#define RCSID4 "$Header$" /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". * */ /* * Mostek 6500 parsing tables. */ /* From the READ_ME file - translation by Albert Koelmans: * ________________ * * De .h en .l extensions van expressies zijn hard nodig. * Ze zorgen er echter ook voor dat er geen relocatable code geproduceerd * kan worden. Beschouw het volgende voorbeeld: * * The .h and .l extensions of expressions are vital. However, they prevent * relocatable code from being generated. Consider the following example: * * (file 1) * .sect .text ! 1 * lda #[endbss].l ! 2 * ldx #[endbss].h ! 3 * * (file 2) * .sect .bss ! 4 * endbss: ! 5 * * Wat voor relocation struct moet er nu voor de instructie in regel 3 * worden geproduceerd? * * What kind of relocation structure needs to be generated for the instruction * in line 3? */ expr : expr EXTENSION { $$.val = ($1.val >> $2) & 0xFF; #ifdef RELOCATION $$.typ = combine($1.typ, S_ABS, '&'); /* This will generate an 'invalid operator' */ /* error if $1.typ is not absolute after pass 1. */ #else $$.typ = $1.typ; /* Even if $1.typ is relocatable, it should be */ /* absolute by the final pass. */ #endif RELOCATION } ; operation : NOPOP { emit1($1); } | BITOP expr { code($2,$1,$1+8); } | JMPOP expr { emit1($1); #ifdef RELOCATION newrelo($2.typ, RELO2); #endif emit2($2.val); } | JMPOP '(' expr ')' { emit1($1+0x20); #ifdef RELOCATION newrelo($3.typ, RELO2); #endif emit2($3.val); } | JSROP expr { emit1($1); #ifdef RELOCATION newrelo($2.typ, RELO2); #endif emit2($2.val); } | LDXOP '#' expr { emit1(0xA2); #ifdef RELOCATION newrelo($3.typ, RELO1); #endif emit1($3.val); } | LDXOP expr { code($2,0xA6,0xAE); } | LDXOP expr ',' Y { code($2,0xB6,0xBE); } | LDYOP '#' expr { emit1(0xA0); #ifdef RELOCATION newrelo($3.typ, RELO1); #endif emit1($3.val); } | LDYOP expr { code($2,0xA4,0xAC); } | LDYOP expr ',' X { code($2,0xB4,0xBC); } | STXOP expr { code($2,$1+0x06,$1+0x0E); } | STXOP expr ',' Y { emit1($1+0x16); #ifdef RELOCATION newrelo($2.typ, RELO1); #endif emit1(lowb($2.val)); } | STYOP expr { code($2,$1+0x04,$1+0x0C); } | STYOP expr ',' X { emit1($1+0x14); #ifdef RELOCATION newrelo($2.typ, RELO1); #endif emit1(lowb($2.val)); } | addop '#' expr { if ($1==0x80) serror("no store immediate"); emit1($1+0x09); #ifdef RELOCATION newrelo($3.typ, RELO1); #endif emit1($3.val); } | addop expr { code($2,$1+0x05,$1+0x0D); } | addop expr ',' X { code($2,$1+0x15,$1+0x1D); } | addop expr ',' Y { emit1($1+0x19); #ifdef RELOCATION newrelo($2.typ, RELO2); #endif emit2($2.val); } | addop '(' expr ',' X ')' { emit1($1+0x01); #ifdef RELOCATION newrelo($3.typ, RELO1); #endif emit1(lowb($3.val)); } | addop '(' expr ')' ',' Y { emit1($1+0x11); #ifdef RELOCATION newrelo($3.typ, RELO1); #endif emit1(lowb($3.val)); } | ROLOP /* Default is A. */ { emit1($1+0x0A); } | ROLOP A { emit1($1+0x0A); } | ROLOP expr { code($2,$1+0x06,$1+0x0E); } | ROLOP expr ',' X { code($2,$1+0x16,$1+0x1E); } | BRAOP expr { branch($1,$2); } | CPXOP '#' expr { emit1($1+0x00); #ifdef RELOCATION newrelo($3.typ, RELO1); #endif emit1($3.val); } | CPXOP expr { code($2,$1+0x04,$1+0x0C); } | INCOP expr { code($2,$1+0x06,$1+0x0E); } | INCOP expr ',' X { code($2,$1+0x16,$1+0x1E); } ; addop : ADDOP | PSEU { emit1($1>>8); $$ = $1 & 0xFF; } ;