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[DMUSIC]
[reactos.git] / reactos / dll / opengl / mesa / src / glsl / glsl_lexer.ll
1 %{
2 /*
3 * Copyright © 2008, 2009 Intel Corporation
4 *
5 * Permission is hereby granted, free of charge, to any person obtaining a
6 * copy of this software and associated documentation files (the "Software"),
7 * to deal in the Software without restriction, including without limitation
8 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
9 * and/or sell copies of the Software, and to permit persons to whom the
10 * Software is furnished to do so, subject to the following conditions:
11 *
12 * The above copyright notice and this permission notice (including the next
13 * paragraph) shall be included in all copies or substantial portions of the
14 * Software.
15 *
16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
19 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
21 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
22 * DEALINGS IN THE SOFTWARE.
23 */
24 #include <ctype.h>
25 #include <limits.h>
26 #include "strtod.h"
27 #include "ast.h"
28 #include "glsl_parser_extras.h"
29 #include "glsl_parser.h"
30
31 static int classify_identifier(struct _mesa_glsl_parse_state *, const char *);
32
33 #ifdef _MSC_VER
34 #define YY_NO_UNISTD_H
35 #endif
36
37 #define YY_USER_ACTION \
38 do { \
39 yylloc->source = 0; \
40 yylloc->first_column = yycolumn + 1; \
41 yylloc->first_line = yylineno + 1; \
42 yycolumn += yyleng; \
43 } while(0);
44
45 #define YY_USER_INIT yylineno = 0; yycolumn = 0;
46
47 /* A macro for handling reserved words and keywords across language versions.
48 *
49 * Certain words start out as identifiers, become reserved words in
50 * later language revisions, and finally become language keywords.
51 *
52 * For example, consider the following lexer rule:
53 * samplerBuffer KEYWORD(130, 140, SAMPLERBUFFER)
54 *
55 * This means that "samplerBuffer" will be treated as:
56 * - a keyword (SAMPLERBUFFER token) ...in GLSL >= 1.40
57 * - a reserved word - error ...in GLSL >= 1.30
58 * - an identifier ...in GLSL < 1.30
59 */
60 #define KEYWORD(reserved_version, allowed_version, token) \
61 do { \
62 if (yyextra->language_version >= allowed_version) { \
63 return token; \
64 } else if (yyextra->language_version >= reserved_version) { \
65 _mesa_glsl_error(yylloc, yyextra, \
66 "Illegal use of reserved word `%s'", yytext); \
67 return ERROR_TOK; \
68 } else { \
69 yylval->identifier = strdup(yytext); \
70 return classify_identifier(yyextra, yytext); \
71 } \
72 } while (0)
73
74 /* The ES macro can be used in KEYWORD checks:
75 *
76 * word KEYWORD(110 || ES, 400, TOKEN)
77 * ...means the word is reserved in GLSL ES 1.00, while
78 *
79 * word KEYWORD(110, 130 || ES, TOKEN)
80 * ...means the word is a legal keyword in GLSL ES 1.00.
81 */
82 #define ES yyextra->es_shader
83
84 static int
85 literal_integer(char *text, int len, struct _mesa_glsl_parse_state *state,
86 YYSTYPE *lval, YYLTYPE *lloc, int base)
87 {
88 bool is_uint = (text[len - 1] == 'u' ||
89 text[len - 1] == 'U');
90 const char *digits = text;
91
92 /* Skip "0x" */
93 if (base == 16)
94 digits += 2;
95
96 #ifdef _MSC_VER
97 unsigned __int64 value = _strtoui64(digits, NULL, base);
98 #else
99 unsigned long long value = strtoull(digits, NULL, base);
100 #endif
101
102 lval->n = (int)value;
103
104 if (value > UINT_MAX) {
105 /* Note that signed 0xffffffff is valid, not out of range! */
106 if (state->language_version >= 130) {
107 _mesa_glsl_error(lloc, state,
108 "Literal value `%s' out of range", text);
109 } else {
110 _mesa_glsl_warning(lloc, state,
111 "Literal value `%s' out of range", text);
112 }
113 } else if (base == 10 && !is_uint && (unsigned)value > (unsigned)INT_MAX + 1) {
114 /* Tries to catch unintentionally providing a negative value.
115 * Note that -2147483648 is parsed as -(2147483648), so we don't
116 * want to warn for INT_MAX.
117 */
118 _mesa_glsl_warning(lloc, state,
119 "Signed literal value `%s' is interpreted as %d",
120 text, lval->n);
121 }
122 return is_uint ? UINTCONSTANT : INTCONSTANT;
123 }
124
125 #define LITERAL_INTEGER(base) \
126 literal_integer(yytext, yyleng, yyextra, yylval, yylloc, base)
127
128 %}
129
130 %option bison-bridge bison-locations reentrant noyywrap
131 %option nounput noyy_top_state
132 %option never-interactive
133 %option prefix="_mesa_glsl_"
134 %option extra-type="struct _mesa_glsl_parse_state *"
135
136 %x PP PRAGMA
137
138 DEC_INT [1-9][0-9]*
139 HEX_INT 0[xX][0-9a-fA-F]+
140 OCT_INT 0[0-7]*
141 INT ({DEC_INT}|{HEX_INT}|{OCT_INT})
142 SPC [ \t]*
143 SPCP [ \t]+
144 HASH ^{SPC}#{SPC}
145 %%
146
147 [ \r\t]+ ;
148
149 /* Preprocessor tokens. */
150 ^[ \t]*#[ \t]*$ ;
151 ^[ \t]*#[ \t]*version { BEGIN PP; return VERSION_TOK; }
152 ^[ \t]*#[ \t]*extension { BEGIN PP; return EXTENSION; }
153 {HASH}line{SPCP}{INT}{SPCP}{INT}{SPC}$ {
154 /* Eat characters until the first digit is
155 * encountered
156 */
157 char *ptr = yytext;
158 while (!isdigit(*ptr))
159 ptr++;
160
161 /* Subtract one from the line number because
162 * yylineno is zero-based instead of
163 * one-based.
164 */
165 yylineno = strtol(ptr, &ptr, 0) - 1;
166 yylloc->source = strtol(ptr, NULL, 0);
167 }
168 {HASH}line{SPCP}{INT}{SPC}$ {
169 /* Eat characters until the first digit is
170 * encountered
171 */
172 char *ptr = yytext;
173 while (!isdigit(*ptr))
174 ptr++;
175
176 /* Subtract one from the line number because
177 * yylineno is zero-based instead of
178 * one-based.
179 */
180 yylineno = strtol(ptr, &ptr, 0) - 1;
181 }
182 ^{SPC}#{SPC}pragma{SPCP}debug{SPC}\({SPC}on{SPC}\) {
183 BEGIN PP;
184 return PRAGMA_DEBUG_ON;
185 }
186 ^{SPC}#{SPC}pragma{SPCP}debug{SPC}\({SPC}off{SPC}\) {
187 BEGIN PP;
188 return PRAGMA_DEBUG_OFF;
189 }
190 ^{SPC}#{SPC}pragma{SPCP}optimize{SPC}\({SPC}on{SPC}\) {
191 BEGIN PP;
192 return PRAGMA_OPTIMIZE_ON;
193 }
194 ^{SPC}#{SPC}pragma{SPCP}optimize{SPC}\({SPC}off{SPC}\) {
195 BEGIN PP;
196 return PRAGMA_OPTIMIZE_OFF;
197 }
198 ^{SPC}#{SPC}pragma{SPCP}STDGL{SPCP}invariant{SPC}\({SPC}all{SPC}\) {
199 BEGIN PP;
200 return PRAGMA_INVARIANT_ALL;
201 }
202 ^{SPC}#{SPC}pragma{SPCP} { BEGIN PRAGMA; }
203
204 <PRAGMA>\n { BEGIN 0; yylineno++; yycolumn = 0; }
205 <PRAGMA>. { }
206
207 <PP>\/\/[^\n]* { }
208 <PP>[ \t\r]* { }
209 <PP>: return COLON;
210 <PP>[_a-zA-Z][_a-zA-Z0-9]* {
211 yylval->identifier = strdup(yytext);
212 return IDENTIFIER;
213 }
214 <PP>[1-9][0-9]* {
215 yylval->n = strtol(yytext, NULL, 10);
216 return INTCONSTANT;
217 }
218 <PP>\n { BEGIN 0; yylineno++; yycolumn = 0; return EOL; }
219
220 \n { yylineno++; yycolumn = 0; }
221
222 attribute return ATTRIBUTE;
223 const return CONST_TOK;
224 bool return BOOL_TOK;
225 float return FLOAT_TOK;
226 int return INT_TOK;
227 uint KEYWORD(130, 130, UINT_TOK);
228
229 break return BREAK;
230 continue return CONTINUE;
231 do return DO;
232 while return WHILE;
233 else return ELSE;
234 for return FOR;
235 if return IF;
236 discard return DISCARD;
237 return return RETURN;
238
239 bvec2 return BVEC2;
240 bvec3 return BVEC3;
241 bvec4 return BVEC4;
242 ivec2 return IVEC2;
243 ivec3 return IVEC3;
244 ivec4 return IVEC4;
245 uvec2 KEYWORD(130, 130, UVEC2);
246 uvec3 KEYWORD(130, 130, UVEC3);
247 uvec4 KEYWORD(130, 130, UVEC4);
248 vec2 return VEC2;
249 vec3 return VEC3;
250 vec4 return VEC4;
251 mat2 return MAT2X2;
252 mat3 return MAT3X3;
253 mat4 return MAT4X4;
254 mat2x2 KEYWORD(120, 120, MAT2X2);
255 mat2x3 KEYWORD(120, 120, MAT2X3);
256 mat2x4 KEYWORD(120, 120, MAT2X4);
257 mat3x2 KEYWORD(120, 120, MAT3X2);
258 mat3x3 KEYWORD(120, 120, MAT3X3);
259 mat3x4 KEYWORD(120, 120, MAT3X4);
260 mat4x2 KEYWORD(120, 120, MAT4X2);
261 mat4x3 KEYWORD(120, 120, MAT4X3);
262 mat4x4 KEYWORD(120, 120, MAT4X4);
263
264 in return IN_TOK;
265 out return OUT_TOK;
266 inout return INOUT_TOK;
267 uniform return UNIFORM;
268 varying return VARYING;
269 centroid KEYWORD(120, 120, CENTROID);
270 invariant KEYWORD(120 || ES, 120 || ES, INVARIANT);
271 flat KEYWORD(130 || ES, 130, FLAT);
272 smooth KEYWORD(130, 130, SMOOTH);
273 noperspective KEYWORD(130, 130, NOPERSPECTIVE);
274
275 sampler1D return SAMPLER1D;
276 sampler2D return SAMPLER2D;
277 sampler3D return SAMPLER3D;
278 samplerCube return SAMPLERCUBE;
279 sampler1DArray KEYWORD(130, 130, SAMPLER1DARRAY);
280 sampler2DArray KEYWORD(130, 130, SAMPLER2DARRAY);
281 sampler1DShadow return SAMPLER1DSHADOW;
282 sampler2DShadow return SAMPLER2DSHADOW;
283 samplerCubeShadow KEYWORD(130, 130, SAMPLERCUBESHADOW);
284 sampler1DArrayShadow KEYWORD(130, 130, SAMPLER1DARRAYSHADOW);
285 sampler2DArrayShadow KEYWORD(130, 130, SAMPLER2DARRAYSHADOW);
286 isampler1D KEYWORD(130, 130, ISAMPLER1D);
287 isampler2D KEYWORD(130, 130, ISAMPLER2D);
288 isampler3D KEYWORD(130, 130, ISAMPLER3D);
289 isamplerCube KEYWORD(130, 130, ISAMPLERCUBE);
290 isampler1DArray KEYWORD(130, 130, ISAMPLER1DARRAY);
291 isampler2DArray KEYWORD(130, 130, ISAMPLER2DARRAY);
292 usampler1D KEYWORD(130, 130, USAMPLER1D);
293 usampler2D KEYWORD(130, 130, USAMPLER2D);
294 usampler3D KEYWORD(130, 130, USAMPLER3D);
295 usamplerCube KEYWORD(130, 130, USAMPLERCUBE);
296 usampler1DArray KEYWORD(130, 130, USAMPLER1DARRAY);
297 usampler2DArray KEYWORD(130, 130, USAMPLER2DARRAY);
298
299 samplerExternalOES {
300 if (yyextra->OES_EGL_image_external_enable)
301 return SAMPLEREXTERNALOES;
302 else
303 return IDENTIFIER;
304 }
305
306
307 struct return STRUCT;
308 void return VOID_TOK;
309
310 layout {
311 if ((yyextra->language_version >= 140)
312 || yyextra->AMD_conservative_depth_enable
313 || yyextra->ARB_conservative_depth_enable
314 || yyextra->ARB_explicit_attrib_location_enable
315 || yyextra->ARB_fragment_coord_conventions_enable) {
316 return LAYOUT_TOK;
317 } else {
318 yylval->identifier = strdup(yytext);
319 return IDENTIFIER;
320 }
321 }
322
323 \+\+ return INC_OP;
324 -- return DEC_OP;
325 \<= return LE_OP;
326 >= return GE_OP;
327 == return EQ_OP;
328 != return NE_OP;
329 && return AND_OP;
330 \|\| return OR_OP;
331 "^^" return XOR_OP;
332 "<<" return LEFT_OP;
333 ">>" return RIGHT_OP;
334
335 \*= return MUL_ASSIGN;
336 \/= return DIV_ASSIGN;
337 \+= return ADD_ASSIGN;
338 \%= return MOD_ASSIGN;
339 \<\<= return LEFT_ASSIGN;
340 >>= return RIGHT_ASSIGN;
341 &= return AND_ASSIGN;
342 "^=" return XOR_ASSIGN;
343 \|= return OR_ASSIGN;
344 -= return SUB_ASSIGN;
345
346 [1-9][0-9]*[uU]? {
347 return LITERAL_INTEGER(10);
348 }
349 0[xX][0-9a-fA-F]+[uU]? {
350 return LITERAL_INTEGER(16);
351 }
352 0[0-7]*[uU]? {
353 return LITERAL_INTEGER(8);
354 }
355
356 [0-9]+\.[0-9]+([eE][+-]?[0-9]+)?[fF]? {
357 yylval->real = glsl_strtod(yytext, NULL);
358 return FLOATCONSTANT;
359 }
360 \.[0-9]+([eE][+-]?[0-9]+)?[fF]? {
361 yylval->real = glsl_strtod(yytext, NULL);
362 return FLOATCONSTANT;
363 }
364 [0-9]+\.([eE][+-]?[0-9]+)?[fF]? {
365 yylval->real = glsl_strtod(yytext, NULL);
366 return FLOATCONSTANT;
367 }
368 [0-9]+[eE][+-]?[0-9]+[fF]? {
369 yylval->real = glsl_strtod(yytext, NULL);
370 return FLOATCONSTANT;
371 }
372 [0-9]+[fF] {
373 yylval->real = glsl_strtod(yytext, NULL);
374 return FLOATCONSTANT;
375 }
376
377 true {
378 yylval->n = 1;
379 return BOOLCONSTANT;
380 }
381 false {
382 yylval->n = 0;
383 return BOOLCONSTANT;
384 }
385
386
387 /* Reserved words in GLSL 1.10. */
388 asm KEYWORD(110 || ES, 999, ASM);
389 class KEYWORD(110 || ES, 999, CLASS);
390 union KEYWORD(110 || ES, 999, UNION);
391 enum KEYWORD(110 || ES, 999, ENUM);
392 typedef KEYWORD(110 || ES, 999, TYPEDEF);
393 template KEYWORD(110 || ES, 999, TEMPLATE);
394 this KEYWORD(110 || ES, 999, THIS);
395 packed KEYWORD(110 || ES, 999, PACKED_TOK);
396 goto KEYWORD(110 || ES, 999, GOTO);
397 switch KEYWORD(110 || ES, 130, SWITCH);
398 default KEYWORD(110 || ES, 130, DEFAULT);
399 inline KEYWORD(110 || ES, 999, INLINE_TOK);
400 noinline KEYWORD(110 || ES, 999, NOINLINE);
401 volatile KEYWORD(110 || ES, 999, VOLATILE);
402 public KEYWORD(110 || ES, 999, PUBLIC_TOK);
403 static KEYWORD(110 || ES, 999, STATIC);
404 extern KEYWORD(110 || ES, 999, EXTERN);
405 external KEYWORD(110 || ES, 999, EXTERNAL);
406 interface KEYWORD(110 || ES, 999, INTERFACE);
407 long KEYWORD(110 || ES, 999, LONG_TOK);
408 short KEYWORD(110 || ES, 999, SHORT_TOK);
409 double KEYWORD(110 || ES, 400, DOUBLE_TOK);
410 half KEYWORD(110 || ES, 999, HALF);
411 fixed KEYWORD(110 || ES, 999, FIXED_TOK);
412 unsigned KEYWORD(110 || ES, 999, UNSIGNED);
413 input KEYWORD(110 || ES, 999, INPUT_TOK);
414 output KEYWORD(110 || ES, 999, OUTPUT);
415 hvec2 KEYWORD(110 || ES, 999, HVEC2);
416 hvec3 KEYWORD(110 || ES, 999, HVEC3);
417 hvec4 KEYWORD(110 || ES, 999, HVEC4);
418 dvec2 KEYWORD(110 || ES, 400, DVEC2);
419 dvec3 KEYWORD(110 || ES, 400, DVEC3);
420 dvec4 KEYWORD(110 || ES, 400, DVEC4);
421 fvec2 KEYWORD(110 || ES, 999, FVEC2);
422 fvec3 KEYWORD(110 || ES, 999, FVEC3);
423 fvec4 KEYWORD(110 || ES, 999, FVEC4);
424 sampler2DRect return SAMPLER2DRECT;
425 sampler3DRect KEYWORD(110 || ES, 999, SAMPLER3DRECT);
426 sampler2DRectShadow return SAMPLER2DRECTSHADOW;
427 sizeof KEYWORD(110 || ES, 999, SIZEOF);
428 cast KEYWORD(110 || ES, 999, CAST);
429 namespace KEYWORD(110 || ES, 999, NAMESPACE);
430 using KEYWORD(110 || ES, 999, USING);
431
432 /* Additional reserved words in GLSL 1.20. */
433 lowp KEYWORD(120, 130 || ES, LOWP);
434 mediump KEYWORD(120, 130 || ES, MEDIUMP);
435 highp KEYWORD(120, 130 || ES, HIGHP);
436 precision KEYWORD(120, 130 || ES, PRECISION);
437
438 /* Additional reserved words in GLSL 1.30. */
439 case KEYWORD(130, 130, CASE);
440 common KEYWORD(130, 999, COMMON);
441 partition KEYWORD(130, 999, PARTITION);
442 active KEYWORD(130, 999, ACTIVE);
443 superp KEYWORD(130 || ES, 999, SUPERP);
444 samplerBuffer KEYWORD(130, 140, SAMPLERBUFFER);
445 filter KEYWORD(130, 999, FILTER);
446 image1D KEYWORD(130, 999, IMAGE1D);
447 image2D KEYWORD(130, 999, IMAGE2D);
448 image3D KEYWORD(130, 999, IMAGE3D);
449 imageCube KEYWORD(130, 999, IMAGECUBE);
450 iimage1D KEYWORD(130, 999, IIMAGE1D);
451 iimage2D KEYWORD(130, 999, IIMAGE2D);
452 iimage3D KEYWORD(130, 999, IIMAGE3D);
453 iimageCube KEYWORD(130, 999, IIMAGECUBE);
454 uimage1D KEYWORD(130, 999, UIMAGE1D);
455 uimage2D KEYWORD(130, 999, UIMAGE2D);
456 uimage3D KEYWORD(130, 999, UIMAGE3D);
457 uimageCube KEYWORD(130, 999, UIMAGECUBE);
458 image1DArray KEYWORD(130, 999, IMAGE1DARRAY);
459 image2DArray KEYWORD(130, 999, IMAGE2DARRAY);
460 iimage1DArray KEYWORD(130, 999, IIMAGE1DARRAY);
461 iimage2DArray KEYWORD(130, 999, IIMAGE2DARRAY);
462 uimage1DArray KEYWORD(130, 999, UIMAGE1DARRAY);
463 uimage2DArray KEYWORD(130, 999, UIMAGE2DARRAY);
464 image1DShadow KEYWORD(130, 999, IMAGE1DSHADOW);
465 image2DShadow KEYWORD(130, 999, IMAGE2DSHADOW);
466 image1DArrayShadow KEYWORD(130, 999, IMAGE1DARRAYSHADOW);
467 image2DArrayShadow KEYWORD(130, 999, IMAGE2DARRAYSHADOW);
468 imageBuffer KEYWORD(130, 999, IMAGEBUFFER);
469 iimageBuffer KEYWORD(130, 999, IIMAGEBUFFER);
470 uimageBuffer KEYWORD(130, 999, UIMAGEBUFFER);
471 row_major KEYWORD(130, 999, ROW_MAJOR);
472
473 [_a-zA-Z][_a-zA-Z0-9]* {
474 struct _mesa_glsl_parse_state *state = yyextra;
475 void *ctx = state;
476 yylval->identifier = ralloc_strdup(ctx, yytext);
477 return classify_identifier(state, yytext);
478 }
479
480 . { return yytext[0]; }
481
482 %%
483
484 int
485 classify_identifier(struct _mesa_glsl_parse_state *state, const char *name)
486 {
487 if (state->symbols->get_variable(name) || state->symbols->get_function(name))
488 return IDENTIFIER;
489 else if (state->symbols->get_type(name))
490 return TYPE_IDENTIFIER;
491 else
492 return NEW_IDENTIFIER;
493 }
494
495 void
496 _mesa_glsl_lexer_ctor(struct _mesa_glsl_parse_state *state, const char *string)
497 {
498 yylex_init_extra(state, & state->scanner);
499 yy_scan_string(string, state->scanner);
500 }
501
502 void
503 _mesa_glsl_lexer_dtor(struct _mesa_glsl_parse_state *state)
504 {
505 yylex_destroy(state->scanner);
506 }
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