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Diffstat (limited to 'trunk/src/emu/cpu/v60/am2.c')
-rw-r--r--trunk/src/emu/cpu/v60/am2.c1256
1 files changed, 1256 insertions, 0 deletions
diff --git a/trunk/src/emu/cpu/v60/am2.c b/trunk/src/emu/cpu/v60/am2.c
new file mode 100644
index 00000000000..bf9367d5f75
--- /dev/null
+++ b/trunk/src/emu/cpu/v60/am2.c
@@ -0,0 +1,1256 @@
+
+// AM2 Functions (for ReadAMAddress)
+// *********************************
+
+static UINT32 am2Register(v60_state *cpustate)
+{
+ cpustate->amflag = 1;
+ cpustate->amout = cpustate->modval & 0x1F;
+ return 1;
+}
+
+static UINT32 am2RegisterIndirect(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F];
+ return 1;
+}
+
+static UINT32 bam2RegisterIndirect(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F];
+ cpustate->bamoffset = 0;
+ return 1;
+}
+
+static UINT32 am2RegisterIndirectIndexed(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 2;
+}
+
+static UINT32 bam2RegisterIndirectIndexed(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F];
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+ return 2;
+}
+
+static UINT32 am2Autoincrement(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F];
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->reg[cpustate->modval & 0x1F] += 1;
+ break;
+ case 1:
+ cpustate->reg[cpustate->modval & 0x1F] += 2;
+ break;
+ case 2:
+ cpustate->reg[cpustate->modval & 0x1F] += 4;
+ break;
+ case 3:
+ cpustate->reg[cpustate->modval & 0x1F] += 8;
+ break;
+ }
+
+ return 1;
+}
+
+static UINT32 bam2Autoincrement(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F];
+ cpustate->bamoffset = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 10:
+ cpustate->reg[cpustate->modval & 0x1F] +=1;
+ break;
+ case 11:
+ cpustate->reg[cpustate->modval & 0x1F] +=4;
+ break;
+ default:
+ fatalerror("CPU - AM2 - 7 (t0 cpustate->PC=%x)", cpustate->PC);
+ break;
+ }
+
+ return 1;
+}
+
+static UINT32 am2Autodecrement(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->reg[cpustate->modval & 0x1F] -= 1;
+ break;
+ case 1:
+ cpustate->reg[cpustate->modval & 0x1F] -= 2;
+ break;
+ case 2:
+ cpustate->reg[cpustate->modval & 0x1F] -= 4;
+ break;
+ case 3:
+ cpustate->reg[cpustate->modval & 0x1F] -= 8;
+ break;
+ }
+
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F];
+ return 1;
+}
+
+static UINT32 bam2Autodecrement(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->bamoffset = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 10:
+ cpustate->reg[cpustate->modval & 0x1F]-=1;
+ break;
+ case 11:
+ cpustate->reg[cpustate->modval & 0x1F]-=4;
+ break;
+ default:
+ fatalerror("CPU - BAM2 - 7 (cpustate->PC=%06x)", cpustate->PC);
+ break;
+ }
+
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F];
+ return 1;
+}
+
+
+static UINT32 am2Displacement8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 1);
+
+ return 2;
+}
+
+static UINT32 bam2Displacement8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F];
+ cpustate->bamoffset = (INT8)OpRead8(cpustate, cpustate->modadd + 1);
+
+ return 2;
+}
+
+static UINT32 am2Displacement16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 1);
+
+ return 3;
+}
+
+static UINT32 bam2Displacement16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F];
+ cpustate->bamoffset = (INT16)OpRead16(cpustate, cpustate->modadd + 1);
+
+ return 3;
+}
+
+static UINT32 am2Displacement32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F] + OpRead32(cpustate, cpustate->modadd + 1);
+
+ return 5;
+}
+
+static UINT32 bam2Displacement32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval & 0x1F];
+ cpustate->bamoffset = OpRead32(cpustate, cpustate->modadd + 1);
+
+ return 5;
+}
+
+static UINT32 am2DisplacementIndexed8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 3;
+}
+
+static UINT32 bam2DisplacementIndexed8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 2);
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 3;
+}
+
+static UINT32 am2DisplacementIndexed16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 4;
+}
+
+static UINT32 bam2DisplacementIndexed16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 2);
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 4;
+}
+
+static UINT32 am2DisplacementIndexed32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 6;
+}
+
+static UINT32 bam2DisplacementIndexed32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->reg[cpustate->modval2 & 0x1F] + OpRead32(cpustate, cpustate->modadd + 2);
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 6;
+}
+
+static UINT32 am2PCDisplacement8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 1);
+
+ return 2;
+}
+
+static UINT32 bam2PCDisplacement8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->PC;
+ cpustate->bamoffset = (INT8)OpRead8(cpustate, cpustate->modadd + 1);
+
+ return 2;
+}
+
+static UINT32 am2PCDisplacement16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 1);
+
+ return 3;
+}
+
+static UINT32 bam2PCDisplacement16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->PC;
+ cpustate->bamoffset = (INT16)OpRead16(cpustate, cpustate->modadd + 1);
+
+ return 3;
+}
+
+static UINT32 am2PCDisplacement32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->PC + OpRead32(cpustate, cpustate->modadd + 1);
+
+ return 5;
+}
+
+static UINT32 bam2PCDisplacement32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->PC;
+ cpustate->bamoffset = OpRead32(cpustate, cpustate->modadd + 1);
+
+ return 5;
+}
+
+
+static UINT32 am2PCDisplacementIndexed8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 3;
+}
+
+static UINT32 bam2PCDisplacementIndexed8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 2);
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 3;
+}
+
+static UINT32 am2PCDisplacementIndexed16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 4;
+}
+
+static UINT32 bam2PCDisplacementIndexed16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 2);
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 4;
+}
+
+static UINT32 am2PCDisplacementIndexed32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->PC + OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->PC + OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->PC + OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->PC + OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 6;
+}
+
+static UINT32 bam2PCDisplacementIndexed32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->PC + OpRead32(cpustate, cpustate->modadd + 2);
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 6;
+}
+
+static UINT32 am2DisplacementIndirect8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 1));
+
+ return 2;
+}
+
+static UINT32 bam2DisplacementIndirect8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = 0;
+ return 2;
+}
+
+static UINT32 am2DisplacementIndirect16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 1));
+
+ return 3;
+}
+
+static UINT32 bam2DisplacementIndirect16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = 0;
+ return 3;
+}
+
+static UINT32 am2DisplacementIndirect32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + OpRead32(cpustate, cpustate->modadd + 1));
+
+ return 5;
+}
+
+static UINT32 bam2DisplacementIndirect32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + OpRead32(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = 0;
+
+ return 5;
+}
+
+static UINT32 am2DisplacementIndirectIndexed8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 3;
+}
+
+static UINT32 bam2DisplacementIndirectIndexed8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 2));
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 3;
+}
+
+static UINT32 am2DisplacementIndirectIndexed16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 4;
+}
+
+static UINT32 bam2DisplacementIndirectIndexed16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 2));
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 4;
+}
+
+static UINT32 am2DisplacementIndirectIndexed32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 6;
+}
+
+static UINT32 bam2DisplacementIndirectIndexed32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval2 & 0x1F] + OpRead32(cpustate, cpustate->modadd + 2));
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 6;
+}
+
+static UINT32 am2PCDisplacementIndirect8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 1));
+
+ return 2;
+}
+
+static UINT32 bam2PCDisplacementIndirect8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = 0;
+
+ return 2;
+}
+
+static UINT32 am2PCDisplacementIndirect16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 1));
+
+ return 3;
+}
+
+static UINT32 bam2PCDisplacementIndirect16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = 0;
+
+ return 3;
+}
+
+static UINT32 am2PCDisplacementIndirect32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + OpRead32(cpustate, cpustate->modadd + 1));
+
+ return 5;
+}
+
+static UINT32 bam2PCDisplacementIndirect32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + OpRead32(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = 0;
+
+ return 5;
+}
+
+static UINT32 am2PCDisplacementIndirectIndexed8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 3;
+}
+
+static UINT32 bam2PCDisplacementIndirectIndexed8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 2));
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 3;
+}
+
+static UINT32 am2PCDisplacementIndirectIndexed16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 4;
+}
+
+
+static UINT32 bam2PCDisplacementIndirectIndexed16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 2));
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 4;
+}
+
+
+static UINT32 am2PCDisplacementIndirectIndexed32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 6;
+}
+
+static UINT32 bam2PCDisplacementIndirectIndexed32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + OpRead32(cpustate, cpustate->modadd + 2));
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 6;
+}
+
+static UINT32 am2DoubleDisplacement8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 1)) + (INT8)OpRead8(cpustate, cpustate->modadd + 2);
+
+ return 3;
+}
+
+static UINT32 bam2DoubleDisplacement8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + (INT8)OpRead8(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = (INT8)OpRead8(cpustate, cpustate->modadd + 2);
+
+ return 3;
+}
+
+static UINT32 am2DoubleDisplacement16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 1)) + (INT16)OpRead16(cpustate, cpustate->modadd + 3);
+
+ return 5;
+}
+
+static UINT32 bam2DoubleDisplacement16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + (INT16)OpRead16(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = (INT8)OpRead8(cpustate, cpustate->modadd + 3);
+
+ return 5;
+}
+
+static UINT32 am2DoubleDisplacement32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + OpRead32(cpustate, cpustate->modadd + 1)) + OpRead32(cpustate, cpustate->modadd + 5);
+
+ return 9;
+}
+
+static UINT32 bam2DoubleDisplacement32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->reg[cpustate->modval & 0x1F] + OpRead32(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = OpRead32(cpustate, cpustate->modadd + 5);
+
+ return 9;
+}
+
+
+static UINT32 am2PCDoubleDisplacement8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 1)) + (INT8)OpRead8(cpustate, cpustate->modadd + 2);
+
+ return 3;
+}
+
+static UINT32 bam2PCDoubleDisplacement8(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT8)OpRead8(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = (INT8)OpRead8(cpustate, cpustate->modadd + 2);
+
+ return 3;
+}
+
+static UINT32 am2PCDoubleDisplacement16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 1)) + (INT16)OpRead16(cpustate, cpustate->modadd + 3);
+
+ return 5;
+}
+
+static UINT32 bam2PCDoubleDisplacement16(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + (INT16)OpRead16(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = (INT8)OpRead8(cpustate, cpustate->modadd + 3);
+
+ return 5;
+}
+
+static UINT32 am2PCDoubleDisplacement32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + OpRead32(cpustate, cpustate->modadd + 1)) + OpRead32(cpustate, cpustate->modadd + 5);
+
+ return 9;
+}
+
+static UINT32 bam2PCDoubleDisplacement32(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(cpustate->PC + OpRead32(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = OpRead32(cpustate, cpustate->modadd + 5);
+
+ return 9;
+}
+
+static UINT32 am2DirectAddress(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = OpRead32(cpustate, cpustate->modadd + 1);
+
+ return 5;
+}
+
+static UINT32 bam2DirectAddress(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = OpRead32(cpustate, cpustate->modadd + 1);
+ cpustate->bamoffset = 0;
+
+ return 5;
+}
+
+static UINT32 am2DirectAddressIndexed(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = OpRead32(cpustate, cpustate->modadd + 2) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 6;
+}
+
+static UINT32 bam2DirectAddressIndexed(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = OpRead32(cpustate, cpustate->modadd + 2);
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 6;
+}
+
+static UINT32 am2DirectAddressDeferred(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(OpRead32(cpustate, cpustate->modadd + 1));
+
+ return 5;
+}
+
+static UINT32 bam2DirectAddressDeferred(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(OpRead32(cpustate, cpustate->modadd + 1));
+ cpustate->bamoffset = 0;
+
+ return 5;
+}
+
+static UINT32 am2DirectAddressDeferredIndexed(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+
+ switch (cpustate->moddim)
+ {
+ case 0:
+ cpustate->amout = cpustate->program->read_dword_unaligned(OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F];
+ break;
+ case 1:
+ cpustate->amout = cpustate->program->read_dword_unaligned(OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 2;
+ break;
+ case 2:
+ cpustate->amout = cpustate->program->read_dword_unaligned(OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 4;
+ break;
+ case 3:
+ cpustate->amout = cpustate->program->read_dword_unaligned(OpRead32(cpustate, cpustate->modadd + 2)) + cpustate->reg[cpustate->modval & 0x1F] * 8;
+ break;
+ }
+
+ return 6;
+}
+
+static UINT32 bam2DirectAddressDeferredIndexed(v60_state *cpustate)
+{
+ cpustate->amflag = 0;
+ cpustate->amout = cpustate->program->read_dword_unaligned(OpRead32(cpustate, cpustate->modadd + 2));
+ cpustate->bamoffset = cpustate->reg[cpustate->modval & 0x1F];
+
+ return 6;
+}
+
+static UINT32 am2Immediate(v60_state *cpustate)
+{
+ // ignore LDPR
+ return am1Immediate(cpustate);
+}
+
+static UINT32 am2ImmediateQuick(v60_state *cpustate)
+{
+ // ignore LDPR
+ return am1ImmediateQuick(cpustate);
+}
+
+
+// AM2 Tables (for ReadAMAddress)
+// ******************************
+
+static UINT32 am2Error1(v60_state *cpustate)
+{
+ fatalerror("CPU - AM2 - 1 (cpustate->PC=%06x)", cpustate->PC);
+ return 0; /* never reached, fatalerror won't return */
+}
+
+static UINT32 am2Error2(v60_state *cpustate)
+{
+ fatalerror("CPU - AM2 - 2 (cpustate->PC=%06x)", cpustate->PC);
+ return 0; /* never reached, fatalerror won't return */
+}
+
+#ifdef UNUSED_FUNCTION
+static UINT32 am2Error3(v60_state *cpustate)
+{
+ fatalerror("CPU - AM2 - 3 (cpustate->PC=%06x)", cpustate->PC);
+ return 0; /* never reached, fatalerror won't return */
+}
+#endif
+
+static UINT32 am2Error4(v60_state *cpustate)
+{
+ fatalerror("CPU - AM2 - 4 (cpustate->PC=%06x)", cpustate->PC);
+ return 0; /* never reached, fatalerror won't return */
+}
+
+static UINT32 am2Error5(v60_state *cpustate)
+{
+ fatalerror("CPU - AM2 - 5 (cpustate->PC=%06x)", cpustate->PC);
+ return 0; /* never reached, fatalerror won't return */
+}
+
+static UINT32 bam2Error1(v60_state *cpustate)
+{
+ fatalerror("CPU - BAM2 - 1 (cpustate->PC=%06x)", cpustate->PC);
+ return 0; /* never reached, fatalerror won't return */
+}
+
+static UINT32 bam2Error2(v60_state *cpustate)
+{
+ fatalerror("CPU - BAM2 - 2 (cpustate->PC=%06x)", cpustate->PC);
+ return 0; /* never reached, fatalerror won't return */
+}
+
+#ifdef UNUSED_FUNCTION
+static UINT32 bam2Error3(v60_state *cpustate)
+{
+ fatalerror("CPU - BAM2 - 3 (cpustate->PC=%06x)", cpustate->PC);
+ return 0; /* never reached, fatalerror won't return */
+}
+#endif
+
+static UINT32 bam2Error4(v60_state *cpustate)
+{
+ fatalerror("CPU - BAM2 - 4 (cpustate->PC=%06x)", cpustate->PC);
+ return 0; /* never reached, fatalerror won't return */
+}
+
+static UINT32 bam2Error5(v60_state *cpustate)
+{
+ fatalerror("CPU - BAM2 - 5 (cpustate->PC=%06x)", cpustate->PC);
+ return 0; /* never reached, fatalerror won't return */
+}
+
+static UINT32 bam2Error6(v60_state *cpustate)
+{
+ fatalerror("CPU - BAM2 - 6 (cpustate->PC=%06x)", cpustate->PC);
+ return 0; /* never reached, fatalerror won't return */
+}
+
+
+static UINT32 (*const AMTable2_G7a[16])(v60_state *) =
+{
+ am2PCDisplacementIndexed8,
+ am2PCDisplacementIndexed16,
+ am2PCDisplacementIndexed32,
+ am2DirectAddressIndexed,
+ am2Error5,
+ am2Error5,
+ am2Error5,
+ am2Error5,
+ am2PCDisplacementIndirectIndexed8,
+ am2PCDisplacementIndirectIndexed16,
+ am2PCDisplacementIndirectIndexed32,
+ am2DirectAddressDeferredIndexed,
+ am2Error5,
+ am2Error5,
+ am2Error5,
+ am2Error5
+};
+
+static UINT32 (*const BAMTable2_G7a[16])(v60_state *) =
+{
+ bam2PCDisplacementIndexed8,
+ bam2PCDisplacementIndexed16,
+ bam2PCDisplacementIndexed32,
+ bam2DirectAddressIndexed,
+ bam2Error5,
+ bam2Error5,
+ bam2Error5,
+ bam2Error5,
+ bam2PCDisplacementIndirectIndexed8,
+ bam2PCDisplacementIndirectIndexed16,
+ bam2PCDisplacementIndirectIndexed32,
+ bam2DirectAddressDeferredIndexed,
+ bam2Error5,
+ bam2Error5,
+ bam2Error5,
+ bam2Error5
+};
+
+static UINT32 am2Group7a(v60_state *cpustate)
+{
+ if (!(cpustate->modval2 & 0x10))
+ return am2Error4(cpustate);
+
+ return AMTable2_G7a[cpustate->modval2 & 0xF](cpustate);
+}
+
+static UINT32 bam2Group7a(v60_state *cpustate)
+{
+ if (!(cpustate->modval2 & 0x10))
+ return bam2Error4(cpustate);
+
+ return BAMTable2_G7a[cpustate->modval2 & 0xF](cpustate);
+}
+
+static UINT32 (*const AMTable2_G7[32])(v60_state *) =
+{
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2ImmediateQuick,
+ am2PCDisplacement8,
+ am2PCDisplacement16,
+ am2PCDisplacement32,
+ am2DirectAddress,
+ am2Immediate,
+ am2Error2,
+ am2Error2,
+ am2Error2,
+ am2PCDisplacementIndirect8,
+ am2PCDisplacementIndirect16,
+ am2PCDisplacementIndirect32,
+ am2DirectAddressDeferred,
+ am2PCDoubleDisplacement8,
+ am2PCDoubleDisplacement16,
+ am2PCDoubleDisplacement32,
+ am2Error2
+};
+
+static UINT32 (*const BAMTable2_G7[32])(v60_state *) =
+{
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2Error6,
+ bam2PCDisplacement8,
+ bam2PCDisplacement16,
+ bam2PCDisplacement32,
+ bam2DirectAddress,
+ bam2Error6,
+ bam2Error2,
+ bam2Error2,
+ bam2Error2,
+ bam2PCDisplacementIndirect8,
+ bam2PCDisplacementIndirect16,
+ bam2PCDisplacementIndirect32,
+ bam2DirectAddressDeferred,
+ bam2PCDoubleDisplacement8,
+ bam2PCDoubleDisplacement16,
+ bam2PCDoubleDisplacement32,
+ bam2Error2
+};
+
+static UINT32 (*const AMTable2_G6[8])(v60_state *) =
+{
+ am2DisplacementIndexed8,
+ am2DisplacementIndexed16,
+ am2DisplacementIndexed32,
+ am2RegisterIndirectIndexed,
+ am2DisplacementIndirectIndexed8,
+ am2DisplacementIndirectIndexed16,
+ am2DisplacementIndirectIndexed32,
+ am2Group7a
+};
+
+static UINT32 (*const BAMTable2_G6[8])(v60_state *) =
+{
+ bam2DisplacementIndexed8,
+ bam2DisplacementIndexed16,
+ bam2DisplacementIndexed32,
+ bam2RegisterIndirectIndexed,
+ bam2DisplacementIndirectIndexed8,
+ bam2DisplacementIndirectIndexed16,
+ bam2DisplacementIndirectIndexed32,
+ bam2Group7a
+};
+
+
+
+
+static UINT32 am2Group6(v60_state *cpustate)
+{
+ cpustate->modval2 = OpRead8(cpustate, cpustate->modadd + 1);
+ return AMTable2_G6[cpustate->modval2 >> 5](cpustate);
+}
+static UINT32 bam2Group6(v60_state *cpustate)
+{
+ cpustate->modval2 = OpRead8(cpustate, cpustate->modadd + 1);
+ return BAMTable2_G6[cpustate->modval2 >> 5](cpustate);
+}
+
+static UINT32 am2Group7(v60_state *cpustate)
+{
+ return AMTable2_G7[cpustate->modval & 0x1F](cpustate);
+}
+static UINT32 bam2Group7(v60_state *cpustate)
+{
+ return BAMTable2_G7[cpustate->modval & 0x1F](cpustate);
+}
+
+
+static UINT32 (*const AMTable2[2][8])(v60_state *) =
+{
+ {
+ am2Displacement8,
+ am2Displacement16,
+ am2Displacement32,
+ am2RegisterIndirect,
+ am2DisplacementIndirect8,
+ am2DisplacementIndirect16,
+ am2DisplacementIndirect32,
+ am2Group7
+ },
+
+ {
+ am2DoubleDisplacement8,
+ am2DoubleDisplacement16,
+ am2DoubleDisplacement32,
+ am2Register,
+ am2Autoincrement,
+ am2Autodecrement,
+ am2Group6,
+ am2Error1
+ }
+};
+
+static UINT32 (*const BAMTable2[2][8])(v60_state *) =
+{
+ {
+ bam2Displacement8,
+ bam2Displacement16,
+ bam2Displacement32,
+ bam2RegisterIndirect,
+ bam2DisplacementIndirect8,
+ bam2DisplacementIndirect16,
+ bam2DisplacementIndirect32,
+ bam2Group7
+ },
+
+ {
+ bam2DoubleDisplacement8,
+ bam2DoubleDisplacement16,
+ bam2DoubleDisplacement32,
+ bam2Error6,
+ bam2Autoincrement,
+ bam2Autodecrement,
+ bam2Group6,
+ bam2Error1
+ }
+};
+
+
+
+