ref: 0930daf295aaeca0e58e1cb73a60b78c85749fe9
dir: /sys/src/games/snes/mem.c/
#include <u.h> #include <libc.h> #include <thread.h> #include "dat.h" #include "fns.h" u8int reg[32768]; u8int mem[131072]; u8int oam[544], vram[65536]; u16int cgram[256]; u16int oamaddr, vramlatch; u32int keylatch, lastkeys; int cyc; enum { OAMLATCH, CGLATCH, CGLH, OFSPREV, M7PREV, OPCTLATCH, OPHCTH, OPVCTH, }; u8int mdr, mdr1, mdr2; extern void calc7(void); static u16int vrammap(u16int a) { switch(reg[0x2115] & 12){ default: return a << 1; case 4: return a << 1 & 0xfe00 | a << 4 & 0x01f0 | a >> 4 & 0x000e; case 8: return a << 1 & 0xfc00 | a << 4 & 0x03f0 | a >> 5 & 0x000e; case 12: return a << 1 & 0xf800 | a << 4 & 0x07f0 | a >> 6 & 0x000e; } } static void vramread(void) { u16int b; b = vrammap(reg[0x2116] | reg[0x2117] << 8); vramlatch = vram[b++]; vramlatch |= vram[b] << 8; } static void incvram(int i, int r) { u16int a; int c; c = reg[0x2115]; if((c >> 7) != i) return; a = reg[0x2116] | reg[0x2117] << 8; if(r) vramread(); switch(c & 3){ case 0: a++; break; case 1: a += 32; break; default: a += 128; break; } reg[0x2116] = a; reg[0x2117] = (a >> 8) & 0x7f; } static void incwram(void) { if(++reg[0x2181] == 0) if(++reg[0x2182] == 0) reg[0x2183] ^= 1; } static void hvlatch(void) { reg[0x213c] = ppux; reg[OPHCTH] = ppux >> 8; reg[0x213d] = ppuy; reg[OPVCTH] = ppuy >> 8; reg[OPCTLATCH] |= 0x40; } static u16int swaprb(u16int a) { return (a & 0x83e0) | (a & 0x7c00) >> 10 | (a & 0x001f) << 10; } static void mouselatch(void) { int x, y; u32int v; v = keys & 0xffff0000; x = (keys & 0xff) - (lastkeys & 0xff); y = (keys >> 8 & 0xff) - (lastkeys >> 8 & 0xff); if(x < 0){ v |= 0x80; x = -x; } if(y < 0){ v |= 0x8000; y = -y; } if(x > 127) x = 127; if(y > 127) y = 127; keylatch = v | x | y << 8; lastkeys = keys; } u8int regread(u16int p) { u8int v; u16int a; int r; if(p < 0x2000){ cyc += 8; return mem[p]; } cyc += 6; if((p & 0xfe00) == 0x4000) cyc += 6; switch(p){ case 0x2134: case 0x2135: case 0x2136: r = ((signed short)m7[0] * (signed char)reg[0x211c]) & 0xffffff; return mdr1 = r >> 8 * (p - 0x2134); case 0x2137: if((reg[0x4201] & 0x80) != 0) hvlatch(); return mdr; case 0x2138: if(oamaddr < 0x200) v = oam[oamaddr]; else v = oam[oamaddr & 0x21f]; oamaddr = (oamaddr + 1) & 0x3ff; return mdr1 = v; case 0x2139: v = vramlatch; incvram(0, 1); return mdr1 = v; case 0x213a: v = vramlatch >> 8; incvram(1, 1); return mdr1 = v; case 0x213b: a = swaprb(cgram[reg[0x2121]]); if(reg[CGLH] != 0){ a >>= 8; a |= mdr2 & 0x80; reg[0x2121]++; } reg[CGLH] ^= 1; return mdr2 = a; case 0x213c: reg[OPCTLATCH] ^= 1; if((reg[OPCTLATCH] & 1) == 0) return mdr2 = reg[OPHCTH] | mdr2 & 0xfe; return mdr2 = reg[p]; case 0x213d: reg[OPCTLATCH] ^= 2; if((reg[OPCTLATCH] & 2) == 0) return reg[OPVCTH] | mdr2 & 0xfe; return mdr2 = reg[p]; case 0x213e: return mdr1 = reg[p] | mdr1 & 0x10; case 0x213f: v = reg[OPCTLATCH] & 0x40; if((reg[0x4201] & 0x80) != 0) reg[OPCTLATCH] &= ~0x43; else reg[OPCTLATCH] &= ~3; return mdr2 = reg[p] | v | mdr2 & 0x20; case 0x2180: v = mem[reg[0x2181] | reg[0x2182] << 8 | (reg[0x2183] & 1) << 16]; incwram(); return v; case 0x4016: if((reg[0x4016] & 1) != 0){ if(mouse) if((keys & 0x300000) == 0x300000) keys &= ~0x300000; else keys += 0x100000; return keys >> 31; } v = keylatch >> 31; keylatch = (keylatch << 1) | 1; return v | mdr & 0xfc; case 0x4017: return 0x1f | mdr & 0xe0; case 0x4210: v = reg[p]; reg[p] &= ~VBLANK; return v | mdr & 0x70; case 0x4211: v = irq; irq &= ~IRQPPU; return v | mdr & 0x7f; case 0x4212: v = 0; if(ppux >= 274 || ppux == 0) v |= 0x40; a = (reg[SETINI] & OVERSCAN) != 0 ? 0xf0 : 0xe1; if(ppuy >= a){ v |= 0x80; if(ppuy <= a + 2 && (reg[NMITIMEN] & AUTOJOY) != 0) v |= 1; } return v | mdr & 0x3e; case 0x4214: case 0x4215: case 0x4216: case 0x4217: case 0x4218: case 0x4219: case 0x421a: case 0x421b: case 0x421c: case 0x421d: case 0x421e: case 0x421f: return reg[p]; case 0x2104: case 0x2105: case 0x2106: case 0x2108: case 0x2109: case 0x210a: case 0x2114: case 0x2115: case 0x2116: case 0x2118: case 0x2119: case 0x211a: case 0x2124: case 0x2125: case 0x2126: case 0x2128: case 0x2129: case 0x212a: return mdr1; } if((p & 0xff80) == 0x4300) return reg[p]; if((p & 0xffc0) == 0x2140) return spcmem[0xf4 | p & 3]; return mdr; } void regwrite(u16int p, u8int v) { u16int a; if(p < 0x2000){ cyc += 8; mem[p] = v; return; } cyc += 6; if((p & 0xfe00) == 0x4000) cyc += 6; switch(p){ case 0x2102: oamaddr = (reg[0x2103] & 1) << 9 | v << 1; break; case 0x2103: oamaddr = (v & 1) << 9 | reg[0x2102] << 1; break; case 0x2104: if((oamaddr & 1) == 0) reg[OAMLATCH] = v; if(oamaddr < 0x200){ if((oamaddr & 1) != 0){ oam[oamaddr - 1] = reg[OAMLATCH]; oam[oamaddr] = v; } }else oam[oamaddr & 0x21f] = v; oamaddr = (oamaddr + 1) & 0x3ff; return; case 0x2105: reg[p] = v; calc7(); return; case 0x210d: hofs[4] = (v & 0x1f) << 8 | reg[M7PREV]; if((v & 0x10) != 0) hofs[4] |= 0xe000; reg[M7PREV] = v; calc7(); case 0x210f: case 0x2111: case 0x2113: a = (p - 0x210d) >> 1; hofs[a] = v << 8 | reg[OFSPREV] & ~7 | (hofs[a] >> 8) & 7; reg[OFSPREV] = v; break; case 0x210e: vofs[4] = (v & 0x1f) << 8 | reg[M7PREV]; if((v & 0x10) != 0) vofs[4] |= 0xe000; reg[M7PREV] = v; calc7(); case 0x2110: case 0x2112: case 0x2114: vofs[(p - 0x210e) >> 1] = v << 8 | reg[OFSPREV]; reg[OFSPREV] = v; break; case 0x2117: v &= 0x7f; case 0x2116: reg[p] = v; vramread(); return; case 0x2118: a = vrammap(reg[0x2116] | reg[0x2117] << 8); vram[a] = v; incvram(0, 0); return; case 0x2119: a = vrammap(reg[0x2116] | reg[0x2117] << 8); vram[a|1] = v; incvram(1, 0); return; case 0x211b: case 0x211c: case 0x211d: case 0x211e: case 0x211f: case 0x2120: m7[p - 0x211b] = v << 8 | reg[M7PREV]; if(p >= 0x211f) if((v & 0x10) != 0) m7[p - 0x211b] |= 0xe000; else m7[p - 0x211b] &= 0x1fff; reg[M7PREV] = v; calc7(); break; case 0x2121: reg[CGLH] = 0; break; case 0x2122: if(reg[CGLH] == 0) reg[CGLATCH] = v; else cgram[reg[0x2121]++] = swaprb(reg[CGLATCH] | v << 8); reg[CGLH] ^= 1; break; case 0x2132: if((v & 0x80) != 0) subcolor = subcolor & 0x7fe0 | v & 0x1f; if((v & 0x40) != 0) subcolor = subcolor & 0x7c1f | (v & 0x1f) << 5; if((v & 0x20) != 0) subcolor = subcolor & 0x03ff | (v & 0x1f) << 10; return; case 0x213e: return; case 0x2180: mem[reg[0x2181] | reg[0x2182] << 8 | (reg[0x2183] & 1) << 16] = v; incwram(); return; case 0x4016: if((reg[0x4016] & 1) != 0 && (v & 1) == 0){ if(mouse) mouselatch(); else keylatch = keys; } break; case 0x4200: if((reg[0x4200] & 0x80) == 0 && (v & 0x80) != 0 && (reg[RDNMI] & 0x80) != 0) nmi = 2; if((v & (HCNTIRQ|VCNTIRQ)) == 0) irq &= ~IRQPPU; break; case 0x4201: if((reg[0x4201] & 0x80) == 0 && (v & 0x80) != 0) hvlatch(); break; case 0x4203: a = reg[0x4202] * v; reg[0x4216] = a; reg[0x4217] = a >> 8; break; case 0x4206: if(v == 0){ reg[0x4214] = 0xff; reg[0x4215] = 0xff; reg[0x4216] = reg[0x4204]; reg[0x4217] = reg[0x4205]; }else{ a = reg[0x4204] | reg[0x4205] << 8; reg[0x4214] = a / v; reg[0x4215] = (a / v) >> 8; reg[0x4216] = a % v; reg[0x4217] = (a % v) >> 8; } break; case 0x4207: htime = htime & 0x100 | v; break; case 0x4208: htime = htime & 0xff | (v & 1) << 8; break; case 0x4209: vtime = vtime & 0x100 | v; break; case 0x420a: vtime = vtime & 0xff | (v & 1) << 8; break; case 0x420b: dma |= v & ~(reg[0x420c] & ~hdma >> 24); break; case 0x4210: return; case 0x4211: irq &= ~IRQPPU; return; case 0x4216: case 0x4217: case 0x4218: case 0x4219: case 0x421a: case 0x421b: case 0x421c: case 0x421d: case 0x421e: case 0x421f: return; } if((p & 0xff40) == 0x2140) p &= 0xff43; reg[p] = v; } u8int memread(u32int a) { u16int al; u8int b; int speed; al = a; b = (a>>16) & 0x7f; speed = a < 0x800000 || (reg[MEMSEL] & 1) == 0 ? 8 : 6; if(al < 0x8000){ if(b < 0x40){ if(al >= 0x6000){ cyc += 8; if(hirom && nsram != 0) return mdr = sram[(b << 13 | al & 0x1ffff) & (nsram - 1)]; return mdr; } return mdr = regread(al); } if(!hirom && (b & 0xf8) == 0x70 && nsram != 0){ cyc += speed; return mdr = sram[a & 0x07ffff & (nsram - 1)]; } } if(b >= 0x7e && (a & (1<<23)) == 0){ cyc += 8; return mdr = mem[a - 0x7e0000]; } cyc += speed; if(hirom) return mdr = prg[((b & 0x3f) % nprg) << 16 | al]; return mdr = prg[(b%nprg) << 15 | al & 0x7fff]; } void memwrite(u32int a, u8int v) { u16int al; u8int b; int speed; al = a; b = (a>>16) & 0x7f; speed = a < 0x800000 || (reg[MEMSEL] & 1) == 0 ? 8 : 6; if(b >= 0x7e && a < 0x800000){ cyc += 8; mem[a - 0x7e0000] = v; } if(al < 0x8000){ if(b < 0x40){ if(al >= 0x6000){ cyc += 8; if(hirom && nsram != 0){ sram[(b << 13 | al & 0x1fff) & (nsram - 1)] = v; goto save; } }else regwrite(a, v); return; } if(!hirom && (b & 0xf8) == 0x70 && nsram != 0){ sram[a & 0x07ffff & (nsram - 1)] = v; cyc += speed; save: if(saveclock == 0) saveclock = SAVEFREQ; return; } } cyc += speed; } static u8int nbytes[] = {1, 2, 2, 4, 4, 4, 2, 4}; static u8int modes[] = {0x00, 0x04, 0x00, 0x50, 0xe4, 0x44, 0x00, 0x50}; static int dmavalid(int a, int b) { if(b) return 1; if((a & 0x400000) != 0) return 1; switch(a >> 8){ case 0x21: return 0; case 0x42: return a != 0x420b && a != 0x420c; case 0x43: return 0; } return 1; } int dmastep(void) { int i, j, n, m, cycl; u32int a; u8int b, c, *p; u32int v; cycl = 0; for(i = 0; i < 8; i++) if((dma & (1<<i)) != 0) break; if(i == 8) return 0; p = reg + 0x4300 + (i << 4); c = *p; n = nbytes[c & 7]; m = modes[c & 7]; for(j = 0; j < n; j++){ a = p[2] | p[3] << 8 | p[4] << 16; b = p[1] + (m & 3); if((c & 0x80) != 0){ v = dmavalid(b, 1) ? memread(0x2100 | b) : 0; if(dmavalid(a, 0)) memwrite(a, v); }else{ v = dmavalid(a, 0) ? memread(a) : 0; if(dmavalid(b, 1)) memwrite(0x2100 | b, v); } cycl += 8; m >>= 2; if((c & 0x08) == 0){ if((c & 0x10) != 0){ if(--p[2] == 0xff) p[3]--; }else{ if(++p[2] == 0x00) p[3]++; } } if(p[5] == 0){ p[5] = 0xff; p[6]--; }else if(--p[5] == 0 && p[6] == 0){ dma &= ~(1<<i); break; } } return cycl; } static int hdmaload(u8int *p) { u32int a; a = p[8] | p[9] << 8 | p[4] << 16; p[10] = dmavalid(a, 0) ? memread(a) : 0; a++; if((p[0] & 0x40) != 0){ p[5] = dmavalid(a, 0) ? memread(a) : 0; a++; p[6] = dmavalid(a, 0) ? memread(a) : 0; a++; } p[8] = a; p[9] = a >> 8; return (p[0] & 0x40) != 0 ? 24 : 8; } int hdmastep(void) { int i, j, cycl; u8int *p, *q, n, m, b, v, c; u32int a, br; cycl = 0; if(dma != 0) dma &= ~((hdma & 0xff00) >> 8 | (hdma & 0xff)); if((hdma & 0xff) == 0) goto init; cycl += 18; for(i = 0; i < 8; i++){ if(((hdma >> i) & (1<<24|1)) != 1) continue; p = reg + 0x4300 + (i << 4); c = p[0]; if((hdma & (1<<(16+i))) != 0){ n = nbytes[c & 7]; m = modes[c & 7]; if((c & 0x40) != 0){ q = p + 5; br = p[7] << 16; }else{ q = p + 8; br = p[4] << 16; } for(j = 0; j < n; j++){ a = q[0] | q[1] << 8 | br; b = p[1] + (m & 3); if((c & 0x80) != 0){ v = dmavalid(b, 1) ? memread(0x2100 | b) : 0; if(dmavalid(a, 0)) memwrite(a, v); }else{ v = dmavalid(a, 0) ? memread(a) : 0; if(dmavalid(b, 1)) memwrite(0x2100 | b, v); } if(++q[0] == 0) q[1]++; cycl += 8; m >>= 2; } } p[10]--; hdma = (hdma & ~(1<<(16+i))) | ((p[10] & 0x80) << (9+i)); cycl += 8; if((p[10] & 0x7f) == 0){ cycl += hdmaload(p) - 8; if(p[10] == 0) hdma |= 1<<(24+i); hdma |= 1<<(16+i); } } hdma &= ~0xff; if((hdma & 0xff00) == 0) return cycl; init: for(i = 0; i < 8; i++){ if((hdma & (1<<(8+i))) == 0) continue; p = reg + 0x4300 + (i << 4); p[8] = p[2]; p[9] = p[3]; cycl += hdmaload(p); if(p[10] == 0) hdma |= 1<<(24+i); hdma |= 1<<(16+i); } cycl += 18; hdma &= ~0xff00; return cycl; } void memreset(void) { reg[0x213e] = 1; reg[0x213f] = 2; reg[0x4201] = 0xff; reg[0x4210] = 2; }