#ifdef _WIN32 #include #endif #include #include #include #include "opl_mus_player.h" #include "doomtype.h" #include "fmopl.h" #include "w_wad.h" #include "templates.h" #include "c_cvars.h" #include "i_system.h" #include "stats.h" #define IMF_RATE 700.0 EXTERN_CVAR (Bool, opl_onechip) OPLmusicBlock::OPLmusicBlock() { scoredata = NULL; NextTickIn = 0; LastOffset = 0; TwoChips = !opl_onechip; Looping = false; IsStereo = false; io = NULL; io = new OPLio; } OPLmusicBlock::~OPLmusicBlock() { delete io; } void OPLmusicBlock::ResetChips () { TwoChips = !opl_onechip; ChipAccess.Enter(); io->OPLdeinit (); io->OPLinit (TwoChips + 1, IsStereo); ChipAccess.Leave(); } void OPLmusicBlock::Restart() { OPLstopMusic (); OPLplayMusic (127); MLtime = 0; playingcount = 0; LastOffset = 0; } OPLmusicFile::OPLmusicFile (FILE *file, BYTE *musiccache, int len) : ScoreLen (len) { if (io == NULL) { return; } scoredata = new BYTE[len]; if (file) { if (fread (scoredata, 1, len, file) != (size_t)len) { fail: delete[] scoredata; scoredata = NULL; return; } } else { memcpy(scoredata, &musiccache[0], len); } if (io->OPLinit (TwoChips + 1)) { goto fail; } // Check for RDosPlay raw OPL format if (((DWORD *)scoredata)[0] == MAKE_ID('R','A','W','A') && ((DWORD *)scoredata)[1] == MAKE_ID('D','A','T','A')) { RawPlayer = RDosPlay; if (*(WORD *)(scoredata + 8) == 0) { // A clock speed of 0 is bad *(WORD *)(scoredata + 8) = 0xFFFF; } SamplesPerTick = LittleShort(*(WORD *)(scoredata + 8)) / ADLIB_CLOCK_MUL; } // Check for DosBox OPL dump else if (((DWORD *)scoredata)[0] == MAKE_ID('D','B','R','A') && ((DWORD *)scoredata)[1] == MAKE_ID('W','O','P','L')) { if (((DWORD *)scoredata)[2] == MAKE_ID(0,0,1,0)) { RawPlayer = DosBox1; SamplesPerTick = OPL_SAMPLE_RATE / 1000; ScoreLen = MIN(len - 24, LittleLong(((DWORD *)scoredata)[4])) + 24; } else if (((DWORD *)scoredata)[2] == MAKE_ID(2,0,0,0)) { if (scoredata[20] != 0) { Printf("Unsupported DOSBox Raw OPL format %d\n", scoredata[20]); goto fail; } if (scoredata[21] != 0) { Printf("Unsupported DOSBox Raw OPL compression %d\n", scoredata[21]); goto fail; } RawPlayer = DosBox2; SamplesPerTick = OPL_SAMPLE_RATE / 1000; int headersize = 0x1A + scoredata[0x19]; ScoreLen = MIN(len - headersize, LittleLong(((DWORD *)scoredata)[3]) * 2) + headersize; } else { Printf("Unsupported DOSBox Raw OPL version %d.%d\n", LittleShort(((WORD *)scoredata)[4]), LittleShort(((WORD *)scoredata)[5])); goto fail; } } // Check for modified IMF format (includes a header) else if (((DWORD *)scoredata)[0] == MAKE_ID('A','D','L','I') && scoredata[4] == 'B' && scoredata[5] == 1) { int songlen; BYTE *max = scoredata + ScoreLen; RawPlayer = IMF; SamplesPerTick = OPL_SAMPLE_RATE / IMF_RATE; score = scoredata + 6; // Skip track and game name for (int i = 2; i != 0; --i) { while (score < max && *score++ != '\0') {} } if (score < max) score++; // Skip unknown byte if (score + 8 > max) { // Not enough room left for song data delete[] scoredata; scoredata = NULL; return; } songlen = LittleLong(*(DWORD *)score); if (songlen != 0 && (songlen +=4) < ScoreLen - (score - scoredata)) { ScoreLen = songlen + int(score - scoredata); } } else { goto fail; } Restart (); } OPLmusicFile::~OPLmusicFile () { if (scoredata != NULL) { io->OPLdeinit (); delete[] scoredata; scoredata = NULL; } } bool OPLmusicFile::IsValid () const { return scoredata != NULL; } void OPLmusicFile::SetLooping (bool loop) { Looping = loop; } void OPLmusicFile::Restart () { OPLmusicBlock::Restart(); WhichChip = 0; switch (RawPlayer) { case RDosPlay: score = scoredata + 10; SamplesPerTick = LittleShort(*(WORD *)(scoredata + 8)) / ADLIB_CLOCK_MUL; break; case DosBox1: score = scoredata + 24; SamplesPerTick = OPL_SAMPLE_RATE / 1000; break; case DosBox2: score = scoredata + 0x1A + scoredata[0x19]; SamplesPerTick = OPL_SAMPLE_RATE / 1000; break; case IMF: score = scoredata + 6; // Skip track and game name for (int i = 2; i != 0; --i) { while (*score++ != '\0') {} } score++; // Skip unknown byte if (*(DWORD *)score != 0) { score += 4; // Skip song length } break; } io->SetClockRate(SamplesPerTick); } bool OPLmusicBlock::ServiceStream (void *buff, int numbytes) { float *samples1 = (float *)buff; int numsamples = numbytes / (sizeof(float) << int(IsStereo)); bool prevEnded = false; bool res = true; memset(buff, 0, numbytes); ChipAccess.Enter(); while (numsamples > 0) { double ticky = NextTickIn; int tick_in = int(NextTickIn); int samplesleft = MIN(numsamples, tick_in); if (samplesleft > 0) { YM3812UpdateOne (io->chips[0], samples1, samplesleft); YM3812UpdateOne (io->chips[1], samples1, samplesleft); OffsetSamples(samples1, samplesleft << int(IsStereo)); assert(NextTickIn == ticky); NextTickIn -= samplesleft; assert (NextTickIn >= 0); numsamples -= samplesleft; samples1 += samplesleft << int(IsStereo); } if (NextTickIn < 1) { int next = PlayTick(); assert(next >= 0); if (next == 0) { // end of song if (!Looping || prevEnded) { if (numsamples > 0) { YM3812UpdateOne (io->chips[0], samples1, numsamples); YM3812UpdateOne (io->chips[1], samples1, numsamples); OffsetSamples(samples1, numsamples << int(IsStereo)); } res = false; break; } else { // Avoid infinite loops from songs that do nothing but end prevEnded = true; Restart (); } } else { prevEnded = false; io->WriteDelay(next); NextTickIn += SamplesPerTick * next; assert (NextTickIn >= 0); MLtime += next; } } } ChipAccess.Leave(); return res; } void OPLmusicBlock::OffsetSamples(float *buff, int count) { // Three out of four of the OPL waveforms are non-negative. Depending on // timbre selection, this can cause the output waveform to tend toward // very large positive values. Heretic's music is particularly bad for // this. This function attempts to compensate by offseting the sample // data back to around the [-1.0, 1.0] range. double max = -1e10, min = 1e10, offset, step; int i, ramp, largest_at = 0; // Find max and min values for this segment of the waveform. for (i = 0; i < count; ++i) { if (buff[i] > max) { max = buff[i]; largest_at = i; } if (buff[i] < min) { min = buff[i]; largest_at = i; } } // Prefer to keep the offset at 0, even if it means a little clipping. if (LastOffset == 0 && min >= -1.1 && max <= 1.1) { offset = 0; } else { offset = (max + min) / 2; // If the new offset is close to 0, make it 0 to avoid making another // full loop through the sample data. if (fabs(offset) < 1/256.0) { offset = 0; } } // Ramp the offset change so there aren't any abrupt clicks in the output. // If the ramp is too short, it can sound scratchy. cblood2.mid is // particularly unforgiving of short ramps. if (count >= 512) { ramp = 512; step = (offset - LastOffset) / 512; } else { ramp = MIN(count, MAX(196, largest_at)); step = (offset - LastOffset) / ramp; } offset = LastOffset; i = 0; if (step != 0) { for (; i < ramp; ++i) { buff[i] = float(buff[i] - offset); offset += step; } } if (offset != 0) { for (; i < count; ++i) { buff[i] = float(buff[i] - offset); } } LastOffset = float(offset); } int OPLmusicFile::PlayTick () { BYTE reg, data; WORD delay; switch (RawPlayer) { case RDosPlay: while (score < scoredata + ScoreLen) { data = *score++; reg = *score++; switch (reg) { case 0: // Delay if (data != 0) { return data; } break; case 2: // Speed change or OPL3 switch if (data == 0) { SamplesPerTick = LittleShort(*(WORD *)(score)) / ADLIB_CLOCK_MUL; io->SetClockRate(SamplesPerTick); score += 2; } else if (data == 1) { WhichChip = 0; } else if (data == 2) { WhichChip = 1; } break; case 0xFF: // End of song if (data == 0xFF) { return 0; } break; default: // It's something to stuff into the OPL chip if (WhichChip == 0 || TwoChips) { io->OPLwriteReg(WhichChip, reg, data); } break; } } break; case DosBox1: while (score < scoredata + ScoreLen) { reg = *score++; if (reg == 4) { reg = *score++; data = *score++; } else if (reg == 0) { // One-byte delay return *score++ + 1; } else if (reg == 1) { // Two-byte delay int delay = score[0] + (score[1] << 8) + 1; score += 2; return delay; } else if (reg == 2) { // Select OPL chip 0 WhichChip = 0; continue; } else if (reg == 3) { // Select OPL chip 1 WhichChip = 1; continue; } else { data = *score++; } if (WhichChip == 0 || TwoChips) { io->OPLwriteReg(WhichChip, reg, data); } } break; case DosBox2: { BYTE *to_reg = scoredata + 0x1A; BYTE to_reg_size = scoredata[0x19]; BYTE short_delay_code = scoredata[0x17]; BYTE long_delay_code = scoredata[0x18]; while (score < scoredata + ScoreLen) { BYTE code = *score++; data = *score++; // Which OPL chip to write to is encoded in the high bit of the code value. int which = !!(code & 0x80); code &= 0x7F; if (code == short_delay_code) { return data + 1; } else if (code == long_delay_code) { return (data + 1) << 8; } else if (code < to_reg_size && (which = 0 || TwoChips)) { io->OPLwriteReg(which, to_reg[code], data); } } } break; case IMF: delay = 0; while (delay == 0 && score + 4 - scoredata <= ScoreLen) { if (*(DWORD *)score == 0xFFFFFFFF) { // This is a special value that means to end the song. return 0; } reg = score[0]; data = score[1]; delay = LittleShort(((WORD *)score)[1]); score += 4; io->OPLwriteReg (0, reg, data); } return delay; } return 0; } /* ADD_STAT (opl) { return YM3812GetVoiceString (); } */ OPLmusicFile::OPLmusicFile(const OPLmusicFile *source, const char *filename) { ScoreLen = source->ScoreLen; scoredata = new BYTE[ScoreLen]; memcpy(scoredata, source->scoredata, ScoreLen); SamplesPerTick = source->SamplesPerTick; RawPlayer = source->RawPlayer; score = source->score; TwoChips = source->TwoChips; WhichChip = 0; if (io != NULL) { delete io; } io = new DiskWriterIO(filename); io->OPLinit(TwoChips + 1); Restart(); } void OPLmusicFile::Dump() { int time; time = PlayTick(); while (time != 0) { io->WriteDelay(time); time = PlayTick(); } }