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mesa/src/glsl/glcpp/glcpp-parse.y
Carl Worth ec6222ef01 glsl/glcpp: Add short-circuiting for || and && in #if/#elif for OpenGL ES. 
The GLSL ES Specification 3.00.4 says:

	#if, #ifdef, #ifndef, #else, #elif, and #endif are defined to operate
        as for C++ except for the following:
	...
	• Undefined identifiers not consumed by the defined operator do not
	  default to '0'. Use of such identifiers causes an error.

	[Page 11 (page 127 of the PDF file)]

as well as:

	The semantics of applying operators in the preprocessor match those
	standard in the C++ preprocessor with the following exceptions:

	• The 2nd operand in a logical and ('&&') operation is evaluated if
	  and only if the 1st operand evaluates to non-zero.

	• The 2nd operand in a logical or ('||') operation is evaluated if
	  and only if the 1st operand evaluates to zero.

	If an operand is not evaluated, the presence of undefined identifiers
	in the operand will not cause an error.

(Note that neither of these deviations from C++ preprocessor behavior apply to
non-ES GLSL, at least as of specfication version 4.30.6).

The first portion of this, (generating an error for an undefined macro in an
(short-circuiting to squelch errors), was not implemented previously, but is
implemented in this commit.

A test is added for "make check" to ensure this behavior.

Note: The change as implemented does make the error message a bit less
precise, (it just states that an undefined macro was encountered, but not the
name of the macro).

This commit fixes the following Khronos GLES3 conformance test:

	undefined_identifiers.valid_undefined_identifier_1_vertex
	undefined_identifiers.valid_undefined_identifier_1_fragment
	undefined_identifiers.valid_undefined_identifier_2_vertex
	undefined_identifiers.valid_undefined_identifier_2_fragment

Reviewed-by: Kenneth Graunke <kenneth@whitecape.org>
2014-07-09 12:05:13 -07:00

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%{
/*
* 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 <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <inttypes.h>
#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 <ival> INTEGER operator SPACE integer_constant
%type <expression_value> expression
%type <str> IDENTIFIER FUNC_IDENTIFIER OBJ_IDENTIFIER INTEGER_STRING OTHER
%type <string_list> identifier_list
%type <token> preprocessing_token conditional_token
%type <token_list> 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.has_undefined)
glcpp_error(& @1, parser, "undefined macro in expression (illegal in GLES)");
_glcpp_parser_skip_stack_push_if (parser, & @1, $2.value);
}
| ELIF_EXPANDED expression NEWLINE {
if (parser->is_gles && $2.has_undefined)
glcpp_error(& @1, parser, "undefined macro in expression (illegal in GLES)");
_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 {
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_t *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 {
$$.value = $1;
$$.has_undefined = false;
}
| IDENTIFIER {
$$.value = 0;
if (parser->is_gles)
$$.has_undefined = true;
else
$$.has_undefined = false;
}
| expression OR expression {
$$.value = $1.value || $3.value;
/* Short-circuit: Only flag undefined from right side
* if left side evaluates to false.
*/
if ($1.value)
$$.has_undefined = $1.has_undefined;
else
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression AND expression {
$$.value = $1.value && $3.value;
/* Short-circuit: Only flag undefined from right-side
* if left side evaluates to true.
*/
if ($1.value)
$$.has_undefined = $1.has_undefined || $3.has_undefined;
else
$$.has_undefined = $1.has_undefined;
}
| expression '|' expression {
$$.value = $1.value | $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression '^' expression {
$$.value = $1.value ^ $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression '&' expression {
$$.value = $1.value & $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression NOT_EQUAL expression {
$$.value = $1.value != $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression EQUAL expression {
$$.value = $1.value == $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression GREATER_OR_EQUAL expression {
$$.value = $1.value >= $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression LESS_OR_EQUAL expression {
$$.value = $1.value <= $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression '>' expression {
$$.value = $1.value > $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression '<' expression {
$$.value = $1.value < $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression RIGHT_SHIFT expression {
$$.value = $1.value >> $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression LEFT_SHIFT expression {
$$.value = $1.value << $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression '-' expression {
$$.value = $1.value - $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression '+' expression {
$$.value = $1.value + $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression '%' expression {
if ($3.value == 0) {
yyerror (& @1, parser,
"zero modulus in preprocessor directive");
} else {
$$.value = $1.value % $3.value;
}
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression '/' expression {
if ($3.value == 0) {
yyerror (& @1, parser,
"division by 0 in preprocessor directive");
} else {
$$.value = $1.value / $3.value;
}
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| expression '*' expression {
$$.value = $1.value * $3.value;
$$.has_undefined = $1.has_undefined || $3.has_undefined;
}
| '!' expression %prec UNARY {
$$.value = ! $2.value;
$$.has_undefined = $2.has_undefined;
}
| '~' expression %prec UNARY {
$$.value = ~ $2.value;
$$.has_undefined = $2.has_undefined;
}
| '-' expression %prec UNARY {
$$.value = - $2.value;
$$.has_undefined = $2.has_undefined;
}
| '+' expression %prec UNARY {
$$.value = + $2.value;
$$.has_undefined = $2.has_undefined;
}
| '(' expression ')' {
$$ = $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_warning(&@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->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,
&parameter_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);
}
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