ref: 1c7e58e75bc6b5620984f164d66354350b28dfe0
dir: /sys/src/games/gba/apu.c/
#include <u.h> #include <libc.h> #include <thread.h> #include "../eui.h" #include "dat.h" #include "fns.h" Event evsamp; int srate, sratediv; s16int sbuf[2*4000], *sbufp, bias; enum { Freq = 44100, }; static int stime; s8int snddma[2]; static int fd; u16int envctr, envrel, envmod; u8int sweepen, sweepctr; u16int sweepfreq; typedef struct chan chan; struct chan { u8int n, ectr; u16int len; u16int *env, *freq; u16int fctr, fthr; u32int finc; u8int vol; }; u8int wave[64], wpos, wbank; u16int lfsr; chan sndch[4] = { { .n = 0, .env = reg + 0x62/2, .freq = reg + 0x64/2, }, { .n = 1, .env = reg + 0x68/2, .freq = reg + 0x6c/2, }, { .n = 2, }, { .n = 3, .env = reg + 0x78/2, .freq = reg + 0x7c/2, } }; Var apuvars[] = { ARR(snddma), VAR(envctr), VAR(envrel), VAR(envmod), VAR(sweepen), VAR(sweepctr), VAR(sweepfreq), ARR(wave), VAR(wpos), VAR(wbank), VAR(lfsr), VAR(sndch[0].ectr), VAR(sndch[0].len), VAR(sndch[0].fctr), VAR(sndch[0].fthr), VAR(sndch[0].finc), VAR(sndch[0].vol), VAR(sndch[1].ectr), VAR(sndch[1].len), VAR(sndch[1].fctr), VAR(sndch[1].fthr), VAR(sndch[1].finc), VAR(sndch[1].vol), VAR(sndch[2].ectr), VAR(sndch[2].len), VAR(sndch[2].fctr), VAR(sndch[2].fthr), VAR(sndch[2].finc), VAR(sndch[2].vol), VAR(sndch[3].ectr), VAR(sndch[3].len), VAR(sndch[3].fctr), VAR(sndch[3].fthr), VAR(sndch[3].finc), VAR(sndch[3].vol), {nil, 0, 0}, }; void rate(int i, u16int v) { switch(i){ case 0: case 1: sndch[i].finc = 131072ULL * 65536 / (srate * (2048 - (v & 0x7ff))); break; case 2: sndch[2].finc = 2097152ULL * 65536 / (srate * (2048 - (v & 0x7ff))); break; case 3: sndch[3].finc = 524288ULL * 65536 / srate; if((v & 7) != 0) sndch[3].finc /= v & 7; else sndch[3].finc <<= 1; sndch[3].finc >>= (v >> 4 & 15) + 1; } } void env(chan *c) { if((envmod & 1) == 0 && c->len > 0 && (*c->freq & 1<<14) != 0) --c->len; if(c->len == 0){ c->vol = 0; return; } if((envmod & 7) != 7 || c->ectr == 0 || --c->ectr != 0) return; c->ectr = *c->env >> 8 & 7; if((*c->env & 1<<11) != 0){ if(c->vol < 15) c->vol++; }else if(c->vol > 0) c->vol--; } s8int wavesamp(void) { s8int x; u16int vol, cnt; int v; sndch[2].fctr = v = sndch[2].fctr + sndch[2].finc; if(sndch[2].len == 0 || (reg[0x70/2] & 1<<7) == 0) return 0; vol = reg[0x72/2]; cnt = reg[0x70/2]; for(;;){ x = wave[wbank ^ wpos]; v -= 0x10000; if(v < 0) break; wpos++; if((cnt & 1<<5) != 0) wpos &= 63; else wpos &= 31; } if((vol & 1<<15) != 0) x = (x >> 2) + (x >> 3); else if((vol & 3<<14) == 0) x = 0; else x = x >> (vol >> 14 & 3); return x; } s8int lfsrsamp(void) { int v; u16int l; sndch[3].fctr = v = sndch[3].fctr + sndch[3].finc; for(;;){ l = lfsr; v -= 0x10000; if(v < 0) break; lfsr >>= 1; if(((l ^ lfsr) & 1) != 0) if((reg[0x7c/2] & 1<<3) != 0) lfsr |= 0x40; else lfsr |= 0x4000; } if((l & 1) != 0) return -sndch[3].vol; else return sndch[3].vol; } void sweep(int wb) { u16int fr; int d; u16int cnt; cnt = reg[0x60/2]; d = sweepfreq >> (cnt & 7); if((cnt & 1<<3) != 0) d = -d; fr = sweepfreq + d; if(fr > 2047){ sndch[0].len = 0; sndch[0].vol = 0; sweepen = 0; }else if(wb){ sweepfreq = fr; reg[0x64/2] = reg[0x64/2] & 0xfc00 | fr; rate(0, fr); sweep(0); } } void sndstart(chan *c, u16int v) { u16int cnt; c->vol = *c->env >> 12; c->ectr = *c->env >> 8 & 7; if(c->len == 0) c->len = 64; if(c == sndch){ cnt = reg[0x60/2]; sweepen = (cnt & 0x07) != 0 && (cnt & 0x70) != 0; sweepctr = cnt >> 4 & 7; sweepfreq = v & 0x7ff; if((cnt & 0x07) != 0) sweep(0); } } void sampletick(void *) { u16int cntl, cnth; s16int ch[6]; s16int s[2]; int i; addevent(&evsamp, sratediv); if(--envctr == 0){ envctr = envrel; env(&sndch[0]); env(&sndch[1]); if((envmod & 1) == 0 && sndch[2].len > 0 && (reg[0x74/2] & 1<<14) != 0) sndch[2].len--; env(&sndch[3]); if((envmod & 3) == 2 && sweepen && --sweepctr == 0){ sweepctr = reg[0x60/2] >> 4 & 7; sweep(1); } envmod++; } sndch[0].fctr += sndch[0].finc; if(sndch[0].fctr >= sndch[0].fthr) ch[0] = sndch[0].vol; else ch[0] = -sndch[0].vol; sndch[1].fctr += sndch[1].finc; if(sndch[1].fctr >= sndch[1].fthr) ch[1] = sndch[1].vol; else ch[1] = -sndch[1].vol; ch[2] = wavesamp(); ch[3] = lfsrsamp(); cntl = reg[SOUNDCNTL]; cnth = reg[SOUNDCNTH]; for(i = 0; i < 4; i++) ch[i] = ch[i] >> (cnth & 3); ch[5] = snddma[0] << 1 + (cnth >> 2 & 1); ch[6] = snddma[1] << 1 + (cnth >> 3 & 1); s[0] = 0; s[1] = 0; for(i = 0; i < 4; i++){ if((cntl & 1<<8<<i) != 0) s[1] += ch[i] * (1 + (cntl & 7)); if((cntl & 1<<12<<i) != 0) s[0] += ch[i] * (1 + (cntl >> 4 & 7)); } for(i = 5; i < 6; i++){ if((cnth & 1<<3<<i) != 0) s[1] += ch[i]; if((cnth & 1<<4<<i) != 0) s[0] += ch[i]; } s[0] += bias; s[1] += bias; if(s[0] < -0x200) s[0] = -0x200; else if(s[0] > 0x1ff) s[0] = 0x1ff; if(s[1] < -0x200) s[1] = -0x200; else if(s[1] > 0x1ff) s[1] = 0x1ff; stime -= Freq; while(stime < 0){ if(sbufp < sbuf + nelem(sbuf)){ sbufp[0] = s[0] << 6; sbufp[1] = s[1] << 6; sbufp += 2; } stime += srate; } } void sndwrite(u16int a, u16int v) { int sh, p, i; static u16int thr[4] = {0x2000, 0x4000, 0x8000, 0xC000}; switch(a){ case 0x62: sndch[0].fthr = thr[v >> 6 & 3]; sndch[0].len = 64 - (v & 63); break; case 0x64: rate(0, v); if((v & 1<<15) != 0) sndstart(&sndch[0], v); break; case 0x68: sndch[1].fthr = thr[v >> 6 & 3]; break; case 0x6c: rate(1, v); if((v & 1<<15) != 0) sndstart(&sndch[1], v); break; case 0x70: wbank = v >> 1 & 32; break; case 0x72: sndch[2].len = 256 - (v & 0xff); break; case 0x74: rate(2, v); if((v & 1<<15) != 0 && sndch[2].len == 0) sndch[2].len = 256; break; case 0x7c: rate(3, v); if((v & 1<<15) != 0){ if((v & 1<<3) != 0) lfsr = 0x7f; else lfsr = 0x7fff; sndstart(&sndch[3], v); } break; case SOUNDBIAS*2: sh = 9 - (v >> 14 & 3); if(sratediv != 1<<sh){ srate = 1 << 24 - sh; sratediv = 1 << sh; envrel = srate / 512; rate(0, reg[0x64/2]); rate(1, reg[0x6c/2]); rate(2, reg[0x74/2]); rate(3, reg[0x7c/2]); } bias = (v & 0x3ff) - 0x200; break; case 0x90: case 0x92: case 0x94: case 0x96: case 0x98: case 0x9a: case 0x9c: case 0x9e: p = ~reg[0x70/2] >> 1 & 32; for(i = a - 0x90; i < a - 0x90 + 2; i++){ wave[(wpos + 2 * i) & 31 + p] = v >> 4 & 0xf; wave[(wpos + 2 * i + 1) & 31 + p] = v & 0xf; v >>= 8; } break; } } void audioinit(void) { fd = open("/dev/audio", OWRITE); if(fd < 0) sysfatal("open: %r"); sbufp = sbuf; sndwrite(SOUNDBIAS*2, 0x200); evsamp.f = sampletick; addevent(&evsamp, sratediv); } int audioout(void) { int rc; static int cl; if(sbufp == nil) return -1; if(sbufp == sbuf) return 0; cl = clock; rc = warp10 ? (sbufp - sbuf) * 2 : write(fd, sbuf, (sbufp - sbuf) * 2); if(rc > 0) sbufp -= (rc+1)/2; if(sbufp < sbuf) sbufp = sbuf; return 0; }