ref: 3e0e77a8521331412c96b6371622aa2f76d7aefc
dir: /sys/src/games/nes/mem.c/
#include <u.h> #include <libc.h> #include <thread.h> #include <draw.h> #include "dat.h" #include "fns.h" uchar mem[32768]; uchar ppuram[16384]; uchar oam[256]; uchar *prgb[16], *chrb[16]; u16int pput, ppuv; u8int ppusx, vrambuf; int vramlatch = 1, keylatch = 0xFF, keylatch2 = 0xFF; int prgsh, chrsh, mmc3hack; static void nope(int p) { print("unimplemented mapper function %d (mapper %d)\n", p, map); } static void nrom(int p, u8int) { if(p >= 0) return; switch(p){ case INIT: case RSTR: prgb[0] = prg; if(nprg == 1) prgb[1] = prg; else prgb[1] = prg + 0x4000; prgsh = 14; chrb[0] = chr; chrsh = 13; break; case SAVE: case SCAN: break; default: nope(p); } } static void mmc1(int v, u8int p) { static u8int n, s, mode, c0, c1, pr; static int mirrs[] = {MSINGB, MSINGA, MVERT, MHORZ}; if(v < 0){ switch(v){ case INIT: if(nprg > 32) sysfatal("bad rom, too much prg rom for mmc1"); mode = 0x0C; prgsh = 14; chrsh = 12; goto t; case RSTR: mode = get8(); c0 = get8(); c1 = get8(); pr = get8(); n = get8(); s = get8(); goto t; case SAVE: put8(mode); put8(c0); put8(c1); put8(pr); put8(n); put8(s); break; default: nope(v); case SCAN: break; } return; } if((p & 0x80) != 0){ n = 0; s = 0; mode |= 0xC; return; } s |= (p & 1) << 4; if(n < 4){ n++; s >>= 1; return; } switch(v & 0xE000){ case 0x8000: mode = s; mirr = mirrs[mode & 3]; break; case 0xA000: if(nprg > 16){ pr = s & 0x10 | pr & 0x0f; pr %= nprg; } c0 = s & 0x1f; c0 %= 2*nchr; break; case 0xC000: c1 = s & 0x1f; c1 %= 2*nchr; break; case 0xE000: pr = pr & 0x10 | s & 0x0f; pr %= nprg; break; } s = 0; n = 0; t: switch(mode & 0x0c){ case 0x08: prgb[0] = prg; prgb[1] = prg + pr * 0x4000; break; case 0x0C: prgb[0] = prg + pr * 0x4000; prgb[1] = prg + ((pr & 0x10 | 0x0f) % nprg) * 0x4000; break; default: prgb[0] = prg + (pr & 0xfe) * 0x4000; prgb[1] = prg + (pr | 1) * 0x4000; break; } if((mode & 0x10) != 0){ chrb[0] = chr + c0 * 0x1000; chrb[1] = chr + c1 * 0x1000; }else{ chrb[0] = chr + (c0 & 0xfe) * 0x1000; chrb[1] = chr + (c0 | 1) * 0x1000; } } static void uxrom(int p, u8int v) { static u8int b; if(p < 0) switch(p){ case INIT: prgsh = 14; chrsh = 13; prgb[1] = prg + (nprg - 1) * 0x4000; chrb[0] = chr; break; case SAVE: put8(b); return; case RSTR: b = get8(); break; case SCAN: return; default: nope(p); return; } else b = v % nprg; prgb[0] = prg + b * 0x4000; } static void cnrom(int p, u8int v) { static u8int b; if(p < 0) switch(p){ case INIT: prgsh = 14; chrsh = 13; prgb[0] = prg; if(nprg == 1) prgb[1] = prg; else prgb[1] = prg + 0x4000; break; case SAVE: put8(b); return; case RSTR: b = get8(); break; case SCAN: return; default: nope(p); return; } else b = v % nchr; chrb[0] = chr + b * 0x2000; } static void mmc3(int p, u8int v) { static u8int m, b[8], l, n, en; int i, j, c; if(p < 0){ switch(p){ case INIT: prgsh = 13; chrsh = 10; mmc3hack = 1; prgb[2] = prg + (2 * nprg - 2) * 0x2000; prgb[3] = prgb[2] + 0x2000; goto t; case SCAN: if(n == 0) n = l; else n--; if(n == 0 && en) irq |= IRQMMC; return; case SAVE: put8(m); for(i = 0; i < 8; i++) put8(b[i]); put8(l); put8(n); put8(en); return; case RSTR: m = get8(); for(i = 0; i < 8; i++) b[i] = get8(); l = get8(); n = get8(); en = get8(); goto t; } } switch(p & 0xE001){ case 0x8000: if(((m ^ v) & 0xc0) != 0){ m = v; goto t; } m = v; break; case 0x8001: i = m & 7; if(i < 6) v %= 8 * nchr; else v %= 2 * nprg; b[i] = v; goto t; case 0xA000: if(mirr == MFOUR) break; if(v & 1) mirr = MHORZ; else mirr = MVERT; break; case 0xC000: l = v; break; case 0xC001: n = 0; break; case 0xE000: en = 0; irq &= ~IRQMMC; break; case 0xE001: en = 1; break; } return; t: if((m & 0x40) != 0){ prgb[0] = prg + (2 * nprg - 2) * 0x2000; prgb[2] = prg + b[6] * 0x2000; }else{ prgb[0] = prg + b[6] * 0x2000; prgb[2] = prg + (2 * nprg - 2) * 0x2000; } prgb[1] = prg + b[7] * 0x2000; c = (m & 0x80) >> 5; for(i = 0; i < 2; i++){ chrb[j = (i << 1) ^ c] = chr + (b[i] >> 1) * 0x800; chrb[j+1] = chrb[j] + 0x400; } for(i = 2; i < 6; i++) chrb[(i + 2) ^ c] = chr + b[i] * 0x400; } static void axrom(int p, u8int v) { static int b; if(p >= 0) b = v; else switch(p){ case INIT: nrom(INIT, 0); b = 0; break; case SAVE: put8(b); return; case RSTR: b = get8(); break; case SCAN: return; default: nope(p); return; } prgb[0] = prg + (b & 3) * 0x8000; prgb[1] = prgb[0] + 0x4000; } void (*mapper[256])(int, u8int) = { [0] nrom, [1] mmc1, [2] uxrom, [3] cnrom, [4] mmc3, [7] axrom, }; static void incvram(void) { int old; old = ppuv; if((mem[PPUCTRL] & VRAMINC) != 0) ppuv += 32; else ppuv += 1; ppuv &= 0x3FFF; if(mmc3hack && (old & (1<<12)) == 0 && (ppuv & (1<<12)) != 0) mapper[map](SCAN, 0); } u8int memread(u16int p) { u8int v; int i; if(p < 0x2000){ p &= 0x7FF; }else if(p < 0x6000){ if(p < 0x4000) p &= 0x2007; switch(p){ case 0x2002: v = mem[p]; mem[p] &= ~PPUVBLANK; vramlatch = 1; return v; case 0x2004: return oam[mem[0x2003]]; case 0x2007: if(ppuv < 0x4000){ v = vrambuf; vrambuf = ppuread(ppuv); incvram(); return v; } vrambuf = ppuread(ppuv); incvram(); return vrambuf; case APUSTATUS: v = (irq & 3) << 6; for(i = 0; i < 4; i++){ if(apuctr[i] != 0) v |= (1<<i); } if(mem[0x4013] != 0) v |= (1<<4); irq &= ~IRQFRAME; return v; case 0x4016: if((mem[p] & 1) != 0) return keys & 1; v = keylatch & 1; keylatch = (keylatch >> 1) | 0x80; return v | 0x40; case 0x4017: if((mem[p] & 1) != 0) return keys2 & 1; v = keylatch2 & 1; keylatch2 = (keylatch2 >> 1) | 0x80; return v | 0x40; } } if(p >= 0x8000){ p -= 0x8000; return prgb[p >> prgsh][p & ((1 << prgsh) - 1)]; } return mem[p]; } void memwrite(u16int p, u8int v) { extern u8int apulen[32]; extern u16int dmclen[16]; int i; if(p < 0x2000){ p &= 0x7FF; }else if(p < 0x6000){ if(p < 0x4000) p &= 0x2007; switch(p){ case PPUCTRL: if((mem[PPUCTRL] & PPUNMI) == 0 && (v & PPUNMI) != 0 && (mem[PPUSTATUS] & PPUVBLANK) != 0) nmi = 1; pput = (pput & 0xF3FF) | ((v & 3) << 10); break; case PPUSTATUS: return; case 0x2004: oam[mem[0x2003]++] = v; return; case 0x2005: if(vramlatch){ ppusx = v & 7; pput = (pput & 0xFFE0) | (v >> 3); }else pput = (pput & 0x0C1F) | ((v & 0xF8) << 2) | ((v & 7) << 12); vramlatch ^= 1; return; case 0x2006: if(vramlatch) pput = (pput & 0xFF) | (v << 8) & 0x3F00; else{ pput = (pput & 0xFF00) | v; if(mmc3hack && (ppuv & (1<<12)) == 0 && (pput & (1<<12)) != 0) mapper[map](SCAN, 0); ppuv = pput; } vramlatch ^= 1; return; case 0x2007: ppuwrite(ppuv, v); incvram(); return; case 0x4001: case 0x4005: i = (p & 0xC) >> 2; apuctr[i+8] |= 0x80; break; case 0x4003: case 0x4007: case 0x400B: case 0x400F: i = (p & 0xC) >> 2; if((mem[APUSTATUS] & (1<<i)) != 0){ apuctr[i] = apulen[v >> 3]; apuctr[10] |= (1<<i); } break; case DMCCTRL: if((v & 0x80) == 0) irq &= ~IRQDMC; dmcfreq = 12 * dmclen[v & 0xf]; break; case DMCBUF: v &= ~0x80; break; case 0x4014: memcpy(oam, mem + (v<<8), sizeof(oam)); return; case APUSTATUS: for(i = 0; i < 4; i++) if((v & (1<<i)) == 0) apuctr[i] = 0; if((v & 0x10) != 0 && dmccnt == 0){ dmcaddr = mem[DMCADDR] * 0x40 + 0xC000; dmccnt = mem[DMCLEN] * 0x10 + 1; } irq &= ~IRQDMC; break; case 0x4016: if((mem[p] & 1) != 0 && (v & 1) == 0){ keylatch = keys; keylatch2 = keys2; } break; case APUFRAME: apuseq = 0; if((v & 0x80) != 0) apuclock = APUDIV; else apuclock = 0; if((v & 0x40) != 0) irq &= ~IRQFRAME; break; } }else if(p < 0x8000){ if(saveclock == 0) saveclock = SAVEFREQ; }else{ if(mapper[map] != nil) mapper[map](p, v); return; } mem[p] = v; } static uchar * ppumap(u16int p) { if(p >= 0x3F00){ if((p & 3) == 0) p &= 0x3F0F; return ppuram + (p & 0x3F1F); } p &= 0x3FFF; if(p >= 0x3000) p &= 0x2FFF; if(p >= 0x2000) switch(mirr){ case MHORZ: if((p & 0x800) != 0) p |= 0x400; else p &= ~0x400; break; case MVERT: if((p & 0x400) != 0) p |= 0x800; else p &= ~0x800; break; case MSINGA: p &= ~0xC00; break; case MSINGB: p |= 0xC00; break; } if(p < 0x2000) return chrb[p >> chrsh] + (p & ((1 << chrsh) - 1)); else return ppuram + p; } u8int ppuread(u16int p) { return *ppumap(p); } void ppuwrite(u16int p, u8int v) { *ppumap(p) = v; }