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Diffstat (limited to 'src/emu/cpu/nec/v25instr.c')
-rw-r--r--src/emu/cpu/nec/v25instr.c94
1 files changed, 47 insertions, 47 deletions
diff --git a/src/emu/cpu/nec/v25instr.c b/src/emu/cpu/nec/v25instr.c
index 72cc1c9f7e3..6e6c3c684c7 100644
--- a/src/emu/cpu/nec/v25instr.c
+++ b/src/emu/cpu/nec/v25instr.c
@@ -1,71 +1,71 @@
-#define GetRB \
- ModRM = FETCH(); \
- if (ModRM >= 0xc0) \
- tmp = Wreg(Mod_RM.RM.w[ModRM]) & 0x7; \
- else { \
- logerror("%06x: Invalid MODRM for register banking instruction\n",PC(nec_state)); \
- tmp = 0; \
+#define GetRB \
+ ModRM = FETCH(); \
+ if (ModRM >= 0xc0) \
+ tmp = Wreg(Mod_RM.RM.w[ModRM]) & 0x7; \
+ else { \
+ logerror("%06x: Invalid MODRM for register banking instruction\n",PC(nec_state)); \
+ tmp = 0; \
}
-#define RETRBI \
- tmp = (Wreg(PSW_SAVE) & 0x7000) >> 12; \
- nec_state->ip = Wreg(PC_SAVE); \
- ExpandFlags(Wreg(PSW_SAVE)); \
- SetRB(tmp); \
+#define RETRBI \
+ tmp = (Wreg(PSW_SAVE) & 0x7000) >> 12; \
+ nec_state->ip = Wreg(PC_SAVE); \
+ ExpandFlags(Wreg(PSW_SAVE)); \
+ SetRB(tmp); \
CHANGE_PC
-#define TSKSW \
- Wreg(PSW_SAVE) = CompressFlags(); \
- Wreg(PC_SAVE) = nec_state->ip; \
- SetRB(tmp); \
- nec_state->ip = Wreg(PC_SAVE); \
- ExpandFlags(Wreg(PSW_SAVE)); \
+#define TSKSW \
+ Wreg(PSW_SAVE) = CompressFlags(); \
+ Wreg(PC_SAVE) = nec_state->ip; \
+ SetRB(tmp); \
+ nec_state->ip = Wreg(PC_SAVE); \
+ ExpandFlags(Wreg(PSW_SAVE)); \
CHANGE_PC
-#define MOVSPA \
- tmp = (Wreg(PSW_SAVE) & 0x7000) >> 8; \
- Sreg(SS) = nec_state->ram.w[tmp+SS]; \
+#define MOVSPA \
+ tmp = (Wreg(PSW_SAVE) & 0x7000) >> 8; \
+ Sreg(SS) = nec_state->ram.w[tmp+SS]; \
Wreg(SP) = nec_state->ram.w[tmp+SP]
-#define MOVSPB \
- tmp <<= 4; \
- nec_state->ram.w[tmp+SS] = Sreg(SS); \
+#define MOVSPB \
+ tmp <<= 4; \
+ nec_state->ram.w[tmp+SS] = Sreg(SS); \
nec_state->ram.w[tmp+SP] = Wreg(SP)
-#define FINT \
- for(tmp = 1; tmp < 0x100; tmp <<= 1) { \
- if(nec_state->ISPR & tmp) { \
- nec_state->ISPR &= ~tmp; \
- break; \
- } \
+#define FINT \
+ for(tmp = 1; tmp < 0x100; tmp <<= 1) { \
+ if(nec_state->ISPR & tmp) { \
+ nec_state->ISPR &= ~tmp; \
+ break; \
+ } \
}
OP( 0x0f, i_pre_v25 ) { 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 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 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 0x25 : MOVSPA; CLK(16); 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 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 0x2d : GetRB; nec_bankswitch(nec_state, tmp); CLK(15); 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;