Frankenstein Cross Assemblers, Hitachi 6301/3, Part 2 of 2
Mark Zenier
markz at ssc.UUCP
Fri Dec 7 11:18:26 AEST 1990
---- Cut Here and feed the following to sh ----
#!/bin/sh
# This is part 02 of Frankasm/As6301
# ============= as6301.y ==============
if test -f 'as6301.y' -a X"$1" != X"-c"; then
echo 'x - skipping as6301.y (File already exists)'
else
echo 'x - extracting as6301.y (Text)'
sed 's/^X//' << 'SHAR_EOF' > 'as6301.y' &&
X%{
X
X/*
XHEADER: ;
XTITLE: Frankenstein Cross Assemblers;
XVERSION: 2.0;
XDESCRIPTION: " Reconfigurable Cross-assembler producing Intel (TM)
X Hex format object records. ";
XKEYWORDS: cross-assemblers, 1805, 2650, 6301, 6502, 6805, 6809,
X 6811, tms7000, 8048, 8051, 8096, z8, z80;
XSYSTEM: UNIX, MS-Dos ;
XFILENAME: as6301.y;
XWARNINGS: "This software is in the public domain.
X Any prior copyright claims are relinquished.
X
X This software is distributed with no warranty whatever.
X The author takes no responsibility for the consequences
X of its use.
X
X Yacc (or Bison) required to compile." ;
XSEE-ALSO: as6301.doc,frasmain.c;
XAUTHORS: Mark Zenier;
XCOMPILERS: Microport Sys V/AT, ATT Yacc, Turbo C V1.5, Bison (CUG disk 285)
X (previous versions Xenix, Unisoft 68000 Version 7, Sun 3);
X*/
X/* 6301 instruction generation file */
X/* November 17, 1990 */
X
X/*
X description frame work parser description for framework cross
X assemblers
X history February 2, 1988
X September 11, 1990 - merge table definition
X September 12, 1990 - short file names
X September 14, 1990 - short variable names
X September 17, 1990 - use yylex as external
X*/
X#include <stdio.h>
X#include "frasmdat.h"
X#include "fragcon.h"
X
X#define yylex lexintercept
X
X/*
X file fraselcrit.h
X author Mark Zenier
X description Selection criteria and token values for 6301
X framework assembler
X usage framework cross assembler
X history September 19, 1987
X*/
X
X /* 0000.0000.xxxx.xxxx */
X#define BITNUMB 0xff
X#define BIT0 0x01
X#define BIT1 0x02
X#define BIT2 0x04
X#define BIT3 0x08
X#define BIT4 0x10
X#define BIT5 0x20
X#define BIT6 0x40
X#define BIT7 0x80
X
X /* 0000.00xx.0000.0000 */
X#define ACCREG 0x300
X#define REGA 0x100
X#define REGB 0x200
X
X /* 0000.xx00.0000.0000 */
X#define ADDR 0xc00
X#define DIRECT 0x400
X#define EXTENDED 0x800
X
X#define ST_INH 0x1
X#define ST_ACC 0x2
X#define ST_INDREG 0x4
X#define ST_EXP 0x8
X#define ST_IMM 0x10
X#define ST_IND 0x20
X#define ST_AEXP 0x40
X#define ST_AIMM 0x80
X#define ST_AIND 0x100
X#define ST_BSET 0x200
X#define ST_BSETIND 0x400
X#define ST_MEMIMM 0x800
X#define ST_MEMIMMIND 0x1000
X
X static char genbdef[] = "[1=];";
X static char genwdef[] = "[1=]x";
X char ignosyn[] = "[Xinvalid syntax for instruction";
X char ignosel[] = "[Xinvalid operands";
X
X long labelloc;
X static int satsub;
X int ifstkpt = 0;
X int fraifskip = FALSE;
X
X struct symel * endsymbol = SYMNULL;
X
X%}
X%union {
X int intv;
X long longv;
X char *strng;
X struct symel *symb;
X struct {int indexv, ex; } inetre;
X}
X
X%token <intv> ACCUM
X%token <intv> INDEX
X%type <inetre> indexed
X%token <intv> KOC_BDEF
X%token <intv> KOC_ELSE
X%token <intv> KOC_END
X%token <intv> KOC_ENDI
X%token <intv> KOC_EQU
X%token <intv> KOC_IF
X%token <intv> KOC_INCLUDE
X%token <intv> KOC_ORG
X%token <intv> KOC_RESM
X%token <intv> KOC_SDEF
X%token <intv> KOC_SET
X%token <intv> KOC_WDEF
X%token <intv> KOC_CHSET
X%token <intv> KOC_CHDEF
X%token <intv> KOC_CHUSE
X%token <intv> KOC_opcode
X
X%token <longv> CONSTANT
X%token EOL
X%token KEOP_AND
X%token KEOP_DEFINED
X%token KEOP_EQ
X%token KEOP_GE
X%token KEOP_GT
X%token KEOP_HIGH
X%token KEOP_LE
X%token KEOP_LOW
X%token KEOP_LT
X%token KEOP_MOD
X%token KEOP_MUN
X%token KEOP_NE
X%token KEOP_NOT
X%token KEOP_OR
X%token KEOP_SHL
X%token KEOP_SHR
X%token KEOP_XOR
X%token KEOP_locctr
X%token <symb> LABEL
X%token <strng> STRING
X%token <symb> SYMBOL
X
X%token KTK_invalid
X
X%right KEOP_HIGH KEOP_LOW
X%left KEOP_OR KEOP_XOR
X%left KEOP_AND
X%right KEOP_NOT
X%nonassoc KEOP_GT KEOP_GE KEOP_LE KEOP_LT KEOP_NE KEOP_EQ
X%left '+' '-'
X%left '*' '/' KEOP_MOD KEOP_SHL KEOP_SHR
X%right KEOP_MUN
X
X
X%type <intv> expr exprlist stringlist
X
X%start file
X
X%%
X
Xfile : file allline
X | allline
X ;
X
Xallline : line EOL
X {
X clrexpr();
X }
X | EOL
X | error EOL
X {
X clrexpr();
X yyerrok;
X }
X ;
X
Xline : LABEL KOC_END
X {
X endsymbol = $1;
X nextreadact = Nra_end;
X }
X | KOC_END
X {
X nextreadact = Nra_end;
X }
X | KOC_INCLUDE STRING
X {
X if(nextfstk >= FILESTKDPTH)
X {
X fraerror("include file nesting limit exceeded");
X }
X else
X {
X infilestk[nextfstk].fnm = savestring($2,strlen($2));
X if( (infilestk[nextfstk].fpt = fopen($2,"r"))
X ==(FILE *)NULL )
X {
X fraerror("cannot open include file");
X }
X else
X {
X nextreadact = Nra_new;
X }
X }
X }
X | LABEL KOC_EQU expr
X {
X if($1 -> seg == SSG_UNDEF)
X {
X pevalexpr(0, $3);
X if(evalr[0].seg == SSG_ABS)
X {
X $1 -> seg = SSG_EQU;
X $1 -> value = evalr[0].value;
X prtequvalue("C: 0x%lx\n",
X evalr[0].value);
X }
X else
X {
X fraerror(
X "noncomputable expression for EQU");
X }
X }
X else
X {
X fraerror(
X "cannot change symbol value with EQU");
X }
X }
X | LABEL KOC_SET expr
X {
X if($1 -> seg == SSG_UNDEF
X || $1 -> seg == SSG_SET)
X {
X pevalexpr(0, $3);
X if(evalr[0].seg == SSG_ABS)
X {
X $1 -> seg = SSG_SET;
X $1 -> value = evalr[0].value;
X prtequvalue("C: 0x%lx\n",
X evalr[0].value);
X }
X else
X {
X fraerror(
X "noncomputable expression for SET");
X }
X }
X else
X {
X fraerror(
X "cannot change symbol value with SET");
X }
X }
X | KOC_IF expr
X {
X if((++ifstkpt) < IFSTKDEPTH)
X {
X pevalexpr(0, $2);
X if(evalr[0].seg == SSG_ABS)
X {
X if(evalr[0].value != 0)
X {
X elseifstk[ifstkpt] = If_Skip;
X endifstk[ifstkpt] = If_Active;
X }
X else
X {
X fraifskip = TRUE;
X elseifstk[ifstkpt] = If_Active;
X endifstk[ifstkpt] = If_Active;
X }
X }
X else
X {
X fraifskip = TRUE;
X elseifstk[ifstkpt] = If_Active;
X endifstk[ifstkpt] = If_Active;
X }
X }
X else
X {
X fraerror("IF stack overflow");
X }
X }
X
X | KOC_IF
X {
X if(fraifskip)
X {
X if((++ifstkpt) < IFSTKDEPTH)
X {
X elseifstk[ifstkpt] = If_Skip;
X endifstk[ifstkpt] = If_Skip;
X }
X else
X {
X fraerror("IF stack overflow");
X }
X }
X else
X {
X yyerror("syntax error");
X YYERROR;
X }
X }
X
X | KOC_ELSE
X {
X switch(elseifstk[ifstkpt])
X {
X case If_Active:
X fraifskip = FALSE;
X break;
X
X case If_Skip:
X fraifskip = TRUE;
X break;
X
X case If_Err:
X fraerror("ELSE with no matching if");
X break;
X }
X }
X
X | KOC_ENDI
X {
X switch(endifstk[ifstkpt])
X {
X case If_Active:
X fraifskip = FALSE;
X ifstkpt--;
X break;
X
X case If_Skip:
X fraifskip = TRUE;
X ifstkpt--;
X break;
X
X case If_Err:
X fraerror("ENDI with no matching if");
X break;
X }
X }
X | LABEL KOC_ORG expr
X {
X pevalexpr(0, $3);
X if(evalr[0].seg == SSG_ABS)
X {
X locctr = labelloc = evalr[0].value;
X if($1 -> seg == SSG_UNDEF)
X {
X $1 -> seg = SSG_ABS;
X $1 -> value = labelloc;
X }
X else
X fraerror(
X "multiple definition of label");
X prtequvalue("C: 0x%lx\n",
X evalr[0].value);
X }
X else
X {
X fraerror(
X "noncomputable expression for ORG");
X }
X }
X | KOC_ORG expr
X {
X pevalexpr(0, $2);
X if(evalr[0].seg == SSG_ABS)
X {
X locctr = labelloc = evalr[0].value;
X prtequvalue("C: 0x%lx\n",
X evalr[0].value);
X }
X else
X {
X fraerror(
X "noncomputable expression for ORG");
X }
X }
X | LABEL KOC_CHSET
X {
X if($1 -> seg == SSG_UNDEF)
X {
X $1 -> seg = SSG_EQU;
X if( ($1->value = chtcreate()) <= 0)
X {
X fraerror( "cannot create character translation table");
X }
X prtequvalue("C: 0x%lx\n", $1 -> value);
X }
X else
X {
X fraerror( "multiple definition of label");
X }
X }
X | KOC_CHUSE
X {
X chtcpoint = (int *) NULL;
X prtequvalue("C: 0x%lx\n", 0L);
X }
X | KOC_CHUSE expr
X {
X pevalexpr(0, $2);
X if( evalr[0].seg == SSG_ABS)
X {
X if( evalr[0].value == 0)
X {
X chtcpoint = (int *)NULL;
X prtequvalue("C: 0x%lx\n", 0L);
X }
X else if(evalr[0].value < chtnxalph)
X {
X chtcpoint = chtatab[evalr[0].value];
X prtequvalue("C: 0x%lx\n", evalr[0].value);
X }
X else
X {
X fraerror("nonexistent character translation table");
X }
X }
X else
X {
X fraerror("noncomputable expression");
X }
X }
X | KOC_CHDEF STRING ',' exprlist
X {
X int findrv, numret, *charaddr;
X char *sourcestr = $2, *before;
X
X if(chtnpoint != (int *)NULL)
X {
X for(satsub = 0; satsub < $4; satsub++)
X {
X before = sourcestr;
X
X pevalexpr(0, exprlist[satsub]);
X findrv = chtcfind(chtnpoint, &sourcestr,
X &charaddr, &numret);
X if(findrv == CF_END)
X {
X fraerror("more expressions than characters");
X break;
X }
X
X if(evalr[0].seg == SSG_ABS)
X {
X switch(findrv)
X {
X case CF_UNDEF:
X {
X if(evalr[0].value < 0 ||
X evalr[0].value > 255)
X {
X frawarn("character translation value truncated");
X }
X *charaddr = evalr[0].value & 0xff;
X prtequvalue("C: 0x%lx\n", evalr[0].value);
X }
X break;
X
X case CF_INVALID:
X case CF_NUMBER:
X fracherror("invalid character to define",
X before, sourcestr);
X break;
X
X case CF_CHAR:
X fracherror("character already defined",
X before, sourcestr);
X break;
X }
X }
X else
X {
X fraerror("noncomputable expression");
X }
X }
X
X if( *sourcestr != '\0')
X {
X fraerror("more characters than expressions");
X }
X }
X else
X {
X fraerror("no CHARSET statement active");
X }
X
X }
X | LABEL
X {
X if($1 -> seg == SSG_UNDEF)
X {
X $1 -> seg = SSG_ABS;
X $1 -> value = labelloc;
X prtequvalue("C: 0x%lx\n", labelloc);
X
X }
X else
X fraerror(
X "multiple definition of label");
X }
X | labeledline
X ;
X
Xlabeledline : LABEL genline
X {
X if($1 -> seg == SSG_UNDEF)
X {
X $1 -> seg = SSG_ABS;
X $1 -> value = labelloc;
X }
X else
X fraerror(
X "multiple definition of label");
X labelloc = locctr;
X }
X
X | genline
X {
X labelloc = locctr;
X }
X ;
X
Xgenline : KOC_BDEF exprlist
X {
X genlocrec(currseg, labelloc);
X for( satsub = 0; satsub < $2; satsub++)
X {
X pevalexpr(1, exprlist[satsub]);
X locctr += geninstr(genbdef);
X }
X }
X | KOC_SDEF stringlist
X {
X genlocrec(currseg, labelloc);
X for(satsub = 0; satsub < $2; satsub++)
X {
X locctr += genstring(stringlist[satsub]);
X }
X }
X | KOC_WDEF exprlist
X {
X genlocrec(currseg, labelloc);
X for( satsub = 0; satsub < $2; satsub++)
X {
X pevalexpr(1, exprlist[satsub]);
X locctr += geninstr(genwdef);
X }
X }
X | KOC_RESM expr
X {
X pevalexpr(0, $2);
X if(evalr[0].seg == SSG_ABS)
X {
X locctr = labelloc + evalr[0].value;
X prtequvalue("C: 0x%lx\n", labelloc);
X }
X else
X {
X fraerror(
X "noncomputable result for RMB expression");
X }
X }
X ;
X
Xexprlist : exprlist ',' expr
X {
X exprlist[nextexprs ++ ] = $3;
X $$ = nextexprs;
X }
X | expr
X {
X nextexprs = 0;
X exprlist[nextexprs ++ ] = $1;
X $$ = nextexprs;
X }
X ;
X
Xstringlist : stringlist ',' STRING
X {
X stringlist[nextstrs ++ ] = $3;
X $$ = nextstrs;
X }
X | STRING
X {
X nextstrs = 0;
X stringlist[nextstrs ++ ] = $1;
X $$ = nextstrs;
X }
X ;
X
X
Xgenline : KOC_opcode
X {
X genlocrec(currseg, labelloc);
X locctr += geninstr(findgen($1, ST_INH, 0));
X }
X ;
Xgenline : KOC_opcode ACCUM
X {
X genlocrec(currseg, labelloc);
X locctr += geninstr(findgen($1, ST_ACC, $2));
X }
X ;
Xgenline : KOC_opcode INDEX
X {
X genlocrec(currseg, labelloc);
X locctr += geninstr(findgen($1, ST_INDREG, 0));
X }
X ;
Xgenline : KOC_opcode expr
X {
X pevalexpr(1, $2);
X genlocrec(currseg, labelloc);
X locctr += geninstr( findgen( $1, ST_EXP,
X ( (evalr[1].seg == SSG_ABS
X && evalr[1].value >= 0
X && evalr[1].value <= 255 )
X ? DIRECT : EXTENDED ) )
X );
X }
X ;
Xgenline : KOC_opcode '#' expr
X {
X pevalexpr(1, $3);
X genlocrec(currseg, labelloc);
X locctr += geninstr( findgen($1, ST_IMM, 0));
X }
X ;
Xgenline : KOC_opcode indexed
X {
X pevalexpr(1, $2.ex);
X genlocrec(currseg, labelloc);
X locctr += geninstr( findgen($1, ST_IND, 0));
X }
X ;
Xgenline : KOC_opcode ACCUM expr
X {
X pevalexpr(1, $3);
X genlocrec(currseg, labelloc);
X locctr += geninstr(findgen( $1, ST_AEXP, $2
X + ( (evalr[1].seg == SSG_ABS
X && evalr[1].value >= 0
X && evalr[1].value <= 255 )
X ? DIRECT : EXTENDED ) ) );
X }
X ;
Xgenline : KOC_opcode ACCUM '#' expr
X {
X pevalexpr(1,$4);
X genlocrec(currseg, labelloc);
X locctr += geninstr( findgen($1, ST_AIMM, $2 ));
X }
X ;
Xgenline : KOC_opcode ACCUM indexed
X {
X pevalexpr(1, $3.ex);
X genlocrec(currseg, labelloc);
X locctr += geninstr( findgen($1, ST_AIND, $2));
X }
X ;
Xgenline : KOC_opcode expr ',' expr
X {
X pevalexpr(1,$2);
X if(evalr[1].seg != SSG_ABS ||
X evalr[1].value < 0 ||
X evalr[1].value > 7)
X {
X evalr[1].value = 0;
X fraerror("impossible bit number");
X }
X pevalexpr(2,$4);
X genlocrec(currseg, labelloc);
X locctr += geninstr( findgen( $1, ST_BSET, 1<<evalr[1].value));
X }
X ;
Xgenline : KOC_opcode expr ',' indexed
X {
X pevalexpr(1,$2);
X if(evalr[1].seg != SSG_ABS ||
X evalr[1].value < 0 ||
X evalr[1].value > 7)
X {
X evalr[1].value = 0;
X fraerror("impossible bit number");
X }
X pevalexpr(2,$4.ex);
X genlocrec(currseg, labelloc);
X locctr += geninstr( findgen( $1, ST_BSETIND,
X 1<<evalr[1].value));
X }
X ;
Xgenline : KOC_opcode '#' expr ',' expr
X {
X pevalexpr(1, $3);
X pevalexpr(2, $5);
X genlocrec(currseg, labelloc);
X locctr += geninstr( findgen( $1, ST_MEMIMM, 0));
X }
X ;
Xgenline : KOC_opcode '#' expr ',' indexed
X {
X pevalexpr(1, $3);
X pevalexpr(2, $5.ex);
X genlocrec(currseg, labelloc);
X locctr += geninstr( findgen( $1, ST_MEMIMMIND, 0));
X }
X ;
Xindexed : INDEX ',' expr
X {
X $$.ex = $3;
X $$.indexv = $1;
X }
X | expr ',' INDEX
X {
X $$.ex = $1;
X $$.indexv = $3;
X }
X ;
X
Xexpr : '+' expr %prec KEOP_MUN
X {
X $$ = $2;
X }
X | '-' expr %prec KEOP_MUN
X {
X $$ = exprnode(PCCASE_UN,$2,IFC_NEG,0,0L,
X SYMNULL);
X }
X | KEOP_NOT expr
X {
X $$ = exprnode(PCCASE_UN,$2,IFC_NOT,0,0L,
X SYMNULL);
X }
X | KEOP_HIGH expr
X {
X $$ = exprnode(PCCASE_UN,$2,IFC_HIGH,0,0L,
X SYMNULL);
X }
X | KEOP_LOW expr
X {
X $$ = exprnode(PCCASE_UN,$2,IFC_LOW,0,0L,
X SYMNULL);
X }
X | expr '*' expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_MUL,$3,0L,
X SYMNULL);
X }
X | expr '/' expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_DIV,$3,0L,
X SYMNULL);
X }
X | expr '+' expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_ADD,$3,0L,
X SYMNULL);
X }
X | expr '-' expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_SUB,$3,0L,
X SYMNULL);
X }
X | expr KEOP_MOD expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_MOD,$3,0L,
X SYMNULL);
X }
X | expr KEOP_SHL expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_SHL,$3,0L,
X SYMNULL);
X }
X | expr KEOP_SHR expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_SHR,$3,0L,
X SYMNULL);
X }
X | expr KEOP_GT expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_GT,$3,0L,
X SYMNULL);
X }
X | expr KEOP_GE expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_GE,$3,0L,
X SYMNULL);
X }
X | expr KEOP_LT expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_LT,$3,0L,
X SYMNULL);
X }
X | expr KEOP_LE expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_LE,$3,0L,
X SYMNULL);
X }
X | expr KEOP_NE expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_NE,$3,0L,
X SYMNULL);
X }
X | expr KEOP_EQ expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_EQ,$3,0L,
X SYMNULL);
X }
X | expr KEOP_AND expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_AND,$3,0L,
X SYMNULL);
X }
X | expr KEOP_OR expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_OR,$3,0L,
X SYMNULL);
X }
X | expr KEOP_XOR expr
X {
X $$ = exprnode(PCCASE_BIN,$1,IFC_XOR,$3,0L,
X SYMNULL);
X }
X | KEOP_DEFINED SYMBOL
X {
X $$ = exprnode(PCCASE_DEF,0,IGP_DEFINED,0,0L,$2);
X }
X | SYMBOL
X {
X $$ = exprnode(PCCASE_SYMB,0,IFC_SYMB,0,0L,$1);
X }
X | '*'
X {
X $$ = exprnode(PCCASE_PROGC,0,IFC_PROGCTR,0,
X labelloc, SYMNULL);
X }
X | CONSTANT
X {
X $$ = exprnode(PCCASE_CONS,0,IGP_CONSTANT,0,$1,
X SYMNULL);
X }
X | STRING
X {
X char *sourcestr = $1;
X long accval = 0;
X
X if(strlen($1) > 0)
X {
X accval = chtran(&sourcestr);
X if(*sourcestr != '\0')
X {
X accval = (accval << 8) +
X chtran(&sourcestr);
X }
X
X if( *sourcestr != '\0')
X {
X frawarn("string constant in expression more than 2 characters long");
X }
X }
X $$ = exprnode(PCCASE_CONS, 0, IGP_CONSTANT, 0,
X accval, SYMNULL);
X }
X | '(' expr ')'
X {
X $$ = $2;
X }
X ;
X
X
X%%
X
Xlexintercept()
X/*
X description intercept the call to yylex (the lexical analyzer)
X and filter out all unnecessary tokens when skipping
X the input between a failed IF and its matching ENDI or
X ELSE
X globals fraifskip the enable flag
X*/
X{
X#undef yylex
X
X int rv;
X
X if(fraifskip)
X {
X for(;;)
X {
X
X switch(rv = yylex())
X
X {
X case 0:
X case KOC_END:
X case KOC_IF:
X case KOC_ELSE:
X case KOC_ENDI:
X case EOL:
X return rv;
X default:
X break;
X }
X }
X }
X else
X return yylex();
X#define yylex lexintercept
X}
X
X
Xsetreserved()
X{
X
X reservedsym("and", KEOP_AND, 0);
X reservedsym("defined", KEOP_DEFINED,0);
X reservedsym("eq", KEOP_EQ, 0);
X reservedsym("ge", KEOP_GE, 0);
X reservedsym("gt", KEOP_GT, 0);
X reservedsym("high", KEOP_HIGH, 0);
X reservedsym("le", KEOP_LE, 0);
X reservedsym("low", KEOP_LOW, 0);
X reservedsym("lt", KEOP_LT, 0);
X reservedsym("mod", KEOP_MOD, 0);
X reservedsym("ne", KEOP_NE, 0);
X reservedsym("not", KEOP_NOT, 0);
X reservedsym("or", KEOP_OR, 0);
X reservedsym("shl", KEOP_SHL, 0);
X reservedsym("shr", KEOP_SHR, 0);
X reservedsym("xor", KEOP_XOR, 0);
X reservedsym("AND", KEOP_AND, 0);
X reservedsym("DEFINED", KEOP_DEFINED,0);
X reservedsym("EQ", KEOP_EQ, 0);
X reservedsym("GE", KEOP_GE, 0);
X reservedsym("GT", KEOP_GT, 0);
X reservedsym("HIGH", KEOP_HIGH, 0);
X reservedsym("LE", KEOP_LE, 0);
X reservedsym("LOW", KEOP_LOW, 0);
X reservedsym("LT", KEOP_LT, 0);
X reservedsym("MOD", KEOP_MOD, 0);
X reservedsym("NE", KEOP_NE, 0);
X reservedsym("NOT", KEOP_NOT, 0);
X reservedsym("OR", KEOP_OR, 0);
X reservedsym("SHL", KEOP_SHL, 0);
X reservedsym("SHR", KEOP_SHR, 0);
X reservedsym("XOR", KEOP_XOR, 0);
X
X
X reservedsym("a", ACCUM, REGA);
X reservedsym("b", ACCUM, REGB);
X reservedsym("x", INDEX, 0);
X reservedsym("A", ACCUM, REGA);
X reservedsym("B", ACCUM, REGB);
X reservedsym("X", INDEX, 0);
X}
X
Xcpumatch(str)
X char * str;
X{
X return TRUE;
X}
X
X/*
X description Opcode and Instruction generation tables
X usage Unix, framework crossassembler
X history September 25, 1987
X*/
X
X#define NUMOPCODE 171
X#define NUMSYNBLK 263
X#define NUMDIFFOP 419
X
Xint gnumopcode = NUMOPCODE;
X
Xint ophashlnk[NUMOPCODE];
X
Xstruct opsym optab[NUMOPCODE+1]
X = {
X {"invalid", KOC_opcode, 2, 0 },
X {"ABA", KOC_opcode, 1, 2 },
X {"ABX", KOC_opcode, 1, 3 },
X {"ADC", KOC_opcode, 3, 4 },
X {"ADCA", KOC_opcode, 3, 7 },
X {"ADCB", KOC_opcode, 3, 10 },
X {"ADD", KOC_opcode, 3, 13 },
X {"ADDA", KOC_opcode, 3, 16 },
X {"ADDB", KOC_opcode, 3, 19 },
X {"ADDD", KOC_opcode, 3, 22 },
X {"AIM", KOC_opcode, 2, 25 },
X {"AND", KOC_opcode, 3, 27 },
X {"ANDA", KOC_opcode, 3, 30 },
X {"ANDB", KOC_opcode, 3, 33 },
X {"ASL", KOC_opcode, 3, 36 },
X {"ASLA", KOC_opcode, 1, 39 },
X {"ASLB", KOC_opcode, 1, 40 },
X {"ASLD", KOC_opcode, 1, 41 },
X {"ASR", KOC_opcode, 3, 42 },
X {"ASRA", KOC_opcode, 1, 45 },
X {"ASRB", KOC_opcode, 1, 46 },
X {"BCC", KOC_opcode, 1, 47 },
X {"BCLR", KOC_opcode, 2, 48 },
X {"BCS", KOC_opcode, 1, 50 },
X {"BEQ", KOC_opcode, 1, 51 },
X {"BGE", KOC_opcode, 1, 52 },
X {"BGT", KOC_opcode, 1, 53 },
X {"BHI", KOC_opcode, 1, 54 },
X {"BHS", KOC_opcode, 1, 55 },
X {"BIT", KOC_opcode, 3, 56 },
X {"BITA", KOC_opcode, 3, 59 },
X {"BITB", KOC_opcode, 3, 62 },
X {"BLE", KOC_opcode, 1, 65 },
X {"BLO", KOC_opcode, 1, 66 },
X {"BLS", KOC_opcode, 1, 67 },
X {"BLT", KOC_opcode, 1, 68 },
X {"BMI", KOC_opcode, 1, 69 },
X {"BNE", KOC_opcode, 1, 70 },
X {"BPL", KOC_opcode, 1, 71 },
X {"BRA", KOC_opcode, 1, 72 },
X {"BRN", KOC_opcode, 1, 73 },
X {"BSET", KOC_opcode, 2, 74 },
X {"BSR", KOC_opcode, 1, 76 },
X {"BTGL", KOC_opcode, 2, 77 },
X {"BTST", KOC_opcode, 2, 79 },
X {"BVC", KOC_opcode, 1, 81 },
X {"BVS", KOC_opcode, 1, 82 },
X {"BYTE", KOC_BDEF, 0, 0 },
X {"CBA", KOC_opcode, 1, 83 },
X {"CHARDEF", KOC_CHDEF, 0, 0 },
X {"CHARSET", KOC_CHSET, 0, 0 },
X {"CHARUSE", KOC_CHUSE, 0, 0 },
X {"CHD", KOC_CHDEF, 0, 0 },
X {"CLC", KOC_opcode, 1, 84 },
X {"CLI", KOC_opcode, 1, 85 },
X {"CLR", KOC_opcode, 3, 86 },
X {"CLRA", KOC_opcode, 1, 89 },
X {"CLRB", KOC_opcode, 1, 90 },
X {"CLV", KOC_opcode, 1, 91 },
X {"CMP", KOC_opcode, 3, 92 },
X {"CMPA", KOC_opcode, 3, 95 },
X {"CMPB", KOC_opcode, 3, 98 },
X {"COM", KOC_opcode, 3, 101 },
X {"COMA", KOC_opcode, 1, 104 },
X {"COMB", KOC_opcode, 1, 105 },
X {"CPX", KOC_opcode, 3, 106 },
X {"DAA", KOC_opcode, 1, 109 },
X {"DB", KOC_BDEF, 0, 0 },
X {"DEC", KOC_opcode, 3, 110 },
X {"DECA", KOC_opcode, 1, 113 },
X {"DECB", KOC_opcode, 1, 114 },
X {"DES", KOC_opcode, 1, 115 },
X {"DEX", KOC_opcode, 1, 116 },
X {"DW", KOC_WDEF, 0, 0 },
X {"EIM", KOC_opcode, 2, 117 },
X {"ELSE", KOC_ELSE, 0, 0 },
X {"END", KOC_END, 0, 0 },
X {"ENDI", KOC_ENDI, 0, 0 },
X {"EOR", KOC_opcode, 3, 119 },
X {"EORA", KOC_opcode, 3, 122 },
X {"EORB", KOC_opcode, 3, 125 },
X {"EQU", KOC_EQU, 0, 0 },
X {"FCB", KOC_BDEF, 0, 0 },
X {"FCC", KOC_SDEF, 0, 0 },
X {"FDB", KOC_WDEF, 0, 0 },
X {"IF", KOC_IF, 0, 0 },
X {"INC", KOC_opcode, 3, 128 },
X {"INCA", KOC_opcode, 1, 131 },
X {"INCB", KOC_opcode, 1, 132 },
X {"INCL", KOC_INCLUDE, 0, 0 },
X {"INCLUDE", KOC_INCLUDE, 0, 0 },
X {"INS", KOC_opcode, 1, 133 },
X {"INX", KOC_opcode, 1, 134 },
X {"JMP", KOC_opcode, 2, 135 },
X {"JSR", KOC_opcode, 2, 137 },
X {"LDA", KOC_opcode, 3, 139 },
X {"LDAA", KOC_opcode, 3, 142 },
X {"LDAB", KOC_opcode, 3, 145 },
X {"LDD", KOC_opcode, 3, 148 },
X {"LDS", KOC_opcode, 3, 151 },
X {"LDX", KOC_opcode, 3, 154 },
X {"LSL", KOC_opcode, 3, 157 },
X {"LSLA", KOC_opcode, 1, 160 },
X {"LSLB", KOC_opcode, 1, 161 },
X {"LSLD", KOC_opcode, 1, 162 },
X {"LSR", KOC_opcode, 3, 163 },
X {"LSRA", KOC_opcode, 1, 166 },
X {"LSRB", KOC_opcode, 1, 167 },
X {"LSRD", KOC_opcode, 1, 168 },
X {"MUL", KOC_opcode, 1, 169 },
X {"NEG", KOC_opcode, 3, 170 },
X {"NEGA", KOC_opcode, 1, 173 },
X {"NEGB", KOC_opcode, 1, 174 },
X {"NOP", KOC_opcode, 1, 175 },
X {"OIM", KOC_opcode, 2, 176 },
X {"ORA", KOC_opcode, 3, 178 },
X {"ORAA", KOC_opcode, 3, 181 },
X {"ORAB", KOC_opcode, 3, 184 },
X {"ORG", KOC_ORG, 0, 0 },
X {"PSH", KOC_opcode, 2, 187 },
X {"PSHA", KOC_opcode, 1, 189 },
X {"PSHB", KOC_opcode, 1, 190 },
X {"PSHX", KOC_opcode, 1, 191 },
X {"PUL", KOC_opcode, 2, 192 },
X {"PULA", KOC_opcode, 1, 194 },
X {"PULB", KOC_opcode, 1, 195 },
X {"PULX", KOC_opcode, 1, 196 },
X {"RESERVE", KOC_RESM, 0, 0 },
X {"RMB", KOC_RESM, 0, 0 },
X {"ROL", KOC_opcode, 3, 197 },
X {"ROLA", KOC_opcode, 1, 200 },
X {"ROLB", KOC_opcode, 1, 201 },
X {"ROR", KOC_opcode, 3, 202 },
X {"RORA", KOC_opcode, 1, 205 },
X {"RORB", KOC_opcode, 1, 206 },
X {"RTI", KOC_opcode, 1, 207 },
X {"RTS", KOC_opcode, 1, 208 },
X {"SBA", KOC_opcode, 1, 209 },
X {"SBC", KOC_opcode, 3, 210 },
X {"SBCA", KOC_opcode, 3, 213 },
X {"SBCB", KOC_opcode, 3, 216 },
X {"SEC", KOC_opcode, 1, 219 },
X {"SEI", KOC_opcode, 1, 220 },
X {"SET", KOC_SET, 0, 0 },
X {"SEV", KOC_opcode, 1, 221 },
X {"SLP", KOC_opcode, 1, 222 },
X {"STA", KOC_opcode, 2, 223 },
X {"STAA", KOC_opcode, 2, 225 },
X {"STAB", KOC_opcode, 2, 227 },
X {"STD", KOC_opcode, 2, 229 },
X {"STRING", KOC_SDEF, 0, 0 },
X {"STS", KOC_opcode, 2, 231 },
X {"STX", KOC_opcode, 2, 233 },
X {"SUB", KOC_opcode, 3, 235 },
X {"SUBA", KOC_opcode, 3, 238 },
X {"SUBB", KOC_opcode, 3, 241 },
X {"SUBD", KOC_opcode, 3, 244 },
X {"SWI", KOC_opcode, 1, 247 },
X {"TAB", KOC_opcode, 1, 248 },
X {"TAP", KOC_opcode, 1, 249 },
X {"TBA", KOC_opcode, 1, 250 },
X {"TIM", KOC_opcode, 2, 251 },
X {"TPA", KOC_opcode, 1, 253 },
X {"TST", KOC_opcode, 3, 254 },
X {"TSTA", KOC_opcode, 1, 257 },
X {"TSTB", KOC_opcode, 1, 258 },
X {"TSX", KOC_opcode, 1, 259 },
X {"TXS", KOC_opcode, 1, 260 },
X {"WAI", KOC_opcode, 1, 261 },
X {"WORD", KOC_WDEF, 0, 0 },
X {"XGDX", KOC_opcode, 1, 262 },
X { "", 0, 0, 0 }};
X
Xstruct opsynt ostab[NUMSYNBLK+1]
X = {
X/* invalid 0 */ { 0, 1, 0 },
X/* invalid 1 */ { 0xffff, 1, 1 },
X/* ABA 2 */ { ST_INH, 1, 2 },
X/* ABX 3 */ { ST_INH, 1, 3 },
X/* ADC 4 */ { ST_AEXP, 4, 4 },
X/* ADC 5 */ { ST_AIMM, 2, 8 },
X/* ADC 6 */ { ST_AIND, 2, 10 },
X/* ADCA 7 */ { ST_EXP, 2, 12 },
X/* ADCA 8 */ { ST_IMM, 1, 14 },
X/* ADCA 9 */ { ST_IND, 1, 15 },
X/* ADCB 10 */ { ST_EXP, 2, 16 },
X/* ADCB 11 */ { ST_IMM, 1, 18 },
X/* ADCB 12 */ { ST_IND, 1, 19 },
X/* ADD 13 */ { ST_AEXP, 4, 20 },
X/* ADD 14 */ { ST_AIMM, 2, 24 },
X/* ADD 15 */ { ST_AIND, 2, 26 },
X/* ADDA 16 */ { ST_EXP, 2, 28 },
X/* ADDA 17 */ { ST_IMM, 1, 30 },
X/* ADDA 18 */ { ST_IND, 1, 31 },
X/* ADDB 19 */ { ST_EXP, 2, 32 },
X/* ADDB 20 */ { ST_IMM, 1, 34 },
X/* ADDB 21 */ { ST_IND, 1, 35 },
X/* ADDD 22 */ { ST_EXP, 2, 36 },
X/* ADDD 23 */ { ST_IMM, 1, 38 },
X/* ADDD 24 */ { ST_IND, 1, 39 },
X/* AIM 25 */ { ST_MEMIMM, 1, 40 },
X/* AIM 26 */ { ST_MEMIMMIND, 1, 41 },
X/* AND 27 */ { ST_AEXP, 4, 42 },
X/* AND 28 */ { ST_AIMM, 2, 46 },
X/* AND 29 */ { ST_AIND, 2, 48 },
X/* ANDA 30 */ { ST_EXP, 2, 50 },
X/* ANDA 31 */ { ST_IMM, 1, 52 },
X/* ANDA 32 */ { ST_IND, 1, 53 },
X/* ANDB 33 */ { ST_EXP, 2, 54 },
X/* ANDB 34 */ { ST_IMM, 1, 56 },
X/* ANDB 35 */ { ST_IND, 1, 57 },
X/* ASL 36 */ { ST_ACC, 2, 58 },
X/* ASL 37 */ { ST_EXP, 1, 60 },
X/* ASL 38 */ { ST_IND, 1, 61 },
X/* ASLA 39 */ { ST_INH, 1, 62 },
X/* ASLB 40 */ { ST_INH, 1, 63 },
X/* ASLD 41 */ { ST_INH, 1, 64 },
X/* ASR 42 */ { ST_ACC, 2, 65 },
X/* ASR 43 */ { ST_EXP, 1, 67 },
X/* ASR 44 */ { ST_IND, 1, 68 },
X/* ASRA 45 */ { ST_INH, 1, 69 },
X/* ASRB 46 */ { ST_INH, 1, 70 },
X/* BCC 47 */ { ST_EXP, 1, 71 },
X/* BCLR 48 */ { ST_BSET, 8, 72 },
X/* BCLR 49 */ { ST_BSETIND, 8, 80 },
X/* BCS 50 */ { ST_EXP, 1, 88 },
X/* BEQ 51 */ { ST_EXP, 1, 89 },
X/* BGE 52 */ { ST_EXP, 1, 90 },
X/* BGT 53 */ { ST_EXP, 1, 91 },
X/* BHI 54 */ { ST_EXP, 1, 92 },
X/* BHS 55 */ { ST_EXP, 1, 93 },
X/* BIT 56 */ { ST_AEXP, 4, 94 },
X/* BIT 57 */ { ST_AIMM, 2, 98 },
X/* BIT 58 */ { ST_AIND, 2, 100 },
X/* BITA 59 */ { ST_EXP, 2, 102 },
X/* BITA 60 */ { ST_IMM, 1, 104 },
X/* BITA 61 */ { ST_IND, 1, 105 },
X/* BITB 62 */ { ST_EXP, 2, 106 },
X/* BITB 63 */ { ST_IMM, 1, 108 },
X/* BITB 64 */ { ST_IND, 1, 109 },
X/* BLE 65 */ { ST_EXP, 1, 110 },
X/* BLO 66 */ { ST_EXP, 1, 111 },
X/* BLS 67 */ { ST_EXP, 1, 112 },
X/* BLT 68 */ { ST_EXP, 1, 113 },
X/* BMI 69 */ { ST_EXP, 1, 114 },
X/* BNE 70 */ { ST_EXP, 1, 115 },
X/* BPL 71 */ { ST_EXP, 1, 116 },
X/* BRA 72 */ { ST_EXP, 1, 117 },
X/* BRN 73 */ { ST_EXP, 1, 118 },
X/* BSET 74 */ { ST_BSET, 8, 119 },
X/* BSET 75 */ { ST_BSETIND, 8, 127 },
X/* BSR 76 */ { ST_EXP, 1, 135 },
X/* BTGL 77 */ { ST_BSET, 8, 136 },
X/* BTGL 78 */ { ST_BSETIND, 8, 144 },
X/* BTST 79 */ { ST_BSET, 8, 152 },
X/* BTST 80 */ { ST_BSETIND, 8, 160 },
X/* BVC 81 */ { ST_EXP, 1, 168 },
X/* BVS 82 */ { ST_EXP, 1, 169 },
X/* CBA 83 */ { ST_INH, 1, 170 },
X/* CLC 84 */ { ST_INH, 1, 171 },
X/* CLI 85 */ { ST_INH, 1, 172 },
X/* CLR 86 */ { ST_ACC, 2, 173 },
X/* CLR 87 */ { ST_EXP, 1, 175 },
X/* CLR 88 */ { ST_IND, 1, 176 },
X/* CLRA 89 */ { ST_INH, 1, 177 },
X/* CLRB 90 */ { ST_INH, 1, 178 },
X/* CLV 91 */ { ST_INH, 1, 179 },
X/* CMP 92 */ { ST_AEXP, 4, 180 },
X/* CMP 93 */ { ST_AIMM, 2, 184 },
X/* CMP 94 */ { ST_AIND, 2, 186 },
X/* CMPA 95 */ { ST_EXP, 2, 188 },
X/* CMPA 96 */ { ST_IMM, 1, 190 },
X/* CMPA 97 */ { ST_IND, 1, 191 },
X/* CMPB 98 */ { ST_EXP, 2, 192 },
X/* CMPB 99 */ { ST_IMM, 1, 194 },
X/* CMPB 100 */ { ST_IND, 1, 195 },
X/* COM 101 */ { ST_ACC, 2, 196 },
X/* COM 102 */ { ST_EXP, 1, 198 },
X/* COM 103 */ { ST_IND, 1, 199 },
X/* COMA 104 */ { ST_INH, 1, 200 },
X/* COMB 105 */ { ST_INH, 1, 201 },
X/* CPX 106 */ { ST_EXP, 2, 202 },
X/* CPX 107 */ { ST_IMM, 1, 204 },
X/* CPX 108 */ { ST_IND, 1, 205 },
X/* DAA 109 */ { ST_INH, 1, 206 },
X/* DEC 110 */ { ST_ACC, 2, 207 },
X/* DEC 111 */ { ST_EXP, 1, 209 },
X/* DEC 112 */ { ST_IND, 1, 210 },
X/* DECA 113 */ { ST_INH, 1, 211 },
X/* DECB 114 */ { ST_INH, 1, 212 },
X/* DES 115 */ { ST_INH, 1, 213 },
X/* DEX 116 */ { ST_INH, 1, 214 },
X/* EIM 117 */ { ST_MEMIMM, 1, 215 },
X/* EIM 118 */ { ST_MEMIMMIND, 1, 216 },
X/* EOR 119 */ { ST_AEXP, 4, 217 },
X/* EOR 120 */ { ST_AIMM, 2, 221 },
X/* EOR 121 */ { ST_AIND, 2, 223 },
X/* EORA 122 */ { ST_EXP, 2, 225 },
X/* EORA 123 */ { ST_IMM, 1, 227 },
X/* EORA 124 */ { ST_IND, 1, 228 },
X/* EORB 125 */ { ST_EXP, 2, 229 },
X/* EORB 126 */ { ST_IMM, 1, 231 },
X/* EORB 127 */ { ST_IND, 1, 232 },
X/* INC 128 */ { ST_ACC, 2, 233 },
X/* INC 129 */ { ST_EXP, 1, 235 },
X/* INC 130 */ { ST_IND, 1, 236 },
X/* INCA 131 */ { ST_INH, 1, 237 },
X/* INCB 132 */ { ST_INH, 1, 238 },
X/* INS 133 */ { ST_INH, 1, 239 },
X/* INX 134 */ { ST_INH, 1, 240 },
X/* JMP 135 */ { ST_EXP, 1, 241 },
X/* JMP 136 */ { ST_IND, 1, 242 },
X/* JSR 137 */ { ST_EXP, 2, 243 },
X/* JSR 138 */ { ST_IND, 1, 245 },
X/* LDA 139 */ { ST_AEXP, 4, 246 },
X/* LDA 140 */ { ST_AIMM, 2, 250 },
X/* LDA 141 */ { ST_AIND, 2, 252 },
X/* LDAA 142 */ { ST_EXP, 2, 254 },
X/* LDAA 143 */ { ST_IMM, 1, 256 },
X/* LDAA 144 */ { ST_IND, 1, 257 },
X/* LDAB 145 */ { ST_EXP, 2, 258 },
X/* LDAB 146 */ { ST_IMM, 1, 260 },
X/* LDAB 147 */ { ST_IND, 1, 261 },
X/* LDD 148 */ { ST_EXP, 2, 262 },
X/* LDD 149 */ { ST_IMM, 1, 264 },
X/* LDD 150 */ { ST_IND, 1, 265 },
X/* LDS 151 */ { ST_EXP, 2, 266 },
X/* LDS 152 */ { ST_IMM, 1, 268 },
X/* LDS 153 */ { ST_IND, 1, 269 },
X/* LDX 154 */ { ST_EXP, 2, 270 },
X/* LDX 155 */ { ST_IMM, 1, 272 },
X/* LDX 156 */ { ST_IND, 1, 273 },
X/* LSL 157 */ { ST_ACC, 2, 274 },
X/* LSL 158 */ { ST_EXP, 1, 276 },
X/* LSL 159 */ { ST_IND, 1, 277 },
X/* LSLA 160 */ { ST_INH, 1, 278 },
X/* LSLB 161 */ { ST_INH, 1, 279 },
X/* LSLD 162 */ { ST_INH, 1, 280 },
X/* LSR 163 */ { ST_ACC, 2, 281 },
X/* LSR 164 */ { ST_EXP, 1, 283 },
X/* LSR 165 */ { ST_IND, 1, 284 },
X/* LSRA 166 */ { ST_INH, 1, 285 },
X/* LSRB 167 */ { ST_INH, 1, 286 },
X/* LSRD 168 */ { ST_INH, 1, 287 },
X/* MUL 169 */ { ST_INH, 1, 288 },
X/* NEG 170 */ { ST_ACC, 2, 289 },
X/* NEG 171 */ { ST_EXP, 1, 291 },
X/* NEG 172 */ { ST_IND, 1, 292 },
X/* NEGA 173 */ { ST_INH, 1, 293 },
X/* NEGB 174 */ { ST_INH, 1, 294 },
X/* NOP 175 */ { ST_INH, 1, 295 },
X/* OIM 176 */ { ST_MEMIMM, 1, 296 },
X/* OIM 177 */ { ST_MEMIMMIND, 1, 297 },
X/* ORA 178 */ { ST_AEXP, 4, 298 },
X/* ORA 179 */ { ST_AIMM, 2, 302 },
X/* ORA 180 */ { ST_AIND, 2, 304 },
X/* ORAA 181 */ { ST_EXP, 2, 306 },
X/* ORAA 182 */ { ST_IMM, 1, 308 },
X/* ORAA 183 */ { ST_IND, 1, 309 },
X/* ORAB 184 */ { ST_EXP, 2, 310 },
X/* ORAB 185 */ { ST_IMM, 1, 312 },
X/* ORAB 186 */ { ST_IND, 1, 313 },
X/* PSH 187 */ { ST_ACC, 2, 314 },
X/* PSH 188 */ { ST_INDREG, 1, 316 },
X/* PSHA 189 */ { ST_INH, 1, 317 },
X/* PSHB 190 */ { ST_INH, 1, 318 },
X/* PSHX 191 */ { ST_INH, 1, 319 },
X/* PUL 192 */ { ST_ACC, 2, 320 },
X/* PUL 193 */ { ST_INDREG, 1, 322 },
X/* PULA 194 */ { ST_INH, 1, 323 },
X/* PULB 195 */ { ST_INH, 1, 324 },
X/* PULX 196 */ { ST_INH, 1, 325 },
X/* ROL 197 */ { ST_ACC, 2, 326 },
X/* ROL 198 */ { ST_EXP, 1, 328 },
X/* ROL 199 */ { ST_IND, 1, 329 },
X/* ROLA 200 */ { ST_INH, 1, 330 },
X/* ROLB 201 */ { ST_INH, 1, 331 },
X/* ROR 202 */ { ST_ACC, 2, 332 },
X/* ROR 203 */ { ST_EXP, 1, 334 },
X/* ROR 204 */ { ST_IND, 1, 335 },
X/* RORA 205 */ { ST_INH, 1, 336 },
X/* RORB 206 */ { ST_INH, 1, 337 },
X/* RTI 207 */ { ST_INH, 1, 338 },
X/* RTS 208 */ { ST_INH, 1, 339 },
X/* SBA 209 */ { ST_INH, 1, 340 },
X/* SBC 210 */ { ST_AEXP, 4, 341 },
X/* SBC 211 */ { ST_AIMM, 2, 345 },
X/* SBC 212 */ { ST_AIND, 2, 347 },
X/* SBCA 213 */ { ST_EXP, 2, 349 },
X/* SBCA 214 */ { ST_IMM, 1, 351 },
X/* SBCA 215 */ { ST_IND, 1, 352 },
X/* SBCB 216 */ { ST_EXP, 2, 353 },
X/* SBCB 217 */ { ST_IMM, 1, 355 },
X/* SBCB 218 */ { ST_IND, 1, 356 },
X/* SEC 219 */ { ST_INH, 1, 357 },
X/* SEI 220 */ { ST_INH, 1, 358 },
X/* SEV 221 */ { ST_INH, 1, 359 },
X/* SLP 222 */ { ST_INH, 1, 360 },
X/* STA 223 */ { ST_AEXP, 4, 361 },
X/* STA 224 */ { ST_AIND, 2, 365 },
X/* STAA 225 */ { ST_EXP, 2, 367 },
X/* STAA 226 */ { ST_IND, 1, 369 },
X/* STAB 227 */ { ST_EXP, 2, 370 },
X/* STAB 228 */ { ST_IND, 1, 372 },
X/* STD 229 */ { ST_EXP, 2, 373 },
X/* STD 230 */ { ST_IND, 1, 375 },
X/* STS 231 */ { ST_EXP, 2, 376 },
X/* STS 232 */ { ST_IND, 1, 378 },
X/* STX 233 */ { ST_EXP, 2, 379 },
X/* STX 234 */ { ST_IND, 1, 381 },
X/* SUB 235 */ { ST_AEXP, 4, 382 },
X/* SUB 236 */ { ST_AIMM, 2, 386 },
X/* SUB 237 */ { ST_AIND, 2, 388 },
X/* SUBA 238 */ { ST_EXP, 2, 390 },
X/* SUBA 239 */ { ST_IMM, 1, 392 },
X/* SUBA 240 */ { ST_IND, 1, 393 },
X/* SUBB 241 */ { ST_EXP, 2, 394 },
X/* SUBB 242 */ { ST_IMM, 1, 396 },
X/* SUBB 243 */ { ST_IND, 1, 397 },
X/* SUBD 244 */ { ST_EXP, 2, 398 },
X/* SUBD 245 */ { ST_IMM, 1, 400 },
X/* SUBD 246 */ { ST_IND, 1, 401 },
X/* SWI 247 */ { ST_INH, 1, 402 },
X/* TAB 248 */ { ST_INH, 1, 403 },
X/* TAP 249 */ { ST_INH, 1, 404 },
X/* TBA 250 */ { ST_INH, 1, 405 },
X/* TIM 251 */ { ST_MEMIMM, 1, 406 },
X/* TIM 252 */ { ST_MEMIMMIND, 1, 407 },
X/* TPA 253 */ { ST_INH, 1, 408 },
X/* TST 254 */ { ST_ACC, 2, 409 },
X/* TST 255 */ { ST_EXP, 1, 411 },
X/* TST 256 */ { ST_IND, 1, 412 },
X/* TSTA 257 */ { ST_INH, 1, 413 },
X/* TSTB 258 */ { ST_INH, 1, 414 },
X/* TSX 259 */ { ST_INH, 1, 415 },
X/* TXS 260 */ { ST_INH, 1, 416 },
X/* WAI 261 */ { ST_INH, 1, 417 },
X/* XGDX 262 */ { ST_INH, 1, 418 },
X { 0, 0, 0 } };
X
Xstruct igel igtab[NUMDIFFOP+1]
X = {
X/* invalid 0 */ { 0 , 0,
X "[Xnullentry" },
X/* invalid 1 */ { 0 , 0,
X "[Xinvalid opcode" },
X/* ABA 2 */ { 0 , 0,
X "1b;" },
X/* ABX 3 */ { 0 , 0,
X "3a;" },
X/* ADC 4 */ { ACCREG+ADDR , REGA+DIRECT,
X "99;[1=];" },
X/* ADC 5 */ { ACCREG+ADDR , REGA+EXTENDED,
X "b9;[1=]x" },
X/* ADC 6 */ { ACCREG+ADDR , REGB+DIRECT,
X "d9;[1=];" },
X/* ADC 7 */ { ACCREG+ADDR , REGB+EXTENDED,
X "f9;[1=]x" },
X/* ADC 8 */ { ACCREG , REGA,
X "89;[1=];" },
X/* ADC 9 */ { ACCREG , REGB,
X "c9;[1=];" },
X/* ADC 10 */ { ACCREG , REGA,
X "a9;[1=];" },
X/* ADC 11 */ { ACCREG , REGB,
X "e9;[1=];" },
X/* ADCA 12 */ { ADDR , DIRECT,
X "99;[1=];" },
X/* ADCA 13 */ { ADDR , EXTENDED,
X "b9;[1=]x" },
X/* ADCA 14 */ { 0 , 0,
X "89;[1=];" },
X/* ADCA 15 */ { 0 , 0,
X "a9;[1=];" },
X/* ADCB 16 */ { ADDR , DIRECT,
X "d9;[1=];" },
X/* ADCB 17 */ { ADDR , EXTENDED,
X "f9;[1=]x" },
X/* ADCB 18 */ { 0 , 0,
X "c9;[1=];" },
X/* ADCB 19 */ { 0 , 0,
X "e9;[1=];" },
X/* ADD 20 */ { ACCREG+ADDR , REGA+DIRECT,
X "9b;[1=];" },
X/* ADD 21 */ { ACCREG+ADDR , REGA+EXTENDED,
X "bb;[1=]x" },
X/* ADD 22 */ { ACCREG+ADDR , REGB+DIRECT,
X "db;[1=];" },
X/* ADD 23 */ { ACCREG+ADDR , REGB+EXTENDED,
X "fb;[1=]x" },
X/* ADD 24 */ { ACCREG , REGA,
X "8b;[1=];" },
X/* ADD 25 */ { ACCREG , REGB,
X "cb;[1=];" },
X/* ADD 26 */ { ACCREG , REGA,
X "ab;[1=];" },
X/* ADD 27 */ { ACCREG , REGB,
X "eb;[1=];" },
X/* ADDA 28 */ { ADDR , DIRECT,
X "9b;[1=];" },
X/* ADDA 29 */ { ADDR , EXTENDED,
X "bb;[1=]x" },
X/* ADDA 30 */ { 0 , 0,
X "8b;[1=];" },
X/* ADDA 31 */ { 0 , 0,
X "ab;[1=];" },
X/* ADDB 32 */ { ADDR , DIRECT,
X "db;[1=];" },
X/* ADDB 33 */ { ADDR , EXTENDED,
X "fb;[1=]x" },
X/* ADDB 34 */ { 0 , 0,
X "cb;[1=];" },
X/* ADDB 35 */ { 0 , 0,
X "eb;[1=];" },
X/* ADDD 36 */ { ADDR , DIRECT,
X "d3;[1=];" },
X/* ADDD 37 */ { ADDR , EXTENDED,
X "f3;[1=]x" },
X/* ADDD 38 */ { 0 , 0,
X "c3;[1=]x" },
X/* ADDD 39 */ { 0 , 0,
X "e3;[1=];" },
X/* AIM 40 */ { 0 , 0,
X "71;[1=];[2=];" },
X/* AIM 41 */ { 0 , 0,
X "61;[1=];[2=];" },
X/* AND 42 */ { ACCREG+ADDR , REGA+DIRECT,
X "94;[1=];" },
X/* AND 43 */ { ACCREG+ADDR , REGA+EXTENDED,
X "b4;[1=]x" },
X/* AND 44 */ { ACCREG+ADDR , REGB+DIRECT,
X "d4;[1=];" },
X/* AND 45 */ { ACCREG+ADDR , REGB+EXTENDED,
X "f4;[1=]x" },
X/* AND 46 */ { ACCREG , REGA,
X "84;[1=];" },
X/* AND 47 */ { ACCREG , REGB,
X "c4;[1=];" },
X/* AND 48 */ { ACCREG , REGA,
X "a4;[1=];" },
X/* AND 49 */ { ACCREG , REGB,
X "e4;[1=];" },
X/* ANDA 50 */ { ADDR , DIRECT,
X "94;[1=];" },
X/* ANDA 51 */ { ADDR , EXTENDED,
X "b4;[1=]x" },
X/* ANDA 52 */ { 0 , 0,
X "84;[1=];" },
X/* ANDA 53 */ { 0 , 0,
X "a4;[1=];" },
X/* ANDB 54 */ { ADDR , DIRECT,
X "d4;[1=];" },
X/* ANDB 55 */ { ADDR , EXTENDED,
X "f4;[1=]x" },
X/* ANDB 56 */ { 0 , 0,
X "c4;[1=];" },
X/* ANDB 57 */ { 0 , 0,
X "e4;[1=];" },
X/* ASL 58 */ { ACCREG , REGA,
X "48;" },
X/* ASL 59 */ { ACCREG , REGB,
X "58;" },
X/* ASL 60 */ { 0 , 0,
X "78;[1=]x" },
X/* ASL 61 */ { 0 , 0,
X "68;[1=];" },
X/* ASLA 62 */ { 0 , 0,
X "48;" },
X/* ASLB 63 */ { 0 , 0,
X "58;" },
X/* ASLD 64 */ { 0 , 0,
X "05;" },
X/* ASR 65 */ { ACCREG , REGA,
X "47;" },
X/* ASR 66 */ { ACCREG , REGB,
X "57;" },
X/* ASR 67 */ { 0 , 0,
X "77;[1=]x" },
X/* ASR 68 */ { 0 , 0,
X "67;[1=];" },
X/* ASRA 69 */ { 0 , 0,
X "47;" },
X/* ASRB 70 */ { 0 , 0,
X "57;" },
X/* BCC 71 */ { 0 , 0,
X "24;[1=].P.2+-r" },
X/* BCLR 72 */ { BITNUMB , BIT0,
X "71;fe;[2=];" },
X/* BCLR 73 */ { BITNUMB , BIT1,
X "71;fd;[2=];" },
X/* BCLR 74 */ { BITNUMB , BIT2,
X "71;fb;[2=];" },
X/* BCLR 75 */ { BITNUMB , BIT3,
X "71;f7;[2=];" },
X/* BCLR 76 */ { BITNUMB , BIT4,
X "71;ef;[2=];" },
X/* BCLR 77 */ { BITNUMB , BIT5,
X "71;df;[2=];" },
X/* BCLR 78 */ { BITNUMB , BIT6,
X "71;bf;[2=];" },
X/* BCLR 79 */ { BITNUMB , BIT7,
X "71;7f;[2=];" },
X/* BCLR 80 */ { BITNUMB , BIT0,
X "61;fe;[2=];" },
X/* BCLR 81 */ { BITNUMB , BIT1,
X "61;fd;[2=];" },
X/* BCLR 82 */ { BITNUMB , BIT2,
X "61;fb;[2=];" },
X/* BCLR 83 */ { BITNUMB , BIT3,
X "61;f7;[2=];" },
X/* BCLR 84 */ { BITNUMB , BIT4,
X "61;ef;[2=];" },
X/* BCLR 85 */ { BITNUMB , BIT5,
X "61;df;[2=];" },
X/* BCLR 86 */ { BITNUMB , BIT6,
X "61;bf;[2=];" },
X/* BCLR 87 */ { BITNUMB , BIT7,
X "61;7f;[2=];" },
X/* BCS 88 */ { 0 , 0,
X "25;[1=].P.2+-r" },
X/* BEQ 89 */ { 0 , 0,
X "27;[1=].P.2+-r" },
X/* BGE 90 */ { 0 , 0,
X "2c;[1=].P.2+-r" },
X/* BGT 91 */ { 0 , 0,
X "2e;[1=].P.2+-r" },
X/* BHI 92 */ { 0 , 0,
X "22;[1=].P.2+-r" },
X/* BHS 93 */ { 0 , 0,
X "24;[1=].P.2+-r" },
X/* BIT 94 */ { ACCREG+ADDR , REGA+DIRECT,
X "95;[1=];" },
X/* BIT 95 */ { ACCREG+ADDR , REGA+EXTENDED,
X "b5;[1=]x" },
X/* BIT 96 */ { ACCREG+ADDR , REGB+DIRECT,
X "d5;[1=];" },
X/* BIT 97 */ { ACCREG+ADDR , REGB+EXTENDED,
X "f5;[1=]x" },
X/* BIT 98 */ { ACCREG , REGA,
X "85;[1=];" },
X/* BIT 99 */ { ACCREG , REGB,
X "c5;[1=];" },
X/* BIT 100 */ { ACCREG , REGA,
X "a5;[1=];" },
X/* BIT 101 */ { ACCREG , REGB,
X "e5;[1=];" },
X/* BITA 102 */ { ADDR , DIRECT,
X "95;[1=];" },
X/* BITA 103 */ { ADDR , EXTENDED,
X "b5;[1=]x" },
X/* BITA 104 */ { 0 , 0,
X "85;[1=];" },
X/* BITA 105 */ { 0 , 0,
X "a5;[1=];" },
X/* BITB 106 */ { ADDR , DIRECT,
X "d5;[1=];" },
X/* BITB 107 */ { ADDR , EXTENDED,
X "f5;[1=]x" },
X/* BITB 108 */ { 0 , 0,
X "c5;[1=];" },
X/* BITB 109 */ { 0 , 0,
X "e5;[1=];" },
X/* BLE 110 */ { 0 , 0,
X "2f;[1=].P.2+-r" },
X/* BLO 111 */ { 0 , 0,
X "25;[1=].P.2+-r" },
X/* BLS 112 */ { 0 , 0,
X "23;[1=].P.2+-r" },
X/* BLT 113 */ { 0 , 0,
X "2d;[1=].P.2+-r" },
X/* BMI 114 */ { 0 , 0,
X "2b;[1=].P.2+-r" },
X/* BNE 115 */ { 0 , 0,
X "26;[1=].P.2+-r" },
X/* BPL 116 */ { 0 , 0,
X "2a;[1=].P.2+-r" },
X/* BRA 117 */ { 0 , 0,
X "20;[1=].P.2+-r" },
X/* BRN 118 */ { 0 , 0,
X "21;[1=].P.2+-r" },
X/* BSET 119 */ { BITNUMB , BIT0,
X "72;01;[2=];" },
X/* BSET 120 */ { BITNUMB , BIT1,
X "72;02;[2=];" },
X/* BSET 121 */ { BITNUMB , BIT2,
X "72;04;[2=];" },
X/* BSET 122 */ { BITNUMB , BIT3,
X "72;08;[2=];" },
X/* BSET 123 */ { BITNUMB , BIT4,
X "72;10;[2=];" },
X/* BSET 124 */ { BITNUMB , BIT5,
X "72;20;[2=];" },
X/* BSET 125 */ { BITNUMB , BIT6,
X "72;40;[2=];" },
X/* BSET 126 */ { BITNUMB , BIT7,
X "72;80;[2=];" },
X/* BSET 127 */ { BITNUMB , BIT0,
X "62;01;[2=];" },
X/* BSET 128 */ { BITNUMB , BIT1,
X "62;02;[2=];" },
X/* BSET 129 */ { BITNUMB , BIT2,
X "62;04;[2=];" },
X/* BSET 130 */ { BITNUMB , BIT3,
X "62;08;[2=];" },
X/* BSET 131 */ { BITNUMB , BIT4,
X "62;10;[2=];" },
X/* BSET 132 */ { BITNUMB , BIT5,
X "62;20;[2=];" },
X/* BSET 133 */ { BITNUMB , BIT6,
X "62;40;[2=];" },
X/* BSET 134 */ { BITNUMB , BIT7,
X "62;80;[2=];" },
X/* BSR 135 */ { 0 , 0,
X "8d;[1=].P.2+-r" },
X/* BTGL 136 */ { BITNUMB , BIT0,
X "75;01;[2=];" },
X/* BTGL 137 */ { BITNUMB , BIT1,
X "75;02;[2=];" },
X/* BTGL 138 */ { BITNUMB , BIT2,
X "75;04;[2=];" },
X/* BTGL 139 */ { BITNUMB , BIT3,
X "75;08;[2=];" },
X/* BTGL 140 */ { BITNUMB , BIT4,
X "75;10;[2=];" },
X/* BTGL 141 */ { BITNUMB , BIT5,
X "75;20;[2=];" },
X/* BTGL 142 */ { BITNUMB , BIT6,
X "75;40;[2=];" },
X/* BTGL 143 */ { BITNUMB , BIT7,
X "75;80;[2=];" },
X/* BTGL 144 */ { BITNUMB , BIT0,
X "65;01;[2=];" },
X/* BTGL 145 */ { BITNUMB , BIT1,
X "65;02;[2=];" },
X/* BTGL 146 */ { BITNUMB , BIT2,
X "65;04;[2=];" },
X/* BTGL 147 */ { BITNUMB , BIT3,
X "65;08;[2=];" },
X/* BTGL 148 */ { BITNUMB , BIT4,
X "65;10;[2=];" },
X/* BTGL 149 */ { BITNUMB , BIT5,
X "65;20;[2=];" },
X/* BTGL 150 */ { BITNUMB , BIT6,
X "65;40;[2=];" },
X/* BTGL 151 */ { BITNUMB , BIT7,
X "65;80;[2=];" },
X/* BTST 152 */ { BITNUMB , BIT0,
X "7b;01;[2=];" },
X/* BTST 153 */ { BITNUMB , BIT1,
X "7b;02;[2=];" },
X/* BTST 154 */ { BITNUMB , BIT2,
X "7b;04;[2=];" },
X/* BTST 155 */ { BITNUMB , BIT3,
X "7b;08;[2=];" },
X/* BTST 156 */ { BITNUMB , BIT4,
X "7b;10;[2=];" },
X/* BTST 157 */ { BITNUMB , BIT5,
X "7b;20;[2=];" },
X/* BTST 158 */ { BITNUMB , BIT6,
X "7b;40;[2=];" },
X/* BTST 159 */ { BITNUMB , BIT7,
X "7b;80;[2=];" },
X/* BTST 160 */ { BITNUMB , BIT0,
X "6b;01;[2=];" },
X/* BTST 161 */ { BITNUMB , BIT1,
X "6b;02;[2=];" },
X/* BTST 162 */ { BITNUMB , BIT2,
X "6b;04;[2=];" },
X/* BTST 163 */ { BITNUMB , BIT3,
X "6b;08;[2=];" },
X/* BTST 164 */ { BITNUMB , BIT4,
X "6b;10;[2=];" },
X/* BTST 165 */ { BITNUMB , BIT5,
X "6b;20;[2=];" },
X/* BTST 166 */ { BITNUMB , BIT6,
X "6b;40;[2=];" },
X/* BTST 167 */ { BITNUMB , BIT7,
X "6b;80;[2=];" },
X/* BVC 168 */ { 0 , 0,
X "28;[1=].P.2+-r" },
X/* BVS 169 */ { 0 , 0,
X "29;[1=].P.2+-r" },
X/* CBA 170 */ { 0 , 0,
X "11;" },
X/* CLC 171 */ { 0 , 0,
X "0c;" },
X/* CLI 172 */ { 0 , 0,
X "0e;" },
X/* CLR 173 */ { ACCREG , REGA,
X "4f;" },
X/* CLR 174 */ { ACCREG , REGB,
X "5f;" },
X/* CLR 175 */ { 0 , 0,
X "7f;[1=]x" },
X/* CLR 176 */ { 0 , 0,
X "6f;[1=];" },
X/* CLRA 177 */ { 0 , 0,
X "4f;" },
X/* CLRB 178 */ { 0 , 0,
X "5f;" },
X/* CLV 179 */ { 0 , 0,
X "0a;" },
X/* CMP 180 */ { ACCREG+ADDR , REGA+DIRECT,
X "91;[1=];" },
X/* CMP 181 */ { ACCREG+ADDR , REGA+EXTENDED,
X "b1;[1=]x" },
X/* CMP 182 */ { ACCREG+ADDR , REGB+DIRECT,
X "d1;[1=];" },
X/* CMP 183 */ { ACCREG+ADDR , REGB+EXTENDED,
X "f1;[1=]x" },
X/* CMP 184 */ { ACCREG , REGA,
X "81;[1=];" },
X/* CMP 185 */ { ACCREG , REGB,
X "c1;[1=];" },
X/* CMP 186 */ { ACCREG , REGA,
X "a1;[1=];" },
X/* CMP 187 */ { ACCREG , REGB,
X "e1;[1=];" },
X/* CMPA 188 */ { ADDR , DIRECT,
X "91;[1=];" },
X/* CMPA 189 */ { ADDR , EXTENDED,
X "b1;[1=]x" },
X/* CMPA 190 */ { 0 , 0,
X "81;[1=];" },
X/* CMPA 191 */ { 0 , 0,
X "a1;[1=];" },
X/* CMPB 192 */ { ADDR , DIRECT,
X "d1;[1=];" },
X/* CMPB 193 */ { ADDR , EXTENDED,
X "f1;[1=]x" },
X/* CMPB 194 */ { 0 , 0,
X "c1;[1=];" },
X/* CMPB 195 */ { 0 , 0,
X "e1;[1=];" },
X/* COM 196 */ { ACCREG , REGA,
X "43;" },
X/* COM 197 */ { ACCREG , REGB,
X "53;" },
X/* COM 198 */ { 0 , 0,
X "73;[1=]x" },
X/* COM 199 */ { 0 , 0,
X "63;[1=];" },
X/* COMA 200 */ { 0 , 0,
X "43;" },
X/* COMB 201 */ { 0 , 0,
X "53;" },
X/* CPX 202 */ { ADDR , DIRECT,
X "9c;[1=];" },
X/* CPX 203 */ { ADDR , EXTENDED,
X "bc;[1=]x" },
X/* CPX 204 */ { 0 , 0,
X "8c;[1=]x" },
X/* CPX 205 */ { 0 , 0,
X "ac;[1=];" },
X/* DAA 206 */ { 0 , 0,
X "19;" },
X/* DEC 207 */ { ACCREG , REGA,
X "4a;" },
X/* DEC 208 */ { ACCREG , REGB,
X "5a;" },
X/* DEC 209 */ { 0 , 0,
X "7a;[1=]x" },
X/* DEC 210 */ { 0 , 0,
X "6a;[1=];" },
X/* DECA 211 */ { 0 , 0,
X "4a;" },
X/* DECB 212 */ { 0 , 0,
X "5a;" },
X/* DES 213 */ { 0 , 0,
X "34;" },
X/* DEX 214 */ { 0 , 0,
X "09;" },
X/* EIM 215 */ { 0 , 0,
X "75;[1=];[2=];" },
X/* EIM 216 */ { 0 , 0,
X "65;[1=];[2=];" },
X/* EOR 217 */ { ACCREG+ADDR , REGA+DIRECT,
X "98;[1=];" },
X/* EOR 218 */ { ACCREG+ADDR , REGA+EXTENDED,
X "b8;[1=]x" },
X/* EOR 219 */ { ACCREG+ADDR , REGB+DIRECT,
X "d8;[1=];" },
X/* EOR 220 */ { ACCREG+ADDR , REGB+EXTENDED,
X "f8;[1=]x" },
X/* EOR 221 */ { ACCREG , REGA,
X "88;[1=];" },
X/* EOR 222 */ { ACCREG , REGB,
X "c8;[1=];" },
X/* EOR 223 */ { ACCREG , REGA,
X "a8;[1=];" },
X/* EOR 224 */ { ACCREG , REGB,
X "e8;[1=];" },
X/* EORA 225 */ { ADDR , DIRECT,
X "98;[1=];" },
X/* EORA 226 */ { ADDR , EXTENDED,
X "b8;[1=]x" },
X/* EORA 227 */ { 0 , 0,
X "88;[1=];" },
X/* EORA 228 */ { 0 , 0,
X "a8;[1=];" },
X/* EORB 229 */ { ADDR , DIRECT,
X "d8;[1=];" },
X/* EORB 230 */ { ADDR , EXTENDED,
X "f8;[1=]x" },
X/* EORB 231 */ { 0 , 0,
X "c8;[1=];" },
X/* EORB 232 */ { 0 , 0,
X "e8;[1=];" },
X/* INC 233 */ { ACCREG , REGA,
X "4c;" },
X/* INC 234 */ { ACCREG , REGB,
X "5c;" },
X/* INC 235 */ { 0 , 0,
X "7c;[1=]x" },
X/* INC 236 */ { 0 , 0,
X "6c;[1=];" },
X/* INCA 237 */ { 0 , 0,
X "4c;" },
X/* INCB 238 */ { 0 , 0,
X "5c;" },
X/* INS 239 */ { 0 , 0,
X "31;" },
X/* INX 240 */ { 0 , 0,
X "08;" },
X/* JMP 241 */ { 0 , 0,
X "7e;[1=]x" },
X/* JMP 242 */ { 0 , 0,
X "6e;[1=];" },
X/* JSR 243 */ { ADDR , DIRECT,
X "9d;[1=];" },
X/* JSR 244 */ { ADDR , EXTENDED,
X "bd;[1=]x" },
X/* JSR 245 */ { 0 , 0,
X "ad;[1=];" },
X/* LDA 246 */ { ACCREG+ADDR , REGA+DIRECT,
X "96;[1=];" },
X/* LDA 247 */ { ACCREG+ADDR , REGA+EXTENDED,
X "b6;[1=]x" },
X/* LDA 248 */ { ACCREG+ADDR , REGB+DIRECT,
X "d6;[1=];" },
X/* LDA 249 */ { ACCREG+ADDR , REGB+EXTENDED,
X "f6;[1=]x" },
X/* LDA 250 */ { ACCREG , REGA,
X "86;[1=];" },
X/* LDA 251 */ { ACCREG , REGB,
X "c6;[1=];" },
X/* LDA 252 */ { ACCREG , REGA,
X "a6;[1=];" },
X/* LDA 253 */ { ACCREG , REGB,
X "e6;[1=];" },
X/* LDAA 254 */ { ADDR , DIRECT,
X "96;[1=];" },
X/* LDAA 255 */ { ADDR , EXTENDED,
X "b6;[1=]x" },
X/* LDAA 256 */ { 0 , 0,
X "86;[1=];" },
X/* LDAA 257 */ { 0 , 0,
X "a6;[1=];" },
X/* LDAB 258 */ { ADDR , DIRECT,
X "d6;[1=];" },
X/* LDAB 259 */ { ADDR , EXTENDED,
X "f6;[1=]x" },
X/* LDAB 260 */ { 0 , 0,
X "c6;[1=];" },
X/* LDAB 261 */ { 0 , 0,
X "e6;[1=];" },
X/* LDD 262 */ { ADDR , DIRECT,
X "dc;[1=];" },
X/* LDD 263 */ { ADDR , EXTENDED,
X "fc;[1=]x" },
X/* LDD 264 */ { 0 , 0,
X "cc;[1=]x" },
X/* LDD 265 */ { 0 , 0,
X "ec;[1=];" },
X/* LDS 266 */ { ADDR , DIRECT,
X "9e;[1=];" },
X/* LDS 267 */ { ADDR , EXTENDED,
X "be;[1=]x" },
X/* LDS 268 */ { 0 , 0,
X "8e;[1=]x" },
X/* LDS 269 */ { 0 , 0,
X "ae;[1=];" },
X/* LDX 270 */ { ADDR , DIRECT,
X "de;[1=];" },
X/* LDX 271 */ { ADDR , EXTENDED,
X "fe;[1=]x" },
X/* LDX 272 */ { 0 , 0,
X "ce;[1=]x" },
X/* LDX 273 */ { 0 , 0,
X "ee;[1=];" },
X/* LSL 274 */ { ACCREG , REGA,
X "48;" },
X/* LSL 275 */ { ACCREG , REGB,
X "58;" },
X/* LSL 276 */ { 0 , 0,
X "78;[1=]x" },
X/* LSL 277 */ { 0 , 0,
X "68;[1=];" },
X/* LSLA 278 */ { 0 , 0,
X "48;" },
X/* LSLB 279 */ { 0 , 0,
X "58;" },
X/* LSLD 280 */ { 0 , 0,
X "05;" },
X/* LSR 281 */ { ACCREG , REGA,
X "44;" },
X/* LSR 282 */ { ACCREG , REGB,
X "54;" },
X/* LSR 283 */ { 0 , 0,
X "74;[1=]x" },
X/* LSR 284 */ { 0 , 0,
X "64;[1=];" },
X/* LSRA 285 */ { 0 , 0,
X "44;" },
X/* LSRB 286 */ { 0 , 0,
X "54;" },
X/* LSRD 287 */ { 0 , 0,
X "04;" },
X/* MUL 288 */ { 0 , 0,
X "3d;" },
X/* NEG 289 */ { ACCREG , REGA,
X "40;" },
X/* NEG 290 */ { ACCREG , REGB,
X "50;" },
X/* NEG 291 */ { 0 , 0,
X "70;[1=]x" },
X/* NEG 292 */ { 0 , 0,
X "60;[1=];" },
X/* NEGA 293 */ { 0 , 0,
X "40;" },
X/* NEGB 294 */ { 0 , 0,
X "50;" },
X/* NOP 295 */ { 0 , 0,
X "01;" },
X/* OIM 296 */ { 0 , 0,
X "72;[1=];[2=];" },
X/* OIM 297 */ { 0 , 0,
X "62;[1=];[2=];" },
X/* ORA 298 */ { ACCREG+ADDR , REGA+DIRECT,
X "9a;[1=];" },
X/* ORA 299 */ { ACCREG+ADDR , REGA+EXTENDED,
X "ba;[1=]x" },
X/* ORA 300 */ { ACCREG+ADDR , REGB+DIRECT,
X "da;[1=];" },
X/* ORA 301 */ { ACCREG+ADDR , REGB+EXTENDED,
X "fa;[1=]x" },
X/* ORA 302 */ { ACCREG , REGA,
X "8a;[1=];" },
X/* ORA 303 */ { ACCREG , REGB,
X "ca;[1=];" },
X/* ORA 304 */ { ACCREG , REGA,
X "aa;[1=];" },
X/* ORA 305 */ { ACCREG , REGB,
X "ea;[1=];" },
X/* ORAA 306 */ { ADDR , DIRECT,
X "9a;[1=];" },
X/* ORAA 307 */ { ADDR , EXTENDED,
X "ba;[1=]x" },
X/* ORAA 308 */ { 0 , 0,
X "8a;[1=];" },
X/* ORAA 309 */ { 0 , 0,
X "aa;[1=];" },
X/* ORAB 310 */ { ADDR , DIRECT,
X "da;[1=];" },
X/* ORAB 311 */ { ADDR , EXTENDED,
X "fa;[1=]x" },
X/* ORAB 312 */ { 0 , 0,
X "ca;[1=];" },
X/* ORAB 313 */ { 0 , 0,
X "ea;[1=];" },
X/* PSH 314 */ { ACCREG , REGA,
X "36;" },
X/* PSH 315 */ { ACCREG , REGB,
X "37;" },
X/* PSH 316 */ { 0 , 0,
X "3c;" },
X/* PSHA 317 */ { 0 , 0,
X "36;" },
X/* PSHB 318 */ { 0 , 0,
X "37;" },
X/* PSHX 319 */ { 0 , 0,
X "3c;" },
X/* PUL 320 */ { ACCREG , REGA,
X "32;" },
X/* PUL 321 */ { ACCREG , REGB,
X "33;" },
X/* PUL 322 */ { 0 , 0,
X "38;" },
X/* PULA 323 */ { 0 , 0,
X "32;" },
X/* PULB 324 */ { 0 , 0,
X "33;" },
X/* PULX 325 */ { 0 , 0,
X "38;" },
X/* ROL 326 */ { ACCREG , REGA,
X "49;" },
X/* ROL 327 */ { ACCREG , REGB,
X "59;" },
X/* ROL 328 */ { 0 , 0,
X "79;[1=]x" },
X/* ROL 329 */ { 0 , 0,
X "69;[1=];" },
X/* ROLA 330 */ { 0 , 0,
X "49;" },
X/* ROLB 331 */ { 0 , 0,
X "59;" },
X/* ROR 332 */ { ACCREG , REGA,
X "46;" },
X/* ROR 333 */ { ACCREG , REGB,
X "56;" },
X/* ROR 334 */ { 0 , 0,
X "76;[1=]x" },
X/* ROR 335 */ { 0 , 0,
X "66;[1=];" },
X/* RORA 336 */ { 0 , 0,
X "46;" },
X/* RORB 337 */ { 0 , 0,
X "56;" },
X/* RTI 338 */ { 0 , 0,
X "3b;" },
X/* RTS 339 */ { 0 , 0,
X "39;" },
X/* SBA 340 */ { 0 , 0,
X "10;" },
X/* SBC 341 */ { ACCREG+ADDR , REGA+DIRECT,
X "92;[1=];" },
X/* SBC 342 */ { ACCREG+ADDR , REGA+EXTENDED,
X "b2;[1=]x" },
X/* SBC 343 */ { ACCREG+ADDR , REGB+DIRECT,
X "d2;[1=];" },
X/* SBC 344 */ { ACCREG+ADDR , REGB+EXTENDED,
X "f2;[1=]x" },
X/* SBC 345 */ { ACCREG , REGA,
X "82;[1=];" },
X/* SBC 346 */ { ACCREG , REGB,
X "c2;[1=];" },
X/* SBC 347 */ { ACCREG , REGA,
X "a2;[1=];" },
X/* SBC 348 */ { ACCREG , REGB,
X "e2;[1=];" },
X/* SBCA 349 */ { ADDR , DIRECT,
X "92;[1=];" },
X/* SBCA 350 */ { ADDR , EXTENDED,
X "b2;[1=]x" },
X/* SBCA 351 */ { 0 , 0,
X "82;[1=];" },
X/* SBCA 352 */ { 0 , 0,
X "a2;[1=];" },
X/* SBCB 353 */ { ADDR , DIRECT,
X "d2;[1=];" },
X/* SBCB 354 */ { ADDR , EXTENDED,
X "f2;[1=]x" },
X/* SBCB 355 */ { 0 , 0,
X "c2;[1=];" },
X/* SBCB 356 */ { 0 , 0,
X "e2;[1=];" },
X/* SEC 357 */ { 0 , 0,
X "0d;" },
X/* SEI 358 */ { 0 , 0,
X "0f;" },
X/* SEV 359 */ { 0 , 0,
X "0b;" },
X/* SLP 360 */ { 0 , 0,
X "1a;" },
X/* STA 361 */ { ACCREG+ADDR , REGA+DIRECT,
X "97;[1=];" },
X/* STA 362 */ { ACCREG+ADDR , REGA+EXTENDED,
X "b7;[1=]x" },
X/* STA 363 */ { ACCREG+ADDR , REGB+DIRECT,
X "d7;[1=];" },
X/* STA 364 */ { ACCREG+ADDR , REGB+EXTENDED,
X "f7;[1=]x" },
X/* STA 365 */ { ACCREG , REGA,
X "a7;[1=];" },
X/* STA 366 */ { ACCREG , REGB,
X "e7;[1=];" },
X/* STAA 367 */ { ADDR , DIRECT,
X "97;[1=];" },
X/* STAA 368 */ { ADDR , EXTENDED,
X "b7;[1=]x" },
X/* STAA 369 */ { 0 , 0,
X "a7;[1=];" },
X/* STAB 370 */ { ADDR , DIRECT,
X "d7;[1=];" },
X/* STAB 371 */ { ADDR , EXTENDED,
X "f7;[1=]x" },
X/* STAB 372 */ { 0 , 0,
X "e7;[1=];" },
X/* STD 373 */ { ADDR , DIRECT,
X "dd;[1=];" },
X/* STD 374 */ { ADDR , EXTENDED,
X "fd;[1=]x" },
X/* STD 375 */ { 0 , 0,
X "ed;[1=];" },
X/* STS 376 */ { ADDR , DIRECT,
X "9f;[1=];" },
X/* STS 377 */ { ADDR , EXTENDED,
X "bf;[1=]x" },
X/* STS 378 */ { 0 , 0,
X "af;[1=];" },
X/* STX 379 */ { ADDR , DIRECT,
X "df;[1=];" },
X/* STX 380 */ { ADDR , EXTENDED,
X "ff;[1=]x" },
X/* STX 381 */ { 0 , 0,
X "ef;[1=];" },
X/* SUB 382 */ { ACCREG+ADDR , REGA+DIRECT,
X "90;[1=];" },
X/* SUB 383 */ { ACCREG+ADDR , REGA+EXTENDED,
X "b0;[1=]x" },
X/* SUB 384 */ { ACCREG+ADDR , REGB+DIRECT,
X "d0;[1=];" },
X/* SUB 385 */ { ACCREG+ADDR , REGB+EXTENDED,
X "f0;[1=]x" },
X/* SUB 386 */ { ACCREG , REGA,
X "80;[1=];" },
X/* SUB 387 */ { ACCREG , REGB,
X "c0;[1=];" },
X/* SUB 388 */ { ACCREG , REGA,
X "a0;[1=];" },
X/* SUB 389 */ { ACCREG , REGB,
X "e0;[1=];" },
X/* SUBA 390 */ { ADDR , DIRECT,
X "90;[1=];" },
X/* SUBA 391 */ { ADDR , EXTENDED,
X "b0;[1=]x" },
X/* SUBA 392 */ { 0 , 0,
X "80;[1=];" },
X/* SUBA 393 */ { 0 , 0,
X "a0;[1=];" },
X/* SUBB 394 */ { ADDR , DIRECT,
X "d0;[1=];" },
X/* SUBB 395 */ { ADDR , EXTENDED,
X "f0;[1=]x" },
X/* SUBB 396 */ { 0 , 0,
X "c0;[1=];" },
X/* SUBB 397 */ { 0 , 0,
X "e0;[1=];" },
X/* SUBD 398 */ { ADDR , DIRECT,
X "93;[1=];" },
X/* SUBD 399 */ { ADDR , EXTENDED,
X "b3;[1=]x" },
X/* SUBD 400 */ { 0 , 0,
X "83;[1=]x" },
X/* SUBD 401 */ { 0 , 0,
X "a3;[1=];" },
X/* SWI 402 */ { 0 , 0,
X "3f;" },
X/* TAB 403 */ { 0 , 0,
X "16;" },
X/* TAP 404 */ { 0 , 0,
X "06;" },
X/* TBA 405 */ { 0 , 0,
X "17;" },
X/* TIM 406 */ { 0 , 0,
X "7b;[1=];[2=];" },
X/* TIM 407 */ { 0 , 0,
X "6b;[1=];[2=];" },
X/* TPA 408 */ { 0 , 0,
X "07;" },
X/* TST 409 */ { ACCREG , REGA,
X "4d;" },
X/* TST 410 */ { ACCREG , REGB,
X "5d;" },
X/* TST 411 */ { 0 , 0,
X "7d;[1=]x" },
X/* TST 412 */ { 0 , 0,
X "6d;[1=];" },
X/* TSTA 413 */ { 0 , 0,
X "4d;" },
X/* TSTB 414 */ { 0 , 0,
X "5d;" },
X/* TSX 415 */ { 0 , 0,
X "30;" },
X/* TXS 416 */ { 0 , 0,
X "35;" },
X/* WAI 417 */ { 0 , 0,
X "3e;" },
X/* XGDX 418 */ { 0 , 0,
X "18;" },
X { 0,0,""} };
X/* end fraptabdef.c */
SHAR_EOF
true || echo 'restore of as6301.y failed'
fi
exit 0
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