30481 | x_id | ||
30482 | |||
30483 | Specifies the X resource ID. | ||
30484 | |||
30485 | The XLookUpAssoc function retrieves the data stored in an | ||
30486 | XAssocTable by its XID. If an appropriately matching XID can be | ||
30487 | found in the table, XLookUpAssoc returns the data associated | ||
30488 | with it. If the x_id cannot be found in the table, it returns | ||
30489 | NULL. | ||
30490 | |||
30491 | To delete an entry from a given XAssocTable, use XDeleteAssoc. | ||
30492 | |||
30493 | XDeleteAssoc(Display *display, XAssocTable *table, XID x_id); | ||
30494 | |||
30495 | display | ||
30496 | |||
30497 | Specifies the connection to the X server. | ||
30498 | |||
30499 | table | ||
30500 | |||
30501 | Specifies the assoc table. | ||
30502 | |||
30503 | x_id | ||
30504 | |||
30505 | Specifies the X resource ID. | ||
30506 | |||
30507 | The XDeleteAssoc function deletes an association in an | ||
30508 | XAssocTable keyed on its XID. Redundant deletes (and deletes of | ||
30509 | nonexistent XIDs) are ignored. Deleting associations in no way | ||
30510 | impairs the performance of an XAssocTable. | ||
30511 | |||
30512 | To free the memory associated with a given XAssocTable, use | ||
30513 | XDestroyAssocTable. | ||
30514 | |||
30515 | XDestroyAssocTable(XAssocTable *table); | ||
30516 | |||
30517 | table | ||
30518 | |||
30519 | Specifies the assoc table. | ||
30520 | |||
30521 | Glossary | ||
30522 | |||
30523 | Access control list | ||
30524 | X maintains a list of hosts from which client programs | ||
30525 | can be run. By default, only programs on the local host | ||
30526 | and hosts specified in an initial list read by the | ||
30527 | server can use the display. This access control list can | ||
30528 | be changed by clients on the local host. Some server | ||
30529 | implementations can also implement other authorization | ||
30530 | mechanisms in addition to or in place of this mechanism. | ||
30531 | The action of this mechanism can be conditional based on | ||
30532 | the authorization protocol name and data received by the | ||
30533 | server at connection setup. | ||
30534 | |||
30535 | Active grab | ||
30536 | A grab is active when the pointer or keyboard is | ||
30537 | actually owned by the single grabbing client. | ||
30538 | |||
30539 | Ancestors | ||
30540 | If W is an inferior of A, then A is an ancestor of W. | ||
30541 | |||
30542 | Atom | ||
30543 | An atom is a unique ID corresponding to a string name. | ||
30544 | Atoms are used to identify properties, types, and | ||
30545 | selections. | ||
30546 | |||
30547 | Background | ||
30548 | An InputOutput window can have a background, which is | ||
30549 | defined as a pixmap. When regions of the window have | ||
30550 | their contents lost or invalidated, the server | ||
30551 | automatically tiles those regions with the background. | ||
30552 | |||
30553 | Backing store | ||
30554 | When a server maintains the contents of a window, the | ||
30555 | pixels saved off-screen are known as a backing store. | ||
30556 | |||
30557 | Base font name | ||
30558 | A font name used to select a family of fonts whose | ||
30559 | members may be encoded in various charsets. The | ||
30560 | CharSetRegistry and CharSetEncoding fields of an XLFD | ||
30561 | name identify the charset of the font. A base font name | ||
30562 | may be a full XLFD name, with all fourteen '-' | ||
30563 | delimiters, or an abbreviated XLFD name containing only | ||
30564 | the first 12 fields of an XLFD name, up to but not | ||
30565 | including CharSetRegistry, with or without the | ||
30566 | thirteenth '-', or a non-XLFD name. Any XLFD fields may | ||
30567 | contain wild cards. | ||
30568 | |||
30569 | When creating an XFontSet, Xlib accepts from the client | ||
30570 | a list of one or more base font names which select one | ||
30571 | or more font families. They are combined with charset | ||
30572 | names obtained from the encoding of the locale to load | ||
30573 | the fonts required to render text. | ||
30574 | |||
30575 | Bit gravity | ||
30576 | When a window is resized, the contents of the window are | ||
30577 | not necessarily discarded. It is possible to request | ||
30578 | that the server relocate the previous contents to some | ||
30579 | region of the window (though no guarantees are made). | ||
30580 | This attraction of window contents for some location of | ||
30581 | a window is known as bit gravity. | ||
30582 | |||
30583 | Bit plane | ||
30584 | When a pixmap or window is thought of as a stack of | ||
30585 | bitmaps, each bitmap is called a bit plane or plane. | ||
30586 | |||
30587 | Bitmap | ||
30588 | A bitmap is a pixmap of depth one. | ||
30589 | |||
30590 | Border | ||
30591 | An InputOutput window can have a border of equal | ||
30592 | thickness on all four sides of the window. The contents | ||
30593 | of the border are defined by a pixmap, and the server | ||
30594 | automatically maintains the contents of the border. | ||
30595 | Exposure events are never generated for border regions. | ||
30596 | |||
30597 | Button grabbing | ||
30598 | Buttons on the pointer can be passively grabbed by a | ||
30599 | client. When the button is pressed, the pointer is then | ||
30600 | actively grabbed by the client. | ||
30601 | |||
30602 | Byte order | ||
30603 | For image (pixmap/bitmap) data, the server defines the | ||
30604 | byte order, and clients with different native byte | ||
30605 | ordering must swap bytes as necessary. For all other | ||
30606 | parts of the protocol, the client defines the byte | ||
30607 | order, and the server swaps bytes as necessary. | ||
30608 | |||
30609 | Character | ||
30610 | A member of a set of elements used for the organization, | ||
30611 | control, or representation of text (ISO2022, as adapted | ||
30612 | by XPG3). Note that in ISO2022 terms, a character is not | ||
30613 | bound to a coded value until it is identified as part of | ||
30614 | a coded character set. | ||
30615 | |||
30616 | Character glyph | ||
30617 | The abstract graphical symbol for a character. Character | ||
30618 | glyphs may or may not map one-to-one to font glyphs, and | ||
30619 | may be context-dependent, varying with the adjacent | ||
30620 | characters. Multiple characters may map to a single | ||
30621 | character glyph. | ||
30622 | |||
30623 | Character set | ||
30624 | A collection of characters. | ||
30625 | |||
30626 | Charset | ||
30627 | An encoding with a uniform, state-independent mapping | ||
30628 | from characters to codepoints. A coded character set. | ||
30629 | |||
30630 | For display in X, there can be a direct mapping from a | ||
30631 | charset to one font, if the width of all characters in | ||
30632 | the charset is either one or two bytes. A text string | ||
30633 | encoded in an encoding such as Shift-JIS cannot be | ||
30634 | passed directly to the X server, because the text | ||
30635 | imaging requests accept only single-width charsets | ||
30636 | (either 8 or 16 bits). Charsets which meet these | ||
30637 | restrictions can serve as ``font charsets''. Font | ||
30638 | charsets strictly speaking map font indices to font | ||
30639 | glyphs, not characters to character glyphs. | ||
30640 | |||
30641 | Note that a single font charset is sometimes used as the | ||
30642 | encoding of a locale, for example, ISO8859-1. | ||
30643 | |||
30644 | Children | ||
30645 | The children of a window are its first-level subwindows. | ||
30646 | |||
30647 | Class | ||
30648 | Windows can be of different classes or types. See the | ||
30649 | entries for InputOnly and InputOutput windows for | ||
30650 | further information about valid window types. | ||
30651 | |||
30652 | Client | ||
30653 | An application program connects to the window system | ||
30654 | server by some interprocess communication (IPC) path, | ||
30655 | such as a TCP connection or a shared memory buffer. This | ||
30656 | program is referred to as a client of the window system | ||
30657 | server. More precisely, the client is the IPC path | ||
30658 | itself. A program with multiple paths open to the server | ||
30659 | is viewed as multiple clients by the protocol. Resource | ||
30660 | lifetimes are controlled by connection lifetimes, not by | ||
30661 | program lifetimes. | ||
30662 | |||
30663 | Clipping region | ||
30664 | In a graphics context, a bitmap or list of rectangles | ||
30665 | can be specified to restrict output to a particular | ||
30666 | region of the window. The image defined by the bitmap or | ||
30667 | rectangles is called a clipping region. | ||
30668 | |||
30669 | Coded character | ||
30670 | A character bound to a codepoint. | ||
30671 | |||
30672 | Coded character set | ||
30673 | A set of unambiguous rules that establishes a character | ||
30674 | set and the one-to-one relationship between each | ||
30675 | character of the set and its bit representation. | ||
30676 | (ISO2022, as adapted by XPG3) A definition of a | ||
30677 | one-to-one mapping of a set of characters to a set of | ||
30678 | codepoints. | ||
30679 | |||
30680 | Codepoint | ||
30681 | The coded representation of a single character in a | ||
30682 | coded character set. | ||
30683 | |||
30684 | Colormap | ||
30685 | A colormap consists of a set of entries defining color | ||
30686 | values. The colormap associated with a window is used to | ||
30687 | display the contents of the window; each pixel value | ||
30688 | indexes the colormap to produce an RGB value that drives | ||
30689 | the guns of a monitor. Depending on hardware | ||
30690 | limitations, one or more colormaps can be installed at | ||
30691 | one time so that windows associated with those maps | ||
30692 | display with true colors. | ||
30693 | |||
30694 | Connection | ||
30695 | The IPC path between the server and client program is | ||
30696 | known as a connection. A client program typically (but | ||
30697 | not necessarily) has one connection to the server over | ||
30698 | which requests and events are sent. | ||
30699 | |||
30700 | Containment | ||
30701 | A window contains the pointer if the window is viewable | ||
30702 | and the hotspot of the cursor is within a visible region | ||
30703 | of the window or a visible region of one of its | ||
30704 | inferiors. The border of the window is included as part | ||
30705 | of the window for containment. The pointer is in a | ||
30706 | window if the window contains the pointer but no | ||
30707 | inferior contains the pointer. | ||
30708 | |||
30709 | Coordinate system | ||
30710 | The coordinate system has X horizontal and Y vertical, | ||
30711 | with the origin [0, 0] at the upper left. Coordinates | ||
30712 | are integral and coincide with pixel centers. Each | ||
30713 | window and pixmap has its own coordinate system. For a | ||
30714 | window, the origin is inside the border at the inside | ||
30715 | upper-left corner. | ||
30716 | |||
30717 | Cursor | ||
30718 | A cursor is the visible shape of the pointer on a | ||
30719 | screen. It consists of a hotspot, a source bitmap, a | ||
30720 | shape bitmap, and a pair of colors. The cursor defined | ||
30721 | for a window controls the visible appearance when the | ||
30722 | pointer is in that window. | ||
30723 | |||
30724 | Depth | ||
30725 | The depth of a window or pixmap is the number of bits | ||
30726 | per pixel it has. The depth of a graphics context is the | ||
30727 | depth of the drawables it can be used in conjunction | ||
30728 | with graphics output. | ||
30729 | |||
30730 | Device | ||
30731 | Keyboards, mice, tablets, track-balls, button boxes, and | ||
30732 | so on are all collectively known as input devices. | ||
30733 | Pointers can have one or more buttons (the most common | ||
30734 | number is three). The core protocol only deals with two | ||
30735 | devices: the keyboard and the pointer. | ||
30736 | |||
30737 | DirectColor | ||
30738 | DirectColor is a class of colormap in which a pixel | ||
30739 | value is decomposed into three separate subfields for | ||
30740 | indexing. The first subfield indexes an array to produce | ||
30741 | red intensity values. The second subfield indexes a | ||
30742 | second array to produce blue intensity values. The third | ||
30743 | subfield indexes a third array to produce green | ||
30744 | intensity values. The RGB (red, green, and blue) values | ||
30745 | in the colormap entry can be changed dynamically. | ||
30746 | |||
30747 | Display | ||
30748 | A server, together with its screens and input devices, | ||
30749 | is called a display. The Xlib Display structure contains | ||
30750 | all information about the particular display and its | ||
30751 | screens as well as the state that Xlib needs to | ||
30752 | communicate with the display over a particular | ||
30753 | connection. | ||
30754 | |||
30755 | Drawable | ||
30756 | Both windows and pixmaps can be used as sources and | ||
30757 | destinations in graphics operations. These windows and | ||
30758 | pixmaps are collectively known as drawables. However, an | ||
30759 | InputOnly window cannot be used as a source or | ||
30760 | destination in a graphics operation. | ||
30761 | |||
30762 | Encoding | ||
30763 | A set of unambiguous rules that establishes a character | ||
30764 | set and a relationship between the characters and their | ||
30765 | representations. The character set does not have to be | ||
30766 | fixed to a finite pre-defined set of characters. The | ||
30767 | representations do not have to be of uniform length. | ||
30768 | Examples are an ISO2022 graphic set, a state-independent | ||
30769 | or state-dependent combination of graphic sets, possibly | ||
30770 | including control sets, and the X Compound Text | ||
30771 | encoding. | ||
30772 | |||
30773 | In X, encodings are identified by a string which appears | ||
30774 | as: the CharSetRegistry and CharSetEncoding components | ||
30775 | of an XLFD name; the name of a charset of the locale for | ||
30776 | which a font could not be found; or an atom which | ||
30777 | identifies the encoding of a text property or which | ||
30778 | names an encoding for a text selection target type. | ||
30779 | Encoding names should be composed of characters from the | ||
30780 | X Portable Character Set. | ||
30781 | |||
30782 | Escapement | ||
30783 | The escapement of a string is the distance in pixels in | ||
30784 | the primary draw direction from the drawing origin to | ||
30785 | the origin of the next character (that is, the one | ||
30786 | following the given string) to be drawn. | ||
30787 | |||
30788 | Event | ||
30789 | Clients are informed of information asynchronously by | ||
30790 | means of events. These events can be either | ||
30791 | asynchronously generated from devices or generated as | ||
30792 | side effects of client requests. Events are grouped into | ||
30793 | types. The server never sends an event to a client | ||
30794 | unless the client has specifically asked to be informed | ||
30795 | of that type of event. However, clients can force events | ||
30796 | to be sent to other clients. Events are typically | ||
30797 | reported relative to a window. | ||
30798 | |||
30799 | Event mask | ||
30800 | Events are requested relative to a window. The set of | ||
30801 | event types a client requests relative to a window is | ||
30802 | described by using an event mask. | ||
30803 | |||
30804 | Event propagation | ||
30805 | Device-related events propagate from the source window | ||
30806 | to ancestor windows until some client has expressed | ||
30807 | interest in handling that type of event or until the | ||
30808 | event is discarded explicitly. | ||
30809 | |||
30810 | Event source | ||
30811 | The deepest viewable window that the pointer is in is | ||
30812 | called the source of a device-related event. | ||
30813 | |||
30814 | Event synchronization | ||
30815 | There are certain race conditions possible when | ||
30816 | demultiplexing device events to clients (in particular, | ||
30817 | deciding where pointer and keyboard events should be | ||
30818 | sent when in the middle of window management | ||
30819 | operations). The event synchronization mechanism allows | ||
30820 | synchronous processing of device events. | ||
30821 | |||
30822 | Exposure event | ||
30823 | Servers do not guarantee to preserve the contents of | ||
30824 | windows when windows are obscured or reconfigured. | ||
30825 | Exposure events are sent to clients to inform them when | ||
30826 | contents of regions of windows have been lost. | ||
30827 | |||
30828 | Extension | ||
30829 | Named extensions to the core protocol can be defined to | ||
30830 | extend the system. Extensions to output requests, | ||
30831 | resources, and event types are all possible and | ||
30832 | expected. | ||
30833 | |||
30834 | Font | ||
30835 | A font is an array of glyphs (typically characters). The | ||
30836 | protocol does no translation or interpretation of | ||
30837 | character sets. The client simply indicates values used | ||
30838 | to index the glyph array. A font contains additional | ||
30839 | metric information to determine interglyph and interline | ||
30840 | spacing. | ||
30841 | |||
30842 | Font glyph | ||
30843 | The abstract graphical symbol for an index into a font. | ||
30844 | |||
30845 | Frozen events | ||
30846 | Clients can freeze event processing during keyboard and | ||
30847 | pointer grabs. | ||
30848 | |||
30849 | GC | ||
30850 | GC is an abbreviation for graphics context. See Graphics | ||
30851 | context. | ||
30852 | |||
30853 | Glyph | ||
30854 | An identified abstract graphical symbol independent of | ||
30855 | any actual image. (ISO/IEC/DIS 9541-1) An abstract | ||
30856 | visual representation of a graphic character, not bound | ||
30857 | to a codepoint. | ||
30858 | |||
30859 | Glyph image | ||
30860 | An image of a glyph, as obtained from a glyph | ||
30861 | representation displayed on a presentation surface. | ||
30862 | (ISO/IEC/DIS 9541-1) | ||
30863 | |||
30864 | Grab | ||
30865 | Keyboard keys, the keyboard, pointer buttons, the | ||
30866 | pointer, and the server can be grabbed for exclusive use | ||
30867 | by a client. In general, these facilities are not | ||
30868 | intended to be used by normal applications but are | ||
30869 | intended for various input and window managers to | ||
30870 | implement various styles of user interfaces. | ||
30871 | |||
30872 | Graphics context | ||
30873 | Various information for graphics output is stored in a | ||
30874 | graphics context (GC), such as foreground pixel, | ||
30875 | background pixel, line width, clipping region, and so | ||
30876 | on. A graphics context can only be used with drawables | ||
30877 | that have the same root and the same depth as the | ||
30878 | graphics context. | ||
30879 | |||
30880 | Gravity | ||
30881 | The contents of windows and windows themselves have a | ||
30882 | gravity, which determines how the contents move when a | ||
30883 | window is resized. See Bit gravity and Window gravity. | ||
30884 | |||
30885 | GrayScale | ||
30886 | GrayScale can be viewed as a degenerate case of | ||
30887 | PseudoColor, in which the red, green, and blue values in | ||
30888 | any given colormap entry are equal and thus, produce | ||
30889 | shades of gray. The gray values can be changed | ||
30890 | dynamically. | ||
30891 | |||
30892 | Host Portable Character Encoding | ||
30893 | The encoding of the X Portable Character Set on the | ||
30894 | host. The encoding itself is not defined by this | ||
30895 | standard, but the encoding must be the same in all | ||
30896 | locales supported by Xlib on the host. If a string is | ||
30897 | said to be in the Host Portable Character Encoding, then | ||
30898 | it only contains characters from the X Portable | ||
30899 | Character Set, in the host encoding. | ||
30900 | |||
30901 | Hotspot | ||
30902 | A cursor has an associated hotspot, which defines the | ||
30903 | point in the cursor corresponding to the coordinates | ||
30904 | reported for the pointer. | ||
30905 | |||
30906 | Identifier | ||
30907 | An identifier is a unique value associated with a | ||
30908 | resource that clients use to name that resource. The | ||
30909 | identifier can be used over any connection to name the | ||
30910 | resource. | ||
30911 | |||
30912 | Inferiors | ||
30913 | The inferiors of a window are all of the subwindows | ||
30914 | nested below it: the children, the children's children, | ||
30915 | and so on. | ||
30916 | |||
30917 | Input focus | ||
30918 | The input focus is usually a window defining the scope | ||
30919 | for processing of keyboard input. If a generated | ||
30920 | keyboard event usually would be reported to this window | ||
30921 | or one of its inferiors, the event is reported as usual. | ||
30922 | Otherwise, the event is reported with respect to the | ||
30923 | focus window. The input focus also can be set such that | ||
30924 | all keyboard events are discarded and such that the | ||
30925 | focus window is dynamically taken to be the root window | ||
30926 | of whatever screen the pointer is on at each keyboard | ||
30927 | event. | ||
30928 | |||
30929 | Input manager | ||
30930 | Control over keyboard input is typically provided by an | ||
30931 | input manager client, which usually is part of a window | ||
30932 | manager. | ||
30933 | |||
30934 | InputOnly window | ||
30935 | An InputOnly window is a window that cannot be used for | ||
30936 | graphics requests. InputOnly windows are invisible and | ||
30937 | are used to control such things as cursors, input event | ||
30938 | generation, and grabbing. InputOnly windows cannot have | ||
30939 | InputOutput windows as inferiors. | ||
30940 | |||
30941 | InputOutput window | ||
30942 | An InputOutput window is the normal kind of window that | ||
30943 | is used for both input and output. InputOutput windows | ||
30944 | can have both InputOutput and InputOnly windows as | ||
30945 | inferiors. | ||
30946 | |||
30947 | Internationalization | ||
30948 | The process of making software adaptable to the | ||
30949 | requirements of different native languages, local | ||
30950 | customs, and character string encodings. Making a | ||
30951 | computer program adaptable to different locales without | ||
30952 | program source modifications or recompilation. | ||
30953 | |||
30954 | ISO2022 | ||
30955 | ISO standard for code extension techniques for 7-bit and | ||
30956 | 8-bit coded character sets. | ||
30957 | |||
30958 | Key grabbing | ||
30959 | Keys on the keyboard can be passively grabbed by a | ||
30960 | client. When the key is pressed, the keyboard is then | ||
30961 | actively grabbed by the client. | ||
30962 | |||
30963 | Keyboard grabbing | ||
30964 | A client can actively grab control of the keyboard, and | ||
30965 | key events will be sent to that client rather than the | ||
30966 | client the events would normally have been sent to. | ||
30967 | |||
30968 | Keysym | ||
30969 | An encoding of a symbol on a keycap on a keyboard. | ||
30970 | |||
30971 | Latin-1 | ||
30972 | The coded character set defined by the ISO8859-1 | ||
30973 | standard. | ||
30974 | |||
30975 | Latin Portable Character Encoding | ||
30976 | The encoding of the X Portable Character Set using the | ||
30977 | Latin-1 codepoints plus ASCII control characters. If a | ||
30978 | string is said to be in the Latin Portable Character | ||
30979 | Encoding, then it only contains characters from the X | ||
30980 | Portable Character Set, not all of Latin-1. | ||
30981 | |||
30982 | Locale | ||
30983 | The international environment of a computer program | ||
30984 | defining the ``localized'' behavior of that program at | ||
30985 | run-time. This information can be established from one | ||
30986 | or more sets of localization data. ANSI C defines | ||
30987 | locale-specific processing by C system library calls. | ||
30988 | See ANSI C and the X/Open Portability Guide | ||
30989 | specifications for more details. In this specification, | ||
30990 | on implementations that conform to the ANSI C library, | ||
30991 | the ``current locale'' is the current setting of the | ||
30992 | LC_CTYPE setlocale category. Associated with each locale | ||
30993 | is a text encoding. When text is processed in the | ||
30994 | context of a locale, the text must be in the encoding of | ||
30995 | the locale. The current locale affects Xlib in its: | ||
30996 | |||
30997 | + Encoding and processing of input method text | ||
30998 | + Encoding of resource files and values | ||
30999 | + Encoding and imaging of text strings | ||
31000 | + Encoding and decoding for inter-client text | ||
31001 | communication | ||
31002 | |||
31003 | Locale name | ||
31004 | The identifier used to select the desired locale for the | ||
31005 | host C library and X library functions. On ANSI C | ||
31006 | library compliant systems, the locale argument to the | ||
31007 | setlocale function. | ||
31008 | |||
31009 | Localization | ||
31010 | The process of establishing information within a | ||
31011 | computer system specific to the operation of particular | ||
31012 | native languages, local customs and coded character | ||
31013 | sets. (XPG3) | ||
31014 | |||
31015 | Mapped | ||
31016 | A window is said to be mapped if a map call has been | ||
31017 | performed on it. Unmapped windows and their inferiors | ||
31018 | are never viewable or visible. | ||
31019 | |||
31020 | Modifier keys | ||
31021 | Shift, Control, Meta, Super, Hyper, Alt, Compose, Apple, | ||
31022 | CapsLock, ShiftLock, and similar keys are called | ||
31023 | modifier keys. | ||
31024 | |||
31025 | Monochrome | ||
31026 | Monochrome is a special case of StaticGray in which | ||
31027 | there are only two colormap entries. | ||
31028 | |||
31029 | Multibyte | ||
31030 | A character whose codepoint is stored in more than one | ||
31031 | byte; any encoding which can contain multibyte | ||
31032 | characters; text in a multibyte encoding. The ``char *'' | ||
31033 | null-terminated string datatype in ANSI C. Note that | ||
31034 | references in this document to multibyte strings imply | ||
31035 | only that the strings may contain multibyte characters. | ||
31036 | |||
31037 | Obscure | ||
31038 | A window is obscured if some other window obscures it. A | ||
31039 | window can be partially obscured and so still have | ||
31040 | visible regions. Window A obscures window B if both are | ||
31041 | viewable InputOutput windows, if A is higher in the | ||
31042 | global stacking order, and if the rectangle defined by | ||
31043 | the outside edges of A intersects the rectangle defined | ||
31044 | by the outside edges of B. Note the distinction between | ||
31045 | obscures and occludes. Also note that window borders are | ||
31046 | included in the calculation. | ||
31047 | |||
31048 | Occlude | ||
31049 | A window is occluded if some other window occludes it. | ||
31050 | Window A occludes window B if both are mapped, if A is | ||
31051 | higher in the global stacking order, and if the | ||
31052 | rectangle defined by the outside edges of A intersects | ||
31053 | the rectangle defined by the outside edges of B. Note | ||
31054 | the distinction between occludes and obscures. Also note | ||
31055 | that window borders are included in the calculation and | ||
31056 | that InputOnly windows never obscure other windows but | ||
31057 | can occlude other windows. | ||
31058 | |||
31059 | Padding | ||
31060 | Some padding bytes are inserted in the data stream to | ||
31061 | maintain alignment of the protocol requests on natural | ||
31062 | boundaries. This increases ease of portability to some | ||
31063 | machine architectures. | ||
31064 | |||
31065 | Parent window | ||
31066 | If C is a child of P, then P is the parent of C. | ||
31067 | |||
31068 | Passive grab | ||
31069 | Grabbing a key or button is a passive grab. The grab | ||
31070 | activates when the key or button is actually pressed. | ||
31071 | |||
31072 | Pixel value | ||
31073 | A pixel is an N-bit value, where N is the number of bit | ||
31074 | planes used in a particular window or pixmap (that is, | ||
31075 | is the depth of the window or pixmap). A pixel in a | ||
31076 | window indexes a colormap to derive an actual color to | ||
31077 | be displayed. | ||
31078 | |||
31079 | Pixmap | ||
31080 | A pixmap is a three-dimensional array of bits. A pixmap | ||
31081 | is normally thought of as a two-dimensional array of | ||
31082 | pixels, where each pixel can be a value from 0 to 2^N-1, | ||
31083 | and where N is the depth (z axis) of the pixmap. A | ||
31084 | pixmap can also be thought of as a stack of N bitmaps. A | ||
31085 | pixmap can only be used on the screen that it was | ||
31086 | created in. | ||
31087 | |||
31088 | Plane | ||
31089 | When a pixmap or window is thought of as a stack of | ||
31090 | bitmaps, each bitmap is called a plane or bit plane. | ||
31091 | |||
31092 | Plane mask | ||
31093 | Graphics operations can be restricted to only affect a | ||
31094 | subset of bit planes of a destination. A plane mask is a | ||
31095 | bit mask describing which planes are to be modified. The | ||
31096 | plane mask is stored in a graphics context. | ||
31097 | |||
31098 | Pointer | ||
31099 | The pointer is the pointing device currently attached to | ||
31100 | the cursor and tracked on the screens. | ||
31101 | |||
31102 | Pointer grabbing | ||
31103 | A client can actively grab control of the pointer. Then | ||
31104 | button and motion events will be sent to that client | ||
31105 | rather than the client the events would normally have | ||
31106 | been sent to. | ||
31107 | |||
31108 | Pointing device | ||
31109 | A pointing device is typically a mouse, tablet, or some | ||
31110 | other device with effective dimensional motion. The core | ||
31111 | protocol defines only one visible cursor, which tracks | ||
31112 | whatever pointing device is attached as the pointer. | ||
31113 | |||
31114 | POSIX | ||
31115 | Portable Operating System Interface, ISO/IEC 9945-1 | ||
31116 | (IEEE Std 1003.1). | ||
31117 | |||
31118 | POSIX Portable Filename Character Set | ||
31119 | The set of 65 characters which can be used in naming | ||
31120 | files on a POSIX-compliant host that are correctly | ||
31121 | processed in all locales. The set is: | ||
31122 | |||
31123 | a..z A..Z 0..9 ._- | ||
31124 | |||
31125 | Property | ||
31126 | Windows can have associated properties that consist of a | ||
31127 | name, a type, a data format, and some data. The protocol | ||
31128 | places no interpretation on properties. They are | ||
31129 | intended as a general-purpose naming mechanism for | ||
31130 | clients. For example, clients might use properties to | ||
31131 | share information such as resize hints, program names, | ||
31132 | and icon formats with a window manager. | ||
31133 | |||
31134 | Property list | ||
31135 | The property list of a window is the list of properties | ||
31136 | that have been defined for the window. | ||
31137 | |||
31138 | PseudoColor | ||
31139 | PseudoColor is a class of colormap in which a pixel | ||
31140 | value indexes the colormap entry to produce an | ||
31141 | independent RGB value; that is, the colormap is viewed | ||
31142 | as an array of triples (RGB values). The RGB values can | ||
31143 | be changed dynamically. | ||
31144 | |||
31145 | Rectangle | ||
31146 | A rectangle specified by [x,y,w,h] has an infinitely | ||
31147 | thin outline path with corners at [x,y], [x+w,y], | ||
31148 | [x+w,y+h], and [x, y+h]. When a rectangle is filled, the | ||
31149 | lower-right edges are not drawn. For example, if w=h=0, | ||
31150 | nothing would be drawn. For w=h=1, a single pixel would | ||
31151 | be drawn. | ||
31152 | |||
31153 | Redirecting control | ||
31154 | Window managers (or client programs) may enforce window | ||
31155 | layout policy in various ways. When a client attempts to | ||
31156 | change the size or position of a window, the operation | ||
31157 | may be redirected to a specified client rather than the | ||
31158 | operation actually being performed. | ||
31159 | |||
31160 | Reply | ||
31161 | Information requested by a client program using the X | ||
31162 | protocol is sent back to the client with a reply. Both | ||
31163 | events and replies are multiplexed on the same | ||
31164 | connection. Most requests do not generate replies, but | ||
31165 | some requests generate multiple replies. | ||
31166 | |||
31167 | Request | ||
31168 | A command to the server is called a request. It is a | ||
31169 | single block of data sent over a connection. | ||
31170 | |||
31171 | Resource | ||
31172 | Windows, pixmaps, cursors, fonts, graphics contexts, and | ||
31173 | colormaps are known as resources. They all have unique | ||
31174 | identifiers associated with them for naming purposes. | ||
31175 | The lifetime of a resource usually is bounded by the | ||
31176 | lifetime of the connection over which the resource was | ||
31177 | created. | ||
31178 | |||
31179 | RGB values | ||
31180 | RGB values are the red, green, and blue intensity values | ||
31181 | that are used to define a color. These values are always | ||
31182 | represented as 16-bit, unsigned numbers, with 0 the | ||
31183 | minimum intensity and 65535 the maximum intensity. The X | ||
31184 | server scales these values to match the display | ||
31185 | hardware. | ||
31186 | |||
31187 | Root | ||
31188 | The root of a pixmap or graphics context is the same as | ||
31189 | the root of whatever drawable was used when the pixmap | ||
31190 | or GC was created. The root of a window is the root | ||
31191 | window under which the window was created. | ||
31192 | |||
31193 | Root window | ||
31194 | Each screen has a root window covering it. The root | ||
31195 | window cannot be reconfigured or unmapped, but otherwise | ||
31196 | it acts as a full-fledged window. A root window has no | ||
31197 | parent. | ||
31198 | |||
31199 | Save set | ||
31200 | The save set of a client is a list of other clients' | ||
31201 | windows that, if they are inferiors of one of the | ||
31202 | client's windows at connection close, should not be | ||
31203 | destroyed and that should be remapped if currently | ||
31204 | unmapped. Save sets are typically used by window | ||
31205 | managers to avoid lost windows if the manager should | ||
31206 | terminate abnormally. | ||
31207 | |||
31208 | Scanline | ||
31209 | A scanline is a list of pixel or bit values viewed as a | ||
31210 | horizontal row (all values having the same y coordinate) | ||
31211 | of an image, with the values ordered by increasing the x | ||
31212 | coordinate. | ||
31213 | |||
31214 | Scanline order | ||
31215 | An image represented in scanline order contains | ||
31216 | scanlines ordered by increasing the y coordinate. | ||
31217 | |||
31218 | Screen | ||
31219 | A server can provide several independent screens, which | ||
31220 | typically have physically independent monitors. This | ||
31221 | would be the expected configuration when there is only a | ||
31222 | single keyboard and pointer shared among the screens. A | ||
31223 | Screen structure contains the information about that | ||
31224 | screen and is linked to the Display structure. | ||
31225 | |||
31226 | Selection | ||
31227 | A selection can be thought of as an indirect property | ||
31228 | with dynamic type. That is, rather than having the | ||
31229 | property stored in the X server, it is maintained by | ||
31230 | some client (the owner). A selection is global and is | ||
31231 | thought of as belonging to the user and being maintained | ||
31232 | by clients, rather than being private to a particular | ||
31233 | window subhierarchy or a particular set of clients. When | ||
31234 | a client asks for the contents of a selection, it | ||
31235 | specifies a selection target type, which can be used to | ||
31236 | control the transmitted representation of the contents. | ||
31237 | For example, if the selection is ``the last thing the | ||
31238 | user clicked on,'' and that is currently an image, then | ||
31239 | the target type might specify whether the contents of | ||
31240 | the image should be sent in XY format or Z format. | ||
31241 | |||
31242 | The target type can also be used to control the class of | ||
31243 | contents transmitted; for example, asking for the | ||
31244 | ``looks'' (fonts, line spacing, indentation, and so | ||
31245 | forth) of a paragraph selection, rather than the text of | ||
31246 | the paragraph. The target type can also be used for | ||
31247 | other purposes. The protocol does not constrain the | ||
31248 | semantics. | ||
31249 | |||
31250 | Server | ||
31251 | The server, which is also referred to as the X server, | ||
31252 | provides the basic windowing mechanism. It handles IPC | ||
31253 | connections from clients, multiplexes graphics requests | ||
31254 | onto the screens, and demultiplexes input back to the | ||
31255 | appropriate clients. | ||
31256 | |||
31257 | Server grabbing | ||
31258 | The server can be grabbed by a single client for | ||
31259 | exclusive use. This prevents processing of any requests | ||
31260 | from other client connections until the grab is | ||
31261 | completed. This is typically only a transient state for | ||
31262 | such things as rubber-banding, pop-up menus, or | ||
31263 | executing requests indivisibly. | ||
31264 | |||
31265 | Shift sequence | ||
31266 | ISO2022 defines control characters and escape sequences | ||
31267 | which temporarily (single shift) or permanently (locking | ||
31268 | shift) cause a different character set to be in effect | ||
31269 | (``invoking'' a character set). | ||
31270 | |||
31271 | Sibling | ||
31272 | Children of the same parent window are known as sibling | ||
31273 | windows. | ||
31274 | |||
31275 | Stacking order | ||
31276 | Sibling windows, similar to sheets of paper on a desk, | ||
31277 | can stack on top of each other. Windows above both | ||
31278 | obscure and occlude lower windows. The relationship | ||
31279 | between sibling windows is known as the stacking order. | ||
31280 | |||
31281 | State-dependent encoding | ||
31282 | An encoding in which an invocation of a charset can | ||
31283 | apply to multiple characters in sequence. A | ||
31284 | state-dependent encoding begins in an ``initial state'' | ||
31285 | and enters other ``shift states'' when specific ``shift | ||
31286 | sequences'' are encountered in the byte sequence. In | ||
31287 | ISO2022 terms, this means use of locking shifts, not | ||
31288 | single shifts. | ||
31289 | |||
31290 | State-independent encoding | ||
31291 | Any encoding in which the invocations of the charsets | ||
31292 | are fixed, or span only a single character. In ISO2022 | ||
31293 | terms, this means use of at most single shifts, not | ||
31294 | locking shifts. | ||
31295 | |||
31296 | StaticColor | ||
31297 | StaticColor can be viewed as a degenerate case of | ||
31298 | PseudoColor in which the RGB values are predefined and | ||
31299 | read-only. | ||
31300 | |||
31301 | StaticGray | ||
31302 | StaticGray can be viewed as a degenerate case of | ||
31303 | GrayScale in which the gray values are predefined and | ||
31304 | read-only. The values are typically linear or | ||
31305 | near-linear increasing ramps. | ||
31306 | |||
31307 | Status | ||
31308 | Many Xlib functions return a success status. If the | ||
31309 | function does not succeed, however, its arguments are | ||
31310 | not disturbed. | ||
31311 | |||
31312 | Stipple | ||
31313 | A stipple pattern is a bitmap that is used to tile a | ||
31314 | region to serve as an additional clip mask for a fill | ||
31315 | operation with the foreground color. | ||
31316 | |||
31317 | STRING encoding | ||
31318 | Latin-1, plus tab and newline. | ||
31319 | |||
31320 | String Equivalence | ||
31321 | Two ISO Latin-1 STRING8 values are considered equal if | ||
31322 | they are the same length and if corresponding bytes are | ||
31323 | either equal or are equivalent as follows: decimal | ||
31324 | values 65 to 90 inclusive (characters ``A'' to ``Z'') | ||
31325 | are pairwise equivalent to decimal values 97 to 122 | ||
31326 | inclusive (characters ``a'' to ``z''), decimal values | ||
31327 | 192 to 214 inclusive (characters ``A grave'' to ``O | ||
31328 | diaeresis'') are pairwise equivalent to decimal values | ||
31329 | 224 to 246 inclusive (characters ``a grave'' to ``o | ||
31330 | diaeresis''), and decimal values 216 to 222 inclusive | ||
31331 | (characters ``O oblique'' to ``THORN'') are pairwise | ||
31332 | equivalent to decimal values 246 to 254 inclusive | ||
31333 | (characters ``o oblique'' to ``thorn''). | ||
31334 | |||
31335 | Tile | ||
31336 | A pixmap can be replicated in two dimensions to tile a | ||
31337 | region. The pixmap itself is also known as a tile. | ||
31338 | |||
31339 | Timestamp | ||
31340 | A timestamp is a time value expressed in milliseconds. | ||
31341 | It is typically the time since the last server reset. | ||
31342 | Timestamp values wrap around (after about 49.7 days). | ||
31343 | The server, given its current time is represented by | ||
31344 | timestamp T, always interprets timestamps from clients | ||
31345 | by treating half of the timestamp space as being earlier | ||
31346 | in time than T and half of the timestamp space as being | ||
31347 | later in time than T. One timestamp value, represented | ||
31348 | by the constant CurrentTime, is never generated by the | ||
31349 | server. This value is reserved for use in requests to | ||
31350 | represent the current server time. | ||
31351 | |||
31352 | TrueColor | ||
31353 | TrueColor can be viewed as a degenerate case of | ||
31354 | DirectColor in which the subfields in the pixel value | ||
31355 | directly encode the corresponding RGB values. That is, | ||
31356 | the colormap has predefined read-only RGB values. The | ||
31357 | values are typically linear or near-linear increasing | ||
31358 | ramps. | ||
31359 | |||
31360 | Type | ||
31361 | A type is an arbitrary atom used to identify the | ||
31362 | interpretation of property data. Types are completely | ||
31363 | uninterpreted by the server. They are solely for the | ||
31364 | benefit of clients. X predefines type atoms for many | ||
31365 | frequently used types, and clients also can define new | ||
31366 | types. | ||
31367 | |||
31368 | Viewable | ||
31369 | A window is viewable if it and all of its ancestors are | ||
31370 | mapped. This does not imply that any portion of the | ||
31371 | window is actually visible. Graphics requests can be | ||
31372 | performed on a window when it is not viewable, but | ||
31373 | output will not be retained unless the server is | ||
31374 | maintaining backing store. | ||
31375 | |||
31376 | Visible | ||
31377 | A region of a window is visible if someone looking at | ||
31378 | the screen can actually see it; that is, the window is | ||
31379 | viewable and the region is not occluded by any other | ||
31380 | window. | ||
31381 | |||
31382 | Whitespace | ||
31383 | Any spacing character. On implementations that conform | ||
31384 | to the ANSI C library, whitespace is any character for | ||
31385 | which isspace returns true. | ||
31386 | |||
31387 | Window gravity | ||
31388 | When windows are resized, subwindows may be repositioned | ||
31389 | automatically relative to some position in the window. | ||
31390 | This attraction of a subwindow to some part of its | ||
31391 | parent is known as window gravity. | ||
31392 | |||
31393 | Window manager | ||
31394 | Manipulation of windows on the screen and much of the | ||
31395 | user interface (policy) is typically provided by a | ||
31396 | window manager client. | ||
31397 | |||
31398 | X Portable Character Set | ||
31399 | A basic set of 97 characters which are assumed to exist | ||
31400 | in all locales supported by Xlib. This set contains the | ||
31401 | following characters: | ||
31402 | |||
31403 | a..z A..Z 0..9 | ||
31404 | !"#$%&'()*+,-./:;<=>?@[\\]^_`{|}~ | ||
31405 | <space>, <tab>, and <newline> | ||
31406 | |||
31407 | |||
31408 | This is the left/lower half (also called the G0 set) of | ||
31409 | the graphic character set of ISO8859-1 plus <space>, | ||
31410 | <tab>, and <newline>. It is also the set of graphic | ||
31411 | characters in 7-bit ASCII plus the same three control | ||
31412 | characters. The actual encoding of these characters on | ||
31413 | the host is system dependent; see the Host Portable | ||
31414 | Character Encoding. | ||
31415 | |||
31416 | XLFD | ||
31417 | The X Logical Font Description Conventions that define a | ||
31418 | standard syntax for structured font names. | ||
31419 | |||
31420 | XY format | ||
31421 | The data for a pixmap is said to be in XY format if it | ||
31422 | is organized as a set of bitmaps representing individual | ||
31423 | bit planes with the planes appearing from | ||
31424 | most-significant to least-significant bit order. | ||
31425 | |||
31426 | Z format | ||
31427 | The data for a pixmap is said to be in Z format if it is | ||
31428 | organized as a set of pixel values in scanline order. | ||
31429 | |||
31430 | Index | ||
31431 | |||
31432 | Symbols | ||
31433 | |||
31434 | _XAllocScratch, Allocating and Deallocating Memory | ||
31435 | _XAllocTemp, Allocating and Deallocating Memory | ||
31436 | _Xdebug, Enabling or Disabling Synchronization | ||
31437 | _XFlushGCCache, GC Caching | ||
31438 | _XFreeTemp, Allocating and Deallocating Memory | ||
31439 | _XReply, Replies | ||
31440 | _XSetLastRequestRead, Hooks into the Library | ||
31441 | |||
31442 | A | ||
31443 | |||
31444 | Access control list, Controlling Host Access, Glossary | ||
31445 | Active grab, Pointer Grabbing, Glossary | ||
31446 | Allocation, Allocating and Freeing Color Cells, Allocating and | ||
31447 | Freeing Color Cells, Allocating and Freeing Color Cells, | ||
31448 | Allocating and Freeing Color Cells, Allocating and | ||
31449 | Freeing Color Cells, Allocating and Freeing Color Cells, | ||
31450 | Allocating and Freeing Color Cells | ||
31451 | |||
31452 | colormap, Allocating and Freeing Color Cells | ||
31453 | read-only colormap cells, Allocating and Freeing Color | ||
31454 | Cells, Allocating and Freeing Color Cells, | ||
31455 | Allocating and Freeing Color Cells, Allocating and | ||
31456 | Freeing Color Cells | ||
31457 | |||
31458 | read/write colormap cells, Allocating and Freeing Color | ||
31459 | Cells | ||
31460 | |||
31461 | read/write colormap planes, Allocating and Freeing Color | ||
31462 | Cells | ||
31463 | |||
31464 | AllPlanes, Display Macros | ||
31465 | Ancestors, Glossary | ||
31466 | Arcs, Drawing Single and Multiple Arcs, Filling Single and | ||
31467 | Multiple Arcs | ||
31468 | |||
31469 | drawing, Drawing Single and Multiple Arcs | ||
31470 | filling, Filling Single and Multiple Arcs | ||
31471 | |||
31472 | Areas, Clearing Areas, Copying Areas | ||
31473 | |||
31474 | clearing, Clearing Areas | ||
31475 | copying, Copying Areas | ||
31476 | |||
31477 | Atom, Properties and Atoms, Properties and Atoms, Properties | ||
31478 | and Atoms, Properties and Atoms, Properties and Atoms, | ||
31479 | Properties and Atoms, Properties and Atoms, Glossary | ||
31480 | |||
31481 | getting name, Properties and Atoms, Properties and Atoms | ||
31482 | interning, Properties and Atoms, Properties and Atoms | ||
31483 | predefined, Properties and Atoms | ||
31484 | |||
31485 | Authentication, Controlling Host Access | ||
31486 | |||
31487 | B | ||
31488 | |||
31489 | Background, Glossary | ||
31490 | Backing store, Glossary | ||
31491 | BadAccess, Using the Default Error Handlers | ||
31492 | BadAlloc, Using the Default Error Handlers | ||
31493 | BadAtom, Using the Default Error Handlers | ||
31494 | BadColor, Using the Default Error Handlers | ||
31495 | BadCursor, Using the Default Error Handlers | ||
31496 | BadDrawable, Using the Default Error Handlers | ||
31497 | BadFont, Using the Default Error Handlers | ||
31498 | BadGC, Using the Default Error Handlers | ||
31499 | BadIDChoice, Using the Default Error Handlers | ||
31500 | BadImplementation, Using the Default Error Handlers | ||
31501 | BadLength, Using the Default Error Handlers | ||
31502 | BadMatch, Using the Default Error Handlers | ||
31503 | BadName, Using the Default Error Handlers | ||
31504 | BadPixmap, Using the Default Error Handlers | ||
31505 | BadRequest, Using the Default Error Handlers | ||
31506 | BadValue, Using the Default Error Handlers | ||
31507 | BadWindow, Using the Default Error Handlers | ||
31508 | Base font name, Glossary | ||
31509 | Bit, Glossary, Glossary | ||
31510 | |||
31511 | gravity, Glossary | ||
31512 | plane, Glossary | ||
31513 | |||
31514 | Bitmap, Overview of the X Window System, Glossary | ||
31515 | BitmapBitOrder, Image Format Functions and Macros | ||
31516 | BitmapPad, Image Format Functions and Macros | ||
31517 | BitmapUnit, Image Format Functions and Macros | ||
31518 | BlackPixel, Display Macros | ||
31519 | BlackPixelOfScreen, Screen Information Macros | ||
31520 | Bool, Generic Values and Types | ||
31521 | Border, Glossary | ||
31522 | Button, Pointer Grabbing, Pointer Grabbing, Glossary | ||
31523 | |||
31524 | grabbing, Pointer Grabbing, Glossary | ||
31525 | ungrabbing, Pointer Grabbing | ||
31526 | |||
31527 | ButtonPress, Keyboard and Pointer Events | ||
31528 | ButtonRelease, Keyboard and Pointer Events | ||
31529 | Byte, Glossary | ||
31530 | |||
31531 | order, Glossary | ||
31532 | |||
31533 | C | ||
31534 | |||
31535 | CallbackPrototype, Input Method Callback Semantics | ||
31536 | CCC, Color Conversion Contexts and Gamut Mapping, Color | ||
31537 | Conversion Contexts and Gamut Mapping, Color Conversion | ||
31538 | Contexts and Gamut Mapping, Color Conversion Context | ||
31539 | Functions, Color Conversion Context Functions, Getting | ||
31540 | and Setting the Color Conversion Context of a Colormap, | ||
31541 | Getting and Setting the Color Conversion Context of a | ||
31542 | Colormap, Obtaining the Default Color Conversion | ||
31543 | Context, Obtaining the Default Color Conversion Context, | ||
31544 | Creating and Freeing a Color Conversion Context, | ||
31545 | Creating and Freeing a Color Conversion Context | ||
31546 | |||
31547 | creation, Creating and Freeing a Color Conversion Context | ||
31548 | default, Color Conversion Contexts and Gamut Mapping, | ||
31549 | Color Conversion Context Functions, Obtaining the | ||
31550 | Default Color Conversion Context, Obtaining the | ||
31551 | Default Color Conversion Context | ||
31552 | |||
31553 | freeing, Creating and Freeing a Color Conversion Context | ||
31554 | of colormap, Color Conversion Contexts and Gamut Mapping, | ||
31555 | Color Conversion Context Functions, Getting and | ||
31556 | Setting the Color Conversion Context of a | ||
31557 | Colormap, Getting and Setting the Color Conversion | ||
31558 | Context of a Colormap | ||
31559 | |||
31560 | CellsOfScreen, Screen Information Macros | ||
31561 | Changing, Pointer Grabbing | ||
31562 | |||
31563 | pointer grab, Pointer Grabbing | ||
31564 | |||
31565 | Character, Glossary | ||
31566 | Character glyph, Glossary | ||
31567 | Character set, Glossary | ||
31568 | Charset, Glossary | ||
31569 | Child window, Overview of the X Window System | ||
31570 | Child Window, Obtaining Window Information | ||
31571 | Children, Glossary | ||
31572 | Chroma, TekHVC Queries, TekHVC Queries, TekHVC Queries, TekHVC | ||
31573 | Queries, TekHVC Queries, TekHVC Queries | ||
31574 | |||
31575 | maximum, TekHVC Queries, TekHVC Queries, TekHVC Queries | ||
31576 | |||
31577 | CIE metric lightness, CIELab Queries, CIELab Queries, CIELab | ||
31578 | Queries, CIELab Queries, CIELab Queries, CIELab Queries, | ||
31579 | CIELab Queries, CIELuv Queries, CIELuv Queries, CIELuv | ||
31580 | Queries, CIELuv Queries, CIELuv Queries, CIELuv Queries, | ||
31581 | CIELuv Queries | ||
31582 | |||
31583 | maximum, CIELab Queries, CIELab Queries, CIELuv Queries, | ||
31584 | CIELuv Queries | ||
31585 | |||
31586 | minimum, CIELab Queries, CIELuv Queries | ||
31587 | |||
31588 | CirculateNotify, CirculateNotify Events | ||
31589 | CirculateRequest, CirculateRequest Events | ||
31590 | Class, Glossary | ||
31591 | Clearing, Clearing Areas, Clearing Areas | ||
31592 | |||
31593 | areas, Clearing Areas | ||
31594 | windows, Clearing Areas | ||
31595 | |||
31596 | Client, Glossary | ||
31597 | Client White Point, Color Conversion Contexts and Gamut | ||
31598 | Mapping, Modifying Attributes of a Color Conversion | ||
31599 | Context | ||
31600 | |||
31601 | of Color Conversion Context, Modifying Attributes of a | ||
31602 | Color Conversion Context | ||
31603 | |||
31604 | ClientMessage, ClientMessage Events | ||
31605 | ClientWhitePointOfCCC, Color Conversion Context Macros | ||
31606 | Clipping region, Glossary | ||
31607 | Coded character, Glossary | ||
31608 | Coded character set, Glossary | ||
31609 | Codepoint, Glossary | ||
31610 | Color, Color Structures, Mapping Color Names to Values, Mapping | ||
31611 | Color Names to Values, Mapping Color Names to Values, | ||
31612 | Allocating and Freeing Color Cells, Allocating and | ||
31613 | Freeing Color Cells, Allocating and Freeing Color Cells, | ||
31614 | Allocating and Freeing Color Cells, Allocating and | ||
31615 | Freeing Color Cells, Allocating and Freeing Color Cells, | ||
31616 | Allocating and Freeing Color Cells, Allocating and | ||
31617 | Freeing Color Cells, Allocating and Freeing Color Cells, | ||
31618 | Allocating and Freeing Color Cells, Modifying and | ||
31619 | Querying Colormap Cells, Modifying and Querying Colormap | ||
31620 | Cells, Modifying and Querying Colormap Cells, Modifying | ||
31621 | and Querying Colormap Cells, Modifying and Querying | ||
31622 | Colormap Cells, Modifying and Querying Colormap Cells, | ||
31623 | Modifying and Querying Colormap Cells, Modifying and | ||
31624 | Querying Colormap Cells, Modifying and Querying Colormap | ||
31625 | Cells, Modifying and Querying Colormap Cells, Converting | ||
31626 | between Color Spaces | ||
31627 | |||
31628 | allocation, Allocating and Freeing Color Cells, Allocating | ||
31629 | and Freeing Color Cells, Allocating and Freeing | ||
31630 | Color Cells, Allocating and Freeing Color Cells, | ||
31631 | Allocating and Freeing Color Cells, Allocating and | ||
31632 | Freeing Color Cells, Allocating and Freeing Color | ||
31633 | Cells | ||
31634 | |||
31635 | conversion, Converting between Color Spaces | ||
31636 | deallocation, Allocating and Freeing Color Cells | ||
31637 | naming, Mapping Color Names to Values, Mapping Color Names | ||
31638 | to Values, Mapping Color Names to Values, | ||
31639 | Allocating and Freeing Color Cells, Allocating and | ||
31640 | Freeing Color Cells, Modifying and Querying | ||
31641 | Colormap Cells | ||
31642 | |||
31643 | querying, Modifying and Querying Colormap Cells, Modifying | ||
31644 | and Querying Colormap Cells, Modifying and | ||
31645 | Querying Colormap Cells, Modifying and Querying | ||
31646 | Colormap Cells | ||
31647 | |||
31648 | storing, Modifying and Querying Colormap Cells, Modifying | ||
31649 | and Querying Colormap Cells, Modifying and | ||
31650 | Querying Colormap Cells, Modifying and Querying | ||
31651 | Colormap Cells, Modifying and Querying Colormap | ||
31652 | Cells | ||
31653 | |||
31654 | Color Characterization Data, Creating Additional Function Sets | ||
31655 | Color conversion, Converting between Color Spaces | ||
31656 | Color Conversion Context, Color Conversion Contexts and Gamut | ||
31657 | Mapping, Color Conversion Contexts and Gamut Mapping, | ||
31658 | Color Conversion Contexts and Gamut Mapping, Color | ||
31659 | Conversion Contexts and Gamut Mapping, Color Conversion | ||
31660 | Context Functions, Color Conversion Context Functions, | ||
31661 | Color Conversion Context Functions, Getting and Setting | ||
31662 | the Color Conversion Context of a Colormap, Getting and | ||
31663 | Setting the Color Conversion Context of a Colormap, | ||
31664 | Obtaining the Default Color Conversion Context, | ||
31665 | Obtaining the Default Color Conversion Context, Creating | ||
31666 | and Freeing a Color Conversion Context, Creating and | ||
31667 | Freeing a Color Conversion Context | ||
31668 | |||
31669 | creation, Color Conversion Contexts and Gamut Mapping, | ||
31670 | Color Conversion Context Functions, Creating and | ||
31671 | Freeing a Color Conversion Context | ||
31672 | |||
31673 | default, Color Conversion Contexts and Gamut Mapping, | ||
31674 | Color Conversion Context Functions, Obtaining the | ||
31675 | Default Color Conversion Context, Obtaining the | ||
31676 | Default Color Conversion Context | ||
31677 | |||
31678 | freeing, Creating and Freeing a Color Conversion Context | ||
31679 | of colormap, Color Conversion Contexts and Gamut Mapping, | ||
31680 | Color Conversion Context Functions, Getting and | ||
31681 | Setting the Color Conversion Context of a | ||
31682 | Colormap, Getting and Setting the Color Conversion | ||
31683 | Context of a Colormap | ||
31684 | |||
31685 | Color map, Color Management Functions, Allocating and Freeing | ||
31686 | Color Cells | ||
31687 | |||
31688 | Colormap, Getting and Setting the Color Conversion Context of a | ||
31689 | Colormap, Getting and Setting the Color Conversion | ||
31690 | Context of a Colormap, Glossary | ||
31691 | |||
31692 | CCC of, Getting and Setting the Color Conversion Context | ||
31693 | of a Colormap, Getting and Setting the Color | ||
31694 | Conversion Context of a Colormap | ||
31695 | |||
31696 | ColormapNotify, Colormap State Change Events | ||
31697 | Colormaps, Standard Colormap Properties and Atoms | ||
31698 | |||
31699 | standard, Standard Colormap Properties and Atoms | ||
31700 | |||
31701 | ConfigureNotify, ConfigureNotify Events | ||
31702 | ConfigureRequest, ConfigureRequest Events | ||
31703 | Connection, Glossary | ||
31704 | ConnectionNumber, Display Macros | ||
31705 | Containment, Glossary | ||
31706 | Coordinate system, Glossary | ||
31707 | Copying, Copying Areas, Copying Areas | ||
31708 | |||
31709 | areas, Copying Areas | ||
31710 | planes, Copying Areas | ||
31711 | |||
31712 | CreateNotify, CreateNotify Events | ||
31713 | CurrentTime, Event Processing Overview, Pointer Grabbing | ||
31714 | Cursor, Creating Windows, Creating, Recoloring, and Freeing | ||
31715 | Cursors, Glossary | ||
31716 | |||
31717 | Initial State, Creating Windows | ||
31718 | limitations, Creating, Recoloring, and Freeing Cursors | ||
31719 | |||
31720 | Cut Buffers, Using Cut Buffers | ||
31721 | |||
31722 | D | ||
31723 | |||
31724 | Debugging, Enabling or Disabling Synchronization, Using the | ||
31725 | Default Error Handlers, Using the Default Error | ||
31726 | Handlers, Using the Default Error Handlers, Using the | ||
31727 | Default Error Handlers | ||
31728 | |||
31729 | error event, Using the Default Error Handlers | ||
31730 | error handlers, Using the Default Error Handlers | ||
31731 | error message strings, Using the Default Error Handlers | ||
31732 | error numbers, Using the Default Error Handlers | ||
31733 | synchronous mode, Enabling or Disabling Synchronization | ||
31734 | |||
31735 | Default Protection, Controlling Host Access | ||
31736 | DefaultColormap, Display Macros | ||
31737 | DefaultColormapOfScreen, Screen Information Macros | ||
31738 | DefaultDepth, Display Macros | ||
31739 | DefaultDepthOfScreen, Screen Information Macros | ||
31740 | DefaultGC, Display Macros | ||
31741 | DefaultGCOfScreen, Screen Information Macros | ||
31742 | DefaultRootWindow, Display Macros | ||
31743 | DefaultScreen, Display Macros | ||
31744 | DefaultScreenOfDisplay, Display Macros | ||
31745 | DefaultVisual, Display Macros | ||
31746 | DefaultVisualOfScreen, Screen Information Macros | ||
31747 | Depth, Glossary | ||
31748 | Destination, Manipulating Graphics Context/State | ||
31749 | DestroyCallback, Destroy Callback, Destroy Callback | ||
31750 | DestroyNotify, DestroyNotify Events | ||
31751 | Device, Glossary | ||
31752 | Device Color Characterization, Function Sets | ||
31753 | Device profile, Color Conversion Contexts and Gamut Mapping, | ||
31754 | Creating Additional Function Sets | ||
31755 | |||
31756 | DirectColor, Glossary | ||
31757 | Display, Opening the Display, Obtaining Information about the | ||
31758 | Display, Image Formats, or Screens, Glossary, Glossary, | ||
31759 | Glossary | ||
31760 | |||
31761 | data structure, Obtaining Information about the Display, | ||
31762 | Image Formats, or Screens | ||
31763 | |||
31764 | structure, Glossary, Glossary | ||
31765 | |||
31766 | Display Functions, Manipulating Graphics Context/State | ||
31767 | DisplayCells, Display Macros | ||
31768 | DisplayHeight, Image Format Functions and Macros | ||
31769 | DisplayHeightMM, Image Format Functions and Macros | ||
31770 | DisplayOfCCC, Color Conversion Context Macros | ||
31771 | DisplayOfScreen, Screen Information Macros | ||
31772 | DisplayPlanes, Display Macros | ||
31773 | DisplayString, Display Macros | ||
31774 | DisplayWidth, Image Format Functions and Macros | ||
31775 | DisplayWidthMM, Image Format Functions and Macros | ||
31776 | DoesBackingStore, Screen Information Macros | ||
31777 | DoesSaveUnders, Screen Information Macros | ||
31778 | Drawable, Overview of the X Window System, Glossary | ||
31779 | Drawing, Drawing Single and Multiple Points, Drawing Single and | ||
31780 | Multiple Lines, Drawing Single and Multiple Lines, | ||
31781 | Drawing Single and Multiple Rectangles, Drawing Single | ||
31782 | and Multiple Arcs, Drawing Complex Text, Drawing Text | ||
31783 | Characters, Drawing Image Text Characters | ||
31784 | |||
31785 | arcs, Drawing Single and Multiple Arcs | ||
31786 | image text, Drawing Image Text Characters | ||
31787 | lines, Drawing Single and Multiple Lines | ||
31788 | points, Drawing Single and Multiple Points | ||
31789 | polygons, Drawing Single and Multiple Lines | ||
31790 | rectangles, Drawing Single and Multiple Rectangles | ||
31791 | strings, Drawing Text Characters | ||
31792 | text items, Drawing Complex Text | ||
31793 | |||
31794 | E | ||
31795 | |||
31796 | Encoding, Glossary | ||
31797 | EnterNotify, Window Entry/Exit Events | ||
31798 | Environment, Opening the Display | ||
31799 | |||
31800 | DISPLAY, Opening the Display | ||
31801 | |||
31802 | Error, Errors, Using the Default Error Handlers, Using the | ||
31803 | Default Error Handlers | ||
31804 | |||
31805 | codes, Using the Default Error Handlers | ||
31806 | handlers, Using the Default Error Handlers | ||
31807 | handling, Errors | ||
31808 | |||
31809 | Escapement, Glossary | ||
31810 | Event, Overview of the X Window System, Event Types, Event | ||
31811 | Types, Event Types, Selecting Events, Glossary, | ||
31812 | Glossary, Glossary, Glossary, Glossary, Glossary | ||
31813 | |||
31814 | categories, Event Types | ||
31815 | Exposure, Glossary | ||
31816 | mask, Glossary | ||
31817 | propagation, Selecting Events, Glossary | ||
31818 | source, Glossary | ||
31819 | synchronization, Glossary | ||
31820 | types, Event Types | ||
31821 | |||
31822 | Event mask, Event Masks | ||
31823 | EventMaskOfScreen, Screen Information Macros | ||
31824 | Events, Keyboard and Pointer Events, Keyboard and Pointer | ||
31825 | Events, Keyboard and Pointer Events, Keyboard and | ||
31826 | Pointer Events, Keyboard and Pointer Events, Window | ||
31827 | Entry/Exit Events, Window Entry/Exit Events, Input Focus | ||
31828 | Events, Input Focus Events, Key Map State Notification | ||
31829 | Events, Expose Events, GraphicsExpose and NoExpose | ||
31830 | Events, GraphicsExpose and NoExpose Events, | ||
31831 | CirculateNotify Events, ConfigureNotify Events, | ||
31832 | CreateNotify Events, DestroyNotify Events, GravityNotify | ||
31833 | Events, MapNotify Events, MappingNotify Events, | ||
31834 | ReparentNotify Events, UnmapNotify Events, | ||
31835 | VisibilityNotify Events, CirculateRequest Events, | ||
31836 | ConfigureRequest Events, MapRequest Events, | ||
31837 | ResizeRequest Events, Colormap State Change Events, | ||
31838 | ClientMessage Events, PropertyNotify Events, | ||
31839 | SelectionClear Events, SelectionRequest Events, | ||
31840 | SelectionNotify Events | ||
31841 | |||
31842 | ButtonPress, Keyboard and Pointer Events | ||
31843 | ButtonRelease, Keyboard and Pointer Events | ||
31844 | CirculateNotify, CirculateNotify Events | ||
31845 | CirculateRequest, CirculateRequest Events | ||
31846 | ClientMessage, ClientMessage Events | ||
31847 | ColormapNotify, Colormap State Change Events | ||
31848 | ConfigureNotify, ConfigureNotify Events | ||
31849 | ConfigureRequest, ConfigureRequest Events | ||
31850 | CreateNotify, CreateNotify Events | ||
31851 | DestroyNotify, DestroyNotify Events | ||
31852 | EnterNotify, Window Entry/Exit Events | ||
31853 | Expose, Expose Events | ||
31854 | FocusIn, Input Focus Events | ||
31855 | FocusOut, Input Focus Events | ||
31856 | GraphicsExpose, GraphicsExpose and NoExpose Events | ||
31857 | GravityNotify, GravityNotify Events | ||
31858 | KeymapNotify, Key Map State Notification Events | ||
31859 | KeyPress, Keyboard and Pointer Events | ||
31860 | KeyRelease, Keyboard and Pointer Events | ||
31861 | LeaveNotify, Window Entry/Exit Events | ||
31862 | MapNotify, MapNotify Events | ||
31863 | MappingNotify, MappingNotify Events | ||
31864 | MapRequest, MapRequest Events | ||
31865 | MotionNotify, Keyboard and Pointer Events | ||
31866 | NoExpose, GraphicsExpose and NoExpose Events | ||
31867 | PropertyNotify, PropertyNotify Events | ||
31868 | ReparentNotify, ReparentNotify Events | ||
31869 | ResizeRequest, ResizeRequest Events | ||
31870 | SelectionClear, SelectionClear Events | ||
31871 | SelectionNotify, SelectionNotify Events | ||
31872 | SelectionRequest, SelectionRequest Events | ||
31873 | UnmapNotify, UnmapNotify Events | ||
31874 | VisibilityNotify, VisibilityNotify Events | ||
31875 | |||
31876 | Expose, Expose Events | ||
31877 | Extension, Glossary | ||
31878 | |||
31879 | F | ||
31880 | |||
31881 | False, Generic Values and Types | ||
31882 | Files, Overview of the X Window System, Standard Header Files, | ||
31883 | Standard Header Files, Standard Header Files, Standard | ||
31884 | Header Files, Standard Header Files, Standard Header | ||
31885 | Files, Standard Header Files, Standard Header Files, | ||
31886 | Standard Header Files, Standard Header Files, Standard | ||
31887 | Header Files, Standard Header Files, Standard Header | ||
31888 | Files, Opening the Display, Properties and Atoms, Color | ||
31889 | Management Functions, Color Management Functions, | ||
31890 | Manipulating Graphics Context/State, Loading and Freeing | ||
31891 | Fonts, Controlling Host Access, Event Types, Event | ||
31892 | Structures, Event Masks, GraphicsExpose and NoExpose | ||
31893 | Events, Manipulating the Keyboard Encoding, Manipulating | ||
31894 | the Keyboard Encoding, Setting and Reading the WM_HINTS | ||
31895 | Property, Setting and Reading the WM_NORMAL_HINTS | ||
31896 | Property, Setting and Reading the WM_CLASS Property, | ||
31897 | Setting and Reading the WM_ICON_SIZE Property, Standard | ||
31898 | Colormap Properties and Atoms, Resource Manager | ||
31899 | Functions, Using Keyboard Utility Functions, Parsing the | ||
31900 | Window Geometry, Manipulating Regions, Determining the | ||
31901 | Appropriate Visual Type, Manipulating Images, | ||
31902 | Manipulating Images, Using the Context Manager, Setting | ||
31903 | and Getting Window Sizing Hints, Getting the X | ||
31904 | Environment Defaults, Drawing and Filling Polygons and | ||
31905 | Curves, Drawing and Filling Polygons and Curves | ||
31906 | |||
31907 | $HOME/.Xdefaults, Getting the X Environment Defaults | ||
31908 | /etc/X?.hosts, Controlling Host Access | ||
31909 | <X11/cursorfont.h>, Standard Header Files | ||
31910 | <X11/keysym.h>, Standard Header Files, Manipulating the | ||
31911 | Keyboard Encoding | ||
31912 | |||
31913 | <X11/keysymdef.h>, Standard Header Files, Manipulating the | ||
31914 | Keyboard Encoding, Using Keyboard Utility | ||
31915 | Functions | ||
31916 | |||
31917 | <X11/X.h>, Overview of the X Window System, Standard | ||
31918 | Header Files, Manipulating Graphics Context/State, | ||
31919 | Event Types, Event Masks | ||
31920 | |||
31921 | <X11/X10.h>, Standard Header Files, Drawing and Filling | ||
31922 | Polygons and Curves, Drawing and Filling Polygons | ||
31923 | and Curves | ||
31924 | |||
31925 | <X11/Xatom.h>, Standard Header Files, Properties and | ||
31926 | Atoms, Loading and Freeing Fonts, Standard | ||
31927 | Colormap Properties and Atoms | ||
31928 | |||
31929 | <X11/Xcms.h>, Standard Header Files, Color Management | ||
31930 | Functions | ||
31931 | |||
31932 | <X11/Xlib.h>, Standard Header Files, Opening the Display, | ||
31933 | Color Management Functions, Event Structures, | ||
31934 | Manipulating Images | ||
31935 | |||
31936 | <X11/Xlibint.h>, Standard Header Files | ||
31937 | <X11/Xproto.h>, Standard Header Files, GraphicsExpose and | ||
31938 | NoExpose Events | ||
31939 | |||
31940 | <X11/Xprotostr.h>, Standard Header Files | ||
31941 | <X11/Xresource.h>, Standard Header Files, Resource Manager | ||
31942 | Functions | ||
31943 | |||
31944 | <X11/Xutil.h>, Standard Header Files, Setting and Reading | ||
31945 | the WM_HINTS Property, Setting and Reading the | ||
31946 | WM_NORMAL_HINTS Property, Setting and Reading the | ||
31947 | WM_CLASS Property, Setting and Reading the | ||
31948 | WM_ICON_SIZE Property, Parsing the Window | ||
31949 | Geometry, Manipulating Regions, Determining the | ||
31950 | Appropriate Visual Type, Manipulating Images, | ||
31951 | Using the Context Manager, Setting and Getting | ||
31952 | Window Sizing Hints | ||
31953 | |||
31954 | Filling, Filling Single and Multiple Rectangles, Filling a | ||
31955 | Single Polygon, Filling Single and Multiple Arcs | ||
31956 | |||
31957 | arcs, Filling Single and Multiple Arcs | ||
31958 | polygon, Filling a Single Polygon | ||
31959 | rectangles, Filling Single and Multiple Rectangles | ||
31960 | |||
31961 | FlushGC, GC Caching | ||
31962 | FocusIn, Input Focus Events | ||
31963 | FocusOut, Input Focus Events | ||
31964 | Font, Font Metrics, Glossary | ||
31965 | Font glyph, Glossary | ||
31966 | Fonts, Loading and Freeing Fonts, Loading and Freeing Fonts, | ||
31967 | Loading and Freeing Fonts | ||
31968 | |||
31969 | freeing font information, Loading and Freeing Fonts | ||
31970 | getting information, Loading and Freeing Fonts | ||
31971 | unloading, Loading and Freeing Fonts | ||
31972 | |||
31973 | Freeing, Window Attributes, Changing Window Attributes, | ||
31974 | Changing Window Attributes, Allocating and Freeing Color | ||
31975 | Cells | ||
31976 | |||
31977 | colors, Allocating and Freeing Color Cells | ||
31978 | resources, Window Attributes, Changing Window Attributes, | ||
31979 | Changing Window Attributes | ||
31980 | |||
31981 | Frozen events, Glossary | ||
31982 | Function set, Function Sets, Function Sets | ||
31983 | |||
31984 | LINEAR_RGB, Function Sets | ||
31985 | |||
31986 | G | ||
31987 | |||
31988 | Gamut compression, Color Conversion Contexts and Gamut Mapping, | ||
31989 | Modifying Attributes of a Color Conversion Context, | ||
31990 | Modifying Attributes of a Color Conversion Context, | ||
31991 | Modifying Attributes of a Color Conversion Context | ||
31992 | |||
31993 | client data, Modifying Attributes of a Color Conversion | ||
31994 | Context | ||
31995 | |||
31996 | procedure, Modifying Attributes of a Color Conversion | ||
31997 | Context | ||
31998 | |||
31999 | setting in Color Conversion Context, Modifying Attributes | ||
32000 | of a Color Conversion Context | ||
32001 | |||
32002 | Gamut handling, Color Conversion Contexts and Gamut Mapping | ||
32003 | Gamut querying, Gamut Querying Functions | ||
32004 | GC, Glossary | ||
32005 | GeometryCallback, Geometry Callback | ||
32006 | Glyph, Glossary | ||
32007 | Glyph image, Glossary | ||
32008 | Grab, Glossary | ||
32009 | Grabbing, Grabbing the Server, Pointer Grabbing, Pointer | ||
32010 | Grabbing, Keyboard Grabbing, Keyboard Grabbing | ||
32011 | |||
32012 | buttons, Pointer Grabbing | ||
32013 | keyboard, Keyboard Grabbing | ||
32014 | keys, Keyboard Grabbing | ||
32015 | pointer, Pointer Grabbing | ||
32016 | server, Grabbing the Server | ||
32017 | |||
32018 | Graphics context, Manipulating Graphics Context/State, Glossary | ||
32019 | |||
32020 | initializing, Manipulating Graphics Context/State | ||
32021 | |||
32022 | GraphicsExpose, GraphicsExpose and NoExpose Events | ||
32023 | Gravity, Glossary | ||
32024 | GravityNotify, GravityNotify Events | ||
32025 | GrayScale, Glossary | ||
32026 | |||
32027 | H | ||
32028 | |||
32029 | Hash Lookup, Associating User Data with a Value | ||
32030 | Headers, Overview of the X Window System, Standard Header | ||
32031 | Files, Standard Header Files, Standard Header Files, | ||
32032 | Standard Header Files, Standard Header Files, Standard | ||
32033 | Header Files, Standard Header Files, Standard Header | ||
32034 | Files, Standard Header Files, Standard Header Files, | ||
32035 | Standard Header Files, Standard Header Files, Standard | ||
32036 | Header Files, Standard Header Files, Opening the | ||
32037 | Display, Properties and Atoms, Color Management | ||
32038 | Functions, Color Management Functions, Manipulating | ||
32039 | Graphics Context/State, Loading and Freeing Fonts, Event | ||
32040 | Types, Event Structures, Event Masks, GraphicsExpose and | ||
32041 | NoExpose Events, Manipulating the Keyboard Encoding, | ||
32042 | Manipulating the Keyboard Encoding, Setting and Reading | ||
32043 | the WM_HINTS Property, Setting and Reading the | ||
32044 | WM_NORMAL_HINTS Property, Setting and Reading the | ||
32045 | WM_CLASS Property, Setting and Reading the WM_ICON_SIZE | ||
32046 | Property, Standard Colormap Properties and Atoms, | ||
32047 | Resource Manager Functions, Using Keyboard Utility | ||
32048 | Functions, Parsing the Window Geometry, Manipulating | ||
32049 | Regions, Determining the Appropriate Visual Type, | ||
32050 | Manipulating Images, Manipulating Images, Using the | ||
32051 | Context Manager, Setting and Getting Window Sizing | ||
32052 | Hints, Drawing and Filling Polygons and Curves, Drawing | ||
32053 | and Filling Polygons and Curves | ||
32054 | |||
32055 | <X11/cursorfont.h>, Standard Header Files | ||
32056 | <X11/keysym.h>, Standard Header Files, Manipulating the | ||
32057 | Keyboard Encoding | ||
32058 | |||
32059 | <X11/keysymdef.h>, Standard Header Files, Manipulating the | ||
32060 | Keyboard Encoding, Using Keyboard Utility | ||
32061 | Functions | ||
32062 | |||
32063 | <X11/X.h>, Overview of the X Window System, Standard | ||
32064 | Header Files, Manipulating Graphics Context/State, | ||
32065 | Event Types, Event Masks | ||
32066 | |||
32067 | <X11/X10.h>, Standard Header Files, Drawing and Filling | ||
32068 | Polygons and Curves, Drawing and Filling Polygons | ||
32069 | and Curves | ||
32070 | |||
32071 | <X11/Xatom.h>, Standard Header Files, Properties and | ||
32072 | Atoms, Loading and Freeing Fonts, Standard | ||
32073 | Colormap Properties and Atoms | ||
32074 | |||
32075 | <X11/Xcms.h>, Standard Header Files, Color Management | ||
32076 | Functions | ||
32077 | |||
32078 | <X11/Xlib.h>, Standard Header Files, Opening the Display, | ||
32079 | Color Management Functions, Event Structures, | ||
32080 | Manipulating Images | ||
32081 | |||
32082 | <X11/Xlibint.h>, Standard Header Files | ||
32083 | <X11/Xproto.h>, Standard Header Files, GraphicsExpose and | ||
32084 | NoExpose Events | ||
32085 | |||
32086 | <X11/Xprotostr.h>, Standard Header Files | ||
32087 | <X11/Xresource.h>, Standard Header Files, Resource Manager | ||
32088 | Functions | ||
32089 | |||
32090 | <X11/Xutil.h>, Standard Header Files, Setting and Reading | ||
32091 | the WM_HINTS Property, Setting and Reading the | ||
32092 | WM_NORMAL_HINTS Property, Setting and Reading the | ||
32093 | WM_CLASS Property, Setting and Reading the | ||
32094 | WM_ICON_SIZE Property, Parsing the Window | ||
32095 | Geometry, Manipulating Regions, Determining the | ||
32096 | Appropriate Visual Type, Manipulating Images, | ||
32097 | Using the Context Manager, Setting and Getting | ||
32098 | Window Sizing Hints | ||
32099 | |||
32100 | HeightMMOfScreen, Screen Information Macros | ||
32101 | HeightOfScreen, Screen Information Macros | ||
32102 | Host Portable Character Encoding, Glossary | ||
32103 | Hotspot, Glossary | ||
32104 | |||
32105 | I | ||
32106 | |||
32107 | Identifier, Glossary | ||
32108 | Image text, Drawing Image Text Characters | ||
32109 | |||
32110 | drawing, Drawing Image Text Characters | ||
32111 | |||
32112 | ImageByteOrder, Image Format Functions and Macros | ||
32113 | IMInstantiateCallback, Input Method Functions | ||
32114 | Inferiors, Glossary | ||
32115 | Input, Glossary, Glossary | ||
32116 | |||
32117 | focus, Glossary | ||
32118 | manager, Glossary | ||
32119 | |||
32120 | Input Control, Event Types | ||
32121 | Internationalization, Glossary | ||
32122 | IsCursorKey, KeySym Classification Macros | ||
32123 | IsFunctionKey, KeySym Classification Macros | ||
32124 | IsKeypadKey, KeySym Classification Macros | ||
32125 | IsMiscFunctionKey, KeySym Classification Macros | ||
32126 | IsModifierKey, KeySym Classification Macros | ||
32127 | ISO2022, Glossary | ||
32128 | IsPFKey, KeySym Classification Macros | ||
32129 | IsPrivateKeypadKey, KeySym Classification Macros | ||
32130 | |||
32131 | K | ||
32132 | |||
32133 | Key, Keyboard Grabbing, Keyboard Grabbing, Glossary | ||
32134 | |||
32135 | grabbing, Keyboard Grabbing, Glossary | ||
32136 | ungrabbing, Keyboard Grabbing | ||
32137 | |||
32138 | Keyboard, Keyboard Grabbing, Keyboard Grabbing, Manipulating | ||
32139 | the Keyboard and Pointer Settings, Manipulating the | ||
32140 | Keyboard and Pointer Settings, Manipulating the Keyboard | ||
32141 | and Pointer Settings, Glossary | ||
32142 | |||
32143 | bell volume, Manipulating the Keyboard and Pointer | ||
32144 | Settings | ||
32145 | |||
32146 | bit vector, Manipulating the Keyboard and Pointer Settings | ||
32147 | grabbing, Keyboard Grabbing, Glossary | ||
32148 | keyclick volume, Manipulating the Keyboard and Pointer | ||
32149 | Settings | ||
32150 | |||
32151 | ungrabbing, Keyboard Grabbing | ||
32152 | |||
32153 | KeymapNotify, Key Map State Notification Events | ||
32154 | KeyPress, Keyboard and Pointer Events | ||
32155 | KeyRelease, Keyboard and Pointer Events | ||
32156 | Keysym, Glossary | ||
32157 | |||
32158 | L | ||
32159 | |||
32160 | LastKnownRequestProcessed, Display Macros | ||
32161 | Latin Portable Character Encoding, Glossary | ||
32162 | Latin-1, Glossary | ||
32163 | LeaveNotify, Window Entry/Exit Events | ||
32164 | Lines, Drawing Single and Multiple Lines | ||
32165 | |||
32166 | drawing, Drawing Single and Multiple Lines | ||
32167 | |||
32168 | Locale, Glossary | ||
32169 | Locale name, Glossary | ||
32170 | Localization, Glossary | ||
32171 | LockDisplay, Locking Data Structures | ||
32172 | |||
32173 | M | ||
32174 | |||
32175 | MapNotify, MapNotify Events | ||
32176 | Mapped window, Glossary | ||
32177 | MappingNotify, MappingNotify Events | ||
32178 | MapRequest, MapRequest Events | ||
32179 | MaxCmapsOfScreen, Screen Information Macros | ||
32180 | Menus, Grabbing the Server | ||
32181 | MinCmapsOfScreen, Screen Information Macros | ||
32182 | Modifier keys, Glossary | ||
32183 | Monochrome, Glossary | ||
32184 | MotionNotify, Keyboard and Pointer Events | ||
32185 | Mouse, Manipulating the Keyboard and Pointer Settings | ||
32186 | |||
32187 | programming, Manipulating the Keyboard and Pointer | ||
32188 | Settings | ||
32189 | |||
32190 | Multibyte, Glossary | ||
32191 | |||
32192 | N | ||
32193 | |||
32194 | NextRequest, Display Macros | ||
32195 | NoExpose, GraphicsExpose and NoExpose Events | ||
32196 | None, Generic Values and Types | ||
32197 | |||
32198 | O | ||
32199 | |||
32200 | Obscure, Glossary | ||
32201 | Occlude, Glossary | ||
32202 | Output Control, Event Types | ||
32203 | |||
32204 | P | ||
32205 | |||
32206 | Padding, Glossary | ||
32207 | Parent Window, Overview of the X Window System, Obtaining | ||
32208 | Window Information | ||
32209 | |||
32210 | Passive grab, Pointer Grabbing, Glossary | ||
32211 | Pixel value, Manipulating Graphics Context/State, Glossary | ||
32212 | Pixmap, Overview of the X Window System, Glossary | ||
32213 | Plane, Manipulating Graphics Context/State, Copying Areas, | ||
32214 | Glossary, Glossary | ||
32215 | |||
32216 | copying, Copying Areas | ||
32217 | mask, Manipulating Graphics Context/State, Glossary | ||
32218 | |||
32219 | PlanesOfScreen, Screen Information Macros | ||
32220 | Pointer, Pointer Grabbing, Pointer Grabbing, Pointer Grabbing, | ||
32221 | Glossary, Glossary | ||
32222 | |||
32223 | grabbing, Pointer Grabbing, Pointer Grabbing, Glossary | ||
32224 | ungrabbing, Pointer Grabbing | ||
32225 | |||
32226 | Pointing device, Glossary | ||
32227 | Points, Drawing Single and Multiple Points | ||
32228 | |||
32229 | drawing, Drawing Single and Multiple Points | ||
32230 | |||
32231 | Polygons, Drawing Single and Multiple Lines, Filling a Single | ||
32232 | Polygon | ||
32233 | |||
32234 | drawing, Drawing Single and Multiple Lines | ||
32235 | filling, Filling a Single Polygon | ||
32236 | |||
32237 | POSIX, Glossary | ||
32238 | POSIX Portable Filename Character Set, Glossary | ||
32239 | POSIX System Call, Display Macros | ||
32240 | |||
32241 | fork, Display Macros | ||
32242 | |||
32243 | PreeditCaretCallback, Preedit Caret Callback | ||
32244 | PreeditDoneCallback, Preedit State Callbacks | ||
32245 | PreeditDrawCallback, Preedit Draw Callback | ||
32246 | PreeditStartCallback, Preedit State Callbacks | ||
32247 | PreeditStateNotifyCallback, Preedit State Notify Callback | ||
32248 | Property, Obtaining and Changing Window Properties, Obtaining | ||
32249 | and Changing Window Properties, Obtaining and Changing | ||
32250 | Window Properties, Obtaining and Changing Window | ||
32251 | Properties, Obtaining and Changing Window Properties, | ||
32252 | Obtaining and Changing Window Properties, Obtaining and | ||
32253 | Changing Window Properties, Obtaining and Changing | ||
32254 | Window Properties, Obtaining and Changing Window | ||
32255 | Properties, Glossary | ||
32256 | |||
32257 | appending, Obtaining and Changing Window Properties | ||
32258 | changing, Obtaining and Changing Window Properties | ||
32259 | deleting, Obtaining and Changing Window Properties | ||
32260 | format, Obtaining and Changing Window Properties | ||
32261 | getting, Obtaining and Changing Window Properties | ||
32262 | listing, Obtaining and Changing Window Properties | ||
32263 | prepending, Obtaining and Changing Window Properties | ||
32264 | replacing, Obtaining and Changing Window Properties | ||
32265 | type, Obtaining and Changing Window Properties | ||
32266 | |||
32267 | Property list, Glossary | ||
32268 | PropertyNotify, PropertyNotify Events | ||
32269 | Protocol, Opening the Display, Opening the Display | ||
32270 | |||
32271 | DECnet, Opening the Display | ||
32272 | TCP, Opening the Display | ||
32273 | |||
32274 | ProtocolRevision, Display Macros | ||
32275 | ProtocolVersion, Display Macros | ||
32276 | PseudoColor, Glossary | ||
32277 | Psychometric Chroma, CIELab Queries, CIELab Queries, CIELab | ||
32278 | Queries, CIELab Queries, CIELuv Queries, CIELuv Queries, | ||
32279 | CIELuv Queries, CIELuv Queries | ||
32280 | |||
32281 | maximum, CIELab Queries, CIELab Queries, CIELuv Queries, | ||
32282 | CIELuv Queries | ||
32283 | |||
32284 | Psychometric Hue Angle, CIELab Queries, CIELab Queries, CIELab | ||
32285 | Queries, CIELab Queries, CIELuv Queries, CIELuv Queries, | ||
32286 | CIELuv Queries, CIELuv Queries | ||
32287 | |||
32288 | Q | ||
32289 | |||
32290 | QLength, Display Macros | ||
32291 | |||
32292 | R | ||
32293 | |||
32294 | Read-only colormap cells, Allocating and Freeing Color Cells, | ||
32295 | Allocating and Freeing Color Cells, Allocating and | ||
32296 | Freeing Color Cells, Allocating and Freeing Color Cells, | ||
32297 | Allocating and Freeing Color Cells | ||
32298 | |||
32299 | allocating, Allocating and Freeing Color Cells, Allocating | ||
32300 | and Freeing Color Cells, Allocating and Freeing | ||
32301 | Color Cells, Allocating and Freeing Color Cells | ||
32302 | |||
32303 | read-only colormap cells, Allocating and Freeing Color Cells | ||
32304 | Read/write colormap cells, Allocating and Freeing Color Cells, | ||
32305 | Allocating and Freeing Color Cells | ||
32306 | |||
32307 | allocating, Allocating and Freeing Color Cells | ||
32308 | |||
32309 | Read/write colormap planes, Allocating and Freeing Color Cells | ||
32310 | |||
32311 | allocating, Allocating and Freeing Color Cells | ||
32312 | |||
32313 | Rectangle, Filling Single and Multiple Rectangles, Glossary | ||
32314 | |||
32315 | filling, Filling Single and Multiple Rectangles | ||
32316 | |||
32317 | Rectangles, Drawing Single and Multiple Rectangles | ||
32318 | |||
32319 | drawing, Drawing Single and Multiple Rectangles | ||
32320 | |||
32321 | Redirecting control, Glossary | ||
32322 | ReparentNotify, ReparentNotify Events | ||
32323 | Reply, Glossary | ||
32324 | Request, Glossary | ||
32325 | ResizeRequest, ResizeRequest Events | ||
32326 | Resource, Glossary | ||
32327 | Resource IDs, Overview of the X Window System, Overview of the | ||
32328 | X Window System, Overview of the X Window System, | ||
32329 | Overview of the X Window System, Overview of the X | ||
32330 | Window System, Overview of the X Window System, Overview | ||
32331 | of the X Window System, Closing the Display, Window | ||
32332 | Attributes, Changing Window Attributes, Changing Window | ||
32333 | Attributes, Associating User Data with a Value | ||
32334 | |||
32335 | Colormap, Overview of the X Window System | ||
32336 | Cursor, Overview of the X Window System | ||
32337 | Font, Overview of the X Window System | ||
32338 | freeing, Window Attributes, Changing Window Attributes, | ||
32339 | Changing Window Attributes | ||
32340 | |||
32341 | GContext, Overview of the X Window System | ||
32342 | Pixmap, Overview of the X Window System | ||
32343 | Window, Overview of the X Window System | ||
32344 | |||
32345 | RGB values, Glossary | ||
32346 | Root, Glossary | ||
32347 | RootWindow, Display Macros | ||
32348 | RootWindowOfScreen, Screen Information Macros | ||
32349 | |||
32350 | S | ||
32351 | |||
32352 | Save set, Glossary | ||
32353 | Save Unders, Save Under Flag | ||
32354 | Scanline, Glossary, Glossary | ||
32355 | |||
32356 | order, Glossary | ||
32357 | |||
32358 | Screen, Overview of the X Window System, Opening the Display, | ||
32359 | Glossary, Glossary | ||
32360 | |||
32361 | structure, Glossary | ||
32362 | |||
32363 | Screen White Point, Gamut Querying Functions | ||
32364 | ScreenCount, Display Macros | ||
32365 | ScreenNumberOfCCC, Color Conversion Context Macros | ||
32366 | ScreenOfDisplay, Display Macros | ||
32367 | ScreenWhitePointOfCCC, Color Conversion Context Macros | ||
32368 | Selection, Selections, Selections, Selections, Selections, | ||
32369 | Glossary | ||
32370 | |||
32371 | converting, Selections | ||
32372 | getting the owner, Selections | ||
32373 | setting the owner, Selections | ||
32374 | |||
32375 | SelectionClear, SelectionClear Events | ||
32376 | SelectionNotify, SelectionNotify Events | ||
32377 | SelectionRequest, SelectionRequest Events | ||
32378 | Serial Number, Using the Default Error Handlers | ||
32379 | Server, Grabbing the Server, Glossary, Glossary | ||
32380 | |||
32381 | grabbing, Grabbing the Server, Glossary | ||
32382 | |||
32383 | ServerVendor, Display Macros | ||
32384 | Shift sequence, Glossary | ||
32385 | Sibling, Glossary | ||
32386 | Source, Manipulating Graphics Context/State | ||
32387 | Stacking order, Overview of the X Window System, Glossary | ||
32388 | Standard Colormaps, Standard Colormap Properties and Atoms | ||
32389 | State-dependent encoding, Glossary | ||
32390 | State-independent encoding, Glossary | ||
32391 | StaticColor, Glossary | ||
32392 | StaticGray, Glossary | ||
32393 | Status, Errors, Glossary | ||
32394 | StatusDoneCallback, Status Callbacks | ||
32395 | StatusDrawCallback, Status Callbacks | ||
32396 | StatusStartCallback, Status Callbacks | ||
32397 | Stipple, Glossary | ||
32398 | String Equivalence, Glossary | ||
32399 | StringConversionCallback, String Conversion Callback | ||
32400 | Strings, Drawing Text Characters | ||
32401 | |||
32402 | drawing, Drawing Text Characters | ||
32403 | |||
32404 | T | ||
32405 | |||
32406 | Text, Drawing Complex Text | ||
32407 | |||
32408 | drawing, Drawing Complex Text | ||
32409 | |||
32410 | Tile, Overview of the X Window System, Window Attributes, | ||
32411 | Window Attributes, Glossary | ||
32412 | |||
32413 | mode, Window Attributes | ||
32414 | pixmaps, Window Attributes | ||
32415 | |||
32416 | Time, Pointer Grabbing | ||
32417 | Timestamp, Glossary | ||
32418 | True, Generic Values and Types | ||
32419 | TrueColor, Glossary | ||
32420 | Type, Glossary | ||
32421 | |||
32422 | U | ||
32423 | |||
32424 | Ungrabbing, Pointer Grabbing, Pointer Grabbing, Keyboard | ||
32425 | Grabbing, Keyboard Grabbing | ||
32426 | |||
32427 | buttons, Pointer Grabbing | ||
32428 | keyboard, Keyboard Grabbing | ||
32429 | keys, Keyboard Grabbing | ||
32430 | pointer, Pointer Grabbing | ||
32431 | |||
32432 | UnlockDisplay, Locking Data Structures | ||
32433 | UnmapNotify, UnmapNotify Events | ||
32434 | UnmapNotify Event, Unmapping Windows, Unmapping Windows | ||
32435 | |||
32436 | V | ||
32437 | |||
32438 | Value, TekHVC Queries, TekHVC Queries, TekHVC Queries, TekHVC | ||
32439 | Queries, TekHVC Queries, TekHVC Queries, TekHVC Queries, | ||
32440 | TekHVC Queries | ||
32441 | |||
32442 | maximum, TekHVC Queries, TekHVC Queries, TekHVC Queries | ||
32443 | minimum, TekHVC Queries | ||
32444 | |||
32445 | VendorRelease, Display Macros | ||
32446 | Vertex, Drawing and Filling Polygons and Curves | ||
32447 | VertexCurved, Drawing and Filling Polygons and Curves | ||
32448 | VertexDontDraw, Drawing and Filling Polygons and Curves | ||
32449 | VertexEndClosed, Drawing and Filling Polygons and Curves | ||
32450 | VertexRelative, Drawing and Filling Polygons and Curves | ||
32451 | VertexStartClosed, Drawing and Filling Polygons and Curves | ||
32452 | Viewable, Glossary | ||
32453 | VisibilityNotify, VisibilityNotify Events | ||
32454 | Visible, Glossary | ||
32455 | Visual, Visual Types | ||
32456 | Visual Classes, Visual Types, Visual Types, Visual Types, | ||
32457 | Visual Types, Visual Types, Visual Types | ||
32458 | |||
32459 | GrayScale, Visual Types | ||
32460 | PseudoColor, Visual Types | ||
32461 | StaticColor, Visual Types, Visual Types | ||
32462 | StaticGray, Visual Types | ||
32463 | TrueColor, Visual Types | ||
32464 | |||
32465 | Visual Type, Visual Types | ||
32466 | VisualOfCCC, Color Conversion Context Macros | ||
32467 | |||
32468 | W | ||
32469 | |||
32470 | White point, Color Conversion Contexts and Gamut Mapping | ||
32471 | White point adjustment, Color Conversion Contexts and Gamut | ||
32472 | Mapping, Modifying Attributes of a Color Conversion | ||
32473 | Context, Modifying Attributes of a Color Conversion | ||
32474 | Context, Modifying Attributes of a Color Conversion | ||
32475 | Context | ||
32476 | |||
32477 | client data, Modifying Attributes of a Color Conversion | ||
32478 | Context | ||
32479 | |||
32480 | procedure, Modifying Attributes of a Color Conversion | ||
32481 | Context | ||
32482 | |||
32483 | setting in Color Conversion Context, Modifying Attributes | ||
32484 | of a Color Conversion Context | ||
32485 | |||
32486 | WhitePixel, Display Macros | ||
32487 | WhitePixelOfScreen, Screen Information Macros | ||
32488 | Whitespace, Glossary | ||
32489 | WidthMMOfScreen, Screen Information Macros | ||
32490 | WidthOfScreen, Screen Information Macros | ||
32491 | Window, Overview of the X Window System, Display Macros, | ||
32492 | Display Macros, Window Attributes, Window Attributes, | ||
32493 | Window Attributes, Creating Windows, Changing Window | ||
32494 | Attributes, Changing Window Attributes, Changing Window | ||
32495 | Attributes, Clearing Areas, Grabbing the Server, Setting | ||
32496 | and Reading the WM_NAME Property, Setting and Reading | ||
32497 | the WM_ICON_NAME Property, Parsing the Window Geometry, | ||
32498 | Parsing Window Geometry, Associating User Data with a | ||
32499 | Value, Glossary, Glossary, Glossary, Glossary, Glossary, | ||
32500 | Glossary | ||
32501 | |||
32502 | attributes, Window Attributes | ||
32503 | background, Changing Window Attributes | ||
32504 | clearing, Clearing Areas | ||
32505 | defining the cursor, Changing Window Attributes | ||
32506 | determining location, Parsing the Window Geometry, Parsing | ||
32507 | Window Geometry | ||
32508 | |||
32509 | gravity, Glossary | ||
32510 | icon name, Setting and Reading the WM_ICON_NAME Property | ||
32511 | IDs, Associating User Data with a Value | ||
32512 | InputOnly, Creating Windows, Glossary | ||
32513 | InputOutput, Glossary | ||
32514 | manager, Glossary | ||
32515 | managers, Grabbing the Server | ||
32516 | mapping, Window Attributes | ||
32517 | name, Setting and Reading the WM_NAME Property | ||
32518 | parent, Glossary | ||
32519 | root, Glossary | ||
32520 | RootWindow, Display Macros | ||
32521 | undefining the cursor, Changing Window Attributes | ||
32522 | XRootWindow, Display Macros | ||
32523 | |||
32524 | X | ||
32525 | |||
32526 | X Portable Character Set, Glossary | ||
32527 | X10 compatibility, Drawing and Filling Polygons and Curves, | ||
32528 | Drawing and Filling Polygons and Curves, Drawing and | ||
32529 | Filling Polygons and Curves, Drawing and Filling | ||
32530 | Polygons and Curves, Drawing and Filling Polygons and | ||
32531 | Curves, Drawing and Filling Polygons and Curves, Drawing | ||
32532 | and Filling Polygons and Curves, Drawing and Filling | ||
32533 | Polygons and Curves, Drawing and Filling Polygons and | ||
32534 | Curves, Drawing and Filling Polygons and Curves | ||
32535 | |||
32536 | XDraw, Drawing and Filling Polygons and Curves, Drawing | ||
32537 | and Filling Polygons and Curves | ||
32538 | |||
32539 | XDrawDashed, Drawing and Filling Polygons and Curves, | ||
32540 | Drawing and Filling Polygons and Curves | ||
32541 | |||
32542 | XDrawFilled, Drawing and Filling Polygons and Curves, | ||
32543 | Drawing and Filling Polygons and Curves | ||
32544 | |||
32545 | XDrawPatterned, Drawing and Filling Polygons and Curves, | ||
32546 | Drawing and Filling Polygons and Curves | ||
32547 | |||
32548 | XDrawTiled, Drawing and Filling Polygons and Curves, | ||
32549 | Drawing and Filling Polygons and Curves | ||
32550 | |||
32551 | X11/cursorfont.h, Standard Header Files | ||
32552 | X11/keysym.h, Standard Header Files, Manipulating the Keyboard | ||
32553 | Encoding | ||
32554 | |||
32555 | X11/keysymdef.h, Standard Header Files, Manipulating the | ||
32556 | Keyboard Encoding, Using Keyboard Utility Functions | ||
32557 | |||
32558 | X11/X.h, Overview of the X Window System, Standard Header | ||
32559 | Files, Manipulating Graphics Context/State, Event Types, | ||
32560 | Event Masks | ||
32561 | |||
32562 | X11/X10.h, Standard Header Files, Drawing and Filling Polygons | ||
32563 | and Curves, Drawing and Filling Polygons and Curves | ||
32564 | |||
32565 | X11/Xatom.h, Standard Header Files, Properties and Atoms, | ||
32566 | Loading and Freeing Fonts, Standard Colormap Properties | ||
32567 | and Atoms | ||
32568 | |||
32569 | X11/Xcms.h, Standard Header Files, Color Management Functions | ||
32570 | X11/Xlib.h, Standard Header Files, Opening the Display, Color | ||
32571 | Management Functions, Event Structures, Manipulating | ||
32572 | Images | ||
32573 | |||
32574 | X11/Xlibint.h, Standard Header Files | ||
32575 | X11/Xproto.h, Standard Header Files, GraphicsExpose and | ||
32576 | NoExpose Events | ||
32577 | |||
32578 | X11/Xprotostr.h, Standard Header Files | ||
32579 | X11/Xresource.h, Standard Header Files, Resource Manager | ||
32580 | Functions | ||
32581 | |||
32582 | X11/Xutil.h, Standard Header Files, Setting and Reading the | ||
32583 | WM_HINTS Property, Setting and Reading the | ||
32584 | WM_NORMAL_HINTS Property, Setting and Reading the | ||
32585 | WM_CLASS Property, Setting and Reading the WM_ICON_SIZE | ||
32586 | Property, Parsing the Window Geometry, Manipulating | ||
32587 | Regions, Determining the Appropriate Visual Type, | ||
32588 | Manipulating Images, Using the Context Manager, Setting | ||
32589 | and Getting Window Sizing Hints | ||
32590 | |||
32591 | XActivateScreenSaver, Controlling the Screen Saver | ||
32592 | XAddExtension, Hooking into Xlib | ||
32593 | XAddHost, Adding, Getting, or Removing Hosts | ||
32594 | XAddHosts, Adding, Getting, or Removing Hosts | ||
32595 | XAddPixel, Manipulating Images | ||
32596 | XAddToExtensionList, Hooks onto Xlib Data Structures | ||
32597 | XAddToSaveSet, Controlling the Lifetime of a Window | ||
32598 | XAllocClassHint, Setting and Reading the WM_CLASS Property | ||
32599 | XAllocColor, Allocating and Freeing Color Cells, Allocating and | ||
32600 | Freeing Color Cells | ||
32601 | |||
32602 | XAllocColorCells, Allocating and Freeing Color Cells, | ||
32603 | Allocating and Freeing Color Cells | ||
32604 | |||
32605 | XAllocColorPlanes, Allocating and Freeing Color Cells, | ||
32606 | Allocating and Freeing Color Cells | ||
32607 | |||
32608 | XAllocID, Hooks onto Xlib Data Structures | ||
32609 | XAllocIDs, Hooks onto Xlib Data Structures | ||
32610 | XAllocNamedColor, Allocating and Freeing Color Cells, | ||
32611 | Allocating and Freeing Color Cells | ||
32612 | |||
32613 | XAllowEvents, Resuming Event Processing | ||
32614 | XAllPlanes, Display Macros | ||
32615 | XAnyEvent, Event Structures | ||
32616 | XArc, Drawing Points, Lines, Rectangles, and Arcs | ||
32617 | XAutoRepeatOff, Manipulating the Keyboard and Pointer Settings | ||
32618 | XAutoRepeatOn, Manipulating the Keyboard and Pointer Settings | ||
32619 | XBaseFontNameListOfFontSet, Creating and Freeing a Font Set | ||
32620 | XBell, Manipulating the Keyboard and Pointer Settings | ||
32621 | XBitmapBitOrder, Image Format Functions and Macros | ||
32622 | XBitmapPad, Image Format Functions and Macros | ||
32623 | XBitmapUnit, Image Format Functions and Macros | ||
32624 | XBlackPixel, Display Macros | ||
32625 | XBlackPixelOfScreen, Screen Information Macros | ||
32626 | XCellsOfScreen, Screen Information Macros | ||
32627 | XChangeActivePointerGrab, Pointer Grabbing | ||
32628 | XChangeGC, Manipulating Graphics Context/State | ||
32629 | XChangeKeyboardControl, Manipulating the Keyboard and Pointer | ||
32630 | Settings | ||
32631 | |||
32632 | XChangeKeyboardMapping, Manipulating the Keyboard Encoding | ||
32633 | XChangePointerControl, Manipulating the Keyboard and Pointer | ||
32634 | Settings | ||
32635 | |||
32636 | XChangeProperty, Obtaining and Changing Window Properties | ||
32637 | XChangeSaveSet, Controlling the Lifetime of a Window | ||
32638 | XChangeWindowAttributes, Changing Window Attributes | ||
32639 | XChar2b, Font Metrics | ||
32640 | XCharStruct, Font Metrics | ||
32641 | XCheckIfEvent, Selecting Events Using a Predicate Procedure | ||
32642 | XCheckMaskEvent, Selecting Events Using a Window or Event Mask | ||
32643 | XCheckTypedEvent, Selecting Events Using a Window or Event Mask | ||
32644 | XCheckTypedWindowEvent, Selecting Events Using a Window or | ||
32645 | Event Mask | ||
32646 | |||
32647 | XCheckWindowEvent, Selecting Events Using a Window or Event | ||
32648 | Mask, Selecting Events Using a Window or Event Mask | ||
32649 | |||
32650 | XCirculateEvent, CirculateNotify Events | ||
32651 | XCirculateRequestEvent, CirculateRequest Events | ||
32652 | XCirculateSubwindows, Changing Window Stacking Order | ||
32653 | XCirculateSubwindowsDown, Changing Window Stacking Order | ||
32654 | XCirculateSubwindowsUp, Changing Window Stacking Order | ||
32655 | XClassHint, Setting and Reading the WM_CLASS Property | ||
32656 | XClearArea, Clearing Areas | ||
32657 | XClearWindow, Clearing Areas | ||
32658 | XClientMessageEvent, ClientMessage Events | ||
32659 | XClipBox, Computing with Regions | ||
32660 | XCloseDisplay, Closing the Display, Closing the Display | ||
32661 | XCloseIM, Input Method Functions | ||
32662 | XCloseOM, Output Method Functions | ||
32663 | XcmsAddColorSpace, Adding Device-Independent Color Spaces | ||
32664 | XcmsAddFunctionSet, Adding Function Sets | ||
32665 | XcmsAllocColor, Allocating and Freeing Color Cells | ||
32666 | XcmsAllocNamedColor, Allocating and Freeing Color Cells | ||
32667 | XcmsCCCOfColormap, Getting and Setting the Color Conversion | ||
32668 | Context of a Colormap | ||
32669 | |||
32670 | XcmsCIELab, Color Structures | ||
32671 | XcmsCIELabQueryMaxC, CIELab Queries | ||
32672 | XcmsCIELabQueryMaxL, CIELab Queries | ||
32673 | XcmsCIELabQueryMaxLC, CIELab Queries | ||
32674 | XcmsCIELabQueryMinL, CIELab Queries | ||
32675 | XcmsCIELuv, Color Structures | ||
32676 | XcmsCIELuvQueryMaxC, CIELuv Queries | ||
32677 | XcmsCIELuvQueryMaxL, CIELuv Queries | ||
32678 | XcmsCIELuvQueryMaxLC, CIELuv Queries | ||
32679 | XcmsCIELuvQueryMinL, CIELuv Queries | ||
32680 | XcmsCIEuvY, Color Structures | ||
32681 | XcmsCIExyY, Color Structures | ||
32682 | XcmsCIEXYZ, Color Structures | ||
32683 | XcmsClientWhitePointOfCCC, Color Conversion Context Macros | ||
32684 | XcmsColor, Color Structures | ||
32685 | XcmsCompressionProc, Prototype Gamut Compression Procedure | ||
32686 | XcmsConvertColors, Converting between Color Spaces | ||
32687 | XcmsCreateCCC, Creating and Freeing a Color Conversion Context | ||
32688 | XcmsDefaultCCC, Obtaining the Default Color Conversion Context | ||
32689 | XcmsDisplayOfCCC, Color Conversion Context Macros | ||
32690 | XcmsFormatOfPrefix, Querying Color Space Format and Prefix | ||
32691 | XcmsFreeCCC, Creating and Freeing a Color Conversion Context | ||
32692 | XcmsLookupColor, Mapping Color Names to Values | ||
32693 | XcmsPad, Color Structures | ||
32694 | XcmsParseStringProc, Parse String Callback | ||
32695 | XcmsPrefixOfFormat, Querying Color Space Format and Prefix | ||
32696 | XcmsQueryBlack, Red, Green, and Blue Queries | ||
32697 | XcmsQueryBlue, Red, Green, and Blue Queries | ||
32698 | XcmsQueryColor, Modifying and Querying Colormap Cells | ||
32699 | XcmsQueryColors, Modifying and Querying Colormap Cells | ||
32700 | XcmsQueryGreen, Red, Green, and Blue Queries | ||
32701 | XcmsQueryRed, Red, Green, and Blue Queries | ||
32702 | XcmsQueryWhite, Red, Green, and Blue Queries | ||
32703 | XcmsRGB, Color Structures | ||
32704 | XcmsRGBi, Color Structures | ||
32705 | XcmsScreenInitProc, Creating Additional Function Sets | ||
32706 | XcmsScreenNumberOfCCC, Color Conversion Context Macros | ||
32707 | XcmsScreenWhitePointOfCCC, Color Conversion Context Macros | ||
32708 | XcmsSetCCCOfColormap, Getting and Setting the Color Conversion | ||
32709 | Context of a Colormap | ||
32710 | |||
32711 | XcmsSetCompressionProc, Modifying Attributes of a Color | ||
32712 | Conversion Context | ||
32713 | |||
32714 | XcmsSetWhiteAdjustProc, Modifying Attributes of a Color | ||
32715 | Conversion Context | ||
32716 | |||
32717 | XcmsSetWhitePoint, Modifying Attributes of a Color Conversion | ||
32718 | Context | ||
32719 | |||
32720 | XcmsStoreColor, Modifying and Querying Colormap Cells | ||
32721 | XcmsStoreColors, Modifying and Querying Colormap Cells | ||
32722 | XcmsTekHVC, Color Structures | ||
32723 | XcmsTekHVCQueryMaxC, TekHVC Queries | ||
32724 | XcmsTekHVCQueryMaxV, TekHVC Queries | ||
32725 | XcmsTekHVCQueryMaxVC, TekHVC Queries | ||
32726 | XcmsTekHVCQueryMaxVSamples, TekHVC Queries | ||
32727 | XcmsTekHVCQueryMinV, TekHVC Queries | ||
32728 | XcmsVisualOfCCC, Color Conversion Context Macros | ||
32729 | XcmsWhiteAdjustProc, Prototype White Point Adjustment Procedure | ||
32730 | XColor, Color Structures | ||
32731 | XColormapEvent, Colormap State Change Events | ||
32732 | XConfigureEvent, ConfigureNotify Events | ||
32733 | XConfigureRequestEvent, ConfigureRequest Events | ||
32734 | XConfigureWindow, Configuring Windows | ||
32735 | XConnectionNumber, Display Macros | ||
32736 | XContextDependentDrawing, Obtaining Font Set Metrics | ||
32737 | XContextualDrawing, Obtaining Font Set Metrics | ||
32738 | XConvertCase, Using Keyboard Utility Functions | ||
32739 | XConvertSelection, Selections | ||
32740 | XCopyArea, Copying Areas | ||
32741 | XCopyColormapAndFree, Creating, Copying, and Destroying | ||
32742 | Colormaps | ||
32743 | |||
32744 | XCopyGC, Manipulating Graphics Context/State | ||
32745 | XCopyPlane, Copying Areas | ||
32746 | XCreateAssocTable, Associating User Data with a Value | ||
32747 | XCreateBitmapFromData, Manipulating Bitmaps | ||
32748 | XCreateColormap, Creating, Copying, and Destroying Colormaps | ||
32749 | XCreateFontCursor, Creating, Recoloring, and Freeing Cursors | ||
32750 | XCreateFontSet, Creating and Freeing a Font Set | ||
32751 | XCreateGC, Manipulating Graphics Context/State | ||
32752 | XCreateGlyphCursor, Creating, Recoloring, and Freeing Cursors | ||
32753 | XCreateIC, Input Context Functions | ||
32754 | XCreateImage, Manipulating Images | ||
32755 | XCreateOC, Output Context Functions | ||
32756 | XCreatePixmap, Creating and Freeing Pixmaps | ||
32757 | XCreatePixmapCursor, Creating, Recoloring, and Freeing Cursors | ||
32758 | XCreatePixmapFromBitmapData, Manipulating Bitmaps | ||
32759 | XCreateSimpleWindow, Creating Windows | ||
32760 | XCreateWindow, Creating Windows | ||
32761 | XCreateWindowEvent, CreateNotify Events | ||
32762 | XCrossingEvent, Window Entry/Exit Events | ||
32763 | XDefaultColormap, Display Macros | ||
32764 | XDefaultColormapOfScreen, Screen Information Macros | ||
32765 | XDefaultDepth, Display Macros | ||
32766 | XDefaultDepthOfScreen, Screen Information Macros | ||
32767 | XDefaultGC, Display Macros | ||
32768 | XDefaultGCOfScreen, Screen Information Macros | ||
32769 | XDefaultRootWindow, Display Macros | ||
32770 | XDefaultScreen, Display Macros | ||
32771 | XDefaultScreenOfDisplay, Display Macros | ||
32772 | XDefaultVisual, Display Macros | ||
32773 | XDefaultVisualOfScreen, Screen Information Macros | ||
32774 | XDefineCursor, Creating Windows, Changing Window Attributes | ||
32775 | XDeleteAssoc, Associating User Data with a Value | ||
32776 | XDeleteContext, Using the Context Manager | ||
32777 | XDeleteModifiermapEntry, Manipulating the Keyboard Encoding | ||
32778 | XDeleteProperty, Obtaining and Changing Window Properties | ||
32779 | XDestroyAssocTable, Associating User Data with a Value | ||
32780 | XDestroyIC, Input Context Functions | ||
32781 | XDestroyImage, Manipulating Images | ||
32782 | XDestroyOC, Output Context Functions | ||
32783 | XDestroyRegion, Creating, Copying, or Destroying Regions | ||
32784 | XDestroySubwindows, Destroying Windows | ||
32785 | XDestroyWindow, Destroying Windows | ||
32786 | XDestroyWindowEvent, DestroyNotify Events | ||
32787 | XDirectionalDependentDrawing, Obtaining Font Set Metrics | ||
32788 | XDisableAccessControl, Changing, Enabling, or Disabling Access | ||
32789 | Control | ||
32790 | |||
32791 | XDisplayCells, Display Macros | ||
32792 | XDisplayHeight, Image Format Functions and Macros | ||
32793 | XDisplayHeightMM, Image Format Functions and Macros | ||
32794 | XDisplayKeycodes, Manipulating the Keyboard Encoding | ||
32795 | XDisplayMotionBufferSize, Getting Pointer Motion History | ||
32796 | XDisplayName, Using the Default Error Handlers | ||
32797 | XDisplayOfIM, Input Method Functions | ||
32798 | XDisplayOfOM, Output Method Functions | ||
32799 | XDisplayOfScreen, Screen Information Macros | ||
32800 | XDisplayPlanes, Display Macros | ||
32801 | XDisplayString, Display Macros | ||
32802 | XDisplayWidth, Image Format Functions and Macros | ||
32803 | XDisplayWidthMM, Image Format Functions and Macros | ||
32804 | XDoesBackingStore, Screen Information Macros | ||
32805 | XDoesSaveUnders, Screen Information Macros | ||
32806 | xDoSomethingReply, Request Format | ||
32807 | xDoSomethingReq, Request Format | ||
32808 | XDrawArc, Drawing Single and Multiple Arcs, Drawing Single and | ||
32809 | Multiple Arcs | ||
32810 | |||
32811 | XDrawArcs, Drawing Single and Multiple Arcs, Drawing Single and | ||
32812 | Multiple Arcs | ||
32813 | |||
32814 | XDrawImageString, Drawing Image Text Characters, Drawing Image | ||
32815 | Text Characters | ||
32816 | |||
32817 | XDrawImageString16, Drawing Image Text Characters, Drawing | ||
32818 | Image Text Characters | ||
32819 | |||
32820 | XDrawLine, Drawing Single and Multiple Lines, Drawing Single | ||
32821 | and Multiple Lines | ||
32822 | |||
32823 | XDrawLines, Drawing Single and Multiple Lines, Drawing Single | ||
32824 | and Multiple Lines, Drawing and Filling Polygons and | ||
32825 | Curves | ||
32826 | |||
32827 | XDrawPoint, Drawing Single and Multiple Points, Drawing Single | ||
32828 | and Multiple Points | ||
32829 | |||
32830 | XDrawPoints, Drawing Single and Multiple Points, Drawing Single | ||
32831 | and Multiple Points | ||
32832 | |||
32833 | XDrawRectangle, Drawing Single and Multiple Rectangles, Drawing | ||
32834 | Single and Multiple Rectangles | ||
32835 | |||
32836 | XDrawRectangles, Drawing Single and Multiple Rectangles, | ||
32837 | Drawing Single and Multiple Rectangles | ||
32838 | |||
32839 | XDrawSegments, Drawing Single and Multiple Lines, Drawing | ||
32840 | Single and Multiple Lines, Drawing and Filling Polygons | ||
32841 | and Curves | ||
32842 | |||
32843 | XDrawString, Drawing Text Characters | ||
32844 | XDrawString16, Drawing Text Characters | ||
32845 | XDrawText, Drawing Complex Text | ||
32846 | XDrawText16, Drawing Complex Text | ||
32847 | XEHeadOfExtensionList, Hooks onto Xlib Data Structures | ||
32848 | XEmptyRegion, Determining if Regions Are Empty or Equal | ||
32849 | XEnableAccessControl, Changing, Enabling, or Disabling Access | ||
32850 | Control | ||
32851 | |||
32852 | XEnterWindowEvent, Window Entry/Exit Events | ||
32853 | XEqualRegion, Determining if Regions Are Empty or Equal | ||
32854 | XErrorEvent, Using the Default Error Handlers | ||
32855 | XESetBeforeFlush, Hooks into the Library | ||
32856 | XESetCloseDisplay, Hooks into the Library | ||
32857 | XESetCopyGC, Hooks into the Library | ||
32858 | XESetCreateFont, Hooks into the Library | ||
32859 | XESetCreateGC, Hooks into the Library | ||
32860 | XESetError, Hooks into the Library | ||
32861 | XESetErrorString, Hooks into the Library | ||
32862 | XESetEventToWire, Hooks into the Library | ||
32863 | XESetFlushGC, Hooks into the Library | ||
32864 | XESetFreeFont, Hooks into the Library | ||
32865 | XESetPrintErrorValues, Hooks into the Library | ||
32866 | XESetWireToError, Hooks into the Library | ||
32867 | XESetWireToEvent, Hooks into the Library | ||
32868 | XEvent, Event Structures | ||
32869 | XEventMaskOfScreen, Screen Information Macros | ||
32870 | XEventsQueued, Event Queue Management | ||
32871 | XExposeEvent, Expose Events | ||
32872 | XExtCodes, Hooking into Xlib | ||
32873 | XExtData, Hooks onto Xlib Data Structures | ||
32874 | XExtendedMaxRequestSize, Display Macros | ||
32875 | XExtentsOfFontSet, Obtaining Font Set Metrics | ||
32876 | XFetchBuffer, Using Cut Buffers | ||
32877 | XFetchBytes, Using Cut Buffers | ||
32878 | XFetchName, Setting and Reading the WM_NAME Property | ||
32879 | XFillArc, Filling Single and Multiple Arcs, Filling Single and | ||
32880 | Multiple Arcs | ||
32881 | |||
32882 | XFillArcs, Filling Single and Multiple Arcs | ||
32883 | XFillPolygon, Filling a Single Polygon | ||
32884 | XFillRectangle, Filling Single and Multiple Rectangles, Filling | ||
32885 | Single and Multiple Rectangles | ||
32886 | |||
32887 | XFillRectangles, Filling Single and Multiple Rectangles, | ||
32888 | Filling Single and Multiple Rectangles | ||
32889 | |||
32890 | XFilterEvent, Event Filtering | ||
32891 | XFindContext, Using the Context Manager | ||
32892 | XFindOnExtensionList, Hooks onto Xlib Data Structures | ||
32893 | XFlush, Handling the Output Buffer | ||
32894 | XFlushGC, Manipulating Graphics Context/State | ||
32895 | XFocusChangeEvent, Input Focus Events | ||
32896 | XFocusInEvent, Input Focus Events | ||
32897 | XFocusOutEvent, Input Focus Events | ||
32898 | XFontProp, Font Metrics | ||
32899 | XFontSetExtents, Obtaining Font Set Metrics | ||
32900 | XFontsOfFontSet, Creating and Freeing a Font Set | ||
32901 | XFontStruct, Font Metrics | ||
32902 | XForceScreenSaver, Controlling the Screen Saver | ||
32903 | XFree, Freeing Client-Created Data | ||
32904 | XFreeColormap, Creating, Copying, and Destroying Colormaps | ||
32905 | XFreeColors, Allocating and Freeing Color Cells | ||
32906 | XFreeCursor, Creating, Recoloring, and Freeing Cursors | ||
32907 | XFreeExtensionList, Basic Protocol Support Routines | ||
32908 | XFreeFont, Loading and Freeing Fonts | ||
32909 | XFreeFontInfo, Obtaining and Freeing Font Names and Information | ||
32910 | XFreeFontNames, Obtaining and Freeing Font Names and | ||
32911 | Information | ||
32912 | |||
32913 | XFreeFontPath, Setting and Retrieving the Font Search Path | ||
32914 | XFreeFontSet, Creating and Freeing a Font Set | ||
32915 | XFreeGC, Manipulating Graphics Context/State | ||
32916 | XFreeModifiermap, Manipulating the Keyboard Encoding | ||
32917 | XFreePixmap, Creating and Freeing Pixmaps | ||
32918 | XFreeStringList, Converting String Lists | ||
32919 | XGContextFromGC, Manipulating Graphics Context/State | ||
32920 | XGeometry, Parsing Window Geometry | ||
32921 | XGetAtomName, Properties and Atoms | ||
32922 | XGetAtomNames, Properties and Atoms | ||
32923 | XGetClassHint, Setting and Reading the WM_CLASS Property | ||
32924 | XGetCommand, Setting and Reading the WM_COMMAND Property | ||
32925 | XGetDefault, Getting the X Environment Defaults | ||
32926 | XGetErrorDatabaseText, Using the Default Error Handlers | ||
32927 | XGetErrorText, Using the Default Error Handlers | ||
32928 | XGetFontPath, Setting and Retrieving the Font Search Path | ||
32929 | XGetFontProperty, Loading and Freeing Fonts | ||
32930 | XGetGCValues, Manipulating Graphics Context/State | ||
32931 | XGetGeometry, Obtaining Window Information | ||
32932 | XGetIconName, Setting and Reading the WM_ICON_NAME Property | ||
32933 | XGetIconSizes, Setting and Reading the WM_ICON_SIZE Property | ||
32934 | XGetICValues, Input Context Functions | ||
32935 | XGetImage, Transferring Images between Client and Server | ||
32936 | XGetIMValues, Input Method Functions | ||
32937 | XGetInputFocus, Controlling Input Focus | ||
32938 | XGetKeyboardControl, Manipulating the Keyboard and Pointer | ||
32939 | Settings, Manipulating the Keyboard and Pointer Settings | ||
32940 | |||
32941 | XGetKeyboardMapping, Manipulating the Keyboard Encoding | ||
32942 | XGetModifierMapping, Manipulating the Keyboard Encoding | ||
32943 | XGetMotionEvents, Getting Pointer Motion History | ||
32944 | XGetNormalHints, Setting and Getting Window Sizing Hints | ||
32945 | XGetOCValues, Output Context Functions | ||
32946 | XGetOMValues, Output Method Functions | ||
32947 | XGetPixel, Manipulating Images | ||
32948 | XGetPointerControl, Manipulating the Keyboard and Pointer | ||
32949 | Settings | ||
32950 | |||
32951 | XGetPointerMapping, Manipulating the Keyboard and Pointer | ||
32952 | Settings | ||
32953 | |||
32954 | XGetRGBColormaps, Setting and Obtaining Standard Colormaps | ||
32955 | XGetScreenSaver, Controlling the Screen Saver | ||
32956 | XGetSelectionOwner, Selections | ||
32957 | XGetSizeHints, Setting and Getting Window Sizing Hints | ||
32958 | XGetStandardColormap, Getting and Setting an XStandardColormap | ||
32959 | Structure | ||
32960 | |||
32961 | XGetSubImage, Transferring Images between Client and Server | ||
32962 | XGetTextProperty, Setting and Reading Text Properties | ||
32963 | XGetTransientForHint, Setting and Reading the WM_TRANSIENT_FOR | ||
32964 | Property | ||
32965 | |||
32966 | XGetVisualInfo, Determining the Appropriate Visual Type | ||
32967 | XGetWindowAttributes, Obtaining Window Information | ||
32968 | XGetWindowProperty, Obtaining and Changing Window Properties | ||
32969 | XGetWMClientMachine, Setting and Reading the WM_CLIENT_MACHINE | ||
32970 | Property | ||
32971 | |||
32972 | XGetWMColormapWindows, Setting and Reading the | ||
32973 | WM_COLORMAP_WINDOWS Property | ||
32974 | |||
32975 | XGetWMHints, Setting and Reading the WM_HINTS Property | ||
32976 | XGetWMIconName, Setting and Reading the WM_ICON_NAME Property | ||
32977 | XGetWMName, Setting and Reading the WM_NAME Property | ||
32978 | XGetWMNormalHints, Setting and Reading the WM_NORMAL_HINTS | ||
32979 | Property | ||
32980 | |||
32981 | XGetWMProtocols, Setting and Reading the WM_PROTOCOLS Property | ||
32982 | XGetWMSizeHints, Setting and Reading the WM_NORMAL_HINTS | ||
32983 | Property | ||
32984 | |||
32985 | XGetZoomHints, Setting and Getting Window Sizing Hints | ||
32986 | XGrabButton, Pointer Grabbing | ||
32987 | XGrabKey, Keyboard Grabbing | ||
32988 | XGrabKeyboard, Keyboard Grabbing | ||
32989 | XGrabPointer, Pointer Grabbing | ||
32990 | XGrabServer, Grabbing the Server | ||
32991 | XGraphicsExposeEvent, GraphicsExpose and NoExpose Events | ||
32992 | XGravityEvent, GravityNotify Events | ||
32993 | XHeightMMOfScreen, Screen Information Macros | ||
32994 | XHeightOfScreen, Screen Information Macros | ||
32995 | XHostAddress, Adding, Getting, or Removing Hosts | ||
32996 | XIconifyWindow, Manipulating Top-Level Windows | ||
32997 | XIconSize, Setting and Reading the WM_ICON_SIZE Property, | ||
32998 | Setting and Reading the WM_ICON_SIZE Property | ||
32999 | |||
33000 | XID, Generic Values and Types | ||
33001 | XIfEvent, Selecting Events Using a Predicate Procedure | ||
33002 | XIMAbsolutePosition, Preedit Caret Callback | ||
33003 | XImage, Transferring Images between Client and Server | ||
33004 | XImageByteOrder, Image Format Functions and Macros | ||
33005 | XIMBackwardChar, Preedit Caret Callback | ||
33006 | XIMBackwardWord, Preedit Caret Callback | ||
33007 | XIMCallback, Preedit and Status Callbacks | ||
33008 | XIMCaretDirection, Preedit Caret Callback | ||
33009 | XIMCaretDown, Preedit Caret Callback | ||
33010 | XIMCaretStyle, Preedit Caret Callback | ||
33011 | XIMCaretUp, Preedit Caret Callback | ||
33012 | XIMDontChange, Preedit Caret Callback | ||
33013 | XIMForwardChar, Preedit Caret Callback | ||
33014 | XIMForwardWord, Preedit Caret Callback | ||
33015 | XIMHighlight, Preedit Draw Callback | ||
33016 | XIMInitialState, Reset State | ||
33017 | XIMLineEnd, Preedit Caret Callback | ||
33018 | XIMLineStart, Preedit Caret Callback | ||
33019 | XIMNextLine, Preedit Caret Callback | ||
33020 | XIMOfIC, Input Context Functions | ||
33021 | XIMPreeditArea, Query Input Style, Query Input Style | ||
33022 | XIMPreeditCallbacks, Query Input Style, Query Input Style | ||
33023 | XIMPreeditCaretCallbackStruct, Preedit Caret Callback | ||
33024 | XIMPreeditDisable, Preedit State | ||
33025 | XIMPreeditDrawCallbackStruct, Preedit Draw Callback | ||
33026 | XIMPreeditEnable, Preedit State | ||
33027 | XIMPreeditNone, Query Input Style, Query Input Style | ||
33028 | XIMPreeditNothing, Query Input Style, Query Input Style | ||
33029 | XIMPreeditPosition, Query Input Style, Query Input Style | ||
33030 | XIMPreeditStateNotifyCallbackStruct, Preedit State Notify | ||
33031 | Callback | ||
33032 | |||
33033 | XIMPreeditUnknown, Preedit State | ||
33034 | XIMPreviousLine, Preedit Caret Callback | ||
33035 | XIMPrimary, Preedit Draw Callback | ||
33036 | XIMProc, Preedit and Status Callbacks | ||
33037 | XIMReverse, Preedit Draw Callback | ||
33038 | XIMSecondary, Preedit Draw Callback | ||
33039 | XIMStatusArea, Query Input Style, Query Input Style | ||
33040 | XIMStatusCallbacks, Query Input Style, Query Input Style | ||
33041 | XIMStatusDataType, Status Callbacks | ||
33042 | XIMStatusDrawCallbackStruct, Status Callbacks | ||
33043 | XIMStatusNone, Query Input Style, Query Input Style | ||
33044 | XIMStatusNothing, Query Input Style, Query Input Style | ||
33045 | XIMStringConversionCallbackStruct, String Conversion Callback | ||
33046 | XIMStyle, Query Input Style | ||
33047 | XIMStyles, Query Input Style | ||
33048 | XIMTertiary, Preedit Draw Callback | ||
33049 | XIMText, Preedit Draw Callback | ||
33050 | XIMUnderline, Preedit Draw Callback | ||
33051 | XIMVisibleToBackward, Preedit Draw Callback | ||
33052 | XIMVisibleToCenter, Preedit Draw Callback | ||
33053 | XIMVisibleToForward, Preedit Draw Callback | ||
33054 | XInitExtension, Hooking into Xlib | ||
33055 | XInitImage, Transferring Images between Client and Server | ||
33056 | XInitThreads, Using Xlib with Threads | ||
33057 | XINPreserveState, Reset State | ||
33058 | XInsertModifiermapEntry, Manipulating the Keyboard Encoding | ||
33059 | XInstallColormap, Managing Installed Colormaps | ||
33060 | XInternalConnectionNumbers, Using Internal Connections | ||
33061 | XInternAtom, Properties and Atoms | ||
33062 | XInternAtoms, Properties and Atoms | ||
33063 | XIntersectRegion, Computing with Regions | ||
33064 | XKeyboardState, Manipulating the Keyboard and Pointer Settings | ||
33065 | XKeycodeToKeysym, Using Keyboard Utility Functions | ||
33066 | XKeymapEvent, Key Map State Notification Events | ||
33067 | XKeysymToKeycode, Using Keyboard Utility Functions | ||
33068 | XKeysymToString, Using Keyboard Utility Functions | ||
33069 | XKillClient, Killing Clients | ||
33070 | XLastKnownRequestProcessed, Display Macros | ||
33071 | XLeaveWindowEvent, Window Entry/Exit Events | ||
33072 | XLFD, Glossary | ||
33073 | XlibSpecificationRelease, Standard Header Files | ||
33074 | XListDepths, Display Macros | ||
33075 | XListExtensions, Basic Protocol Support Routines | ||
33076 | XListFonts, Obtaining and Freeing Font Names and Information | ||
33077 | XListFontsWithInfo, Obtaining and Freeing Font Names and | ||
33078 | Information | ||
33079 | |||
33080 | XListHosts, Adding, Getting, or Removing Hosts | ||
33081 | XListInstalledColormaps, Managing Installed Colormaps | ||
33082 | XListPixmapFormats, Image Format Functions and Macros | ||
33083 | XListProperties, Obtaining and Changing Window Properties | ||
33084 | XLoadFont, Loading and Freeing Fonts | ||
33085 | XLoadQueryFont, Loading and Freeing Fonts | ||
33086 | XLocaleOfFontSet, Creating and Freeing a Font Set | ||
33087 | XLocaleOfIM, Input Method Functions | ||
33088 | XLocaleOfOM, Output Method Functions | ||
33089 | XLockDisplay, Using Xlib with Threads | ||
33090 | XLookUpAssoc, Associating User Data with a Value | ||
33091 | XLookupColor, Mapping Color Names to Values | ||
33092 | XLookupKeysym, Using Keyboard Utility Functions | ||
33093 | XLookupString, Using Latin-1 Keyboard Event Functions | ||
33094 | XLowerWindow, Changing Window Stacking Order | ||
33095 | XMakeAssoc, Associating User Data with a Value | ||
33096 | XMapEvent, MapNotify Events | ||
33097 | XMappingEvent, MappingNotify Events | ||
33098 | XMapRaised, Mapping Windows | ||
33099 | XMapRequestEvent, MapRequest Events | ||
33100 | XMapSubwindows, Mapping Windows, Mapping Windows | ||
33101 | XMapWindow, Window Attributes, Mapping Windows, Mapping Windows | ||
33102 | XMaskEvent, Selecting Events Using a Window or Event Mask | ||
33103 | XMatchVisualInfo, Determining the Appropriate Visual Type | ||
33104 | XMaxCmapsOfScreen, Screen Information Macros | ||
33105 | XMaxRequestSize, Display Macros | ||
33106 | XmbDrawImageString, Drawing Text Using Font Sets | ||
33107 | XmbDrawString, Drawing Text Using Font Sets | ||
33108 | XmbDrawText, Drawing Text Using Font Sets | ||
33109 | XmbLookupString, Getting Keyboard Input | ||
33110 | XmbResetIC, Input Context Functions | ||
33111 | XmbSetWMProperties, Using Window Manager Convenience Functions | ||
33112 | XmbTextEscapement, Obtaining Font Set Metrics | ||
33113 | XmbTextExtents, Obtaining Font Set Metrics | ||
33114 | XmbTextItem, Drawing Text Using Font Sets | ||
33115 | XmbTextListToTextProperty, Converting String Lists | ||
33116 | XmbTextPerCharExtents, Obtaining Font Set Metrics | ||
33117 | XmbTextPropertyToTextList, Converting String Lists | ||
33118 | XMinCmapsOfScreen, Screen Information Macros | ||
33119 | XModifierKeymap, Manipulating the Keyboard Encoding | ||
33120 | XMoveResizeWindow, Configuring Windows | ||
33121 | XMoveWindow, Configuring Windows | ||
33122 | XNArea, Area | ||
33123 | XNAreaNeeded, Area Needed | ||
33124 | XNBackground, Foreground and Background | ||
33125 | XNClientWindow, Client Window | ||
33126 | XNColormap, Colormap | ||
33127 | XNCursor, Cursor | ||
33128 | XNewModifiermap, Manipulating the Keyboard Encoding | ||
33129 | XNextEvent, Handling the Output Buffer, Returning the Next | ||
33130 | Event | ||
33131 | |||
33132 | XNextRequest, Display Macros | ||
33133 | XNFilterEvents, Filter Events | ||
33134 | XNFocusWindow, Focus Window | ||
33135 | XNFontSet, Font Set | ||
33136 | XNForeground, Foreground and Background | ||
33137 | XNGeometryCallback, Geometry Callback | ||
33138 | XNoExposeEvent, GraphicsExpose and NoExpose Events | ||
33139 | XNoOp, Generating a NoOperation Protocol Request | ||
33140 | XNPreeditAttributes, Preedit and Status Attributes | ||
33141 | XNPreeditCaretCallback, Preedit and Status Callbacks | ||
33142 | XNPreeditDoneCallback, Preedit and Status Callbacks | ||
33143 | XNPreeditDrawCallback, Preedit and Status Callbacks | ||
33144 | XNPreeditStartCallback, Preedit and Status Callbacks | ||
33145 | XNResourceClass, Resource Name and Class | ||
33146 | XNResourceName, Resource Name and Class | ||
33147 | XNSpotLocation, Spot Location | ||
33148 | XNStatusAttributes, Preedit and Status Attributes | ||
33149 | XNStatusDoneCallback, Preedit and Status Callbacks | ||
33150 | XNStatusDrawCallback, Preedit and Status Callbacks | ||
33151 | XNStatusStartCallback, Preedit and Status Callbacks | ||
33152 | XNStdColormap, Colormap | ||
33153 | XOffsetRegion, Moving or Shrinking Regions | ||
33154 | XOMCharSetList, Required Char Set | ||
33155 | XOMOfOC, Output Context Functions | ||
33156 | XOpenDisplay, Opening the Display | ||
33157 | XOpenIM, Input Method Functions | ||
33158 | XOpenOM, Output Method Functions | ||
33159 | XParseColor, Mapping Color Names to Values | ||
33160 | XParseGeometry, Parsing the Window Geometry | ||
33161 | XPeekEvent, Returning the Next Event | ||
33162 | XPeekIfEvent, Selecting Events Using a Predicate Procedure | ||
33163 | XPending, Handling the Output Buffer, Event Queue Management | ||
33164 | Xpermalloc, Allocating Permanent Storage | ||
33165 | XPixmapFormatValues, Image Format Functions and Macros | ||
33166 | XPlanesOfScreen, Screen Information Macros | ||
33167 | XPoint, Drawing Points, Lines, Rectangles, and Arcs | ||
33168 | XPointer, Generic Values and Types | ||
33169 | XPointInRegion, Locating a Point or a Rectangle in a Region | ||
33170 | XPolygonRegion, Creating, Copying, or Destroying Regions | ||
33171 | XProcessInternalConnection, Using Internal Connections | ||
33172 | XPropertyEvent, PropertyNotify Events | ||
33173 | XProtocolRevision, Display Macros | ||
33174 | XProtocolVersion, Display Macros | ||
33175 | XPutBackEvent, Putting an Event Back into the Queue | ||
33176 | XPutImage, Transferring Images between Client and Server | ||
33177 | XPutPixel, Manipulating Images | ||
33178 | XQLength, Display Macros | ||
33179 | XQueryBestCursor, Creating, Recoloring, and Freeing Cursors, | ||
33180 | Creating, Recoloring, and Freeing Cursors | ||
33181 | |||
33182 | XQueryBestSize, Setting the Fill Tile and Stipple | ||
33183 | XQueryBestStipple, Setting the Fill Tile and Stipple | ||
33184 | XQueryBestTile, Setting the Fill Tile and Stipple | ||
33185 | XQueryColor, Modifying and Querying Colormap Cells | ||
33186 | XQueryColors, Modifying and Querying Colormap Cells | ||
33187 | XQueryExtension, Basic Protocol Support Routines | ||
33188 | XQueryFont, Loading and Freeing Fonts | ||
33189 | XQueryKeymap, Manipulating the Keyboard and Pointer Settings | ||
33190 | XQueryPointer, Translating Screen Coordinates | ||
33191 | XQueryTextExtents, Querying Character String Sizes | ||
33192 | XQueryTextExtents16, Querying Character String Sizes | ||
33193 | XQueryTree, Obtaining Window Information | ||
33194 | XRaiseWindow, Changing Window Stacking Order | ||
33195 | XReadBitmapFile, Manipulating Bitmaps | ||
33196 | XReadBitmapFileData, Manipulating Bitmaps | ||
33197 | XRebindKeysym, Using Latin-1 Keyboard Event Functions | ||
33198 | XRecolorCursor, Creating, Recoloring, and Freeing Cursors | ||
33199 | XReconfigureWMWindow, Manipulating Top-Level Windows | ||
33200 | XRectangle, Drawing Points, Lines, Rectangles, and Arcs | ||
33201 | XRectInRegion, Locating a Point or a Rectangle in a Region | ||
33202 | XRefreshKeyboardMapping, Using Keyboard Utility Functions | ||
33203 | XRegisterIMInstantiateCallback, Input Method Functions | ||
33204 | XRemoveConnectionWatch, Using Internal Connections | ||
33205 | XRemoveFromSaveSet, Controlling the Lifetime of a Window | ||
33206 | XRemoveHost, Adding, Getting, or Removing Hosts | ||
33207 | XRemoveHosts, Adding, Getting, or Removing Hosts | ||
33208 | XReparentEvent, ReparentNotify Events | ||
33209 | XReparentWindow, Changing the Parent of a Window | ||
33210 | XResetScreenSaver, Controlling the Screen Saver | ||
33211 | XResizeRequestEvent, ResizeRequest Events | ||
33212 | XResizeWindow, Configuring Windows | ||
33213 | XResourceManagerString, Creating and Storing Databases | ||
33214 | xResourceReq, Request Format | ||
33215 | XRestackWindows, Changing Window Stacking Order | ||
33216 | XrmCombineDatabase, Merging Resource Databases | ||
33217 | XrmCombineFileDatabase, Merging Resource Databases | ||
33218 | XrmDatabase, Creating and Storing Databases | ||
33219 | XrmDestroyDatabase, Creating and Storing Databases | ||
33220 | XrmEnumerateDatabase, Enumerating Database Entries | ||
33221 | XrmGetDatabase, Creating and Storing Databases | ||
33222 | XrmGetFileDatabase, Creating and Storing Databases | ||
33223 | XrmGetResource, Looking Up Resources | ||
33224 | XrmGetStringDatabase, Creating and Storing Databases | ||
33225 | XrmInitialize, Creating and Storing Databases | ||
33226 | XrmLocaleOfDatabase, Creating and Storing Databases | ||
33227 | XrmMergeDatabases, Merging Resource Databases | ||
33228 | XrmOptionDescRec, Parsing Command Line Options | ||
33229 | XrmOptionKind, Parsing Command Line Options | ||
33230 | XrmParseCommand, Parsing Command Line Options | ||
33231 | XrmPermStringToQuark, Quarks | ||
33232 | XrmPutFileDatabase, Creating and Storing Databases | ||
33233 | XrmPutLineResource, Storing into a Resource Database | ||
33234 | XrmPutResource, Storing into a Resource Database | ||
33235 | XrmPutStringResource, Storing into a Resource Database | ||
33236 | XrmQGetResource, Looking Up Resources | ||
33237 | XrmQGetSearchList, Looking Up Resources | ||
33238 | XrmQGetSearchResource, Looking Up Resources | ||
33239 | XrmQPutResource, Storing into a Resource Database | ||
33240 | XrmQPutStringResource, Storing into a Resource Database | ||
33241 | XrmQuarkToString, Quarks | ||
33242 | XrmSetDatabase, Creating and Storing Databases | ||
33243 | XrmStringToBindingQuarkList, Quarks | ||
33244 | XrmStringToQuark, Quarks | ||
33245 | XrmStringToQuarkList, Quarks | ||
33246 | XrmUniqueQuark, Quarks | ||
33247 | XrmValue, Creating and Storing Databases | ||
33248 | XRootWindow, Display Macros | ||
33249 | XRootWindowOfScreen, Screen Information Macros | ||
33250 | XRotateBuffers, Using Cut Buffers | ||
33251 | XRotateWindowProperties, Obtaining and Changing Window | ||
33252 | Properties | ||
33253 | |||
33254 | XSaveContext, Using the Context Manager | ||
33255 | XScreenCount, Display Macros | ||
33256 | XScreenNumberOfScreen, Screen Information Macros | ||
33257 | XScreenOfDisplay, Display Macros | ||
33258 | XScreenResourceString, Creating and Storing Databases | ||
33259 | XSegment, Drawing Points, Lines, Rectangles, and Arcs | ||
33260 | XSelectInput, Selecting Events | ||
33261 | XSelectionClearEvent, SelectionClear Events | ||
33262 | XSelectionEvent, SelectionNotify Events | ||
33263 | XSelectionRequestEvent, SelectionRequest Events | ||
33264 | XSendEvent, Sending Events to Other Applications, Sending | ||
33265 | Events to Other Applications | ||
33266 | |||
33267 | XServerInterpretedAddress, Adding, Getting, or Removing Hosts | ||
33268 | XServerVendor, Display Macros | ||
33269 | XSetAccessControl, Changing, Enabling, or Disabling Access | ||
33270 | Control | ||
33271 | |||
33272 | XSetAfterFunction, Enabling or Disabling Synchronization | ||
33273 | XSetArcMode, Setting the Arc Mode, Subwindow Mode, and Graphics | ||
33274 | Exposure | ||
33275 | |||
33276 | XSetBackground, Setting the Foreground, Background, Function, | ||
33277 | or Plane Mask | ||
33278 | |||
33279 | XSetClassHint, Setting and Reading the WM_CLASS Property | ||
33280 | XSetClipMask, Setting the Clip Region | ||
33281 | XSetClipOrigin, Setting the Clip Region | ||
33282 | XSetClipRectangles, Setting the Clip Region | ||
33283 | XSetCloseDownMode, Closing the Display | ||
33284 | XSetCommand, Setting and Reading the WM_COMMAND Property | ||
33285 | XSetDashes, Setting the Line Attributes and Dashes | ||
33286 | XSetErrorHandler, Using the Default Error Handlers | ||
33287 | XSetFillRule, Setting the Fill Style and Fill Rule | ||
33288 | XSetFillStyle, Setting the Fill Style and Fill Rule | ||
33289 | XSetFont, Setting the Current Font | ||
33290 | XSetFontPath, Setting and Retrieving the Font Search Path | ||
33291 | XSetForeground, Setting the Foreground, Background, Function, | ||
33292 | or Plane Mask | ||
33293 | |||
33294 | XSetFunction, Setting the Foreground, Background, Function, or | ||
33295 | Plane Mask | ||
33296 | |||
33297 | XSetGraphicsExposures, Setting the Arc Mode, Subwindow Mode, | ||
33298 | and Graphics Exposure | ||
33299 | |||
33300 | XSetICFocus, Input Context Functions | ||
33301 | XSetIconName, Setting and Reading the WM_ICON_NAME Property | ||
33302 | XSetIconSizes, Setting and Reading the WM_ICON_SIZE Property | ||
33303 | XSetICValues, Input Context Functions | ||
33304 | XSetIMValues, Input Method Functions | ||
33305 | XSetInputFocus, Controlling Input Focus | ||
33306 | XSetIOErrorHandler, Using the Default Error Handlers | ||
33307 | XSetLineAttributes, Setting the Line Attributes and Dashes | ||
33308 | XSetLocaleModifiers, X Locale Management | ||
33309 | XSetModifierMapping, Manipulating the Keyboard Encoding | ||
33310 | XSetNormalHints, Setting and Getting Window Sizing Hints | ||
33311 | XSetOCValues, Output Context Functions | ||
33312 | XSetOMValues, Output Method Functions | ||
33313 | XSetPlaneMask, Setting the Foreground, Background, Function, or | ||
33314 | Plane Mask | ||
33315 | |||
33316 | XSetPointerMapping, Manipulating the Keyboard and Pointer | ||
33317 | Settings | ||
33318 | |||
33319 | XSetRegion, Creating, Copying, or Destroying Regions | ||
33320 | XSetRGBColormaps, Setting and Obtaining Standard Colormaps | ||
33321 | XSetScreenSaver, Controlling the Screen Saver | ||
33322 | XSetSelectionOwner, Selections | ||
33323 | XSetSizeHints, Setting and Getting Window Sizing Hints | ||
33324 | XSetStandardColormap, Getting and Setting an XStandardColormap | ||
33325 | Structure | ||
33326 | |||
33327 | XSetStandardProperties, Setting Standard Properties | ||
33328 | XSetState, Setting the Foreground, Background, Function, or | ||
33329 | Plane Mask | ||
33330 | |||
33331 | XSetStipple, Setting the Fill Tile and Stipple | ||
33332 | XSetSubwindowMode, Setting the Arc Mode, Subwindow Mode, and | ||
33333 | Graphics Exposure | ||
33334 | |||
33335 | XSetTextProperty, Setting and Reading Text Properties | ||
33336 | XSetTile, Setting the Fill Tile and Stipple | ||
33337 | XSetTransientForHint, Setting and Reading the WM_TRANSIENT_FOR | ||
33338 | Property | ||
33339 | |||
33340 | XSetTSOrigin, Setting the Fill Tile and Stipple | ||
33341 | XSetWindowAttributes, Window Attributes | ||
33342 | XSetWindowBackground, Changing Window Attributes | ||
33343 | XSetWindowBackgroundPixmap, Changing Window Attributes | ||
33344 | XSetWindowBorder, Changing Window Attributes | ||
33345 | XSetWindowBorderPixmap, Changing Window Attributes | ||
33346 | XSetWindowBorderWidth, Configuring Windows | ||
33347 | XSetWindowColormap, Changing Window Attributes | ||
33348 | XSetWMClientMachine, Setting and Reading the WM_CLIENT_MACHINE | ||
33349 | Property | ||
33350 | |||
33351 | XSetWMColormapWindows, Setting and Reading the | ||
33352 | WM_COLORMAP_WINDOWS Property | ||
33353 | |||
33354 | XSetWMHints, Setting and Reading the WM_HINTS Property | ||
33355 | XSetWMIconName, Setting and Reading the WM_ICON_NAME Property | ||
33356 | XSetWMName, Setting and Reading the WM_NAME Property | ||
33357 | XSetWMNormalHints, Setting and Reading the WM_NORMAL_HINTS | ||
33358 | Property | ||
33359 | |||
33360 | XSetWMProperties, Using Window Manager Convenience Functions | ||
33361 | XSetWMProtocols, Setting and Reading the WM_PROTOCOLS Property | ||
33362 | XSetWMSizeHints, Setting and Reading the WM_NORMAL_HINTS | ||
33363 | Property | ||
33364 | |||
33365 | XSetZoomHints, Setting and Getting Window Sizing Hints | ||
33366 | XShrinkRegion, Moving or Shrinking Regions | ||
33367 | XStoreBuffer, Using Cut Buffers | ||
33368 | XStoreBytes, Using Cut Buffers | ||
33369 | XStoreColor, Modifying and Querying Colormap Cells | ||
33370 | XStoreColors, Modifying and Querying Colormap Cells | ||
33371 | XStoreName, Setting and Reading the WM_NAME Property | ||
33372 | XStoreNamedColor, Modifying and Querying Colormap Cells | ||
33373 | XStringListToTextProperty, Converting String Lists | ||
33374 | XStringToKeysym, Using Keyboard Utility Functions | ||
33375 | XSubImage, Manipulating Images | ||
33376 | XSubtractRegion, Computing with Regions | ||
33377 | XSync, Overview of the X Window System, Overview of the X | ||
33378 | Window System, Handling the Output Buffer | ||
33379 | |||
33380 | XSynchronize, Enabling or Disabling Synchronization | ||
33381 | XTextExtents, Computing Logical Extents | ||
33382 | XTextExtents16, Computing Logical Extents | ||
33383 | XTextItem, Drawing Text | ||
33384 | XTextItem16, Drawing Text | ||
33385 | XTextProperty, Converting String Lists | ||
33386 | XTextPropertyToStringList, Converting String Lists | ||
33387 | XTextWidth, Computing Character String Sizes, Computing | ||
33388 | Character String Sizes | ||
33389 | |||
33390 | XTextWidth16, Computing Character String Sizes, Computing | ||
33391 | Character String Sizes | ||
33392 | |||
33393 | XTimeCoord, Getting Pointer Motion History | ||
33394 | XTranslateCoordinates, Translating Screen Coordinates | ||
33395 | XUndefineCursor, Changing Window Attributes | ||
33396 | XUngrabButton, Pointer Grabbing | ||
33397 | XUngrabKey, Keyboard Grabbing | ||
33398 | XUngrabKeyboard, Keyboard Grabbing | ||
33399 | XUngrabPointer, Pointer Grabbing | ||
33400 | XUngrabServer, Grabbing the Server | ||
33401 | XUninstallColormap, Managing Installed Colormaps | ||
33402 | XUnionRectWithRegion, Computing with Regions | ||
33403 | XUnionRegion, Computing with Regions | ||
33404 | XUnloadFont, Loading and Freeing Fonts | ||
33405 | XUnlockDisplay, Using Xlib with Threads | ||
33406 | XUnmapEvent, UnmapNotify Events | ||
33407 | XUnmapSubwindows, Unmapping Windows | ||
33408 | XUnmapWindow, Unmapping Windows, Unmapping Windows | ||
33409 | XUnregisterIMInstantiateCallback, Input Method Functions | ||
33410 | XUnsetICFocus, Input Context Functions | ||
33411 | XVaCreateNestedList, Variable Argument Lists | ||
33412 | XVendorRelease, Display Macros | ||
33413 | XVisibilityEvent, VisibilityNotify Events | ||
33414 | XVisualIDFromVisual, Visual Types | ||
33415 | XWarpPointer, Moving the Pointer | ||
33416 | XwcDrawImageString, Drawing Text Using Font Sets | ||
33417 | XwcDrawString, Drawing Text Using Font Sets | ||
33418 | XwcDrawText, Drawing Text Using Font Sets | ||
33419 | XwcFreeStringList, Converting String Lists | ||
33420 | XwcLookupString, Getting Keyboard Input | ||
33421 | XwcResetIC, Input Context Functions | ||
33422 | XwcTextEscapement, Obtaining Font Set Metrics | ||
33423 | XwcTextExtents, Obtaining Font Set Metrics | ||
33424 | XwcTextItem, Drawing Text Using Font Sets | ||
33425 | XwcTextListToTextProperty, Converting String Lists | ||
33426 | XwcTextPerCharExtents, Obtaining Font Set Metrics | ||
33427 | XwcTextPropertyToTextList, Converting String Lists | ||
33428 | XWhitePixel, Display Macros | ||
33429 | XWhitePixelOfScreen, Screen Information Macros | ||
33430 | XWidthMMOfScreen, Screen Information Macros | ||
33431 | XWidthOfScreen, Screen Information Macros | ||
33432 | XWindowAttributes, Obtaining Window Information | ||
33433 | XWindowChanges, Configuring Windows | ||
33434 | XWindowEvent, Handling the Output Buffer, Selecting Events | ||
33435 | Using a Window or Event Mask | ||
33436 | |||
33437 | XWithdrawWindow, Manipulating Top-Level Windows | ||
33438 | XWMGeometry, Parsing the Window Geometry | ||
33439 | XWriteBitmapFile, Manipulating Bitmaps, Manipulating Bitmaps | ||
33440 | XXorRegion, Computing with Regions | ||
33441 | XY format, Glossary | ||
33442 | |||
33443 | Z | ||
33444 | |||
33445 | Z format, Glossary | ||