/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * $URL$ * $Id$ * */ #include "sci/engine/kernel.h" #include "sci/engine/state.h" #include "sci/sound/midiparser_sci.h" #include "sci/sound/drivers/mididriver.h" namespace Sci { static const int nMidiParams[] = { 2, 2, 2, 2, 1, 1, 2, 0 }; enum SciMidiCommands { kSetSignalLoop = 0x7F, kEndOfTrack = 0xFC, kSetReverb = 0x50, kMidiHold = 0x52, kUpdateCue = 0x60, kResetOnPause = 0x4C }; // MidiParser_SCI // MidiParser_SCI::MidiParser_SCI(SciVersion soundVersion, SciMusic *music) : MidiParser() { _soundVersion = soundVersion; _music = music; _mixedData = NULL; // mididata contains delta in 1/60th second // values of ppqn and tempo are found experimentally and may be wrong _ppqn = 1; setTempo(16667); _volume = 127; _signalSet = false; _signalToSet = 0; _dataincAdd = false; _dataincToAdd = 0; _resetOnPause = false; _pSnd = 0; } MidiParser_SCI::~MidiParser_SCI() { unloadMusic(); // we do this, so that MidiParser won't be able to call his own ::allNotesOff() // this one would affect all channels and we can't let that happen _driver = 0; } void MidiParser_SCI::mainThreadBegin() { _mainThreadCalled = true; } void MidiParser_SCI::mainThreadEnd() { _mainThreadCalled = false; } bool MidiParser_SCI::loadMusic(SoundResource::Track *track, MusicEntry *psnd, int channelFilterMask, SciVersion soundVersion) { unloadMusic(); _track = track; _pSnd = psnd; _soundVersion = soundVersion; for (int i = 0; i < 16; i++) { _channelUsed[i] = false; _channelRemap[i] = -1; _channelMuted[i] = false; _channelVolume[i] = 127; } _channelRemap[9] = 9; // never map channel 9, because that's used for percussion _channelRemap[15] = 15; // never map channel 15, because thats used by sierra internally if (channelFilterMask) { // SCI0 only has 1 data stream, but we need to filter out channels depending on music hardware selection midiFilterChannels(channelFilterMask); } else { midiMixChannels(); } _num_tracks = 1; _tracks[0] = _mixedData; if (_pSnd) setTrack(0); _loopTick = 0; return true; } byte MidiParser_SCI::midiGetNextChannel(long ticker) { byte curr = 0xFF; long closest = ticker + 1000000, next = 0; for (int i = 0; i < _track->channelCount; i++) { if (_track->channels[i].time == -1) // channel ended continue; SoundResource::Channel *curChannel = &_track->channels[i]; if (curChannel->curPos >= curChannel->size) continue; next = curChannel->data[curChannel->curPos]; // when the next event should occur if (next == 0xF8) // 0xF8 means 240 ticks delay next = 240; next += _track->channels[i].time; if (next < closest) { curr = i; closest = next; } } return curr; } byte *MidiParser_SCI::midiMixChannels() { int totalSize = 0; for (int i = 0; i < _track->channelCount; i++) { _track->channels[i].time = 0; _track->channels[i].prev = 0; _track->channels[i].curPos = 0; totalSize += _track->channels[i].size; } byte *outData = new byte[totalSize * 2]; // FIXME: creates overhead and still may be not enough to hold all data _mixedData = outData; long ticker = 0; byte channelNr, curDelta; byte midiCommand = 0, midiParam, global_prev = 0; long newDelta; SoundResource::Channel *channel; while ((channelNr = midiGetNextChannel(ticker)) != 0xFF) { // there is still an active channel channel = &_track->channels[channelNr]; curDelta = channel->data[channel->curPos++]; channel->time += (curDelta == 0xF8 ? 240 : curDelta); // when the command is supposed to occur if (curDelta == 0xF8) continue; newDelta = channel->time - ticker; ticker += newDelta; midiCommand = channel->data[channel->curPos++]; if (midiCommand != kEndOfTrack) { // Write delta while (newDelta > 240) { *outData++ = 0xF8; newDelta -= 240; } *outData++ = (byte)newDelta; } // Write command switch (midiCommand) { case 0xF0: // sysEx *outData++ = midiCommand; do { midiParam = channel->data[channel->curPos++]; *outData++ = midiParam; } while (midiParam != 0xF7); break; case kEndOfTrack: // end of channel channel->time = -1; break; default: // MIDI command if (midiCommand & 0x80) { midiParam = channel->data[channel->curPos++]; } else {// running status midiParam = midiCommand; midiCommand = channel->prev; } // remember which channel got used for channel remapping byte midiChannel = midiCommand & 0xF; _channelUsed[midiChannel] = true; if (midiCommand != global_prev) *outData++ = midiCommand; *outData++ = midiParam; if (nMidiParams[(midiCommand >> 4) - 8] == 2) *outData++ = channel->data[channel->curPos++]; channel->prev = midiCommand; global_prev = midiCommand; } } // Insert stop event *outData++ = 0; // Delta *outData++ = 0xFF; // Meta event *outData++ = 0x2F; // End of track (EOT) *outData++ = 0x00; *outData++ = 0x00; return _mixedData; } // This is used for SCI0 sound-data. SCI0 only has one stream that may // contain several channels and according to output device we remove // certain channels from that data. byte *MidiParser_SCI::midiFilterChannels(int channelMask) { SoundResource::Channel *channel = &_track->channels[0]; byte *channelData = channel->data; byte *channelDataEnd = channel->data + channel->size; byte *outData = new byte[channel->size + 5]; byte curChannel = 15, curByte, curDelta; byte command = 0, lastCommand = 0; int delta = 0; int midiParamCount = 0; _mixedData = outData; while (channelData < channelDataEnd) { curDelta = *channelData++; if (curDelta == 0xF8) { delta += 240; continue; } delta += curDelta; curByte = *channelData++; switch (curByte) { case 0xF0: // sysEx case kEndOfTrack: // end of channel command = curByte; curChannel = 15; break; default: if (curByte & 0x80) { command = curByte; curChannel = command & 0x0F; midiParamCount = nMidiParams[(command >> 4) - 8]; } } if ((1 << curChannel) & channelMask) { if (command != kEndOfTrack) { // Write delta while (delta > 240) { *outData++ = 0xF8; delta -= 240; } *outData++ = (byte)delta; delta = 0; } // Write command switch (command) { case 0xF0: // sysEx *outData++ = command; do { curByte = *channelData++; *outData++ = curByte; // out } while (curByte != 0xF7); lastCommand = command; break; case kEndOfTrack: // end of channel break; default: // MIDI command // remember which channel got used for channel remapping byte midiChannel = command & 0xF; _channelUsed[midiChannel] = true; if (lastCommand != command) { *outData++ = command; lastCommand = command; } if (midiParamCount > 0) { if (curByte & 0x80) *outData++ = *channelData++; else *outData++ = curByte; } if (midiParamCount > 1) { *outData++ = *channelData++; } } } else { if (curByte & 0x80) channelData += midiParamCount; else channelData += midiParamCount - 1; } } // Insert stop event *outData++ = 0; // Delta *outData++ = 0xFF; // Meta event *outData++ = 0x2F; // End of track (EOT) *outData++ = 0x00; *outData++ = 0x00; return _mixedData; } // This will get called right before actual playing and will try to own the used channels void MidiParser_SCI::tryToOwnChannels() { // We don't have SciMusic in case debug command show_instruments is used if (!_music) return; for (int curChannel = 0; curChannel < 15; curChannel++) { if (_channelUsed[curChannel]) { if (_channelRemap[curChannel] == -1) { _channelRemap[curChannel] = _music->tryToOwnChannel(_pSnd, curChannel); } } } } void MidiParser_SCI::lostChannels() { for (int curChannel = 0; curChannel < 15; curChannel++) if ((_channelUsed[curChannel]) && (curChannel != 9)) _channelRemap[curChannel] = -1; } void MidiParser_SCI::sendInitCommands() { // reset our "global" volume and channel volumes _volume = 127; for (int i = 0; i < 16; i++) _channelVolume[i] = 127; // Set initial voice count if (_pSnd) { if (_soundVersion <= SCI_VERSION_0_LATE) { for (int i = 0; i < 15; ++i) { byte voiceCount = 0; if (_channelUsed[i]) { voiceCount = _pSnd->soundRes->getInitialVoiceCount(i); sendToDriver(0xB0 | i, 0x4B, voiceCount); } } } } // Send a velocity off signal to all channels for (int i = 0; i < 15; ++i) { if (_channelUsed[i]) sendToDriver(0xB0 | i, 0x4E, 0); // Reset velocity } // Center the pitch wheels and hold pedal in preparation for the next piece of music for (int i = 0; i < 16; ++i) { if (_channelUsed[i]) { sendToDriver(0xE0 | i, 0, 0x40); // Reset pitch wheel sendToDriver(0xB0 | i, 0x40, 0); // Reset hold pedal } } } void MidiParser_SCI::unloadMusic() { if (_pSnd) { resetTracking(); allNotesOff(); } _num_tracks = 0; _active_track = 255; _resetOnPause = false; if (_mixedData) { delete[] _mixedData; _mixedData = NULL; } } // this is used for scripts sending midi commands to us. we verify in that case that the channel is actually // used, so that channel remapping will work as well and then send them on void MidiParser_SCI::sendFromScriptToDriver(uint32 midi) { byte midiChannel = midi & 0xf; if (!_channelUsed[midiChannel]) { // trying to send to an unused channel // this happens for cmdSendMidi at least in sq1vga right at the start, it's a script issue return; } if (_channelRemap[midiChannel] == -1) { // trying to send to an unmapped channel // this happens for cmdSendMidi at least in sq1vga right at the start, scripts are pausing the sound // and then sending manually. it's a script issue return; } sendToDriver(midi); } void MidiParser_SCI::sendToDriver(uint32 midi) { byte midiChannel = midi & 0xf; if ((midi & 0xFFF0) == 0x4EB0) { // this is channel mute only for sci1 // it's velocity control for sci0 if (_soundVersion >= SCI_VERSION_1_EARLY) { _channelMuted[midiChannel] = midi & 0xFF0000 ? true : false; return; // don't send this to driver at all } } // Is channel muted? if so, don't send command if (_channelMuted[midiChannel]) return; if ((midi & 0xFFF0) == 0x07B0) { // someone trying to set channel volume? int channelVolume = (midi >> 16) & 0xFF; // Remember, if we need to set it ourselves _channelVolume[midiChannel] = channelVolume; // Adjust volume accordingly to current "global" volume channelVolume = channelVolume * _volume / 127; midi = (midi & 0xFFF0) | ((channelVolume & 0xFF) << 16); } // Channel remapping int16 realChannel = _channelRemap[midiChannel]; assert(realChannel != -1); midi = (midi & 0xFFFFFFF0) | realChannel; if (_mainThreadCalled) _music->putMidiCommandInQueue(midi); else _driver->send(midi); } void MidiParser_SCI::parseNextEvent(EventInfo &info) { // Set signal AFTER waiting for delta, otherwise we would set signal too soon resulting in all sorts of bugs if (_dataincAdd) { _dataincAdd = false; _pSnd->dataInc += _dataincToAdd; _pSnd->signal = 0x7f + _pSnd->dataInc; debugC(4, kDebugLevelSound, "datainc %04x", _dataincToAdd); } if (_signalSet) { _signalSet = false; _pSnd->signal = _signalToSet; debugC(4, kDebugLevelSound, "signal %04x", _signalToSet); } info.start = _position._play_pos; info.delta = 0; while (*_position._play_pos == 0xF8) { info.delta += 240; _position._play_pos++; } info.delta += *(_position._play_pos++); // Process the next info. if ((_position._play_pos[0] & 0xF0) >= 0x80) info.event = *(_position._play_pos++); else info.event = _position._running_status; if (info.event < 0x80) return; _position._running_status = info.event; switch (info.command()) { case 0xC: info.basic.param1 = *(_position._play_pos++); info.basic.param2 = 0; if (info.channel() == 0xF) {// SCI special case if (info.basic.param1 != kSetSignalLoop) { // at least in kq5/french&mac the first scene in the intro has a song that sets signal to 4 immediately // on tick 0. Signal isn't set at that point by sierra sci and it would cause the castle daventry text to // get immediately removed, so we currently filter it. // Sierra SCI ignores them as well at that time if (_position._play_tick) { _signalSet = true; _signalToSet = info.basic.param1; } } else { _loopTick = _position._play_tick + info.delta; } } break; case 0xD: info.basic.param1 = *(_position._play_pos++); info.basic.param2 = 0; break; case 0xB: info.basic.param1 = *(_position._play_pos++); info.basic.param2 = *(_position._play_pos++); if (info.channel() == 0xF) {// SCI special // Reference for some events: // http://wiki.scummvm.org/index.php/SCI/Specifications/Sound/SCI0_Resource_Format#Status_Reference // Also, sci/sound/iterator/iterator.cpp, function BaseSongIterator::parseMidiCommand() switch (info.basic.param1) { case kSetReverb: ((MidiPlayer *)_driver)->setReverb(info.basic.param2); break; case kMidiHold: // Check if the hold ID marker is the same as the hold ID // marker set for that song by cmdSetSoundHold. // If it is, loop back, but don't stop notes when jumping. if (info.basic.param2 == _pSnd->hold) jumpToTick(_loopTick, false, false); break; case kUpdateCue: _dataincAdd = true; switch (_soundVersion) { case SCI_VERSION_0_EARLY: case SCI_VERSION_0_LATE: _dataincToAdd = info.basic.param2; break; case SCI_VERSION_1_EARLY: case SCI_VERSION_1_LATE: _dataincToAdd = 1; break; default: error("unsupported _soundVersion"); } break; case kResetOnPause: _resetOnPause = info.basic.param2; break; // Unhandled SCI commands case 0x46: // LSL3 - binoculars case 0x61: // Iceman (AdLib?) case 0x73: // Hoyle case 0xD1: // KQ4, when riding the unicorn // Obscure SCI commands - ignored break; // Standard MIDI commands case 0x01: // mod wheel case 0x04: // foot controller case 0x07: // channel volume case 0x0A: // pan case 0x0B: // expression case 0x40: // sustain case 0x79: // reset all case 0x7B: // notes off // These are all handled by the music driver, so ignore them break; case 0x4B: // voice mapping // TODO: is any support for this needed at the MIDI parser level? warning("Unhanded SCI MIDI command 0x%x - voice mapping (parameter %d)", info.basic.param1, info.basic.param2); break; default: warning("Unhandled SCI MIDI command 0x%x (parameter %d)", info.basic.param1, info.basic.param2); break; } } info.length = 0; break; case 0x8: case 0x9: case 0xA: case 0xE: info.basic.param1 = *(_position._play_pos++); info.basic.param2 = *(_position._play_pos++); if (info.command() == 0x9 && info.basic.param2 == 0) info.event = info.channel() | 0x80; info.length = 0; break; case 0xF: // System Common, Meta or SysEx event switch (info.event & 0x0F) { case 0x2: // Song Position Pointer info.basic.param1 = *(_position._play_pos++); info.basic.param2 = *(_position._play_pos++); break; case 0x3: // Song Select info.basic.param1 = *(_position._play_pos++); info.basic.param2 = 0; break; case 0x6: case 0x8: case 0xA: case 0xB: case 0xC: case 0xE: info.basic.param1 = info.basic.param2 = 0; break; case 0x0: // SysEx info.length = readVLQ(_position._play_pos); info.ext.data = _position._play_pos; _position._play_pos += info.length; break; case 0xF: // META event info.ext.type = *(_position._play_pos++); info.length = readVLQ(_position._play_pos); info.ext.data = _position._play_pos; _position._play_pos += info.length; if (info.ext.type == 0x2F) {// end of track reached if (_pSnd->loop) _pSnd->loop--; if (_pSnd->loop) { // We need to play it again... jumpToTick(_loopTick); } else { _pSnd->status = kSoundStopped; _pSnd->signal = SIGNAL_OFFSET; debugC(4, kDebugLevelSound, "signal EOT"); } } break; default: warning( "MidiParser_SCI::parseNextEvent: Unsupported event code %x", info.event); } // // System Common, Meta or SysEx event }// switch (info.command()) } void MidiParser_SCI::allNotesOff() { if (!_driver) return; int i, j; // Turn off all active notes for (i = 0; i < 128; ++i) { for (j = 0; j < 16; ++j) { if ((_active_notes[i] & (1 << j)) && (_channelRemap[j] != -1)){ sendToDriver(0x80 | j, i, 0); } } } // Turn off all hanging notes for (i = 0; i < ARRAYSIZE(_hanging_notes); i++) { byte midiChannel = _hanging_notes[i].channel; if ((_hanging_notes[i].time_left) && (_channelRemap[midiChannel] != -1)) { sendToDriver(0x80 | midiChannel, _hanging_notes[i].note, 0); _hanging_notes[i].time_left = 0; } } _hanging_notes_count = 0; // To be sure, send an "All Note Off" event (but not all MIDI devices // support this...). for (i = 0; i < 16; ++i) { if (_channelRemap[i] != -1) sendToDriver(0xB0 | i, 0x7b, 0); // All notes off } memset(_active_notes, 0, sizeof(_active_notes)); } void MidiParser_SCI::setVolume(byte volume) { assert(volume <= MUSIC_VOLUME_MAX); _volume = volume; switch (_soundVersion) { case SCI_VERSION_0_EARLY: case SCI_VERSION_0_LATE: { // SCI0 adlib driver doesn't support channel volumes, so we need to go this way // TODO: this should take the actual master volume into account int16 globalVolume = _volume * 15 / 127; ((MidiPlayer *)_driver)->setVolume(globalVolume); break; } case SCI_VERSION_1_EARLY: case SCI_VERSION_1_LATE: // Send previous channel volumes again to actually update the volume for (int i = 0; i < 15; i++) if (_channelRemap[i] != -1) sendToDriver(0xB0 + i, 7, _channelVolume[i]); break; default: error("MidiParser_SCI::setVolume: Unsupported soundVersion"); } } } // End of namespace Sci