%{ /* * Copyright © 2010 Intel Corporation * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #include #include #include #include #include #include "glcpp.h" #include "main/core.h" /* for struct gl_extensions */ #include "main/mtypes.h" /* for gl_api enum */ static void yyerror (YYLTYPE *locp, glcpp_parser_t *parser, const char *error); static void _define_object_macro (glcpp_parser_t *parser, YYLTYPE *loc, const char *macro, token_list_t *replacements); static void _define_function_macro (glcpp_parser_t *parser, YYLTYPE *loc, const char *macro, string_list_t *parameters, token_list_t *replacements); static string_list_t * _string_list_create (void *ctx); static void _string_list_append_item (string_list_t *list, const char *str); static int _string_list_contains (string_list_t *list, const char *member, int *index); static int _string_list_length (string_list_t *list); static int _string_list_equal (string_list_t *a, string_list_t *b); static argument_list_t * _argument_list_create (void *ctx); static void _argument_list_append (argument_list_t *list, token_list_t *argument); static int _argument_list_length (argument_list_t *list); static token_list_t * _argument_list_member_at (argument_list_t *list, int index); /* Note: This function ralloc_steal()s the str pointer. */ static token_t * _token_create_str (void *ctx, int type, char *str); static token_t * _token_create_ival (void *ctx, int type, int ival); static token_list_t * _token_list_create (void *ctx); static void _token_list_append (token_list_t *list, token_t *token); static void _token_list_append_list (token_list_t *list, token_list_t *tail); static int _token_list_equal_ignoring_space (token_list_t *a, token_list_t *b); static void _parser_active_list_push (glcpp_parser_t *parser, const char *identifier, token_node_t *marker); static void _parser_active_list_pop (glcpp_parser_t *parser); static int _parser_active_list_contains (glcpp_parser_t *parser, const char *identifier); /* Expand list, and begin lexing from the result (after first * prefixing a token of type 'head_token_type'). */ static void _glcpp_parser_expand_and_lex_from (glcpp_parser_t *parser, int head_token_type, token_list_t *list); /* Perform macro expansion in-place on the given list. */ static void _glcpp_parser_expand_token_list (glcpp_parser_t *parser, token_list_t *list); static void _glcpp_parser_print_expanded_token_list (glcpp_parser_t *parser, token_list_t *list); static void _glcpp_parser_skip_stack_push_if (glcpp_parser_t *parser, YYLTYPE *loc, int condition); static void _glcpp_parser_skip_stack_change_if (glcpp_parser_t *parser, YYLTYPE *loc, const char *type, int condition); static void _glcpp_parser_skip_stack_pop (glcpp_parser_t *parser, YYLTYPE *loc); static void _glcpp_parser_handle_version_declaration(glcpp_parser_t *parser, intmax_t version, const char *ident, bool explicitly_set); static int glcpp_parser_lex (YYSTYPE *yylval, YYLTYPE *yylloc, glcpp_parser_t *parser); static void glcpp_parser_lex_from (glcpp_parser_t *parser, token_list_t *list); static void add_builtin_define(glcpp_parser_t *parser, const char *name, int value); %} %pure-parser %error-verbose %locations %initial-action { @$.first_line = 1; @$.first_column = 1; @$.last_line = 1; @$.last_column = 1; @$.source = 0; } %parse-param {glcpp_parser_t *parser} %lex-param {glcpp_parser_t *parser} %expect 0 %token COMMA_FINAL DEFINED ELIF_EXPANDED HASH HASH_DEFINE FUNC_IDENTIFIER OBJ_IDENTIFIER HASH_ELIF HASH_ELSE HASH_ENDIF HASH_IF HASH_IFDEF HASH_IFNDEF HASH_LINE HASH_UNDEF HASH_VERSION IDENTIFIER IF_EXPANDED INTEGER INTEGER_STRING LINE_EXPANDED NEWLINE OTHER PLACEHOLDER SPACE %token PASTE %type INTEGER operator SPACE integer_constant %type expression %type IDENTIFIER FUNC_IDENTIFIER OBJ_IDENTIFIER INTEGER_STRING OTHER %type identifier_list %type preprocessing_token conditional_token %type pp_tokens replacement_list text_line conditional_tokens %left OR %left AND %left '|' %left '^' %left '&' %left EQUAL NOT_EQUAL %left '<' '>' LESS_OR_EQUAL GREATER_OR_EQUAL %left LEFT_SHIFT RIGHT_SHIFT %left '+' '-' %left '*' '/' '%' %right UNARY %% input: /* empty */ | input line ; line: control_line { ralloc_asprintf_rewrite_tail (&parser->output, &parser->output_length, "\n"); } | HASH_LINE { glcpp_parser_resolve_implicit_version(parser); } pp_tokens NEWLINE { if (parser->skip_stack == NULL || parser->skip_stack->type == SKIP_NO_SKIP) { _glcpp_parser_expand_and_lex_from (parser, LINE_EXPANDED, $3); } } | text_line { _glcpp_parser_print_expanded_token_list (parser, $1); ralloc_asprintf_rewrite_tail (&parser->output, &parser->output_length, "\n"); ralloc_free ($1); } | expanded_line | HASH non_directive ; expanded_line: IF_EXPANDED expression NEWLINE { if (parser->is_gles && $2.undefined_macro) glcpp_error(& @1, parser, "undefined macro %s in expression (illegal in GLES)", $2.undefined_macro); _glcpp_parser_skip_stack_push_if (parser, & @1, $2.value); } | ELIF_EXPANDED expression NEWLINE { if (parser->is_gles && $2.undefined_macro) glcpp_error(& @1, parser, "undefined macro %s in expression (illegal in GLES)", $2.undefined_macro); _glcpp_parser_skip_stack_change_if (parser, & @1, "elif", $2.value); } | LINE_EXPANDED integer_constant NEWLINE { parser->has_new_line_number = 1; parser->new_line_number = $2; ralloc_asprintf_rewrite_tail (&parser->output, &parser->output_length, "#line %" PRIiMAX "\n", $2); } | LINE_EXPANDED integer_constant integer_constant NEWLINE { parser->has_new_line_number = 1; parser->new_line_number = $2; parser->has_new_source_number = 1; parser->new_source_number = $3; ralloc_asprintf_rewrite_tail (&parser->output, &parser->output_length, "#line %" PRIiMAX " %" PRIiMAX "\n", $2, $3); } ; define: OBJ_IDENTIFIER replacement_list NEWLINE { _define_object_macro (parser, & @1, $1, $2); } | FUNC_IDENTIFIER '(' ')' replacement_list NEWLINE { _define_function_macro (parser, & @1, $1, NULL, $4); } | FUNC_IDENTIFIER '(' identifier_list ')' replacement_list NEWLINE { _define_function_macro (parser, & @1, $1, $3, $5); } ; control_line: HASH_DEFINE { glcpp_parser_resolve_implicit_version(parser); } define | HASH_UNDEF { glcpp_parser_resolve_implicit_version(parser); } IDENTIFIER NEWLINE { macro_t *macro; if (strcmp("__LINE__", $3) == 0 || strcmp("__FILE__", $3) == 0 || strcmp("__VERSION__", $3) == 0) glcpp_error(& @1, parser, "Built-in (pre-defined)" " macro names can not be undefined."); macro = hash_table_find (parser->defines, $3); if (macro) { hash_table_remove (parser->defines, $3); ralloc_free (macro); } ralloc_free ($3); } | HASH_IF { glcpp_parser_resolve_implicit_version(parser); } conditional_tokens NEWLINE { /* Be careful to only evaluate the 'if' expression if * we are not skipping. When we are skipping, we * simply push a new 0-valued 'if' onto the skip * stack. * * This avoids generating diagnostics for invalid * expressions that are being skipped. */ if (parser->skip_stack == NULL || parser->skip_stack->type == SKIP_NO_SKIP) { _glcpp_parser_expand_and_lex_from (parser, IF_EXPANDED, $3); } else { _glcpp_parser_skip_stack_push_if (parser, & @1, 0); parser->skip_stack->type = SKIP_TO_ENDIF; } } | HASH_IF NEWLINE { /* #if without an expression is only an error if we * are not skipping */ if (parser->skip_stack == NULL || parser->skip_stack->type == SKIP_NO_SKIP) { glcpp_error(& @1, parser, "#if with no expression"); } _glcpp_parser_skip_stack_push_if (parser, & @1, 0); } | HASH_IFDEF { glcpp_parser_resolve_implicit_version(parser); } IDENTIFIER junk NEWLINE { macro_t *macro = hash_table_find (parser->defines, $3); ralloc_free ($3); _glcpp_parser_skip_stack_push_if (parser, & @1, macro != NULL); } | HASH_IFNDEF { glcpp_parser_resolve_implicit_version(parser); } IDENTIFIER junk NEWLINE { macro_t *macro = hash_table_find (parser->defines, $3); ralloc_free ($3); _glcpp_parser_skip_stack_push_if (parser, & @2, macro == NULL); } | HASH_ELIF conditional_tokens NEWLINE { /* Be careful to only evaluate the 'elif' expression * if we are not skipping. When we are skipping, we * simply change to a 0-valued 'elif' on the skip * stack. * * This avoids generating diagnostics for invalid * expressions that are being skipped. */ if (parser->skip_stack && parser->skip_stack->type == SKIP_TO_ELSE) { _glcpp_parser_expand_and_lex_from (parser, ELIF_EXPANDED, $2); } else if (parser->skip_stack && parser->skip_stack->has_else) { glcpp_error(& @1, parser, "#elif after #else"); } else { _glcpp_parser_skip_stack_change_if (parser, & @1, "elif", 0); } } | HASH_ELIF NEWLINE { /* #elif without an expression is an error unless we * are skipping. */ if (parser->skip_stack && parser->skip_stack->type == SKIP_TO_ELSE) { glcpp_error(& @1, parser, "#elif with no expression"); } else if (parser->skip_stack && parser->skip_stack->has_else) { glcpp_error(& @1, parser, "#elif after #else"); } else { _glcpp_parser_skip_stack_change_if (parser, & @1, "elif", 0); glcpp_warning(& @1, parser, "ignoring illegal #elif without expression"); } } | HASH_ELSE { parser->lexing_directive = 1; } NEWLINE { if (parser->skip_stack && parser->skip_stack->has_else) { glcpp_error(& @1, parser, "multiple #else"); } else { _glcpp_parser_skip_stack_change_if (parser, & @1, "else", 1); if (parser->skip_stack) parser->skip_stack->has_else = true; } } | HASH_ENDIF { _glcpp_parser_skip_stack_pop (parser, & @1); } NEWLINE | HASH_VERSION integer_constant NEWLINE { if (parser->version_resolved) { glcpp_error(& @1, parser, "#version must appear on the first line"); } _glcpp_parser_handle_version_declaration(parser, $2, NULL, true); } | HASH_VERSION integer_constant IDENTIFIER NEWLINE { if (parser->version_resolved) { glcpp_error(& @1, parser, "#version must appear on the first line"); } _glcpp_parser_handle_version_declaration(parser, $2, $3, true); } | HASH NEWLINE { glcpp_parser_resolve_implicit_version(parser); } ; integer_constant: INTEGER_STRING { if (strlen ($1) >= 3 && strncmp ($1, "0x", 2) == 0) { $$ = strtoll ($1 + 2, NULL, 16); } else if ($1[0] == '0') { $$ = strtoll ($1, NULL, 8); } else { $$ = strtoll ($1, NULL, 10); } } | INTEGER { $$ = $1; } expression: integer_constant { $$.value = $1; $$.undefined_macro = NULL; } | IDENTIFIER { $$.value = 0; if (parser->is_gles) $$.undefined_macro = ralloc_strdup (parser, $1); else $$.undefined_macro = NULL; } | expression OR expression { $$.value = $1.value || $3.value; /* Short-circuit: Only flag undefined from right side * if left side evaluates to false. */ if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else if (! $1.value) $$.undefined_macro = $3.undefined_macro; } | expression AND expression { $$.value = $1.value && $3.value; /* Short-circuit: Only flag undefined from right-side * if left side evaluates to true. */ if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else if ($1.value) $$.undefined_macro = $3.undefined_macro; } | expression '|' expression { $$.value = $1.value | $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression '^' expression { $$.value = $1.value ^ $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression '&' expression { $$.value = $1.value & $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression NOT_EQUAL expression { $$.value = $1.value != $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression EQUAL expression { $$.value = $1.value == $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression GREATER_OR_EQUAL expression { $$.value = $1.value >= $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression LESS_OR_EQUAL expression { $$.value = $1.value <= $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression '>' expression { $$.value = $1.value > $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression '<' expression { $$.value = $1.value < $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression RIGHT_SHIFT expression { $$.value = $1.value >> $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression LEFT_SHIFT expression { $$.value = $1.value << $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression '-' expression { $$.value = $1.value - $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression '+' expression { $$.value = $1.value + $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression '%' expression { if ($3.value == 0) { yyerror (& @1, parser, "zero modulus in preprocessor directive"); } else { $$.value = $1.value % $3.value; } if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression '/' expression { if ($3.value == 0) { yyerror (& @1, parser, "division by 0 in preprocessor directive"); } else { $$.value = $1.value / $3.value; } if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | expression '*' expression { $$.value = $1.value * $3.value; if ($1.undefined_macro) $$.undefined_macro = $1.undefined_macro; else $$.undefined_macro = $3.undefined_macro; } | '!' expression %prec UNARY { $$.value = ! $2.value; $$.undefined_macro = $2.undefined_macro; } | '~' expression %prec UNARY { $$.value = ~ $2.value; $$.undefined_macro = $2.undefined_macro; } | '-' expression %prec UNARY { $$.value = - $2.value; $$.undefined_macro = $2.undefined_macro; } | '+' expression %prec UNARY { $$.value = + $2.value; $$.undefined_macro = $2.undefined_macro; } | '(' expression ')' { $$ = $2; } ; identifier_list: IDENTIFIER { $$ = _string_list_create (parser); _string_list_append_item ($$, $1); ralloc_steal ($$, $1); } | identifier_list ',' IDENTIFIER { $$ = $1; _string_list_append_item ($$, $3); ralloc_steal ($$, $3); } ; text_line: NEWLINE { $$ = NULL; } | pp_tokens NEWLINE ; non_directive: pp_tokens NEWLINE { yyerror (& @1, parser, "Invalid tokens after #"); } ; replacement_list: /* empty */ { $$ = NULL; } | pp_tokens ; junk: /* empty */ | pp_tokens { glcpp_error(&@1, parser, "extra tokens at end of directive"); } ; conditional_token: /* Handle "defined" operator */ DEFINED IDENTIFIER { int v = hash_table_find (parser->defines, $2) ? 1 : 0; $$ = _token_create_ival (parser, INTEGER, v); } | DEFINED '(' IDENTIFIER ')' { int v = hash_table_find (parser->defines, $3) ? 1 : 0; $$ = _token_create_ival (parser, INTEGER, v); } | preprocessing_token ; conditional_tokens: /* Exactly the same as pp_tokens, but using conditional_token */ conditional_token { $$ = _token_list_create (parser); _token_list_append ($$, $1); } | conditional_tokens conditional_token { $$ = $1; _token_list_append ($$, $2); } ; pp_tokens: preprocessing_token { parser->space_tokens = 1; $$ = _token_list_create (parser); _token_list_append ($$, $1); } | pp_tokens preprocessing_token { $$ = $1; _token_list_append ($$, $2); } ; preprocessing_token: IDENTIFIER { $$ = _token_create_str (parser, IDENTIFIER, $1); $$->location = yylloc; } | INTEGER_STRING { $$ = _token_create_str (parser, INTEGER_STRING, $1); $$->location = yylloc; } | operator { $$ = _token_create_ival (parser, $1, $1); $$->location = yylloc; } | OTHER { $$ = _token_create_str (parser, OTHER, $1); $$->location = yylloc; } | SPACE { $$ = _token_create_ival (parser, SPACE, SPACE); $$->location = yylloc; } ; operator: '[' { $$ = '['; } | ']' { $$ = ']'; } | '(' { $$ = '('; } | ')' { $$ = ')'; } | '{' { $$ = '{'; } | '}' { $$ = '}'; } | '.' { $$ = '.'; } | '&' { $$ = '&'; } | '*' { $$ = '*'; } | '+' { $$ = '+'; } | '-' { $$ = '-'; } | '~' { $$ = '~'; } | '!' { $$ = '!'; } | '/' { $$ = '/'; } | '%' { $$ = '%'; } | LEFT_SHIFT { $$ = LEFT_SHIFT; } | RIGHT_SHIFT { $$ = RIGHT_SHIFT; } | '<' { $$ = '<'; } | '>' { $$ = '>'; } | LESS_OR_EQUAL { $$ = LESS_OR_EQUAL; } | GREATER_OR_EQUAL { $$ = GREATER_OR_EQUAL; } | EQUAL { $$ = EQUAL; } | NOT_EQUAL { $$ = NOT_EQUAL; } | '^' { $$ = '^'; } | '|' { $$ = '|'; } | AND { $$ = AND; } | OR { $$ = OR; } | ';' { $$ = ';'; } | ',' { $$ = ','; } | '=' { $$ = '='; } | PASTE { $$ = PASTE; } ; %% string_list_t * _string_list_create (void *ctx) { string_list_t *list; list = ralloc (ctx, string_list_t); list->head = NULL; list->tail = NULL; return list; } void _string_list_append_item (string_list_t *list, const char *str) { string_node_t *node; node = ralloc (list, string_node_t); node->str = ralloc_strdup (node, str); node->next = NULL; if (list->head == NULL) { list->head = node; } else { list->tail->next = node; } list->tail = node; } int _string_list_contains (string_list_t *list, const char *member, int *index) { string_node_t *node; int i; if (list == NULL) return 0; for (i = 0, node = list->head; node; i++, node = node->next) { if (strcmp (node->str, member) == 0) { if (index) *index = i; return 1; } } return 0; } int _string_list_length (string_list_t *list) { int length = 0; string_node_t *node; if (list == NULL) return 0; for (node = list->head; node; node = node->next) length++; return length; } int _string_list_equal (string_list_t *a, string_list_t *b) { string_node_t *node_a, *node_b; if (a == NULL && b == NULL) return 1; if (a == NULL || b == NULL) return 0; for (node_a = a->head, node_b = b->head; node_a && node_b; node_a = node_a->next, node_b = node_b->next) { if (strcmp (node_a->str, node_b->str)) return 0; } /* Catch the case of lists being different lengths, (which * would cause the loop above to terminate after the shorter * list). */ return node_a == node_b; } argument_list_t * _argument_list_create (void *ctx) { argument_list_t *list; list = ralloc (ctx, argument_list_t); list->head = NULL; list->tail = NULL; return list; } void _argument_list_append (argument_list_t *list, token_list_t *argument) { argument_node_t *node; node = ralloc (list, argument_node_t); node->argument = argument; node->next = NULL; if (list->head == NULL) { list->head = node; } else { list->tail->next = node; } list->tail = node; } int _argument_list_length (argument_list_t *list) { int length = 0; argument_node_t *node; if (list == NULL) return 0; for (node = list->head; node; node = node->next) length++; return length; } token_list_t * _argument_list_member_at (argument_list_t *list, int index) { argument_node_t *node; int i; if (list == NULL) return NULL; node = list->head; for (i = 0; i < index; i++) { node = node->next; if (node == NULL) break; } if (node) return node->argument; return NULL; } /* Note: This function ralloc_steal()s the str pointer. */ token_t * _token_create_str (void *ctx, int type, char *str) { token_t *token; token = ralloc (ctx, token_t); token->type = type; token->value.str = str; ralloc_steal (token, str); return token; } token_t * _token_create_ival (void *ctx, int type, int ival) { token_t *token; token = ralloc (ctx, token_t); token->type = type; token->value.ival = ival; return token; } token_list_t * _token_list_create (void *ctx) { token_list_t *list; list = ralloc (ctx, token_list_t); list->head = NULL; list->tail = NULL; list->non_space_tail = NULL; return list; } void _token_list_append (token_list_t *list, token_t *token) { token_node_t *node; node = ralloc (list, token_node_t); node->token = token; node->next = NULL; if (list->head == NULL) { list->head = node; } else { list->tail->next = node; } list->tail = node; if (token->type != SPACE) list->non_space_tail = node; } void _token_list_append_list (token_list_t *list, token_list_t *tail) { if (tail == NULL || tail->head == NULL) return; if (list->head == NULL) { list->head = tail->head; } else { list->tail->next = tail->head; } list->tail = tail->tail; list->non_space_tail = tail->non_space_tail; } static token_list_t * _token_list_copy (void *ctx, token_list_t *other) { token_list_t *copy; token_node_t *node; if (other == NULL) return NULL; copy = _token_list_create (ctx); for (node = other->head; node; node = node->next) { token_t *new_token = ralloc (copy, token_t); *new_token = *node->token; _token_list_append (copy, new_token); } return copy; } static void _token_list_trim_trailing_space (token_list_t *list) { token_node_t *tail, *next; if (list->non_space_tail) { tail = list->non_space_tail->next; list->non_space_tail->next = NULL; list->tail = list->non_space_tail; while (tail) { next = tail->next; ralloc_free (tail); tail = next; } } } static int _token_list_is_empty_ignoring_space (token_list_t *l) { token_node_t *n; if (l == NULL) return 1; n = l->head; while (n != NULL && n->token->type == SPACE) n = n->next; return n == NULL; } int _token_list_equal_ignoring_space (token_list_t *a, token_list_t *b) { token_node_t *node_a, *node_b; if (a == NULL || b == NULL) { int a_empty = _token_list_is_empty_ignoring_space(a); int b_empty = _token_list_is_empty_ignoring_space(b); return a_empty == b_empty; } node_a = a->head; node_b = b->head; while (1) { if (node_a == NULL && node_b == NULL) break; if (node_a == NULL || node_b == NULL) return 0; /* Make sure whitespace appears in the same places in both. * It need not be exactly the same amount of whitespace, * though. */ if (node_a->token->type == SPACE && node_b->token->type == SPACE) { while (node_a->token->type == SPACE) node_a = node_a->next; while (node_b->token->type == SPACE) node_b = node_b->next; continue; } if (node_a->token->type != node_b->token->type) return 0; switch (node_a->token->type) { case INTEGER: if (node_a->token->value.ival != node_b->token->value.ival) { return 0; } break; case IDENTIFIER: case INTEGER_STRING: case OTHER: if (strcmp (node_a->token->value.str, node_b->token->value.str)) { return 0; } break; } node_a = node_a->next; node_b = node_b->next; } return 1; } static void _token_print (char **out, size_t *len, token_t *token) { if (token->type < 256) { ralloc_asprintf_rewrite_tail (out, len, "%c", token->type); return; } switch (token->type) { case INTEGER: ralloc_asprintf_rewrite_tail (out, len, "%" PRIiMAX, token->value.ival); break; case IDENTIFIER: case INTEGER_STRING: case OTHER: ralloc_asprintf_rewrite_tail (out, len, "%s", token->value.str); break; case SPACE: ralloc_asprintf_rewrite_tail (out, len, " "); break; case LEFT_SHIFT: ralloc_asprintf_rewrite_tail (out, len, "<<"); break; case RIGHT_SHIFT: ralloc_asprintf_rewrite_tail (out, len, ">>"); break; case LESS_OR_EQUAL: ralloc_asprintf_rewrite_tail (out, len, "<="); break; case GREATER_OR_EQUAL: ralloc_asprintf_rewrite_tail (out, len, ">="); break; case EQUAL: ralloc_asprintf_rewrite_tail (out, len, "=="); break; case NOT_EQUAL: ralloc_asprintf_rewrite_tail (out, len, "!="); break; case AND: ralloc_asprintf_rewrite_tail (out, len, "&&"); break; case OR: ralloc_asprintf_rewrite_tail (out, len, "||"); break; case PASTE: ralloc_asprintf_rewrite_tail (out, len, "##"); break; case COMMA_FINAL: ralloc_asprintf_rewrite_tail (out, len, ","); break; case PLACEHOLDER: /* Nothing to print. */ break; default: assert(!"Error: Don't know how to print token."); break; } } /* Return a new token (ralloc()ed off of 'token') formed by pasting * 'token' and 'other'. Note that this function may return 'token' or * 'other' directly rather than allocating anything new. * * Caution: Only very cursory error-checking is performed to see if * the final result is a valid single token. */ static token_t * _token_paste (glcpp_parser_t *parser, token_t *token, token_t *other) { token_t *combined = NULL; /* Pasting a placeholder onto anything makes no change. */ if (other->type == PLACEHOLDER) return token; /* When 'token' is a placeholder, just return 'other'. */ if (token->type == PLACEHOLDER) return other; /* A very few single-character punctuators can be combined * with another to form a multi-character punctuator. */ switch (token->type) { case '<': if (other->type == '<') combined = _token_create_ival (token, LEFT_SHIFT, LEFT_SHIFT); else if (other->type == '=') combined = _token_create_ival (token, LESS_OR_EQUAL, LESS_OR_EQUAL); break; case '>': if (other->type == '>') combined = _token_create_ival (token, RIGHT_SHIFT, RIGHT_SHIFT); else if (other->type == '=') combined = _token_create_ival (token, GREATER_OR_EQUAL, GREATER_OR_EQUAL); break; case '=': if (other->type == '=') combined = _token_create_ival (token, EQUAL, EQUAL); break; case '!': if (other->type == '=') combined = _token_create_ival (token, NOT_EQUAL, NOT_EQUAL); break; case '&': if (other->type == '&') combined = _token_create_ival (token, AND, AND); break; case '|': if (other->type == '|') combined = _token_create_ival (token, OR, OR); break; } if (combined != NULL) { /* Inherit the location from the first token */ combined->location = token->location; return combined; } /* Two string-valued (or integer) tokens can usually just be * mashed together. (We also handle a string followed by an * integer here as well.) * * There are some exceptions here. Notably, if the first token * is an integer (or a string representing an integer), then * the second token must also be an integer or must be a * string representing an integer that begins with a digit. */ if ((token->type == IDENTIFIER || token->type == OTHER || token->type == INTEGER_STRING || token->type == INTEGER) && (other->type == IDENTIFIER || other->type == OTHER || other->type == INTEGER_STRING || other->type == INTEGER)) { char *str; int combined_type; /* Check that pasting onto an integer doesn't create a * non-integer, (that is, only digits can be * pasted. */ if (token->type == INTEGER_STRING || token->type == INTEGER) { switch (other->type) { case INTEGER_STRING: if (other->value.str[0] < '0' || other->value.str[0] > '9') goto FAIL; break; case INTEGER: if (other->value.ival < 0) goto FAIL; break; default: goto FAIL; } } if (token->type == INTEGER) str = ralloc_asprintf (token, "%" PRIiMAX, token->value.ival); else str = ralloc_strdup (token, token->value.str); if (other->type == INTEGER) ralloc_asprintf_append (&str, "%" PRIiMAX, other->value.ival); else ralloc_strcat (&str, other->value.str); /* New token is same type as original token, unless we * started with an integer, in which case we will be * creating an integer-string. */ combined_type = token->type; if (combined_type == INTEGER) combined_type = INTEGER_STRING; combined = _token_create_str (token, combined_type, str); combined->location = token->location; return combined; } FAIL: glcpp_error (&token->location, parser, ""); ralloc_asprintf_rewrite_tail (&parser->info_log, &parser->info_log_length, "Pasting \""); _token_print (&parser->info_log, &parser->info_log_length, token); ralloc_asprintf_rewrite_tail (&parser->info_log, &parser->info_log_length, "\" and \""); _token_print (&parser->info_log, &parser->info_log_length, other); ralloc_asprintf_rewrite_tail (&parser->info_log, &parser->info_log_length, "\" does not give a valid preprocessing token.\n"); return token; } static void _token_list_print (glcpp_parser_t *parser, token_list_t *list) { token_node_t *node; if (list == NULL) return; for (node = list->head; node; node = node->next) _token_print (&parser->output, &parser->output_length, node->token); } void yyerror (YYLTYPE *locp, glcpp_parser_t *parser, const char *error) { glcpp_error(locp, parser, "%s", error); } static void add_builtin_define(glcpp_parser_t *parser, const char *name, int value) { token_t *tok; token_list_t *list; tok = _token_create_ival (parser, INTEGER, value); list = _token_list_create(parser); _token_list_append(list, tok); _define_object_macro(parser, NULL, name, list); } glcpp_parser_t * glcpp_parser_create (const struct gl_extensions *extensions, gl_api api) { glcpp_parser_t *parser; parser = ralloc (NULL, glcpp_parser_t); glcpp_lex_init_extra (parser, &parser->scanner); parser->defines = hash_table_ctor (32, hash_table_string_hash, hash_table_string_compare); parser->active = NULL; parser->lexing_directive = 0; parser->space_tokens = 1; parser->last_token_was_newline = 0; parser->newline_as_space = 0; parser->in_control_line = 0; parser->paren_count = 0; parser->commented_newlines = 0; parser->skip_stack = NULL; parser->lex_from_list = NULL; parser->lex_from_node = NULL; parser->output = ralloc_strdup(parser, ""); parser->output_length = 0; parser->info_log = ralloc_strdup(parser, ""); parser->info_log_length = 0; parser->error = 0; parser->extensions = extensions; parser->api = api; parser->version_resolved = false; parser->has_new_line_number = 0; parser->new_line_number = 1; parser->has_new_source_number = 0; parser->new_source_number = 0; return parser; } void glcpp_parser_destroy (glcpp_parser_t *parser) { glcpp_lex_destroy (parser->scanner); hash_table_dtor (parser->defines); ralloc_free (parser); } typedef enum function_status { FUNCTION_STATUS_SUCCESS, FUNCTION_NOT_A_FUNCTION, FUNCTION_UNBALANCED_PARENTHESES } function_status_t; /* Find a set of function-like macro arguments by looking for a * balanced set of parentheses. * * When called, 'node' should be the opening-parenthesis token, (or * perhaps preceeding SPACE tokens). Upon successful return *last will * be the last consumed node, (corresponding to the closing right * parenthesis). * * Return values: * * FUNCTION_STATUS_SUCCESS: * * Successfully parsed a set of function arguments. * * FUNCTION_NOT_A_FUNCTION: * * Macro name not followed by a '('. This is not an error, but * simply that the macro name should be treated as a non-macro. * * FUNCTION_UNBALANCED_PARENTHESES * * Macro name is not followed by a balanced set of parentheses. */ static function_status_t _arguments_parse (argument_list_t *arguments, token_node_t *node, token_node_t **last) { token_list_t *argument; int paren_count; node = node->next; /* Ignore whitespace before first parenthesis. */ while (node && node->token->type == SPACE) node = node->next; if (node == NULL || node->token->type != '(') return FUNCTION_NOT_A_FUNCTION; node = node->next; argument = _token_list_create (arguments); _argument_list_append (arguments, argument); for (paren_count = 1; node; node = node->next) { if (node->token->type == '(') { paren_count++; } else if (node->token->type == ')') { paren_count--; if (paren_count == 0) break; } if (node->token->type == ',' && paren_count == 1) { _token_list_trim_trailing_space (argument); argument = _token_list_create (arguments); _argument_list_append (arguments, argument); } else { if (argument->head == NULL) { /* Don't treat initial whitespace as * part of the arguement. */ if (node->token->type == SPACE) continue; } _token_list_append (argument, node->token); } } if (paren_count) return FUNCTION_UNBALANCED_PARENTHESES; *last = node; return FUNCTION_STATUS_SUCCESS; } static token_list_t * _token_list_create_with_one_ival (void *ctx, int type, int ival) { token_list_t *list; token_t *node; list = _token_list_create (ctx); node = _token_create_ival (list, type, ival); _token_list_append (list, node); return list; } static token_list_t * _token_list_create_with_one_space (void *ctx) { return _token_list_create_with_one_ival (ctx, SPACE, SPACE); } static token_list_t * _token_list_create_with_one_integer (void *ctx, int ival) { return _token_list_create_with_one_ival (ctx, INTEGER, ival); } /* Perform macro expansion on 'list', placing the resulting tokens * into a new list which is initialized with a first token of type * 'head_token_type'. Then begin lexing from the resulting list, * (return to the current lexing source when this list is exhausted). */ static void _glcpp_parser_expand_and_lex_from (glcpp_parser_t *parser, int head_token_type, token_list_t *list) { token_list_t *expanded; token_t *token; expanded = _token_list_create (parser); token = _token_create_ival (parser, head_token_type, head_token_type); _token_list_append (expanded, token); _glcpp_parser_expand_token_list (parser, list); _token_list_append_list (expanded, list); glcpp_parser_lex_from (parser, expanded); } static void _glcpp_parser_apply_pastes (glcpp_parser_t *parser, token_list_t *list) { token_node_t *node; node = list->head; while (node) { token_node_t *next_non_space; /* Look ahead for a PASTE token, skipping space. */ next_non_space = node->next; while (next_non_space && next_non_space->token->type == SPACE) next_non_space = next_non_space->next; if (next_non_space == NULL) break; if (next_non_space->token->type != PASTE) { node = next_non_space; continue; } /* Now find the next non-space token after the PASTE. */ next_non_space = next_non_space->next; while (next_non_space && next_non_space->token->type == SPACE) next_non_space = next_non_space->next; if (next_non_space == NULL) { yyerror (&node->token->location, parser, "'##' cannot appear at either end of a macro expansion\n"); return; } node->token = _token_paste (parser, node->token, next_non_space->token); node->next = next_non_space->next; if (next_non_space == list->tail) list->tail = node; } list->non_space_tail = list->tail; } /* This is a helper function that's essentially part of the * implementation of _glcpp_parser_expand_node. It shouldn't be called * except for by that function. * * Returns NULL if node is a simple token with no expansion, (that is, * although 'node' corresponds to an identifier defined as a * function-like macro, it is not followed with a parenthesized * argument list). * * Compute the complete expansion of node (which is a function-like * macro) and subsequent nodes which are arguments. * * Returns the token list that results from the expansion and sets * *last to the last node in the list that was consumed by the * expansion. Specifically, *last will be set as follows: as the * token of the closing right parenthesis. */ static token_list_t * _glcpp_parser_expand_function (glcpp_parser_t *parser, token_node_t *node, token_node_t **last) { macro_t *macro; const char *identifier; argument_list_t *arguments; function_status_t status; token_list_t *substituted; int parameter_index; identifier = node->token->value.str; macro = hash_table_find (parser->defines, identifier); assert (macro->is_function); arguments = _argument_list_create (parser); status = _arguments_parse (arguments, node, last); switch (status) { case FUNCTION_STATUS_SUCCESS: break; case FUNCTION_NOT_A_FUNCTION: return NULL; case FUNCTION_UNBALANCED_PARENTHESES: glcpp_error (&node->token->location, parser, "Macro %s call has unbalanced parentheses\n", identifier); return NULL; } /* Replace a macro defined as empty with a SPACE token. */ if (macro->replacements == NULL) { ralloc_free (arguments); return _token_list_create_with_one_space (parser); } if (! ((_argument_list_length (arguments) == _string_list_length (macro->parameters)) || (_string_list_length (macro->parameters) == 0 && _argument_list_length (arguments) == 1 && arguments->head->argument->head == NULL))) { glcpp_error (&node->token->location, parser, "Error: macro %s invoked with %d arguments (expected %d)\n", identifier, _argument_list_length (arguments), _string_list_length (macro->parameters)); return NULL; } /* Perform argument substitution on the replacement list. */ substituted = _token_list_create (arguments); for (node = macro->replacements->head; node; node = node->next) { if (node->token->type == IDENTIFIER && _string_list_contains (macro->parameters, node->token->value.str, ¶meter_index)) { token_list_t *argument; argument = _argument_list_member_at (arguments, parameter_index); /* Before substituting, we expand the argument * tokens, or append a placeholder token for * an empty argument. */ if (argument->head) { token_list_t *expanded_argument; expanded_argument = _token_list_copy (parser, argument); _glcpp_parser_expand_token_list (parser, expanded_argument); _token_list_append_list (substituted, expanded_argument); } else { token_t *new_token; new_token = _token_create_ival (substituted, PLACEHOLDER, PLACEHOLDER); _token_list_append (substituted, new_token); } } else { _token_list_append (substituted, node->token); } } /* After argument substitution, and before further expansion * below, implement token pasting. */ _token_list_trim_trailing_space (substituted); _glcpp_parser_apply_pastes (parser, substituted); return substituted; } /* Compute the complete expansion of node, (and subsequent nodes after * 'node' in the case that 'node' is a function-like macro and * subsequent nodes are arguments). * * Returns NULL if node is a simple token with no expansion. * * Otherwise, returns the token list that results from the expansion * and sets *last to the last node in the list that was consumed by * the expansion. Specifically, *last will be set as follows: * * As 'node' in the case of object-like macro expansion. * * As the token of the closing right parenthesis in the case of * function-like macro expansion. */ static token_list_t * _glcpp_parser_expand_node (glcpp_parser_t *parser, token_node_t *node, token_node_t **last) { token_t *token = node->token; const char *identifier; macro_t *macro; /* We only expand identifiers */ if (token->type != IDENTIFIER) { /* We change any COMMA into a COMMA_FINAL to prevent * it being mistaken for an argument separator * later. */ if (token->type == ',') { token->type = COMMA_FINAL; token->value.ival = COMMA_FINAL; } return NULL; } *last = node; identifier = token->value.str; /* Special handling for __LINE__ and __FILE__, (not through * the hash table). */ if (strcmp(identifier, "__LINE__") == 0) return _token_list_create_with_one_integer (parser, node->token->location.first_line); if (strcmp(identifier, "__FILE__") == 0) return _token_list_create_with_one_integer (parser, node->token->location.source); /* Look up this identifier in the hash table. */ macro = hash_table_find (parser->defines, identifier); /* Not a macro, so no expansion needed. */ if (macro == NULL) return NULL; /* Finally, don't expand this macro if we're already actively * expanding it, (to avoid infinite recursion). */ if (_parser_active_list_contains (parser, identifier)) { /* We change the token type here from IDENTIFIER to * OTHER to prevent any future expansion of this * unexpanded token. */ char *str; token_list_t *expansion; token_t *final; str = ralloc_strdup (parser, token->value.str); final = _token_create_str (parser, OTHER, str); expansion = _token_list_create (parser); _token_list_append (expansion, final); return expansion; } if (! macro->is_function) { token_list_t *replacement; /* Replace a macro defined as empty with a SPACE token. */ if (macro->replacements == NULL) return _token_list_create_with_one_space (parser); replacement = _token_list_copy (parser, macro->replacements); _glcpp_parser_apply_pastes (parser, replacement); return replacement; } return _glcpp_parser_expand_function (parser, node, last); } /* Push a new identifier onto the parser's active list. * * Here, 'marker' is the token node that appears in the list after the * expansion of 'identifier'. That is, when the list iterator begins * examining 'marker', then it is time to pop this node from the * active stack. */ static void _parser_active_list_push (glcpp_parser_t *parser, const char *identifier, token_node_t *marker) { active_list_t *node; node = ralloc (parser->active, active_list_t); node->identifier = ralloc_strdup (node, identifier); node->marker = marker; node->next = parser->active; parser->active = node; } static void _parser_active_list_pop (glcpp_parser_t *parser) { active_list_t *node = parser->active; if (node == NULL) { parser->active = NULL; return; } node = parser->active->next; ralloc_free (parser->active); parser->active = node; } static int _parser_active_list_contains (glcpp_parser_t *parser, const char *identifier) { active_list_t *node; if (parser->active == NULL) return 0; for (node = parser->active; node; node = node->next) if (strcmp (node->identifier, identifier) == 0) return 1; return 0; } /* Walk over the token list replacing nodes with their expansion. * Whenever nodes are expanded the walking will walk over the new * nodes, continuing to expand as necessary. The results are placed in * 'list' itself; */ static void _glcpp_parser_expand_token_list (glcpp_parser_t *parser, token_list_t *list) { token_node_t *node_prev; token_node_t *node, *last = NULL; token_list_t *expansion; active_list_t *active_initial = parser->active; if (list == NULL) return; _token_list_trim_trailing_space (list); node_prev = NULL; node = list->head; while (node) { while (parser->active && parser->active->marker == node) _parser_active_list_pop (parser); expansion = _glcpp_parser_expand_node (parser, node, &last); if (expansion) { token_node_t *n; for (n = node; n != last->next; n = n->next) while (parser->active && parser->active->marker == n) { _parser_active_list_pop (parser); } _parser_active_list_push (parser, node->token->value.str, last->next); /* Splice expansion into list, supporting a * simple deletion if the expansion is * empty. */ if (expansion->head) { if (node_prev) node_prev->next = expansion->head; else list->head = expansion->head; expansion->tail->next = last->next; if (last == list->tail) list->tail = expansion->tail; } else { if (node_prev) node_prev->next = last->next; else list->head = last->next; if (last == list->tail) list->tail = NULL; } } else { node_prev = node; } node = node_prev ? node_prev->next : list->head; } /* Remove any lingering effects of this invocation on the * active list. That is, pop until the list looks like it did * at the beginning of this function. */ while (parser->active && parser->active != active_initial) _parser_active_list_pop (parser); list->non_space_tail = list->tail; } void _glcpp_parser_print_expanded_token_list (glcpp_parser_t *parser, token_list_t *list) { if (list == NULL) return; _glcpp_parser_expand_token_list (parser, list); _token_list_trim_trailing_space (list); _token_list_print (parser, list); } static void _check_for_reserved_macro_name (glcpp_parser_t *parser, YYLTYPE *loc, const char *identifier) { /* Section 3.3 (Preprocessor) of the GLSL 1.30 spec (and later) and * the GLSL ES spec (all versions) say: * * "All macro names containing two consecutive underscores ( __ ) * are reserved for future use as predefined macro names. All * macro names prefixed with "GL_" ("GL" followed by a single * underscore) are also reserved." * * The intention is that names containing __ are reserved for internal * use by the implementation, and names prefixed with GL_ are reserved * for use by Khronos. Since every extension adds a name prefixed * with GL_ (i.e., the name of the extension), that should be an * error. Names simply containing __ are dangerous to use, but should * be allowed. * * A future version of the GLSL specification will clarify this. */ if (strstr(identifier, "__")) { glcpp_warning(loc, parser, "Macro names containing \"__\" are reserved " "for use by the implementation.\n"); } if (strncmp(identifier, "GL_", 3) == 0) { glcpp_error (loc, parser, "Macro names starting with \"GL_\" are reserved.\n"); } } static int _macro_equal (macro_t *a, macro_t *b) { if (a->is_function != b->is_function) return 0; if (a->is_function) { if (! _string_list_equal (a->parameters, b->parameters)) return 0; } return _token_list_equal_ignoring_space (a->replacements, b->replacements); } void _define_object_macro (glcpp_parser_t *parser, YYLTYPE *loc, const char *identifier, token_list_t *replacements) { macro_t *macro, *previous; if (loc != NULL) _check_for_reserved_macro_name(parser, loc, identifier); macro = ralloc (parser, macro_t); macro->is_function = 0; macro->parameters = NULL; macro->identifier = ralloc_strdup (macro, identifier); macro->replacements = replacements; ralloc_steal (macro, replacements); previous = hash_table_find (parser->defines, identifier); if (previous) { if (_macro_equal (macro, previous)) { ralloc_free (macro); return; } glcpp_error (loc, parser, "Redefinition of macro %s\n", identifier); } hash_table_insert (parser->defines, macro, identifier); } void _define_function_macro (glcpp_parser_t *parser, YYLTYPE *loc, const char *identifier, string_list_t *parameters, token_list_t *replacements) { macro_t *macro, *previous; _check_for_reserved_macro_name(parser, loc, identifier); macro = ralloc (parser, macro_t); ralloc_steal (macro, parameters); ralloc_steal (macro, replacements); macro->is_function = 1; macro->parameters = parameters; macro->identifier = ralloc_strdup (macro, identifier); macro->replacements = replacements; previous = hash_table_find (parser->defines, identifier); if (previous) { if (_macro_equal (macro, previous)) { ralloc_free (macro); return; } glcpp_error (loc, parser, "Redefinition of macro %s\n", identifier); } hash_table_insert (parser->defines, macro, identifier); } static int glcpp_parser_lex (YYSTYPE *yylval, YYLTYPE *yylloc, glcpp_parser_t *parser) { token_node_t *node; int ret; if (parser->lex_from_list == NULL) { ret = glcpp_lex (yylval, yylloc, parser->scanner); /* XXX: This ugly block of code exists for the sole * purpose of converting a NEWLINE token into a SPACE * token, but only in the case where we have seen a * function-like macro name, but have not yet seen its * closing parenthesis. * * There's perhaps a more compact way to do this with * mid-rule actions in the grammar. * * I'm definitely not pleased with the complexity of * this code here. */ if (parser->newline_as_space) { if (ret == '(') { parser->paren_count++; } else if (ret == ')') { parser->paren_count--; if (parser->paren_count == 0) parser->newline_as_space = 0; } else if (ret == NEWLINE) { ret = SPACE; } else if (ret != SPACE) { if (parser->paren_count == 0) parser->newline_as_space = 0; } } else if (parser->in_control_line) { if (ret == NEWLINE) parser->in_control_line = 0; } else if (ret == HASH_DEFINE || ret == HASH_UNDEF || ret == HASH_IF || ret == HASH_IFDEF || ret == HASH_IFNDEF || ret == HASH_ELIF || ret == HASH_ELSE || ret == HASH_ENDIF || ret == HASH) { parser->in_control_line = 1; } else if (ret == IDENTIFIER) { macro_t *macro; macro = hash_table_find (parser->defines, yylval->str); if (macro && macro->is_function) { parser->newline_as_space = 1; parser->paren_count = 0; } } return ret; } node = parser->lex_from_node; if (node == NULL) { ralloc_free (parser->lex_from_list); parser->lex_from_list = NULL; return NEWLINE; } *yylval = node->token->value; ret = node->token->type; parser->lex_from_node = node->next; return ret; } static void glcpp_parser_lex_from (glcpp_parser_t *parser, token_list_t *list) { token_node_t *node; assert (parser->lex_from_list == NULL); /* Copy list, eliminating any space tokens. */ parser->lex_from_list = _token_list_create (parser); for (node = list->head; node; node = node->next) { if (node->token->type == SPACE) continue; _token_list_append (parser->lex_from_list, node->token); } ralloc_free (list); parser->lex_from_node = parser->lex_from_list->head; /* It's possible the list consisted of nothing but whitespace. */ if (parser->lex_from_node == NULL) { ralloc_free (parser->lex_from_list); parser->lex_from_list = NULL; } } static void _glcpp_parser_skip_stack_push_if (glcpp_parser_t *parser, YYLTYPE *loc, int condition) { skip_type_t current = SKIP_NO_SKIP; skip_node_t *node; if (parser->skip_stack) current = parser->skip_stack->type; node = ralloc (parser, skip_node_t); node->loc = *loc; if (current == SKIP_NO_SKIP) { if (condition) node->type = SKIP_NO_SKIP; else node->type = SKIP_TO_ELSE; } else { node->type = SKIP_TO_ENDIF; } node->has_else = false; node->next = parser->skip_stack; parser->skip_stack = node; } static void _glcpp_parser_skip_stack_change_if (glcpp_parser_t *parser, YYLTYPE *loc, const char *type, int condition) { if (parser->skip_stack == NULL) { glcpp_error (loc, parser, "%s without #if\n", type); return; } if (parser->skip_stack->type == SKIP_TO_ELSE) { if (condition) parser->skip_stack->type = SKIP_NO_SKIP; } else { parser->skip_stack->type = SKIP_TO_ENDIF; } } static void _glcpp_parser_skip_stack_pop (glcpp_parser_t *parser, YYLTYPE *loc) { skip_node_t *node; if (parser->skip_stack == NULL) { glcpp_error (loc, parser, "#endif without #if\n"); return; } node = parser->skip_stack; parser->skip_stack = node->next; ralloc_free (node); } static void _glcpp_parser_handle_version_declaration(glcpp_parser_t *parser, intmax_t version, const char *es_identifier, bool explicitly_set) { const struct gl_extensions *extensions = parser->extensions; if (parser->version_resolved) return; parser->version_resolved = true; add_builtin_define (parser, "__VERSION__", version); parser->is_gles = (version == 100) || (es_identifier && (strcmp(es_identifier, "es") == 0)); /* Add pre-defined macros. */ if (parser->is_gles) { add_builtin_define(parser, "GL_ES", 1); add_builtin_define(parser, "GL_EXT_separate_shader_objects", 1); if (extensions != NULL) { if (extensions->OES_EGL_image_external) add_builtin_define(parser, "GL_OES_EGL_image_external", 1); } } else { add_builtin_define(parser, "GL_ARB_draw_buffers", 1); add_builtin_define(parser, "GL_ARB_separate_shader_objects", 1); add_builtin_define(parser, "GL_ARB_texture_rectangle", 1); add_builtin_define(parser, "GL_AMD_shader_trinary_minmax", 1); if (extensions != NULL) { if (extensions->EXT_texture_array) add_builtin_define(parser, "GL_EXT_texture_array", 1); if (extensions->ARB_arrays_of_arrays) add_builtin_define(parser, "GL_ARB_arrays_of_arrays", 1); if (extensions->ARB_fragment_coord_conventions) add_builtin_define(parser, "GL_ARB_fragment_coord_conventions", 1); if (extensions->ARB_fragment_layer_viewport) add_builtin_define(parser, "GL_ARB_fragment_layer_viewport", 1); if (extensions->ARB_explicit_attrib_location) add_builtin_define(parser, "GL_ARB_explicit_attrib_location", 1); if (extensions->ARB_explicit_uniform_location) add_builtin_define(parser, "GL_ARB_explicit_uniform_location", 1); if (extensions->ARB_shader_texture_lod) add_builtin_define(parser, "GL_ARB_shader_texture_lod", 1); if (extensions->ARB_draw_instanced) add_builtin_define(parser, "GL_ARB_draw_instanced", 1); if (extensions->ARB_conservative_depth) { add_builtin_define(parser, "GL_AMD_conservative_depth", 1); add_builtin_define(parser, "GL_ARB_conservative_depth", 1); } if (extensions->ARB_shader_bit_encoding) add_builtin_define(parser, "GL_ARB_shader_bit_encoding", 1); if (extensions->ARB_uniform_buffer_object) add_builtin_define(parser, "GL_ARB_uniform_buffer_object", 1); if (extensions->ARB_texture_cube_map_array) add_builtin_define(parser, "GL_ARB_texture_cube_map_array", 1); if (extensions->ARB_shading_language_packing) add_builtin_define(parser, "GL_ARB_shading_language_packing", 1); if (extensions->ARB_texture_multisample) add_builtin_define(parser, "GL_ARB_texture_multisample", 1); if (extensions->ARB_texture_query_levels) add_builtin_define(parser, "GL_ARB_texture_query_levels", 1); if (extensions->ARB_texture_query_lod) add_builtin_define(parser, "GL_ARB_texture_query_lod", 1); if (extensions->ARB_gpu_shader5) add_builtin_define(parser, "GL_ARB_gpu_shader5", 1); if (extensions->AMD_vertex_shader_layer) add_builtin_define(parser, "GL_AMD_vertex_shader_layer", 1); if (extensions->AMD_vertex_shader_viewport_index) add_builtin_define(parser, "GL_AMD_vertex_shader_viewport_index", 1); if (extensions->ARB_shading_language_420pack) add_builtin_define(parser, "GL_ARB_shading_language_420pack", 1); if (extensions->ARB_sample_shading) add_builtin_define(parser, "GL_ARB_sample_shading", 1); if (extensions->ARB_texture_gather) add_builtin_define(parser, "GL_ARB_texture_gather", 1); if (extensions->ARB_shader_atomic_counters) add_builtin_define(parser, "GL_ARB_shader_atomic_counters", 1); if (extensions->ARB_viewport_array) add_builtin_define(parser, "GL_ARB_viewport_array", 1); if (extensions->ARB_compute_shader) add_builtin_define(parser, "GL_ARB_compute_shader", 1); if (extensions->ARB_shader_image_load_store) add_builtin_define(parser, "GL_ARB_shader_image_load_store", 1); } } if (extensions != NULL) { if (extensions->EXT_shader_integer_mix) add_builtin_define(parser, "GL_EXT_shader_integer_mix", 1); } if (version >= 150) add_builtin_define(parser, "GL_core_profile", 1); /* Currently, all ES2/ES3 implementations support highp in the * fragment shader, so we always define this macro in ES2/ES3. * If we ever get a driver that doesn't support highp, we'll * need to add a flag to the gl_context and check that here. */ if (version >= 130 || parser->is_gles) add_builtin_define (parser, "GL_FRAGMENT_PRECISION_HIGH", 1); if (explicitly_set) { ralloc_asprintf_rewrite_tail (&parser->output, &parser->output_length, "#version %" PRIiMAX "%s%s", version, es_identifier ? " " : "", es_identifier ? es_identifier : ""); } } /* GLSL version if no version is explicitly specified. */ #define IMPLICIT_GLSL_VERSION 110 /* GLSL ES version if no version is explicitly specified. */ #define IMPLICIT_GLSL_ES_VERSION 100 void glcpp_parser_resolve_implicit_version(glcpp_parser_t *parser) { int language_version = parser->api == API_OPENGLES2 ? IMPLICIT_GLSL_ES_VERSION : IMPLICIT_GLSL_VERSION; _glcpp_parser_handle_version_declaration(parser, language_version, NULL, false); }