mirror of
https://git.code.sf.net/p/quake/quakeforge
synced 2024-11-24 13:21:11 +00:00
75ec6bf244
This is a nasty commit, sorry, but 99% of the commit is interdependent.
559 lines
11 KiB
Text
559 lines
11 KiB
Text
%{
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/*
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qc-parse.y
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parser for quakec
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Copyright (C) 2001 Bill Currie <bill@taniwha.org>
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Author: Bill Currie <bill@taniwha.org>
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Date: 2001/06/12
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to:
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Free Software Foundation, Inc.
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59 Temple Place - Suite 330
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Boston, MA 02111-1307, USA
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*/
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#ifdef HAVE_CONFIG_H
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# include "config.h"
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#endif
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static __attribute__ ((used)) const char rcsid[] = "$Id$";
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#ifdef HAVE_STRING_H
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# include <string.h>
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#endif
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#ifdef HAVE_STRINGS_H
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# include <strings.h>
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#endif
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#include "class.h"
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#include "expr.h"
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#include "function.h"
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#include "qfcc.h"
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#include "type.h"
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#define YYDEBUG 1
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#define YYERROR_VERBOSE 1
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#undef YYERROR_VERBOSE
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extern char *yytext;
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static void
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yyerror (const char *s)
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{
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#ifdef YYERROR_VERBOSE
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error (0, "%s %s\n", yytext, s);
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#else
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error (0, "%s before %s", s, yytext);
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#endif
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}
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static void
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parse_error (void)
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{
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error (0, "parse error before %s", yytext);
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}
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#define PARSE_ERROR do { parse_error (); YYERROR; } while (0)
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int yylex (void);
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%}
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%union {
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int op;
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struct def_s *def;
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struct hashtab_s *def_list;
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struct type_s *type;
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struct typedef_s *typename;
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struct expr_s *expr;
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int integer_val;
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unsigned uinteger_val;
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float float_val;
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const char *string_val;
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float vector_val[3];
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float quaternion_val[4];
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struct function_s *function;
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struct switch_block_s *switch_block;
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struct param_s *param;
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struct method_s *method;
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struct class_s *class;
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struct category_s *category;
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struct class_type_s *class_type;
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struct protocol_s *protocol;
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struct protocollist_s *protocol_list;
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struct keywordarg_s *keywordarg;
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struct methodlist_s *methodlist;
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struct struct_s *strct;
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}
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// these tokens are common with qc
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%nonassoc IFX
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%nonassoc ELSE
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%nonassoc BREAK_PRIMARY
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%nonassoc ';'
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%nonassoc CLASS_NOT_CATEGORY
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%nonassoc STORAGEX
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%right <op> '=' ASX PAS /* pointer assign */
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%right '?' ':'
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%left OR
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%left AND
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%left '|'
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%left '^'
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%left '&'
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%left EQ NE
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%left LE GE LT GT
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// end of tokens common with qc
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%left <string_val> RELOP
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%left <op> ADDOP
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%left <op> MULOP
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%right UNARY
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%token <type> TYPE
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%token <string_val> ID
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%token <integer_val> INT_VAL
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%token <string_val> STRING_VAL
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%token <quaternion_val> QUATERNION_VAL
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%token <vector_val> VECTOR_VAL
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%token <float_val> FLOAT_VAL
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%token PROGRAM VAR ARRAY OF FUNCTION PROCEDURE PBEGIN END IF THEN ELSE
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%token WHILE DO RANGE ASSIGNOP NOT
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%type <type> standard_type type
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%type <expr> const num identifier_list statement_list statement
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%type <expr> optional_statements compound_statement procedure_statement
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%type <expr> expression_list expression unary_expr primary variable
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%type <param> parameter_list arguments
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%type <def> subprogram_head program_head
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%type <function> subprogram_declaration
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%type <op> sign
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%type <expr> name
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%{
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function_t *current_func;
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class_type_t *current_class;
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expr_t *local_expr;
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scope_t *current_scope;
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param_t *current_params;
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static int convert_relop (const char *relop);
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%}
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%%
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program
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: program_head
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declarations
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subprogram_declarations
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{
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$1 = get_function_def ($1->name, $1->type, current_scope,
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st_global, 0, 1);
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current_func = begin_function ($1, 0, 0);
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}
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compound_statement '.'
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{
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current_scope = current_scope->parent;
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//current_storage = st_global;
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build_code_function (current_func, 0, $5);
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current_func = 0;
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}
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;
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program_head
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: PROGRAM ID '(' identifier_list ')' ';'
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{
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type_t *type = parse_params (&type_void, 0);
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current_params = 0;
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$$ = get_function_def ($2, type, current_scope, st_extern, 0, 1);
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}
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;
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identifier_list
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: ID
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{
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$$ = new_block_expr ();
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append_expr ($$, new_name_expr ($1));
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}
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| identifier_list ',' ID
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{
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append_expr ($1, new_name_expr ($3));
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}
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;
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declarations
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: declarations VAR identifier_list ':' type ';'
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{
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type_t *type = $5;
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expr_t *id_list = $3;
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expr_t *e;
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for (e = id_list->e.block.head; e; e = e->next)
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get_def (type, e->e.string_val, current_scope, st_global);
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}
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| /* empty */
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;
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type
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: standard_type { $$ = $1; }
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| ARRAY '[' num RANGE num ']' OF standard_type
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{
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if ($3->type != ex_integer || $5->type != ex_integer)
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error (0, "array bounds must be integers");
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$$ = based_array_type ($8, $3->e.integer_val, $5->e.integer_val);
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}
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;
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standard_type
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: TYPE { $$ = $1; }
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;
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subprogram_declarations
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: subprogram_declarations subprogram_declaration
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| /* emtpy */
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;
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subprogram_declaration
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: subprogram_head ';'
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{
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current_func = begin_function ($1, 0, current_params);
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current_scope = current_func->scope;
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//current_storage = st_local;
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}
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declarations compound_statement ';'
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{
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type_t *ret_type = $1->type->t.func.type;
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current_scope = current_scope->parent;
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//current_storage = st_global;
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//FIXME want a true void return
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if (ret_type)
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append_expr ($5, return_expr (current_func,
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new_ret_expr (ret_type)));
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build_code_function (current_func, 0, $5);
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current_func = 0;
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}
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| subprogram_head ASSIGNOP '#' const ';'
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{
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$$ = build_builtin_function ($1, $4);
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if ($$) {
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build_scope ($$, $$->def, current_params);
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flush_scope ($$->scope, 1);
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}
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}
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;
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subprogram_head
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: FUNCTION ID arguments ':' standard_type
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{
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type_t *type = parse_params ($5, $3);
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current_params = $3;
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$$ = get_function_def ($2, type, current_scope, st_global, 0, 1);
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}
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| PROCEDURE ID arguments
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{
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type_t *type = parse_params (&type_void, $3);
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$$ = get_function_def ($2, type, current_scope, st_global, 0, 1);
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}
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;
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arguments
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: '(' parameter_list ')' { $$ = $2; }
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| /* emtpy */ { $$ = 0; }
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;
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parameter_list
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: identifier_list ':' type
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{
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type_t *type = $3;
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expr_t *id_list = $1;
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expr_t *e;
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param_t **p;
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$$ = 0;
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p = &$$;
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for (e = id_list->e.block.head; e; e = e->next) {
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*p = new_param (0, type, e->e.string_val);
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p = &(*p)->next;
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}
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}
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| parameter_list ';' identifier_list ':' type
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{
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type_t *type = $5;
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expr_t *id_list = $3;
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expr_t *e;
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param_t **p;
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$$ = $1;
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p = &$$;
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for ( ; *p; p = &(*p)->next)
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;
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for (e = id_list->e.block.head; e; e = e->next) {
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*p = new_param (0, type, e->e.string_val);
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p = &(*p)->next;
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}
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}
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;
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compound_statement
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: PBEGIN optional_statements END { $$ = $2; }
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;
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optional_statements
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: statement_list { $$ = $1; }
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| /* emtpy */ { $$ = 0; }
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;
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statement_list
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: statement
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{
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$$ = new_block_expr ();
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append_expr ($$, $1);
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}
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| statement_list ';' statement
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{
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$$ = $1;
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append_expr ($$, $3);
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}
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;
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statement
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: variable ASSIGNOP expression
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{
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convert_name ($1);
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if ($1->type == ex_def && extract_type ($1) == ev_func)
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$1 = new_ret_expr ($1->e.def->type->t.func.type);
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$$ = assign_expr ($1, $3);
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}
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| procedure_statement { $$ = $1; }
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| compound_statement { $$ = $1; }
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| IF expression THEN statement ELSE statement
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{
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int line = pr.source_line;
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string_t file = pr.source_file;
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expr_t *tl = new_label_expr ();
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expr_t *fl = new_label_expr ();
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expr_t *nl = new_label_expr ();
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pr.source_line = $2->line;
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pr.source_file = $2->file;
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$$ = new_block_expr ();
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$2 = convert_bool ($2, 1);
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if ($2->type != ex_error) {
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backpatch ($2->e.bool.true_list, tl);
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backpatch ($2->e.bool.false_list, fl);
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append_expr ($2->e.bool.e, tl);
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append_expr ($$, $2);
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}
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append_expr ($$, $4);
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append_expr ($$, new_unary_expr ('g', nl));
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append_expr ($$, fl);
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append_expr ($$, $6);
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append_expr ($$, nl);
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pr.source_line = line;
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pr.source_file = file;
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}
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| IF expression THEN statement %prec IFX
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{
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int line = pr.source_line;
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string_t file = pr.source_file;
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expr_t *tl = new_label_expr ();
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expr_t *fl = new_label_expr ();
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pr.source_line = $2->line;
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pr.source_file = $2->file;
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$$ = new_block_expr ();
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$2 = convert_bool ($2, 1);
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if ($2->type != ex_error) {
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backpatch ($2->e.bool.true_list, tl);
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backpatch ($2->e.bool.false_list, fl);
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append_expr ($2->e.bool.e, tl);
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append_expr ($$, $2);
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}
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append_expr ($$, $4);
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append_expr ($$, fl);
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pr.source_line = line;
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pr.source_file = file;
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}
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| WHILE expression DO statement
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{
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int line = pr.source_line;
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string_t file = pr.source_file;
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expr_t *l1 = new_label_expr ();
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expr_t *l2 = new_label_expr ();
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expr_t *cont = new_label_expr ();
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pr.source_line = $2->line;
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pr.source_file = $2->file;
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$$ = new_block_expr ();
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append_expr ($$, new_unary_expr ('g', cont));
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append_expr ($$, l1);
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append_expr ($$, $4);
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append_expr ($$, cont);
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$2 = convert_bool ($2, 1);
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if ($2->type != ex_error) {
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backpatch ($2->e.bool.true_list, l1);
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backpatch ($2->e.bool.false_list, l2);
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append_expr ($2->e.bool.e, l2);
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append_expr ($$, $2);
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}
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pr.source_line = line;
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pr.source_file = file;
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}
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;
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variable
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: name { $$ = $1; }
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| name '[' expression ']' { $$ = array_expr ($1, $3); }
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;
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procedure_statement
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: name { $$ = function_expr ($1, 0); }
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| name '(' expression_list ')' { $$ = function_expr ($1, $3); }
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;
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expression_list
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: expression
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| expression_list ',' expression
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{
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$3->next = $1;
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$$ = $3;
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}
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;
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unary_expr
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: primary
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| sign unary_expr %prec UNARY
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{
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if ($1 == '-')
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$$ = unary_expr ('-', $2);
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else
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$$ = $2;
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}
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| NOT expression %prec UNARY
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{
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$$ = unary_expr ('!', $2);
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}
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;
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primary
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: variable
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{
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convert_name ($1);
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if ($1->type == ex_def && extract_type ($1) == ev_func)
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$1 = function_expr ($1, 0);
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$$ = $1;
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}
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| const { $$ = $1; }
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| name '(' expression_list ')' { $$ = function_expr ($1, $3); }
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| '(' expression ')' { $$ = $2; }
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;
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expression
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: unary_expr
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| expression RELOP expression
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{
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int op = convert_relop ($2);
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$$ = binary_expr (op, $1, $3);
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}
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| expression ADDOP expression
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{
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if ($2 == 'o')
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$$ = bool_expr (OR, new_label_expr (), $1, $3);
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else
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$$ = binary_expr ($2, $1, $3);
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}
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| expression MULOP expression
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{
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if ($2 == 'd')
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$2 = '/';
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else if ($2 == 'm')
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$2 = '%';
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if ($2 == 'a')
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$$ = bool_expr (AND, new_label_expr (), $1, $3);
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else
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$$ = binary_expr ($2, $1, $3);
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}
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;
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sign
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: ADDOP
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{
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if ($1 == 'o')
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PARSE_ERROR;
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}
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;
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name
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: ID { $$ = new_name_expr ($1); }
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;
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const
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: num { $$ = $1; }
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| STRING_VAL { $$ = new_string_expr ($1); }
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;
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num
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: INT_VAL { $$ = new_integer_expr ($1); }
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| FLOAT_VAL { $$ = new_float_expr ($1); }
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| VECTOR_VAL { $$ = new_vector_expr ($1); }
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| QUATERNION_VAL { $$ = new_quaternion_expr ($1); }
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;
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%%
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static int
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convert_relop (const char *relop)
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{
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switch (relop[0]) {
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case '=':
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return EQ;
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case '<':
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switch (relop[1]) {
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case 0:
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return LT;
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case '>':
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return NE;
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case '=':
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return LE;
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}
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break;
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case '>':
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switch (relop[1]) {
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case 0:
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return GT;
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case '=':
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return GE;
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}
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break;
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}
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error (0, "internal: bad relop %s", relop);
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return EQ;
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}
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