#include "sys.h" #include "sf64audio_provisional.h" static const char devstr00[] = "Audio:Track:Warning: No Free Notetrack\n"; static const char devstr01[] = "SUBTRACK DIM\n"; static const char devstr02[] = "Audio:Track: Warning :SUBTRACK had been stolen by other Group.\n"; static const char devstr03[] = "SEQID %d,BANKID %d\n"; static const char devstr04[] = "ERR:SUBTRACK %d NOT ALLOCATED\n"; static const char devstr05[] = "Stop Release\n"; static const char devstr06[] = "Error:Same List Add\n"; static const char devstr07[] = "Wait Time out!\n"; static const char devstr08[] = "Macro Level Over Error!\n"; static const char devstr09[] = "Macro Level Over Error!\n"; static const char devstr10[] = "WARNING: NPRG: cannot change %d\n"; static const char devstr11[] = "Audio:Track:NOTE:UNDEFINED NOTE COM. %x\n"; static const char devstr12[] = "Audio: Note:Velocity Error %d\n"; static const char devstr13[] = "Error: Subtrack no prg.\n"; static const char devstr14[] = "ERR %x\n"; static const char devstr15[] = "Error: Your assignchannel is stolen.\n"; static const char devstr16[] = "Audio:Track :Call Macro Level Over Error!\n"; static const char devstr17[] = "Audio:Track :Loops Macro Level Over Error!\n"; static const char devstr18[] = "SUB:ERR:BANK %d NOT CACHED.\n"; static const char devstr19[] = "SUB:ERR:BANK %d NOT CACHED.\n"; static const char devstr20[] = "Audio:Track: CTBLCALL Macro Level Over Error!\n"; static const char devstr21[] = "Set Noise %d\n"; static const char devstr22[] = "[%2x] \n"; static const char devstr23[] = "Err :Sub %x ,address %x:Undefined SubTrack Function %x"; static const char devstr24[] = "VoiceLoad Error Bank:%d,Prog:%d\n"; static const char devstr25[] = "Disappear Sequence or Bank %d\n"; static const char devstr26[] = "[FIN] group.\n"; static const char devstr27[] = "Macro Level Over Error!\n"; static const char devstr28[] = "Macro Level Over Error!\n"; static const char devstr29[] = "Group:Undefine upper C0h command (%x)\n"; static const char devstr30[] = "Group:Undefined Command\n"; void func_800145BC(AudioListItem* list, AudioListItem* item); void* func_800145FC(AudioListItem* list); u8 func_800152C0(SequenceChannel* channel, u8 arg1, Instrument** instrument, AdsrSettings* adsrSettings); void func_80013EA0(SequenceChannel* channel) { s32 i; channel->enabled = 0; channel->finished = 0; channel->stopScript = 0; channel->muted = 0; channel->hasInstrument = 0; channel->stereoHeadsetEffects = 0; channel->transposition = 0; channel->largeNotes = 0; channel->bookOffset = 0; channel->changes.asByte = 0xFF; channel->scriptState.depth = 0; channel->newPan = 0x40; channel->panChannelWeight = 0x80; channel->noteUnused = NULL; channel->someOtherPriority = 0; channel->targetReverbVol = 0; channel->reverbIndex = 0; channel->notePriority = 3; channel->delay = 0; channel->adsr.envelope = gDefaultEnvelope; channel->adsr.decayIndex = 0x20; channel->vibratoRateTarget = 0x800; channel->vibratoRateStart = 0x800; channel->adsr.sustain = 0; channel->vibratoDepthTarget = 0; channel->vibratoDepthStart = 0; channel->vibratoRateChangeDelay = 0; channel->vibratoDepthChangeDelay = 0; channel->vibratoDelay = 0; channel->volume = 1.0f; channel->volumeMod = 1.0f; channel->freqMod = 1.0f; for (i = 0; i < 8; i++) { channel->seqScriptIO[i] = -1; } channel->unused = 0; func_80012864(&channel->notePool); } s32 func_80013FC4(SequenceChannel* channel, s32 arg1) { SequenceLayer* temp_v0; SequenceLayer* temp; if (channel->layers[arg1] == NULL) { temp_v0 = func_800145FC(&gLayerFreeList); channel->layers[arg1] = temp_v0; if (temp_v0 == NULL) { channel->layers[arg1] = NULL; return -1; } } else { func_8001266C(channel->layers[arg1]); } temp = channel->layers[arg1]; temp->channel = channel; temp->adsr = channel->adsr; temp->enabled = 1; temp->muted = 0; temp->continuousNotes = 0; temp->finished = 0; temp->adsr.decayIndex = 0; temp->bit1 = 0; temp->stereo.asByte = 0x40; temp->portamento.mode = 0; temp->state.depth = 0; temp->unk_3 = 0; temp->gateTime = 0x80; temp->pan = 0x40; temp->transposition = 0; temp->delay = 0; temp->gateDelay = 0; temp->delay2 = 0; temp->note = NULL; temp->instrument = NULL; temp->instOrWave = 0xFF; temp->freqMod = 1.0f; temp->velocitySquare = 0.0f; return 0; } void func_800140D0(SequenceLayer* layer) { if (layer != NULL) { func_8001266C(layer); layer->enabled = 0; layer->finished = 1; } } void func_8001410C(SequenceChannel* channel, s32 arg1) { SequenceLayer* temp_a2 = channel->layers[arg1]; if (temp_a2 != NULL) { func_800145BC(&gLayerFreeList, &temp_a2->listItem); func_800140D0(temp_a2); channel->layers[arg1] = NULL; } } void func_8001415C(SequenceChannel* channel) { s32 var_s0; for (var_s0 = 0; var_s0 < ARRAY_COUNT(channel->layers); var_s0++) { func_8001410C(channel, var_s0); } func_80012964(&channel->notePool); channel->enabled = 0; channel->finished = 1; } SequenceChannel* func_800141C8(void) { s32 i; SequenceChannel* var_v1; for (i = 0; i < 48; i++) { if (gSeqChannels[i].seqPlayer == NULL) { return &gSeqChannels[i]; } } return &gSeqChannelNone; } void func_80014244(SequencePlayer* seqPlayer, u16 arg1) { SequenceChannel* temp_s0; SequenceChannel* temp_v0; s32 i; for (i = 0; i < 16; i++) { if (arg1 & 1) { temp_s0 = seqPlayer->channels[i]; if ((IS_SEQUENCE_CHANNEL_VALID(temp_s0) == 1) && (seqPlayer == temp_s0->seqPlayer)) { func_8001415C(temp_s0); temp_s0->seqPlayer = NULL; } temp_v0 = func_800141C8(); if (IS_SEQUENCE_CHANNEL_VALID(temp_v0) == 0) { D_80155D88 = i + 0x10000; seqPlayer->channels[i] = temp_v0; } else { func_80013EA0(temp_v0); seqPlayer->channels[i] = temp_v0; temp_v0->seqPlayer = seqPlayer; temp_v0->fontId = seqPlayer->defaultFont; temp_v0->muteBehavior = seqPlayer->muteBehavior; temp_v0->noteAllocPolicy = seqPlayer->noteAllocPolicy; } } arg1 = arg1 >> 1; } } void func_80014370(SequencePlayer* seqPlayer, u16 arg1) { s32 i; for (i = 0; i < 16; i++) { if (arg1 & 1) { SequenceChannel* temp_s0 = seqPlayer->channels[i]; if (IS_SEQUENCE_CHANNEL_VALID(temp_s0) == 1) { if (seqPlayer == temp_s0->seqPlayer) { func_8001415C(temp_s0); if (0) {} temp_s0->seqPlayer = NULL; } seqPlayer->channels[i] = &gSeqChannelNone; } } arg1 = arg1 >> 1; } } void func_80014440(SequencePlayer* seqPlayer, u8 arg1, u8* arg2) { SequenceChannel* channel = seqPlayer->channels[arg1]; s32 i; if (IS_SEQUENCE_CHANNEL_VALID(channel) != 0) { channel->scriptState.depth = 0; channel->scriptState.pc = arg2; channel->enabled = 1; channel->finished = 0; channel->delay = 0; for (i = 0; i < ARRAY_COUNT(channel->layers); i++) { if (channel->layers[i] != NULL) { func_8001410C(channel, i); } } } } void func_800144E4(SequencePlayer* seqPlayer) { func_80014370(seqPlayer, 0xFFFF); func_80012964(&seqPlayer->notePool); seqPlayer->finished = 1; seqPlayer->enabled = 0; if ((gSeqLoadStatus[seqPlayer->seqId] >= 2) && (gSeqLoadStatus[seqPlayer->seqId] != 5)) { gSeqLoadStatus[seqPlayer->seqId] = 3; } if ((gFontLoadStatus[seqPlayer->defaultFont] >= 2) && (gFontLoadStatus[seqPlayer->defaultFont] != 5)) { gFontLoadStatus[seqPlayer->defaultFont] = 4; } if (seqPlayer->defaultFont == gFontCache.temporary.entries[0].id) { gFontCache.temporary.nextSide = 1; } else if (seqPlayer->defaultFont == gFontCache.temporary.entries[1].id) { gFontCache.temporary.nextSide = 0; } } void func_800145BC(AudioListItem* list, AudioListItem* item) { if (item->prev == NULL) { list->prev->next = item; item->prev = list->prev; item->next = list; list->prev = item; list->u.count++; item->pool = list->pool; } } void* func_800145FC(AudioListItem* list) { AudioListItem* item = list->prev; if (item == list) { return NULL; } item->prev->next = list; list->prev = item->prev; item->prev = NULL; list->u.count--; return item->u.count; } void func_8001463C(void) { s32 i; gLayerFreeList.prev = &gLayerFreeList; gLayerFreeList.next = &gLayerFreeList; gLayerFreeList.u.value = NULL; gLayerFreeList.pool = NULL; for (i = 0; i < 64; i++) { gSeqLayers[i].listItem.u.value = &gSeqLayers[i]; gSeqLayers[i].listItem.prev = NULL; func_800145BC(&gLayerFreeList, &gSeqLayers[i].listItem); } } u8 func_800146C0(SeqScriptState* state) { return *(state->pc++); } s16 func_800146D4(SeqScriptState* state) { s16 ret = *(state->pc++) << 8; ret = *(state->pc++) | ret; return ret; } u16 func_80014704(SeqScriptState* state) { u16 ret = *(state->pc++); if (ret & 0x80) { ret = (ret << 8) & 0x7F00; ret = *(state->pc++) | ret; } return ret; } void func_80014748(SequenceLayer* layer) { SequencePlayer* seqPlayer; SequenceChannel* channel; // sp60 SeqScriptState* state; u8 cmd; Drum* drum; Instrument* instrument; TunedSample* sample; Portamento* portamento; s16 var_s2; u16 sp44; // sp44 s32 sp40 = true; // sp40 if (!layer->enabled) { return; } if (layer->delay >= 2) { layer->delay--; if (!layer->muted && (layer->gateDelay >= layer->delay)) { func_8001266C(layer); layer->muted = 1; } return; } if (!layer->continuousNotes) { func_8001266C(layer); } else if ((layer->note != NULL) && (layer == layer->note->playbackState.wantedParentLayer)) { func_8001266C(layer); } if (((layer->portamento.mode & ~0x80) == 1) || ((layer->portamento.mode & ~0x80) == 2)) { layer->portamento.mode = 0; } channel = layer->channel; state = &layer->state; seqPlayer = channel->seqPlayer; layer->ignoreDrumPan = 1; while (true) { cmd = func_800146C0(state); if (cmd <= 0xC0) { break; } switch (cmd) { /* switch 5; irregular */ case 0xFF: if (state->depth == 0) { func_800140D0(layer); return; } state->pc = state->stack[--state->depth]; break; case 0xFC: sp44 = func_800146D4(state); state->stack[state->depth] = state->pc; state->depth++; state->pc = &seqPlayer->seqData[sp44]; break; case 0xF8: state->remLoopIters[state->depth] = func_800146C0(state); state->stack[state->depth] = state->pc; state->depth++; break; case 0xF7: state->remLoopIters[state->depth - 1]--; if (state->remLoopIters[state->depth - 1] != 0) { state->pc = state->stack[state->depth - 1]; } else { state->depth--; } break; case 0xFB: sp44 = func_800146D4(state); state->pc = &seqPlayer->seqData[sp44]; break; case 0xF4: state->pc += (s8) func_800146C0(state); break; case 0xC1: case 0xCA: var_s2 = *state->pc++; if (cmd == 0xC1) { layer->velocitySquare = (f32) (var_s2 * var_s2) / 16129.0f; } else { layer->pan = var_s2; } break; case 0xC2: case 0xC9: var_s2 = *state->pc++; if (cmd == 0xC9) { layer->gateTime = var_s2; } else { layer->transposition = var_s2; } break; case 0xC4: case 0xC5: if (cmd == 0xC4) { layer->continuousNotes = 1; } else { layer->continuousNotes = 0; } func_8001266C(layer); break; case 0xC3: sp44 = func_80014704(state); layer->shortNoteDefaultDelay = sp44; break; case 0xC6: cmd = func_800146C0(state); if (cmd >= 127) { if (cmd == 127) { layer->instOrWave = 0; } else { layer->instOrWave = cmd; layer->instrument = NULL; } if (cmd == 255) { layer->adsr.decayIndex = 0; } } else { // cmd = func_800152C0(channel, cmd, &layer->instrument, &layer->adsr); // layer->instOrWave = cmd; if ((layer->instOrWave = func_800152C0(channel, cmd, &layer->instrument, &layer->adsr)) == 0) { layer->instOrWave = 0xFF; } } break; case 0xC7: layer->portamento.mode = func_800146C0(state); cmd = func_800146C0(state) + channel->transposition + layer->transposition + seqPlayer->transposition; if (cmd > 127) { cmd = 0; } layer->portamentoTargetNote = cmd; if (layer->portamento.mode & 0x80) { layer->portamentoTime = *state->pc++; } else { sp44 = func_80014704(state); layer->portamentoTime = sp44; } break; case 0xC8: layer->portamento.mode = 0; break; case 0xCB: sp44 = func_800146D4(state); layer->adsr.envelope = (EnvelopePoint*) &seqPlayer->seqData[sp44]; layer->adsr.decayIndex = func_800146C0(state); break; case 0xCC: layer->bit1 = 1; break; case 0xCD: layer->stereo.asByte = func_800146C0(state); break; default: switch (cmd & 0xF0) { /* switch 6; irregular */ case 0xD0: sp44 = (u16) seqPlayer->shortNoteVelocityTable[cmd & 0xF]; layer->velocitySquare = (f32) (sp44 * sp44) / 16129.0f; break; case 0xE0: layer->gateTime = seqPlayer->shortNoteGateTimeTable[cmd & 0xF]; break; default: break; } break; } } if (cmd == 0xC0) { layer->delay = func_80014704(state); layer->muted = true; } else { f32 tuning; f32 freqMod; u32 instOrWave; s32 vel; // sp30 f32 temp_fa1; f32 temp_fv1; f32 var_v0_2; s32 temp2; layer->muted = false; if (channel->largeNotes == 1) { switch (cmd & 0xC0) { case 0x00: sp44 = func_80014704(state); vel = *state->pc++; layer->gateTime = *state->pc++; layer->lastDelay = sp44; break; case 0x40: sp44 = func_80014704(state); vel = *state->pc++; layer->gateTime = 0; layer->lastDelay = sp44; break; case 0x80: sp44 = layer->lastDelay; vel = *state->pc++; layer->gateTime = *state->pc++; break; } if ((vel > 127) || (vel < 0)) { vel = 127; } layer->velocitySquare = SQ((f32) vel) / 16129.0f; cmd -= (cmd & 0xC0); } else { switch (cmd & 0xC0) { /* switch 4; irregular */ case 0x0: sp44 = func_80014704(state); layer->lastDelay = sp44; break; case 0x40: sp44 = layer->shortNoteDefaultDelay; break; case 0x80: sp44 = layer->lastDelay; break; } cmd -= (cmd & 0xC0); } layer->delay = sp44; layer->gateDelay = (layer->gateTime * sp44) >> 8; if ((seqPlayer->muted && (channel->muteBehavior & 0x50)) || (channel->muted)) { layer->muted = 1; } else { instOrWave = layer->instOrWave; if (instOrWave == 0xFF) { if (!channel->hasInstrument) { return; } instOrWave = channel->instOrWave; } if (instOrWave == 0) { cmd = cmd + channel->transposition + layer->transposition; drum = Audio_GetDrum(channel->fontId, cmd); if (drum == NULL) { layer->muted = true; layer->delay2 = layer->delay; return; } layer->adsr.envelope = drum->envelope; layer->adsr.decayIndex = drum->adsrDecayIndex; if (!layer->bit1) { layer->pan = drum->pan; } layer->tunedSample = &drum->tunedSample; layer->freqMod = layer->tunedSample->tuning; } else { cmd = cmd + seqPlayer->transposition + channel->transposition + layer->transposition; if (cmd >= 0x80) { layer->muted = 1; } else { if (layer->instOrWave == 0xFF) { instrument = channel->instrument; } else { instrument = layer->instrument; } if (layer->portamento.mode != 0) { if (layer->portamentoTargetNote < cmd) { temp2 = cmd; } else { temp2 = layer->portamentoTargetNote; } if (instrument != NULL) { sample = func_80011D10(instrument, temp2); sp40 = (sample == layer->tunedSample); layer->tunedSample = sample; tuning = sample->tuning; } else { tuning = 1.0f; layer->tunedSample = NULL; } temp_fv1 = gPitchFrequencies[cmd] * tuning; temp_fa1 = gPitchFrequencies[layer->portamentoTargetNote] * tuning; portamento = &layer->portamento; switch (portamento->mode & ~0x80) { case 1: case 3: case 5: var_v0_2 = temp_fv1; freqMod = temp_fa1; break; case 2: case 4: freqMod = temp_fv1; var_v0_2 = temp_fa1; break; default: freqMod = temp_fv1; var_v0_2 = temp_fv1; break; } portamento->extent = (var_v0_2 / freqMod) - 1.0f; if (layer->portamento.mode & 0x80) { portamento->speed = ((s32) seqPlayer->tempo * 32512.0f) / ((f32) layer->delay * gMaxTempo * (s32) layer->portamentoTime); } else { portamento->speed = 127.0f / (s32) layer->portamentoTime; } portamento->cur = 0.0f; layer->freqMod = freqMod; if ((layer->portamento.mode & ~0x80) == 5) { layer->portamentoTargetNote = cmd; } } else if (instrument != NULL) { sample = func_80011D10(instrument, cmd); sp40 = (sample == layer->tunedSample); layer->tunedSample = sample; layer->freqMod = gPitchFrequencies[cmd] * sample->tuning; } else { layer->tunedSample = NULL; layer->freqMod = gPitchFrequencies[cmd]; } } } layer->delay2 = layer->delay; } } if ((layer->muted == 0) && (layer->tunedSample != NULL) && (layer->tunedSample->sample->codec == 2) && (layer->tunedSample->sample->medium != 0)) { layer->muted = 1; } if (layer->muted == 1) { if ((layer->note != NULL) || (layer->continuousNotes)) { func_8001266C(layer); } } else { cmd = 0; if (!layer->continuousNotes) { cmd = 1; } else if ((layer->note == NULL) || ((u8) layer->unk_3 == 0)) { cmd = 1; } else if (sp40 == 0) { func_8001266C(layer); cmd = 1; } else if (layer != layer->note->playbackState.parentLayer) { cmd = 1; } else if (layer->tunedSample == NULL) { func_800127B0(layer->note, layer); } if (cmd != 0) { layer->note = func_8001301C(layer); } if ((layer->note != NULL) && (layer == layer->note->playbackState.parentLayer)) { func_80013A84(layer->note); } } if (!channel) {} } u8 func_800152C0(SequenceChannel* channel, u8 arg1, Instrument** instrument, AdsrSettings* adsrSettings) { Instrument* temp_v0; temp_v0 = Audio_GetInstrument(channel->fontId, arg1); if (temp_v0 == NULL) { *instrument = NULL; return 0; } adsrSettings->envelope = temp_v0->envelope; adsrSettings->decayIndex = temp_v0->adsrDecayIndex; *instrument = temp_v0; arg1++; return arg1; } void func_80015330(SequenceChannel* channel, u8 arg1) { if (arg1 >= 0x80) { channel->instOrWave = arg1; channel->instrument = NULL; } else if (arg1 == 0x7F) { channel->instOrWave = 0; channel->instrument = (Instrument*) 1; } else { if ((channel->instOrWave = func_800152C0(channel, arg1, &channel->instrument, &channel->adsr)) == 0) { channel->hasInstrument = 0; return; } } channel->hasInstrument = 1; } void func_800153C4(SequenceChannel* channel, u8 arg1) { channel->volume = (s32) arg1 / 127.0f; } void func_800153E8(SequenceChannel* channel) { s32 i; SequencePlayer* seqPlayer; u8 cmd; s8 temps8; u8 loBits; u16 sp52; SeqScriptState* state; s8 sp4B; u8* seqData; s32 pad; if (!channel->enabled) { return; } if (channel->stopScript) { for (i = 0; i < ARRAY_COUNT(channel->layers); i++) { if (channel->layers[i] != NULL) { func_80014748(channel->layers[i]); } } return; } seqPlayer = channel->seqPlayer; if ((seqPlayer->muted) && (channel->muteBehavior & 0x80)) { return; } if (channel->delay != 0) { channel->delay--; } if (channel->delay == 0) { while (true) { state = &channel->scriptState; cmd = func_800146C0(state); if (cmd > 0xC0) { switch (cmd) { case 0xD5: case 0xD6: break; case 0xFF: if (state->depth == 0) { func_8001415C(channel); goto end_loop; } state->pc = state->stack[--state->depth]; break; case 0xFE: goto end_loop; case 0xFD: channel->delay = func_80014704(state); goto end_loop; case 0xEA: channel->stopScript = 1; goto end_loop; case 0xFC: // if (0 && state->depth >= 4) { // } sp52 = func_800146D4(state); state->stack[state->depth] = state->pc; state->depth++; state->pc = &seqPlayer->seqData[sp52]; break; case 0xF8: // if (0 && state->depth >= 4) { // } state->remLoopIters[state->depth] = func_800146C0(state); state->stack[state->depth] = state->pc; state->depth++; break; case 0xF7: state->remLoopIters[state->depth - 1]--; if (state->remLoopIters[state->depth - 1] != 0) { state->pc = state->stack[state->depth - 1]; } else { state->depth--; } break; case 0xF6: state->depth--; break; case 0xF5: case 0xF9: case 0xFA: case 0xFB: sp52 = func_800146D4(state); if (((cmd == 0xFA) && (sp4B != 0)) || ((cmd == 0xF9) && (sp4B >= 0)) || ((cmd == 0xF5) && (sp4B < 0))) { break; } state->pc = &seqPlayer->seqData[sp52]; break; case 0xF2: case 0xF3: case 0xF4: temps8 = func_800146C0(state); if (((cmd == 0xF3) && (sp4B != 0)) || ((cmd == 0xF2) && (sp4B >= 0))) { break; } state->pc = &state->pc[temps8]; break; case 0xF1: func_80012964(&channel->notePool); func_80012AC4(&channel->notePool, func_800146C0(state)); break; case 0xF0: func_80012964(&channel->notePool); break; case 0xC2: sp52 = func_800146D4(state); channel->dynTable = (u8(*)[2]) & seqPlayer->seqData[sp52]; break; case 0xC5: if (sp4B != -1) { seqData = channel->dynTable[sp4B]; sp52 = (seqData[0] << 8) + seqData[1]; channel->dynTable = (u8(*)[2]) & seqPlayer->seqData[sp52]; } break; case 0xEB: cmd = func_800146C0(state); sp52 = ((u16*) gSeqFontTable)[seqPlayer->seqId]; loBits = gSeqFontTable[sp52]; cmd = gSeqFontTable[sp52 + loBits - cmd]; if (AudioHeap_SearchCaches(1, 2, cmd) != 0) { channel->fontId = cmd; } /* fallthrough */ case 0xC1: cmd = func_800146C0(state); func_80015330(channel, cmd); break; case 0xC3: channel->largeNotes = false; break; case 0xC4: channel->largeNotes = true; break; case 0xDF: cmd = func_800146C0(state); func_800153C4(channel, cmd); channel->changes.s.volume = 1; break; case 0xE0: channel->volumeMod = (s32) func_800146C0(state) / 128.0f; channel->changes.s.volume = 1; break; case 0xDE: sp52 = func_800146D4(state); channel->freqMod = (s32) sp52 / 32768.0f; channel->changes.s.freqMod = 1; break; case 0xD3: cmd = func_800146C0(state) + 0x80; channel->freqMod = gBendPitchOneOctaveFrequencies[cmd]; channel->changes.s.freqMod = 1; break; case 0xEE: cmd = func_800146C0(state) + 0x80; channel->freqMod = gBendPitchTwoSemitonesFrequencies[cmd]; channel->changes.s.freqMod = 1; break; case 0xDD: channel->newPan = func_800146C0(state); channel->changes.s.pan = 1; break; case 0xDC: channel->panChannelWeight = func_800146C0(state); channel->changes.s.pan = 1; break; case 0xDB: temps8 = *(state->pc++); channel->transposition = temps8; break; case 0xDA: sp52 = func_800146D4(state); channel->adsr.envelope = (EnvelopePoint*) &seqPlayer->seqData[sp52]; break; case 0xD9: channel->adsr.decayIndex = func_800146C0(state); break; case 0xD8: channel->vibratoDepthTarget = func_800146C0(state) * 8; channel->vibratoDepthStart = 0; channel->vibratoDepthChangeDelay = 0; break; case 0xD7: channel->vibratoRateStart = channel->vibratoRateTarget = func_800146C0(state) * 32; channel->vibratoRateChangeDelay = 0; break; case 0xE2: channel->vibratoDepthStart = func_800146C0(state) * 8; channel->vibratoDepthTarget = func_800146C0(state) * 8; channel->vibratoDepthChangeDelay = func_800146C0(state) * 0x10; break; case 0xE1: channel->vibratoRateStart = func_800146C0(state) * 32; channel->vibratoRateTarget = func_800146C0(state) * 32; channel->vibratoRateChangeDelay = func_800146C0(state) * 0x10; break; case 0xE3: channel->vibratoDelay = func_800146C0(state) * 0x10; break; case 0xD4: channel->targetReverbVol = func_800146C0(state); break; case 0xC6: cmd = func_800146C0(state); sp52 = ((u16*) gSeqFontTable)[seqPlayer->seqId]; loBits = gSeqFontTable[sp52]; cmd = gSeqFontTable[sp52 + loBits - cmd]; if (AudioHeap_SearchCaches(1, 2, cmd) != 0) { channel->fontId = cmd; } break; case 0xC7: cmd = func_800146C0(state); sp52 = func_800146D4(state); seqData = &seqPlayer->seqData[sp52]; *seqData = (u8) sp4B + cmd; break; case 0xC8: case 0xC9: case 0xCC: temps8 = func_800146C0(state); if (cmd == 0xC8) { sp4B -= temps8; } else if (cmd == 0xCC) { sp4B = temps8; } else { sp4B &= temps8; } break; case 0xCD: func_8001415C(seqPlayer->channels[func_800146C0(state)]); break; case 0xCA: channel->muteBehavior = func_800146C0(state); break; case 0xCB: sp52 = func_800146D4(state); pad = sp52 + sp4B; // seqData =&seqPlayer->seqData[sp4B]; sp4B = seqPlayer->seqData[pad]; break; case 0xCE: channel->unkC4 = func_800146D4(state); break; case 0xCF: sp52 = func_800146D4(state); seqData = &seqPlayer->seqData[sp52]; seqData[0] = (channel->unkC4 >> 8) & 0xFF; seqData[1] = channel->unkC4 & 0xFF; break; case 0xD0: channel->stereoHeadsetEffects = func_800146C0(state); break; case 0xD1: channel->noteAllocPolicy = func_800146C0(state); break; case 0xD2: channel->adsr.sustain = func_800146C0(state); break; case 0xE5: channel->someOtherPriority = func_800146C0(state); break; case 0xE4: if (sp4B != -1) { if (state->depth >= 4) { // eu_stubbed_printf_0("Audio:Track: CTBLCALL Macro Level Over Error!\n"); } seqData = channel->dynTable[sp4B]; state->stack[state->depth++] = state->pc; sp52 = (seqData[0] << 8) + seqData[1]; state->pc = &seqPlayer->seqData[sp52]; // if (0 && sp52 >= gSequenceTable->entries[seqPlayer->seqId].size) { // // eu_stubbed_printf_3("Err :Sub %x ,address %x:Undefined SubTrack Function %x", // seqChannel, state->pc, sp38); // } } break; case 0xE6: channel->bookOffset = func_800146C0(state); break; case 0xE7: sp52 = func_800146D4(state); seqData = &seqPlayer->seqData[sp52]; channel->muteBehavior = *seqData++; channel->noteAllocPolicy = *seqData++; channel->notePriority = *seqData++; channel->transposition = (s8) *seqData++; channel->newPan = *seqData++; channel->panChannelWeight = *seqData++; channel->targetReverbVol = *seqData++; channel->someOtherPriority = *seqData++; channel->changes.s.pan = 1; break; case 0xE8: channel->muteBehavior = func_800146C0(state); channel->noteAllocPolicy = func_800146C0(state); channel->notePriority = func_800146C0(state); channel->transposition = (s8) func_800146C0(state); channel->newPan = func_800146C0(state); channel->panChannelWeight = func_800146C0(state); channel->targetReverbVol = func_800146C0(state); channel->someOtherPriority = func_800146C0(state); channel->changes.s.pan = 1; break; case 0xEC: channel->vibratoDepthTarget = 0; channel->vibratoDepthStart = 0; channel->vibratoDepthChangeDelay = 0; channel->vibratoRateTarget = 0; channel->vibratoRateStart = 0; channel->vibratoRateChangeDelay = 0; channel->freqMod = 1.0f; break; case 0xE9: channel->notePriority = func_800146C0(state); break; case 0xED: // cmd = channel->reverbIndex = func_800146C0(state); break; case 0xEF: func_800146D4(state); func_800146C0(state); break; } } else { loBits = cmd & 0xF; switch (cmd & 0xF0) { case 0x0: if (channel->layers[loBits] != NULL) { sp4B = channel->layers[loBits]->finished; } else { sp4B = -1; } break; case 0x10: channel->seqScriptIO[loBits] = -1; if (AudioLoad_SlowLoadSample(channel->fontId, sp4B, &channel->seqScriptIO[loBits]) == -1) {} break; case 0x70: channel->seqScriptIO[loBits] = sp4B; break; case 0x80: sp4B = channel->seqScriptIO[loBits]; if (loBits < 4) { channel->seqScriptIO[loBits] = -1; } break; case 0x50: sp4B -= channel->seqScriptIO[loBits]; break; case 0x60: channel->delay = loBits; goto end_loop; case 0x90: sp52 = func_800146D4(state); if (func_80013FC4(channel, loBits) == 0) { // if(1) {} channel->layers[loBits]->state.pc = &seqPlayer->seqData[sp52]; } break; case 0xA0: func_8001410C(channel, loBits); break; case 0xB0: if ((sp4B != -1) && (func_80013FC4(channel, loBits) != -1)) { seqData = channel->dynTable[sp4B]; sp52 = (seqData[0] << 8) + seqData[1]; channel->layers[loBits]->state.pc = &seqPlayer->seqData[sp52]; } break; case 0x20: sp52 = func_800146D4(state); func_80014440(seqPlayer, loBits, &seqPlayer->seqData[sp52]); break; case 0x30: cmd = func_800146C0(state); seqPlayer->channels[loBits]->seqScriptIO[cmd] = sp4B; break; case 0x40: cmd = func_800146C0(state); sp4B = seqPlayer->channels[loBits]->seqScriptIO[cmd]; break; } } } } end_loop:; for (i = 0; i < ARRAY_COUNT(channel->layers); i++) { if (channel->layers[i] != NULL) { func_80014748(channel->layers[i]); } } } void func_80015FD4(SequencePlayer* seqPlayer) { u8 temp_s2; u8 temp_v0_8; u16 temp_v0_7; u8* temp_v1_7; SeqScriptState* temp_s0; s32 sp50; s32 i; s8 pad; u8* pad2; s32 pad3; if (!seqPlayer->enabled) { return; } if (((gSeqLoadStatus[seqPlayer->seqId] < 2) != 0) || ((seqPlayer->defaultFont != 0xFF) && ((gFontLoadStatus[seqPlayer->defaultFont] < 2) != 0))) { func_800144E4(seqPlayer); return; } if (gSeqLoadStatus[seqPlayer->seqId] != 5) { gSeqLoadStatus[seqPlayer->seqId] = 2; } if (gFontLoadStatus[seqPlayer->defaultFont] != 5) { gFontLoadStatus[seqPlayer->defaultFont] = 2; } if (seqPlayer->muted && (seqPlayer->muteBehavior & 0x80)) { return; } seqPlayer->tempoAcc += seqPlayer->tempo; seqPlayer->tempoAcc = seqPlayer->tempoAcc + (s16) seqPlayer->tempoChange; if (seqPlayer->tempoAcc < gMaxTempo) { return; } seqPlayer->tempoAcc = (seqPlayer->tempoAcc - gMaxTempo) & 0xFFFF; // fake? if (seqPlayer->delay > 1) { seqPlayer->delay--; } else { temp_s0 = &seqPlayer->scriptState; seqPlayer->recalculateVolume = true; while (true) { temp_s2 = func_800146C0(temp_s0); if (temp_s2 == 0xFF) { if (temp_s0->depth == 0) { func_800144E4(seqPlayer); break; } temp_s0->pc = temp_s0->stack[--temp_s0->depth]; } if (temp_s2 == 0xFD) { seqPlayer->delay = func_80014704(temp_s0); break; } if (temp_s2 == 0xFE) { seqPlayer->delay = 1; break; } if (temp_s2 >= 0xC0) { switch (temp_s2) { case 0xFF: break; case 0xFC: temp_v0_7 = func_800146D4(temp_s0); temp_s0->stack[temp_s0->depth] = temp_s0->pc; temp_s0->depth++; temp_s0->pc = &seqPlayer->seqData[temp_v0_7]; break; case 0xF8: temp_s0->remLoopIters[temp_s0->depth] = func_800146C0(temp_s0); temp_s0->stack[temp_s0->depth] = temp_s0->pc; temp_s0->depth++; break; case 0xF7: temp_s0->remLoopIters[temp_s0->depth - 1]--; if (temp_s0->remLoopIters[temp_s0->depth - 1] != 0) { temp_s0->pc = temp_s0->stack[temp_s0->depth - 1]; } else { temp_s0->depth--; } break; case 0xF5: case 0xF9: case 0xFA: case 0xFB: temp_v0_7 = func_800146D4(temp_s0); if (((temp_s2 != 0xFA) || (sp50 == 0)) && ((temp_s2 != 0xF9) || (sp50 < 0)) && ((temp_s2 != 0xF5) || (sp50 >= 0))) { temp_s0->pc = &seqPlayer->seqData[temp_v0_7]; } break; case 0xF2: case 0xF3: case 0xF4: pad = func_800146C0(temp_s0); if (((temp_s2 != 0xF3) || (sp50 == 0)) && ((temp_s2 != 0xF2) || (sp50 < 0))) { temp_s0->pc = &temp_s0->pc[pad]; } break; case 0xF1: func_80012964(&seqPlayer->notePool); func_80012AC4(&seqPlayer->notePool, func_800146C0(temp_s0)); break; case 0xF0: func_80012964(&seqPlayer->notePool); break; case 0xDF: seqPlayer->transposition = 0; /* fallthrough */ case 0xDE: seqPlayer->transposition += (s8) func_800146C0(temp_s0); break; case 0xDD: seqPlayer->tempo = func_800146C0(temp_s0) * 0x30; if (seqPlayer->tempo > gMaxTempo) { seqPlayer->tempo = gMaxTempo; } if ((s16) seqPlayer->tempo <= 0) { seqPlayer->tempo = 1; } break; case 0xDC: seqPlayer->tempoChange = (s8) func_800146C0(temp_s0) * 0x30; break; case 0xDA: temp_s2 = func_800146C0(temp_s0); temp_v0_7 = func_800146D4(temp_s0); switch (temp_s2) { case 0: case 1: if (seqPlayer->state != 2) { seqPlayer->fadeTimerUnkEu = temp_v0_7; seqPlayer->state = temp_s2; } break; case 2: seqPlayer->fadeTimer = temp_v0_7; seqPlayer->state = temp_s2; seqPlayer->fadeVelocity = (0.0f - seqPlayer->fadeVolume) / (s32) seqPlayer->fadeTimer; break; } break; case 0xDB: temp_v0_8 = func_800146C0(temp_s0); switch (seqPlayer->state) { case 2: break; case 1: seqPlayer->state = 0; seqPlayer->fadeVolume = 0.0f; /* fallthrough */ case 0: seqPlayer->fadeTimer = seqPlayer->fadeTimerUnkEu; if (seqPlayer->fadeTimerUnkEu != 0) { seqPlayer->fadeVelocity = (((s32) temp_v0_8 / 127.0f) - seqPlayer->fadeVolume) / (s32) seqPlayer->fadeTimer; } else { seqPlayer->fadeVolume = (s32) temp_v0_8 / 127.f; } break; } break; case 0xD9: seqPlayer->fadeVolumeMod = (s8) func_800146C0(temp_s0) / 127.0f; break; case 0xD7: func_80014244(seqPlayer, func_800146D4(temp_s0)); break; case 0xD6: func_80014370(seqPlayer, func_800146D4(temp_s0)); break; case 0xD5: seqPlayer->muteVolumeMod = (s8) func_800146C0(temp_s0) / 127.0f; break; case 0xD4: seqPlayer->muted = 1; break; case 0xD3: seqPlayer->muteBehavior = func_800146C0(temp_s0); break; case 0xD1: case 0xD2: temp_v0_7 = func_800146D4(temp_s0); temp_v1_7 = &seqPlayer->seqData[(temp_v0_7)]; if (temp_s2 == 0xD2) { seqPlayer->shortNoteVelocityTable = temp_v1_7; } else { seqPlayer->shortNoteGateTimeTable = temp_v1_7; } break; case 0xD0: seqPlayer->noteAllocPolicy = func_800146C0(temp_s0); break; case 0xCC: sp50 = func_800146C0(temp_s0); break; case 0xC9: sp50 &= func_800146C0(temp_s0); break; case 0xC8: sp50 -= func_800146C0(temp_s0); break; case 0xC7: temp_s2 = func_800146C0(temp_s0); temp_v0_7 = func_800146D4(temp_s0); temp_v1_7 = &seqPlayer->seqData[temp_v0_7]; temp_v0_8 = sp50; *temp_v1_7 = temp_v0_8 + temp_s2; break; } } else { switch (temp_s2 & 0xF0) { case 0x0: sp50 = seqPlayer->channels[(u8) (temp_s2 & 0xF)]->finished; break; case 0x50: sp50 -= seqPlayer->unk_07[0]; break; case 0x70: seqPlayer->unk_07[0] = sp50; break; case 0x80: sp50 = seqPlayer->unk_07[0]; break; case 0x90: temp_v0_7 = func_800146D4(temp_s0); func_80014440(seqPlayer, temp_s2 & 0xF, &seqPlayer->seqData[temp_v0_7]); break; case 0x10: break; case 0x20: break; case 0x40: break; case 0x60: break; case 0xA0: break; } } } } for (i = 0; i < 0x10; i++) { if (IS_SEQUENCE_CHANNEL_VALID(seqPlayer->channels[i]) == 1) { func_800153E8(seqPlayer->channels[i]); } } } void func_8001678C(s32 arg0) { s32 i; for (i = 0; i < ARRAY_COUNT(gSeqPlayers); i++) { if (gSeqPlayers[i].enabled == 1) { func_80015FD4(&gSeqPlayers[i]); func_800135A8(&gSeqPlayers[i]); } } func_80011FA8(); } void func_80016804(s32 arg0) { SequencePlayer* seqPlayer = &gSeqPlayers[arg0]; func_800144E4(seqPlayer); seqPlayer->delay = 0; seqPlayer->state = 1; seqPlayer->fadeTimer = 0; seqPlayer->fadeTimerUnkEu = 0; seqPlayer->tempoAcc = 0; seqPlayer->tempo = 0x1680; seqPlayer->tempoChange = 0; seqPlayer->transposition = 0; seqPlayer->noteAllocPolicy = 0; seqPlayer->shortNoteVelocityTable = gDefaultShortNoteVelocityTable; seqPlayer->shortNoteGateTimeTable = gDefaultShortNoteGateTimeTable; seqPlayer->fadeVolume = 1.0f; seqPlayer->fadeVolumeMod = 1.0f; seqPlayer->fadeVelocity = 0.0f; seqPlayer->volume = 0.0f; seqPlayer->muteVolumeMod = 0.5f; } void func_800168BC(void) { s32 i; s32 j; for (i = 0; i < 48; i++) { gSeqChannels[i].seqPlayer = NULL; gSeqChannels[i].enabled = false; #ifdef AVOID_UB for (j = 0; j < ARRAY_COUNT(gSeqChannels->layers); j++) { #else for (j = 0; j < 64; j++) { // bug: this is ARRAY_COUNT(gSeqLayers) instead of ARRAY_COUNT(gSeqChannels[i].layers) #endif gSeqChannels[i].layers[j] = NULL; } } func_8001463C(); for (i = 0; i < 64; i++) { gSeqLayers[i].channel = NULL; gSeqLayers[i].enabled = false; } for (i = 0; i < ARRAY_COUNT(gSeqPlayers); i++) { for (j = 0; j < 16; j++) { gSeqPlayers[i].channels[j] = &gSeqChannelNone; } gSeqPlayers[i].unk_07[0] = -1; gSeqPlayers[i].muteBehavior = 0xE0; gSeqPlayers[i].enabled = false; gSeqPlayers[i].muted = false; gSeqPlayers[i].fontDmaInProgress = false; gSeqPlayers[i].seqDmaInProgress = false; func_80012864(&gSeqPlayers[i].notePool); func_80016804(i); } }