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source: vbox/trunk/src/VBox/Additions/x11/x11include/xorg-server-1.1.0/servermd.h@ 78293

Last change on this file since 78293 was 51223, checked in by vboxsync, 11 years ago

Additions/x11/x11include: added header files for X.Org Server 1.0 and 1.1.

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1/* $XFree86: xc/programs/Xserver/include/servermd.h,v 3.56tsi Exp $ */
2/***********************************************************
3
4Copyright 1987, 1998 The Open Group
5
6Permission to use, copy, modify, distribute, and sell this software and its
7documentation for any purpose is hereby granted without fee, provided that
8the above copyright notice appear in all copies and that both that
9copyright notice and this permission notice appear in supporting
10documentation.
11
12The above copyright notice and this permission notice shall be included in
13all copies or substantial portions of the Software.
14
15THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
18OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
19AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
20CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
21
22Except as contained in this notice, the name of The Open Group shall not be
23used in advertising or otherwise to promote the sale, use or other dealings
24in this Software without prior written authorization from The Open Group.
25
26
27Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts.
28
29 All Rights Reserved
30
31Permission to use, copy, modify, and distribute this software and its
32documentation for any purpose and without fee is hereby granted,
33provided that the above copyright notice appear in all copies and that
34both that copyright notice and this permission notice appear in
35supporting documentation, and that the name of Digital not be
36used in advertising or publicity pertaining to distribution of the
37software without specific, written prior permission.
38
39DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
40ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL
41DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
42ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
43WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
44ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
45SOFTWARE.
46
47******************************************************************/
48/* $Xorg: servermd.h,v 1.3 2000/08/17 19:53:31 cpqbld Exp $ */
49/* $XdotOrg: xserver/xorg/include/servermd.h,v 1.9 2005/11/15 00:29:23 ajax Exp $ */
50
51#ifndef SERVERMD_H
52#define SERVERMD_H 1
53
54/*
55 * Machine dependent values:
56 * GLYPHPADBYTES should be chosen with consideration for the space-time
57 * trade-off. Padding to 0 bytes means that there is no wasted space
58 * in the font bitmaps (both on disk and in memory), but that access of
59 * the bitmaps will cause odd-address memory references. Padding to
60 * 2 bytes would ensure even address memory references and would
61 * be suitable for a 68010-class machine, but at the expense of wasted
62 * space in the font bitmaps. Padding to 4 bytes would be good
63 * for real 32 bit machines, etc. Be sure that you tell the font
64 * compiler what kind of padding you want because its defines are
65 * kept separate from this. See server/include/font.h for how
66 * GLYPHPADBYTES is used.
67 *
68 * Along with this, you should choose an appropriate value for
69 * GETLEFTBITS_ALIGNMENT, which is used in ddx/mfb/maskbits.h. This
70 * constant choses what kind of memory references are guarenteed during
71 * font access; either 1, 2 or 4, for byte, word or longword access,
72 * respectively. For instance, if you have decided to to have
73 * GLYPHPADBYTES == 4, then it is pointless for you to have a
74 * GETLEFTBITS_ALIGNMENT > 1, because the padding of the fonts has already
75 * guarenteed you that your fonts are longword aligned. On the other
76 * hand, even if you have chosen GLYPHPADBYTES == 1 to save space, you may
77 * also decide that the computing involved in aligning the pointer is more
78 * costly than an odd-address access; you choose GETLEFTBITS_ALIGNMENT == 1.
79 *
80 * Next, choose the tuning parameters which are appropriate for your
81 * hardware; these modify the behaviour of the raw frame buffer code
82 * in ddx/mfb and ddx/cfb. Defining these incorrectly will not cause
83 * the server to run incorrectly, but defining these correctly will
84 * cause some noticeable speed improvements:
85 *
86 * AVOID_MEMORY_READ - (8-bit cfb only)
87 * When stippling pixels on the screen (polytext and pushpixels),
88 * don't read long words from the display and mask in the
89 * appropriate values. Rather, perform multiple byte/short/long
90 * writes as appropriate. This option uses many more instructions
91 * but runs much faster when the destination is much slower than
92 * the CPU and at least 1 level of write buffer is availible (2
93 * is much better). Defined currently for SPARC and MIPS.
94 *
95 * FAST_CONSTANT_OFFSET_MODE - (cfb and mfb)
96 * This define is used on machines which have no auto-increment
97 * addressing mode, but do have an effectively free constant-offset
98 * addressing mode. Currently defined for MIPS and SPARC, even though
99 * I remember the cg6 as performing better without it (cg3 definitely
100 * performs better with it).
101 *
102 * LARGE_INSTRUCTION_CACHE -
103 * This define increases the number of times some loops are
104 * unrolled. On 68020 machines (with 256 bytes of i-cache),
105 * this define will slow execution down as instructions miss
106 * the cache frequently. On machines with real i-caches, this
107 * reduces loop overhead, causing a slight performance improvement.
108 * Currently defined for MIPS and SPARC
109 *
110 * FAST_UNALIGNED_READS -
111 * For machines with more memory bandwidth than CPU, this
112 * define uses unaligned reads for 8-bit BitBLT instead of doing
113 * aligned reads and combining the results with shifts and
114 * logical-ors. Currently defined for 68020 and vax.
115 * PLENTIFUL_REGISTERS -
116 * For machines with > 20 registers. Currently used for
117 * unrolling the text painting code a bit more. Currently
118 * defined for MIPS.
119 * SHARED_IDCACHE -
120 * For non-Harvard RISC machines, those which share the same
121 * CPU memory bus for instructions and data. This unrolls some
122 * solid fill loops which are otherwise best left rolled up.
123 * Currently defined for SPARC.
124 */
125
126#ifdef vax
127
128#define IMAGE_BYTE_ORDER LSBFirst /* Values for the VAX only */
129#define BITMAP_BIT_ORDER LSBFirst
130#define GLYPHPADBYTES 1
131#define GETLEFTBITS_ALIGNMENT 4
132#define FAST_UNALIGNED_READS
133
134#endif /* vax */
135
136#ifdef __arm32__
137
138#define IMAGE_BYTE_ORDER LSBFirst
139
140# if defined(XF86MONOVGA) || defined(XF86VGA16) || defined(XF86MONO)
141# define BITMAP_BIT_ORDER MSBFirst
142# else
143# define BITMAP_BIT_ORDER LSBFirst
144# endif
145
146# if defined(XF86MONOVGA) || defined(XF86VGA16)
147# define BITMAP_SCANLINE_UNIT 8
148# endif
149
150#define GLYPHPADBYTES 4
151#define GETLEFTBITS_ALIGNMENT 1
152#define LARGE_INSTRUCTION_CACHE
153#define AVOID_MEMORY_READ
154
155#endif /* __arm32__ */
156
157#if defined (hpux) || defined __hppa__
158
159#define IMAGE_BYTE_ORDER MSBFirst
160#define BITMAP_BIT_ORDER MSBFirst
161#define GLYPHPADBYTES 4 /* to make fb work */
162#define GETLEFTBITS_ALIGNMENT 1 /* PA forces longs to 4 */
163 /* byte boundries */
164#define AVOID_MEMORY_READ
165#define FAST_CONSTANT_OFFSET_MODE
166#define LARGE_INSTRUCTION_CACHE
167#define PLENTIFUL_REGISTERS
168
169#endif /* hpux || __hppa__ */
170
171#if defined(__powerpc__) || defined(__ppc__)
172
173#define IMAGE_BYTE_ORDER MSBFirst
174#define BITMAP_BIT_ORDER MSBFirst
175#define GLYPHPADBYTES 4
176#define GETLEFTBITS_ALIGNMENT 1
177
178/* XXX Should this be for Lynx only? */
179#ifdef Lynx
180#define BITMAP_SCANLINE_UNIT 8
181#endif
182
183#define LARGE_INSTRUCTION_CACHE
184#define FAST_CONSTANT_OFFSET_MODE
185#define PLENTIFUL_REGISTERS
186#define AVOID_MEMORY_READ
187
188#define FAST_MEMCPY
189
190#endif /* PowerPC */
191
192#if defined(__sh__)
193
194#if defined(__BIG_ENDIAN__)
195# define IMAGE_BYTE_ORDER MSBFirst
196# define BITMAP_BIT_ORDER MSBFirst
197# define GLYPHPADBYTES 4
198# define GETLEFTBITS_ALIGNMENT 1
199#else
200# define IMAGE_BYTE_ORDER LSBFirst
201# define BITMAP_BIT_ORDER LSBFirst
202# define GLYPHPADBYTES 4
203# define GETLEFTBITS_ALIGNMENT 1
204#endif
205
206#define AVOID_MEMORY_READ
207#define FAST_CONSTANT_OFFSET_MODE
208#define LARGE_INSTRUCTION_CACHE
209#define PLENTIFUL_REGISTERS
210
211#endif /* SuperH */
212
213
214#if (defined(sun) && (defined(__sparc) || defined(sparc))) || \
215 (defined(__uxp__) && (defined(sparc) || defined(mc68000))) || \
216 defined(__sparc__) || defined(__mc68000__)
217
218#if defined(__sparc) || defined(__sparc__)
219# if !defined(sparc)
220# define sparc 1
221# endif
222#endif
223
224#if defined(sun386) || defined(sun5)
225# define IMAGE_BYTE_ORDER LSBFirst /* Values for the SUN only */
226# define BITMAP_BIT_ORDER LSBFirst
227#else
228# define IMAGE_BYTE_ORDER MSBFirst /* Values for the SUN only */
229# define BITMAP_BIT_ORDER MSBFirst
230#endif
231
232#ifdef sparc
233# define AVOID_MEMORY_READ
234# define LARGE_INSTRUCTION_CACHE
235# define FAST_CONSTANT_OFFSET_MODE
236# define SHARED_IDCACHE
237#endif
238
239#ifdef mc68020
240#define FAST_UNALIGNED_READS
241#endif
242
243#define GLYPHPADBYTES 4
244#define GETLEFTBITS_ALIGNMENT 1
245
246#endif /* sun && !(i386 && SVR4) */
247
248
249#if defined(AIXV3)
250
251#define IMAGE_BYTE_ORDER MSBFirst /* Values for the RISC/6000 */
252#define BITMAP_BIT_ORDER MSBFirst
253#define GLYPHPADBYTES 4
254#define GETLEFTBITS_ALIGNMENT 1
255
256#define LARGE_INSTRUCTION_CACHE
257#define FAST_CONSTANT_OFFSET_MODE
258#define PLENTIFUL_REGISTERS
259#define AVOID_MEMORY_READ
260
261#define FAST_MEMCPY
262#endif /* AIXV3 */
263
264#if defined(ibm032) || defined (ibm)
265
266#ifdef i386
267# define IMAGE_BYTE_ORDER LSBFirst /* Value for PS/2 only */
268#else
269# define IMAGE_BYTE_ORDER MSBFirst /* Values for the RT only*/
270#endif
271#define BITMAP_BIT_ORDER MSBFirst
272#define GLYPHPADBYTES 1
273#define GETLEFTBITS_ALIGNMENT 4
274/* ibm pcc doesn't understand pragmas. */
275
276#ifdef i386
277#define BITMAP_SCANLINE_UNIT 8
278#endif
279
280#endif /* ibm */
281
282#if defined (M4310) || defined(M4315) || defined(M4317) || defined(M4319) || defined(M4330)
283
284#define IMAGE_BYTE_ORDER MSBFirst /* Values for Pegasus only */
285#define BITMAP_BIT_ORDER MSBFirst
286#define GLYPHPADBYTES 4
287#define GETLEFTBITS_ALIGNMENT 1
288
289#define FAST_UNALIGNED_READS
290
291#endif /* tektronix */
292
293#ifdef macII
294
295#define IMAGE_BYTE_ORDER MSBFirst /* Values for the MacII only */
296#define BITMAP_BIT_ORDER MSBFirst
297#define GLYPHPADBYTES 4
298#define GETLEFTBITS_ALIGNMENT 1
299
300/* might want FAST_UNALIGNED_READS for frame buffers with < 1us latency */
301
302#endif /* macII */
303
304#if (defined(mips) || defined(__mips)) && !defined(sgi)
305
306#if defined(MIPSEL) || defined(__MIPSEL__)
307# define IMAGE_BYTE_ORDER LSBFirst /* Values for the PMAX only */
308# define BITMAP_BIT_ORDER LSBFirst
309# define GLYPHPADBYTES 4
310# define GETLEFTBITS_ALIGNMENT 1
311#else
312# define IMAGE_BYTE_ORDER MSBFirst /* Values for the MIPS only */
313# define BITMAP_BIT_ORDER MSBFirst
314# define GLYPHPADBYTES 4
315# define GETLEFTBITS_ALIGNMENT 1
316#endif
317
318#define AVOID_MEMORY_READ
319#define FAST_CONSTANT_OFFSET_MODE
320#define LARGE_INSTRUCTION_CACHE
321#define PLENTIFUL_REGISTERS
322
323#endif /* mips */
324
325#if defined(__alpha) || defined(__alpha__) || defined(__alphaCross)
326# define IMAGE_BYTE_ORDER LSBFirst /* Values for the Alpha only */
327
328# if defined(XF86MONOVGA) || defined(XF86VGA16) || defined(XF86MONO)
329# define BITMAP_BIT_ORDER MSBFirst
330# else
331# define BITMAP_BIT_ORDER LSBFirst
332# endif
333
334# if defined(XF86MONOVGA) || defined(XF86VGA16)
335# define BITMAP_SCANLINE_UNIT 8
336# endif
337
338# define GLYPHPADBYTES 4
339# define GETLEFTBITS_ALIGNMENT 1
340# define FAST_CONSTANT_OFFSET_MODE
341# define LARGE_INSTRUCTION_CACHE
342# define PLENTIFUL_REGISTERS
343
344#endif /* alpha */
345
346#if defined (linux) && defined (__s390__)
347
348#define IMAGE_BYTE_ORDER MSBFirst
349#define BITMAP_BIT_ORDER MSBFirst
350#define GLYPHPADBYTES 4
351#define GETLEFTBITS_ALIGNMENT 1
352
353#define BITMAP_SCANLINE_UNIT 8
354#define LARGE_INSTRUCTION_CACHE
355#define FAST_CONSTANT_OFFSET_MODE
356#define FAST_UNALIGNED_READ
357
358#define FAST_MEMCPY
359
360#endif /* linux/s390 */
361
362#if defined (linux) && defined (__s390x__)
363
364#define IMAGE_BYTE_ORDER MSBFirst
365#define BITMAP_BIT_ORDER MSBFirst
366#define GLYPHPADBYTES 4
367#define GETLEFTBITS_ALIGNMENT 1
368
369#define BITMAP_SCANLINE_UNIT 8
370#define LARGE_INSTRUCTION_CACHE
371#define FAST_CONSTANT_OFFSET_MODE
372#define FAST_UNALIGNED_READ
373
374#define FAST_MEMCPY
375#endif /* linux/s390x */
376
377
378#if defined(__ia64__) || defined(ia64)
379# define IMAGE_BYTE_ORDER LSBFirst
380
381# if defined(XF86MONOVGA) || defined(XF86VGA16) || defined(XF86MONO)
382# define BITMAP_BIT_ORDER MSBFirst
383# else
384# define BITMAP_BIT_ORDER LSBFirst
385# endif
386
387# if defined(XF86MONOVGA) || defined(XF86VGA16)
388# define BITMAP_SCANLINE_UNIT 8
389# endif
390
391# define GLYPHPADBYTES 4
392# define GETLEFTBITS_ALIGNMENT 1
393# define FAST_CONSTANT_OFFSET_MODE
394# define LARGE_INSTRUCTION_CACHE
395# define PLENTIFUL_REGISTERS
396
397#endif /* ia64 */
398
399#if defined(__amd64__) || defined(amd64) || defined(__amd64)
400# define IMAGE_BYTE_ORDER LSBFirst
401
402# if defined(XF86MONOVGA) || defined(XF86VGA16) || defined(XF86MONO)
403# define BITMAP_BIT_ORDER MSBFirst
404# else
405# define BITMAP_BIT_ORDER LSBFirst
406# endif
407
408# if defined(XF86MONOVGA) || defined(XF86VGA16)
409# define BITMAP_SCANLINE_UNIT 8
410# endif
411
412# define GLYPHPADBYTES 4
413# define GETLEFTBITS_ALIGNMENT 1
414# define LARGE_INSTRUCTION_CACHE
415# define FAST_CONSTANT_OFFSET_MODE
416/* ???? */
417# define FAST_UNALIGNED_READS
418#endif /* AMD64 */
419
420#ifdef stellar
421
422#define IMAGE_BYTE_ORDER MSBFirst /* Values for the stellar only*/
423#define BITMAP_BIT_ORDER MSBFirst
424#define GLYPHPADBYTES 4
425#define GETLEFTBITS_ALIGNMENT 4
426#define IMAGE_BUFSIZE (64*1024)
427/*
428 * Use SysV random number generator.
429 */
430#define random rand
431
432#endif /* stellar */
433
434#ifdef luna
435
436#define IMAGE_BYTE_ORDER MSBFirst /* Values for the OMRON only*/
437#define BITMAP_BIT_ORDER MSBFirst
438#define GLYPHPADBYTES 4
439#define GETLEFTBITS_ALIGNMENT 1
440
441#ifndef mc68000
442#define FAST_CONSTANT_OFFSET_MODE
443#define AVOID_MEMORY_READ
444#define LARGE_INSTRUCTION_CACHE
445#define PLENTIFUL_REGISTERS
446#endif
447
448#endif /* luna */
449
450#if (defined(SVR4) && defined(i386)) || \
451 defined(__alpha__) || defined(__alpha) || \
452 defined(__i386__) || defined(__i386) || \
453 defined(__UNIXOS2__) || \
454 defined(__OS2ELF__) || \
455 defined(__QNX__) || \
456 defined(__s390x__) || defined(__s390__)
457
458#ifndef IMAGE_BYTE_ORDER
459#define IMAGE_BYTE_ORDER LSBFirst
460#endif
461
462#ifndef BITMAP_BIT_ORDER
463# if defined(XF86MONOVGA) || defined(XF86VGA16) || defined(XF86MONO)
464# define BITMAP_BIT_ORDER MSBFirst
465# else
466# define BITMAP_BIT_ORDER LSBFirst
467# endif
468#endif
469
470#ifndef BITMAP_SCANLINE_UNIT
471# if defined(XF86MONOVGA) || defined(XF86VGA16)
472# define BITMAP_SCANLINE_UNIT 8
473# endif
474#endif
475
476#ifndef GLYPHPADBYTES
477#define GLYPHPADBYTES 4
478#endif
479
480#define GETLEFTBITS_ALIGNMENT 1
481#define AVOID_MEMORY_READ
482#ifdef XSVGA
483#define AVOID_GLYPHBLT
484#define FAST_CONSTANT_OFFSET_MODE
485#define FAST_MEMCPY
486#define NO_ONE_RECT
487#endif
488
489#endif /* SVR4 / BSD / i386 */
490
491#if defined (linux) && defined (__mc68000__)
492
493#define IMAGE_BYTE_ORDER MSBFirst
494#define BITMAP_BIT_ORDER MSBFirst
495#define FAST_UNALIGNED_READS
496#define GLYPHPADBYTES 4
497#define GETLEFTBITS_ALIGNMENT 1
498
499#endif /* linux/m68k */
500
501#ifdef sgi
502
503#define IMAGE_BYTE_ORDER MSBFirst
504#define BITMAP_BIT_ORDER MSBFirst
505#define GLYPHPADBYTES 4
506#define GETLEFTBITS_ALIGNMENT 1
507#define AVOID_MEMORY_READ
508#define FAST_CONSTANT_OFFSET_MODE
509#define LARGE_INSTRUCTION_CACHE
510#define PLENTIFUL_REGISTERS
511
512#endif
513
514/* linux on the Compaq Itsy */
515#if defined(linux) && defined(__arm__)
516#define IMAGE_BYTE_ORDER LSBFirst
517#define BITMAP_BIT_ORDER LSBFirst
518#define GLYPHPADBYTES 4
519#define GETLEFTBITS_ALIGNMENT 1
520#endif
521
522/* size of buffer to use with GetImage, measured in bytes. There's obviously
523 * a trade-off between the amount of stack (or whatever ALLOCATE_LOCAL gives
524 * you) used and the number of times the ddx routine has to be called.
525 */
526#ifndef IMAGE_BUFSIZE
527#define IMAGE_BUFSIZE (64*1024)
528#endif
529
530/* pad scanline to a longword */
531#ifndef BITMAP_SCANLINE_UNIT
532#define BITMAP_SCANLINE_UNIT 32
533#endif
534
535#ifndef BITMAP_SCANLINE_PAD
536#define BITMAP_SCANLINE_PAD 32
537#define LOG2_BITMAP_PAD 5
538#define LOG2_BYTES_PER_SCANLINE_PAD 2
539#endif
540
541/*
542 * This returns the number of padding units, for depth d and width w.
543 * For bitmaps this can be calculated with the macros above.
544 * Other depths require either grovelling over the formats field of the
545 * screenInfo or hardwired constants.
546 */
547
548typedef struct _PaddingInfo {
549 int padRoundUp; /* pixels per pad unit - 1 */
550 int padPixelsLog2; /* log 2 (pixels per pad unit) */
551 int padBytesLog2; /* log 2 (bytes per pad unit) */
552 int notPower2; /* bitsPerPixel not a power of 2 */
553 int bytesPerPixel; /* only set when notPower2 is TRUE */
554 int bitsPerPixel; /* bits per pixel */
555} PaddingInfo;
556extern PaddingInfo PixmapWidthPaddingInfo[];
557
558/* The only portable way to get the bpp from the depth is to look it up */
559#define BitsPerPixel(d) (PixmapWidthPaddingInfo[d].bitsPerPixel)
560
561#define PixmapWidthInPadUnits(w, d) \
562 (PixmapWidthPaddingInfo[d].notPower2 ? \
563 (((int)(w) * PixmapWidthPaddingInfo[d].bytesPerPixel + \
564 PixmapWidthPaddingInfo[d].bytesPerPixel) >> \
565 PixmapWidthPaddingInfo[d].padBytesLog2) : \
566 ((int)((w) + PixmapWidthPaddingInfo[d].padRoundUp) >> \
567 PixmapWidthPaddingInfo[d].padPixelsLog2))
568
569/*
570 * Return the number of bytes to which a scanline of the given
571 * depth and width will be padded.
572 */
573#define PixmapBytePad(w, d) \
574 (PixmapWidthInPadUnits(w, d) << PixmapWidthPaddingInfo[d].padBytesLog2)
575
576#define BitmapBytePad(w) \
577 (((int)((w) + BITMAP_SCANLINE_PAD - 1) >> LOG2_BITMAP_PAD) << LOG2_BYTES_PER_SCANLINE_PAD)
578
579#define PixmapWidthInPadUnitsProto(w, d) PixmapWidthInPadUnits(w, d)
580#define PixmapBytePadProto(w, d) PixmapBytePad(w, d)
581#define BitmapBytePadProto(w) BitmapBytePad(w)
582
583#endif /* SERVERMD_H */
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