ref: 18c351f101ddcd572360dc21be029ba3e62d45d0
dir: /snes/spc.c/
#include <stdio.h> #include <stdlib.h> #include <string.h> #include <stdint.h> #include <stdbool.h> #include <stddef.h> #include "spc.h" #include "apu.h" static const int cyclesPerOpcode[256] = { 2, 8, 4, 5, 3, 4, 3, 6, 2, 6, 5, 4, 5, 4, 6, 8, 2, 8, 4, 5, 4, 5, 5, 6, 5, 5, 6, 5, 2, 2, 4, 6, 2, 8, 4, 5, 3, 4, 3, 6, 2, 6, 5, 4, 5, 4, 5, 4, 2, 8, 4, 5, 4, 5, 5, 6, 5, 5, 6, 5, 2, 2, 3, 8, 2, 8, 4, 5, 3, 4, 3, 6, 2, 6, 4, 4, 5, 4, 6, 6, 2, 8, 4, 5, 4, 5, 5, 6, 5, 5, 4, 5, 2, 2, 4, 3, 2, 8, 4, 5, 3, 4, 3, 6, 2, 6, 4, 4, 5, 4, 5, 5, 2, 8, 4, 5, 4, 5, 5, 6, 5, 5, 5, 5, 2, 2, 3, 6, 2, 8, 4, 5, 3, 4, 3, 6, 2, 6, 5, 4, 5, 2, 4, 5, 2, 8, 4, 5, 4, 5, 5, 6, 5, 5, 5, 5, 2, 2, 12,5, 2, 8, 4, 5, 3, 4, 3, 6, 2, 6, 4, 4, 5, 2, 4, 4, 2, 8, 4, 5, 4, 5, 5, 6, 5, 5, 5, 5, 2, 2, 3, 4, 2, 8, 4, 5, 4, 5, 4, 7, 2, 5, 6, 4, 5, 2, 4, 9, 2, 8, 4, 5, 5, 6, 6, 7, 4, 5, 5, 5, 2, 2, 6, 3, 2, 8, 4, 5, 3, 4, 3, 6, 2, 4, 5, 3, 4, 3, 4, 3, 2, 8, 4, 5, 4, 5, 5, 6, 3, 4, 5, 4, 2, 2, 4, 3 }; static uint8_t spc_read(Spc* spc, uint16_t adr); static void spc_write(Spc* spc, uint16_t adr, uint8_t val); static uint8_t spc_readOpcode(Spc* spc); static uint16_t spc_readOpcodeWord(Spc* spc); static uint8_t spc_getFlags(Spc* spc); static void spc_setFlags(Spc* spc, uint8_t value); static void spc_setZN(Spc* spc, uint8_t value); static void spc_doBranch(Spc* spc, uint8_t value, bool check); static uint8_t spc_pullByte(Spc* spc); static void spc_pushByte(Spc* spc, uint8_t value); static uint16_t spc_pullWord(Spc* spc); static void spc_pushWord(Spc* spc, uint16_t value); static uint16_t spc_readWord(Spc* spc, uint16_t adrl, uint16_t adrh); static void spc_writeWord(Spc* spc, uint16_t adrl, uint16_t adrh, uint16_t value); static void spc_doOpcode(Spc* spc, uint8_t opcode); // addressing modes and opcode functions not declared, only used after defintions static uint8_t spc_read(Spc* spc, uint16_t adr) { return apu_cpuRead(spc->apu, adr); } static void spc_write(Spc* spc, uint16_t adr, uint8_t val) { if (0 && adr == 0x5e) printf("writing to vol_dirty %d\n", val); apu_cpuWrite(spc->apu, adr, val); } Spc* spc_init(Apu* apu) { Spc* spc = (Spc * )malloc(sizeof(Spc)); spc->apu = apu; return spc; } void spc_free(Spc* spc) { free(spc); } void spc_reset(Spc* spc) { spc->a = 0; spc->x = 0; spc->y = 0; spc->sp = 0; spc->pc = spc_read(spc, 0xfffe) | (spc_read(spc, 0xffff) << 8); spc->c = false; spc->z = false; spc->v = false; spc->n = false; spc->i = false; spc->h = false; spc->p = false; spc->b = false; spc->stopped = false; spc->cyclesUsed = 0; } void spc_saveload(Spc *spc, SaveLoadFunc *func, void *ctx) { func(ctx, &spc->a, offsetof(Spc, cyclesUsed) - offsetof(Spc, a)); } int spc_runOpcode(Spc* spc) { spc->cyclesUsed = 0; if(spc->stopped) return 1; uint8_t opcode = spc_readOpcode(spc); spc->cyclesUsed = cyclesPerOpcode[opcode]; spc_doOpcode(spc, opcode); return spc->cyclesUsed; } static uint8_t spc_readOpcode(Spc* spc) { return spc_read(spc, spc->pc++); } static uint16_t spc_readOpcodeWord(Spc* spc) { uint8_t low = spc_readOpcode(spc); return low | (spc_readOpcode(spc) << 8); } static uint8_t spc_getFlags(Spc* spc) { uint8_t val = spc->n << 7; val |= spc->v << 6; val |= spc->p << 5; val |= spc->b << 4; val |= spc->h << 3; val |= spc->i << 2; val |= spc->z << 1; val |= (uint8_t)spc->c; return val; } static void spc_setFlags(Spc* spc, uint8_t val) { spc->n = val & 0x80; spc->v = val & 0x40; spc->p = val & 0x20; spc->b = val & 0x10; spc->h = val & 8; spc->i = val & 4; spc->z = val & 2; spc->c = val & 1; } static void spc_setZN(Spc* spc, uint8_t value) { spc->z = value == 0; spc->n = value & 0x80; } static void spc_doBranch(Spc* spc, uint8_t value, bool check) { if(check) { spc->cyclesUsed += 2; // taken branch: 2 extra cycles spc->pc += (int8_t) value; } } static uint8_t spc_pullByte(Spc* spc) { spc->sp++; return spc_read(spc, 0x100 | spc->sp); } static void spc_pushByte(Spc* spc, uint8_t value) { spc_write(spc, 0x100 | spc->sp, value); spc->sp--; } static uint16_t spc_pullWord(Spc* spc) { uint8_t value = spc_pullByte(spc); return value | (spc_pullByte(spc) << 8); } static void spc_pushWord(Spc* spc, uint16_t value) { spc_pushByte(spc, value >> 8); spc_pushByte(spc, value & 0xff); } static uint16_t spc_readWord(Spc* spc, uint16_t adrl, uint16_t adrh) { uint8_t value = spc_read(spc, adrl); return value | (spc_read(spc, adrh) << 8); } static void spc_writeWord(Spc* spc, uint16_t adrl, uint16_t adrh, uint16_t value) { spc_write(spc, adrl, value & 0xff); spc_write(spc, adrh, value >> 8); } // adressing modes static uint16_t spc_adrDp(Spc* spc) { return spc_readOpcode(spc) | (spc->p << 8); } static uint16_t spc_adrAbs(Spc* spc) { return spc_readOpcodeWord(spc); } static uint16_t spc_adrInd(Spc* spc) { return spc->x | (spc->p << 8); } static uint16_t spc_adrIdx(Spc* spc) { uint8_t pointer = spc_readOpcode(spc); return spc_readWord(spc, ((pointer + spc->x) & 0xff) | (spc->p << 8), ((pointer + spc->x + 1) & 0xff) | (spc->p << 8)); } static uint16_t spc_adrImm(Spc* spc) { return spc->pc++; } static uint16_t spc_adrDpx(Spc* spc) { return ((spc_readOpcode(spc) + spc->x) & 0xff) | (spc->p << 8); } static uint16_t spc_adrDpy(Spc* spc) { return ((spc_readOpcode(spc) + spc->y) & 0xff) | (spc->p << 8); } static uint16_t spc_adrAbx(Spc* spc) { return (spc_readOpcodeWord(spc) + spc->x) & 0xffff; } static uint16_t spc_adrAby(Spc* spc) { return (spc_readOpcodeWord(spc) + spc->y) & 0xffff; } static uint16_t spc_adrIdy(Spc* spc) { uint8_t pointer = spc_readOpcode(spc); uint16_t adr = spc_readWord(spc, pointer | (spc->p << 8), ((pointer + 1) & 0xff) | (spc->p << 8)); return (adr + spc->y) & 0xffff; } static uint16_t spc_adrDpDp(Spc* spc, uint16_t* src) { *src = spc_readOpcode(spc) | (spc->p << 8); return spc_readOpcode(spc) | (spc->p << 8); } static uint16_t spc_adrDpImm(Spc* spc, uint16_t* src) { *src = spc->pc++; return spc_readOpcode(spc) | (spc->p << 8); } static uint16_t spc_adrIndInd(Spc* spc, uint16_t* src) { *src = spc->y | (spc->p << 8); return spc->x | (spc->p << 8); } static uint8_t spc_adrAbsBit(Spc* spc, uint16_t* adr) { uint16_t adrBit = spc_readOpcodeWord(spc); *adr = adrBit & 0x1fff; return adrBit >> 13; } static uint16_t spc_adrDpWord(Spc* spc, uint16_t* low) { uint8_t adr = spc_readOpcode(spc); *low = adr | (spc->p << 8); return ((adr + 1) & 0xff) | (spc->p << 8); } static uint16_t spc_adrIndP(Spc* spc) { return spc->x++ | (spc->p << 8); } // opcode functions static void spc_and(Spc* spc, uint16_t adr) { spc->a &= spc_read(spc, adr); spc_setZN(spc, spc->a); } static void spc_andm(Spc* spc, uint16_t dst, uint16_t src) { uint8_t value = spc_read(spc, src); uint8_t result = spc_read(spc, dst) & value; spc_write(spc, dst, result); spc_setZN(spc, result); } static void spc_or(Spc* spc, uint16_t adr) { spc->a |= spc_read(spc, adr); spc_setZN(spc, spc->a); } static void spc_orm(Spc* spc, uint16_t dst, uint16_t src) { uint8_t value = spc_read(spc, src); uint8_t result = spc_read(spc, dst) | value; spc_write(spc, dst, result); spc_setZN(spc, result); } static void spc_eor(Spc* spc, uint16_t adr) { spc->a ^= spc_read(spc, adr); spc_setZN(spc, spc->a); } static void spc_eorm(Spc* spc, uint16_t dst, uint16_t src) { uint8_t value = spc_read(spc, src); uint8_t result = spc_read(spc, dst) ^ value; spc_write(spc, dst, result); spc_setZN(spc, result); } static void spc_adc(Spc* spc, uint16_t adr) { uint8_t value = spc_read(spc, adr); int result = spc->a + value + spc->c; spc->v = (spc->a & 0x80) == (value & 0x80) && (value & 0x80) != (result & 0x80); spc->h = ((spc->a & 0xf) + (value & 0xf) + spc->c) > 0xf; spc->c = result > 0xff; spc->a = result; spc_setZN(spc, spc->a); } static void spc_adcm(Spc* spc, uint16_t dst, uint16_t src) { uint8_t value = spc_read(spc, src); uint8_t applyOn = spc_read(spc, dst); int result = applyOn + value + spc->c; spc->v = (applyOn & 0x80) == (value & 0x80) && (value & 0x80) != (result & 0x80); spc->h = ((applyOn & 0xf) + (value & 0xf) + spc->c) > 0xf; spc->c = result > 0xff; spc_write(spc, dst, result); spc_setZN(spc, result); } static void spc_sbc(Spc* spc, uint16_t adr) { uint8_t value = spc_read(spc, adr) ^ 0xff; int result = spc->a + value + spc->c; spc->v = (spc->a & 0x80) == (value & 0x80) && (value & 0x80) != (result & 0x80); spc->h = ((spc->a & 0xf) + (value & 0xf) + spc->c) > 0xf; spc->c = result > 0xff; spc->a = result; spc_setZN(spc, spc->a); } static void spc_sbcm(Spc* spc, uint16_t dst, uint16_t src) { uint8_t value = spc_read(spc, src) ^ 0xff; uint8_t applyOn = spc_read(spc, dst); int result = applyOn + value + spc->c; spc->v = (applyOn & 0x80) == (value & 0x80) && (value & 0x80) != (result & 0x80); spc->h = ((applyOn & 0xf) + (value & 0xf) + spc->c) > 0xf; spc->c = result > 0xff; spc_write(spc, dst, result); spc_setZN(spc, result); } static void spc_cmp(Spc* spc, uint16_t adr) { uint8_t value = spc_read(spc, adr) ^ 0xff; int result = spc->a + value + 1; spc->c = result > 0xff; spc_setZN(spc, result); } static void spc_cmpx(Spc* spc, uint16_t adr) { uint8_t value = spc_read(spc, adr) ^ 0xff; int result = spc->x + value + 1; spc->c = result > 0xff; spc_setZN(spc, result); } static void spc_cmpy(Spc* spc, uint16_t adr) { uint8_t value = spc_read(spc, adr) ^ 0xff; int result = spc->y + value + 1; spc->c = result > 0xff; spc_setZN(spc, result); } static void spc_cmpm(Spc* spc, uint16_t dst, uint16_t src) { uint8_t value = spc_read(spc, src) ^ 0xff; int result = spc_read(spc, dst) + value + 1; spc->c = result > 0xff; spc_setZN(spc, result); } static void spc_mov(Spc* spc, uint16_t adr) { spc->a = spc_read(spc, adr); spc_setZN(spc, spc->a); } static void spc_movx(Spc* spc, uint16_t adr) { spc->x = spc_read(spc, adr); spc_setZN(spc, spc->x); } static void spc_movy(Spc* spc, uint16_t adr) { spc->y = spc_read(spc, adr); spc_setZN(spc, spc->y); } static void spc_movs(Spc* spc, uint16_t adr) { spc_read(spc, adr); spc_write(spc, adr, spc->a); } static void spc_movsx(Spc* spc, uint16_t adr) { spc_read(spc, adr); spc_write(spc, adr, spc->x); } static void spc_movsy(Spc* spc, uint16_t adr) { spc_read(spc, adr); spc_write(spc, adr, spc->y); } static void spc_asl(Spc* spc, uint16_t adr) { uint8_t val = spc_read(spc, adr); spc->c = val & 0x80; val <<= 1; spc_write(spc, adr, val); spc_setZN(spc, val); } static void spc_lsr(Spc* spc, uint16_t adr) { uint8_t val = spc_read(spc, adr); spc->c = val & 1; val >>= 1; spc_write(spc, adr, val); spc_setZN(spc, val); } static void spc_rol(Spc* spc, uint16_t adr) { uint8_t val = spc_read(spc, adr); bool newC = val & 0x80; val = (val << 1) | (uint8_t)spc->c; spc->c = newC; spc_write(spc, adr, val); spc_setZN(spc, val); } static void spc_ror(Spc* spc, uint16_t adr) { uint8_t val = spc_read(spc, adr); bool newC = val & 1; val = (val >> 1) | (spc->c << 7); spc->c = newC; spc_write(spc, adr, val); spc_setZN(spc, val); } static void spc_inc(Spc* spc, uint16_t adr) { uint8_t val = spc_read(spc, adr) + 1; spc_write(spc, adr, val); spc_setZN(spc, val); } static void spc_dec(Spc* spc, uint16_t adr) { uint8_t val = spc_read(spc, adr) - 1; spc_write(spc, adr, val); spc_setZN(spc, val); } static void spc_doOpcode(Spc* spc, uint8_t opcode) { switch(opcode) { case 0x00: { // nop imp // no operation break; } case 0x01: case 0x11: case 0x21: case 0x31: case 0x41: case 0x51: case 0x61: case 0x71: case 0x81: case 0x91: case 0xa1: case 0xb1: case 0xc1: case 0xd1: case 0xe1: case 0xf1: { // tcall imp spc_pushWord(spc, spc->pc); uint16_t adr = 0xffde - (2 * (opcode >> 4)); spc->pc = spc_readWord(spc, adr, adr + 1); break; } case 0x02: case 0x22: case 0x42: case 0x62: case 0x82: case 0xa2: case 0xc2: case 0xe2: { // set1 dp uint16_t adr = spc_adrDp(spc); spc_write(spc, adr, spc_read(spc, adr) | (1 << (opcode >> 5))); break; } case 0x12: case 0x32: case 0x52: case 0x72: case 0x92: case 0xb2: case 0xd2: case 0xf2: { // clr1 dp uint16_t adr = spc_adrDp(spc); spc_write(spc, adr, spc_read(spc, adr) & ~(1 << (opcode >> 5))); break; } case 0x03: case 0x23: case 0x43: case 0x63: case 0x83: case 0xa3: case 0xc3: case 0xe3: { // bbs dp, rel uint8_t val = spc_read(spc, spc_adrDp(spc)); spc_doBranch(spc, spc_readOpcode(spc), val & (1 << (opcode >> 5))); break; } case 0x13: case 0x33: case 0x53: case 0x73: case 0x93: case 0xb3: case 0xd3: case 0xf3: { // bbc dp, rel uint8_t val = spc_read(spc, spc_adrDp(spc)); spc_doBranch(spc, spc_readOpcode(spc), (val & (1 << (opcode >> 5))) == 0); break; } case 0x04: { // or dp spc_or(spc, spc_adrDp(spc)); break; } case 0x05: { // or abs spc_or(spc, spc_adrAbs(spc)); break; } case 0x06: { // or ind spc_or(spc, spc_adrInd(spc)); break; } case 0x07: { // or idx spc_or(spc, spc_adrIdx(spc)); break; } case 0x08: { // or imm spc_or(spc, spc_adrImm(spc)); break; } case 0x09: { // orm dp, dp uint16_t src = 0; uint16_t dst = spc_adrDpDp(spc, &src); spc_orm(spc, dst, src); break; } case 0x0a: { // or1 abs.bit uint16_t adr = 0; uint8_t bit = spc_adrAbsBit(spc, &adr); spc->c = spc->c | ((spc_read(spc, adr) >> bit) & 1); break; } case 0x0b: { // asl dp spc_asl(spc, spc_adrDp(spc)); break; } case 0x0c: { // asl abs spc_asl(spc, spc_adrAbs(spc)); break; } case 0x0d: { // pushp imp spc_pushByte(spc, spc_getFlags(spc)); break; } case 0x0e: { // tset1 abs uint16_t adr = spc_adrAbs(spc); uint8_t val = spc_read(spc, adr); uint8_t result = spc->a + (val ^ 0xff) + 1; spc_setZN(spc, result); spc_write(spc, adr, val | spc->a); break; } case 0x0f: { // brk imp spc_pushWord(spc, spc->pc); spc_pushByte(spc, spc_getFlags(spc)); spc->i = false; spc->b = true; spc->pc = spc_readWord(spc, 0xffde, 0xffdf); break; } case 0x10: { // bpl rel spc_doBranch(spc, spc_readOpcode(spc), !spc->n); break; } case 0x14: { // or dpx spc_or(spc, spc_adrDpx(spc)); break; } case 0x15: { // or abx spc_or(spc, spc_adrAbx(spc)); break; } case 0x16: { // or aby spc_or(spc, spc_adrAby(spc)); break; } case 0x17: { // or idy spc_or(spc, spc_adrIdy(spc)); break; } case 0x18: { // orm dp, imm uint16_t src = 0; uint16_t dst = spc_adrDpImm(spc, &src); spc_orm(spc, dst, src); break; } case 0x19: { // orm ind, ind uint16_t src = 0; uint16_t dst = spc_adrIndInd(spc, &src); spc_orm(spc, dst, src); break; } case 0x1a: { // decw dp uint16_t low = 0; uint16_t high = spc_adrDpWord(spc, &low); uint16_t value = spc_readWord(spc, low, high) - 1; spc->z = value == 0; spc->n = value & 0x8000; spc_writeWord(spc, low, high, value); break; } case 0x1b: { // asl dpx spc_asl(spc, spc_adrDpx(spc)); break; } case 0x1c: { // asla imp spc->c = spc->a & 0x80; spc->a <<= 1; spc_setZN(spc, spc->a); break; } case 0x1d: { // decx imp spc->x--; spc_setZN(spc, spc->x); break; } case 0x1e: { // cmpx abs spc_cmpx(spc, spc_adrAbs(spc)); break; } case 0x1f: { // jmp iax uint16_t pointer = spc_readOpcodeWord(spc); spc->pc = spc_readWord(spc, (pointer + spc->x) & 0xffff, (pointer + spc->x + 1) & 0xffff); break; } case 0x20: { // clrp imp spc->p = false; break; } case 0x24: { // and dp spc_and(spc, spc_adrDp(spc)); break; } case 0x25: { // and abs spc_and(spc, spc_adrAbs(spc)); break; } case 0x26: { // and ind spc_and(spc, spc_adrInd(spc)); break; } case 0x27: { // and idx spc_and(spc, spc_adrIdx(spc)); break; } case 0x28: { // and imm spc_and(spc, spc_adrImm(spc)); break; } case 0x29: { // andm dp, dp uint16_t src = 0; uint16_t dst = spc_adrDpDp(spc, &src); spc_andm(spc, dst, src); break; } case 0x2a: { // or1n abs.bit uint16_t adr = 0; uint8_t bit = spc_adrAbsBit(spc, &adr); spc->c = spc->c | (~(spc_read(spc, adr) >> bit) & 1); break; } case 0x2b: { // rol dp spc_rol(spc, spc_adrDp(spc)); break; } case 0x2c: { // rol abs spc_rol(spc, spc_adrAbs(spc)); break; } case 0x2d: { // pusha imp spc_pushByte(spc, spc->a); break; } case 0x2e: { // cbne dp, rel uint8_t val = spc_read(spc, spc_adrDp(spc)) ^ 0xff; uint8_t result = spc->a + val + 1; spc_doBranch(spc, spc_readOpcode(spc), result != 0); break; } case 0x2f: { // bra rel spc->pc += (int8_t) spc_readOpcode(spc); break; } case 0x30: { // bmi rel spc_doBranch(spc, spc_readOpcode(spc), spc->n); break; } case 0x34: { // and dpx spc_and(spc, spc_adrDpx(spc)); break; } case 0x35: { // and abx spc_and(spc, spc_adrAbx(spc)); break; } case 0x36: { // and aby spc_and(spc, spc_adrAby(spc)); break; } case 0x37: { // and idy spc_and(spc, spc_adrIdy(spc)); break; } case 0x38: { // andm dp, imm uint16_t src = 0; uint16_t dst = spc_adrDpImm(spc, &src); spc_andm(spc, dst, src); break; } case 0x39: { // andm ind, ind uint16_t src = 0; uint16_t dst = spc_adrIndInd(spc, &src); spc_andm(spc, dst, src); break; } case 0x3a: { // incw dp uint16_t low = 0; uint16_t high = spc_adrDpWord(spc, &low); uint16_t value = spc_readWord(spc, low, high) + 1; spc->z = value == 0; spc->n = value & 0x8000; spc_writeWord(spc, low, high, value); break; } case 0x3b: { // rol dpx spc_rol(spc, spc_adrDpx(spc)); break; } case 0x3c: { // rola imp bool newC = spc->a & 0x80; spc->a = (spc->a << 1) | (uint8_t)spc->c; spc->c = newC; spc_setZN(spc, spc->a); break; } case 0x3d: { // incx imp spc->x++; spc_setZN(spc, spc->x); break; } case 0x3e: { // cmpx dp spc_cmpx(spc, spc_adrDp(spc)); break; } case 0x3f: { // call abs uint16_t dst = spc_readOpcodeWord(spc); spc_pushWord(spc, spc->pc); spc->pc = dst; break; } case 0x40: { // setp imp spc->p = true; break; } case 0x44: { // eor dp spc_eor(spc, spc_adrDp(spc)); break; } case 0x45: { // eor abs spc_eor(spc, spc_adrAbs(spc)); break; } case 0x46: { // eor ind spc_eor(spc, spc_adrInd(spc)); break; } case 0x47: { // eor idx spc_eor(spc, spc_adrIdx(spc)); break; } case 0x48: { // eor imm spc_eor(spc, spc_adrImm(spc)); break; } case 0x49: { // eorm dp, dp uint16_t src = 0; uint16_t dst = spc_adrDpDp(spc, &src); spc_eorm(spc, dst, src); break; } case 0x4a: { // and1 abs.bit uint16_t adr = 0; uint8_t bit = spc_adrAbsBit(spc, &adr); spc->c = spc->c & ((spc_read(spc, adr) >> bit) & 1); break; } case 0x4b: { // lsr dp spc_lsr(spc, spc_adrDp(spc)); break; } case 0x4c: { // lsr abs spc_lsr(spc, spc_adrAbs(spc)); break; } case 0x4d: { // pushx imp spc_pushByte(spc, spc->x); break; } case 0x4e: { // tclr1 abs uint16_t adr = spc_adrAbs(spc); uint8_t val = spc_read(spc, adr); uint8_t result = spc->a + (val ^ 0xff) + 1; spc_setZN(spc, result); spc_write(spc, adr, val & ~spc->a); break; } case 0x4f: { // pcall dp uint8_t dst = spc_readOpcode(spc); spc_pushWord(spc, spc->pc); spc->pc = 0xff00 | dst; break; } case 0x50: { // bvc rel spc_doBranch(spc, spc_readOpcode(spc), !spc->v); break; } case 0x54: { // eor dpx spc_eor(spc, spc_adrDpx(spc)); break; } case 0x55: { // eor abx spc_eor(spc, spc_adrAbx(spc)); break; } case 0x56: { // eor aby spc_eor(spc, spc_adrAby(spc)); break; } case 0x57: { // eor idy spc_eor(spc, spc_adrIdy(spc)); break; } case 0x58: { // eorm dp, imm uint16_t src = 0; uint16_t dst = spc_adrDpImm(spc, &src); spc_eorm(spc, dst, src); break; } case 0x59: { // eorm ind, ind uint16_t src = 0; uint16_t dst = spc_adrIndInd(spc, &src); spc_eorm(spc, dst, src); break; } case 0x5a: { // cmpw dp uint16_t low = 0; uint16_t high = spc_adrDpWord(spc, &low); uint16_t value = spc_readWord(spc, low, high) ^ 0xffff; uint16_t ya = spc->a | (spc->y << 8); int result = ya + value + 1; spc->c = result > 0xffff; spc->z = (result & 0xffff) == 0; spc->n = result & 0x8000; break; } case 0x5b: { // lsr dpx spc_lsr(spc, spc_adrDpx(spc)); break; } case 0x5c: { // lsra imp spc->c = spc->a & 1; spc->a >>= 1; spc_setZN(spc, spc->a); break; } case 0x5d: { // movxa imp spc->x = spc->a; spc_setZN(spc, spc->x); break; } case 0x5e: { // cmpy abs spc_cmpy(spc, spc_adrAbs(spc)); break; } case 0x5f: { // jmp abs spc->pc = spc_readOpcodeWord(spc); break; } case 0x60: { // clrc imp spc->c = false; break; } case 0x64: { // cmp dp spc_cmp(spc, spc_adrDp(spc)); break; } case 0x65: { // cmp abs spc_cmp(spc, spc_adrAbs(spc)); break; } case 0x66: { // cmp ind spc_cmp(spc, spc_adrInd(spc)); break; } case 0x67: { // cmp idx spc_cmp(spc, spc_adrIdx(spc)); break; } case 0x68: { // cmp imm spc_cmp(spc, spc_adrImm(spc)); break; } case 0x69: { // cmpm dp, dp uint16_t src = 0; uint16_t dst = spc_adrDpDp(spc, &src); spc_cmpm(spc, dst, src); break; } case 0x6a: { // and1n abs.bit uint16_t adr = 0; uint8_t bit = spc_adrAbsBit(spc, &adr); spc->c = spc->c & (~(spc_read(spc, adr) >> bit) & 1); break; } case 0x6b: { // ror dp spc_ror(spc, spc_adrDp(spc)); break; } case 0x6c: { // ror abs spc_ror(spc, spc_adrAbs(spc)); break; } case 0x6d: { // pushy imp spc_pushByte(spc, spc->y); break; } case 0x6e: { // dbnz dp, rel uint16_t adr = spc_adrDp(spc); uint8_t result = spc_read(spc, adr) - 1; spc_write(spc, adr, result); spc_doBranch(spc, spc_readOpcode(spc), result != 0); break; } case 0x6f: { // ret imp spc->pc = spc_pullWord(spc); break; } case 0x70: { // bvs rel spc_doBranch(spc, spc_readOpcode(spc), spc->v); break; } case 0x74: { // cmp dpx spc_cmp(spc, spc_adrDpx(spc)); break; } case 0x75: { // cmp abx spc_cmp(spc, spc_adrAbx(spc)); break; } case 0x76: { // cmp aby spc_cmp(spc, spc_adrAby(spc)); break; } case 0x77: { // cmp idy spc_cmp(spc, spc_adrIdy(spc)); break; } case 0x78: { // cmpm dp, imm uint16_t src = 0; uint16_t dst = spc_adrDpImm(spc, &src); spc_cmpm(spc, dst, src); break; } case 0x79: { // cmpm ind, ind uint16_t src = 0; uint16_t dst = spc_adrIndInd(spc, &src); spc_cmpm(spc, dst, src); break; } case 0x7a: { // addw dp uint16_t low = 0; uint16_t high = spc_adrDpWord(spc, &low); uint16_t value = spc_readWord(spc, low, high); uint16_t ya = spc->a | (spc->y << 8); int result = ya + value; spc->v = (ya & 0x8000) == (value & 0x8000) && (value & 0x8000) != (result & 0x8000); spc->h = ((ya & 0xfff) + (value & 0xfff) + 1) > 0xfff; spc->c = result > 0xffff; spc->z = (result & 0xffff) == 0; spc->n = result & 0x8000; spc->a = result & 0xff; spc->y = result >> 8; break; } case 0x7b: { // ror dpx spc_ror(spc, spc_adrDpx(spc)); break; } case 0x7c: { // rora imp bool newC = spc->a & 1; spc->a = (spc->a >> 1) | (spc->c << 7); spc->c = newC; spc_setZN(spc, spc->a); break; } case 0x7d: { // movax imp spc->a = spc->x; spc_setZN(spc, spc->a); break; } case 0x7e: { // cmpy dp spc_cmpy(spc, spc_adrDp(spc)); break; } case 0x7f: { // reti imp spc_setFlags(spc, spc_pullByte(spc)); spc->pc = spc_pullWord(spc); break; } case 0x80: { // setc imp spc->c = true; break; } case 0x84: { // adc dp spc_adc(spc, spc_adrDp(spc)); break; } case 0x85: { // adc abs spc_adc(spc, spc_adrAbs(spc)); break; } case 0x86: { // adc ind spc_adc(spc, spc_adrInd(spc)); break; } case 0x87: { // adc idx spc_adc(spc, spc_adrIdx(spc)); break; } case 0x88: { // adc imm spc_adc(spc, spc_adrImm(spc)); break; } case 0x89: { // adcm dp, dp uint16_t src = 0; uint16_t dst = spc_adrDpDp(spc, &src); spc_adcm(spc, dst, src); break; } case 0x8a: { // eor1 abs.bit uint16_t adr = 0; uint8_t bit = spc_adrAbsBit(spc, &adr); spc->c = spc->c ^ ((spc_read(spc, adr) >> bit) & 1); break; } case 0x8b: { // dec dp spc_dec(spc, spc_adrDp(spc)); break; } case 0x8c: { // dec abs spc_dec(spc, spc_adrAbs(spc)); break; } case 0x8d: { // movy imm spc_movy(spc, spc_adrImm(spc)); break; } case 0x8e: { // popp imp spc_setFlags(spc, spc_pullByte(spc)); break; } case 0x8f: { // movm dp, imm uint16_t src = 0; uint16_t dst = spc_adrDpImm(spc, &src); uint8_t val = spc_read(spc, src); spc_read(spc, dst); spc_write(spc, dst, val); break; } case 0x90: { // bcc rel spc_doBranch(spc, spc_readOpcode(spc), !spc->c); break; } case 0x94: { // adc dpx spc_adc(spc, spc_adrDpx(spc)); break; } case 0x95: { // adc abx spc_adc(spc, spc_adrAbx(spc)); break; } case 0x96: { // adc aby spc_adc(spc, spc_adrAby(spc)); break; } case 0x97: { // adc idy spc_adc(spc, spc_adrIdy(spc)); break; } case 0x98: { // adcm dp, imm uint16_t src = 0; uint16_t dst = spc_adrDpImm(spc, &src); spc_adcm(spc, dst, src); break; } case 0x99: { // adcm ind, ind uint16_t src = 0; uint16_t dst = spc_adrIndInd(spc, &src); spc_adcm(spc, dst, src); break; } case 0x9a: { // subw dp uint16_t low = 0; uint16_t high = spc_adrDpWord(spc, &low); uint16_t value = spc_readWord(spc, low, high) ^ 0xffff; uint16_t ya = spc->a | (spc->y << 8); int result = ya + value + 1; spc->v = (ya & 0x8000) == (value & 0x8000) && (value & 0x8000) != (result & 0x8000); spc->h = ((ya & 0xfff) + (value & 0xfff) + 1) > 0xfff; spc->c = result > 0xffff; spc->z = (result & 0xffff) == 0; spc->n = result & 0x8000; spc->a = result & 0xff; spc->y = result >> 8; break; } case 0x9b: { // dec dpx spc_dec(spc, spc_adrDpx(spc)); break; } case 0x9c: { // deca imp spc->a--; spc_setZN(spc, spc->a); break; } case 0x9d: { // movxp imp spc->x = spc->sp; spc_setZN(spc, spc->x); break; } case 0x9e: { // div imp // TODO: proper division algorithm uint16_t value = spc->a | (spc->y << 8); int result = 0xffff; int mod = spc->a; if(spc->x != 0) { result = value / spc->x; mod = value % spc->x; } spc->v = result > 0xff; spc->h = (spc->x & 0xf) <= (spc->y & 0xf); spc->a = result; spc->y = mod; spc_setZN(spc, spc->a); break; } case 0x9f: { // xcn imp spc->a = (spc->a >> 4) | (spc->a << 4); spc_setZN(spc, spc->a); break; } case 0xa0: { // ei imp spc->i = true; break; } case 0xa4: { // sbc dp spc_sbc(spc, spc_adrDp(spc)); break; } case 0xa5: { // sbc abs spc_sbc(spc, spc_adrAbs(spc)); break; } case 0xa6: { // sbc ind spc_sbc(spc, spc_adrInd(spc)); break; } case 0xa7: { // sbc idx spc_sbc(spc, spc_adrIdx(spc)); break; } case 0xa8: { // sbc imm spc_sbc(spc, spc_adrImm(spc)); break; } case 0xa9: { // sbcm dp, dp uint16_t src = 0; uint16_t dst = spc_adrDpDp(spc, &src); spc_sbcm(spc, dst, src); break; } case 0xaa: { // mov1 abs.bit uint16_t adr = 0; uint8_t bit = spc_adrAbsBit(spc, &adr); spc->c = (spc_read(spc, adr) >> bit) & 1; break; } case 0xab: { // inc dp spc_inc(spc, spc_adrDp(spc)); break; } case 0xac: { // inc abs spc_inc(spc, spc_adrAbs(spc)); break; } case 0xad: { // cmpy imm spc_cmpy(spc, spc_adrImm(spc)); break; } case 0xae: { // popa imp spc->a = spc_pullByte(spc); break; } case 0xaf: { // movs ind+ uint16_t adr = spc_adrIndP(spc); spc_write(spc, adr, spc->a); break; } case 0xb0: { // bcs rel spc_doBranch(spc, spc_readOpcode(spc), spc->c); break; } case 0xb4: { // sbc dpx spc_sbc(spc, spc_adrDpx(spc)); break; } case 0xb5: { // sbc abx spc_sbc(spc, spc_adrAbx(spc)); break; } case 0xb6: { // sbc aby spc_sbc(spc, spc_adrAby(spc)); break; } case 0xb7: { // sbc idy spc_sbc(spc, spc_adrIdy(spc)); break; } case 0xb8: { // sbcm dp, imm uint16_t src = 0; uint16_t dst = spc_adrDpImm(spc, &src); spc_sbcm(spc, dst, src); break; } case 0xb9: { // sbcm ind, ind uint16_t src = 0; uint16_t dst = spc_adrIndInd(spc, &src); spc_sbcm(spc, dst, src); break; } case 0xba: { // movw dp uint16_t low = 0; uint16_t high = spc_adrDpWord(spc, &low); uint16_t val = spc_readWord(spc, low, high); spc->a = val & 0xff; spc->y = val >> 8; spc->z = val == 0; spc->n = val & 0x8000; break; } case 0xbb: { // inc dpx spc_inc(spc, spc_adrDpx(spc)); break; } case 0xbc: { // inca imp spc->a++; spc_setZN(spc, spc->a); break; } case 0xbd: { // movpx imp spc->sp = spc->x; break; } case 0xbe: { // das imp if(spc->a > 0x99 || !spc->c) { spc->a -= 0x60; spc->c = false; } if((spc->a & 0xf) > 9 || !spc->h) { spc->a -= 6; } spc_setZN(spc, spc->a); break; } case 0xbf: { // mov ind+ uint16_t adr = spc_adrIndP(spc); spc->a = spc_read(spc, adr); spc_setZN(spc, spc->a); break; } case 0xc0: { // di imp spc->i = false; break; } case 0xc4: { // movs dp spc_movs(spc, spc_adrDp(spc)); break; } case 0xc5: { // movs abs spc_movs(spc, spc_adrAbs(spc)); break; } case 0xc6: { // movs ind spc_movs(spc, spc_adrInd(spc)); break; } case 0xc7: { // movs idx spc_movs(spc, spc_adrIdx(spc)); break; } case 0xc8: { // cmpx imm spc_cmpx(spc, spc_adrImm(spc)); break; } case 0xc9: { // movsx abs spc_movsx(spc, spc_adrAbs(spc)); break; } case 0xca: { // mov1s abs.bit uint16_t adr = 0; uint8_t bit = spc_adrAbsBit(spc, &adr); uint8_t result = (spc_read(spc, adr) & (~(1 << bit))) | (spc->c << bit); spc_write(spc, adr, result); break; } case 0xcb: { // movsy dp spc_movsy(spc, spc_adrDp(spc)); break; } case 0xcc: { // movsy abs spc_movsy(spc, spc_adrAbs(spc)); break; } case 0xcd: { // movx imm spc_movx(spc, spc_adrImm(spc)); break; } case 0xce: { // popx imp spc->x = spc_pullByte(spc); break; } case 0xcf: { // mul imp uint16_t result = spc->a * spc->y; spc->a = result & 0xff; spc->y = result >> 8; spc_setZN(spc, spc->y); break; } case 0xd0: { // bne rel spc_doBranch(spc, spc_readOpcode(spc), !spc->z); break; } case 0xd4: { // movs dpx spc_movs(spc, spc_adrDpx(spc)); break; } case 0xd5: { // movs abx spc_movs(spc, spc_adrAbx(spc)); break; } case 0xd6: { // movs aby spc_movs(spc, spc_adrAby(spc)); break; } case 0xd7: { // movs idy spc_movs(spc, spc_adrIdy(spc)); break; } case 0xd8: { // movsx dp spc_movsx(spc, spc_adrDp(spc)); break; } case 0xd9: { // movsx dpy spc_movsx(spc, spc_adrDpy(spc)); break; } case 0xda: { // movws dp uint16_t low = 0; uint16_t high = spc_adrDpWord(spc, &low); spc_read(spc, low); spc_write(spc, low, spc->a); spc_write(spc, high, spc->y); break; } case 0xdb: { // movsy dpx spc_movsy(spc, spc_adrDpx(spc)); break; } case 0xdc: { // decy imp spc->y--; spc_setZN(spc, spc->y); break; } case 0xdd: { // movay imp spc->a = spc->y; spc_setZN(spc, spc->a); break; } case 0xde: { // cbne dpx, rel uint8_t val = spc_read(spc, spc_adrDpx(spc)) ^ 0xff; uint8_t result = spc->a + val + 1; spc_doBranch(spc, spc_readOpcode(spc), result != 0); break; } case 0xdf: { // daa imp if(spc->a > 0x99 || spc->c) { spc->a += 0x60; spc->c = true; } if((spc->a & 0xf) > 9 || spc->h) { spc->a += 6; } spc_setZN(spc, spc->a); break; } case 0xe0: { // clrv imp spc->v = false; spc->h = false; break; } case 0xe4: { // mov dp spc_mov(spc, spc_adrDp(spc)); break; } case 0xe5: { // mov abs spc_mov(spc, spc_adrAbs(spc)); break; } case 0xe6: { // mov ind spc_mov(spc, spc_adrInd(spc)); break; } case 0xe7: { // mov idx spc_mov(spc, spc_adrIdx(spc)); break; } case 0xe8: { // mov imm spc_mov(spc, spc_adrImm(spc)); break; } case 0xe9: { // movx abs spc_movx(spc, spc_adrAbs(spc)); break; } case 0xea: { // not1 abs.bit uint16_t adr = 0; uint8_t bit = spc_adrAbsBit(spc, &adr); uint8_t result = spc_read(spc, adr) ^ (1 << bit); spc_write(spc, adr, result); break; } case 0xeb: { // movy dp spc_movy(spc, spc_adrDp(spc)); break; } case 0xec: { // movy abs spc_movy(spc, spc_adrAbs(spc)); break; } case 0xed: { // notc imp spc->c = !spc->c; break; } case 0xee: { // popy imp spc->y = spc_pullByte(spc); break; } case 0xef: { // sleep imp spc->stopped = true; // no interrupts, so sleeping stops as well break; } case 0xf0: { // beq rel spc_doBranch(spc, spc_readOpcode(spc), spc->z); break; } case 0xf4: { // mov dpx spc_mov(spc, spc_adrDpx(spc)); break; } case 0xf5: { // mov abx spc_mov(spc, spc_adrAbx(spc)); break; } case 0xf6: { // mov aby spc_mov(spc, spc_adrAby(spc)); break; } case 0xf7: { // mov idy spc_mov(spc, spc_adrIdy(spc)); break; } case 0xf8: { // movx dp spc_movx(spc, spc_adrDp(spc)); break; } case 0xf9: { // movx dpy spc_movx(spc, spc_adrDpy(spc)); break; } case 0xfa: { // movm dp, dp uint16_t src = 0; uint16_t dst = spc_adrDpDp(spc, &src); uint8_t val = spc_read(spc, src); spc_write(spc, dst, val); break; } case 0xfb: { // movy dpx spc_movy(spc, spc_adrDpx(spc)); break; } case 0xfc: { // incy imp spc->y++; spc_setZN(spc, spc->y); break; } case 0xfd: { // movya imp spc->y = spc->a; spc_setZN(spc, spc->y); break; } case 0xfe: { // dbnzy rel spc->y--; spc_doBranch(spc, spc_readOpcode(spc), spc->y != 0); break; } case 0xff: { // stop imp spc->stopped = true; break; } } }