/* 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 "common/stream.h" #include "common/textconsole.h" #include "common/util.h" #include "audio/mixer.h" #include "audio/midiparser.h" #include "audio/midiplayer.h" #include "audio/mods/protracker.h" #include "audio/decoders/raw.h" #include "parallaction/disk.h" #include "parallaction/parallaction.h" #include "parallaction/sound.h" namespace Parallaction { /* * List of calls to the original music driver. * * * 1 set music buffer segment * 2 set music buffer offset * 3 set music buffer size * 4 play/resume * 5 stop * 6 pause * 7 set channel volume * 8 set fade in flag * 9 set fade out flag * 10 set global volume * 11 shutdown * 12 get status (stopped, playing, paused) * 13 set fade volume change rate * 14 get global volume * 15 get fade in flag * 16 get fade out flag * 17 set tempo * 18 get tempo * 19 get fade volume change rate * 20 get looping flag * 21 set looping flag * 22 get version?? * 23 get version?? * 24 get busy flag (dsp has pending data) */ class MidiParser_MSC : public MidiParser { protected: virtual void parseNextEvent(EventInfo &info); virtual bool loadMusic(byte *data, uint32 size); uint8 read1(byte *&data) { return *data++; } void parseMetaEvent(EventInfo &info); void parseMidiEvent(EventInfo &info); bool byte_11C5A; uint8 _beats; uint8 _lastEvent; byte *_trackEnd; public: MidiParser_MSC() : byte_11C5A(false) { } }; void MidiParser_MSC::parseMetaEvent(EventInfo &info) { uint8 type = read1(_position._play_pos); uint8 len = read1(_position._play_pos); info.ext.type = type; info.length = len; info.ext.data = 0; if (type == 0x51) { info.ext.data = _position._play_pos; } else { warning("unknown meta event 0x%02X", type); info.ext.type = 0; } _position._play_pos += len; } void MidiParser_MSC::parseMidiEvent(EventInfo &info) { uint8 type = info.command(); switch (type) { case 0x8: case 0x9: case 0xA: case 0xB: case 0xE: info.basic.param1 = read1(_position._play_pos); info.basic.param2 = read1(_position._play_pos); break; case 0xC: case 0xD: info.basic.param1 = read1(_position._play_pos); info.basic.param2 = 0; break; default: warning("Unexpected midi event 0x%02X in midi data", info.event); } //if ((type == 0xB) && (info.basic.param1 == 64)) info.basic.param2 = 127; } void MidiParser_MSC::parseNextEvent(EventInfo &info) { info.start = _position._play_pos; if (_position._play_pos >= _trackEnd) { // fake an end-of-track meta event info.delta = 0; info.event = 0xFF; info.ext.type = 0x2F; info.length = 0; return; } info.delta = readVLQ(_position._play_pos); info.event = read1(_position._play_pos); if (info.event == 0xFF) { parseMetaEvent(info); return; } if (info.event < 0x80) { _position._play_pos--; info.event = _lastEvent; } parseMidiEvent(info); _lastEvent = info.event; } bool MidiParser_MSC::loadMusic(byte *data, uint32 size) { unloadMusic(); byte *pos = data; if (memcmp("MSCt", pos, 4)) { warning("Expected header not found in music file"); return false; } pos += 4; _beats = read1(pos); _ppqn = read2low(pos); if (byte_11C5A) { // do something with byte_11C4D } _lastEvent = 0; _trackEnd = data + size; _num_tracks = 1; _tracks[0] = pos; setTempo(500000); setTrack(0); return true; } MidiParser *createParser_MSC() { return new MidiParser_MSC; } class MidiPlayer_MSC : public Audio::MidiPlayer { public: MidiPlayer_MSC(); void play(Common::SeekableReadStream *stream); virtual void pause(bool p); virtual void setVolume(int volume); virtual void onTimer(); // MidiDriver_BASE interface virtual void send(uint32 b); private: void setVolumeInternal(int volume); bool _paused; }; MidiPlayer_MSC::MidiPlayer_MSC() : _paused(false) { MidiDriver::DeviceHandle dev = MidiDriver::detectDevice(MDT_MIDI | MDT_ADLIB | MDT_PREFER_GM); _driver = MidiDriver::createMidi(dev); assert(_driver); int ret = _driver->open(); if (ret == 0) { _driver->setTimerCallback(this, &timerCallback); } } void MidiPlayer_MSC::play(Common::SeekableReadStream *stream) { Common::StackLock lock(_mutex); stop(); if (!stream) return; int size = stream->size(); _midiData = (uint8 *)malloc(size); if (_midiData) { stream->read(_midiData, size); delete stream; _parser = createParser_MSC(); _parser->loadMusic(_midiData, size); _parser->setTrack(0); _parser->setMidiDriver(this); _parser->setTimerRate(_driver->getBaseTempo()); _isLooping = true; _isPlaying = true; } } void MidiPlayer_MSC::pause(bool p) { _paused = p; setVolumeInternal(_paused ? 0 : _masterVolume); } void MidiPlayer_MSC::onTimer() { Common::StackLock lock(_mutex); if (!_paused && _isPlaying && _parser) { _parser->onTimer(); } } void MidiPlayer_MSC::setVolume(int volume) { _masterVolume = CLIP(volume, 0, 255); setVolumeInternal(_masterVolume); } void MidiPlayer_MSC::setVolumeInternal(int volume) { Common::StackLock lock(_mutex); for (int i = 0; i < kNumChannels; ++i) { if (_channelsTable[i]) { _channelsTable[i]->volume(_channelsVolume[i] * volume / 255); } } } void MidiPlayer_MSC::send(uint32 b) { // FIXME/TODO: Unlike Audio::MidiPlayer::send(), this code // does not handle All Note Off. Is this on purpose? // If not, we could simply remove this method, and use the // inherited one. const byte ch = b & 0x0F; byte param2 = (b >> 16) & 0xFF; switch (b & 0xFFF0) { case 0x07B0: // volume change _channelsVolume[ch] = param2; break; } sendToChannel(ch, b); } DosSoundMan_br::DosSoundMan_br(Parallaction_br *vm) : SoundMan_br(vm) { _midiPlayer = new MidiPlayer_MSC(); assert(_midiPlayer); } DosSoundMan_br::~DosSoundMan_br() { delete _midiPlayer; } Audio::AudioStream *DosSoundMan_br::loadChannelData(const char *filename, Channel *ch, bool looping) { Common::SeekableReadStream *stream = _vm->_disk->loadSound(filename); uint32 dataSize = stream->size(); byte *data = (byte *)malloc(dataSize); if (stream->read(data, dataSize) != dataSize) error("DosSoundMan_br::loadChannelData: Read failed"); delete stream; // TODO: Confirm sound rate int rate = 11025; ch->stream = Audio::makeLoopingAudioStream( Audio::makeRawStream(data, dataSize, rate, Audio::FLAG_UNSIGNED), looping ? 0 : 1); return ch->stream; } void DosSoundMan_br::playSfx(const char *filename, uint channel, bool looping, int volume) { stopSfx(channel); if (!_sfxEnabled) { return; } debugC(1, kDebugAudio, "DosSoundMan_br::playSfx(%s, %u, %i, %i)", filename, channel, looping, volume); Channel *ch = &_channels[channel]; Audio::AudioStream *input = loadChannelData(filename, ch, looping); _mixer->playStream(Audio::Mixer::kSFXSoundType, &ch->handle, input, -1, volume); } void DosSoundMan_br::playMusic() { if (_musicFile.empty()) { return; } if (!_musicEnabled) { return; } Common::SeekableReadStream *s = _vm->_disk->loadMusic(_musicFile.c_str()); assert(s); _midiPlayer->play(s); } void DosSoundMan_br::stopMusic() { _midiPlayer->stop(); } void DosSoundMan_br::pause(bool p) { _midiPlayer->pause(p); } AmigaSoundMan_br::AmigaSoundMan_br(Parallaction_br *vm) : SoundMan_br(vm) { _musicStream = 0; } AmigaSoundMan_br::~AmigaSoundMan_br() { stopMusic(); } Audio::AudioStream *AmigaSoundMan_br::loadChannelData(const char *filename, Channel *ch, bool looping) { Common::SeekableReadStream *stream = _vm->_disk->loadSound(filename); Audio::AudioStream *input = 0; if (_vm->getFeatures() & GF_DEMO) { uint32 dataSize = stream->size(); int8 *data = (int8*)malloc(dataSize); if (stream->read(data, dataSize) != dataSize) error("DosSoundMan_br::loadChannelData: Read failed"); // TODO: Confirm sound rate int rate = 11025; input = Audio::makeRawStream((byte *)data, dataSize, rate, 0); } else { input = Audio::make8SVXStream(*stream, looping); } delete stream; ch->stream = input; return input; } void AmigaSoundMan_br::playSfx(const char *filename, uint channel, bool looping, int volume) { if (channel >= NUM_SFX_CHANNELS) { warning("unknown sfx channel"); return; } stopSfx(channel); if (!_sfxEnabled) { return; } debugC(1, kDebugAudio, "AmigaSoundMan_ns::playSfx(%s, %i)", filename, channel); Channel *ch = &_channels[channel]; Audio::AudioStream *input = loadChannelData(filename, ch, looping); if (volume == -1) { volume = ch->volume; } _mixer->playStream(Audio::Mixer::kSFXSoundType, &ch->handle, input, -1, volume); } void AmigaSoundMan_br::playMusic() { stopMusic(); if (!_musicEnabled) { return; } debugC(1, kDebugAudio, "AmigaSoundMan_ns::playMusic()"); Common::SeekableReadStream *stream = _vm->_disk->loadMusic(_musicFile.c_str()); // NOTE: Music files don't always exist if (!stream) return; _musicStream = Audio::makeProtrackerStream(stream); delete stream; debugC(3, kDebugAudio, "AmigaSoundMan_ns::playMusic(): created new music stream"); _mixer->playStream(Audio::Mixer::kMusicSoundType, &_musicHandle, _musicStream, -1, Audio::Mixer::kMaxChannelVolume, 0, DisposeAfterUse::NO, false); } void AmigaSoundMan_br::stopMusic() { debugC(1, kDebugAudio, "AmigaSoundMan_ns::stopMusic()"); if (_mixer->isSoundHandleActive(_musicHandle)) { _mixer->stopHandle(_musicHandle); delete _musicStream; _musicStream = 0; } } void AmigaSoundMan_br::pause(bool p) { _mixer->pauseHandle(_musicHandle, p); } SoundMan_br::SoundMan_br(Parallaction_br *vm) : _vm(vm) { _mixer = _vm->_mixer; _musicEnabled = true; _sfxEnabled = true; } SoundMan_br::~SoundMan_br() { stopAllSfx(); } void SoundMan_br::stopAllSfx() { stopSfx(0); stopSfx(1); stopSfx(2); stopSfx(3); } void SoundMan_br::setMusicFile(const char *name) { stopMusic(); _musicFile = name; } void SoundMan_br::stopSfx(uint channel) { if (channel >= NUM_SFX_CHANNELS) { warning("unknown sfx channel"); return; } debugC(1, kDebugAudio, "SoundMan_br::stopSfx(%i)", channel); _mixer->stopHandle(_channels[channel].handle); _channels[channel].stream = 0; } void SoundMan_br::execute(int command, const char *parm) { uint32 n = parm ? strtoul(parm, 0, 10) : 0; bool b = (n == 1) ? true : false; switch (command) { case SC_PLAYMUSIC: playMusic(); break; case SC_STOPMUSIC: stopMusic(); break; case SC_SETMUSICFILE: setMusicFile(parm); break; case SC_PLAYSFX: playSfx(parm, _sfxChannel, _sfxLooping, _sfxVolume); break; case SC_STOPSFX: stopSfx(n); break; case SC_SETSFXCHANNEL: _sfxChannel = n; break; case SC_SETSFXLOOPING: _sfxLooping = b; break; case SC_SETSFXVOLUME: _sfxVolume = n; break; case SC_PAUSE: pause(b); break; } } void SoundMan_br::enableSfx(bool enable) { if (!enable) { stopAllSfx(); } _sfxEnabled = enable; } void SoundMan_br::enableMusic(bool enable) { if (enable) { playMusic(); } else { stopMusic(); } _musicEnabled = enable; } bool SoundMan_br::isSfxEnabled() const { return _sfxEnabled; } bool SoundMan_br::isMusicEnabled() const { return _musicEnabled; } } // namespace Parallaction