mojoshader.c
2
3
* MojoShader; generate shader programs from bytecode of compiled
* Direct3D shaders.
4
5
6
7
8
9
*
* Please see the file LICENSE.txt in the source's root directory.
*
* This file written by Ryan C. Gordon.
*/
10
11
// !!! FIXME: I keep changing coding styles for symbols and typedefs.
12
13
14
15
// !!! FIXME: do DEF* opcodes have to come before instructions?
// !!! FIXME: my reading of the msdn spec suggests no, but it sounds like
// !!! FIXME: something they'd require. DCL_* _does_ have to be first.
17
18
19
// Shader bytecode format is described at MSDN:
// http://msdn2.microsoft.com/en-us/library/ms800307.aspx
20
#include <stdio.h>
21
#include <string.h>
22
#include <stdlib.h>
23
#include <stdint.h>
24
#include <stdarg.h>
25
#include <assert.h>
27
#include "mojoshader.h"
30
31
32
33
34
// This is the highest shader version we currently support.
#define MAX_SHADER_MAJOR 3
#define MAX_SHADER_MINOR 0
36
37
// If SUPPORT_PROFILE_* isn't defined, we assume an implicit desire to support.
// You get all the profiles unless you go out of your way to disable them.
39
40
41
42
#ifndef SUPPORT_PROFILE_D3D
#define SUPPORT_PROFILE_D3D 1
#endif
43
44
45
46
#ifndef SUPPORT_PROFILE_PASSTHROUGH
#define SUPPORT_PROFILE_PASSTHROUGH 1
#endif
47
48
49
50
#ifndef SUPPORT_PROFILE_GLSL
#define SUPPORT_PROFILE_GLSL 1
#endif
51
52
53
54
55
56
// Get basic wankery out of the way here...
typedef unsigned int uint; // this is a printf() helper. don't use for code.
typedef uint8_t uint8;
typedef uint32_t uint32;
57
typedef int32_t int32;
59
60
61
62
63
64
#ifdef __GNUC__
#define ISPRINTF(x,y) __attribute__((format (printf, x, y)))
#else
#define ISPRINTF(x,y)
#endif
65
66
#define STATICARRAYLEN(x) ( (sizeof ((x))) / (sizeof ((x)[0])) )
67
68
69
70
71
72
73
#ifdef _WINDOWS // !!! FIXME: bleh
const char *endline_str = "\r\n";
#else
const char *endline_str = "\n";
#endif
74
75
76
// we need to reference this by explicit value occasionally.
#define OPCODE_RET 28
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
// Byteswap magic...
#if ((defined __GNUC__) && (defined __POWERPC__))
static inline uint32 SWAP32(uint32 x)
{
__asm__ __volatile__("lwbrx %0,0,%1" : "=r" (x) : "r" (&x));
return x;
} // SWAP32
#elif defined(__POWERPC__)
static inline uint32 SWAP32(uint32 x)
{
return ( (((x) >> 24) & 0x000000FF) | (((x) >> 8) & 0x0000FF00) |
(((x) << 8) & 0x00FF0000) | (((x) << 24) & 0xFF000000) );
} // SWAP32
#else
# define SWAP32(x) (x)
#endif
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
typedef enum
{
REG_TYPE_TEMP = 0,
REG_TYPE_INPUT = 1,
REG_TYPE_CONST = 2,
REG_TYPE_ADDRESS = 3,
REG_TYPE_TEXTURE = 3, // ALSO 3!
REG_TYPE_RASTOUT = 4,
REG_TYPE_ATTROUT = 5,
REG_TYPE_TEXCRDOUT = 6,
REG_TYPE_OUTPUT = 6, // ALSO 6!
REG_TYPE_CONSTINT = 7,
REG_TYPE_COLOROUT = 8,
REG_TYPE_DEPTHOUT = 9,
REG_TYPE_SAMPLER = 10,
REG_TYPE_CONST2 = 11,
REG_TYPE_CONST3 = 12,
REG_TYPE_CONST4 = 13,
REG_TYPE_CONSTBOOL = 14,
REG_TYPE_LOOP = 15,
REG_TYPE_TEMPFLOAT16 = 16,
REG_TYPE_MISCTYPE = 17,
REG_TYPE_LABEL = 18,
REG_TYPE_PREDICATE = 19,
REG_TYPE_MAX = 19
} RegisterType;
123
124
125
126
127
128
129
typedef enum
{
TEXTURE_TYPE_2D = 2,
TEXTURE_TYPE_CUBE = 3,
TEXTURE_TYPE_VOLUME = 4,
} TextureType;
130
// predeclare.
131
typedef struct Context Context;
132
133
// one emit function for each opcode in each profile.
134
typedef void (*emit_function)(Context *ctx);
135
136
// one emit function for starting output in each profile.
137
typedef void (*emit_start)(Context *ctx);
138
139
// one emit function for ending output in each profile.
140
typedef void (*emit_end)(Context *ctx);
142
143
144
145
146
147
148
149
150
// one emit function for finalizing output in each profile.
typedef void (*emit_finalize)(Context *ctx);
// one emit function for global definitions in each profile.
typedef void (*emit_global)(Context *ctx, RegisterType regtype, int regnum);
// one emit function for uniforms in each profile.
typedef void (*emit_uniform)(Context *ctx, RegisterType regtype, int regnum);
151
152
153
// one emit function for samplers in each profile.
typedef void (*emit_sampler)(Context *ctx, int stage, TextureType ttype);
154
155
156
157
// one emit function for attributes in each profile.
typedef void (*emit_attribute)(Context *ctx, RegisterType regtype, int regnum,
MOJOSHADER_usage usage, int index, int wmask);
158
159
160
// one args function for each possible sequence of opcode arguments.
typedef int (*args_function)(Context *ctx);
161
// one state function for each opcode where we have state machine updates.
162
typedef void (*state_function)(Context *ctx);
163
164
165
166
167
168
typedef struct
{
const char *name;
emit_start start_emitter;
emit_end end_emitter;
169
170
emit_global global_emitter;
emit_uniform uniform_emitter;
171
emit_sampler sampler_emitter;
172
emit_attribute attribute_emitter;
173
emit_finalize finalize_emitter;
174
} Profile;
176
177
178
179
180
181
typedef enum
{
RASTOUT_TYPE_POSITION = 0,
RASTOUT_TYPE_FOG = 1,
RASTOUT_TYPE_POINT_SIZE = 2,
RASTOUT_TYPE_MAX = 2
182
} RastOutType;
183
184
185
186
187
188
typedef enum
{
MISCTYPE_TYPE_POSITION = 0,
MISCTYPE_TYPE_FACE = 1,
MISCTYPE_TYPE_MAX = 1
189
} MiscTypeType;
192
193
194
// A simple linked list of strings, so we can build the final output without
// realloc()ing for each new line, and easily insert lines into the middle
// of the output without much trouble.
195
typedef struct OutputListNode
196
197
{
char *str;
198
199
200
201
202
203
204
struct OutputListNode *next;
} OutputListNode;
typedef struct OutputList
{
OutputListNode head;
OutputListNode *tail;
205
206
} OutputList;
208
209
210
211
typedef struct RegisterList
{
RegisterType regtype;
int regnum;
212
213
214
MOJOSHADER_usage usage;
int index;
int writemask;
215
216
217
218
struct RegisterList *next;
} RegisterList;
219
220
221
222
223
// result modifiers.
#define MOD_SATURATE 0x01
#define MOD_PP 0x02
#define MOD_CENTROID 0x04
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
// source modifiers.
typedef enum
{
SRCMOD_NONE,
SRCMOD_NEGATE,
SRCMOD_BIAS,
SRCMOD_BIASNEGATE,
SRCMOD_SIGN,
SRCMOD_SIGNNEGATE,
SRCMOD_COMPLEMENT,
SRCMOD_X2,
SRCMOD_X2NEGATE,
SRCMOD_DZ,
SRCMOD_DW,
SRCMOD_ABS,
SRCMOD_ABSNEGATE,
SRCMOD_NOT,
SRCMOD_TOTAL
242
} SourceMod;
245
246
typedef struct
{
247
const uint32 *token; // this is the unmolested token in the stream.
248
249
int regnum;
int relative;
250
251
252
253
254
int writemask; // xyzw or rgba (all four, not split out).
int writemask0; // x or red
int writemask1; // y or green
int writemask2; // z or blue
int writemask3; // w or alpha
255
256
int result_mod;
int result_shift;
257
RegisterType regtype;
258
259
260
261
} DestArgInfo;
typedef struct
{
262
const uint32 *token; // this is the unmolested token in the stream.
264
int swizzle; // xyzw (all four, not split out).
265
266
267
268
int swizzle_x;
int swizzle_y;
int swizzle_z;
int swizzle_w;
269
SourceMod src_mod;
270
RegisterType regtype;
271
272
273
274
int relative;
RegisterType relative_regtype;
int relative_regnum;
int relative_component;
275
276
277
} SourceArgInfo;
278
279
typedef enum
{
280
// Specific to GLSL profile...
281
CTX_FLAGS_GLSL_LIT_OPCODE = (1 << 0),
282
283
284
285
CTX_FLAGS_MASK = 0xFFFFFFFF
} ContextFlags;
286
287
#define SCRATCH_BUFFER_SIZE 128
#define SCRATCH_BUFFERS 16
289
// !!! FIXME: the scratch buffers make Context pretty big.
290
291
// !!! FIXME: might be worth having one set of static scratch buffers that
// !!! FIXME: are mutex protected?
293
// Context...this is state that changes as we parse through a shader...
296
297
MOJOSHADER_malloc malloc;
MOJOSHADER_free free;
298
void *malloc_data;
299
300
const uint32 *tokens;
uint32 tokencount;
301
302
OutputList *output;
OutputList globals;
303
OutputList helpers;
304
OutputList subroutines;
305
OutputList mainline_intro;
306
OutputList mainline;
307
308
OutputList ignore;
OutputList *output_stack[2];
309
uint8 *output_bytes; // can be used instead of the OutputLists.
310
311
int indent_stack[2];
int output_stack_len;
312
int output_len; // total strlen; prevents walking the lists just to malloc.
314
315
316
const char *endline;
int endline_len;
const char *failstr;
317
char scratch[SCRATCH_BUFFERS][SCRATCH_BUFFER_SIZE];
318
319
int scratchidx; // current scratch buffer.
int profileid;
320
const Profile *profile;
321
MOJOSHADER_shaderType shader_type;
322
323
uint8 major_ver;
uint8 minor_ver;
324
DestArgInfo dest_arg;
325
SourceArgInfo source_args[5];
326
SourceArgInfo predicate_arg; // for predicated instructions.
327
uint32 dwords[4];
328
int instruction_count;
329
uint32 instruction_controls;
330
331
uint32 previous_opcode;
ContextFlags flags;
332
int predicated;
334
int reps;
335
int cmps;
336
337
RegisterList used_registers;
RegisterList defined_registers;
338
339
int uniform_count;
RegisterList uniforms;
340
341
int attribute_count;
RegisterList attributes;
342
343
int sampler_count;
RegisterList samplers;
344
345
346
};
347
348
// Convenience functions for allocators...
349
static inline void *Malloc(const Context *ctx, const int len)
350
351
352
353
354
{
return ctx->malloc(len, ctx->malloc_data);
} // Malloc
355
static inline void Free(const Context *ctx, void *ptr)
357
if (ptr != NULL) // check for NULL in case of dumb free() impl.
358
ctx->free(ptr, ctx->malloc_data);
359
360
361
} // Free
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
// jump between output sections in the context...
static inline void push_output(Context *ctx, OutputList *section)
{
assert(ctx->output_stack_len < STATICARRAYLEN(ctx->output_stack));
ctx->output_stack[ctx->output_stack_len] = ctx->output;
ctx->indent_stack[ctx->output_stack_len] = ctx->indent;
ctx->output_stack_len++;
ctx->output = section;
ctx->indent = 0;
} // push_output
static inline void pop_output(Context *ctx)
{
assert(ctx->output_stack_len > 0);
ctx->output_stack_len--;
ctx->output = ctx->output_stack[ctx->output_stack_len];
ctx->indent = ctx->indent_stack[ctx->output_stack_len];
} // pop_output
// Shader model version magic...
386
387
388
389
390
static inline uint32 ver_ui32(const uint8 major, const uint8 minor)
{
return ( (((uint32) major) << 16) | (((minor) == 0xFF) ? 0 : (minor)) );
} // version_ui32
391
static inline int shader_version_supported(const uint8 maj, const uint8 min)
392
393
394
395
{
return (ver_ui32(maj,min) <= ver_ui32(MAX_SHADER_MAJOR, MAX_SHADER_MINOR));
} // shader_version_supported
396
397
static inline int shader_version_atleast(const Context *ctx, const uint8 maj,
const uint8 min)
398
399
400
401
{
return (ver_ui32(ctx->major_ver, ctx->minor_ver) >= ver_ui32(maj, min));
} // shader_version_atleast
402
403
404
405
406
407
408
409
410
411
static inline int shader_is_pixel(const Context *ctx)
{
return (ctx->shader_type == MOJOSHADER_TYPE_PIXEL);
} // shader_is_pixel
static inline int shader_is_vertex(const Context *ctx)
{
return (ctx->shader_type == MOJOSHADER_TYPE_VERTEX);
} // shader_is_vertex
413
414
// Bit arrays (for storing large arrays of booleans...
415
static inline char *get_scratch_buffer(Context *ctx)
417
ctx->scratchidx = (ctx->scratchidx + 1) % SCRATCH_BUFFERS;
418
return ctx->scratch[ctx->scratchidx];
419
420
} // get_scratch_buffer
422
423
// Special-case return values from the parsing pipeline...
#define FAIL (-1)
424
425
#define NOFAIL (-2)
#define END_OF_STREAM (-3)
427
static inline int isfail(const Context *ctx)
428
429
430
431
432
{
return (ctx->failstr != NULL);
} // isfail
433
static MOJOSHADER_parseData out_of_mem_data = {
434
"Out of memory", 0, 0, 0, 0, MOJOSHADER_TYPE_UNKNOWN, 0, 0, 0, 0
435
436
437
};
static const char *out_of_mem_str = "Out of memory";
438
439
440
static inline int out_of_memory(Context *ctx)
{
if (ctx->failstr == NULL)
441
ctx->failstr = out_of_mem_str; // fail() would call malloc().
442
443
444
445
446
447
return FAIL;
} // out_of_memory
static int failf(Context *ctx, const char *fmt, ...) ISPRINTF(2,3);
static int failf(Context *ctx, const char *fmt, ...)
449
450
if (ctx->failstr == NULL) // don't change existing error.
{
451
char *scratch = get_scratch_buffer(ctx);
452
453
va_list ap;
va_start(ap, fmt);
454
const int len = vsnprintf(scratch, SCRATCH_BUFFER_SIZE, fmt, ap);
455
456
va_end(ap);
457
char *failstr = (char *) Malloc(ctx, len + 1);
458
459
460
461
462
if (failstr == NULL)
out_of_memory(ctx);
else
{
// see comments about scratch buffer overflow in output_line().
463
if (len < SCRATCH_BUFFER_SIZE)
464
465
466
467
468
469
470
471
472
strcpy(failstr, scratch); // copy it over.
else
{
va_start(ap, fmt);
vsnprintf(failstr, len + 1, fmt, ap); // rebuild it.
va_end(ap);
} // else
ctx->failstr = failstr;
} // else
473
474
475
476
477
478
} // if
return FAIL;
} // failf
479
static inline int fail(Context *ctx, const char *reason)
480
481
482
483
484
{
return failf(ctx, "%s", reason);
} // fail
485
486
static int output_line(Context *ctx, const char *fmt, ...) ISPRINTF(2,3);
static int output_line(Context *ctx, const char *fmt, ...)
488
489
OutputListNode *item = NULL;
490
if (isfail(ctx))
491
492
return FAIL; // we failed previously, don't go on...
493
char *scratch = get_scratch_buffer(ctx);
494
495
const int indent = ctx->indent;
496
497
if (indent > 0)
memset(scratch, '\t', indent);
499
500
va_list ap;
va_start(ap, fmt);
501
const int len = vsnprintf(scratch+indent, SCRATCH_BUFFER_SIZE-indent, fmt, ap) + indent;
502
503
va_end(ap);
504
item = (OutputListNode *) Malloc(ctx, sizeof (OutputListNode));
505
506
507
if (item == NULL)
return out_of_memory(ctx);
508
item->str = (char *) Malloc(ctx, len + 1);
509
if (item->str == NULL)
511
Free(ctx, item);
512
return out_of_memory(ctx);
513
514
} // if
515
516
517
// If we overflowed our scratch buffer, that's okay. We were going to
// allocate anyhow...the scratch buffer just lets us avoid a second
// run of vsnprintf().
518
if (len < SCRATCH_BUFFER_SIZE)
519
520
521
strcpy(item->str, scratch); // copy it over.
else
{
522
523
if (indent > 0)
memset(item->str, '\t', indent);
524
va_start(ap, fmt);
525
vsnprintf(item->str+indent, len + 1, fmt, ap); // rebuild it.
526
527
va_end(ap);
} // else
529
item->next = NULL;
530
531
532
ctx->output->tail->next = item;
ctx->output->tail = item;
533
ctx->output_len += len + ctx->endline_len;
535
536
537
538
return 0;
} // output_line
539
540
541
542
543
544
545
// this is just to stop gcc whining.
static inline int output_blank_line(Context *ctx)
{
return output_line(ctx, "%s", "");
} // output_blank_line
546
// !!! FIXME: this is sort of nasty.
547
548
static void floatstr(Context *ctx, char *buf, size_t bufsize, float f,
int leavedecimal)
549
550
{
const size_t len = snprintf(buf, bufsize, "%f", f);
551
if ((len+2) >= bufsize)
552
553
554
555
556
557
fail(ctx, "BUG: internal buffer is too small");
else
{
char *end = buf + len;
char *ptr = strchr(buf, '.');
if (ptr == NULL)
558
559
560
{
if (leavedecimal)
strcat(buf, ".0");
561
return; // done.
563
564
565
566
567
568
569
570
571
while (--end != ptr)
{
if (*end != '0')
{
end++;
break;
} // if
} // while
572
573
if ((leavedecimal) && (end == ptr))
end += 2;
574
575
576
577
*end = '\0'; // chop extra '0' or all decimal places off.
} // else
} // floatstr
579
580
// Deal with register lists... !!! FIXME: I sort of hate this.
581
static void free_reglist(MOJOSHADER_free f, void *d, RegisterList *item)
582
583
584
585
{
while (item != NULL)
{
RegisterList *next = item->next;
586
f(item, d);
587
588
589
590
591
592
593
594
595
item = next;
} // while
} // free_reglist
static inline uint32 reg_to_ui32(const RegisterType regtype, const int regnum)
{
return ( ((uint32) regtype) | (((uint32) regnum) << 16) );
} // reg_to_uint32
596
597
598
static RegisterList *reglist_insert(Context *ctx, RegisterList *prev,
const RegisterType regtype,
const int regnum)
599
600
601
602
603
604
605
{
const uint32 newval = reg_to_ui32(regtype, regnum);
RegisterList *item = prev->next;
while (item != NULL)
{
const uint32 val = reg_to_ui32(item->regtype, item->regnum);
if (newval == val)
606
return item; // already set, so we're done.
607
608
609
610
611
612
613
614
615
616
617
else if (newval < val) // insert it here.
break;
else // if (newval > val)
{
// keep going, we're not to the insertion point yet.
prev = item;
item = item->next;
} // else
} // while
// we need to insert an entry after (prev).
618
item = (RegisterList *) Malloc(ctx, sizeof (RegisterList));
619
620
621
622
623
624
if (item == NULL)
out_of_memory(ctx);
else
{
item->regtype = regtype;
item->regnum = regnum;
625
626
627
item->usage = 0;
item->index = 0;
item->writemask = 0;
628
629
630
item->next = prev->next;
prev->next = item;
} // else
631
632
return item;
633
634
} // reglist_insert
635
636
static RegisterList *reglist_find(RegisterList *prev, const RegisterType rtype,
const int regnum)
638
639
const uint32 newval = reg_to_ui32(rtype, regnum);
RegisterList *item = prev->next;
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
while (item != NULL)
{
const uint32 val = reg_to_ui32(item->regtype, item->regnum);
if (newval == val)
return item; // here it is.
else if (newval < val) // should have been here if it existed.
return NULL;
else // if (newval > val)
{
// keep going, we're not to the insertion point yet.
prev = item;
item = item->next;
} // else
} // while
return NULL; // wasn't in the list.
656
657
658
659
660
661
662
} // reglist_find
static inline const RegisterList *reglist_exists(RegisterList *prev,
const RegisterType regtype,
const int regnum)
{
return (reglist_find(prev, regtype, regnum));
663
664
665
666
667
668
669
670
671
672
673
674
} // reglist_exists
static inline void set_used_register(Context *ctx, const RegisterType regtype,
const int regnum)
{
reglist_insert(ctx, &ctx->used_registers, regtype, regnum);
} // set_used_register
static inline int get_used_register(Context *ctx, const RegisterType regtype,
const int regnum)
{
return (reglist_exists(&ctx->used_registers, regtype, regnum) != NULL);
675
} // get_used_register
676
677
678
679
680
681
682
683
684
685
686
687
688
static inline void set_defined_register(Context *ctx, const RegisterType rtype,
const int regnum)
{
reglist_insert(ctx, &ctx->defined_registers, rtype, regnum);
} // set_defined_register
static inline int get_defined_register(Context *ctx, const RegisterType rtype,
const int regnum)
{
return (reglist_exists(&ctx->defined_registers, rtype, regnum) != NULL);
} // get_defined_register
689
690
691
692
693
694
695
696
697
698
699
700
701
702
703
static const RegisterList *declared_attribute(Context *ctx,
const MOJOSHADER_usage usage,
const int index)
{
const RegisterList *item = ctx->attributes.next;
while (item != NULL)
{
if ((item->usage == usage) && (item->index == index))
return item;
item = item->next;
} // while
return NULL;
} // declared_attribute
704
705
706
707
708
709
710
711
712
713
static void add_attribute_register(Context *ctx, const RegisterType rtype,
const int regnum, const MOJOSHADER_usage usage,
const int index, const int writemask)
{
RegisterList *item = reglist_insert(ctx, &ctx->attributes, rtype, regnum);
item->usage = usage;
item->index = index;
item->writemask = writemask;
} // add_attribute_register
714
715
716
717
718
719
720
static inline void add_sampler(Context *ctx, const RegisterType rtype,
const int regnum, const TextureType ttype)
{
RegisterList *item = reglist_insert(ctx, &ctx->samplers, rtype, regnum);
item->index = (int) ttype;
} // add_sampler
722
723
724
725
726
727
728
729
static inline int replicate_swizzle(const int swizzle)
{
return ( (((swizzle >> 0) & 0x3) == ((swizzle >> 2) & 0x3)) &&
(((swizzle >> 2) & 0x3) == ((swizzle >> 4) & 0x3)) &&
(((swizzle >> 4) & 0x3) == ((swizzle >> 6) & 0x3)) );
} // replicate_swizzle
730
731
732
733
734
static inline int vecsize_from_writemask(const int m)
{
return (m & 1) + ((m >> 1) & 1) + ((m >> 2) & 1) + ((m >> 3) & 1);
} // vecsize_from_writemask
736
737
// D3D stuff that's used in more than just the d3d profile...
738
739
740
static const char swizzle_channels[] = { 'x', 'y', 'z', 'w' };
741
742
743
744
745
static const char *usagestrs[] = {
"_position", "_blendweight", "_blendindices", "_normal", "_psize",
"_texcoord", "_tangent", "_binormal", "_tessfactor", "_positiont",
"_color", "_fog", "_depth", "_sample"
};
747
static const char *get_D3D_register_string(Context *ctx,
748
RegisterType regtype,
749
750
int regnum, char *regnum_str,
size_t regnum_size)
752
const char *retval = NULL;
753
int has_number = 1;
755
switch (regtype)
757
case REG_TYPE_TEMP:
758
retval = "r";
761
case REG_TYPE_INPUT:
762
retval = "v";
765
case REG_TYPE_CONST:
766
767
768
retval = "c";
break;
769
case REG_TYPE_CONST2:
770
771
772
773
retval = "c";
regnum += 2048;
break;
774
case REG_TYPE_CONST3:
775
776
777
778
retval = "c";
regnum += 4096;
break;
779
case REG_TYPE_CONST4:
780
retval = "c";
781
regnum += 6144;
784
case REG_TYPE_ADDRESS: // (or REG_TYPE_TEXTURE, same value.)
785
retval = shader_is_vertex(ctx) ? "a" : "t";
788
case REG_TYPE_RASTOUT:
789
switch ((RastOutType) regnum)
791
792
793
case RASTOUT_TYPE_POSITION: retval = "oPos"; break;
case RASTOUT_TYPE_FOG: retval = "oFog"; break;
case RASTOUT_TYPE_POINT_SIZE: retval = "oPts"; break;
795
has_number = 0;
798
case REG_TYPE_ATTROUT:
799
retval = "oD";
802
case REG_TYPE_OUTPUT: // (or REG_TYPE_TEXCRDOUT, same value.)
803
if (shader_is_vertex(ctx) && shader_version_atleast(ctx, 3, 0))
804
retval = "o";
806
retval = "oT";
809
case REG_TYPE_CONSTINT:
810
retval = "i";
813
case REG_TYPE_COLOROUT:
814
retval = "oC";
817
case REG_TYPE_DEPTHOUT:
818
retval = "oDepth";
819
has_number = 0;
822
case REG_TYPE_SAMPLER:
823
retval = "s";
826
case REG_TYPE_CONSTBOOL:
827
retval = "b";
830
case REG_TYPE_LOOP:
831
retval = "aL";
832
has_number = 0;
833
834
835
break;
// !!! FIXME: don't know what the asm string is for this..
836
case REG_TYPE_TEMPFLOAT16:
837
fail(ctx, "don't know the ASM for tempfloat16 register");
838
839
840
retval = "???";
has_number = 0;
break;
842
case REG_TYPE_MISCTYPE:
843
switch ((MiscTypeType) regnum)
845
846
case MISCTYPE_TYPE_POSITION: retval = "vPos"; break;
case MISCTYPE_TYPE_FACE: retval = "vFace"; break;
848
has_number = 0;
851
case REG_TYPE_LABEL:
852
retval = "l";
855
case REG_TYPE_PREDICATE:
856
retval = "p";
857
858
859
break;
} // switch
860
861
862
863
864
if (has_number)
snprintf(regnum_str, regnum_size, "%u", (uint) regnum);
else
regnum_str[0] = '\0';
865
866
867
868
return retval;
} // get_D3D_register_string
869
870
871
872
873
874
875
876
877
878
#define AT_LEAST_ONE_PROFILE 0
#if !SUPPORT_PROFILE_D3D
#define PROFILE_EMITTER_D3D(op)
#else
#undef AT_LEAST_ONE_PROFILE
#define AT_LEAST_ONE_PROFILE 1
#define PROFILE_EMITTER_D3D(op) emit_D3D_##op,
879
static const char *make_D3D_srcarg_string_in_buf(Context *ctx,
880
881
const SourceArgInfo *arg,
char *buf, size_t buflen)
882
883
884
{
const char *premod_str = "";
const char *postmod_str = "";
885
switch (arg->src_mod)
886
887
888
889
890
891
892
893
894
895
896
{
case SRCMOD_NEGATE:
premod_str = "-";
break;
case SRCMOD_BIASNEGATE:
premod_str = "-";
// fall through.
case SRCMOD_BIAS:
postmod_str = "_bias";
break;
898
899
900
901
902
903
904
905
906
907
908
909
910
911
912
913
914
915
916
917
918
919
920
921
922
923
924
925
926
927
928
929
930
931
932
933
case SRCMOD_SIGNNEGATE:
premod_str = "-";
// fall through.
case SRCMOD_SIGN:
postmod_str = "_bx2";
break;
case SRCMOD_COMPLEMENT:
premod_str = "1-";
break;
case SRCMOD_X2NEGATE:
premod_str = "-";
// fall through.
case SRCMOD_X2:
postmod_str = "_x2";
break;
case SRCMOD_DZ:
postmod_str = "_dz";
break;
case SRCMOD_DW:
postmod_str = "_dw";
break;
case SRCMOD_ABSNEGATE:
premod_str = "-";
// fall through.
case SRCMOD_ABS:
postmod_str = "_abs";
break;
case SRCMOD_NOT:
premod_str = "!";
break;
934
935
936
937
case SRCMOD_NONE:
case SRCMOD_TOTAL:
break; // stop compiler whining.
938
939
940
941
} // switch
char regnum_str[16];
942
943
944
const char *regtype_str = get_D3D_register_string(ctx, arg->regtype,
arg->regnum, regnum_str,
sizeof (regnum_str));
945
946
947
948
if (regtype_str == NULL)
{
fail(ctx, "Unknown source register type.");
949
return "";
950
951
} // if
952
953
954
955
956
957
958
959
960
961
962
963
964
965
966
967
968
969
970
971
972
973
974
975
const char *rel_lbracket = "";
const char *rel_rbracket = "";
char rel_swizzle[4] = { '\0' };
char rel_regnum_str[16] = { '\0' };
const char *rel_regtype_str = "";
if (arg->relative)
{
rel_swizzle[0] = '.';
rel_swizzle[1] = swizzle_channels[arg->relative_component];
rel_swizzle[2] = '\0';
rel_lbracket = "[";
rel_rbracket = "]";
rel_regtype_str = get_D3D_register_string(ctx, arg->relative_regtype,
arg->relative_regnum,
rel_regnum_str,
sizeof (rel_regnum_str));
if (regtype_str == NULL)
{
fail(ctx, "Unknown relative source register type.");
return "";
} // if
} // if
976
977
char swizzle_str[6];
int i = 0;
978
if (arg->swizzle != 0xE4) // 0xE4 == 11100100 ... 3 2 1 0. No swizzle.
979
980
{
swizzle_str[i++] = '.';
981
982
983
984
swizzle_str[i++] = swizzle_channels[arg->swizzle_x];
swizzle_str[i++] = swizzle_channels[arg->swizzle_y];
swizzle_str[i++] = swizzle_channels[arg->swizzle_z];
swizzle_str[i++] = swizzle_channels[arg->swizzle_w];
985
986
987
988
// .xyzz is the same as .xyz, .z is the same as .zzzz, etc.
while (swizzle_str[i-1] == swizzle_str[i-2])
i--;
989
990
991
992
} // if
swizzle_str[i] = '\0';
assert(i < sizeof (swizzle_str));
993
994
995
996
snprintf(buf, buflen, "%s%s%s%s%s%s%s%s%s%s",
premod_str, regtype_str, regnum_str, postmod_str,
rel_lbracket, rel_regtype_str, rel_regnum_str, rel_swizzle,
rel_rbracket, swizzle_str);
997
// !!! FIXME: make sure the scratch buffer was large enough.
998
return buf;
999
} // make_D3D_srcarg_string_in_buf