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https://git.code.sf.net/p/quake/quakeforge
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f323401c10
While the option to make '*' mean dot product for vectors is important, it breaks vector scaling in ruamoko progs as the resultant vector op becomes a dot product instead of the indented hadamard product (ie, component-wise).
748 lines
18 KiB
Text
748 lines
18 KiB
Text
%{
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/*
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qc-lex.l
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lexer 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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#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 <stdlib.h>
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#include <ctype.h>
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#include <QF/dstring.h>
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#include <QF/hash.h>
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#include <QF/sys.h>
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#include "tools/qfcc/include/class.h"
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#include "tools/qfcc/include/debug.h"
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#include "tools/qfcc/include/diagnostic.h"
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#include "tools/qfcc/include/expr.h"
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#include "tools/qfcc/include/grab.h"
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#include "tools/qfcc/include/options.h"
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#include "tools/qfcc/include/pragma.h"
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#include "tools/qfcc/include/qfcc.h"
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#include "tools/qfcc/include/shared.h"
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#include "tools/qfcc/include/strpool.h"
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#include "tools/qfcc/include/struct.h"
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#include "tools/qfcc/include/symtab.h"
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#include "tools/qfcc/include/type.h"
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#include "tools/qfcc/include/value.h"
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#include "tools/qfcc/source/qc-parse.h"
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#ifndef YY_PROTO
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# define YY_PROTO(x) x
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#else
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# define YY_FLEX_REALLOC_HACK
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#endif
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#define YY_NO_UNPUT
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#define YY_DECL int yylex YY_PROTO(( void ))
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YY_DECL;
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int yyget_lineno (void) __attribute__((pure));
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int yyget_leng (void) __attribute__((pure));
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int yywrap (void) __attribute__((const));
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char *yyget_text (void) __attribute__((pure));
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int yyget_debug (void) __attribute__((pure));
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FILE *yyget_in (void) __attribute__((pure));
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FILE *yyget_out (void) __attribute__((pure));
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static int keyword_or_id (const char *token);
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static expr_t *parse_float_vector (const char *token, int width);
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static expr_t *parse_int_vector (const char *token, int width);
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extern QC_YYSTYPE qc_yylval;
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%}
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s [ \t]
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m [\-+]
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D [0-9]
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B [01]
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X [0-9a-fA-F]
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ID [a-zA-Z_][a-zA-Z_0-9]*
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FLOAT ({D}+|{D}*\.{D}+|{D}+\.{D}*)([eE]{m}?{D}+)?
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FLOATf {FLOAT}[fF]
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FLOATd {FLOAT}[dD]
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FCOMP {m}?{FLOAT}
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FD [fFdD]
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INT ({D}+|0[xX]{X}+|0[bB]{B})
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ICOMP {m}?{INT}
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UL ([uU]?([lL][lL]?)?)
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ULFD ({UL}|{FD})
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RANGE \.\.
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ELLIPSIS \.\.\.
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FRAMEID {ID}(\.{ID})*
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PRAGMAID {ID}(-{ID})*
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STRING \"(\\.|[^"\\])*\"
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%x GRAB_FRAME GRAB_OTHER GRAB_WRITE COMMENT PRAGMA
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%%
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grab_frame = GRAB_FRAME;
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grab_other = GRAB_OTHER;
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grab_write = GRAB_WRITE;
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"/*" { BEGIN (COMMENT); }
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<COMMENT>"/*" { warning (0, "nested /* in comment"); }
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<COMMENT>"*/" { BEGIN (INITIAL); }
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<COMMENT>\r*\n { pr.source_line++; }
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<COMMENT>. /* nothing to do */
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<COMMENT><<EOF>> { error (0, "EOF in comment"); return 0; }
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"//".* /* nothing to do */
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^#{s}+{D}+{s}+\"(\.|[^"\n])*\".*$ { line_info (yytext + 1); }
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^#line{s}+{D}+{s}+\"(\.|[^"\n])*\".*$ { line_info (yytext + 5); }
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^{s}*#{s}*pragma{s}+ { BEGIN (PRAGMA); }
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{INT}+{UL}? {
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const char *c = yytext + yyleng - 1;
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pr_long_t i;
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if (yytext[0] == '0' && tolower (yytext[1] == 'b'))
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i = strtol (yytext + 2, 0, 2);
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else
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i = strtol (yytext, 0, 0);
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if (tolower (*c) == 'u') {
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if (tolower (c[1]) == 'l') {
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qc_yylval.expr = new_ulong_expr (i);
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} else {
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qc_yylval.expr = new_uint_expr (i);
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}
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} else {
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if (tolower (c[1]) == 'l') {
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qc_yylval.expr = new_long_expr (i);
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} else {
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qc_yylval.expr = new_int_expr (i);
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qc_yylval.expr->implicit = 1;
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}
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}
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return VALUE;
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}
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{FLOAT} {
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// advanced code defaults to double, but traditional
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// and extended code defaults to float
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if (options.traditional < 1) {
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double d = strtod (yytext, 0);
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qc_yylval.expr = new_double_expr (d);
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qc_yylval.expr->implicit = 1;
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} else {
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float f = strtof (yytext, 0);
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qc_yylval.expr = new_float_expr (f);
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}
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return VALUE;
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}
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{FLOATf} {
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float f = strtof (yytext, 0);
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qc_yylval.expr = new_float_expr (f);
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return VALUE;
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}
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{FLOATd} {
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// advanced code defaults to double, but traditional
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// and extended code defaults to float
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if (options.traditional < 1) {
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double d = strtod (yytext, 0);
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qc_yylval.expr = new_double_expr (d);
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} else {
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float f = strtof (yytext, 0);
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qc_yylval.expr = new_float_expr (f);
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warning (0, "truncating double constant to float");
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}
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return VALUE;
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}
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{ID} {
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int tok = keyword_or_id(yytext);
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return tok;
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}
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@{ID} {
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int tok = keyword_or_id(yytext);
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if (tok == '@')
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REJECT;
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return tok;
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}
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{STRING} {
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const char *s = make_string (yytext, 0);
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qc_yylval.expr = new_string_expr (s);
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return STRING;
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}
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@ return '@';
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'{s}*{ICOMP}{s}+{ICOMP}{s}*'{ULFD}? {
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qc_yylval.expr = parse_int_vector (yytext, 2);
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return VALUE;
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}
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'{s}*{ICOMP}{s}+{ICOMP}{s}+{ICOMP}{s}*'{ULFD}? {
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qc_yylval.expr = parse_int_vector (yytext, 3);
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return VALUE;
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}
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'{s}*{ICOMP}{s}+{ICOMP}{s}+{ICOMP}{s}+{ICOMP}{s}*'{ULFD}? {
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qc_yylval.expr = parse_int_vector (yytext, 4);
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return VALUE;
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}
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'{s}*{FCOMP}{s}+{FCOMP}{s}*'{FD}? {
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qc_yylval.expr = parse_float_vector (yytext, 2);
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return VALUE;
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}
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'{s}*{FCOMP}{s}+{FCOMP}{s}+{FCOMP}{s}*'{FD}? {
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qc_yylval.expr = parse_float_vector (yytext, 3);
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return VALUE;
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}
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'{s}*{FCOMP}{s}+{FCOMP}{s}+{FCOMP}{s}+{FCOMP}{s}*'{FD}? {
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qc_yylval.expr = parse_float_vector (yytext, 4);
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return VALUE;
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}
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'(\\[^xX0-7\r\n]|[^'\r\n]|\\[xX][0-9A-Fa-f]+|\\[0-7]+)*' {
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const char *str = make_string (yytext, 0);
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if (str[1])
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warning (0, "multibyte char constant");
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qc_yylval.expr = new_int_expr (*str);
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return VALUE;
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}
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[+\-*/&|^%]= {
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qc_yylval.op = yytext[0];
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return ASX;
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}
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"%%=" {
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qc_yylval.op = MOD;
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return ASX;
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}
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"<<=" {
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qc_yylval.op = SHL;
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return ASX;
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}
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">>=" {
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qc_yylval.op = SHR;
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return ASX;
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}
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[!(){}.*/&|^~+\-=\[\];,#%?:] {
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qc_yylval.pointer = 0; // ensure pointer vals are null
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return yytext[0];
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}
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"%%" {
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qc_yylval.pointer = 0; // ensure pointer vals are null
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return MOD;
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}
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{ELLIPSIS} return ELLIPSIS;
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"<<" return SHL;
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">>" return SHR;
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"&&" return AND;
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"||" return OR;
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"==" return EQ;
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"!=" return NE;
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"<=" return LE;
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">=" return GE;
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"<" return LT;
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">" return GT;
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"++" {
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qc_yylval.op = '+';
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return INCOP;
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}
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"--" {
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qc_yylval.op = '-';
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return INCOP;
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}
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"$"{s}*{FRAMEID} {
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int ret = do_grab (yytext);
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if (ret >= 0) {
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qc_yylval.expr = new_int_expr (ret);
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return VALUE;
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} else {
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BEGIN (-ret);
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}
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}
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<GRAB_FRAME>{FRAMEID} add_frame_macro (yytext);
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<GRAB_OTHER>[^\r\n]* /* skip */
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<GRAB_WRITE>{STRING} {
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const char *s = make_string (yytext, 0);
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write_frame_macros (s);
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BEGIN (GRAB_OTHER); // ignore rest of line
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}
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<PRAGMA>{ID} { pragma_add_arg (yytext); }
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<PRAGMA>@{ID} { pragma_add_arg (yytext); }
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<*>\r*\n {
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if (YY_START == PRAGMA) {
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pragma_process ();
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}
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pr.source_line++;
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BEGIN (INITIAL);
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}
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<*>{s}* /* skip */
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<*>. error (0, "all your typo are belong to us");
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%%
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int
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yywrap (void)
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{
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return 1;
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}
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typedef struct {
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const char *name;
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int value;
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type_t *type;
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} keyword_t;
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// These keywords are part of the Ruamoko language and require the QuakeForge
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// Ruamoko VM.
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static keyword_t rua_keywords[] = {
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#define VEC_TYPE(type_name, base_type) { #type_name, TYPE, &type_##type_name },
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#include "tools/qfcc/include/vec_types.h"
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};
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// These keywords are all part of the Ruamoko (Objective-QC) language.
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// The first time any one of them is encountered, the class system will be
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// initialized.
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// If not compiling for the QuakeForge VM, or if Ruamoko has been disabled,
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// then they will be unavailable as keywords.
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static keyword_t obj_keywords[] = {
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{"id", OBJECT, &type_id },
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{"Class", TYPE, &type_Class },
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{"Method", TYPE, &type_method },
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{"Super", TYPE, &type_super },
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{"SEL", TYPE, &type_SEL },
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{"IMP", TYPE, &type_IMP },
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{"@class", CLASS },
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{"@defs", DEFS },
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{"@encode", ENCODE },
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{"@end", END },
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{"@implementation", IMPLEMENTATION },
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{"@interface", INTERFACE },
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{"@private", PRIVATE },
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{"@protected", PROTECTED },
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{"@protocol", PROTOCOL },
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{"@public", PUBLIC },
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{"@reference", REFERENCE },
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{"@selector", SELECTOR },
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{"@self", SELF },
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{"@this", THIS },
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// This is a hack to trigger the initialization of the class
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// sytem if it is seen before any other Objective-QC symbol. Otherwise,
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// it is just an identifier, though it does reference a built-in type
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// created by the class system.
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{"obj_module", 0 },
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};
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// These keywords are extensions to QC and thus available only in advanced
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// or extended code. However, if they are preceeded by an @ (eg, @for), then
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// they are always available. This is to prevent them from causing trouble
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// for traditional code that might use these words as identifiers, but still
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// make the language features available to traditional code.
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static keyword_t at_keywords[] = {
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{"for", FOR },
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{"goto", GOTO },
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{"break", BREAK },
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{"continue", CONTINUE},
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{"switch", SWITCH },
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{"case", CASE },
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{"default", DEFAULT },
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{"nil", NIL },
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{"struct", STRUCT },
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{"union", STRUCT },
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{"enum", ENUM },
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{"typedef", TYPEDEF },
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{"extern", EXTERN },
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{"static", STATIC },
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{"sizeof", SIZEOF },
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{"not", NOT },
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};
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// These keywords require the QuakeForge VM to be of any use. ie, they cannot
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// be supported (sanely) by v6 progs.
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static keyword_t qf_keywords[] = {
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{"quaternion", TYPE, &type_quaternion},
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{"double", TYPE, &type_double},
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{"int", TYPE, &type_int },
|
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{"unsigned", UNSIGNED, 0 },
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{"signed", SIGNED, 0 },
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{"long", LONG, 0 },
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{"short", SHORT, 0 },
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|
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{"@function", TYPE, &type_func },
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{"@args", ARGS, 0 },
|
|
{"@va_list", TYPE, &type_va_list },
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|
{"@param", TYPE, &type_param },
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{"@return", AT_RETURN, 0 },
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|
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{"@cross", CROSS, 0 },
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{"@dot", DOT, 0 },
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{"@hadamard", HADAMARD, 0 },
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};
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// These keywors are always available. Other than the @ keywords, they
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// form traditional QuakeC.
|
|
static keyword_t keywords[] = {
|
|
{"void", TYPE, &type_void },
|
|
{"float", TYPE, &type_float },
|
|
{"string", TYPE, &type_string},
|
|
{"vector", TYPE, &type_vector},
|
|
{"entity", TYPE, &type_entity},
|
|
{"local", LOCAL, 0 },
|
|
{"return", RETURN, 0 },
|
|
{"while", WHILE, 0 },
|
|
{"do", DO, 0 },
|
|
{"if", IF, 0 },
|
|
{"else", ELSE, 0 },
|
|
{"@system", SYSTEM, 0 },
|
|
{"@overload", OVERLOAD, 0 },
|
|
{"@attribute", ATTRIBUTE, 0 },
|
|
};
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|
|
static const char *
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keyword_get_key (const void *kw, void *unused)
|
|
{
|
|
return ((keyword_t*)kw)->name;
|
|
}
|
|
|
|
static int
|
|
process_keyword (keyword_t *keyword, const char *token)
|
|
{
|
|
if (keyword->value == STRUCT) {
|
|
qc_yylval.op = token[0];
|
|
} else if (keyword->value == OBJECT) {
|
|
symbol_t *sym;
|
|
|
|
sym = symtab_lookup (current_symtab, token);
|
|
qc_yylval.symbol = sym;
|
|
// the global id symbol is always just a name so attempts to redefine
|
|
// it globally can be caught and treated as an error, but it needs to
|
|
// be redefinable when in an enclosing scope.
|
|
if (sym->sy_type == sy_name) {
|
|
// this is the global id (object)
|
|
return OBJECT;
|
|
} else if (sym->sy_type == sy_type) {
|
|
// id has been redeclared via a typedef
|
|
return TYPE_NAME;
|
|
}
|
|
// id has been redelcared as a variable (hopefully)
|
|
return NAME;
|
|
} else {
|
|
qc_yylval.type = keyword->type;
|
|
}
|
|
return keyword->value;
|
|
}
|
|
|
|
static int
|
|
keyword_or_id (const char *token)
|
|
{
|
|
static hashtab_t *keyword_tab;
|
|
static hashtab_t *qf_keyword_tab;
|
|
static hashtab_t *at_keyword_tab;
|
|
static hashtab_t *obj_keyword_tab;
|
|
static hashtab_t *rua_keyword_tab;
|
|
|
|
keyword_t *keyword = 0;
|
|
symbol_t *sym;
|
|
|
|
if (!keyword_tab) {
|
|
size_t i;
|
|
|
|
keyword_tab = Hash_NewTable (253, keyword_get_key, 0, 0, 0);
|
|
qf_keyword_tab = Hash_NewTable (253, keyword_get_key, 0, 0, 0);
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|
at_keyword_tab = Hash_NewTable (253, keyword_get_key, 0, 0, 0);
|
|
obj_keyword_tab = Hash_NewTable (253, keyword_get_key, 0, 0, 0);
|
|
rua_keyword_tab = Hash_NewTable (253, keyword_get_key, 0, 0, 0);
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|
|
|
#define NUMKEYS(_k) (sizeof (_k) / sizeof (_k[0]))
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for (i = 0; i < NUMKEYS(keywords); i++)
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Hash_Add (keyword_tab, &keywords[i]);
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for (i = 0; i < NUMKEYS(qf_keywords); i++)
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Hash_Add (qf_keyword_tab, &qf_keywords[i]);
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for (i = 0; i < NUMKEYS(at_keywords); i++)
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Hash_Add (at_keyword_tab, &at_keywords[i]);
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for (i = 0; i < NUMKEYS(obj_keywords); i++)
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Hash_Add (obj_keyword_tab, &obj_keywords[i]);
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for (i = 0; i < NUMKEYS(rua_keywords); i++)
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Hash_Add (rua_keyword_tab, &rua_keywords[i]);
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}
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if (options.traditional < 1) {
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if (options.code.progsversion == PROG_VERSION) {
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keyword = Hash_Find (rua_keyword_tab, token);
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}
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if (!keyword) {
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keyword = Hash_Find (obj_keyword_tab, token);
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if (keyword) {
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if (!obj_initialized)
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class_init ();
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}
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}
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if (!keyword)
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keyword = Hash_Find (qf_keyword_tab, token);
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}
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if (!keyword && options.traditional < 2)
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keyword = Hash_Find (at_keyword_tab, token);
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if (!keyword && token[0] == '@') {
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keyword = Hash_Find (at_keyword_tab, token + 1);
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if (keyword)
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token += 1;
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}
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if (!keyword)
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keyword = Hash_Find (keyword_tab, token);
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if (keyword && keyword->value)
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return process_keyword (keyword, token);
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if (token[0] == '@') {
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return '@';
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}
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sym = symtab_lookup (current_symtab, token);
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if (!sym)
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sym = new_symbol (token);
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qc_yylval.symbol = sym;
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if (sym->sy_type == sy_type)
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return TYPE_NAME;
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if (sym->sy_type == sy_class)
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return CLASS_NAME;
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return NAME;
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}
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static expr_t *
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parse_int_vector (const char *token, int width)
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{
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char t1 = 0, t2 = 0;
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type_t *type = 0;
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union {
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pr_long_t l[4];
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pr_type_t t[PR_SIZEOF (dvec4)];
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} long_data = {};
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pr_type_t *data = __builtin_choose_expr (
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sizeof (pr_long_t) == sizeof (int64_t), long_data.t, (void) 0);
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switch (width) {
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case 4:
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sscanf (token, "' %"SCNi64" %"SCNi64" %"SCNi64" %"SCNi64" '%c%c",
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&long_data.l[0], &long_data.l[1],
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&long_data.l[2], &long_data.l[3], &t1, &t2);
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break;
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case 3:
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sscanf (token, "' %"SCNi64" %"SCNi64" %"SCNi64" '%c%c",
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&long_data.l[0], &long_data.l[1],
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&long_data.l[2], &t1, &t2);
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break;
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case 2:
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sscanf (token, "' %"SCNi64" %"SCNi64" '%c%c",
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&long_data.l[0], &long_data.l[1], &t1, &t2);
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break;
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}
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t1 = tolower (t1);
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t2 = tolower (t2);
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if (options.code.progsversion < PROG_VERSION) {
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if (!t1) {
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t1 = 'f';
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}
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}
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expr_t *expr = 0;
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switch (t1) {
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case 'u':
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if (t2 == 'l') {
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type = &type_ulong;
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type = vector_type (type, width);
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expr = new_value_expr (new_type_value (type, data));
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} else {
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type = &type_uint;
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union {
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pr_uint_t u[4];
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pr_type_t t[PR_SIZEOF (ivec4)];
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} uint_data = {
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.u = {
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long_data.l[0],
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long_data.l[1],
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long_data.l[2],
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long_data.l[3],
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}
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};
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data = uint_data.t;
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type = vector_type (type, width);
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expr = new_value_expr (new_type_value (type, data));
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}
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break;
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case 'l':
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type = &type_long;
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type = vector_type (type, width);
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expr = new_value_expr (new_type_value (type, data));
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break;
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case 'f':
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type = &type_float;
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union {
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pr_float_t f[4];
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pr_type_t t[PR_SIZEOF (vec4)];
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} float_data = {
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.f = {
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long_data.l[0],
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long_data.l[1],
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long_data.l[2],
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long_data.l[3],
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}
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};
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data = float_data.t;
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type = vector_type (type, width);
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expr = new_value_expr (new_type_value (type, data));
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break;
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case 'd':
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type = &type_double;
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union {
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pr_double_t d[4];
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pr_type_t t[PR_SIZEOF (dvec4)];
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} double_data = {
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.d = {
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long_data.l[0],
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long_data.l[1],
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long_data.l[2],
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long_data.l[3],
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}
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};
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data = double_data.t;
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type = vector_type (type, width);
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expr = new_value_expr (new_type_value (type, data));
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break;
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case 0:
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type = &type_int;
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union {
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pr_int_t i[4];
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pr_type_t t[PR_SIZEOF (ivec4)];
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} int_data = {
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.i = {
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long_data.l[0],
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long_data.l[1],
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long_data.l[2],
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long_data.l[3],
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}
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};
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data = int_data.t;
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type = vector_type (type, width);
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expr = new_value_expr (new_type_value (type, data));
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break;
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}
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expr->implicit = !t1;
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return expr;
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}
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static expr_t *
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parse_float_vector (const char *token, int width)
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{
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char t = 0;
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type_t *type = 0;
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union {
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pr_double_t d[4];
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pr_type_t t[PR_SIZEOF (dvec4)];
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} double_data = {};
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pr_type_t *data = __builtin_choose_expr (
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sizeof (pr_double_t) == sizeof (double), double_data.t, (void) 0);
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switch (width) {
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case 4:
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sscanf (token, "' %lf %lf %lf %lf '%c",
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&double_data.d[0], &double_data.d[1],
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&double_data.d[2], &double_data.d[3], &t);
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break;
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case 3:
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sscanf (token, "' %lf %lf %lf '%c",
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&double_data.d[0], &double_data.d[1],
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&double_data.d[1], &t);
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type = (t == 'f' || t == 'F') ? &type_vec3 : &type_dvec3;
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break;
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case 2:
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sscanf (token, "' %lf %lf '%c",
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&double_data.d[0], &double_data.d[1], &t);
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type = (t == 'f' || t == 'F') ? &type_vec2 : &type_dvec2;
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break;
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}
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if (options.code.progsversion < PROG_VERSION) {
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if (!t) {
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t = 'f';
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}
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}
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if (t == 'f' || t == 'F') {
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volatile union {
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pr_float_t f[4];
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pr_type_t t[PR_SIZEOF (vec4)];
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} float_data = {
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.f = {
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double_data.d[0],
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double_data.d[1],
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double_data.d[2],
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double_data.d[3],
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}
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};
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data = (pr_type_t *) float_data.t;
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type = &type_float;
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} else {
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type = &type_double;
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}
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type = vector_type (type, width);
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expr_t *expr = new_value_expr (new_type_value (type, data));
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expr->implicit = !t;
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return expr;
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}
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#ifdef YY_FLEX_REALLOC_HACK
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static __attribute__ ((used)) void *(*const yy_flex_realloc_hack)(void *,yy_size_t) = yy_flex_realloc;
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#else
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#ifdef yyunput
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static __attribute__ ((used)) void (*yyunput_hack)(int, char*) = yyunput;
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#endif
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static __attribute__ ((used)) int (*input_hack)(void) = input;
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#endif
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