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dgisselq |
/*******************************************************************************
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**
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** Filename: zasm.l
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**
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** Project: Zip CPU -- a small, lightweight, RISC CPU core
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**
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** Purpose: The lexical analyzer for the assembler. This converts assembler
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** input into tokens, to feed the parser.
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**
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**
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** Creator: Dan Gisselquist, Ph.D.
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dgisselq |
** Gisselquist Technology, LLC
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dgisselq |
**
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********************************************************************************
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**
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** Copyright (C) 2015, Gisselquist Technology, LLC
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**
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** This program is free software (firmware): you can redistribute it and/or
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** modify it under the terms of the GNU General Public License as published
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** by the Free Software Foundation, either version 3 of the License, or (at
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** your option) any later version.
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**
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** This program is distributed in the hope that it will be useful, but WITHOUT
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** ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or
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** FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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** for more details.
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**
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** You should have received a copy of the GNU General Public License along
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** with this program. (It's in the $(ROOT)/doc directory, run make with no
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** target there if the PDF file isn't present.) If not, see
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** for a copy.
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**
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** License: GPL, v3, as defined and found on www.gnu.org,
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** http://www.gnu.org/licenses/gpl.html
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**
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**
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*******************************************************************************/
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%{
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#include
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#include "asmdata.h"
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#include "zasm.tab.h"
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extern "C" int yylex();
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extern "C" int yywrap() { return 1;}
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extern char *master_input_filename;
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dgisselq |
extern int decode_char_int(const char *str);
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dgisselq |
%}
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%option yylineno
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%option warn
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%%
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dgisselq |
"#line"[ \t]+[0-9]+[ \t]+[\"][^"]*[\"][ \t]*$ {
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/* This should really be true *only* at the beginning of a line,
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* however such line beginnings aren't matching. My guess is that
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* the reason is my line copying code at the bottom that sucks up the
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* newline for LEX. Hence, this is what we have.
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*/
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dgisselq |
yylineno = atoi(&yytext[6]);
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char *bg, *en;
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bg = strchr(yytext, '\"')+1;
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en = strchr(bg, '\"'); *en = '\0';
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if ((master_input_filename == NULL)||(strcmp(master_input_filename, bg)!=0)) {
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if (!master_input_filename) delete[] master_input_filename;
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master_input_filename = new char[en-bg+2];
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strcpy(master_input_filename, bg);
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}
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dgisselq |
return '\n';
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dgisselq |
}
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dgisselq |
"#line"[ \t]+[0-9]+[ \t]*$ { yylineno = atoi(&yytext[6]); return '\n';}
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^"#line".*$ { printf("WARNING: Unmatched #line: %s\n", yytext); return '\n'; }
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"#line".*$ { printf("WARNING: Unmatched #line, not at beginnning: %s\n", yytext); return '\n'; }
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dgisselq |
(?i:ur)1[0-5] { yylval.u_reg=(ZPARSER::ZIPREG)(26+yytext[3]-'0');return REG; }
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(?i:sr)1[0-5] { yylval.u_reg=(ZPARSER::ZIPREG)(10+yytext[3]-'0');return REG; }
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dgisselq |
[rR]1[0-5] { yylval.u_reg=(ZPARSER::ZIPREG)(10+yytext[2]-'0');return REG; }
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dgisselq |
(?i:ur)[0-9] { yylval.u_reg=(ZPARSER::ZIPREG)(16+yytext[2]-'0');return REG; }
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(?i:sr)[0-9] { yylval.u_reg=(ZPARSER::ZIPREG)( yytext[2]-'0');return REG; }
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dgisselq |
[rR][0-9] { yylval.u_reg=(ZPARSER::ZIPREG)( yytext[1]-'0');return REG; }
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dgisselq |
(?i:upc) { yylval.u_reg = ZPARSER::ZIP_uPC; return REG; }
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(?i:spc) { yylval.u_reg = ZPARSER::ZIP_PC; return REG; }
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(?i:pc) { yylval.u_reg = ZPARSER::ZIP_PC; return REG; }
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(?i:ucc) { yylval.u_reg = ZPARSER::ZIP_uCC; return REG; }
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(?i:scc) { yylval.u_reg = ZPARSER::ZIP_CC; return REG; }
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(?i:cc) { yylval.u_reg = ZPARSER::ZIP_CC; return REG; }
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(?i:usp) { yylval.u_reg = ZPARSER::ZIP_uSP; return REG; }
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(?i:ssp) { yylval.u_reg = ZPARSER::ZIP_SP; return REG; }
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(?i:sp) { yylval.u_reg = ZPARSER::ZIP_SP; return REG; }
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dgisselq |
(?i:gbl) { yylval.u_reg = ZPARSER::ZIP_R12; return REG; }
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(?i:bra) { yylval.u_op = OP_BRA; return BRANCHOP; }
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(?i:brz) { yylval.u_op = OP_BZ; return BRANCHOP; }
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(?i:bz) { yylval.u_op = OP_BZ; return BRANCHOP; }
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(?i:bnz) { yylval.u_op = OP_BNZ; return BRANCHOP; }
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(?i:bne) { yylval.u_op = OP_BNZ; return BRANCHOP; }
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(?i:bge) { yylval.u_op = OP_BGE; return BRANCHOP; }
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(?i:bgt) { yylval.u_op = OP_BGT; return BRANCHOP; }
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(?i:bg) { yylval.u_op = OP_BGT; return BRANCHOP; }
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(?i:blt) { yylval.u_op = OP_BLT; return BRANCHOP; }
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(?i:bn) { yylval.u_op = OP_BLT; return BRANCHOP; }
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(?i:brc) { yylval.u_op = OP_BRC; return BRANCHOP; }
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(?i:bc) { yylval.u_op = OP_BRC; return BRANCHOP; }
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(?i:brv) { yylval.u_op = OP_BRV; return BRANCHOP; }
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(?i:bv) { yylval.u_op = OP_BRV; return BRANCHOP; }
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dgisselq |
(?i:clr) { yylval.u_op = OP_CLR; return SINGLOP; }
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dgisselq |
(?i:clrf) { yylval.u_op = OP_CLRF;return SINGLOP; }
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dgisselq |
(?i:int) { yylval.u_op = OP_TRAP;return SINGLOP; }
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dgisselq |
(?i:trap) { yylval.u_op = OP_TRAP;return SINGLOP; }
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dgisselq |
(?i:jmp) { yylval.u_op = OP_JMP; return SINGLOP; }
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dgisselq |
(?i:ljmp) { yylval.u_op = OP_LJMP;return SINGLOP; }
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dgisselq |
(?i:neg) { yylval.u_op = OP_NEG; return SINGLOP; }
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(?i:not) { yylval.u_op = OP_NOT; return SINGLOP; }
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(?i:cmp) { yylval.u_op = OP_CMP; return DUALOP; }
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(?i:tst) { yylval.u_op = OP_TST; return DUALOP; }
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(?i:mov) { yylval.u_op = OP_MOV; return DUALOP; }
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(?i:ldi) { yylval.u_op = OP_LDI; return LDIOP; }
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dgisselq |
(?i:ldihi) { yylval.u_op =OP_LDIHI; return LDHLOP; }
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(?i:lhi) { yylval.u_op =OP_LDIHI; return LDHLOP; }
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(?i:ldilo) { yylval.u_op =OP_LDILO; return LDHLOP; }
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(?i:llo) { yylval.u_op =OP_LDILO; return LDHLOP; }
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dgisselq |
(?i:mpyu) { yylval.u_op = OP_MPYU; return DUALOP; }
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(?i:mpys) { yylval.u_op = OP_MPYS; return DUALOP; }
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(?i:rol) { yylval.u_op = OP_ROL; return DUALOP; }
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(?i:sub) { yylval.u_op = OP_SUB; return DUALOP; }
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(?i:and) { yylval.u_op = OP_AND; return DUALOP; }
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(?i:add) { yylval.u_op = OP_ADD; return DUALOP; }
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(?i:or) { yylval.u_op = OP_OR; return DUALOP;; }
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(?i:xor) { yylval.u_op = OP_XOR; return DUALOP; }
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(?i:lsl) { yylval.u_op = OP_LSL; return DUALOP; }
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(?i:asr) { yylval.u_op = OP_ASR; return DUALOP; }
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(?i:lsr) { yylval.u_op = OP_LSR; return DUALOP; }
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(?i:lod) { yylval.u_op = OP_LOD; return LOADOP; }
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(?i:sto) { yylval.u_op = OP_STO; return STOROP; }
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(?i:halt) { yylval.u_op = OP_HALT; return BAREOP; }
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(?i:wait) { yylval.u_op = OP_HALT; return BAREOP; }
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(?i:rtu) { yylval.u_op = OP_RTU; return BAREOP; }
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dgisselq |
(?i:retn) { yylval.u_op = OP_RETN; return BAREOP; }
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(?i:ret) { yylval.u_op = OP_RETN; return BAREOP; }
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dgisselq |
(?i:nop) { yylval.u_op = OP_NOOP; return BAREOP; }
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(?i:noop) { yylval.u_op = OP_NOOP; return BAREOP; }
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(?i:break) { yylval.u_op = OP_BREAK; return BAREOP; }
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(?i:brk) { yylval.u_op = OP_BREAK; return BAREOP; }
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(?i:busy) { yylval.u_op = OP_BUSY; return BAREOP; }
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dgisselq |
(?i:brev) { yylval.u_op = OP_BREV; return DUALOP; }
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(?i:popc) { yylval.u_op = OP_POPC; return DUALOP; }
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(?i:divu) { yylval.u_op = OP_DIVU; return DUALOP; }
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(?i:divs) { yylval.u_op = OP_DIVS; return DUALOP; }
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(?i:fpadd) { yylval.u_op = OP_FPADD; return DUALOP; }
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(?i:fpsub) { yylval.u_op = OP_FPSUB; return DUALOP; }
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(?i:fpmul) { yylval.u_op = OP_FPMUL; return DUALOP; }
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(?i:fpdiv) { yylval.u_op = OP_FPDIV; return DUALOP; }
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(?i:fpcvt) { yylval.u_op = OP_FPCVT; return DUALOP; }
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(?i:fpint) { yylval.u_op = OP_FPINT; return DUALOP; }
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dgisselq |
(?i:equ) { return EQU; }
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(?i:fill) { return FILL; }
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(?i:word) { return WORD; }
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dgisselq |
"__"[hH][eE][rR][eE]"__" { return HERE; }
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[\.][dD][aA][tT] { return WORD; }
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dgisselq |
[\.](?i:z)/[ \t\n] { yylval.u_cond = ZPARSER::ZIPC_Z; return COND; }
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[\.](?i:ne)/[ \t\n] { yylval.u_cond = ZPARSER::ZIPC_NZ; return COND; }
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[\.](?i:nz)/[ \t\n] { yylval.u_cond = ZPARSER::ZIPC_NZ; return COND; }
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[\.](?i:ge)/[ \t\n] { yylval.u_cond = ZPARSER::ZIPC_GE; return COND; }
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[\.](?i:gt)/[ \t\n] { yylval.u_cond = ZPARSER::ZIPC_GT; return COND; }
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[\.](?i:lt)/[ \t\n] { yylval.u_cond = ZPARSER::ZIPC_LT; return COND; }
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[\.](?i:n)/[ \t\n] { yylval.u_cond = ZPARSER::ZIPC_LT; return COND; }
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[\.](?i:c)/[ \t\n] { yylval.u_cond = ZPARSER::ZIPC_C; return COND; }
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[\.](?i:v)/[ \t\n] { yylval.u_cond = ZPARSER::ZIPC_V; return COND; }
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[_A-Za-z][_a-zA-Z0-9]* { yylval.u_id = strdup(yytext); return IDENTIFIER; }
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dgisselq |
"$"?[-]?0[xX][0-9A-Fa-f]+ { yylval.u_ival = strtoul(yytext+(((*yytext)=='$')?1:0),NULL,16);return INT;}
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"$"?[-]?0[0-7]+ { yylval.u_ival = strtoul(yytext+(((*yytext)=='$')?1:0),NULL, 8);return INT;}
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"$"?[-]?[1-9][0-9]* { yylval.u_ival = strtoul(yytext+(((*yytext)=='$')?1:0),NULL,10);return INT;}
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"$"?[-]?[1-9A-Fa-f][0-9A-Fa-f]*h {yylval.u_ival=strtoul(yytext+(((*yytext)=='$')?1:0),NULL,16); return INT;}
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dgisselq |
"$"?[-]?[0-7]+o { yylval.u_ival = strtoul(yytext+(((*yytext)=='$')?1:0),NULL, 8);return INT;}
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dgisselq |
"\'"(("\\\'")|([^'\\])|("\\"[0abfnrtv])|("\\\\")|("\\\"")){1,4}"\'" {
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yylval.u_ival = decode_char_int(&yytext[1]); return INT; }
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dgisselq |
"$"?"0" { yylval.u_ival = 0;return INT;}
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"$" { return DOLLAR; }
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"," { return COMMA; }
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"+" { return PLUS; }
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"-" { return MINUS; }
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"*" { return TIMES; }
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"||" { return BOOLEANOR; }
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"|" { return BITWISEOR; }
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"&&" { return BOOLEANAND; }
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"&" { return BITWISEAND; }
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"^" { return BITWISEXOR; }
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":" { return COLON; }
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"." { return DOT; }
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dgisselq |
"%" { return '%'; }
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dgisselq |
[ \t]+ { }
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[(] { return '('; }
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[)] { return ')'; }
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\n.* { if (linecp) free(linecp); linecp = strdup(&yytext[1]); yyless(1); return '\n'; }
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%%
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196 |
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197 |
54 |
dgisselq |
int decode_char_int(const char *str) {
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unsigned r = 0;
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// fprintf(stderr, "Decoding character string: \'%s\n", str);
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while((*str)&&('\'' != (*str))) {
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if ('\\' == (*str)) {
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// Process escape characters
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str++;
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if ('\0' != (*str)) {
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r<<=8;
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switch(*str) {
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case '0': break;
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case 'a': r |= '\a'; break;
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case 'b': r |= '\b'; break;
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case 'n': r |= '\n'; break;
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case 'f': r |= '\f'; break;
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case 'r': r |= '\r'; break;
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case 't': r |= '\t'; break;
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case 'v': r |= '\v'; break;
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case '\'': r |= '\''; break;
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216 |
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case '\"': r |= '\"'; break;
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217 |
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case '\\': r |= '\\'; break;
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} str++;
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}
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220 |
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} else {
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r = (r<<8)|(*str);
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str++;
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}
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} return r;
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}
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