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authorKenneth Graunke <[email protected]>2010-11-13 20:32:59 -0800
committerKenneth Graunke <[email protected]>2010-11-15 13:33:57 -0800
commit285036fbb03d7f10a8b93774d0290a33ea2e5e13 (patch)
treeebc407a100939b4297977829447cdb953a0e4162 /src
parent5dc74e9c77de7d30ac08c25f224ffa93006d8d7c (diff)
glsl: Rework reserved word/keyword handling in the lexer.
This consolidates the TOKEN_OR_IDENTIFIER and RESERVED_WORD macros into a single KEYWORD macro. The old TOKEN_OR_IDENTIFIER macros handled the case of a word going from an identifier to a keyword; the RESERVED_WORD macro handled a word going from a reserved word to a language keyword. However, neither could properly handle samplerBuffer (for example), which is an identifier in 1.10 and 1.20, a reserved word in 1.30, and a keyword in 1.40 and on. Furthermore, the existing macros didn't properly handle reserved words in GLSL ES 1.00. The best they could do was return a token (rather than an identifier), resulting in an obtuse parser error, rather than a user-friendly "you used a reserved word" error message.
Diffstat (limited to 'src')
-rw-r--r--src/glsl/glsl_lexer.lpp239
1 files changed, 122 insertions, 117 deletions
diff --git a/src/glsl/glsl_lexer.lpp b/src/glsl/glsl_lexer.lpp
index f690c4728b5..8498b7e60f7 100644
--- a/src/glsl/glsl_lexer.lpp
+++ b/src/glsl/glsl_lexer.lpp
@@ -36,36 +36,42 @@
#define YY_USER_INIT yylineno = 0; yycolumn = 0;
-#define TOKEN_OR_IDENTIFIER(version, token) \
- do { \
- if (yyextra->language_version >= version) { \
- return token; \
- } else { \
- yylval->identifier = strdup(yytext); \
- return IDENTIFIER; \
- } \
- } while (0)
-
-/* Handle reserved words in GLSL ES (version 100) */
-#define TOKEN_OR_IDENTIFIER_ES(version, token) \
- do { \
- if (yyextra->es_shader) { \
- return token; \
- } else { \
- TOKEN_OR_IDENTIFIER(version, token); \
- } \
- } while (0)
-
-#define RESERVED_WORD(version, token) \
+/* A macro for handling reserved words and keywords across language versions.
+ *
+ * Certain words start out as identifiers, become reserved words in
+ * later language revisions, and finally become language keywords.
+ *
+ * For example, consider the following lexer rule:
+ * samplerBuffer KEYWORD(130, 140, SAMPLERBUFFER)
+ *
+ * This means that "samplerBuffer" will be treated as:
+ * - a keyword (SAMPLERBUFFER token) ...in GLSL >= 1.40
+ * - a reserved word - error ...in GLSL >= 1.30
+ * - an identifier ...in GLSL < 1.30
+ */
+#define KEYWORD(reserved_version, allowed_version, token) \
do { \
- if (yyextra->language_version >= version) { \
+ if (yyextra->language_version >= allowed_version) { \
return token; \
- } else { \
+ } else if (yyextra->language_version >= reserved_version) { \
_mesa_glsl_error(yylloc, yyextra, \
"Illegal use of reserved word `%s'", yytext); \
return ERROR_TOK; \
+ } else { \
+ yylval->identifier = strdup(yytext); \
+ return IDENTIFIER; \
} \
} while (0)
+
+/* The ES macro can be used in KEYWORD checks:
+ *
+ * word KEYWORD(110 || ES, 400, TOKEN)
+ * ...means the word is reserved in GLSL ES 1.00, while
+ *
+ * word KEYWORD(110, 130 || ES, TOKEN)
+ * ...means the word is a legal keyword in GLSL ES 1.00.
+ */
+#define ES yyextra->es_shader
%}
%option bison-bridge bison-locations reentrant noyywrap
@@ -161,7 +167,7 @@ const return CONST_TOK;
bool return BOOL_TOK;
float return FLOAT_TOK;
int return INT_TOK;
-uint TOKEN_OR_IDENTIFIER(130, UINT_TOK);
+uint KEYWORD(130, 130, UINT_TOK);
break return BREAK;
continue return CONTINUE;
@@ -179,36 +185,35 @@ bvec4 return BVEC4;
ivec2 return IVEC2;
ivec3 return IVEC3;
ivec4 return IVEC4;
-uvec2 TOKEN_OR_IDENTIFIER(130, UVEC2);
-uvec3 TOKEN_OR_IDENTIFIER(130, UVEC3);
-uvec4 TOKEN_OR_IDENTIFIER(130, UVEC4);
+uvec2 KEYWORD(130, 130, UVEC2);
+uvec3 KEYWORD(130, 130, UVEC3);
+uvec4 KEYWORD(130, 130, UVEC4);
vec2 return VEC2;
vec3 return VEC3;
vec4 return VEC4;
mat2 return MAT2X2;
mat3 return MAT3X3;
mat4 return MAT4X4;
-mat2x2 TOKEN_OR_IDENTIFIER(120, MAT2X2);
-mat2x3 TOKEN_OR_IDENTIFIER(120, MAT2X3);
-mat2x4 TOKEN_OR_IDENTIFIER(120, MAT2X4);
-mat3x2 TOKEN_OR_IDENTIFIER(120, MAT3X2);
-mat3x3 TOKEN_OR_IDENTIFIER(120, MAT3X3);
-mat3x4 TOKEN_OR_IDENTIFIER(120, MAT3X4);
-mat4x2 TOKEN_OR_IDENTIFIER(120, MAT4X2);
-mat4x3 TOKEN_OR_IDENTIFIER(120, MAT4X3);
-mat4x4 TOKEN_OR_IDENTIFIER(120, MAT4X4);
+mat2x2 KEYWORD(120, 120, MAT2X2);
+mat2x3 KEYWORD(120, 120, MAT2X3);
+mat2x4 KEYWORD(120, 120, MAT2X4);
+mat3x2 KEYWORD(120, 120, MAT3X2);
+mat3x3 KEYWORD(120, 120, MAT3X3);
+mat3x4 KEYWORD(120, 120, MAT3X4);
+mat4x2 KEYWORD(120, 120, MAT4X2);
+mat4x3 KEYWORD(120, 120, MAT4X3);
+mat4x4 KEYWORD(120, 120, MAT4X4);
in return IN_TOK;
out return OUT_TOK;
inout return INOUT_TOK;
uniform return UNIFORM;
varying return VARYING;
-centroid TOKEN_OR_IDENTIFIER(120, CENTROID);
-invariant TOKEN_OR_IDENTIFIER_ES(120, INVARIANT);
-
-flat TOKEN_OR_IDENTIFIER_ES(130, FLAT);
-smooth TOKEN_OR_IDENTIFIER(130, SMOOTH);
-noperspective TOKEN_OR_IDENTIFIER(130, NOPERSPECTIVE);
+centroid KEYWORD(120, 120, CENTROID);
+invariant KEYWORD(120 || ES, 120 || ES, INVARIANT);
+flat KEYWORD(130 || ES, 130, FLAT);
+smooth KEYWORD(130, 130, SMOOTH);
+noperspective KEYWORD(130, 130, NOPERSPECTIVE);
sampler1D return SAMPLER1D;
sampler2D return SAMPLER2D;
@@ -299,87 +304,87 @@ false {
/* Reserved words in GLSL 1.10. */
-asm RESERVED_WORD(999, ASM);
-class RESERVED_WORD(999, CLASS);
-union RESERVED_WORD(999, UNION);
-enum RESERVED_WORD(999, ENUM);
-typedef RESERVED_WORD(999, TYPEDEF);
-template RESERVED_WORD(999, TEMPLATE);
-this RESERVED_WORD(999, THIS);
-packed RESERVED_WORD(999, PACKED_TOK);
-goto RESERVED_WORD(999, GOTO);
-switch RESERVED_WORD(130, SWITCH);
-default RESERVED_WORD(130, DEFAULT);
-inline RESERVED_WORD(999, INLINE_TOK);
-noinline RESERVED_WORD(999, NOINLINE);
-volatile RESERVED_WORD(999, VOLATILE);
-public RESERVED_WORD(999, PUBLIC_TOK);
-static RESERVED_WORD(999, STATIC);
-extern RESERVED_WORD(999, EXTERN);
-external RESERVED_WORD(999, EXTERNAL);
-interface RESERVED_WORD(999, INTERFACE);
-long RESERVED_WORD(999, LONG_TOK);
-short RESERVED_WORD(999, SHORT_TOK);
-double RESERVED_WORD(999, DOUBLE_TOK);
-half RESERVED_WORD(999, HALF);
-fixed RESERVED_WORD(999, FIXED_TOK);
-unsigned RESERVED_WORD(999, UNSIGNED);
-input RESERVED_WORD(999, INPUT_TOK);
-output RESERVED_WORD(999, OUTPUT);
-hvec2 RESERVED_WORD(999, HVEC2);
-hvec3 RESERVED_WORD(999, HVEC3);
-hvec4 RESERVED_WORD(999, HVEC4);
-dvec2 RESERVED_WORD(999, DVEC2);
-dvec3 RESERVED_WORD(999, DVEC3);
-dvec4 RESERVED_WORD(999, DVEC4);
-fvec2 RESERVED_WORD(999, FVEC2);
-fvec3 RESERVED_WORD(999, FVEC3);
-fvec4 RESERVED_WORD(999, FVEC4);
+asm KEYWORD(110 || ES, 999, ASM);
+class KEYWORD(110 || ES, 999, CLASS);
+union KEYWORD(110 || ES, 999, UNION);
+enum KEYWORD(110 || ES, 999, ENUM);
+typedef KEYWORD(110 || ES, 999, TYPEDEF);
+template KEYWORD(110 || ES, 999, TEMPLATE);
+this KEYWORD(110 || ES, 999, THIS);
+packed KEYWORD(110 || ES, 999, PACKED_TOK);
+goto KEYWORD(110 || ES, 999, GOTO);
+switch KEYWORD(110 || ES, 130, SWITCH);
+default KEYWORD(110 || ES, 130, DEFAULT);
+inline KEYWORD(110 || ES, 999, INLINE_TOK);
+noinline KEYWORD(110 || ES, 999, NOINLINE);
+volatile KEYWORD(110 || ES, 999, VOLATILE);
+public KEYWORD(110 || ES, 999, PUBLIC_TOK);
+static KEYWORD(110 || ES, 999, STATIC);
+extern KEYWORD(110 || ES, 999, EXTERN);
+external KEYWORD(110 || ES, 999, EXTERNAL);
+interface KEYWORD(110 || ES, 999, INTERFACE);
+long KEYWORD(110 || ES, 999, LONG_TOK);
+short KEYWORD(110 || ES, 999, SHORT_TOK);
+double KEYWORD(110 || ES, 400, DOUBLE_TOK);
+half KEYWORD(110 || ES, 999, HALF);
+fixed KEYWORD(110 || ES, 999, FIXED_TOK);
+unsigned KEYWORD(110 || ES, 999, UNSIGNED);
+input KEYWORD(110 || ES, 999, INPUT_TOK);
+output KEYWORD(110 || ES, 999, OUTPUT);
+hvec2 KEYWORD(110 || ES, 999, HVEC2);
+hvec3 KEYWORD(110 || ES, 999, HVEC3);
+hvec4 KEYWORD(110 || ES, 999, HVEC4);
+dvec2 KEYWORD(110 || ES, 400, DVEC2);
+dvec3 KEYWORD(110 || ES, 400, DVEC3);
+dvec4 KEYWORD(110 || ES, 400, DVEC4);
+fvec2 KEYWORD(110 || ES, 999, FVEC2);
+fvec3 KEYWORD(110 || ES, 999, FVEC3);
+fvec4 KEYWORD(110 || ES, 999, FVEC4);
sampler2DRect return SAMPLER2DRECT;
-sampler3DRect RESERVED_WORD(999, SAMPLER3DRECT);
+sampler3DRect KEYWORD(110 || ES, 999, SAMPLER3DRECT);
sampler2DRectShadow return SAMPLER2DRECTSHADOW;
-sizeof RESERVED_WORD(999, SIZEOF);
-cast RESERVED_WORD(999, CAST);
-namespace RESERVED_WORD(999, NAMESPACE);
-using RESERVED_WORD(999, USING);
+sizeof KEYWORD(110 || ES, 999, SIZEOF);
+cast KEYWORD(110 || ES, 999, CAST);
+namespace KEYWORD(110 || ES, 999, NAMESPACE);
+using KEYWORD(110 || ES, 999, USING);
/* Additional reserved words in GLSL 1.20. */
-lowp TOKEN_OR_IDENTIFIER_ES(120, LOWP);
-mediump TOKEN_OR_IDENTIFIER_ES(120, MEDIUMP);
-highp TOKEN_OR_IDENTIFIER_ES(120, HIGHP);
-precision TOKEN_OR_IDENTIFIER_ES(120, PRECISION);
+lowp KEYWORD(120, 130 || ES, LOWP);
+mediump KEYWORD(120, 130 || ES, MEDIUMP);
+highp KEYWORD(120, 130 || ES, HIGHP);
+precision KEYWORD(120, 130 || ES, PRECISION);
/* Additional reserved words in GLSL 1.30. */
-common TOKEN_OR_IDENTIFIER(130, COMMON);
-partition TOKEN_OR_IDENTIFIER(130, PARTITION);
-active TOKEN_OR_IDENTIFIER(130, ACTIVE);
-superp TOKEN_OR_IDENTIFIER_ES(130, SUPERP);
-samplerBuffer TOKEN_OR_IDENTIFIER(130, SAMPLERBUFFER);
-filter TOKEN_OR_IDENTIFIER(130, FILTER);
-image1D TOKEN_OR_IDENTIFIER(130, IMAGE1D);
-image2D TOKEN_OR_IDENTIFIER(130, IMAGE2D);
-image3D TOKEN_OR_IDENTIFIER(130, IMAGE3D);
-imageCube TOKEN_OR_IDENTIFIER(130, IMAGECUBE);
-iimage1D TOKEN_OR_IDENTIFIER(130, IIMAGE1D);
-iimage2D TOKEN_OR_IDENTIFIER(130, IIMAGE2D);
-iimage3D TOKEN_OR_IDENTIFIER(130, IIMAGE3D);
-iimageCube TOKEN_OR_IDENTIFIER(130, IIMAGECUBE);
-uimage1D TOKEN_OR_IDENTIFIER(130, UIMAGE1D);
-uimage2D TOKEN_OR_IDENTIFIER(130, UIMAGE2D);
-uimage3D TOKEN_OR_IDENTIFIER(130, UIMAGE3D);
-uimageCube TOKEN_OR_IDENTIFIER(130, UIMAGECUBE);
-image1DArray TOKEN_OR_IDENTIFIER(130, IMAGE1DARRAY);
-image2DArray TOKEN_OR_IDENTIFIER(130, IMAGE2DARRAY);
-iimage1DArray TOKEN_OR_IDENTIFIER(130, IIMAGE1DARRAY);
-iimage2DArray TOKEN_OR_IDENTIFIER(130, IIMAGE2DARRAY);
-uimage1DArray TOKEN_OR_IDENTIFIER(130, UIMAGE1DARRAY);
-uimage2DArray TOKEN_OR_IDENTIFIER(130, UIMAGE2DARRAY);
-image1DShadow TOKEN_OR_IDENTIFIER(130, IMAGE1DSHADOW);
-image2DShadow TOKEN_OR_IDENTIFIER(130, IMAGE2DSHADOW);
-imageBuffer TOKEN_OR_IDENTIFIER(130, IMAGEBUFFER);
-iimageBuffer TOKEN_OR_IDENTIFIER(130, IIMAGEBUFFER);
-uimageBuffer TOKEN_OR_IDENTIFIER(130, UIMAGEBUFFER);
-row_major TOKEN_OR_IDENTIFIER(130, ROW_MAJOR);
+common KEYWORD(130, 999, COMMON);
+partition KEYWORD(130, 999, PARTITION);
+active KEYWORD(130, 999, ACTIVE);
+superp KEYWORD(130 || ES, 999, SUPERP);
+samplerBuffer KEYWORD(130, 140, SAMPLERBUFFER);
+filter KEYWORD(130, 999, FILTER);
+image1D KEYWORD(130, 999, IMAGE1D);
+image2D KEYWORD(130, 999, IMAGE2D);
+image3D KEYWORD(130, 999, IMAGE3D);
+imageCube KEYWORD(130, 999, IMAGECUBE);
+iimage1D KEYWORD(130, 999, IIMAGE1D);
+iimage2D KEYWORD(130, 999, IIMAGE2D);
+iimage3D KEYWORD(130, 999, IIMAGE3D);
+iimageCube KEYWORD(130, 999, IIMAGECUBE);
+uimage1D KEYWORD(130, 999, UIMAGE1D);
+uimage2D KEYWORD(130, 999, UIMAGE2D);
+uimage3D KEYWORD(130, 999, UIMAGE3D);
+uimageCube KEYWORD(130, 999, UIMAGECUBE);
+image1DArray KEYWORD(130, 999, IMAGE1DARRAY);
+image2DArray KEYWORD(130, 999, IMAGE2DARRAY);
+iimage1DArray KEYWORD(130, 999, IIMAGE1DARRAY);
+iimage2DArray KEYWORD(130, 999, IIMAGE2DARRAY);
+uimage1DArray KEYWORD(130, 999, UIMAGE1DARRAY);
+uimage2DArray KEYWORD(130, 999, UIMAGE2DARRAY);
+image1DShadow KEYWORD(130, 999, IMAGE1DSHADOW);
+image2DShadow KEYWORD(130, 999, IMAGE2DSHADOW);
+imageBuffer KEYWORD(130, 999, IMAGEBUFFER);
+iimageBuffer KEYWORD(130, 999, IIMAGEBUFFER);
+uimageBuffer KEYWORD(130, 999, UIMAGEBUFFER);
+row_major KEYWORD(130, 999, ROW_MAJOR);
[_a-zA-Z][_a-zA-Z0-9]* {
struct _mesa_glsl_parse_state *state = yyextra;