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Diffstat (limited to 'trunk/src/emu/cpu/nec/necinstr.c')
-rw-r--r--trunk/src/emu/cpu/nec/necinstr.c671
1 files changed, 671 insertions, 0 deletions
diff --git a/trunk/src/emu/cpu/nec/necinstr.c b/trunk/src/emu/cpu/nec/necinstr.c
new file mode 100644
index 00000000000..63fb0270c56
--- /dev/null
+++ b/trunk/src/emu/cpu/nec/necinstr.c
@@ -0,0 +1,671 @@
+#define OP(num,func_name) static void func_name(nec_state_t *nec_state)
+
+OP( 0x00, i_add_br8 ) { DEF_br8; ADDB; PutbackRMByte(ModRM,dst); CLKM(2,2,2,16,16,7); }
+OP( 0x01, i_add_wr16 ) { DEF_wr16; ADDW; PutbackRMWord(ModRM,dst); CLKR(24,24,11,24,16,7,2,EA);}
+OP( 0x02, i_add_r8b ) { DEF_r8b; ADDB; RegByte(ModRM)=dst; CLKM(2,2,2,11,11,6); }
+OP( 0x03, i_add_r16w ) { DEF_r16w; ADDW; RegWord(ModRM)=dst; CLKR(15,15,8,15,11,6,2,EA); }
+OP( 0x04, i_add_ald8 ) { DEF_ald8; ADDB; Breg(AL)=dst; CLKS(4,4,2); }
+OP( 0x05, i_add_axd16) { DEF_axd16; ADDW; Wreg(AW)=dst; CLKS(4,4,2); }
+OP( 0x06, i_push_es ) { PUSH(Sreg(DS1)); CLKS(12,8,3); }
+OP( 0x07, i_pop_es ) { POP(Sreg(DS1)); CLKS(12,8,5); }
+
+OP( 0x08, i_or_br8 ) { DEF_br8; ORB; PutbackRMByte(ModRM,dst); CLKM(2,2,2,16,16,7); }
+OP( 0x09, i_or_wr16 ) { DEF_wr16; ORW; PutbackRMWord(ModRM,dst); CLKR(24,24,11,24,16,7,2,EA);}
+OP( 0x0a, i_or_r8b ) { DEF_r8b; ORB; RegByte(ModRM)=dst; CLKM(2,2,2,11,11,6); }
+OP( 0x0b, i_or_r16w ) { DEF_r16w; ORW; RegWord(ModRM)=dst; CLKR(15,15,8,15,11,6,2,EA); }
+OP( 0x0c, i_or_ald8 ) { DEF_ald8; ORB; Breg(AL)=dst; CLKS(4,4,2); }
+OP( 0x0d, i_or_axd16 ) { DEF_axd16; ORW; Wreg(AW)=dst; CLKS(4,4,2); }
+OP( 0x0e, i_push_cs ) { PUSH(Sreg(PS)); CLKS(12,8,3); }
+OP( 0x0f, i_pre_nec ) { UINT32 ModRM, tmp, tmp2;
+ switch (FETCH()) {
+ case 0x10 : BITOP_BYTE; CLKS(3,3,4); tmp2 = Breg(CL) & 0x7; nec_state->ZeroVal = (tmp & (1<<tmp2)) ? 1 : 0; nec_state->CarryVal=nec_state->OverVal=0; break; /* Test */
+ case 0x11 : BITOP_WORD; CLKS(3,3,4); tmp2 = Breg(CL) & 0xf; nec_state->ZeroVal = (tmp & (1<<tmp2)) ? 1 : 0; nec_state->CarryVal=nec_state->OverVal=0; break; /* Test */
+ case 0x12 : BITOP_BYTE; CLKS(5,5,4); tmp2 = Breg(CL) & 0x7; tmp &= ~(1<<tmp2); PutbackRMByte(ModRM,tmp); break; /* Clr */
+ case 0x13 : BITOP_WORD; CLKS(5,5,4); tmp2 = Breg(CL) & 0xf; tmp &= ~(1<<tmp2); PutbackRMWord(ModRM,tmp); break; /* Clr */
+ case 0x14 : BITOP_BYTE; CLKS(4,4,4); tmp2 = Breg(CL) & 0x7; tmp |= (1<<tmp2); PutbackRMByte(ModRM,tmp); break; /* Set */
+ case 0x15 : BITOP_WORD; CLKS(4,4,4); tmp2 = Breg(CL) & 0xf; tmp |= (1<<tmp2); PutbackRMWord(ModRM,tmp); break; /* Set */
+ case 0x16 : BITOP_BYTE; CLKS(4,4,4); tmp2 = Breg(CL) & 0x7; BIT_NOT; PutbackRMByte(ModRM,tmp); break; /* Not */
+ case 0x17 : BITOP_WORD; CLKS(4,4,4); tmp2 = Breg(CL) & 0xf; BIT_NOT; PutbackRMWord(ModRM,tmp); break; /* Not */
+
+ case 0x18 : BITOP_BYTE; CLKS(4,4,4); tmp2 = (FETCH()) & 0x7; nec_state->ZeroVal = (tmp & (1<<tmp2)) ? 1 : 0; nec_state->CarryVal=nec_state->OverVal=0; break; /* Test */
+ case 0x19 : BITOP_WORD; CLKS(4,4,4); tmp2 = (FETCH()) & 0xf; nec_state->ZeroVal = (tmp & (1<<tmp2)) ? 1 : 0; nec_state->CarryVal=nec_state->OverVal=0; break; /* Test */
+ case 0x1a : BITOP_BYTE; CLKS(6,6,4); tmp2 = (FETCH()) & 0x7; tmp &= ~(1<<tmp2); PutbackRMByte(ModRM,tmp); break; /* Clr */
+ case 0x1b : BITOP_WORD; CLKS(6,6,4); tmp2 = (FETCH()) & 0xf; tmp &= ~(1<<tmp2); PutbackRMWord(ModRM,tmp); break; /* Clr */
+ case 0x1c : BITOP_BYTE; CLKS(5,5,4); tmp2 = (FETCH()) & 0x7; tmp |= (1<<tmp2); PutbackRMByte(ModRM,tmp); break; /* Set */
+ case 0x1d : BITOP_WORD; CLKS(5,5,4); tmp2 = (FETCH()) & 0xf; tmp |= (1<<tmp2); PutbackRMWord(ModRM,tmp); break; /* Set */
+ case 0x1e : BITOP_BYTE; CLKS(5,5,4); tmp2 = (FETCH()) & 0x7; BIT_NOT; PutbackRMByte(ModRM,tmp); break; /* Not */
+ case 0x1f : BITOP_WORD; CLKS(5,5,4); tmp2 = (FETCH()) & 0xf; BIT_NOT; PutbackRMWord(ModRM,tmp); break; /* Not */
+
+ case 0x20 : ADD4S; CLKS(7,7,2); break;
+ case 0x22 : SUB4S; CLKS(7,7,2); break;
+ case 0x26 : CMP4S; CLKS(7,7,2); break;
+ case 0x28 : ModRM = FETCH(); tmp = GetRMByte(ModRM); tmp <<= 4; tmp |= Breg(AL) & 0xf; Breg(AL) = (Breg(AL) & 0xf0) | ((tmp>>8)&0xf); tmp &= 0xff; PutbackRMByte(ModRM,tmp); CLKM(13,13,9,28,28,15); break;
+ case 0x2a : ModRM = FETCH(); tmp = GetRMByte(ModRM); tmp2 = (Breg(AL) & 0xf)<<4; Breg(AL) = (Breg(AL) & 0xf0) | (tmp&0xf); tmp = tmp2 | (tmp>>4); PutbackRMByte(ModRM,tmp); CLKM(17,17,13,32,32,19); break;
+ case 0x31 : ModRM = FETCH(); ModRM=0; logerror("%06x: Unimplemented bitfield INS\n",PC(nec_state)); break;
+ case 0x33 : ModRM = FETCH(); ModRM=0; logerror("%06x: Unimplemented bitfield EXT\n",PC(nec_state)); break;
+ case 0xe0 : ModRM = FETCH(); ModRM=0; logerror("%06x: V33 unimplemented BRKXA (break to expansion address)\n",PC(nec_state)); break;
+ case 0xf0 : ModRM = FETCH(); ModRM=0; logerror("%06x: V33 unimplemented RETXA (return from expansion address)\n",PC(nec_state)); break;
+ case 0xff : ModRM = FETCH(); ModRM=0; logerror("%06x: unimplemented BRKEM (break to 8080 emulation mode)\n",PC(nec_state)); break;
+ default: logerror("%06x: Unknown V20 instruction\n",PC(nec_state)); break;
+ }
+}
+
+OP( 0x10, i_adc_br8 ) { DEF_br8; src+=CF; ADDB; PutbackRMByte(ModRM,dst); CLKM(2,2,2,16,16,7); }
+OP( 0x11, i_adc_wr16 ) { DEF_wr16; src+=CF; ADDW; PutbackRMWord(ModRM,dst); CLKR(24,24,11,24,16,7,2,EA);}
+OP( 0x12, i_adc_r8b ) { DEF_r8b; src+=CF; ADDB; RegByte(ModRM)=dst; CLKM(2,2,2,11,11,6); }
+OP( 0x13, i_adc_r16w ) { DEF_r16w; src+=CF; ADDW; RegWord(ModRM)=dst; CLKR(15,15,8,15,11,6,2,EA); }
+OP( 0x14, i_adc_ald8 ) { DEF_ald8; src+=CF; ADDB; Breg(AL)=dst; CLKS(4,4,2); }
+OP( 0x15, i_adc_axd16) { DEF_axd16; src+=CF; ADDW; Wreg(AW)=dst; CLKS(4,4,2); }
+OP( 0x16, i_push_ss ) { PUSH(Sreg(SS)); CLKS(12,8,3); }
+OP( 0x17, i_pop_ss ) { POP(Sreg(SS)); CLKS(12,8,5); nec_state->no_interrupt=1; }
+
+OP( 0x18, i_sbb_br8 ) { DEF_br8; src+=CF; SUBB; PutbackRMByte(ModRM,dst); CLKM(2,2,2,16,16,7); }
+OP( 0x19, i_sbb_wr16 ) { DEF_wr16; src+=CF; SUBW; PutbackRMWord(ModRM,dst); CLKR(24,24,11,24,16,7,2,EA);}
+OP( 0x1a, i_sbb_r8b ) { DEF_r8b; src+=CF; SUBB; RegByte(ModRM)=dst; CLKM(2,2,2,11,11,6); }
+OP( 0x1b, i_sbb_r16w ) { DEF_r16w; src+=CF; SUBW; RegWord(ModRM)=dst; CLKR(15,15,8,15,11,6,2,EA); }
+OP( 0x1c, i_sbb_ald8 ) { DEF_ald8; src+=CF; SUBB; Breg(AL)=dst; CLKS(4,4,2); }
+OP( 0x1d, i_sbb_axd16) { DEF_axd16; src+=CF; SUBW; Wreg(AW)=dst; CLKS(4,4,2); }
+OP( 0x1e, i_push_ds ) { PUSH(Sreg(DS0)); CLKS(12,8,3); }
+OP( 0x1f, i_pop_ds ) { POP(Sreg(DS0)); CLKS(12,8,5); }
+
+OP( 0x20, i_and_br8 ) { DEF_br8; ANDB; PutbackRMByte(ModRM,dst); CLKM(2,2,2,16,16,7); }
+OP( 0x21, i_and_wr16 ) { DEF_wr16; ANDW; PutbackRMWord(ModRM,dst); CLKR(24,24,11,24,16,7,2,EA);}
+OP( 0x22, i_and_r8b ) { DEF_r8b; ANDB; RegByte(ModRM)=dst; CLKM(2,2,2,11,11,6); }
+OP( 0x23, i_and_r16w ) { DEF_r16w; ANDW; RegWord(ModRM)=dst; CLKR(15,15,8,15,11,6,2,EA); }
+OP( 0x24, i_and_ald8 ) { DEF_ald8; ANDB; Breg(AL)=dst; CLKS(4,4,2); }
+OP( 0x25, i_and_axd16) { DEF_axd16; ANDW; Wreg(AW)=dst; CLKS(4,4,2); }
+OP( 0x26, i_es ) { nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(DS1)<<4; CLK(2); nec_instruction[fetchop(nec_state)](nec_state); nec_state->seg_prefix=FALSE; }
+OP( 0x27, i_daa ) { ADJ4(6,0x60); CLKS(3,3,2); }
+
+OP( 0x28, i_sub_br8 ) { DEF_br8; SUBB; PutbackRMByte(ModRM,dst); CLKM(2,2,2,16,16,7); }
+OP( 0x29, i_sub_wr16 ) { DEF_wr16; SUBW; PutbackRMWord(ModRM,dst); CLKR(24,24,11,24,16,7,2,EA);}
+OP( 0x2a, i_sub_r8b ) { DEF_r8b; SUBB; RegByte(ModRM)=dst; CLKM(2,2,2,11,11,6); }
+OP( 0x2b, i_sub_r16w ) { DEF_r16w; SUBW; RegWord(ModRM)=dst; CLKR(15,15,8,15,11,6,2,EA); }
+OP( 0x2c, i_sub_ald8 ) { DEF_ald8; SUBB; Breg(AL)=dst; CLKS(4,4,2); }
+OP( 0x2d, i_sub_axd16) { DEF_axd16; SUBW; Wreg(AW)=dst; CLKS(4,4,2); }
+OP( 0x2e, i_cs ) { nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(PS)<<4; CLK(2); nec_instruction[fetchop(nec_state)](nec_state); nec_state->seg_prefix=FALSE; }
+OP( 0x2f, i_das ) { ADJ4(-6,-0x60); CLKS(3,3,2); }
+
+OP( 0x30, i_xor_br8 ) { DEF_br8; XORB; PutbackRMByte(ModRM,dst); CLKM(2,2,2,16,16,7); }
+OP( 0x31, i_xor_wr16 ) { DEF_wr16; XORW; PutbackRMWord(ModRM,dst); CLKR(24,24,11,24,16,7,2,EA);}
+OP( 0x32, i_xor_r8b ) { DEF_r8b; XORB; RegByte(ModRM)=dst; CLKM(2,2,2,11,11,6); }
+OP( 0x33, i_xor_r16w ) { DEF_r16w; XORW; RegWord(ModRM)=dst; CLKR(15,15,8,15,11,6,2,EA); }
+OP( 0x34, i_xor_ald8 ) { DEF_ald8; XORB; Breg(AL)=dst; CLKS(4,4,2); }
+OP( 0x35, i_xor_axd16) { DEF_axd16; XORW; Wreg(AW)=dst; CLKS(4,4,2); }
+OP( 0x36, i_ss ) { nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(SS)<<4; CLK(2); nec_instruction[fetchop(nec_state)](nec_state); nec_state->seg_prefix=FALSE; }
+OP( 0x37, i_aaa ) { ADJB(6, (Breg(AL) > 0xf9) ? 2 : 1); CLKS(7,7,4); }
+
+OP( 0x38, i_cmp_br8 ) { DEF_br8; SUBB; CLKM(2,2,2,11,11,6); }
+OP( 0x39, i_cmp_wr16 ) { DEF_wr16; SUBW; CLKR(15,15,8,15,11,6,2,EA);}
+OP( 0x3a, i_cmp_r8b ) { DEF_r8b; SUBB; CLKM(2,2,2,11,11,6); }
+OP( 0x3b, i_cmp_r16w ) { DEF_r16w; SUBW; CLKR(15,15,8,15,11,6,2,EA); }
+OP( 0x3c, i_cmp_ald8 ) { DEF_ald8; SUBB; CLKS(4,4,2); }
+OP( 0x3d, i_cmp_axd16) { DEF_axd16; SUBW; CLKS(4,4,2); }
+OP( 0x3e, i_ds ) { nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(DS0)<<4; CLK(2); nec_instruction[fetchop(nec_state)](nec_state); nec_state->seg_prefix=FALSE; }
+OP( 0x3f, i_aas ) { ADJB(-6, (Breg(AL) < 6) ? -2 : -1); CLKS(7,7,4); }
+
+OP( 0x40, i_inc_ax ) { IncWordReg(AW); CLK(2); }
+OP( 0x41, i_inc_cx ) { IncWordReg(CW); CLK(2); }
+OP( 0x42, i_inc_dx ) { IncWordReg(DW); CLK(2); }
+OP( 0x43, i_inc_bx ) { IncWordReg(BW); CLK(2); }
+OP( 0x44, i_inc_sp ) { IncWordReg(SP); CLK(2); }
+OP( 0x45, i_inc_bp ) { IncWordReg(BP); CLK(2); }
+OP( 0x46, i_inc_si ) { IncWordReg(IX); CLK(2); }
+OP( 0x47, i_inc_di ) { IncWordReg(IY); CLK(2); }
+
+OP( 0x48, i_dec_ax ) { DecWordReg(AW); CLK(2); }
+OP( 0x49, i_dec_cx ) { DecWordReg(CW); CLK(2); }
+OP( 0x4a, i_dec_dx ) { DecWordReg(DW); CLK(2); }
+OP( 0x4b, i_dec_bx ) { DecWordReg(BW); CLK(2); }
+OP( 0x4c, i_dec_sp ) { DecWordReg(SP); CLK(2); }
+OP( 0x4d, i_dec_bp ) { DecWordReg(BP); CLK(2); }
+OP( 0x4e, i_dec_si ) { DecWordReg(IX); CLK(2); }
+OP( 0x4f, i_dec_di ) { DecWordReg(IY); CLK(2); }
+
+OP( 0x50, i_push_ax ) { PUSH(Wreg(AW)); CLKS(12,8,3); }
+OP( 0x51, i_push_cx ) { PUSH(Wreg(CW)); CLKS(12,8,3); }
+OP( 0x52, i_push_dx ) { PUSH(Wreg(DW)); CLKS(12,8,3); }
+OP( 0x53, i_push_bx ) { PUSH(Wreg(BW)); CLKS(12,8,3); }
+OP( 0x54, i_push_sp ) { PUSH(Wreg(SP)); CLKS(12,8,3); }
+OP( 0x55, i_push_bp ) { PUSH(Wreg(BP)); CLKS(12,8,3); }
+OP( 0x56, i_push_si ) { PUSH(Wreg(IX)); CLKS(12,8,3); }
+OP( 0x57, i_push_di ) { PUSH(Wreg(IY)); CLKS(12,8,3); }
+
+OP( 0x58, i_pop_ax ) { POP(Wreg(AW)); CLKS(12,8,5); }
+OP( 0x59, i_pop_cx ) { POP(Wreg(CW)); CLKS(12,8,5); }
+OP( 0x5a, i_pop_dx ) { POP(Wreg(DW)); CLKS(12,8,5); }
+OP( 0x5b, i_pop_bx ) { POP(Wreg(BW)); CLKS(12,8,5); }
+OP( 0x5c, i_pop_sp ) { POP(Wreg(SP)); CLKS(12,8,5); }
+OP( 0x5d, i_pop_bp ) { POP(Wreg(BP)); CLKS(12,8,5); }
+OP( 0x5e, i_pop_si ) { POP(Wreg(IX)); CLKS(12,8,5); }
+OP( 0x5f, i_pop_di ) { POP(Wreg(IY)); CLKS(12,8,5); }
+
+OP( 0x60, i_pusha ) {
+ unsigned tmp=Wreg(SP);
+ PUSH(Wreg(AW));
+ PUSH(Wreg(CW));
+ PUSH(Wreg(DW));
+ PUSH(Wreg(BW));
+ PUSH(tmp);
+ PUSH(Wreg(BP));
+ PUSH(Wreg(IX));
+ PUSH(Wreg(IY));
+ CLKS(67,35,20);
+}
+static unsigned nec_popa_tmp;
+OP( 0x61, i_popa ) {
+ POP(Wreg(IY));
+ POP(Wreg(IX));
+ POP(Wreg(BP));
+ POP(nec_popa_tmp);
+ POP(Wreg(BW));
+ POP(Wreg(DW));
+ POP(Wreg(CW));
+ POP(Wreg(AW));
+ CLKS(75,43,22);
+}
+OP( 0x62, i_chkind ) {
+ UINT32 low,high,tmp;
+ GetModRM;
+ low = GetRMWord(ModRM);
+ high= GetnextRMWord;
+ tmp= RegWord(ModRM);
+ if (tmp<low || tmp>high) {
+ nec_interrupt(nec_state, NEC_CHKIND_VECTOR, BRK);
+ }
+ nec_state->icount-=20;
+ logerror("%06x: bound %04x high %04x low %04x tmp\n",PC(nec_state),high,low,tmp);
+}
+OP( 0x64, i_repnc ) { UINT32 next = fetchop(nec_state); UINT16 c = Wreg(CW);
+ switch(next) { /* Segments */
+ case 0x26: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(DS1)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x2e: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(PS)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x36: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(SS)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x3e: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(DS0)<<4; next = fetchop(nec_state); CLK(2); break;
+ }
+
+ switch(next) {
+ case 0x6c: CLK(2); if (c) do { i_insb(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0x6d: CLK(2); if (c) do { i_insw(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0x6e: CLK(2); if (c) do { i_outsb(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0x6f: CLK(2); if (c) do { i_outsw(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0xa4: CLK(2); if (c) do { i_movsb(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0xa5: CLK(2); if (c) do { i_movsw(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0xa6: CLK(2); if (c) do { i_cmpsb(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0xa7: CLK(2); if (c) do { i_cmpsw(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0xaa: CLK(2); if (c) do { i_stosb(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0xab: CLK(2); if (c) do { i_stosw(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0xac: CLK(2); if (c) do { i_lodsb(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0xad: CLK(2); if (c) do { i_lodsw(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0xae: CLK(2); if (c) do { i_scasb(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ case 0xaf: CLK(2); if (c) do { i_scasw(nec_state); c--; } while (c>0 && !CF); Wreg(CW)=c; break;
+ default: logerror("%06x: REPNC invalid\n",PC(nec_state)); nec_instruction[next](nec_state);
+ }
+ nec_state->seg_prefix=FALSE;
+}
+
+OP( 0x65, i_repc ) { UINT32 next = fetchop(nec_state); UINT16 c = Wreg(CW);
+ switch(next) { /* Segments */
+ case 0x26: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(DS1)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x2e: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(PS)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x36: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(SS)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x3e: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(DS0)<<4; next = fetchop(nec_state); CLK(2); break;
+ }
+
+ switch(next) {
+ case 0x6c: CLK(2); if (c) do { i_insb(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0x6d: CLK(2); if (c) do { i_insw(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0x6e: CLK(2); if (c) do { i_outsb(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0x6f: CLK(2); if (c) do { i_outsw(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0xa4: CLK(2); if (c) do { i_movsb(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0xa5: CLK(2); if (c) do { i_movsw(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0xa6: CLK(2); if (c) do { i_cmpsb(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0xa7: CLK(2); if (c) do { i_cmpsw(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0xaa: CLK(2); if (c) do { i_stosb(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0xab: CLK(2); if (c) do { i_stosw(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0xac: CLK(2); if (c) do { i_lodsb(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0xad: CLK(2); if (c) do { i_lodsw(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0xae: CLK(2); if (c) do { i_scasb(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ case 0xaf: CLK(2); if (c) do { i_scasw(nec_state); c--; } while (c>0 && CF); Wreg(CW)=c; break;
+ default: logerror("%06x: REPC invalid\n",PC(nec_state)); nec_instruction[next](nec_state);
+ }
+ nec_state->seg_prefix=FALSE;
+}
+
+OP( 0x68, i_push_d16 ) { UINT32 tmp; tmp = FETCHWORD(); PUSH(tmp); CLKW(12,12,5,12,8,5,Wreg(SP)); }
+OP( 0x69, i_imul_d16 ) { UINT32 tmp; DEF_r16w; tmp = FETCHWORD(); dst = (INT32)((INT16)src)*(INT32)((INT16)tmp); nec_state->CarryVal = nec_state->OverVal = (((INT32)dst) >> 15 != 0) && (((INT32)dst) >> 15 != -1); RegWord(ModRM)=(WORD)dst; nec_state->icount-=(ModRM >=0xc0 )?38:47;}
+OP( 0x6a, i_push_d8 ) { UINT32 tmp = (WORD)((INT16)((INT8)FETCH())); PUSH(tmp); CLKW(11,11,5,11,7,3,Wreg(SP)); }
+OP( 0x6b, i_imul_d8 ) { UINT32 src2; DEF_r16w; src2= (WORD)((INT16)((INT8)FETCH())); dst = (INT32)((INT16)src)*(INT32)((INT16)src2); nec_state->CarryVal = nec_state->OverVal = (((INT32)dst) >> 15 != 0) && (((INT32)dst) >> 15 != -1); RegWord(ModRM)=(WORD)dst; nec_state->icount-=(ModRM >=0xc0 )?31:39; }
+OP( 0x6c, i_insb ) { PutMemB(DS1,Wreg(IY),read_port_byte(Wreg(DW))); Wreg(IY)+= -2 * nec_state->DF + 1; CLK(8); }
+OP( 0x6d, i_insw ) { PutMemW(DS1,Wreg(IY),read_port_word(Wreg(DW))); Wreg(IY)+= -4 * nec_state->DF + 2; CLKS(18,10,8); }
+OP( 0x6e, i_outsb ) { write_port_byte(Wreg(DW),GetMemB(DS0,Wreg(IX))); Wreg(IX)+= -2 * nec_state->DF + 1; CLK(8); }
+OP( 0x6f, i_outsw ) { write_port_word(Wreg(DW),GetMemW(DS0,Wreg(IX))); Wreg(IX)+= -4 * nec_state->DF + 2; CLKS(18,10,8); }
+
+OP( 0x70, i_jo ) { JMP( OF); CLKS(4,4,3); }
+OP( 0x71, i_jno ) { JMP(!OF); CLKS(4,4,3); }
+OP( 0x72, i_jc ) { JMP( CF); CLKS(4,4,3); }
+OP( 0x73, i_jnc ) { JMP(!CF); CLKS(4,4,3); }
+OP( 0x74, i_jz ) { JMP( ZF); CLKS(4,4,3); }
+OP( 0x75, i_jnz ) { JMP(!ZF); CLKS(4,4,3); }
+OP( 0x76, i_jce ) { JMP(CF || ZF); CLKS(4,4,3); }
+OP( 0x77, i_jnce ) { JMP(!(CF || ZF)); CLKS(4,4,3); }
+OP( 0x78, i_js ) { JMP( SF); CLKS(4,4,3); }
+OP( 0x79, i_jns ) { JMP(!SF); CLKS(4,4,3); }
+OP( 0x7a, i_jp ) { JMP( PF); CLKS(4,4,3); }
+OP( 0x7b, i_jnp ) { JMP(!PF); CLKS(4,4,3); }
+OP( 0x7c, i_jl ) { JMP((SF!=OF)&&(!ZF)); CLKS(4,4,3); }
+OP( 0x7d, i_jnl ) { JMP((ZF)||(SF==OF)); CLKS(4,4,3); }
+OP( 0x7e, i_jle ) { JMP((ZF)||(SF!=OF)); CLKS(4,4,3); }
+OP( 0x7f, i_jnle ) { JMP((SF==OF)&&(!ZF)); CLKS(4,4,3); }
+
+OP( 0x80, i_80pre ) { UINT32 dst, src; GetModRM; dst = GetRMByte(ModRM); src = FETCH();
+ if (ModRM >=0xc0 ) CLKS(4,4,2) else if ((ModRM & 0x38)==0x38) CLKS(13,13,6) else CLKS(18,18,7)
+ switch (ModRM & 0x38) {
+ case 0x00: ADDB; PutbackRMByte(ModRM,dst); break;
+ case 0x08: ORB; PutbackRMByte(ModRM,dst); break;
+ case 0x10: src+=CF; ADDB; PutbackRMByte(ModRM,dst); break;
+ case 0x18: src+=CF; SUBB; PutbackRMByte(ModRM,dst); break;
+ case 0x20: ANDB; PutbackRMByte(ModRM,dst); break;
+ case 0x28: SUBB; PutbackRMByte(ModRM,dst); break;
+ case 0x30: XORB; PutbackRMByte(ModRM,dst); break;
+ case 0x38: SUBB; break; /* CMP */
+ }
+}
+
+OP( 0x81, i_81pre ) { UINT32 dst, src; GetModRM; dst = GetRMWord(ModRM); src = FETCH(); src+= (FETCH() << 8);
+ if (ModRM >=0xc0 ) CLKS(4,4,2) else if ((ModRM & 0x38)==0x38) CLKW(17,17,8,17,13,6,EA) else CLKW(26,26,11,26,18,7,EA)
+ switch (ModRM & 0x38) {
+ case 0x00: ADDW; PutbackRMWord(ModRM,dst); break;
+ case 0x08: ORW; PutbackRMWord(ModRM,dst); break;
+ case 0x10: src+=CF; ADDW; PutbackRMWord(ModRM,dst); break;
+ case 0x18: src+=CF; SUBW; PutbackRMWord(ModRM,dst); break;
+ case 0x20: ANDW; PutbackRMWord(ModRM,dst); break;
+ case 0x28: SUBW; PutbackRMWord(ModRM,dst); break;
+ case 0x30: XORW; PutbackRMWord(ModRM,dst); break;
+ case 0x38: SUBW; break; /* CMP */
+ }
+}
+
+OP( 0x82, i_82pre ) { UINT32 dst, src; GetModRM; dst = GetRMByte(ModRM); src = (BYTE)((INT8)FETCH());
+ if (ModRM >=0xc0 ) CLKS(4,4,2) else if ((ModRM & 0x38)==0x38) CLKS(13,13,6) else CLKS(18,18,7)
+ switch (ModRM & 0x38) {
+ case 0x00: ADDB; PutbackRMByte(ModRM,dst); break;
+ case 0x08: ORB; PutbackRMByte(ModRM,dst); break;
+ case 0x10: src+=CF; ADDB; PutbackRMByte(ModRM,dst); break;
+ case 0x18: src+=CF; SUBB; PutbackRMByte(ModRM,dst); break;
+ case 0x20: ANDB; PutbackRMByte(ModRM,dst); break;
+ case 0x28: SUBB; PutbackRMByte(ModRM,dst); break;
+ case 0x30: XORB; PutbackRMByte(ModRM,dst); break;
+ case 0x38: SUBB; break; /* CMP */
+ }
+}
+
+OP( 0x83, i_83pre ) { UINT32 dst, src; GetModRM; dst = GetRMWord(ModRM); src = (WORD)((INT16)((INT8)FETCH()));
+ if (ModRM >=0xc0 ) CLKS(4,4,2) else if ((ModRM & 0x38)==0x38) CLKW(17,17,8,17,13,6,EA) else CLKW(26,26,11,26,18,7,EA)
+ switch (ModRM & 0x38) {
+ case 0x00: ADDW; PutbackRMWord(ModRM,dst); break;
+ case 0x08: ORW; PutbackRMWord(ModRM,dst); break;
+ case 0x10: src+=CF; ADDW; PutbackRMWord(ModRM,dst); break;
+ case 0x18: src+=CF; SUBW; PutbackRMWord(ModRM,dst); break;
+ case 0x20: ANDW; PutbackRMWord(ModRM,dst); break;
+ case 0x28: SUBW; PutbackRMWord(ModRM,dst); break;
+ case 0x30: XORW; PutbackRMWord(ModRM,dst); break;
+ case 0x38: SUBW; break; /* CMP */
+ }
+}
+
+OP( 0x84, i_test_br8 ) { DEF_br8; ANDB; CLKM(2,2,2,10,10,6); }
+OP( 0x85, i_test_wr16 ) { DEF_wr16; ANDW; CLKR(14,14,8,14,10,6,2,EA); }
+OP( 0x86, i_xchg_br8 ) { DEF_br8; RegByte(ModRM)=dst; PutbackRMByte(ModRM,src); CLKM(3,3,3,16,18,8); }
+OP( 0x87, i_xchg_wr16 ) { DEF_wr16; RegWord(ModRM)=dst; PutbackRMWord(ModRM,src); CLKR(24,24,12,24,16,8,3,EA); }
+
+OP( 0x88, i_mov_br8 ) { UINT8 src; GetModRM; src = RegByte(ModRM); PutRMByte(ModRM,src); CLKM(2,2,2,9,9,3); }
+OP( 0x89, i_mov_wr16 ) { UINT16 src; GetModRM; src = RegWord(ModRM); PutRMWord(ModRM,src); CLKR(13,13,5,13,9,3,2,EA); }
+OP( 0x8a, i_mov_r8b ) { UINT8 src; GetModRM; src = GetRMByte(ModRM); RegByte(ModRM)=src; CLKM(2,2,2,11,11,5); }
+OP( 0x8b, i_mov_r16w ) { UINT16 src; GetModRM; src = GetRMWord(ModRM); RegWord(ModRM)=src; CLKR(15,15,7,15,11,5,2,EA); }
+OP( 0x8c, i_mov_wsreg ) { GetModRM;
+ switch (ModRM & 0x38) {
+ case 0x00: PutRMWord(ModRM,Sreg(DS1)); CLKR(14,14,5,14,10,3,2,EA); break;
+ case 0x08: PutRMWord(ModRM,Sreg(PS)); CLKR(14,14,5,14,10,3,2,EA); break;
+ case 0x10: PutRMWord(ModRM,Sreg(SS)); CLKR(14,14,5,14,10,3,2,EA); break;
+ case 0x18: PutRMWord(ModRM,Sreg(DS0)); CLKR(14,14,5,14,10,3,2,EA); break;
+ default: logerror("%06x: MOV Sreg - Invalid register\n",PC(nec_state));
+ }
+}
+OP( 0x8d, i_lea ) { UINT16 ModRM = FETCH(); (void)(*GetEA[ModRM])(nec_state); RegWord(ModRM)=EO; CLKS(4,4,2); }
+OP( 0x8e, i_mov_sregw ) { UINT16 src; GetModRM; src = GetRMWord(ModRM); CLKR(15,15,7,15,11,5,2,EA);
+ switch (ModRM & 0x38) {
+ case 0x00: Sreg(DS1) = src; break; /* mov es,ew */
+ case 0x08: Sreg(PS) = src; break; /* mov cs,ew */
+ case 0x10: Sreg(SS) = src; break; /* mov ss,ew */
+ case 0x18: Sreg(DS0) = src; break; /* mov ds,ew */
+ default: logerror("%06x: MOV Sreg - Invalid register\n",PC(nec_state));
+ }
+ nec_state->no_interrupt=1;
+}
+OP( 0x8f, i_popw ) { UINT16 tmp; GetModRM; POP(tmp); PutRMWord(ModRM,tmp); nec_state->icount-=21; }
+OP( 0x90, i_nop ) { CLK(3); /* { if (nec_state->MF == 0) printf("90 -> %06x: \n",PC(nec_state)); } */ }
+OP( 0x91, i_xchg_axcx ) { XchgAWReg(CW); CLK(3); }
+OP( 0x92, i_xchg_axdx ) { XchgAWReg(DW); CLK(3); }
+OP( 0x93, i_xchg_axbx ) { XchgAWReg(BW); CLK(3); }
+OP( 0x94, i_xchg_axsp ) { XchgAWReg(SP); CLK(3); }
+OP( 0x95, i_xchg_axbp ) { XchgAWReg(BP); CLK(3); }
+OP( 0x96, i_xchg_axsi ) { XchgAWReg(IX); CLK(3); }
+OP( 0x97, i_xchg_axdi ) { XchgAWReg(IY); CLK(3); }
+
+OP( 0x98, i_cbw ) { Breg(AH) = (Breg(AL) & 0x80) ? 0xff : 0; CLK(2); }
+OP( 0x99, i_cwd ) { Wreg(DW) = (Breg(AH) & 0x80) ? 0xffff : 0; CLK(4); }
+OP( 0x9a, i_call_far ) { UINT32 tmp, tmp2; tmp = FETCHWORD(); tmp2 = FETCHWORD(); PUSH(Sreg(PS)); PUSH(nec_state->ip); nec_state->ip = (WORD)tmp; Sreg(PS) = (WORD)tmp2; CHANGE_PC; CLKW(29,29,13,29,21,9,Wreg(SP)); }
+OP( 0x9b, i_wait ) { if (!nec_state->poll_state) nec_state->ip--; CLK(5); }
+OP( 0x9c, i_pushf ) { UINT16 tmp = CompressFlags(); PUSH( tmp ); CLKS(12,8,3); }
+OP( 0x9d, i_popf ) { UINT32 tmp; POP(tmp); ExpandFlags(tmp); CLKS(12,8,5); if (nec_state->TF) nec_trap(nec_state); }
+OP( 0x9e, i_sahf ) { UINT32 tmp = (CompressFlags() & 0xff00) | (Breg(AH) & 0xd5); ExpandFlags(tmp); CLKS(3,3,2); }
+OP( 0x9f, i_lahf ) { Breg(AH) = CompressFlags() & 0xff; CLKS(3,3,2); }
+
+OP( 0xa0, i_mov_aldisp ) { UINT32 addr; addr = FETCHWORD(); Breg(AL) = GetMemB(DS0, addr); CLKS(10,10,5); }
+OP( 0xa1, i_mov_axdisp ) { UINT32 addr; addr = FETCHWORD(); Wreg(AW) = GetMemW(DS0, addr); CLKW(14,14,7,14,10,5,addr); }
+OP( 0xa2, i_mov_dispal ) { UINT32 addr; addr = FETCHWORD(); PutMemB(DS0, addr, Breg(AL)); CLKS(9,9,3); }
+OP( 0xa3, i_mov_dispax ) { UINT32 addr; addr = FETCHWORD(); PutMemW(DS0, addr, Wreg(AW)); CLKW(13,13,5,13,9,3,addr); }
+OP( 0xa4, i_movsb ) { UINT32 tmp = GetMemB(DS0,Wreg(IX)); PutMemB(DS1,Wreg(IY), tmp); Wreg(IY) += -2 * nec_state->DF + 1; Wreg(IX) += -2 * nec_state->DF + 1; CLKS(8,8,6); }
+OP( 0xa5, i_movsw ) { UINT32 tmp = GetMemW(DS0,Wreg(IX)); PutMemW(DS1,Wreg(IY), tmp); Wreg(IY) += -4 * nec_state->DF + 2; Wreg(IX) += -4 * nec_state->DF + 2; CLKS(16,16,10); }
+OP( 0xa6, i_cmpsb ) { UINT32 src = GetMemB(DS1, Wreg(IY)); UINT32 dst = GetMemB(DS0, Wreg(IX)); SUBB; Wreg(IY) += -2 * nec_state->DF + 1; Wreg(IX) += -2 * nec_state->DF + 1; CLKS(14,14,14); }
+OP( 0xa7, i_cmpsw ) { UINT32 src = GetMemW(DS1, Wreg(IY)); UINT32 dst = GetMemW(DS0, Wreg(IX)); SUBW; Wreg(IY) += -4 * nec_state->DF + 2; Wreg(IX) += -4 * nec_state->DF + 2; CLKS(14,14,14); }
+
+OP( 0xa8, i_test_ald8 ) { DEF_ald8; ANDB; CLKS(4,4,2); }
+OP( 0xa9, i_test_axd16 ) { DEF_axd16; ANDW; CLKS(4,4,2); }
+OP( 0xaa, i_stosb ) { PutMemB(DS1,Wreg(IY),Breg(AL)); Wreg(IY) += -2 * nec_state->DF + 1; CLKS(4,4,3); }
+OP( 0xab, i_stosw ) { PutMemW(DS1,Wreg(IY),Wreg(AW)); Wreg(IY) += -4 * nec_state->DF + 2; CLKW(8,8,5,8,4,3,Wreg(IY)); }
+OP( 0xac, i_lodsb ) { Breg(AL) = GetMemB(DS0,Wreg(IX)); Wreg(IX) += -2 * nec_state->DF + 1; CLKS(4,4,3); }
+OP( 0xad, i_lodsw ) { Wreg(AW) = GetMemW(DS0,Wreg(IX)); Wreg(IX) += -4 * nec_state->DF + 2; CLKW(8,8,5,8,4,3,Wreg(IX)); }
+OP( 0xae, i_scasb ) { UINT32 src = GetMemB(DS1, Wreg(IY)); UINT32 dst = Breg(AL); SUBB; Wreg(IY) += -2 * nec_state->DF + 1; CLKS(4,4,3); }
+OP( 0xaf, i_scasw ) { UINT32 src = GetMemW(DS1, Wreg(IY)); UINT32 dst = Wreg(AW); SUBW; Wreg(IY) += -4 * nec_state->DF + 2; CLKW(8,8,5,8,4,3,Wreg(IY)); }
+
+OP( 0xb0, i_mov_ald8 ) { Breg(AL) = FETCH(); CLKS(4,4,2); }
+OP( 0xb1, i_mov_cld8 ) { Breg(CL) = FETCH(); CLKS(4,4,2); }
+OP( 0xb2, i_mov_dld8 ) { Breg(DL) = FETCH(); CLKS(4,4,2); }
+OP( 0xb3, i_mov_bld8 ) { Breg(BL) = FETCH(); CLKS(4,4,2); }
+OP( 0xb4, i_mov_ahd8 ) { Breg(AH) = FETCH(); CLKS(4,4,2); }
+OP( 0xb5, i_mov_chd8 ) { Breg(CH) = FETCH(); CLKS(4,4,2); }
+OP( 0xb6, i_mov_dhd8 ) { Breg(DH) = FETCH(); CLKS(4,4,2); }
+OP( 0xb7, i_mov_bhd8 ) { Breg(BH) = FETCH(); CLKS(4,4,2); }
+
+OP( 0xb8, i_mov_axd16 ) { Breg(AL) = FETCH(); Breg(AH) = FETCH(); CLKS(4,4,2); }
+OP( 0xb9, i_mov_cxd16 ) { Breg(CL) = FETCH(); Breg(CH) = FETCH(); CLKS(4,4,2); }
+OP( 0xba, i_mov_dxd16 ) { Breg(DL) = FETCH(); Breg(DH) = FETCH(); CLKS(4,4,2); }
+OP( 0xbb, i_mov_bxd16 ) { Breg(BL) = FETCH(); Breg(BH) = FETCH(); CLKS(4,4,2); }
+OP( 0xbc, i_mov_spd16 ) { Wreg(SP) = FETCHWORD(); CLKS(4,4,2); }
+OP( 0xbd, i_mov_bpd16 ) { Wreg(BP) = FETCHWORD(); CLKS(4,4,2); }
+OP( 0xbe, i_mov_sid16 ) { Wreg(IX) = FETCHWORD(); CLKS(4,4,2); }
+OP( 0xbf, i_mov_did16 ) { Wreg(IY) = FETCHWORD(); CLKS(4,4,2); }
+
+OP( 0xc0, i_rotshft_bd8 ) {
+ UINT32 src, dst; UINT8 c;
+ GetModRM; src = (unsigned)GetRMByte(ModRM); dst=src;
+ c=FETCH();
+ CLKM(7,7,2,19,19,6);
+ if (c) switch (ModRM & 0x38) {
+ case 0x00: do { ROL_BYTE; c--; CLK(1); } while (c>0); PutbackRMByte(ModRM,(BYTE)dst); break;
+ case 0x08: do { ROR_BYTE; c--; CLK(1); } while (c>0); PutbackRMByte(ModRM,(BYTE)dst); break;
+ case 0x10: do { ROLC_BYTE; c--; CLK(1); } while (c>0); PutbackRMByte(ModRM,(BYTE)dst); break;
+ case 0x18: do { RORC_BYTE; c--; CLK(1); } while (c>0); PutbackRMByte(ModRM,(BYTE)dst); break;
+ case 0x20: SHL_BYTE(c); break;
+ case 0x28: SHR_BYTE(c); break;
+ case 0x30: logerror("%06x: Undefined opcode 0xc0 0x30 (SHLA)\n",PC(nec_state)); break;
+ case 0x38: SHRA_BYTE(c); break;
+ }
+}
+
+OP( 0xc1, i_rotshft_wd8 ) {
+ UINT32 src, dst; UINT8 c;
+ GetModRM; src = (unsigned)GetRMWord(ModRM); dst=src;
+ c=FETCH();
+ CLKM(7,7,2,27,19,6);
+ if (c) switch (ModRM & 0x38) {
+ case 0x00: do { ROL_WORD; c--; CLK(1); } while (c>0); PutbackRMWord(ModRM,(WORD)dst); break;
+ case 0x08: do { ROR_WORD; c--; CLK(1); } while (c>0); PutbackRMWord(ModRM,(WORD)dst); break;
+ case 0x10: do { ROLC_WORD; c--; CLK(1); } while (c>0); PutbackRMWord(ModRM,(WORD)dst); break;
+ case 0x18: do { RORC_WORD; c--; CLK(1); } while (c>0); PutbackRMWord(ModRM,(WORD)dst); break;
+ case 0x20: SHL_WORD(c); break;
+ case 0x28: SHR_WORD(c); break;
+ case 0x30: logerror("%06x: Undefined opcode 0xc1 0x30 (SHLA)\n",PC(nec_state)); break;
+ case 0x38: SHRA_WORD(c); break;
+ }
+}
+
+OP( 0xc2, i_ret_d16 ) { UINT32 count = FETCH(); count += FETCH() << 8; POP(nec_state->ip); Wreg(SP)+=count; CHANGE_PC; CLKS(24,24,10); }
+OP( 0xc3, i_ret ) { POP(nec_state->ip); CHANGE_PC; CLKS(19,19,10); }
+OP( 0xc4, i_les_dw ) { GetModRM; WORD tmp = GetRMWord(ModRM); RegWord(ModRM)=tmp; Sreg(DS1) = GetnextRMWord; CLKW(26,26,14,26,18,10,EA); }
+OP( 0xc5, i_lds_dw ) { GetModRM; WORD tmp = GetRMWord(ModRM); RegWord(ModRM)=tmp; Sreg(DS0) = GetnextRMWord; CLKW(26,26,14,26,18,10,EA); }
+OP( 0xc6, i_mov_bd8 ) { GetModRM; PutImmRMByte(ModRM); nec_state->icount-=(ModRM >=0xc0 )?4:11; }
+OP( 0xc7, i_mov_wd16 ) { GetModRM; PutImmRMWord(ModRM); nec_state->icount-=(ModRM >=0xc0 )?4:15; }
+
+OP( 0xc8, i_enter ) {
+ UINT32 nb = FETCH();
+ UINT32 i,level;
+
+ nec_state->icount-=23;
+ nb += FETCH() << 8;
+ level = FETCH();
+ PUSH(Wreg(BP));
+ Wreg(BP)=Wreg(SP);
+ Wreg(SP) -= nb;
+ for (i=1;i<level;i++) {
+ PUSH(GetMemW(SS,Wreg(BP)-i*2));
+ nec_state->icount-=16;
+ }
+ if (level) PUSH(Wreg(BP));
+}
+OP( 0xc9, i_leave ) {
+ Wreg(SP)=Wreg(BP);
+ POP(Wreg(BP));
+ nec_state->icount-=8;
+}
+OP( 0xca, i_retf_d16 ) { UINT32 count = FETCH(); count += FETCH() << 8; POP(nec_state->ip); POP(Sreg(PS)); Wreg(SP)+=count; CHANGE_PC; CLKS(32,32,16); }
+OP( 0xcb, i_retf ) { POP(nec_state->ip); POP(Sreg(PS)); CHANGE_PC; CLKS(29,29,16); }
+OP( 0xcc, i_int3 ) { nec_interrupt(nec_state, 3, BRK); CLKS(50,50,24); }
+OP( 0xcd, i_int ) { nec_interrupt(nec_state, FETCH(), BRK); CLKS(50,50,24); }
+OP( 0xce, i_into ) { if (OF) { nec_interrupt(nec_state, NEC_BRKV_VECTOR, BRK); CLKS(52,52,26); } else CLK(3); }
+OP( 0xcf, i_iret ) { POP(nec_state->ip); POP(Sreg(PS)); i_popf(nec_state); CHANGE_PC; CLKS(39,39,19); }
+
+OP( 0xd0, i_rotshft_b ) {
+ UINT32 src, dst; GetModRM; src = (UINT32)GetRMByte(ModRM); dst=src;
+ CLKM(6,6,2,16,16,7);
+ switch (ModRM & 0x38) {
+ case 0x00: ROL_BYTE; PutbackRMByte(ModRM,(BYTE)dst); nec_state->OverVal = (src^dst)&0x80; break;
+ case 0x08: ROR_BYTE; PutbackRMByte(ModRM,(BYTE)dst); nec_state->OverVal = (src^dst)&0x80; break;
+ case 0x10: ROLC_BYTE; PutbackRMByte(ModRM,(BYTE)dst); nec_state->OverVal = (src^dst)&0x80; break;
+ case 0x18: RORC_BYTE; PutbackRMByte(ModRM,(BYTE)dst); nec_state->OverVal = (src^dst)&0x80; break;
+ case 0x20: SHL_BYTE(1); nec_state->OverVal = (src^dst)&0x80; break;
+ case 0x28: SHR_BYTE(1); nec_state->OverVal = (src^dst)&0x80; break;
+ case 0x30: logerror("%06x: Undefined opcode 0xd0 0x30 (SHLA)\n",PC(nec_state)); break;
+ case 0x38: SHRA_BYTE(1); nec_state->OverVal = 0; break;
+ }
+}
+
+OP( 0xd1, i_rotshft_w ) {
+ UINT32 src, dst; GetModRM; src = (UINT32)GetRMWord(ModRM); dst=src;
+ CLKM(6,6,2,24,16,7);
+ switch (ModRM & 0x38) {
+ case 0x00: ROL_WORD; PutbackRMWord(ModRM,(WORD)dst); nec_state->OverVal = (src^dst)&0x8000; break;
+ case 0x08: ROR_WORD; PutbackRMWord(ModRM,(WORD)dst); nec_state->OverVal = (src^dst)&0x8000; break;
+ case 0x10: ROLC_WORD; PutbackRMWord(ModRM,(WORD)dst); nec_state->OverVal = (src^dst)&0x8000; break;
+ case 0x18: RORC_WORD; PutbackRMWord(ModRM,(WORD)dst); nec_state->OverVal = (src^dst)&0x8000; break;
+ case 0x20: SHL_WORD(1); nec_state->OverVal = (src^dst)&0x8000; break;
+ case 0x28: SHR_WORD(1); nec_state->OverVal = (src^dst)&0x8000; break;
+ case 0x30: logerror("%06x: Undefined opcode 0xd1 0x30 (SHLA)\n",PC(nec_state)); break;
+ case 0x38: SHRA_WORD(1); nec_state->OverVal = 0; break;
+ }
+}
+
+OP( 0xd2, i_rotshft_bcl ) {
+ UINT32 src, dst; UINT8 c; GetModRM; src = (UINT32)GetRMByte(ModRM); dst=src;
+ c=Breg(CL);
+ CLKM(7,7,2,19,19,6);
+ if (c) switch (ModRM & 0x38) {
+ case 0x00: do { ROL_BYTE; c--; CLK(1); } while (c>0); PutbackRMByte(ModRM,(BYTE)dst); break;
+ case 0x08: do { ROR_BYTE; c--; CLK(1); } while (c>0); PutbackRMByte(ModRM,(BYTE)dst); break;
+ case 0x10: do { ROLC_BYTE; c--; CLK(1); } while (c>0); PutbackRMByte(ModRM,(BYTE)dst); break;
+ case 0x18: do { RORC_BYTE; c--; CLK(1); } while (c>0); PutbackRMByte(ModRM,(BYTE)dst); break;
+ case 0x20: SHL_BYTE(c); break;
+ case 0x28: SHR_BYTE(c); break;
+ case 0x30: logerror("%06x: Undefined opcode 0xd2 0x30 (SHLA)\n",PC(nec_state)); break;
+ case 0x38: SHRA_BYTE(c); break;
+ }
+}
+
+OP( 0xd3, i_rotshft_wcl ) {
+ UINT32 src, dst; UINT8 c; GetModRM; src = (UINT32)GetRMWord(ModRM); dst=src;
+ c=Breg(CL);
+ CLKM(7,7,2,27,19,6);
+ if (c) switch (ModRM & 0x38) {
+ case 0x00: do { ROL_WORD; c--; CLK(1); } while (c>0); PutbackRMWord(ModRM,(WORD)dst); break;
+ case 0x08: do { ROR_WORD; c--; CLK(1); } while (c>0); PutbackRMWord(ModRM,(WORD)dst); break;
+ case 0x10: do { ROLC_WORD; c--; CLK(1); } while (c>0); PutbackRMWord(ModRM,(WORD)dst); break;
+ case 0x18: do { RORC_WORD; c--; CLK(1); } while (c>0); PutbackRMWord(ModRM,(WORD)dst); break;
+ case 0x20: SHL_WORD(c); break;
+ case 0x28: SHR_WORD(c); break;
+ case 0x30: logerror("%06x: Undefined opcode 0xd3 0x30 (SHLA)\n",PC(nec_state)); break;
+ case 0x38: SHRA_WORD(c); break;
+ }
+}
+
+OP( 0xd4, i_aam ) { FETCH(); Breg(AH) = Breg(AL) / 10; Breg(AL) %= 10; SetSZPF_Word(Wreg(AW)); CLKS(15,15,12); }
+OP( 0xd5, i_aad ) { FETCH(); Breg(AL) = Breg(AH) * 10 + Breg(AL); Breg(AH) = 0; SetSZPF_Byte(Breg(AL)); CLKS(7,7,8); }
+OP( 0xd6, i_setalc ) { Breg(AL) = (CF)?0xff:0x00; nec_state->icount-=3; logerror("%06x: Undefined opcode (SETALC)\n",PC(nec_state)); }
+OP( 0xd7, i_trans ) { UINT32 dest = (Wreg(BW)+Breg(AL))&0xffff; Breg(AL) = GetMemB(DS0, dest); CLKS(9,9,5); }
+OP( 0xd8, i_fpo ) { GetModRM; nec_state->icount-=2; logerror("%06x: Unimplemented floating point control %04x\n",PC(nec_state),ModRM); }
+
+OP( 0xe0, i_loopne ) { INT8 disp = (INT8)FETCH(); Wreg(CW)--; if (!ZF && Wreg(CW)) { nec_state->ip = (WORD)(nec_state->ip+disp); /*CHANGE_PC;*/ CLKS(14,14,6); } else CLKS(5,5,3); }
+OP( 0xe1, i_loope ) { INT8 disp = (INT8)FETCH(); Wreg(CW)--; if ( ZF && Wreg(CW)) { nec_state->ip = (WORD)(nec_state->ip+disp); /*CHANGE_PC;*/ CLKS(14,14,6); } else CLKS(5,5,3); }
+OP( 0xe2, i_loop ) { INT8 disp = (INT8)FETCH(); Wreg(CW)--; if (Wreg(CW)) { nec_state->ip = (WORD)(nec_state->ip+disp); /*CHANGE_PC;*/ CLKS(13,13,6); } else CLKS(5,5,3); }
+OP( 0xe3, i_jcxz ) { INT8 disp = (INT8)FETCH(); if (Wreg(CW) == 0) { nec_state->ip = (WORD)(nec_state->ip+disp); /*CHANGE_PC;*/ CLKS(13,13,6); } else CLKS(5,5,3); }
+OP( 0xe4, i_inal ) { UINT8 port = FETCH(); Breg(AL) = read_port_byte(port); CLKS(9,9,5); }
+OP( 0xe5, i_inax ) { UINT8 port = FETCH(); Wreg(AW) = read_port_word(port); CLKW(13,13,7,13,9,5,port); }
+OP( 0xe6, i_outal ) { UINT8 port = FETCH(); write_port_byte(port, Breg(AL)); CLKS(8,8,3); }
+OP( 0xe7, i_outax ) { UINT8 port = FETCH(); write_port_word(port, Wreg(AW)); CLKW(12,12,5,12,8,3,port); }
+
+OP( 0xe8, i_call_d16 ) { UINT32 tmp; tmp = FETCHWORD(); PUSH(nec_state->ip); nec_state->ip = (WORD)(nec_state->ip+(INT16)tmp); CHANGE_PC; nec_state->icount-=24; }
+OP( 0xe9, i_jmp_d16 ) { UINT32 tmp; tmp = FETCHWORD(); nec_state->ip = (WORD)(nec_state->ip+(INT16)tmp); CHANGE_PC; nec_state->icount-=15; }
+OP( 0xea, i_jmp_far ) { UINT32 tmp,tmp1; tmp = FETCHWORD(); tmp1 = FETCHWORD(); Sreg(PS) = (WORD)tmp1; nec_state->ip = (WORD)tmp; CHANGE_PC; nec_state->icount-=27; }
+OP( 0xeb, i_jmp_d8 ) { int tmp = (int)((INT8)FETCH()); nec_state->icount-=12; nec_state->ip = (WORD)(nec_state->ip+tmp); }
+OP( 0xec, i_inaldx ) { Breg(AL) = read_port_byte(Wreg(DW)); CLKS(8,8,5);}
+OP( 0xed, i_inaxdx ) { Wreg(AW) = read_port_word(Wreg(DW)); CLKW(12,12,7,12,8,5,Wreg(DW)); }
+OP( 0xee, i_outdxal ) { write_port_byte(Wreg(DW), Breg(AL)); CLKS(8,8,3); }
+OP( 0xef, i_outdxax ) { write_port_word(Wreg(DW), Wreg(AW)); CLKW(12,12,5,12,8,3,Wreg(DW)); }
+
+OP( 0xf0, i_lock ) { logerror("%06x: Warning - BUSLOCK\n",PC(nec_state)); nec_state->no_interrupt=1; CLK(2); }
+OP( 0xf2, i_repne ) { UINT32 next = fetchop(nec_state); UINT16 c = Wreg(CW);
+ switch(next) { /* Segments */
+ case 0x26: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(DS1)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x2e: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(PS)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x36: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(SS)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x3e: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(DS0)<<4; next = fetchop(nec_state); CLK(2); break;
+ }
+
+ switch(next) {
+ case 0x6c: CLK(2); if (c) do { i_insb(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0x6d: CLK(2); if (c) do { i_insw(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0x6e: CLK(2); if (c) do { i_outsb(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0x6f: CLK(2); if (c) do { i_outsw(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xa4: CLK(2); if (c) do { i_movsb(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xa5: CLK(2); if (c) do { i_movsw(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xa6: CLK(2); if (c) do { i_cmpsb(nec_state); c--; } while (c>0 && ZF==0); Wreg(CW)=c; break;
+ case 0xa7: CLK(2); if (c) do { i_cmpsw(nec_state); c--; } while (c>0 && ZF==0); Wreg(CW)=c; break;
+ case 0xaa: CLK(2); if (c) do { i_stosb(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xab: CLK(2); if (c) do { i_stosw(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xac: CLK(2); if (c) do { i_lodsb(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xad: CLK(2); if (c) do { i_lodsw(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xae: CLK(2); if (c) do { i_scasb(nec_state); c--; } while (c>0 && ZF==0); Wreg(CW)=c; break;
+ case 0xaf: CLK(2); if (c) do { i_scasw(nec_state); c--; } while (c>0 && ZF==0); Wreg(CW)=c; break;
+ default: logerror("%06x: REPNE invalid\n",PC(nec_state)); nec_instruction[next](nec_state);
+ }
+ nec_state->seg_prefix=FALSE;
+}
+OP( 0xf3, i_repe ) { UINT32 next = fetchop(nec_state); UINT16 c = Wreg(CW);
+ switch(next) { /* Segments */
+ case 0x26: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(DS1)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x2e: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(PS)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x36: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(SS)<<4; next = fetchop(nec_state); CLK(2); break;
+ case 0x3e: nec_state->seg_prefix=TRUE; nec_state->prefix_base=Sreg(DS0)<<4; next = fetchop(nec_state); CLK(2); break;
+ }
+
+ switch(next) {
+ case 0x6c: CLK(2); if (c) do { i_insb(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0x6d: CLK(2); if (c) do { i_insw(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0x6e: CLK(2); if (c) do { i_outsb(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0x6f: CLK(2); if (c) do { i_outsw(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xa4: CLK(2); if (c) do { i_movsb(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xa5: CLK(2); if (c) do { i_movsw(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xa6: CLK(2); if (c) do { i_cmpsb(nec_state); c--; } while (c>0 && ZF==1); Wreg(CW)=c; break;
+ case 0xa7: CLK(2); if (c) do { i_cmpsw(nec_state); c--; } while (c>0 && ZF==1); Wreg(CW)=c; break;
+ case 0xaa: CLK(2); if (c) do { i_stosb(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xab: CLK(2); if (c) do { i_stosw(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xac: CLK(2); if (c) do { i_lodsb(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xad: CLK(2); if (c) do { i_lodsw(nec_state); c--; } while (c>0); Wreg(CW)=c; break;
+ case 0xae: CLK(2); if (c) do { i_scasb(nec_state); c--; } while (c>0 && ZF==1); Wreg(CW)=c; break;
+ case 0xaf: CLK(2); if (c) do { i_scasw(nec_state); c--; } while (c>0 && ZF==1); Wreg(CW)=c; break;
+ default: logerror("%06x: REPE invalid\n",PC(nec_state)); nec_instruction[next](nec_state);
+ }
+ nec_state->seg_prefix=FALSE;
+}
+OP( 0xf4, i_hlt ) { logerror("%06x: HALT\n",PC(nec_state)); nec_state->halted=1; nec_state->icount=0; }
+OP( 0xf5, i_cmc ) { nec_state->CarryVal = !CF; CLK(2); }
+OP( 0xf6, i_f6pre ) { UINT32 tmp; UINT32 uresult,uresult2; INT32 result,result2;
+ GetModRM; tmp = GetRMByte(ModRM);
+ switch (ModRM & 0x38) {
+ case 0x00: tmp &= FETCH(); nec_state->CarryVal = nec_state->OverVal = 0; SetSZPF_Byte(tmp); nec_state->icount-=(ModRM >=0xc0 )?4:11; break; /* TEST */
+ case 0x08: logerror("%06x: Undefined opcode 0xf6 0x08\n",PC(nec_state)); break;
+ case 0x10: PutbackRMByte(ModRM,~tmp); nec_state->icount-=(ModRM >=0xc0 )?2:16; break; /* NOT */
+ case 0x18: nec_state->CarryVal=(tmp!=0); tmp=(~tmp)+1; SetSZPF_Byte(tmp); PutbackRMByte(ModRM,tmp&0xff); nec_state->icount-=(ModRM >=0xc0 )?2:16; break; /* NEG */
+ case 0x20: uresult = Breg(AL)*tmp; Wreg(AW)=(WORD)uresult; nec_state->CarryVal=nec_state->OverVal=(Breg(AH)!=0); nec_state->icount-=(ModRM >=0xc0 )?30:36; break; /* MULU */
+ case 0x28: result = (INT16)((INT8)Breg(AL))*(INT16)((INT8)tmp); Wreg(AW)=(WORD)result; nec_state->CarryVal=nec_state->OverVal=(Breg(AH)!=0); nec_state->icount-=(ModRM >=0xc0 )?30:36; break; /* MUL */
+ case 0x30: if (tmp) { DIVUB; } else nec_interrupt(nec_state, NEC_DIVIDE_VECTOR, BRK); nec_state->icount-=(ModRM >=0xc0 )?43:53; break;
+ case 0x38: if (tmp) { DIVB; } else nec_interrupt(nec_state, NEC_DIVIDE_VECTOR, BRK); nec_state->icount-=(ModRM >=0xc0 )?43:53; break;
+ }
+}
+
+OP( 0xf7, i_f7pre ) { UINT32 tmp,tmp2; UINT32 uresult,uresult2; INT32 result,result2;
+ GetModRM; tmp = GetRMWord(ModRM);
+ switch (ModRM & 0x38) {
+ case 0x00: tmp2 = FETCHWORD(); tmp &= tmp2; nec_state->CarryVal = nec_state->OverVal = 0; SetSZPF_Word(tmp); nec_state->icount-=(ModRM >=0xc0 )?4:11; break; /* TEST */
+ case 0x08: logerror("%06x: Undefined opcode 0xf7 0x08\n",PC(nec_state)); break;
+ case 0x10: PutbackRMWord(ModRM,~tmp); nec_state->icount-=(ModRM >=0xc0 )?2:16; break; /* NOT */
+ case 0x18: nec_state->CarryVal=(tmp!=0); tmp=(~tmp)+1; SetSZPF_Word(tmp); PutbackRMWord(ModRM,tmp&0xffff); nec_state->icount-=(ModRM >=0xc0 )?2:16; break; /* NEG */
+ case 0x20: uresult = Wreg(AW)*tmp; Wreg(AW)=uresult&0xffff; Wreg(DW)=((UINT32)uresult)>>16; nec_state->CarryVal=nec_state->OverVal=(Wreg(DW)!=0); nec_state->icount-=(ModRM >=0xc0 )?30:36; break; /* MULU */
+ case 0x28: result = (INT32)((INT16)Wreg(AW))*(INT32)((INT16)tmp); Wreg(AW)=result&0xffff; Wreg(DW)=result>>16; nec_state->CarryVal=nec_state->OverVal=(Wreg(DW)!=0); nec_state->icount-=(ModRM >=0xc0 )?30:36; break; /* MUL */
+ case 0x30: if (tmp) { DIVUW; } else nec_interrupt(nec_state, NEC_DIVIDE_VECTOR, BRK); nec_state->icount-=(ModRM >=0xc0 )?43:53; break;
+ case 0x38: if (tmp) { DIVW; } else nec_interrupt(nec_state, NEC_DIVIDE_VECTOR, BRK); nec_state->icount-=(ModRM >=0xc0 )?43:53; break;
+ }
+}
+
+OP( 0xf8, i_clc ) { nec_state->CarryVal = 0; CLK(2); }
+OP( 0xf9, i_stc ) { nec_state->CarryVal = 1; CLK(2); }
+OP( 0xfa, i_di ) { SetIF(0); CLK(2); }
+OP( 0xfb, i_ei ) { SetIF(1); CLK(2); }
+OP( 0xfc, i_cld ) { SetDF(0); CLK(2); }
+OP( 0xfd, i_std ) { SetDF(1); CLK(2); }
+OP( 0xfe, i_fepre ) { UINT32 tmp, tmp1; GetModRM; tmp=GetRMByte(ModRM);
+ switch(ModRM & 0x38) {
+ case 0x00: tmp1 = tmp+1; nec_state->OverVal = (tmp==0x7f); SetAF(tmp1,tmp,1); SetSZPF_Byte(tmp1); PutbackRMByte(ModRM,(BYTE)tmp1); CLKM(2,2,2,16,16,7); break; /* INC */
+ case 0x08: tmp1 = tmp-1; nec_state->OverVal = (tmp==0x80); SetAF(tmp1,tmp,1); SetSZPF_Byte(tmp1); PutbackRMByte(ModRM,(BYTE)tmp1); CLKM(2,2,2,16,16,7); break; /* DEC */
+ default: logerror("%06x: FE Pre with unimplemented mod\n",PC(nec_state));
+ }
+}
+OP( 0xff, i_ffpre ) { UINT32 tmp, tmp1; GetModRM; tmp=GetRMWord(ModRM);
+ switch(ModRM & 0x38) {
+ case 0x00: tmp1 = tmp+1; nec_state->OverVal = (tmp==0x7fff); SetAF(tmp1,tmp,1); SetSZPF_Word(tmp1); PutbackRMWord(ModRM,(WORD)tmp1); CLKM(2,2,2,24,16,7); break; /* INC */
+ case 0x08: tmp1 = tmp-1; nec_state->OverVal = (tmp==0x8000); SetAF(tmp1,tmp,1); SetSZPF_Word(tmp1); PutbackRMWord(ModRM,(WORD)tmp1); CLKM(2,2,2,24,16,7); break; /* DEC */
+ case 0x10: PUSH(nec_state->ip); nec_state->ip = (WORD)tmp; CHANGE_PC; nec_state->icount-=(ModRM >=0xc0 )?16:20; break; /* CALL */
+ case 0x18: tmp1 = Sreg(PS); Sreg(PS) = GetnextRMWord; PUSH(tmp1); PUSH(nec_state->ip); nec_state->ip = tmp; CHANGE_PC; nec_state->icount-=(ModRM >=0xc0 )?16:26; break; /* CALL FAR */
+ case 0x20: nec_state->ip = tmp; CHANGE_PC; nec_state->icount-=13; break; /* JMP */
+ case 0x28: nec_state->ip = tmp; Sreg(PS) = GetnextRMWord; CHANGE_PC; nec_state->icount-=15; break; /* JMP FAR */
+ case 0x30: PUSH(tmp); nec_state->icount-=4; break;
+ default: logerror("%06x: FF Pre with unimplemented mod\n",PC(nec_state));
+ }
+}
+
+static void i_invalid(nec_state_t *nec_state)
+{
+ nec_state->icount-=10;
+ logerror("%06x: Invalid Opcode\n",PC(nec_state));
+}