/* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ #define RCSID5 "$Header$" /* * INTEL 8086 special routines */ ea_1(param) { if ((mrg_1 & 070) || (param & ~070)) serror("bad operand"); emit1(mrg_1 | param); switch(mrg_1 >> 6) { case 0: if (mrg_1 == 6 || (mrg_1 & 040)) { #ifdef RELOCATION RELOMOVE(relonami, rel_1); newrelo(exp_1.typ, RELO2); #endif emit2(exp_1.val); } break; case 1: #ifdef RELOCATION RELOMOVE(relonami, rel_1); newrelo(exp_1.typ, RELO1); #endif emit1(exp_1.val); break; case 2: #ifdef RELOCATION RELOMOVE(relonami, rel_1); newrelo(exp_1.typ, RELO2); #endif emit2(exp_1.val); break; } } ea_2(param) { mrg_1 = mrg_2; exp_1 = exp_2; RELOMOVE(rel_1, rel_2); ea_1(param); } reverse() { register m, r; expr_t e; m = mrg_1; mrg_1 = mrg_2; mrg_2 = m; e = exp_1; exp_1 = exp_2; exp_2 = e; #ifndef ASLD r = rel_1; rel_1 = rel_2; rel_2 = r; #endif } badsyntax() { serror("bad operands"); } regsize(sz) register sz; { register bit; sz <<= 3; bit = 010; sz &= bit; if ((mrg_1 >= 0300 && (mrg_1 & bit) != sz) || (mrg_2 >= 0300 && (mrg_2 & bit) != sz)) serror("register error"); mrg_1 &= ~bit; mrg_2 &= ~bit; } indexed() { if (mrg_2 & ~7) serror("register error"); if (exp_2.typ != S_ABS || fitb(exp_2.val) == 0) mrg_2 |= 0200; else if (exp_2.val != 0 || mrg_2 == 6) mrg_2 |= 0100; } branch(opc,exp) register opc; expr_t exp; { register sm,dist; int saving; dist = exp.val - (DOTVAL + 2); if (pass == PASS_2 && dist > 0 && !(exp.typ & S_DOT)) dist -= DOTGAIN; sm = fitb(dist); if ((exp.typ & ~S_DOT) != DOTTYP) sm = 0; if ((opc & 0370) == 0340) { fit(sm); sm = 1; } else { saving = opc == 0353 ? 1 : 3; if ((sm = small(sm,saving)) == 0) { if (opc != 0353) { emit1(opc^1); emit1(3); dist -= 2; } opc = 0351; dist--; } } emit1(opc); if (sm == 0) { #ifdef RELOCATION newrelo(exp.typ, RELPC | RELO2); #endif emit2(dist); } else emit1(dist); } pushop(opc) register opc; { regsize(1); if (mrg_1 & 020) { if ( (mrg_1&3) == 1 && opc==1 ) badsyntax() ; emit1(6 | opc | (mrg_1&3)<<3); } else if (mrg_1 >= 0300) { emit1(0120 | opc<<3 | (mrg_1&7)); } else if (opc == 0) { emit1(0377); ea_1(6<<3); } else { emit1(0217); ea_1(0<<3); } } addop(opc) register opc; { regsize(opc); if (mrg_2 >= 0300) { emit1(opc); ea_1((mrg_2&7)<<3); } else if ((mrg_2 & 040) && mrg_1 == 0300) { emit1(opc | 4); #ifdef RELOCATION RELOMOVE(relonami, rel_2); newrelo(exp_2.typ, (opc&1)? RELO2 : RELO1); #endif emitx(exp_2.val, (opc&1)+1); } else if (mrg_2 & 040) { if ((opc&1) == 0) { emit1(0200); } else if (exp_2.typ != S_ABS || fitb(exp_2.val) == 0 || opc==011 || opc==041 || opc==061 ) { emit1(0201); } else { emit1(0203); opc &= ~1; } ea_1(opc & 070); #ifdef RELOCATION RELOMOVE(relonami, rel_2); newrelo(exp_2.typ, (opc&1)? RELO2 : RELO1); #endif emitx(exp_2.val, (opc&1)+1); } else if (mrg_1 >= 0300) { emit1(opc | 2); ea_2((mrg_1&7)<<3); } else badsyntax(); } rolop(opc) register opc; { register cmrg; cmrg = mrg_2; mrg_2 = mrg_1; regsize(opc); if (cmrg == 0301) { emit1(0322 | (opc&1)); ea_1(opc&070); } else if ((cmrg & 040) && exp_2.val == 1) { emit1(0320 | (opc&1)); ea_1(opc&070); } else badsyntax(); } incop(opc) register opc; { regsize(opc); if ((opc&1) && mrg_1>=0300) { emit1(0100 | (opc&010) | (mrg_1&7)); } else { emit1(0376 | (opc&1)); ea_1(opc & 010); } } callop(opc) register opc; { regsize(1); if (mrg_1 & 040) { if (opc == (040+(0351<<8))) { RELOMOVE(relonami, rel_1); branch(0353,exp_1); } else { exp_1.val -= (DOTVAL+3); emit1(opc>>8); #ifdef RELOCATION RELOMOVE(relonami, rel_1); newrelo(exp_1.typ, RELPC | RELO2); #endif emit2(exp_1.val); } } else { emit1(0377); ea_1(opc&070); } } xchg(opc) register opc; { regsize(opc); if (mrg_2 == 0300 || mrg_1 < 0300) reverse(); if (opc == 1 && mrg_1 == 0300 && mrg_2 >= 0300) { emit1(0220 | (mrg_2&7)); } else if (mrg_1 >= 0300) { emit1(0206 | opc); ea_2((mrg_1&7)<<3); } else badsyntax(); } test(opc) register opc; { regsize(opc); if ((mrg_1 & 040) || mrg_2 >= 0300) reverse(); if ((mrg_2 & 040) && mrg_1 == 0300) { emit1(0250 | opc); #ifdef RELOCATION RELOMOVE(relonami, rel_2); newrelo(exp_2.typ, (opc&1)? RELO2 : RELO1); #endif emitx(exp_2.val, (opc&1)+1); } else if (mrg_2 & 040) { emit1(0366 | opc); ea_1(0<<3); #ifdef RELOCATION RELOMOVE(relonami, rel_2); newrelo(exp_2.typ, (opc&1)? RELO2 : RELO1); #endif emitx(exp_2.val, (opc&1)+1); } else if (mrg_1 >= 0300) { emit1(0204 | opc); ea_2((mrg_1&7)<<3); } else badsyntax(); } mov(opc) register opc; { regsize(opc); if (mrg_1 & 020) { emit1(0216); ea_2((mrg_1&3)<<3); } else if (mrg_2 & 020) { emit1(0214); ea_1((mrg_2&3)<<3); } else if (mrg_2 & 040) { if (mrg_1 >= 0300) { emit1(0260 | opc<<3 | (mrg_1&7)); #ifdef RELOCATION RELOMOVE(relonami, rel_2); newrelo(exp_2.typ, (opc&1)? RELO2 : RELO1); #endif emitx(exp_2.val, (opc&1)+1); } else { emit1(0306 | opc); ea_1(0<<3); #ifdef RELOCATION RELOMOVE(relonami, rel_2); newrelo(exp_2.typ, (opc&1)? RELO2 : RELO1); #endif emitx(exp_2.val, (opc&1)+1); } } else if (mrg_2 == 0300 && mrg_1 == 6) { emit1(0242 | opc); #ifdef RELOCATION RELOMOVE(relonami, rel_1); newrelo(exp_1.typ, RELO2); #endif emit2(exp_1.val); } else if (mrg_1 == 0300 && mrg_2 == 6) { emit1(0240 | opc); #ifdef RELOCATION RELOMOVE(relonami, rel_2); newrelo(exp_2.typ, RELO2); #endif emit2(exp_2.val); } else if (mrg_2 >= 0300) { emit1(0210 | opc); ea_1((mrg_2&7)<<3); } else if (mrg_1 >= 0300) { emit1(0212 | opc); ea_2((mrg_1&7)<<3); } else badsyntax(); }