kegs-android/jni/8inst_c.h

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2012-08-12 03:07:42 +00:00
/************************************************************************/
/* KEGS: Apple //gs Emulator */
/* Copyright 2002 by Kent Dickey */
/* */
/* This code is covered by the GNU GPL */
/* */
/* The KEGS web page is kegs.sourceforge.net */
/* You may contact the author at: kadickey@alumni.princeton.edu */
/************************************************************************/
#ifdef ASM
# ifdef INCLUDE_RCSID_S
.stringz "@(#)$KmKId: instable.h,v 1.104 2004-10-05 20:12:08-04 kentd Exp $"
# endif
#endif
case 0x00: /* brk */
#ifdef ASM
ldb 1(scratch1),ret0
ldil l%g_testing,arg3
ldil l%g_num_brk,arg1
ldw r%g_testing(arg3),arg3
INC_KPC_2;
ldw r%g_num_brk(arg1),arg2
comib,<> 0,arg3,brk_testing_8
extru kpc,31,16,arg0
addi 1,arg2,arg2
bb,>= psr,23,brk_native_8
stw arg2,r%g_num_brk(arg1)
bl push_16,link
nop
bl push_8,link
extru psr,31,8,arg0 ;B bit already on in PSR
ldil l%0xfffe,arg0
bl get_mem_long_16,link
ldo r%0xfffe(arg0),arg0
zdep ret0,31,16,kpc ;set kbank to 0
#if 0
bl set_halt_act,link
ldi 3,arg0
#endif
ldi 0,dbank ;clear dbank in emul mode
b dispatch
depi 1,29,2,psr ;ints masked, decimal off
brk_native_8
stw arg0,STACK_SAVE_COP_ARG0(sp)
bl push_8,link
extru kpc,15,8,arg0
bl push_16,link
ldw STACK_SAVE_COP_ARG0(sp),arg0
bl push_8,link
extru psr,31,8,arg0
ldil l%0xffe6,arg0
bl get_mem_long_16,link
ldo r%0xffe6(arg0),arg0
zdep ret0,31,16,kpc ;zero kbank in kpc
#if 0
#endif
bl set_halt_act,link
ldi 3,arg0
b dispatch
depi 1,29,2,psr ;ints masked, decimal off
brk_testing_8
DEC_KPC2;
CYCLES_PLUS_2
b dispatch_done
depi RET_BREAK,3,4,ret0
#else
GET_1BYTE_ARG;
if(g_testing) {
CYCLES_PLUS_2;
FINISH(RET_BREAK, arg);
}
g_num_brk++;
INC_KPC_2;
if(psr & 0x100) {
PUSH16(kpc & 0xffff);
PUSH8(psr & 0xff);
GET_MEMORY16(0xfffe, kpc, 0);
dbank = 0;
} else {
PUSH8(kpc >> 16);
PUSH16(kpc);
PUSH8(psr & 0xff);
GET_MEMORY16(0xffe6, kpc, 0);
halt_printf("Halting for native break!\n");
}
kpc = kpc & 0xffff;
psr |= 0x4;
psr &= ~(0x8);
#endif
break;
case 0x01: /* ORA (Dloc,X) */
/* called with arg = val to ORA in */
GET_DLOC_X_IND_RD();
ORA_INST();
break;
case 0x02: /* COP */
#ifdef ASM
ldil l%g_num_cop,arg1
INC_KPC_2;
ldw r%g_num_cop(arg1),arg2
extru kpc,31,16,arg0
addi 1,arg2,arg2
bb,>= psr,23,cop_native_8
stw arg2,r%g_num_cop(arg1)
bl push_16,link
nop
bl push_8,link
extru psr,31,8,arg0
ldil l%0xfff4,arg0
bl get_mem_long_16,link
ldo r%0xfff4(arg0),arg0
ldi 0,dbank ;clear dbank in emul mode
zdep ret0,31,16,kpc ;clear kbank
bl set_halt_act,link
ldi 3,arg0
b dispatch
depi 1,29,2,psr ;ints masked, decimal off
cop_native_8
stw arg0,STACK_SAVE_COP_ARG0(sp)
bl push_8,link
extru kpc,15,8,arg0
bl push_16,link
ldw STACK_SAVE_COP_ARG0(sp),arg0
bl push_8,link
extru psr,31,8,arg0
ldil l%0xffe4,arg0
bl get_mem_long_16,link
ldo r%0xffe4(arg0),arg0
zdep ret0,31,16,kpc ;clear kbank
b dispatch
depi 1,29,2,psr ;ints masked, decimal off
#else
g_num_cop++;
INC_KPC_2;
if(psr & 0x100) {
halt_printf("Halting for emul COP at %04x\n", kpc);
PUSH16(kpc & 0xffff);
PUSH8(psr & 0xff);
GET_MEMORY16(0xfff4, kpc, 0);
dbank = 0;
} else {
PUSH8(kpc >> 16);
PUSH16(kpc & 0xffff);
PUSH8(psr & 0xff);
GET_MEMORY16(0xffe4, kpc, 0);
}
kpc = kpc & 0xffff;
psr |= 4;
psr &= ~(0x8);
#endif
break;
case 0x03: /* ORA Disp8,S */
GET_DISP8_S_RD();
ORA_INST();
break;
case 0x04: /* TSB Dloc */
GET_DLOC_RD();
TSB_INST(1);
break;
case 0x05: /* ORA Dloc */
GET_DLOC_RD();
ORA_INST();
break;
case 0x06: /* ASL Dloc */
GET_DLOC_RD();
ASL_INST(1);
break;
case 0x07: /* ORA [Dloc] */
GET_DLOC_L_IND_RD();
ORA_INST();
break;
case 0x08: /* PHP */
#ifdef ASM
dep neg,24,1,psr
ldil l%dispatch,link
INC_KPC_1
depi 0,30,1,psr
comiclr,<> 0,zero,0
depi 1,30,1,psr
ldo r%dispatch(link),link
b push_8
extru psr,31,8,arg0
#else
INC_KPC_1;
psr = (psr & ~0x82) | ((neg & 1) << 7) | ((!zero) << 1);
PUSH8(psr);
#endif
break;
case 0x09: /* ORA #imm */
GET_IMM_MEM();
ORA_INST();
break;
case 0x0a: /* ASL a */
#ifdef ASM
# ifdef ACC8
ldi 0xff,scratch1
sh1add acc,0,scratch3
INC_KPC_1
extru scratch3,24,1,neg
and scratch3,scratch1,zero
extru scratch3,23,1,scratch2
dep zero,31,8,acc
b dispatch
dep scratch2,31,1,psr /* set carry */
# else
zdepi -1,31,16,scratch1
sh1add acc,0,scratch3
INC_KPC_1
extru scratch3,16,1,neg
and scratch3,scratch1,zero
extru scratch3,15,1,scratch2
dep scratch2,31,1,psr /* set carry */
b dispatch
dep zero,31,16,acc
# endif
#else
INC_KPC_1;
tmp1 = acc + acc;
# ifdef ACC8
SET_CARRY8(tmp1);
acc = (acc & 0xff00) + (tmp1 & 0xff);
SET_NEG_ZERO8(acc & 0xff);
# else
SET_CARRY16(tmp1);
acc = tmp1 & 0xffff;
SET_NEG_ZERO16(acc);
# endif
#endif
break;
case 0x0b: /* PHD */
#ifdef ASM
ldil l%dispatch,link
extru direct,31,16,arg0
INC_KPC_1
b push_16_unsafe
ldo r%dispatch(link),link
#else
INC_KPC_1;
PUSH16_UNSAFE(direct);
#endif
break;
case 0x0c: /* TSB abs */
GET_ABS_RD();
TSB_INST(0);
break;
case 0x0d: /* ORA abs */
GET_ABS_RD();
ORA_INST();
break;
case 0x0e: /* ASL abs */
GET_ABS_RD();
ASL_INST(0);
break;
case 0x0f: /* ORA long */
GET_LONG_RD();
ORA_INST();
break;
case 0x10: /* BPL disp8 */
#ifdef ASM
COND_BR1
comib,<> 0,neg,inst10_2_8
COND_BR2
inst10_2_8
COND_BR_UNTAKEN
#else
BRANCH_DISP8(neg == 0);
#endif
break;
case 0x11: /* ORA (Dloc),y */
GET_DLOC_IND_Y_RD();
ORA_INST();
break;
case 0x12: /* ORA (Dloc) */
GET_DLOC_IND_RD();
ORA_INST();
break;
case 0x13: /* ORA (Disp8,s),y */
GET_DISP8_S_IND_Y_RD();
ORA_INST();
break;
case 0x14: /* TRB Dloc */
GET_DLOC_RD();
TRB_INST(1);
break;
case 0x15: /* ORA Dloc,x */
GET_DLOC_X_RD();
ORA_INST();
break;
case 0x16: /* ASL Dloc,X */
GET_DLOC_X_RD();
ASL_INST(1);
break;
case 0x17: /* ORA [Dloc],Y */
GET_DLOC_L_IND_Y_RD();
ORA_INST();
break;
case 0x18: /* CLC */
#ifdef ASM
INC_KPC_1
b dispatch
depi 0,31,1,psr /* clear carry */
#else
psr = psr & (~1);
INC_KPC_1;
#endif
break;
case 0x19: /* ORA abs,y */
GET_ABS_Y_RD();
ORA_INST();
break;
case 0x1a: /* INC a */
#ifdef ASM
# ifdef ACC8
ldi 0xff,scratch2
addi 1,acc,scratch1
extru scratch1,24,1,neg
INC_KPC_1
extru scratch1,31,8,zero
b dispatch
dep zero,31,8,acc
# else
zdepi -1,31,16,scratch2
addi 1,acc,scratch1
extru scratch1,16,1,neg
INC_KPC_1
extru scratch1,31,16,zero
b dispatch
dep zero,31,16,acc
# endif
#else
INC_KPC_1;
# ifdef ACC8
acc = (acc & 0xff00) | ((acc + 1) & 0xff);
SET_NEG_ZERO8(acc & 0xff);
# else
acc = (acc + 1) & 0xffff;
SET_NEG_ZERO16(acc);
# endif
#endif
break;
case 0x1b: /* TCS */
#ifdef ASM
copy acc,stack
extru,= psr,23,1,0 /* in emulation mode, stack page 1 */
depi 1,23,24,stack
INC_KPC_1
b dispatch
nop
#else
stack = acc;
INC_KPC_1;
if(psr & 0x100) {
stack = (stack & 0xff) + 0x100;
}
#endif
break;
case 0x1c: /* TRB Abs */
GET_ABS_RD();
TRB_INST(0);
break;
case 0x1d: /* ORA Abs,X */
GET_ABS_X_RD();
ORA_INST();
break;
case 0x1e: /* ASL Abs,X */
GET_ABS_X_RD_WR();
ASL_INST(0);
break;
case 0x1f: /* ORA Long,X */
GET_LONG_X_RD();
ORA_INST();
break;
case 0x20: /* JSR abs */
#ifdef ASM
addi 2,kpc,arg0
ldb 1(scratch1),scratch2
CYCLES_PLUS_2
ldb 2(scratch1),scratch1
ldil l%dispatch,link
extru arg0,31,16,arg0
ldo r%dispatch(link),link
dep scratch2,31,8,kpc
b push_16
dep scratch1,23,8,kpc
#else
GET_2BYTE_ARG;
INC_KPC_2;
PUSH16(kpc);
kpc = (kpc & 0xff0000) + arg;
CYCLES_PLUS_2;
#endif
break;
case 0x21: /* AND (Dloc,X) */
/* called with arg = val to AND in */
GET_DLOC_X_IND_RD();
AND_INST();
break;
case 0x22: /* JSL Long */
#ifdef ASM
INC_KPC_3
ldb 3(scratch1),scratch2
copy kpc,arg0
ldb 1(scratch1),kpc
ldb 2(scratch1),scratch1
CYCLES_PLUS_3
dep scratch2,15,8,kpc
stw scratch2,STACK_SAVE_INSTR_TMP1(sp)
bl push_24_unsafe,link
dep scratch1,23,8,kpc
b dispatch
nop
#else
GET_3BYTE_ARG;
tmp1 = arg;
CYCLES_PLUS_3;
INC_KPC_3;
PUSH24_UNSAFE(kpc);
kpc = tmp1 & 0xffffff;
#endif
break;
case 0x23: /* AND Disp8,S */
/* called with arg = val to AND in */
GET_DISP8_S_RD();
AND_INST();
break;
case 0x24: /* BIT Dloc */
GET_DLOC_RD();
BIT_INST();
break;
case 0x25: /* AND Dloc */
/* called with arg = val to AND in */
GET_DLOC_RD();
AND_INST();
break;
case 0x26: /* ROL Dloc */
GET_DLOC_RD();
/* save1 is now apple addr */
/* ret0 is data */
ROL_INST(1);
break;
case 0x27: /* AND [Dloc] */
GET_DLOC_L_IND_RD();
AND_INST();
break;
case 0x28: /* PLP */
#ifdef ASM
bl pull_8,link
ldi 0,zero
extru psr,27,2,scratch2 /* save old x & m */
dep ret0,31,8,psr
CYCLES_PLUS_1
INC_KPC_1
extru,<> ret0,30,1,0
ldi 1,zero
copy scratch2,arg0
b update_system_state
extru ret0,24,1,neg
#else
PULL8(tmp1);
tmp2 = psr;
CYCLES_PLUS_1;
INC_KPC_1;
psr = (psr & ~0xff) | (tmp1 & 0xff);
zero = !(psr & 2);
neg = (psr >> 7) & 1;
UPDATE_PSR(psr, tmp2);
#endif
break;
case 0x29: /* AND #imm */
GET_IMM_MEM();
AND_INST();
break;
case 0x2a: /* ROL a */
#ifdef ASM
# ifdef ACC8
extru psr,31,1,scratch2
ldi 0xff,scratch1
sh1add acc,scratch2,scratch3
INC_KPC_1
extru scratch3,24,1,neg
and scratch3,scratch1,zero
extru scratch3,23,1,scratch2
dep zero,31,8,acc
b dispatch
dep scratch2,31,1,psr /* set carry */
# else
extru psr,31,1,scratch2
INC_KPC_1
sh1add acc,scratch2,scratch3
zdepi -1,31,16,scratch1
extru scratch3,16,1,neg
and scratch3,scratch1,zero
extru scratch3,15,1,scratch2
dep scratch2,31,1,psr /* set carry */
b dispatch
dep zero,31,16,acc
# endif
#else
INC_KPC_1;
# ifdef ACC8
tmp1 = ((acc & 0xff) << 1) + (psr & 1);
SET_CARRY8(tmp1);
acc = (acc & 0xff00) + (tmp1 & 0xff);
SET_NEG_ZERO8(tmp1 & 0xff);
# else
tmp1 = (acc << 1) + (psr & 1);
SET_CARRY16(tmp1);
acc = (tmp1 & 0xffff);
SET_NEG_ZERO16(acc);
# endif
#endif
break;
case 0x2b: /* PLD */
#ifdef ASM
INC_KPC_1
bl pull_16_unsafe,link
CYCLES_PLUS_1
extru ret0,31,16,direct
extru ret0,16,1,neg
b dispatch
copy direct,zero
#else
INC_KPC_1;
PULL16_UNSAFE(direct);
CYCLES_PLUS_1;
SET_NEG_ZERO16(direct);
#endif
break;
case 0x2c: /* BIT abs */
GET_ABS_RD();
BIT_INST();
break;
case 0x2d: /* AND abs */
GET_ABS_RD();
AND_INST();
break;
case 0x2e: /* ROL abs */
GET_ABS_RD();
ROL_INST(0);
break;
case 0x2f: /* AND long */
GET_LONG_RD();
AND_INST();
break;
case 0x30: /* BMI disp8 */
#ifdef ASM
COND_BR1
comib,= 0,neg,inst30_2_8
COND_BR2
inst30_2_8
COND_BR_UNTAKEN
#else
BRANCH_DISP8(neg);
#endif
break;
case 0x31: /* AND (Dloc),y */
GET_DLOC_IND_Y_RD();
AND_INST();
break;
case 0x32: /* AND (Dloc) */
GET_DLOC_IND_RD();
AND_INST();
break;
case 0x33: /* AND (Disp8,s),y */
GET_DISP8_S_IND_Y_RD();
AND_INST();
break;
case 0x34: /* BIT Dloc,x */
GET_DLOC_X_RD();
BIT_INST();
break;
case 0x35: /* AND Dloc,x */
GET_DLOC_X_RD();
AND_INST();
break;
case 0x36: /* ROL Dloc,X */
GET_DLOC_X_RD();
ROL_INST(1);
break;
case 0x37: /* AND [Dloc],Y */
GET_DLOC_L_IND_Y_RD();
AND_INST();
break;
case 0x38: /* SEC */
#ifdef ASM
INC_KPC_1
b dispatch
depi 1,31,1,psr /* set carry */
#else
psr = psr | 1;
INC_KPC_1;
#endif
break;
case 0x39: /* AND abs,y */
GET_ABS_Y_RD();
AND_INST();
break;
case 0x3a: /* DEC a */
#ifdef ASM
# ifdef ACC8
addi -1,acc,scratch1
extru scratch1,24,1,neg
INC_KPC_1
extru scratch1,31,8,zero
b dispatch
dep zero,31,8,acc
# else
addi -1,acc,scratch1
extru scratch1,16,1,neg
INC_KPC_1
extru scratch1,31,16,zero
b dispatch
dep zero,31,16,acc
# endif
#else
INC_KPC_1;
# ifdef ACC8
acc = (acc & 0xff00) | ((acc - 1) & 0xff);
SET_NEG_ZERO8(acc & 0xff);
# else
acc = (acc - 1) & 0xffff;
SET_NEG_ZERO16(acc);
# endif
#endif
break;
case 0x3b: /* TSC */
/* set N,Z according to 16 bit acc */
#ifdef ASM
copy stack,acc
extru stack,16,1,neg
INC_KPC_1
b dispatch
extru acc,31,16,zero
#else
INC_KPC_1;
acc = stack;
SET_NEG_ZERO16(acc);
#endif
break;
case 0x3c: /* BIT Abs,x */
GET_ABS_X_RD();
BIT_INST();
break;
case 0x3d: /* AND Abs,X */
GET_ABS_X_RD();
AND_INST();
break;
case 0x3e: /* ROL Abs,X */
GET_ABS_X_RD_WR();
ROL_INST(0);
break;
case 0x3f: /* AND Long,X */
GET_LONG_X_RD();
AND_INST();
break;
case 0x40: /* RTI */
#ifdef ASM
bb,>= psr,23,rti_native_8
CYCLES_PLUS_1
/* emulation */
bl pull_24,link
ldi 0,zero
extru psr,27,2,scratch2
extru ret0,23,16,scratch3
copy scratch2,arg0
extru,<> ret0,30,1,0
ldi 1,zero
dep ret0,31,8,psr
extru ret0,24,1,neg
b update_system_state
dep scratch3,31,16,kpc
rti_native_8
bl pull_8,link
ldi 0,zero
copy ret0,scratch1
extru ret0,24,1,neg
dep ret0,31,8,scratch1
bl pull_24,link
stw scratch1,STACK_SAVE_INSTR_TMP1(sp)
extru psr,27,2,scratch2
ldw STACK_SAVE_INSTR_TMP1(sp),psr
extru ret0,31,24,kpc
extru,<> psr,30,1,0
ldi 1,zero
b update_system_state_and_change_kbank
copy scratch2,arg0
#else
CYCLES_PLUS_1
if(psr & 0x100) {
PULL24(tmp1);
kpc = (kpc & 0xff0000) + ((tmp1 >> 8) & 0xffff);
tmp2 = psr;
psr = (psr & ~0xff) + (tmp1 & 0xff);
neg = (psr >> 7) & 1;
zero = !(psr & 2);
UPDATE_PSR(psr, tmp2);
} else {
PULL8(tmp1);
tmp2 = psr;
psr = (tmp1 & 0xff);
neg = (psr >> 7) & 1;
zero = !(psr & 2);
PULL24(kpc);
UPDATE_PSR(psr, tmp2);
}
#endif
break;
case 0x41: /* EOR (Dloc,X) */
/* called with arg = val to EOR in */
GET_DLOC_X_IND_RD();
EOR_INST();
break;
case 0x42: /* WDM */
#ifdef ASM
ldb 1(scratch1),ret0
CYCLES_PLUS_5
CYCLES_PLUS_2
INC_KPC_2
b dispatch_done
depi RET_WDM,3,4,ret0
#else
GET_1BYTE_ARG;
INC_KPC_2;
CYCLES_PLUS_5;
CYCLES_PLUS_2;
FINISH(RET_WDM, arg & 0xff);
#endif
break;
case 0x43: /* EOR Disp8,S */
/* called with arg = val to EOR in */
GET_DISP8_S_RD();
EOR_INST();
break;
case 0x44: /* MVP */
#ifdef ASM
ldb 2(scratch1),scratch2 /* src bank */
bb,< psr,23,inst44_notnat_8
ldb 1(scratch1),dbank /* dest bank */
bb,< psr,27,inst44_notnat_8
stw scratch2,STACK_SRC_BANK(sp)
inst44_loop_8
CYCLES_PLUS_1
ldw STACK_SRC_BANK(sp),scratch2
copy xreg,arg0
bl get_mem_long_8,link
dep scratch2,15,8,arg0
/* got byte */
copy ret0,arg1
copy yreg,arg0
bl set_mem_long_8,link
dep dbank,15,8,arg0
/* wrote byte, dec acc */
CYCLES_PLUS_2
fldds 0(fcycles_stop_ptr),fcycles_stop
addi -1,xreg,xreg
zdepi -1,31,16,scratch2
addi -1,yreg,yreg
addi -1,acc,acc
fcmp,<,dbl fcycles,fcycles_stop
and xreg,scratch2,xreg
extrs acc,31,16,scratch1
and yreg,scratch2,yreg
comib,= -1,scratch1,inst44_done_8
and acc,scratch2,acc
ftest
b inst44_out_of_time_8
CYCLES_PLUS_2
b inst44_loop_8
nop
/* get here if done */
inst44_done_8
INC_KPC_3
b dispatch
nop
inst44_notnat_8
copy dbank,ret0
dep scratch2,23,8,ret0
CYCLES_PLUS_3
depi RET_MVP,3,4,ret0
b dispatch_done
CYCLES_PLUS_2
inst44_out_of_time_8
/* cycle have gone positive, just get out, do not update kpc */
b,n dispatch
#else
GET_2BYTE_ARG;
/* arg & 0xff = dest bank, arg & 0xff00 = src bank */
if(psr & 0x110) {
// OG MVP should work even with no native mode - keep the warning though
printf("MVP but not native m or x!\n");
/*
halt_printf("MVP but not native m or x!\n");
break;
*/
}
CYCLES_MINUS_2
dbank = arg & 0xff;
tmp1 = (arg >> 8) & 0xff;
while(1) {
CYCLES_PLUS_3;
GET_MEMORY8((tmp1 << 16) + xreg, arg);
SET_MEMORY8((dbank << 16) + yreg, arg);
CYCLES_PLUS_2;
xreg = (xreg - 1) & 0xffff;
yreg = (yreg - 1) & 0xffff;
acc = (acc - 1) & 0xffff;
if(acc == 0xffff) {
INC_KPC_3;
break;
}
if(fcycles >= g_fcycles_stop) {
break;
}
}
#endif
break;
case 0x45: /* EOR Dloc */
/* called with arg = val to EOR in */
GET_DLOC_RD();
EOR_INST();
break;
case 0x46: /* LSR Dloc */
GET_DLOC_RD();
/* save1 is now apple addr */
/* ret0 is data */
LSR_INST(1);
break;
case 0x47: /* EOR [Dloc] */
GET_DLOC_L_IND_RD();
EOR_INST();
break;
case 0x48: /* PHA */
#ifdef ASM
# ifdef ACC8
INC_KPC_1
ldil l%dispatch,link
extru acc,31,8,arg0
b push_8
ldo r%dispatch(link),link
# else
INC_KPC_1
ldil l%dispatch,link
extru acc,31,16,arg0
b push_16
ldo r%dispatch(link),link
# endif
#else
INC_KPC_1;
# ifdef ACC8
PUSH8(acc);
# else
PUSH16(acc);
# endif
#endif
break;
case 0x49: /* EOR #imm */
GET_IMM_MEM();
EOR_INST();
break;
case 0x4a: /* LSR a */
#ifdef ASM
# ifdef ACC8
extru acc,31,1,scratch2
INC_KPC_1
extru acc,30,7,zero
ldi 0,neg
dep scratch2,31,1,psr /* set carry */
b dispatch
dep zero,31,8,acc
# else
extru acc,31,1,scratch2
INC_KPC_1
extru acc,30,15,zero
ldi 0,neg
dep scratch2,31,1,psr /* set carry */
b dispatch
dep zero,31,16,acc
# endif
#else
INC_KPC_1;
# ifdef ACC8
tmp1 = ((acc & 0xff) >> 1);
SET_CARRY8(acc << 8);
acc = (acc & 0xff00) + (tmp1 & 0xff);
SET_NEG_ZERO8(tmp1 & 0xff);
# else
tmp1 = (acc >> 1);
SET_CARRY8((acc << 8));
acc = (tmp1 & 0xffff);
SET_NEG_ZERO16(acc);
# endif
#endif
break;
case 0x4b: /* PHK */
#ifdef ASM
ldil l%dispatch,link
extru kpc,15,8,arg0
INC_KPC_1
b push_8
ldo r%dispatch(link),link
#else
PUSH8(kpc >> 16);
INC_KPC_1;
#endif
break;
case 0x4c: /* JMP abs */
#ifdef ASM
ldb 1(scratch1),scratch2
CYCLES_PLUS_1
ldb 2(scratch1),scratch1
dep scratch2,31,8,kpc
b dispatch
dep scratch1,23,8,kpc
#else
GET_2BYTE_ARG;
CYCLES_PLUS_1;
kpc = (kpc & 0xff0000) + arg;
#endif
break;
case 0x4d: /* EOR abs */
GET_ABS_RD();
EOR_INST();
break;
case 0x4e: /* LSR abs */
GET_ABS_RD();
LSR_INST(0);
break;
case 0x4f: /* EOR long */
GET_LONG_RD();
EOR_INST();
break;
case 0x50: /* BVC disp8 */
#ifdef ASM
COND_BR1
bb,< psr,25,inst50_2_8
COND_BR2
inst50_2_8
COND_BR_UNTAKEN
#else
BRANCH_DISP8((psr & 0x40) == 0);
#endif
break;
case 0x51: /* EOR (Dloc),y */
GET_DLOC_IND_Y_RD();
EOR_INST();
break;
case 0x52: /* EOR (Dloc) */
GET_DLOC_IND_RD();
EOR_INST();
break;
case 0x53: /* EOR (Disp8,s),y */
GET_DISP8_S_IND_Y_RD();
EOR_INST();
break;
case 0x54: /* MVN */
#ifdef ASM
ldb 2(scratch1),scratch2 /* src bank */
bb,< psr,23,inst54_notnat_8
ldb 1(scratch1),dbank /* dest bank */
bb,< psr,27,inst54_notnat_8
stw scratch2,STACK_SRC_BANK(sp)
/* even in 8bit acc mode, use 16-bit accumulator! */
inst54_loop_8
CYCLES_PLUS_1
ldw STACK_SRC_BANK(sp),scratch2
copy xreg,arg0
bl get_mem_long_8,link
dep scratch2,15,8,arg0
/* got byte */
copy ret0,arg1
copy yreg,arg0
bl set_mem_long_8,link
dep dbank,15,8,arg0
/* wrote byte, dec acc */
CYCLES_PLUS_2
fldds 0(fcycles_stop_ptr),fcycles_stop
addi 1,xreg,xreg
zdepi -1,31,16,scratch2
addi 1,yreg,yreg
addi -1,acc,acc
fcmp,<,dbl fcycles,fcycles_stop
and xreg,scratch2,xreg
extrs acc,31,16,scratch1
and yreg,scratch2,yreg
comib,= -1,scratch1,inst54_done_8
and acc,scratch2,acc
ftest
b,n inst54_out_of_time_8
CYCLES_PLUS_2
b inst54_loop_8
nop
/* get here if done */
inst54_done_8
INC_KPC_3
b dispatch
nop
inst54_out_of_time_8
/* cycle have gone positive, just get out, don't update kpc */
b,n dispatch
inst54_notnat_8
copy dbank,ret0
dep scratch2,23,8,ret0
CYCLES_PLUS_3
depi RET_MVN,3,4,ret0
b dispatch_done
CYCLES_PLUS_3
#else
GET_2BYTE_ARG;
/* arg & 0xff = dest bank, arg & 0xff00 = src bank */
if(psr & 0x110) {
// OG MVN should work even with no native mode - keep the warning though
printf("MVN but not native m or x!\n");
/*
halt_printf("MVN but not native m or x!\n");
break;
*/
}
CYCLES_MINUS_2;
dbank = arg & 0xff;
tmp1 = (arg >> 8) & 0xff;
while(1) {
CYCLES_PLUS_3;
GET_MEMORY8((tmp1 << 16) + xreg, arg);
SET_MEMORY8((dbank << 16) + yreg, arg);
CYCLES_PLUS_2;
xreg = (xreg + 1) & 0xffff;
yreg = (yreg + 1) & 0xffff;
acc = (acc - 1) & 0xffff;
if(acc == 0xffff) {
INC_KPC_3;
break;
}
if(fcycles >= g_fcycles_stop) {
break;
}
}
#endif
break;
case 0x55: /* EOR Dloc,x */
GET_DLOC_X_RD();
EOR_INST();
break;
case 0x56: /* LSR Dloc,X */
GET_DLOC_X_RD();
LSR_INST(1);
break;
case 0x57: /* EOR [Dloc],Y */
GET_DLOC_L_IND_Y_RD();
EOR_INST();
break;
case 0x58: /* CLI */
#ifdef ASM
INC_KPC_1
b check_irqs_pending /* check for ints pending! */
depi 0,29,1,psr /* clear int disable */
#else
psr = psr & (~4);
INC_KPC_1;
if(((psr & 0x4) == 0) && g_irq_pending) {
FINISH(RET_IRQ, 0);
}
#endif
break;
case 0x59: /* EOR abs,y */
GET_ABS_Y_RD();
EOR_INST();
break;
case 0x5a: /* PHY */
#ifdef ASM
INC_KPC_1
ldil l%dispatch,link
bb,>= psr,27,phy_16_8
ldo r%dispatch(link),link
b push_8
copy yreg,arg0
phy_16_8
b push_16
copy yreg,arg0
#else
INC_KPC_1;
if(psr & 0x10) {
PUSH8(yreg);
} else {
PUSH16(yreg);
}
#endif
break;
case 0x5b: /* TCD */
#ifdef ASM
extru acc,31,16,direct
INC_KPC_1
copy acc,zero
b dispatch
extru acc,16,1,neg
#else
INC_KPC_1;
direct = acc;
SET_NEG_ZERO16(acc);
#endif
break;
case 0x5c: /* JMP Long */
#ifdef ASM
ldb 1(scratch1),kpc
ldb 2(scratch1),scratch2
CYCLES_PLUS_1
ldb 3(scratch1),arg0 /* new bank */
dep scratch2,23,8,kpc
b dispatch
dep arg0,15,8,kpc
#else
GET_3BYTE_ARG;
CYCLES_PLUS_1;
kpc = arg;
#endif
break;
case 0x5d: /* EOR Abs,X */
GET_ABS_X_RD();
EOR_INST();
break;
case 0x5e: /* LSR Abs,X */
GET_ABS_X_RD_WR();
LSR_INST(0);
break;
case 0x5f: /* EOR Long,X */
GET_LONG_X_RD();
EOR_INST();
break;
case 0x60: /* RTS */
#ifdef ASM
bl pull_16,link
CYCLES_PLUS_2
/* ret0 is new kpc-1 */
addi 1,ret0,ret0
b dispatch
dep ret0,31,16,kpc
#else
CYCLES_PLUS_2
PULL16(tmp1);
kpc = (kpc & 0xff0000) + ((tmp1 + 1) & 0xffff);
#endif
break;
case 0x61: /* ADC (Dloc,X) */
/* called with arg = val to ADC in */
GET_DLOC_X_IND_RD();
ADC_INST();
break;
case 0x62: /* PER */
#ifdef ASM
ldb 1(scratch1),ret0
INC_KPC_3
ldb 2(scratch1),scratch1
CYCLES_PLUS_2
ldil l%dispatch,link
dep scratch1,23,8,ret0
ldo r%dispatch(link),link
add kpc,ret0,arg0
b push_16_unsafe
extru arg0,31,16,arg0
#else
GET_2BYTE_ARG;
CYCLES_PLUS_2;
INC_KPC_3;
PUSH16_UNSAFE(kpc + arg);
#endif
break;
case 0x63: /* ADC Disp8,S */
/* called with arg = val to ADC in */
GET_DISP8_S_RD();
ADC_INST();
break;
case 0x64: /* STZ Dloc */
GET_DLOC_ADDR();
STZ_INST(1);
break;
case 0x65: /* ADC Dloc */
/* called with arg = val to ADC in */
GET_DLOC_RD();
ADC_INST();
break;
case 0x66: /* ROR Dloc */
GET_DLOC_RD();
/* save1 is now apple addr */
/* ret0 is data */
ROR_INST(1);
break;
case 0x67: /* ADC [Dloc] */
GET_DLOC_L_IND_RD();
ADC_INST();
break;
case 0x68: /* PLA */
#ifdef ASM
# ifdef ACC8
INC_KPC_1
bl pull_8,link
CYCLES_PLUS_1
extru ret0,31,8,zero
extru ret0,24,1,neg
b dispatch
dep ret0,31,8,acc
# else
INC_KPC_1
bl pull_16,link
CYCLES_PLUS_1
extru ret0,31,16,zero
extru ret0,16,1,neg
b dispatch
extru ret0,31,16,acc
# endif
#else
INC_KPC_1;
CYCLES_PLUS_1;
# ifdef ACC8
PULL8(tmp1);
acc = (acc & 0xff00) + tmp1;
SET_NEG_ZERO8(tmp1);
# else
PULL16(tmp1);
acc = tmp1;
SET_NEG_ZERO16(tmp1);
# endif
#endif
break;
case 0x69: /* ADC #imm */
GET_IMM_MEM();
ADC_INST();
break;
case 0x6a: /* ROR a */
#ifdef ASM
# ifdef ACC8
extru psr,31,1,neg
INC_KPC_1
extru acc,30,7,zero
dep neg,24,1,zero
dep acc,31,1,psr /* set carry */
b dispatch
dep zero,31,8,acc
# else
extru psr,31,1,neg
INC_KPC_1
extru acc,30,15,zero
dep neg,16,1,zero
dep acc,31,1,psr /* set carry */
b dispatch
dep zero,31,16,acc
# endif
#else
INC_KPC_1;
# ifdef ACC8
tmp1 = ((acc & 0xff) >> 1) + ((psr & 1) << 7);
SET_CARRY8((acc << 8));
acc = (acc & 0xff00) + (tmp1 & 0xff);
SET_NEG_ZERO8(tmp1 & 0xff);
# else
tmp1 = (acc >> 1) + ((psr & 1) << 15);
SET_CARRY16((acc << 16));
acc = (tmp1 & 0xffff);
SET_NEG_ZERO16(acc);
# endif
#endif
break;
case 0x6b: /* RTL */
#ifdef ASM
bl pull_24,link
CYCLES_PLUS_1
/* ret0 is new kpc-1 */
copy ret0,kpc
addi 1,ret0,scratch1
b dispatch
dep scratch1,31,16,kpc
#else
CYCLES_PLUS_1;
PULL24(tmp1);
kpc = (tmp1 & 0xff0000) + ((tmp1 + 1) & 0xffff);
#endif
break;
case 0x6c: /* JMP (abs) */
#ifdef ASM
ldb 1(scratch1),arg0
CYCLES_PLUS_1
ldb 2(scratch1),scratch1
bl get_mem_long_16,link
dep scratch1,23,8,arg0
/* ret0 is addr to jump to */
b dispatch
dep ret0,31,16,kpc
#else
GET_2BYTE_ARG;
CYCLES_PLUS_1;
GET_MEMORY16(arg, tmp1, 1);
kpc = (kpc & 0xff0000) + tmp1;
#endif
break;
case 0x6d: /* ADC abs */
GET_ABS_RD();
ADC_INST();
break;
case 0x6e: /* ROR abs */
GET_ABS_RD();
ROR_INST(0);
break;
case 0x6f: /* ADC long */
GET_LONG_RD();
ADC_INST();
break;
case 0x70: /* BVS disp8 */
#ifdef ASM
COND_BR1
bb,>= psr,25,inst70_2_8
COND_BR2
inst70_2_8
COND_BR_UNTAKEN
#else
BRANCH_DISP8((psr & 0x40));
#endif
break;
case 0x71: /* ADC (Dloc),y */
GET_DLOC_IND_Y_RD();
ADC_INST();
break;
case 0x72: /* ADC (Dloc) */
GET_DLOC_IND_RD();
ADC_INST();
break;
case 0x73: /* ADC (Disp8,s),y */
GET_DISP8_S_IND_Y_RD();
ADC_INST();
break;
case 0x74: /* STZ Dloc,x */
#ifdef ASM
ldb 1(scratch1),arg0
GET_DLOC_X_WR();
STZ_INST(1);
#else
GET_1BYTE_ARG;
GET_DLOC_X_WR();
STZ_INST(1);
#endif
break;
case 0x75: /* ADC Dloc,x */
GET_DLOC_X_RD();
ADC_INST();
break;
case 0x76: /* ROR Dloc,X */
GET_DLOC_X_RD();
ROR_INST(1);
break;
case 0x77: /* ADC [Dloc],Y */
GET_DLOC_L_IND_Y_RD();
ADC_INST();
break;
case 0x78: /* SEI */
#ifdef ASM
INC_KPC_1
b dispatch
depi 1,29,1,psr /* set int disable */
#else
psr = psr | 4;
INC_KPC_1;
#endif
break;
case 0x79: /* ADC abs,y */
GET_ABS_Y_RD();
ADC_INST();
break;
case 0x7a: /* PLY */
#ifdef ASM
INC_KPC_1
bb,>= psr,27,inst7a_16bit_8
nop
bl pull_8,link
CYCLES_PLUS_1
extru ret0,31,8,zero
extru ret0,24,1,neg
b dispatch
copy zero,yreg
inst7a_16bit_8
bl pull_16,link
CYCLES_PLUS_1
extru ret0,31,16,zero
extru ret0,16,1,neg
b dispatch
copy zero,yreg
#else
INC_KPC_1;
CYCLES_PLUS_1
if(psr & 0x10) {
PULL8(yreg);
SET_NEG_ZERO8(yreg);
} else {
PULL16(yreg);
SET_NEG_ZERO16(yreg);
}
#endif
break;
case 0x7b: /* TDC */
#ifdef ASM
extru direct,31,16,zero
copy direct,acc
INC_KPC_1
b dispatch
extru direct,16,1,neg
#else
INC_KPC_1;
acc = direct;
SET_NEG_ZERO16(direct);
#endif
break;
case 0x7c: /* JMP (Abs,x) */
/* always access kbank, xreg cannot wrap into next bank */
#ifdef ASM
ldb 1(scratch1),ret0
copy kpc,scratch2
ldb 2(scratch1),scratch1
dep xreg,31,16,scratch2
CYCLES_PLUS_2
dep scratch1,23,8,ret0
add ret0,scratch2,arg0
bl get_mem_long_16,link
extru arg0,31,24,arg0
b dispatch
dep ret0,31,16,kpc
#else
GET_2BYTE_ARG;
arg = (kpc & 0xff0000) + ((xreg + arg) & 0xffff);
CYCLES_PLUS_2;
GET_MEMORY16(arg, tmp1, 1);
kpc = (kpc & 0xff0000) + tmp1;
#endif
break;
case 0x7d: /* ADC Abs,X */
GET_ABS_X_RD();
ADC_INST();
break;
case 0x7e: /* ROR Abs,X */
GET_ABS_X_RD_WR();
ROR_INST(0);
break;
case 0x7f: /* ADC Long,X */
GET_LONG_X_RD();
ADC_INST();
break;
case 0x80: /* BRA */
#ifdef ASM
COND_BR1
COND_BR2
#else
BRANCH_DISP8(1);
#endif
break;
case 0x81: /* STA (Dloc,X) */
GET_DLOC_X_IND_ADDR();
STA_INST(0);
break;
case 0x82: /* BRL disp16 */
#ifdef ASM
ldb 1(scratch1),ret0
CYCLES_PLUS_1
ldb 2(scratch1),scratch1
addi 3,kpc,scratch2
dep scratch1,23,8,ret0
add ret0,scratch2,scratch2
b dispatch
dep scratch2,31,16,kpc
#else
GET_2BYTE_ARG;
CYCLES_PLUS_1;
kpc = (kpc & 0xff0000) + ((kpc + 3 + arg) & 0xffff);
#endif
break;
case 0x83: /* STA Disp8,S */
GET_DISP8_S_ADDR();
STA_INST(1);
break;
case 0x84: /* STY Dloc */
GET_DLOC_ADDR();
STY_INST(1);
break;
case 0x85: /* STA Dloc */
GET_DLOC_ADDR();
STA_INST(1);
break;
case 0x86: /* STX Dloc */
GET_DLOC_ADDR();
STX_INST(1);
break;
case 0x87: /* STA [Dloc] */
GET_DLOC_L_IND_ADDR();
STA_INST(0);
break;
case 0x88: /* DEY */
#ifdef ASM
INC_KPC_1
bb,< psr,27,inst88_8bit_8
addi -1,yreg,yreg
/* 16 bit */
extru yreg,31,16,zero
extru yreg,16,1,neg
b dispatch
copy zero,yreg
inst88_8bit_8
extru yreg,31,8,zero
extru yreg,24,1,neg
b dispatch
copy zero,yreg
#else
INC_KPC_1;
SET_INDEX_REG(yreg - 1, yreg);
#endif
break;
case 0x89: /* BIT #imm */
#ifdef ASM
GET_IMM_MEM();
# ifdef ACC8
/* Immediate BIT does not set condition flags */
and acc,ret0,zero
b dispatch
extru zero,31,8,zero
# else
and acc,ret0,zero
b dispatch
extru zero,31,16,zero
# endif
#else
GET_IMM_MEM();
# ifdef ACC8
zero = (acc & arg) & 0xff;
# else
zero = (acc & arg) & 0xffff;
# endif
#endif
break;
case 0x8a: /* TXA */
#ifdef ASM
# ifdef ACC8
extru xreg,31,8,zero
INC_KPC_1
extru xreg,24,1,neg
b dispatch
dep zero,31,8,acc
# else
extru xreg,31,16,zero
INC_KPC_1
extru xreg,16,1,neg
b dispatch
zdep zero,31,16,acc
# endif
#else
INC_KPC_1;
arg = xreg;
LDA_INST();
#endif
break;
case 0x8b: /* PHB */
#ifdef ASM
ldil l%dispatch,link
extru dbank,31,8,arg0
INC_KPC_1
b push_8
ldo r%dispatch(link),link
#else
INC_KPC_1;
PUSH8(dbank);
#endif
break;
case 0x8c: /* STY abs */
GET_ABS_ADDR();
STY_INST(0);
break;
case 0x8d: /* STA abs */
GET_ABS_ADDR();
STA_INST(0);
break;
case 0x8e: /* STX abs */
GET_ABS_ADDR();
STX_INST(0);
break;
case 0x8f: /* STA long */
GET_LONG_ADDR();
STA_INST(0);
break;
case 0x90: /* BCC disp8 */
#ifdef ASM
COND_BR1
bb,< psr,31,inst90_2_8
COND_BR2
inst90_2_8
COND_BR_UNTAKEN
#else
BRANCH_DISP8((psr & 0x01) == 0);
#endif
break;
case 0x91: /* STA (Dloc),y */
GET_DLOC_IND_Y_ADDR_FOR_WR();
STA_INST(0);
break;
case 0x92: /* STA (Dloc) */
GET_DLOC_IND_ADDR();
STA_INST(0);
break;
case 0x93: /* STA (Disp8,s),y */
GET_DISP8_S_IND_Y_ADDR();
STA_INST(0);
break;
case 0x94: /* STY Dloc,x */
GET_DLOC_X_ADDR();
STY_INST(1);
break;
case 0x95: /* STA Dloc,x */
GET_DLOC_X_ADDR();
STA_INST(1);
break;
case 0x96: /* STX Dloc,Y */
GET_DLOC_Y_ADDR();
STX_INST(1);
break;
case 0x97: /* STA [Dloc],Y */
GET_DLOC_L_IND_Y_ADDR();
STA_INST(0);
break;
case 0x98: /* TYA */
#ifdef ASM
# ifdef ACC8
extru yreg,31,8,zero
INC_KPC_1
extru yreg,24,1,neg
b dispatch
dep zero,31,8,acc
# else
extru yreg,31,16,zero
INC_KPC_1
extru yreg,16,1,neg
b dispatch
zdep zero,31,16,acc
# endif
#else
INC_KPC_1;
arg = yreg;
LDA_INST();
#endif
break;
case 0x99: /* STA abs,y */
GET_ABS_INDEX_ADDR_FOR_WR(yreg)
STA_INST(0);
break;
case 0x9a: /* TXS */
#ifdef ASM
copy xreg,stack
extru,= psr,23,1,0
depi 1,23,24,stack
INC_KPC_1
b dispatch
nop
#else
stack = xreg;
if(psr & 0x100) {
stack = 0x100 | (stack & 0xff);
}
INC_KPC_1;
#endif
break;
case 0x9b: /* TXY */
#ifdef ASM
extru xreg,24,1,neg
INC_KPC_1
extru,<> psr,27,1,0 ;skip next if 8bit
extru xreg,16,1,neg
copy xreg,yreg
b dispatch
copy xreg,zero
#else
SET_INDEX_REG(xreg, yreg);
INC_KPC_1;
#endif
break;
case 0x9c: /* STZ Abs */
GET_ABS_ADDR();
STZ_INST(0);
break;
case 0x9d: /* STA Abs,X */
GET_ABS_INDEX_ADDR_FOR_WR(xreg);
STA_INST(0);
break;
case 0x9e: /* STZ Abs,X */
GET_ABS_INDEX_ADDR_FOR_WR(xreg);
STZ_INST(0);
break;
case 0x9f: /* STA Long,X */
GET_LONG_X_ADDR_FOR_WR();
STA_INST(0);
break;
case 0xa0: /* LDY #imm */
#ifdef ASM
INC_KPC_2
bb,>= psr,27,insta0_16bit_8
ldb 1(scratch1),zero
extru zero,24,1,neg
b dispatch
copy zero,yreg
insta0_16bit_8
ldb 2(scratch1),scratch1
INC_KPC_1
CYCLES_PLUS_1
extru scratch1,24,1,neg
dep scratch1,23,8,zero
b dispatch
copy zero,yreg
#else
INC_KPC_2;
if((psr & 0x10) == 0) {
GET_2BYTE_ARG;
CYCLES_PLUS_1
INC_KPC_1;
} else {
GET_1BYTE_ARG;
}
SET_INDEX_REG(arg, yreg);
#endif
break;
case 0xa1: /* LDA (Dloc,X) */
/* called with arg = val to LDA in */
GET_DLOC_X_IND_RD();
LDA_INST();
break;
case 0xa2: /* LDX #imm */
#ifdef ASM
ldb 1(scratch1),zero
bb,>= psr,27,insta2_16bit_8
INC_KPC_2;
extru zero,24,1,neg
b dispatch
copy zero,xreg
insta2_16bit_8
ldb 2(scratch1),scratch1
INC_KPC_1
CYCLES_PLUS_1
extru scratch1,24,1,neg
dep scratch1,23,8,zero
b dispatch
copy zero,xreg
#else
INC_KPC_2;
if((psr & 0x10) == 0) {
GET_2BYTE_ARG;
CYCLES_PLUS_1
INC_KPC_1;
} else {
GET_1BYTE_ARG;
}
SET_INDEX_REG(arg, xreg);
#endif
break;
case 0xa3: /* LDA Disp8,S */
/* called with arg = val to LDA in */
GET_DISP8_S_RD();
LDA_INST();
break;
case 0xa4: /* LDY Dloc */
#ifdef ASM
ldb 1(scratch1),arg0
GET_DLOC_WR()
b get_yreg_from_mem
nop
#else
C_LDY_DLOC();
#endif
break;
case 0xa5: /* LDA Dloc */
/* called with arg = val to LDA in */
GET_DLOC_RD();
LDA_INST();
break;
case 0xa6: /* LDX Dloc */
#ifdef ASM
ldb 1(scratch1),arg0
GET_DLOC_WR()
b get_xreg_from_mem
nop
#else
C_LDX_DLOC();
#endif
break;
case 0xa7: /* LDA [Dloc] */
GET_DLOC_L_IND_RD();
LDA_INST();
break;
case 0xa8: /* TAY */
#ifdef ASM
INC_KPC_1
bb,>= psr,27,insta8_16bit_8
extru acc,31,8,zero
extru acc,24,1,neg
b dispatch
copy zero,yreg
insta8_16bit_8
extru acc,31,16,zero
extru acc,16,1,neg
b dispatch
copy zero,yreg
#else
INC_KPC_1;
SET_INDEX_REG(acc, yreg);
#endif
break;
case 0xa9: /* LDA #imm */
GET_IMM_MEM();
LDA_INST();
break;
case 0xaa: /* TAX */
#ifdef ASM
INC_KPC_1
bb,>= psr,27,instaa_16bit_8
extru acc,31,8,zero
extru acc,24,1,neg
b dispatch
copy zero,xreg
instaa_16bit_8
extru acc,31,16,zero
extru acc,16,1,neg
b dispatch
copy zero,xreg
#else
INC_KPC_1;
SET_INDEX_REG(acc, xreg);
#endif
break;
case 0xab: /* PLB */
#ifdef ASM
INC_KPC_1
bl pull_8,link
CYCLES_PLUS_1
extru ret0,31,8,zero
extru ret0,24,1,neg
b dispatch
copy zero,dbank
#else
INC_KPC_1;
CYCLES_PLUS_1
PULL8(dbank);
SET_NEG_ZERO8(dbank);
#endif
break;
case 0xac: /* LDY abs */
#ifdef ASM
GET_ABS_ADDR()
b get_yreg_from_mem
nop
#else
C_LDY_ABS();
#endif
break;
case 0xad: /* LDA abs */
GET_ABS_RD();
LDA_INST();
break;
case 0xae: /* LDX abs */
#ifdef ASM
GET_ABS_ADDR()
b get_xreg_from_mem
nop
#else
C_LDX_ABS();
#endif
break;
case 0xaf: /* LDA long */
GET_LONG_RD();
LDA_INST();
break;
case 0xb0: /* BCS disp8 */
#ifdef ASM
COND_BR1
bb,>= psr,31,instb0_2_8
COND_BR2
instb0_2_8
COND_BR_UNTAKEN
#else
BRANCH_DISP8((psr & 0x01));
#endif
break;
case 0xb1: /* LDA (Dloc),y */
GET_DLOC_IND_Y_RD();
LDA_INST();
break;
case 0xb2: /* LDA (Dloc) */
GET_DLOC_IND_RD();
LDA_INST();
break;
case 0xb3: /* LDA (Disp8,s),y */
GET_DISP8_S_IND_Y_RD();
LDA_INST();
break;
case 0xb4: /* LDY Dloc,x */
#ifdef ASM
ldb 1(scratch1),arg0
GET_DLOC_X_WR();
b get_yreg_from_mem
nop
#else
C_LDY_DLOC_X();
#endif
break;
case 0xb5: /* LDA Dloc,x */
GET_DLOC_X_RD();
LDA_INST();
break;
case 0xb6: /* LDX Dloc,y */
#ifdef ASM
ldb 1(scratch1),arg0
GET_DLOC_Y_WR();
b get_xreg_from_mem
nop
#else
C_LDX_DLOC_Y();
#endif
break;
case 0xb7: /* LDA [Dloc],Y */
GET_DLOC_L_IND_Y_RD();
LDA_INST();
break;
case 0xb8: /* CLV */
#ifdef ASM
INC_KPC_1
b dispatch
depi 0,25,1,psr /* clear overflow */
#else
psr = psr & ~0x40;
INC_KPC_1;
#endif
break;
case 0xb9: /* LDA abs,y */
GET_ABS_Y_RD();
LDA_INST();
break;
case 0xba: /* TSX */
#ifdef ASM
INC_KPC_1
bb,>= psr,27,instba_16bit_8
extru stack,31,8,zero
extru stack,24,1,neg
b dispatch
copy zero,xreg
instba_16bit_8
copy stack,zero
extru stack,16,1,neg
b dispatch
copy zero,xreg
#else
INC_KPC_1;
SET_INDEX_REG(stack, xreg);
#endif
break;
case 0xbb: /* TYX */
#ifdef ASM
INC_KPC_1
bb,>= psr,27,instbb_16bit_8
copy yreg,xreg
/* 8 bit */
extru yreg,24,1,neg
b dispatch
copy yreg,zero
instbb_16bit_8
extru yreg,16,1,neg
b dispatch
copy yreg,zero
#else
INC_KPC_1;
SET_INDEX_REG(yreg, xreg);
#endif
break;
case 0xbc: /* LDY Abs,X */
#ifdef ASM
GET_ABS_INDEX_ADDR_FOR_RD(xreg)
b get_yreg_from_mem
nop
#else
C_LDY_ABS_X();
#endif
break;
case 0xbd: /* LDA Abs,X */
GET_ABS_X_RD();
LDA_INST();
break;
case 0xbe: /* LDX Abs,y */
#ifdef ASM
GET_ABS_INDEX_ADDR_FOR_RD(yreg)
b get_xreg_from_mem
nop
#else
C_LDX_ABS_Y();
#endif
break;
case 0xbf: /* LDA Long,X */
GET_LONG_X_RD();
LDA_INST();
break;
case 0xc0: /* CPY #imm */
#ifdef ASM
ldb 1(scratch1),ret0
bb,>= psr,27,instc0_16bit_8
INC_KPC_2;
CMP_INDEX_REG_MEAT8(yreg)
instc0_16bit_8
ldb 2(scratch1),scratch1
CYCLES_PLUS_1
INC_KPC_1
dep scratch1,23,8,ret0
CMP_INDEX_REG_MEAT16(yreg)
#else
C_CPY_IMM();
#endif
break;
case 0xc1: /* CMP (Dloc,X) */
/* called with arg = val to CMP in */
GET_DLOC_X_IND_RD();
CMP_INST();
break;
case 0xc2: /* REP #imm */
#ifdef ASM
ldb 1(scratch1),ret0
extru psr,27,2,arg0 /* save old x & m */
INC_KPC_2;
dep neg,24,1,psr
CYCLES_PLUS_1
depi 0,30,1,psr
comiclr,<> 0,zero,0
depi 1,30,1,psr
andcm psr,ret0,ret0
ldi 0,zero
extru,<> ret0,30,1,0
ldi 1,zero
dep ret0,31,8,psr
b update_system_state
extru ret0,24,1,neg
#else
GET_1BYTE_ARG;
tmp2 = psr;
CYCLES_PLUS_1;
INC_KPC_2;
psr = (psr & ~0x82) | ((neg & 1) << 7) | ((!zero) << 1);
psr = psr & ~(arg & 0xff);
zero = !(psr & 2);
neg = (psr >> 7) & 1;
UPDATE_PSR(psr, tmp2);
#endif
break;
case 0xc3: /* CMP Disp8,S */
/* called with arg = val to CMP in */
GET_DISP8_S_RD();
CMP_INST();
break;
case 0xc4: /* CPY Dloc */
#ifdef ASM
GET_DLOC_ADDR()
CMP_INDEX_REG_LOAD(instc4_16bit_8, yreg)
#else
C_CPY_DLOC();
#endif
break;
case 0xc5: /* CMP Dloc */
GET_DLOC_RD();
CMP_INST();
break;
case 0xc6: /* DEC Dloc */
GET_DLOC_RD();
DEC_INST(1);
break;
case 0xc7: /* CMP [Dloc] */
GET_DLOC_L_IND_RD();
CMP_INST();
break;
case 0xc8: /* INY */
#ifdef ASM
INC_KPC_1
addi 1,yreg,yreg
bb,>= psr,27,instc8_16bit_8
extru yreg,31,8,zero
extru yreg,24,1,neg
b dispatch
copy zero,yreg
instc8_16bit_8
extru yreg,31,16,zero
extru yreg,16,1,neg
b dispatch
copy zero,yreg
#else
INC_KPC_1;
SET_INDEX_REG(yreg + 1, yreg);
#endif
break;
case 0xc9: /* CMP #imm */
GET_IMM_MEM();
CMP_INST();
break;
case 0xca: /* DEX */
#ifdef ASM
INC_KPC_1
addi -1,xreg,xreg
bb,>= psr,27,instca_16bit_8
extru xreg,31,8,zero
extru xreg,24,1,neg
b dispatch
copy zero,xreg
instca_16bit_8
extru xreg,31,16,zero
extru xreg,16,1,neg
b dispatch
copy zero,xreg
#else
INC_KPC_1;
SET_INDEX_REG(xreg - 1, xreg);
#endif
break;
case 0xcb: /* WAI */
#ifdef ASM
ldil l%g_wait_pending,scratch1
CYCLES_FINISH
ldi 1,scratch2
b dispatch
stw scratch2,r%g_wait_pending(scratch1)
#else
g_wait_pending = 1;
CYCLES_FINISH
#endif
break;
case 0xcc: /* CPY abs */
#ifdef ASM
GET_ABS_ADDR()
CMP_INDEX_REG_LOAD(instcc_16bit_8, yreg)
#else
C_CPY_ABS();
#endif
break;
case 0xcd: /* CMP abs */
GET_ABS_RD();
CMP_INST();
break;
case 0xce: /* DEC abs */
GET_ABS_RD();
DEC_INST(0);
break;
case 0xcf: /* CMP long */
GET_LONG_RD();
CMP_INST();
break;
case 0xd0: /* BNE disp8 */
#ifdef ASM
COND_BR1
comib,= 0,zero,instd0_2_8
COND_BR2
instd0_2_8
COND_BR_UNTAKEN
#else
BRANCH_DISP8(zero != 0);
#endif
break;
case 0xd1: /* CMP (Dloc),y */
GET_DLOC_IND_Y_RD();
CMP_INST();
break;
case 0xd2: /* CMP (Dloc) */
GET_DLOC_IND_RD();
CMP_INST();
break;
case 0xd3: /* CMP (Disp8,s),y */
GET_DISP8_S_IND_Y_RD();
CMP_INST();
break;
case 0xd4: /* PEI Dloc */
#ifdef ASM
GET_DLOC_ADDR()
bl get_mem_long_16,link
CYCLES_PLUS_1
/* push ret0 */
extru ret0,31,16,arg0
ldil l%dispatch,link
b push_16_unsafe
ldo r%dispatch(link),link
#else
GET_DLOC_ADDR()
GET_MEMORY16(arg, arg, 1);
CYCLES_PLUS_1;
PUSH16_UNSAFE(arg);
#endif
break;
case 0xd5: /* CMP Dloc,x */
GET_DLOC_X_RD();
CMP_INST();
break;
case 0xd6: /* DEC Dloc,x */
GET_DLOC_X_RD();
DEC_INST(1);
break;
case 0xd7: /* CMP [Dloc],Y */
GET_DLOC_L_IND_Y_RD();
CMP_INST();
break;
case 0xd8: /* CLD */
#ifdef ASM
INC_KPC_1
b dispatch
depi 0,28,1,psr /* clear decimal */
#else
psr = psr & (~0x8);
INC_KPC_1;
#endif
break;
case 0xd9: /* CMP abs,y */
GET_ABS_Y_RD();
CMP_INST();
break;
case 0xda: /* PHX */
#ifdef ASM
INC_KPC_1
bb,>= psr,27,instda_16bit_8
ldil l%dispatch,link
extru xreg,31,8,arg0
b push_8
ldo r%dispatch(link),link
instda_16bit_8
extru xreg,31,16,arg0
b push_16
ldo r%dispatch(link),link
#else
INC_KPC_1;
if(psr & 0x10) {
PUSH8(xreg);
} else {
PUSH16(xreg);
}
#endif
break;
case 0xdb: /* STP */
#ifdef ASM
ldb 1(scratch1),ret0
CYCLES_PLUS_1
b dispatch_done
depi RET_STP,3,4,ret0
#else
CYCLES_FINISH
FINISH(RET_STP, 0);
#endif
break;
case 0xdc: /* JML (Abs) */
#ifdef ASM
ldb 1(scratch1),arg0
ldb 2(scratch1),scratch1
CYCLES_PLUS_1
bl get_mem_long_24,link
dep scratch1,23,8,arg0
b dispatch
copy ret0,kpc
#else
GET_2BYTE_ARG;
CYCLES_PLUS_1;
GET_MEMORY24(arg, kpc, 1);
#endif
break;
case 0xdd: /* CMP Abs,X */
GET_ABS_X_RD();
CMP_INST();
break;
case 0xde: /* DEC Abs,X */
GET_ABS_X_RD_WR();
DEC_INST(0);
break;
case 0xdf: /* CMP Long,X */
GET_LONG_X_RD();
CMP_INST();
break;
case 0xe0: /* CPX #imm */
#ifdef ASM
ldb 1(scratch1),ret0
bb,>= psr,27,inste0_16bit_8
INC_KPC_2;
CMP_INDEX_REG_MEAT8(xreg)
inste0_16bit_8
ldb 2(scratch1),scratch1
CYCLES_PLUS_1
INC_KPC_1
dep scratch1,23,8,ret0
CMP_INDEX_REG_MEAT16(xreg)
#else
C_CPX_IMM();
#endif
break;
case 0xe1: /* SBC (Dloc,X) */
/* called with arg = val to SBC in */
GET_DLOC_X_IND_RD();
SBC_INST();
break;
case 0xe2: /* SEP #imm */
#ifdef ASM
ldb 1(scratch1),ret0
extru psr,27,2,arg0 /* save old x & m */
INC_KPC_2;
dep neg,24,1,psr
CYCLES_PLUS_1
depi 0,30,1,psr
comiclr,<> 0,zero,0
depi 1,30,1,psr
or psr,ret0,ret0
ldi 0,zero
extru,<> ret0,30,1,0
ldi 1,zero
dep ret0,31,8,psr
b update_system_state
extru ret0,24,1,neg
#else
GET_1BYTE_ARG;
tmp2 = psr;
CYCLES_PLUS_1;
INC_KPC_2;
psr = (psr & ~0x82) | ((neg & 1) << 7) | ((!zero) << 1);
psr = psr | (arg & 0xff);
zero = !(psr & 2);
neg = (psr >> 7) & 1;
UPDATE_PSR(psr, tmp2);
#endif
break;
case 0xe3: /* SBC Disp8,S */
/* called with arg = val to SBC in */
GET_DISP8_S_RD();
SBC_INST();
break;
case 0xe4: /* CPX Dloc */
#ifdef ASM
GET_DLOC_ADDR()
CMP_INDEX_REG_LOAD(inste4_16bit_8, xreg)
#else
C_CPX_DLOC();
#endif
break;
case 0xe5: /* SBC Dloc */
/* called with arg = val to SBC in */
GET_DLOC_RD();
SBC_INST();
break;
case 0xe6: /* INC Dloc */
GET_DLOC_RD();
INC_INST(1);
break;
case 0xe7: /* SBC [Dloc] */
GET_DLOC_L_IND_RD();
SBC_INST();
break;
case 0xe8: /* INX */
#ifdef ASM
INC_KPC_1
addi 1,xreg,xreg
bb,>= psr,27,inste8_16bit_8
extru xreg,31,8,zero
extru xreg,24,1,neg
b dispatch
copy zero,xreg
inste8_16bit_8
extru xreg,31,16,zero
extru xreg,16,1,neg
b dispatch
copy zero,xreg
#else
INC_KPC_1;
SET_INDEX_REG(xreg + 1, xreg);
#endif
break;
case 0xe9: /* SBC #imm */
GET_IMM_MEM();
SBC_INST();
break;
case 0xea: /* NOP */
#ifdef ASM
INC_KPC_1
b dispatch
nop
#else
INC_KPC_1;
#endif
break;
case 0xeb: /* XBA */
#ifdef ASM
extru acc,16,1,neg /* Z and N reflect status of low 8 */
CYCLES_PLUS_1 /* bits of final acc value! */
copy acc,scratch1 /* regardlessof ACC 8 or 16 bit */
extru acc,23,8,acc
INC_KPC_1
copy acc,zero
b dispatch
dep scratch1,23,8,acc
#else
tmp1 = acc & 0xff;
CYCLES_PLUS_1
acc = (tmp1 << 8) + (acc >> 8);
INC_KPC_1;
SET_NEG_ZERO8(acc & 0xff);
#endif
break;
case 0xec: /* CPX abs */
#ifdef ASM
GET_ABS_ADDR()
CMP_INDEX_REG_LOAD(instec_16bit_8, xreg)
#else
C_CPX_ABS();
#endif
break;
case 0xed: /* SBC abs */
GET_ABS_RD();
SBC_INST();
break;
case 0xee: /* INC abs */
GET_ABS_RD();
INC_INST(0);
break;
case 0xef: /* SBC long */
GET_LONG_RD();
SBC_INST();
break;
case 0xf0: /* BEQ disp8 */
#ifdef ASM
COND_BR1
comib,<> 0,zero,instf0_2_8
COND_BR2
instf0_2_8
COND_BR_UNTAKEN
#else
BRANCH_DISP8(zero == 0);
#endif
break;
case 0xf1: /* SBC (Dloc),y */
GET_DLOC_IND_Y_RD();
SBC_INST();
break;
case 0xf2: /* SBC (Dloc) */
GET_DLOC_IND_RD();
SBC_INST();
break;
case 0xf3: /* SBC (Disp8,s),y */
GET_DISP8_S_IND_Y_RD();
SBC_INST();
break;
case 0xf4: /* PEA Abs */
#ifdef ASM
ldb 1(scratch1),arg0
ldil l%dispatch,link
ldb 2(scratch1),scratch1
INC_KPC_3
CYCLES_PLUS_1
ldo r%dispatch(link),link
b push_16_unsafe
dep scratch1,23,8,arg0
#else
GET_2BYTE_ARG;
CYCLES_PLUS_1;
INC_KPC_3;
PUSH16_UNSAFE(arg);
#endif
break;
case 0xf5: /* SBC Dloc,x */
GET_DLOC_X_RD();
SBC_INST();
break;
case 0xf6: /* INC Dloc,x */
GET_DLOC_X_RD();
INC_INST(1);
break;
case 0xf7: /* SBC [Dloc],Y */
GET_DLOC_L_IND_Y_RD();
SBC_INST();
break;
case 0xf8: /* SED */
#ifdef ASM
INC_KPC_1
b dispatch
depi 1,28,1,psr /* set decimal */
#else
INC_KPC_1;
psr |= 0x8;
#endif
break;
case 0xf9: /* SBC abs,y */
GET_ABS_Y_RD();
SBC_INST();
break;
case 0xfa: /* PLX */
#ifdef ASM
bb,< psr,27,instfa_8bit_8
CYCLES_PLUS_1
INC_KPC_1
bl pull_16,link
nop
extru ret0,31,16,zero
extru ret0,16,1,neg
b dispatch
copy zero,xreg
instfa_8bit_8
INC_KPC_1
bl pull_8,link
nop
extru ret0,31,8,zero
extru ret0,24,1,neg
b dispatch
copy zero,xreg
#else
INC_KPC_1;
CYCLES_PLUS_1;
if(psr & 0x10) {
PULL8(xreg);
SET_NEG_ZERO8(xreg);
} else {
PULL16(xreg);
SET_NEG_ZERO16(xreg);
}
#endif
break;
case 0xfb: /* XCE */
#ifdef ASM
extru psr,27,2,arg0 /* save old x & m */
INC_KPC_1
extru psr,23,1,scratch1 /* e bit */
dep psr,23,1,psr /* copy carry to e bit */
b update_system_state
dep scratch1,31,1,psr /* copy e bit to carry */
#else
tmp2 = psr;
INC_KPC_1;
psr = (tmp2 & 0xfe) | ((tmp2 & 1) << 8) | ((tmp2 >> 8) & 1);
UPDATE_PSR(psr, tmp2);
#endif
break;
case 0xfc: /* JSR (Abs,X) */
#ifdef ASM
ldb 1(scratch1),ret0
extru kpc,15,8,scratch2
ldb 2(scratch1),scratch1
dep scratch2,15,16,ret0
INC_KPC_2;
dep scratch1,23,8,ret0
add xreg,ret0,arg0
bl get_mem_long_16,link
extru arg0,31,24,arg0
CYCLES_PLUS_2
extru kpc,31,16,arg0
ldil l%dispatch,link
dep ret0,31,16,kpc
b push_16_unsafe
ldo r%dispatch(link),link
#else
GET_2BYTE_ARG;
INC_KPC_2;
tmp1 = kpc;
arg = (kpc & 0xff0000) + ((arg + xreg) & 0xffff);
GET_MEMORY16(arg, tmp2, 1);
kpc = (kpc & 0xff0000) + tmp2;
CYCLES_PLUS_2
PUSH16_UNSAFE(tmp1);
#endif
break;
case 0xfd: /* SBC Abs,X */
GET_ABS_X_RD();
SBC_INST();
break;
case 0xfe: /* INC Abs,X */
GET_ABS_X_RD_WR();
INC_INST(0);
break;
case 0xff: /* SBC Long,X */
GET_LONG_X_RD();
SBC_INST();