/* Copyright (C) 1994-2003 Revolution Software Ltd * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * $Header$ */ // FIXME: One feature still missing is the original's DipMusic() function // which, as far as I can understand, softened the music volume when someone // was speaking, but only if the music was playing loudly at the time. // // I'm not sure if we can implement this in any sensible fashion - I don't // think we have that fine-grained control over the mixer - or if we really // want it anyway. // // Simply adjusting the volume paramters to flow() is not enough. If you // only adjust them a little you won't hear the difference anyway, and if you // adjust them a lot it will sound really bad. // // Does anyone who can run the original interpreter have any // opinions on this? #include "stdafx.h" #include "sound/audiostream.h" #include "sound/mixer.h" #include "sound/rate.h" #include "sword2/driver/driver96.h" #include "sword2/driver/d_sound.h" #include "sword2/sword2.h" namespace Sword2 { // Fade-out takes half a second. This may need some tuning. #define FADE_SAMPLES 11025 static File fpMus; // Decompression macros #define GetCompressedShift(n) ((n) >> 4) #define GetCompressedSign(n) (((n) >> 3) & 1) #define GetCompressedAmplitude(n) ((n) & 7) static int32 panTable[33] = { -127, -119, -111, -103, -95, -87, -79, -71, -63, -55, -47, -39, -31, -23, -15, -7, 0, 7, 15, 23, 31, 39, 47, 55, 63, 71, 79, 87, 95, 103, 111, 119, 127 }; static int32 musicVolTable[17] = { 0, 15, 31, 47, 63, 79, 95, 111, 127, 143, 159, 175, 191, 207, 223, 239, 255 }; int16 MusicHandle::read() { uint8 in; uint16 delta; int16 out; if (!_streaming) return 0; if (_firstTime) { _lastSample = fpMus.readUint16LE(); _filePos += 2; _firstTime = false; return _lastSample; } // Assume the file handle has been correctly positioned already. in = fpMus.readByte(); delta = GetCompressedAmplitude(in) << GetCompressedShift(in); if (GetCompressedSign(in)) out = _lastSample - delta; else out = _lastSample + delta; _filePos++; _lastSample = out; if (_looping) { if (_filePos >= _fileEnd) { _firstTime = true; _filePos = _fileStart; } } else { // Fade out at the end of the music. Is this really desirable // behaviour? if (_fileEnd - _filePos <= FADE_SAMPLES) _fading = _fileEnd - _filePos; } if (_fading > 0) { if (--_fading == 0) { _streaming = false; _looping = false; } out = (out * _fading) / FADE_SAMPLES; } return out; } bool MusicHandle::eos() const { if (!_streaming || _filePos >= _fileEnd) return true; return false; } static void premix_proc(void *param, int16 *data, uint len) { ((Sound *) param)->fxServer(data, len); } Sound::Sound(SoundMixer *mixer) { _mutex = g_system->create_mutex(); _soundOn = 0; _speechStatus = 0; _fxPaused = 0; _speechPaused = 0; _speechVol = 14; _fxVol = 14; _speechMuted = 0; _fxMuted = 0; _musicVol = 16; _musicMuted = 0; _mixer = mixer; memset(_fx, 0, sizeof(_fx)); _soundHandleSpeech = 0; _soundOn = 1; _converter = makeRateConverter(_music[0].getRate(), _mixer->getOutputRate(), _music[0].isStereo(), false); _mixer->setupPremix(premix_proc, this); } Sound::~Sound() { if (_mutex) g_system->delete_mutex(_mutex); } // -------------------------------------------------------------------------- // This function reverse the pan table, thus reversing the stereo. // -------------------------------------------------------------------------- // FIXME: We could probably use the FLAG_REVERSE_STEREO mixer flag here. /** * This function reverses the pan table, thus reversing the stereo. */ void Sound::reverseStereo(void) { for (int i = 0; i < 16; i++) SWAP(panTable[i], panTable[32 - i]); } // Save/Restore information about current music so that we can restore it // after the credits. void Sound::saveMusicState() { Common::StackLock lock(_mutex); int saveStream; if (_music[0]._streaming && !_music[0]._fading) { saveStream = 0; } else if (_music[1]._streaming && !_music[0]._fading) { saveStream = 1; } else { _music[2]._streaming = false; return; } _music[2]._streaming = true; _music[2]._fading = 0; _music[2]._looping = _music[saveStream]._looping; _music[2]._fileStart = _music[saveStream]._fileStart; _music[2]._filePos = _music[saveStream]._filePos; _music[2]._fileEnd = _music[saveStream]._fileEnd; _music[2]._lastSample = _music[saveStream]._lastSample; } void Sound::restoreMusicState() { Common::StackLock lock(_mutex); int restoreStream; if (!_music[2]._streaming) return; // Fade out any music that happens to be playing for (int i = 0; i < MAXMUS; i++) { if (_music[i]._streaming && !_music[i]._fading) _music[i]._fading = FADE_SAMPLES; } if (!_music[0]._streaming && !_music[0]._fading) { restoreStream = 0; } else { restoreStream = 1; } _music[restoreStream]._streaming = true; _music[restoreStream]._fading = 0; _music[restoreStream]._looping = _music[2]._looping; _music[restoreStream]._fileStart = _music[2]._fileStart; _music[restoreStream]._filePos = _music[2]._filePos; _music[restoreStream]._fileEnd = _music[2]._fileEnd; _music[restoreStream]._lastSample = _music[2]._lastSample; } void Sound::playLeadOut(uint8 *leadOut) { int i; if (!leadOut) return; playFx(0, leadOut, 0, 0, RDSE_FXLEADOUT); i = getFxIndex(-1); if (i == MAXFX) { warning("playLeadOut: Can't find lead-out sound handle"); return; } while (_fx[i]._handle) { g_display->updateDisplay(); g_system->delay_msecs(30); } } // -------------------------------------------------------------------------- // This function returns the index of the sound effect with the ID passed in. // -------------------------------------------------------------------------- int32 Sound::getFxIndex(int32 id) { for (int i = 0; i < MAXFX; i++) { if (_fx[i]._id == id) return i; } return MAXFX; } int32 Sound::isFxOpen(int32 id) { // FIXME: This seems backwards to me, but changing it breaks sound. return getFxIndex(id) == MAXFX; } void Sound::fxServer(int16 *data, uint len) { Common::StackLock lock(_mutex); if (!_soundOn) return; updateCompSampleStreaming(data, len); if (!_music[0]._streaming && !_music[1]._streaming && fpMus.isOpen()) fpMus.close(); } /** * Returns either RDSE_QUIET or RDSE_SPEAKING */ int32 Sound::amISpeaking() { if (!_speechMuted && !_speechPaused && _soundHandleSpeech != 0) return RDSE_SPEAKING; return RDSE_QUIET; } /** * This function loads and decompresses a list of speech from a cluster, but * does not play it. This is primarily used by PlayCompSpeech(), but also to * store the voice-overs for the animated cutscenes until they are played. * @param filename the file name of the speech cluster file * @param speechid the text line id used to reference the speech * @param buf a pointer to the buffer that will be allocated for the sound */ uint32 Sound::preFetchCompSpeech(const char *filename, uint32 speechid, uint16 **buf) { uint32 i; uint8 *data8; uint32 speechIndex[2]; File fp; uint32 bufferSize; *buf = NULL; // Open the speech cluster and find the data offset & size fp.open(filename); if (!fp.isOpen()) return 0; fp.seek((speechid + 1) * 8, SEEK_SET); if (fp.read(speechIndex, sizeof(uint32) * 2) != (sizeof(uint32) * 2)) { fp.close(); return 0; } #ifdef SCUMM_BIG_ENDIAN speechIndex[0] = SWAP_BYTES_32(speechIndex[0]); speechIndex[1] = SWAP_BYTES_32(speechIndex[1]); #endif if (!speechIndex[0] || !speechIndex[1]) { fp.close(); return 0; } // Create a temporary buffer for compressed speech if ((data8 = (uint8 *) malloc(speechIndex[1])) == NULL) { fp.close(); return 0; } fp.seek(speechIndex[0], SEEK_SET); if (fp.read(data8, speechIndex[1]) != speechIndex[1]) { fp.close(); free(data8); return 0; } fp.close(); // Decompress data into speech buffer. bufferSize = (speechIndex[1] - 1) * 2; *buf = (uint16 *) malloc(bufferSize); if (!*buf) { free(data8); return 0; } uint16 *data16 = *buf; // Starting Value data16[0] = READ_LE_UINT16(data8); for (i = 1; i < speechIndex[1] - 1; i++) { if (GetCompressedSign(data8[i + 1])) data16[i] = data16[i - 1] - (GetCompressedAmplitude(data8[i + 1]) << GetCompressedShift(data8[i + 1])); else data16[i] = data16[i - 1] + (GetCompressedAmplitude(data8[i + 1]) << GetCompressedShift(data8[i + 1])); } free(data8); #ifndef SCUMM_BIG_ENDIAN // Until the mixer supports LE samples natively, we need to convert // our LE ones to BE for (uint j = 0; j < bufferSize / 2; j++) data16[j] = SWAP_BYTES_16(data16[j]); #endif return bufferSize; } /** * This function loads, decompresses and plays a line of speech. An error * occurs if speech is already playing. * @param filename the name of the speech cluster file * @param speechid the text line id used to reference the speech * @param vol volume, 0 (minimum) to 16 (maximum) * @param pan panning, -16 (full left) to 16 (full right) */ int32 Sound::playCompSpeech(const char *filename, uint32 speechid, uint8 vol, int8 pan) { uint16 *data16; uint32 bufferSize; if (!_speechMuted) { if (getSpeechStatus() == RDERR_SPEECHPLAYING) return RDERR_SPEECHPLAYING; bufferSize = preFetchCompSpeech(filename, speechid, &data16); // We don't know exactly what went wrong here. if (bufferSize == 0) return RDERR_OUTOFMEMORY; // Modify the volume according to the master volume byte volume = _speechMuted ? 0 : vol * _speechVol; int8 p = panTable[pan + 16]; // Start the speech playing _speechPaused = 1; uint32 flags = SoundMixer::FLAG_16BITS | SoundMixer::FLAG_AUTOFREE; _mixer->playRaw(&_soundHandleSpeech, data16, bufferSize, 22050, flags, -1, volume, p); _speechStatus = 1; } // DipMusic(); return RD_OK; } /** * Stops the speech from playing. */ int32 Sound::stopSpeech(void) { if (!_soundOn) return RD_OK; if (_speechStatus) { g_engine->_mixer->stopHandle(_soundHandleSpeech); _speechStatus = 0; return RD_OK; } return RDERR_SPEECHNOTPLAYING; } /** * @return Either RDSE_SAMPLEPLAYING or RDSE_SAMPLEFINISHED */ int32 Sound::getSpeechStatus(void) { if (!_soundOn || !_speechStatus) return RDSE_SAMPLEFINISHED; if (_speechPaused) return RDSE_SAMPLEPLAYING; if (!_soundHandleSpeech) { _speechStatus = 0; return RDSE_SAMPLEFINISHED; } return RDSE_SAMPLEPLAYING; } /** * Set the volume of any future as well as playing speech samples. * @param volume volume, from 0 (silent) to 14 (max) */ void Sound::setSpeechVolume(uint8 volume) { _speechVol = volume; if (_soundHandleSpeech != 0 && !_speechMuted && getSpeechStatus() == RDSE_SAMPLEPLAYING) { g_engine->_mixer->setChannelVolume(_soundHandleSpeech, 16 * _speechVol); } } /** * @return the volume setting for speech */ uint8 Sound::getSpeechVolume() { return _speechVol; } /** * Mutes/Unmutes the speech. * @param mute If mute is 0, restore the volume to the last set master level. * Otherwise the speech is muted (volume 0). */ void Sound::muteSpeech(uint8 mute) { _speechMuted = mute; if (getSpeechStatus() == RDSE_SAMPLEPLAYING) { byte volume = mute ? 0 : 16 * _speechVol; g_engine->_mixer->setChannelVolume(_soundHandleSpeech, volume); } } /** * @return the speech's mute state, 1 if mute, 0 if not mute */ uint8 Sound::isSpeechMute(void) { return _speechMuted; } /** * Stops the speech dead in its tracks. */ void Sound::pauseSpeech(void) { if (getSpeechStatus() == RDSE_SAMPLEPLAYING) { _speechPaused = 1; g_engine->_mixer->pauseHandle(_soundHandleSpeech, true); } } /** * Restarts the speech from where it was stopped. */ void Sound::unpauseSpeech(void) { if (_speechPaused) { _speechPaused = 0; g_engine->_mixer->pauseHandle(_soundHandleSpeech, false); } } /** * This function opens a sound effect ready for playing. A unique id should be * passed in so that each effect can be referenced individually. * @param id the unique sound id * @param data the WAV data * @warning Zero is not a valid id */ int32 Sound::openFx(int32 id, uint8 *data) { int32 i, fxi; uint32 *data32 = NULL; _wavHeader *wav; wav = (_wavHeader *) data; if (_soundOn) { // Check for a valid id. if (id == 0) return RDERR_INVALIDID; // Check that the fx is not already open for (i = 0; i < MAXFX; i++) { if (_fx[i]._id == id) return RDERR_FXALREADYOPEN; } // Now choose a free slot for the fx for (fxi = 0; fxi < MAXFX; fxi++) { if (_fx[fxi]._id == 0) break; } if (fxi == MAXFX) { // Expire the first sound effect that isn't currently // playing. This usually shouldn't happen since the // game engine manually clears all sound effects (at // least except for lead-ins and lead-outs) when moving // between rooms. for (fxi = 0; fxi < MAXFX; fxi++) { if (!_fx[fxi]._handle) break; } // Still no dice? I give up! if (fxi == MAXFX) { warning("openFx: No free sound slots"); return RDERR_NOFREEBUFFERS; } } // Set the sample size - search for the size of the data. i = 0; while (i < 100) { if (*data == 'd') { data32 = (uint32 *) data; if (READ_UINT32(data32) == MKID('data')) break; } i++; data++; } if (!data32) return RDERR_INVALIDWAV; _fx[fxi]._bufSize = READ_LE_UINT32(data32 + 1); // Fill the speech buffer with data if (_fx[fxi]._buf != NULL) free(_fx[fxi]._buf); _fx[fxi]._buf = (uint16 *) malloc(_fx[fxi]._bufSize); memcpy(_fx[fxi]._buf, (uint8 *) (data32 + 2), _fx[fxi]._bufSize); _fx[fxi]._flags = SoundMixer::FLAG_16BITS; if (FROM_LE_16(wav->channels) == 2) _fx[fxi]._flags |= SoundMixer::FLAG_STEREO; _fx[fxi]._rate = FROM_LE_16(wav->samplesPerSec); // Until the mixer supports LE samples natively, we need to // convert our LE ones to BE for (int32 j = 0; j < _fx[fxi]._bufSize / 2; j++) _fx[fxi]._buf[j] = SWAP_BYTES_16(_fx[fxi]._buf[j]); _fx[fxi]._id = id; } return RD_OK; } /** * This function plays a sound effect. If the effect has already been opened * then 'data' should be NULL, and the sound effect will simply be obtained * from the id passed in. If the effect has not been opened, then the WAV data * should be passed in 'data'. The sound effect will be closed when it has * finished playing. * @param id the sound id * @param data either NULL or the WAV data * @param vol volume, 0 (minimum) to 16 (maximum) * @param pan panning, -16 (full left) to 16 (full right) * @param type either RDSE_FXSPOT or RDSE_FXLOOP * @warning Zero is not a valid id */ int32 Sound::playFx(int32 id, uint8 *data, uint8 vol, int8 pan, uint8 type) { int32 i, loop; uint32 hr; if (type == RDSE_FXLOOP) loop = 1; else loop = 0; if (_soundOn) { if (data == NULL) { i = getFxIndex(id); if (i == MAXFX) { warning("playFx(%d, %d, %d, %d) - Not open", id, vol, pan, type); return RDERR_FXNOTOPEN; } if (loop == 1) _fx[i]._flags |= SoundMixer::FLAG_LOOP; else _fx[i]._flags &= ~SoundMixer::FLAG_LOOP; _fx[i]._volume = vol; // Start the sound effect playing byte volume = _fxMuted ? 0 : vol * _fxVol; int8 p = panTable[pan + 16]; g_engine->_mixer->playRaw(&_fx[i]._handle, _fx[i]._buf, _fx[i]._bufSize, _fx[i]._rate, _fx[i]._flags, -1, volume, p); } else { if (type == RDSE_FXLEADIN || type == RDSE_FXLEADOUT) { if (type == RDSE_FXLEADIN) id = -2; else id = -1; hr = openFx(id, data); if (hr != RD_OK) return hr; i = getFxIndex(id); if (i == MAXFX) { warning("playFx(%d, %d, %d, %d) - Not found", id, vol, pan, type); return RDERR_FXFUCKED; } _fx[i]._flags &= ~SoundMixer::FLAG_LOOP; byte volume = _musicMuted ? 0 : musicVolTable[_musicVol]; g_engine->_mixer->playRaw(&_fx[i]._handle, _fx[i]._buf, _fx[i]._bufSize, _fx[i]._rate, _fx[i]._flags, -1, volume, 0); } else { hr = openFx(id, data); if (hr != RD_OK) { return hr; } i = getFxIndex(id); if (i == MAXFX) { warning("playFx(%d, %d, %d, %d) - Not found", id, vol, pan, type); return RDERR_FXFUCKED; } if (loop == 1) _fx[i]._flags |= SoundMixer::FLAG_LOOP; else _fx[i]._flags &= ~SoundMixer::FLAG_LOOP; _fx[i]._volume = vol; // Start the sound effect playing byte volume = _fxMuted ? 0 : vol * _fxVol; int8 p = panTable[pan + 16]; g_engine->_mixer->playRaw(&_fx[i]._handle, _fx[i]._buf, _fx[i]._bufSize, _fx[i]._rate, _fx[i]._flags, -1, volume, p); } } } return RD_OK; } /** * Sets the volume and pan of the sample which is currently playing * @param id the id of the sample * @param vol volume * @param pan panning */ int32 Sound::setFxIdVolumePan(int32 id, uint8 vol, int8 pan) { int32 i = getFxIndex(id); if (i == MAXFX) return RDERR_FXNOTOPEN; _fx[i]._volume = vol; if (!_fxMuted) { g_engine->_mixer->setChannelVolume(_fx[i]._handle, vol * _fxVol); g_engine->_mixer->setChannelPan(_fx[i]._handle, panTable[pan + 16]); } return RD_OK; } int32 Sound::setFxIdVolume(int32 id, uint8 vol) { int32 i = getFxIndex(id); if (i == MAXFX) return RDERR_FXNOTOPEN; _fx[i]._volume = vol; if (!_fxMuted) g_engine->_mixer->setChannelVolume(_fx[i]._handle, vol * _fxVol); return RD_OK; } /** * This function clears all of the sound effects which are currently open or * playing, irrespective of type. */ void Sound::clearAllFx(void) { if (!_soundOn) return; for (int i = 0; i < MAXFX; i++) { if (_fx[i]._id && _fx[i]._id != -1 && _fx[i]._id != -2) { g_engine->_mixer->stopHandle(_fx[i]._handle); _fx[i]._id = 0; _fx[i]._paused = false; if (_fx[i]._buf != NULL) { free(_fx[i]._buf); _fx[i]._buf = NULL; } _fx[i]._bufSize = 0; _fx[i]._flags = 0; } } } /** * This function closes a sound effect which has been previously opened for * playing. Sound effects must be closed when they are finished with, otherwise * you will run out of sound effect buffers. * @param id the id of the sound to close */ int32 Sound::closeFx(int32 id) { int i; if (!_soundOn) return RD_OK; i = getFxIndex(id); if (i == MAXFX) return RDERR_FXNOTOPEN; g_engine->_mixer->stopHandle(_fx[i]._handle); _fx[i]._id = 0; _fx[i]._paused = false; if (_fx[i]._buf != NULL) { free(_fx[i]._buf); _fx[i]._buf = NULL; } _fx[i]._bufSize = 0; _fx[i]._flags = 0; return RD_OK; } void Sound::pauseFx(void) { if (!_fxPaused) { for (int i = 0; i < MAXFX; i++) { if (_fx[i]._id) { g_engine->_mixer->pauseHandle(_fx[i]._handle, true); _fx[i]._paused = true; } else _fx[i]._paused = false; } _fxPaused = 1; } } void Sound::pauseFxForSequence(void) { if (!_fxPaused) { for (int i = 0; i < MAXFX; i++) { if (_fx[i]._id && _fx[i]._id != -2) { g_engine->_mixer->pauseHandle(_fx[i]._handle, true); _fx[i]._paused = true; } else { _fx[i]._paused = false; } } _fxPaused = 1; } } void Sound::unpauseFx(void) { if (_fxPaused) { for (int i = 0; i < MAXFX; i++) { if (_fx[i]._paused && _fx[i]._id) { g_engine->_mixer->pauseHandle(_fx[i]._handle, false); } } _fxPaused = 0; } } /** * @return the master volume setting for sound effects */ uint8 Sound::getFxVolume() { return _fxVol; } /** * Set the master volume of all sound effects. The effects still have their * own volume setting as well as the master volume. * @param volume volume, from 0 (silent) to 14 (max) */ void Sound::setFxVolume(uint8 volume) { _fxVol = volume; // Now update the volume of any fxs playing for (int i = 0; i < MAXFX; i++) { if (_fx[i]._id && !_fxMuted) g_engine->_mixer->setChannelVolume(_fx[i]._handle, _fx[i]._volume * _fxVol); } } /** * Mutes/Unmutes the sound effects. * @param mute If mute is 0, restore the volume to the last set master level. * Otherwise the sound effects are muted (volume 0). */ void Sound::muteFx(uint8 mute) { _fxMuted = mute; // Now update the volume of any fxs playing for (int i = 0; i < MAXFX; i++) { if (_fx[i]._id) { byte volume = mute ? 0 : _fx[i]._volume * _fxVol; g_engine->_mixer->setChannelVolume(_fx[i]._handle, volume); } } } /** * @return the sound effects's mute state, 1 if mute, 0 if not mute */ uint8 Sound::isFxMute(void) { return _fxMuted; } /** * Streams music from a cluster file. * @param filename the file name of the music cluster file * @param musicId the id of the music to stream * @param looping true if the music is to loop back to the start * @return RD_OK or an error code */ int32 Sound::streamCompMusic(const char *filename, uint32 musicId, bool looping) { Common::StackLock lock(_mutex); uint32 len; int32 primaryStream = -1; int32 secondaryStream = -1; // If both music streams are playing, that should mean one of them is // fading out. Pick that one. if (_music[0]._streaming && _music[1]._streaming) { if (_music[0]._fading) primaryStream = 0; else primaryStream = 1; _music[primaryStream]._fading = 0; _music[primaryStream]._streaming = false; } // Pick the available music stream. If no music is playing it doesn't // matter which we use, so pick the first one. if (_music[0]._streaming || _music[1]._streaming) { if (_music[0]._streaming) { primaryStream = 1; secondaryStream = 0; } else { primaryStream = 0; secondaryStream = 1; } } else primaryStream = 0; // Save looping info and tune id _music[primaryStream]._looping = looping; _music[primaryStream]._id = musicId; // Don't start streaming if the volume is off. if (isMusicMute()) return RD_OK; // The assumption here is that we are never playing music from two // different files at the same time. if (!fpMus.isOpen()) fpMus.open(filename); if (!fpMus.isOpen()) return RDERR_INVALIDFILENAME; // Start other music stream fading out if (secondaryStream != -1 && !_music[secondaryStream]._fading) _music[secondaryStream]._fading = FADE_SAMPLES; fpMus.seek((musicId + 1) * 8, SEEK_SET); _music[primaryStream]._fileStart = fpMus.readUint32LE(); len = fpMus.readUint32LE(); if (!_music[primaryStream]._fileStart || !len) return RDERR_INVALIDID; _music[primaryStream]._fileEnd = _music[primaryStream]._fileStart + len; _music[primaryStream]._filePos = _music[primaryStream]._fileStart; _music[primaryStream]._streaming = true; _music[primaryStream]._firstTime = true; return RD_OK; } void Sound::updateCompSampleStreaming(int16 *data, uint len) { for (int i = 0; i < MAXMUS; i++) { if (!_music[i]._streaming || _music[i]._paused) continue; st_sample_t volume = _musicMuted ? 0 : musicVolTable[_musicVol]; fpMus.seek(_music[i]._filePos, SEEK_SET); _converter->flow(_music[i], data, len, volume, volume); } // DipMusic(); } int32 Sound::dipMusic() { // disable this func for now return RD_OK; /* int32 len; int32 readCursor, writeCursor; int32 dwBytes1, dwBytes2; int16 *sample; int32 total = 0; int32 i; int32 status; LPVOID lpv1, lpv2; HRESULT hr = DS_OK; LPDIRECTSOUNDBUFFER dsbMusic = NULL; int32 currentMusicVol = musicVolTable[musicVol]; int32 minMusicVol; // Find which music buffer is currently playing for (i = 0; i2)) { minMusicVol = musicVolTable[musicVol - 3]; if (_speechStatus) { IDirectSoundBuffer_GetStatus(dsbSpeech, &status); if ((hr = IDirectSoundBuffer_GetCurrentPosition(dsbMusic, &readCursor, &writeCursor)) != DS_OK) return hr; len = 44100 / 12 ;// 12th of a second if ((hr = IDirectSoundBuffer_Lock(dsbMusic, readCursor, len, &lpv1, &dwBytes1, &lpv2, &dwBytes2, 0)) != DS_OK) return hr; for (i = 0, sample = (int16*)lpv1; sample<(int16*)((int8*)lpv1+dwBytes1); sample+= 30, i++) // 60 samples { if (*sample>0) total += *sample; else total -= *sample; } total /= i; total = minMusicVol + ( ( (currentMusicVol - minMusicVol) * total ) / 8000); if (total > currentMusicVol) total = currentMusicVol; IDirectSoundBuffer_SetVolume(dsbMusic, total); IDirectSoundBuffer_Unlock(dsbMusic,lpv1,dwBytes1,lpv2,dwBytes2); } else { IDirectSoundBuffer_GetVolume(dsbMusic, &total); total += 50; if (total > currentMusicVol) total = currentMusicVol; IDirectSoundBuffer_SetVolume(dsbMusic, total); } } return hr; */ } /** * @return the time left for the current music, in seconds. */ int32 Sound::musicTimeRemaining() { Common::StackLock lock(_mutex); for (int i = 0; i < MAXMUS; i++) { if (_music[i]._streaming && !_music[i]._fading) return (_music[i]._fileEnd - _music[i]._filePos) / 22050; } return 0; } /** * Fades out and stops the music. */ void Sound::stopMusic(void) { Common::StackLock lock(_mutex); for (int i = 0; i < MAXMUS; i++) { if (_music[i]._streaming) _music[i]._fading = FADE_SAMPLES; else _music[i]._looping = false; } } /** * Stops the music dead in its tracks. Any music that is currently being * streamed is paued. */ void Sound::pauseMusic(void) { Common::StackLock lock(_mutex); if (_soundOn) { for (int i = 0; i < MAXMUS; i++) _music[i]._paused = _music[i]._streaming; } } /** * Restarts the music from where it was stopped. */ void Sound::unpauseMusic(void) { Common::StackLock lock(_mutex); if (_soundOn) { for (int i = 0; i < MAXMUS; i++) _music[i]._paused = false; } } /** * Set the volume of any future as well as playing music. * @param volume volume, from 0 (silent) to 16 (max) */ void Sound::setMusicVolume(uint8 volume) { _musicVol = volume; } /** * @return the volume setting for music */ uint8 Sound::getMusicVolume() { return _musicVol; } /** * Mutes/Unmutes the music. * @param mute If mute is 0, restore the volume to the last set master level. * Otherwise the music is muted (volume 0). */ void Sound::muteMusic(uint8 mute) { _musicMuted = mute; } /** * @return the music's mute state, 1 if mute, 0 if not mute */ uint8 Sound::isMusicMute(void) { return _musicMuted; } } // End of namespace Sword2