ref: 1b619dea42e60be0316f03a358c52c2e86a6d654
dir: /sys/src/games/c64/cpu.c/
#include <u.h> #include <libc.h> #include "../eui.h" #include "dat.h" #include "fns.h" u16int pc, curpc; u8int rA, rX, rY, rS, rP; int nrdy, irq, nmi, nmi0, irqen, nmien; static u8int fetch8(void) { return memread(pc++); } static u16int fetch16(void) { u16int r; r = memread(pc++); r |= memread(pc++) << 8; return r; } static void push8(u8int v) { memwrite(0x100 | rS--, v); } static void push16(u16int v) { memwrite(0x100 | rS--, v >> 8); memwrite(0x100 | rS--, v); } static u8int pop8(void) { return memread(0x100 | ++rS); } static u16int pop16(void) { u16int v; v = memread(0x100 | ++rS); v |= memread(0x100 | ++rS) << 8; return v; } #define imm() fetch8() #define zp() memread(fetch8()) #define zpX() memread(azpX(rX)) #define zpY() memread(azpX(rY)) #define abso() memread(fetch16()) #define absX() memread(aabsX(rX, 0)) #define absY() memread(aabsX(rY, 0)) #define indX() memread(aindX()) #define indY() memread(aindY(0)) static u16int azpX(u8int a) { u8int v; v = fetch8(); memread(v); return v + a; } static u16int aabsX(u8int a, int wr) { u16int v, c; v = fetch16(); c = (u8int)v + a & 0x100; v += a; if(c != 0 || wr) memread(v - c); return v; } static u16int aindX(void) { u8int r; u16int a; r = fetch8(); memread(r); r += rX; a = memread(r++); a |= memread(r) << 8; return a; } static u16int aindY(int wr) { u8int r; u16int a, c; r = fetch8(); a = memread(r++) + rY; c = a & 0x100; a += memread(r) << 8; if(c != 0 || wr) memread(a - c); return a; } static void adc(u8int d) { int r; if((rP & FLAGD) != 0){ r = (rA & 0xf) + (d & 0xf) + (rP & FLAGC); if(r > 0x09) r += 0x06; if(r > 0x1f) r -= 0x10; r += (rA & 0xf0) + (d & 0xf0); }else r = rA + d + (rP & FLAGC); rP &= ~(FLAGN | FLAGZ | FLAGV | FLAGC); if((~(rA ^ d) & (rA ^ r)) & 0x80) rP |= FLAGV; if((rP & FLAGD) != 0 && r > 0x9f) r += 0x60; if(r > 0xFF) rP |= FLAGC; if(r & 0x80) rP |= FLAGN; rA = r; if(rA == 0) rP |= FLAGZ; } static u8int nz(u8int d) { rP &= ~(FLAGN | FLAGZ); if(d & 0x80) rP |= FLAGN; if(d == 0) rP |= FLAGZ; return d; } static void asl(u16int a) { u8int v; rP &= ~(FLAGN | FLAGZ | FLAGC); v = memread(a); memwrite(a, v); if(v & 0x80) rP |= FLAGC; v <<= 1; if(v == 0) rP |= FLAGZ; if(v & 0x80) rP |= FLAGN; memwrite(a, v); } static void lsr(u16int a) { u8int v; rP &= ~(FLAGN | FLAGZ | FLAGC); v = memread(a); memwrite(a, v); rP |= v & 1; v >>= 1; if(v == 0) rP |= FLAGZ; if(v & 0x80) rP |= FLAGN; memwrite(a, v); } static void branch(void) { s8int t; u16int npc; t = fetch8(); memread(pc); npc = pc + t; if((npc ^ pc) >> 8) memread(pc & 0xff00 | npc & 0xff); pc = npc; } static void cmp(u8int a, u8int d) { rP &= ~(FLAGN | FLAGZ | FLAGC); if(a == d) rP |= FLAGZ; if(a >= d) rP |= FLAGC; if((a - d) & 0x80) rP |= FLAGN; } static void dec(u16int a) { u8int v; v = memread(a); memwrite(a, v); memwrite(a, nz(v - 1)); } static void inc(u16int a) { u8int v; v = memread(a); memwrite(a, v); v = nz(v + 1); memwrite(a, v); } static void rol(u16int a) { u8int v, b; v = memread(a); memwrite(a, v); b = rP & FLAGC; rP &= ~(FLAGC | FLAGN | FLAGZ); if(v & 0x80) rP |= FLAGC; v = (v << 1) | b; if(v & 0x80) rP |= FLAGN; if(v == 0) rP |= FLAGZ; memwrite(a, v); } static void ror(u16int a) { u8int v, b; v = memread(a); memwrite(a, v); b = rP & FLAGC; rP &= ~(FLAGC | FLAGN | FLAGZ); rP |= v & 1; v = (v >> 1) | (b << 7); if(v & 0x80) rP |= FLAGN; if(v == 0) rP |= FLAGZ; memwrite(a, v); } static void sbc(u8int d) { int r; if((rP & FLAGD) != 0){ d = ~d; r = (rA & 0xf) + (d & 0xf) + (rP & FLAGC); if(r < 0x10) r -= 0x06; if(r < 0) r += 0x10; r += (rA & 0xf0) + (d & 0xf0); }else r = rA + (u8int)~d + (rP & FLAGC); rP &= ~(FLAGZ | FLAGV | FLAGC | FLAGN); if(((rA ^ d) & (rA ^ r)) & 0x80) rP |= FLAGV; if(r > 0xFF) rP |= FLAGC; else if((rP & FLAGD) != 0) r -= 0x60; rA = r; if(rA == 0) rP |= FLAGZ; if(rA & 0x80) rP |= FLAGN; } static void interrupt(int nmi, int brk) { memread(pc); if(brk) pc++; push16(pc); push8(rP | 0x20 | (brk << 4)); pc = memread(0xFFFA | (!nmi << 2)); pc |= memread(0xFFFB | (!nmi << 2)) << 8; rP |= FLAGI; } void step(void) { u8int op; u16int a, v; if(nrdy){ io(); return; } if((nmi & nmien) != 0 && (nmi0 & nmien) == 0){ nmi0 = nmi; interrupt(1, 0); return; } nmi0 = nmi; if((irq & irqen) != 0 && (rP & FLAGI) == 0){ interrupt(0, 0); return; } curpc = pc; op = fetch8(); if(trace) print("%.4x %.2x | %.2x %.2x %.2x | %.2x %.2x | %3d %3d %.6x %.6x\n", curpc, op, rA, rX, rY, rS, rP, ppux-3, ppuy, irq, nmi); switch(op){ case 0x00: fetch8(); interrupt(0, 1); return; case 0x01: nz(rA |= indX()); return; case 0x05: nz(rA |= zp()); return; case 0x06: asl(fetch8()); return; case 0x08: memread(pc); push8(rP | 0x30); return; case 0x09: nz(rA |= imm()); return; case 0x0A: rP &= ~(FLAGN | FLAGZ | FLAGC); if(rA & 0x80) rP |= FLAGC; rA <<= 1; if(rA == 0) rP |= FLAGZ; if(rA & 0x80) rP |= FLAGN; memread(pc); return; case 0x0D: nz(rA |= abso()); return; case 0x0E: asl(fetch16()); return; case 0x10: if((rP & FLAGN) == 0) branch(); else fetch8(); return; case 0x11: nz(rA |= indY()); return; case 0x15: nz(rA |= zpX()); return; case 0x16: asl(azpX(rX)); return; case 0x18: rP &= ~FLAGC; memread(pc); return; case 0x19: nz(rA |= absY()); return; case 0x1D: nz(rA |= absX()); return; case 0x1E: asl(aabsX(rX, 1)); return; case 0x20: v = fetch8(); memread(rS|0x100); push16(pc); pc = fetch8() << 8 | v; return; case 0x21: nz(rA &= indX()); return; case 0x24: a = memread(fetch8()); rP &= ~(FLAGN | FLAGZ | FLAGV); rP |= a & 0xC0; if((a & rA) == 0) rP |= FLAGZ; return; case 0x25: nz(rA &= zp()); return; case 0x26: rol(fetch8()); return; case 0x28: memread(pc); memread(0x100|rS); rP = pop8() & 0xcf; return; case 0x29: nz(rA &= imm()); return; case 0x2A: a = rP & FLAGC; rP &= ~(FLAGC | FLAGZ | FLAGN); if(rA & 0x80) rP |= FLAGC; rA = (rA << 1) | a; if(rA & 0x80) rP |= FLAGN; if(rA == 0) rP |= FLAGZ; memread(pc); return; case 0x2C: a = memread(fetch16()); rP &= ~(FLAGN | FLAGZ | FLAGV); rP |= a & 0xC0; if((a & rA) == 0) rP |= FLAGZ; return; case 0x2D: nz(rA &= abso()); return; case 0x2E: rol(fetch16()); return; case 0x30: if((rP & FLAGN) != 0) branch(); else fetch8(); return; case 0x31: nz(rA &= indY()); return; case 0x35: nz(rA &= zpX()); return; case 0x36: rol(azpX(rX)); return; case 0x38: rP |= FLAGC; memread(pc); return; case 0x39: nz(rA &= absY()); return; case 0x3E: rol(aabsX(rX, 1)); return; case 0x3D: nz(rA &= absX()); return; case 0x40: fetch8(); memread(rS|0x100); rP = pop8() & 0xcf; pc = pop16(); return; case 0x41: nz(rA ^= indX()); return; case 0x45: nz(rA ^= zp()); return; case 0x46: lsr(fetch8()); return; case 0x48: memread(pc); push8(rA); return; case 0x49: nz(rA ^= imm()); return; case 0x4A: rP &= ~(FLAGN | FLAGZ | FLAGC); rP |= rA & 1; rA >>= 1; if(rA == 0) rP |= FLAGZ; if(rA & 0x80) rP |= FLAGN; memread(pc); return; case 0x4C: pc = fetch16(); return; case 0x4D: nz(rA ^= abso()); return; case 0x4E: lsr(fetch16()); return; case 0x51: nz(rA ^= indY()); return; case 0x56: lsr(azpX(rX)); return; case 0x58: rP &= ~FLAGI; memread(pc); return; case 0x50: if((rP & FLAGV) == 0) branch(); else fetch8(); return; case 0x55: nz(rA ^= zpX()); return; case 0x59: nz(rA ^= absY()); return; case 0x5D: nz(rA ^= absX()); return; case 0x5E: lsr(aabsX(rX, 1)); return; case 0x60: fetch8(); memread(rS | 0x100); pc = pop16(); fetch8(); return; case 0x61: adc(indX()); return; case 0x65: adc(zp()); return; case 0x66: ror(fetch8()); return; case 0x68: memread(pc); memread(0x100|rS); nz(rA = pop8()); return; case 0x69: adc(imm()); return; case 0x6A: a = rP & FLAGC; rP &= ~(FLAGC | FLAGN | FLAGZ); rP |= rA & 1; rA = (rA >> 1) | (a << 7); if(rA & 0x80) rP |= FLAGN; if(rA == 0) rP |= FLAGZ; memread(pc); return; case 0x6C: v = fetch16(); pc = memread(v) | (memread((v & 0xFF00) | (u8int)(v+1)) << 8); return; case 0x6D: adc(abso()); return; case 0x6E: ror(fetch16()); return; case 0x70: if((rP & FLAGV) != 0) branch(); else fetch8(); return; case 0x71: adc(indY()); return; case 0x75: adc(zpX()); return; case 0x76: ror(azpX(rX)); return; case 0x78: rP |= FLAGI; memread(pc); return; case 0x79: adc(absY()); return; case 0x7D: adc(absX()); return; case 0x7E: ror(aabsX(rX, 1)); return; case 0x81: memwrite(aindX(), rA); return; case 0x84: memwrite(fetch8(), rY); return; case 0x85: memwrite(fetch8(), rA); return; case 0x86: memwrite(fetch8(), rX); return; case 0x88: nz(--rY); memread(pc); return; case 0x8A: nz(rA = rX); memread(pc); return; case 0x8C: memwrite(fetch16(), rY); return; case 0x8D: memwrite(fetch16(), rA); return; case 0x8E: memwrite(fetch16(), rX); return; case 0x90: if((rP & FLAGC) == 0) branch(); else fetch8(); return; case 0x91: memwrite(aindY(1), rA); return; case 0x94: memwrite(azpX(rX), rY); return; case 0x95: memwrite(azpX(rX), rA); return; case 0x96: memwrite(azpX(rY), rX); return; case 0x98: nz(rA = rY); memread(pc); return; case 0x99: memwrite(aabsX(rY, 1), rA); return; case 0x9A: rS = rX; memread(pc); return; case 0x9D: memwrite(aabsX(rX, 1), rA); return; case 0xA0: nz(rY = imm()); return; case 0xA1: nz(rA = indX()); return; case 0xA2: nz(rX = imm()); return; case 0xA4: nz(rY = zp()); return; case 0xA5: nz(rA = zp()); return; case 0xA6: nz(rX = zp()); return; case 0xA8: nz(rY = rA); memread(pc); return; case 0xA9: nz(rA = imm()); return; case 0xAA: nz(rX = rA); memread(pc); return; case 0xAC: nz(rY = abso()); return; case 0xAE: nz(rX = abso()); return; case 0xAD: nz(rA = abso()); return; case 0xB0: if((rP & FLAGC) != 0) branch(); else fetch8(); return; case 0xB1: nz(rA = indY()); return; case 0xB4: nz(rY = zpX()); return; case 0xB5: nz(rA = zpX()); return; case 0xB6: nz(rX = zpY()); return; case 0xB8: rP &= ~FLAGV; memread(pc); return; case 0xB9: nz(rA = absY()); return; case 0xBA: nz(rX = rS); memread(pc); return; case 0xBC: nz(rY = absX()); return; case 0xBD: nz(rA = absX()); return; case 0xBE: nz(rX = absY()); return; case 0xC1: cmp(rA, indX()); return; case 0xC5: cmp(rA, zp()); return; case 0xC9: cmp(rA, imm()); return; case 0xCD: cmp(rA, abso()); return; case 0xD0: if((rP & FLAGZ) == 0) branch(); else fetch8(); return; case 0xD1: cmp(rA, indY()); return; case 0xD5: cmp(rA, zpX()); return; case 0xD8: rP &= ~FLAGD; memread(pc); return; case 0xD9: cmp(rA, absY()); return; case 0xDD: cmp(rA, absX()); return; case 0xC0: cmp(rY, imm()); return; case 0xC4: cmp(rY, zp()); return; case 0xC6: dec(fetch8()); return; case 0xC8: nz(++rY); memread(pc); return; case 0xCA: nz(--rX); memread(pc); return; case 0xCC: cmp(rY, abso()); return; case 0xCE: dec(fetch16()); return; case 0xD6: dec(azpX(rX)); return; case 0xDE: dec(aabsX(rX, 1)); return; case 0xE0: cmp(rX, imm()); return; case 0xE1: sbc(indX()); return; case 0xE4: cmp(rX, zp()); return; case 0xE5: sbc(zp()); return; case 0xE6: inc(fetch8()); return; case 0xE8: nz(++rX); memread(pc); return; case 0xE9: sbc(imm()); return; case 0xEA: memread(pc); return; case 0xEC: cmp(rX, abso()); return; case 0xED: sbc(abso()); return; case 0xEE: inc(fetch16()); return; case 0xF0: if((rP & FLAGZ) != 0) branch(); else fetch8(); return; case 0xF1: sbc(indY()); return; case 0xF5: sbc(zpX()); return; case 0xF6: inc(azpX(rX)); return; case 0xF8: rP |= FLAGD; memread(pc); return; case 0xF9: sbc(absY()); return; case 0xFD: sbc(absX()); return; case 0xFE: inc(aabsX(rX, 1)); return; default: print("undefined %#x (pc %#x)\n", op, curpc); return; } }