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path: root/engines/tinsel/music.cpp
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/* 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.
 *
 */

// FIXME: This code is taken from MADE and may need more work (e.g. setVolume).

// MIDI and digital music class

#include "audio/audiostream.h"
#include "audio/mididrv.h"
#include "audio/midiparser.h"
#include "audio/decoders/adpcm.h"

#include "backends/audiocd/audiocd.h"

#include "common/config-manager.h"
#include "common/file.h"
#include "common/memstream.h"

#include "tinsel/adpcm.h"
#include "tinsel/config.h"
#include "tinsel/sound.h"
#include "tinsel/music.h"
#include "tinsel/handle.h"
#include "tinsel/sysvar.h"

enum {
	MUSIC_JUMP = -1,
	MUSIC_END = -2,

	BLMAGIC  = -3458,

	DIM_SPEED = 8
};

namespace Tinsel {

//--------------------------- Midi data -------------------------------------

// sound buffer structure used for MIDI data and samples
struct SOUND_BUFFER {
	uint8 *pDat;		// pointer to actual buffer
	uint32 size;		// size of the buffer
};

// FIXME: Avoid non-const global vars

// MIDI buffer
static SOUND_BUFFER g_midiBuffer = { 0, 0 };

static SCNHANDLE	g_currentMidi = 0;
static bool		g_currentLoop = false;

// We allocate 155 entries because that's the maximum, used in the SCN version
static SCNHANDLE g_midiOffsets[155];

static const int enhancedAudioGRAVersion[] = {
	 1,   2,   1,   1,   3,   3,   4,   4,   5,   6, //   1-10
	 1,   7,   8,   9,  10,   3,  11,  11,  12,  13, //  11-20
	13,  13,  13,  13,  14,  13,  13,  15,  16,  17, //  21-30
	15,  18,  19,  20, 338,  21,  21,  22,  22,  23, //  31-40
	24,  25,  26,  27,  28,  29,  30,  31,  32,  33, //  41-50
	34,  35,  35,  36,  37,  38,  39,  39,  39,  39, //  51-60
	40,  39,  41,  41,  42,  43,  42,  44,  45,  41, //  61-70
	46,  48,  47,  48,  49,  50,  51,  52,  53,  54, //  71-80
	55,  56,  57,  58,  59,  60,  61,  62,  63,  61, //  81-90
	64,  65,  66,  67,  68,  69,  70,  68,  71,  72, //  91-100
	73,  74,  75,  12,  76,  77,  78,  79,  80,   4, // 101-110
	81,  82,  83,  82,  81,  84,  85,  86,  87,  88, // 111-120
	89,  90,  88,   2,   2,   2,   2,   2,   2,  60, // 121-130
	91,  92,  93,  94,  94,  95,  96,  52,   4,  97, // 131-140
	98,  99,  99                                     // 141-143
};

static const int enhancedAudioSCNVersion[] = {
	 301, 302,   2,    1,   1, 301, 302,   3,   3,   4,	//   1-10
	   4,   5,   6,    1,   7,   8,   9,  10,   8,  11,	//  11-20
	  11,  12,  13,   13,  13,  13,  13,  14,  13,  13,	//  21-30
	  15,  16,  17,   15,  18,  19,  20, 338,  21,  21,	//  31-40
	 341, 342,  22,   22,  23,  24,  25,  26,  27,  28,	//  41-50
	  29,  30,  31,   32,  33,  34,  35,  35,  36,  37,	//  51-60
	  38,  39,  39,   39,  39,  40,  39,  41,  41,  42,	//  61-70
	  43,  42,  44,   45,  41,  46,  48,  47,  48,  49,	//  71-80
	  50,  51,  52,   53,  54,  55,  56,  57,  58,  59,	//  81-90
	  60,  61,  62,   63,  61,  64,  65,  66,  67,  68,	//  91-100
	  69,  70,  68,   71,  72,  73,  74,  75,  12,  76,	// 101-110
	  77,  78,  79,   80,   4,   4,  82,  83,  77,   4,	// 111-120
	  84,  85,  86, 3124,  88,  89,  90,  88,   2,   2,	// 121-130
	   2,   2,   2,    2,   2,   2,   2,   2,   2,   2,	// 131-140
	3142,  91,  92,   93,  94,  94,  95,  96,  52,   4,	// 141-150
	  97,  98,  99,   99                             	// 151-154
};

int GetTrackNumber(SCNHANDLE hMidi) {
	for (int i = 0; i < ARRAYSIZE(g_midiOffsets); i++)
		if (g_midiOffsets[i] == hMidi)
			return i;

	return -1;
}

SCNHANDLE GetTrackOffset(int trackNumber) {
	assert(trackNumber < ARRAYSIZE(g_midiOffsets));
	return g_midiOffsets[trackNumber];
}

/**
 * Plays the specified MIDI sequence through the sound driver.
 * @param dwFileOffset		File offset of MIDI sequence data
 * @param bLoop				Whether to loop the sequence
 */
bool PlayMidiSequence(uint32 dwFileOffset, bool bLoop) {
	g_currentMidi = dwFileOffset;
	g_currentLoop = bLoop;

	if (_vm->_config->_musicVolume != 0) {
		bool mute = false;
		if (ConfMan.hasKey("mute"))
			mute = ConfMan.getBool("mute");

		SetMidiVolume(mute ? 0 : _vm->_config->_musicVolume);
	}

	// the index and length of the last tune loaded
	static uint32 dwLastMidiIndex = 0;	// FIXME: Avoid non-const global vars
	uint32 dwSeqLen = 0;	// length of the sequence

	// Support for external music from the music enhancement project
	if (_vm->getFeatures() & GF_ENHANCED_AUDIO_SUPPORT) {
		int trackNumber = GetTrackNumber(dwFileOffset);
		// Track 8 has been removed in the German CD re-release "Neon Edition"
		if ((_vm->getFeatures() & GF_ALT_MIDI) && trackNumber >= 8)
			trackNumber++;

		int track = 0;
		if (trackNumber >= 0) {
			if (_vm->getFeatures() & GF_SCNFILES)
				track = enhancedAudioSCNVersion[trackNumber];
			else
				track = enhancedAudioGRAVersion[trackNumber];

			if (track > 0) {
				StopMidi();

				// StopMidi resets these fields, so set them again
				g_currentMidi = dwFileOffset;
				g_currentLoop = bLoop;

				// try to play track, but don't fall back to a true CD
				g_system->getAudioCDManager()->play(track, bLoop ? -1 : 1, 0, 0, true);

				// Check if an enhanced audio track is being played.
				// If it is, stop here and don't load a MIDI track
				if (g_system->getAudioCDManager()->isPlaying()) {
					return true;
				}
			}
		} else {
			warning("Unknown MIDI offset %d", dwFileOffset);
		}
	}

	if (dwFileOffset == 0)
		return true;

	if (dwFileOffset != dwLastMidiIndex) {
		Common::File midiStream;

		// open MIDI sequence file in binary mode
		if (!midiStream.open(MIDI_FILE))
			error(CANNOT_FIND_FILE, MIDI_FILE);

		// update index of last tune loaded
		dwLastMidiIndex = dwFileOffset;

		// move to correct position in the file
		midiStream.seek(dwFileOffset, SEEK_SET);

		// read the length of the sequence
		dwSeqLen = midiStream.readUint32LE();

		// make sure buffer is large enough for this sequence
		assert(dwSeqLen > 0 && dwSeqLen <= g_midiBuffer.size);

		// stop any currently playing tune
		_vm->_midiMusic->stop();

		// read the sequence
		if (midiStream.read(g_midiBuffer.pDat, dwSeqLen) != dwSeqLen)
			error(FILE_IS_CORRUPT, MIDI_FILE);

		midiStream.close();

		// WORKAROUND for bug #2820054 "DW1: No intro music at first start on Wii",
		// which actually affects all ports, since it's specific to the GRA version.
		//
		// The GRA version does not seem to set the channel volume at all for the first
		// intro track, thus we need to do that here. We only initialize the channels
		// used in that sequence. And we are using 127 as default channel volume.
		//
		// Only in the GRA version dwFileOffset can be "38888", just to be sure, we
		// check for the SCN files feature flag not being set though.
		if (_vm->getGameID() == GID_DW1 && dwFileOffset == 38888 && !(_vm->getFeatures() & GF_SCNFILES)) {
			_vm->_midiMusic->send(0x7F07B0 |  3);
			_vm->_midiMusic->send(0x7F07B0 |  5);
			_vm->_midiMusic->send(0x7F07B0 |  8);
			_vm->_midiMusic->send(0x7F07B0 | 10);
			_vm->_midiMusic->send(0x7F07B0 | 13);
		}

		_vm->_midiMusic->playMIDI(dwSeqLen, bLoop);

		// Store the length
		//dwLastSeqLen = dwSeqLen;
	} else {
	 	// dwFileOffset == dwLastMidiIndex
		_vm->_midiMusic->stop();
		_vm->_midiMusic->playMIDI(dwSeqLen, bLoop);
	}

	return true;
}

/**
 * Returns TRUE if a Midi tune is currently playing.
 */
bool MidiPlaying() {
	if (_vm->getFeatures() & GF_ENHANCED_AUDIO_SUPPORT) {
		if (g_system->getAudioCDManager()->isPlaying())
			return true;
	}
	return _vm->_midiMusic->isPlaying();
}

/**
 * Stops any currently playing midi.
 */
bool StopMidi() {
	g_currentMidi = 0;
	g_currentLoop = false;

	if (_vm->getFeatures() & GF_ENHANCED_AUDIO_SUPPORT) {
		g_system->getAudioCDManager()->stop();
	}

	_vm->_midiMusic->stop();
	return true;
}


/**
 * Gets the volume of the MIDI music.
 */
int GetMidiVolume() {
	return _vm->_config->_musicVolume;
}

/**
 * Sets the volume of the MIDI music.
 * @param vol			New volume - 0..MAXMIDIVOL
 */
void SetMidiVolume(int vol) {
	assert(vol >= 0 && vol <= Audio::Mixer::kMaxChannelVolume);

	static int priorVolMusic = 0;	// FIXME: Avoid non-const global vars

	if (vol == 0 && priorVolMusic == 0)	{
		// Nothing to do
	} else if (vol == 0 && priorVolMusic != 0) {
		// Stop current midi sequence
		StopMidi();
		_vm->_midiMusic->setVolume(vol);
	} else if (vol != 0 && priorVolMusic == 0) {
		// Perhaps restart last midi sequence
		if (g_currentLoop)
			PlayMidiSequence(g_currentMidi, true);

		_vm->_midiMusic->setVolume(vol);
	} else if (vol != 0 && priorVolMusic != 0) {
		// Alter current volume
		_vm->_midiMusic->setVolume(vol);
	}

	priorVolMusic = vol;
}

/**
 * Opens and inits all MIDI sequence files.
 */
void OpenMidiFiles() {
	Common::File midiStream;

	// Demo version has no midi file
	if ((_vm->getFeatures() & GF_DEMO) || (TinselVersion == TINSEL_V2))
		return;

	if (g_midiBuffer.pDat)
		// already allocated
		return;

	// open MIDI sequence file in binary mode
	if (!midiStream.open(MIDI_FILE))
		error(CANNOT_FIND_FILE, MIDI_FILE);

	// gen length of the largest sequence
	g_midiBuffer.size = midiStream.readUint32LE();
	if (midiStream.eos() || midiStream.err())
		error(FILE_IS_CORRUPT, MIDI_FILE);

	if (g_midiBuffer.size) {
		// allocate a buffer big enough for the largest MIDI sequence
		if ((g_midiBuffer.pDat = (uint8 *)malloc(g_midiBuffer.size)) != NULL) {
			// clear out the buffer
			memset(g_midiBuffer.pDat, 0, g_midiBuffer.size);
//			VMM_lock(midiBuffer.pDat, midiBuffer.size);
		} else {
			//mSeqHandle = NULL;
		}
	}

	// Now scan through the contents of the MIDI file to find the offset
	// of each individual track, in order to create a mapping from MIDI
	// offset to track number, for the enhanced MIDI soundtrack.
	// The first song is always at position 4. The subsequent ones are
	// calculated dynamically.
	uint32 curOffset = 4;
	uint32 curTrack = 0;
	uint32 songLength = 0;

	// Init
	for (int i = 0; i < ARRAYSIZE(g_midiOffsets); i++)
		g_midiOffsets[i] = 0;

	while (!midiStream.eos() && !midiStream.err()) {
		if (curOffset + (4 * curTrack) >= (uint32)midiStream.size())
			break;

		assert(curTrack < ARRAYSIZE(g_midiOffsets));
		g_midiOffsets[curTrack] = curOffset + (4 * curTrack);
		//debug("%d: %d", curTrack, midiOffsets[curTrack]);

		songLength = midiStream.readUint32LE();
		curOffset += songLength;
		midiStream.skip(songLength);

		curTrack++;
	}

	midiStream.close();
}

void DeleteMidiBuffer() {
	free(g_midiBuffer.pDat);
	g_midiBuffer.pDat = NULL;
}

MidiMusicPlayer::MidiMusicPlayer() {
	MidiPlayer::createDriver();

	int ret = _driver->open();
	if (ret == 0) {
		if (_nativeMT32)
			_driver->sendMT32Reset();
		else
			_driver->sendGMReset();

		_driver->setTimerCallback(this, &timerCallback);
	}
}

void MidiMusicPlayer::setVolume(int volume) {
	_vm->_mixer->setVolumeForSoundType(Audio::Mixer::kMusicSoundType, volume);

	Audio::MidiPlayer::setVolume(volume);
}

void MidiMusicPlayer::send(uint32 b) {
	Audio::MidiPlayer::send(b);

	byte channel = (byte)(b & 0x0F);
	if (_channelsTable[channel]) {
		if ((b & 0xFFF0) == 0x0079B0) {
			// We've just Reset All Controllers, so we need to
			// re-adjust the volume. Otherwise, volume is reset to
			// default whenever the music changes.
			_channelsTable[channel]->send(0x000007B0 | (((_channelsVolume[channel] * _masterVolume) / 255) << 16) | channel);
		}
	}
}

void MidiMusicPlayer::playMIDI(uint32 size, bool loop) {
	Common::StackLock lock(_mutex);

	if (_isPlaying)
		return;

	stop();

	if (TinselV1PSX)
		playSEQ(size, loop);
	else
		playXMIDI(size, loop);
}

void MidiMusicPlayer::playXMIDI(uint32 size, bool loop) {
	// It seems like not all music (the main menu music, for instance) set
	// all the instruments explicitly. That means the music will sound
	// different, depending on which music played before it. This appears
	// to be a genuine glitch in the original. For consistency, reset all
	// instruments to the default one (piano).

	for (int i = 0; i < 16; i++) {
		_driver->send(0xC0 | i, 0, 0);
	}

	// Load XMID resource data

	MidiParser *parser = MidiParser::createParser_XMIDI();
	if (parser->loadMusic(g_midiBuffer.pDat, size)) {
		parser->setTrack(0);
		parser->setMidiDriver(this);
		parser->setTimerRate(getBaseTempo());
		parser->property(MidiParser::mpCenterPitchWheelOnUnload, 1);
		parser->property(MidiParser::mpSendSustainOffOnNotesOff, 1);

		_parser = parser;

		_isLooping = loop;
		_isPlaying = true;
	} else {
		delete parser;
	}
}

void MidiMusicPlayer::playSEQ(uint32 size, bool loop) {
	// MIDI.DAT holds the file names in DW1 PSX
	Common::String baseName((char *)g_midiBuffer.pDat, size);
	Common::String seqName = baseName + ".SEQ";

	// TODO: Load the instrument bank (<baseName>.VB and <baseName>.VH)

	Common::File seqFile;
	if (!seqFile.open(seqName))
		error("Failed to open SEQ file '%s'", seqName.c_str());

	if (seqFile.readUint32LE() != MKTAG('S', 'E', 'Q', 'p'))
		error("Failed to find SEQp tag");

	// Make sure we don't have a SEP file (with multiple SEQ's inside)
	if (seqFile.readUint32BE() != 1)
		error("Can only play SEQ files, not SEP");

	uint16 ppqn = seqFile.readUint16BE();
	uint32 tempo = seqFile.readUint16BE() << 8;
	tempo |= seqFile.readByte();
	/* uint16 beat = */ seqFile.readUint16BE();

	// SEQ is directly based on SMF and we'll use that to our advantage here
	// and convert to SMF and then use the SMF MidiParser.

	// Calculate the SMF size we'll need
	uint32 dataSize = seqFile.size() - 15;
	uint32 actualSize = dataSize + 7 + 22;

	// Resize the buffer if necessary
	if (g_midiBuffer.size < actualSize) {
		g_midiBuffer.pDat = (byte *)realloc(g_midiBuffer.pDat, actualSize);
		assert(g_midiBuffer.pDat);
	}

	// Now construct the header
	WRITE_BE_UINT32(g_midiBuffer.pDat, MKTAG('M', 'T', 'h', 'd'));
	WRITE_BE_UINT32(g_midiBuffer.pDat + 4, 6); // header size
	WRITE_BE_UINT16(g_midiBuffer.pDat + 8, 0); // type 0
	WRITE_BE_UINT16(g_midiBuffer.pDat + 10, 1); // one track
	WRITE_BE_UINT16(g_midiBuffer.pDat + 12, ppqn);
	WRITE_BE_UINT32(g_midiBuffer.pDat + 14, MKTAG('M', 'T', 'r', 'k'));
	WRITE_BE_UINT32(g_midiBuffer.pDat + 18, dataSize + 7); // SEQ data size + tempo change event size

	// Add in a fake tempo change event
	WRITE_BE_UINT32(g_midiBuffer.pDat + 22, 0x00FF5103); // no delta, meta event, tempo change, param size = 3
	WRITE_BE_UINT16(g_midiBuffer.pDat + 26, tempo >> 8);
	g_midiBuffer.pDat[28] = tempo & 0xFF;

	// Now copy in the rest of the events
	seqFile.read(g_midiBuffer.pDat + 29, dataSize);
	seqFile.close();

	MidiParser *parser = MidiParser::createParser_SMF();
	if (parser->loadMusic(g_midiBuffer.pDat, actualSize)) {
		parser->setTrack(0);
		parser->setMidiDriver(this);
		parser->setTimerRate(getBaseTempo());
		parser->property(MidiParser::mpCenterPitchWheelOnUnload, 1);
		parser->property(MidiParser::mpSendSustainOffOnNotesOff, 1);

		_parser = parser;

		_isLooping = loop;
		_isPlaying = true;
	} else {
		delete parser;
	}
}

void MidiMusicPlayer::pause() {
	setVolume(-1);
	_isPlaying = false;
}

void MidiMusicPlayer::resume() {
	setVolume(GetMidiVolume());
	_isPlaying = true;
}

PCMMusicPlayer::PCMMusicPlayer() {
	_silenceSamples = 0;

	_curChunk = 0;
	_state = S_IDLE;
	_mState = S_IDLE;
	_scriptNum = -1;
	_scriptIndex = 0;
	_forcePlay = false;

	_volume = 255;
	_dimmed = false;
	_dimmedTinsel = false;
	_dimIteration = 0;

	_fadeOutVolume = 0;
	_fadeOutIteration = 0;

	_end = true;

	_vm->_mixer->playStream(Audio::Mixer::kMusicSoundType,
			&_handle, this, -1, _volume, 0, DisposeAfterUse::NO, true);
}

PCMMusicPlayer::~PCMMusicPlayer() {
	_vm->_mixer->stopHandle(_handle);
	delete _curChunk;
}

void PCMMusicPlayer::startPlay(int id) {
	if (_filename.empty())
		return;

	debugC(DEBUG_DETAILED, kTinselDebugMusic, "Playing PCM music %s, index %d", _filename.c_str(), id);

	Common::StackLock slock(_mutex);

	stop();

	_scriptNum = id;
	_scriptIndex = 1;
	_state = S_NEW;

	play();
}

void PCMMusicPlayer::stopPlay() {
	Common::StackLock slock(_mutex);

	stop();
}

int PCMMusicPlayer::readBuffer(int16 *buffer, const int numSamples) {
	Common::StackLock slock(_mutex);

	if (!_curChunk && ((_state == S_IDLE) || (_state == S_STOP)))
		return 0;

	int samplesLeft = numSamples;

	while (samplesLeft > 0) {
		if (_silenceSamples > 0) {
			int n = MIN(_silenceSamples, samplesLeft);

			memset(buffer, 0, n);

			buffer += n;
			_silenceSamples -= n;
			samplesLeft -= n;

		} else if (_curChunk &&
		          ((_state == S_MID) || (_state == S_NEXT) || (_state == S_NEW))) {
			int n = _curChunk->readBuffer(buffer, samplesLeft);

			buffer += n;
			samplesLeft -= n;

			if (_curChunk->endOfData()) {
				_state = S_END1;

				delete _curChunk;
				_curChunk = 0;
			}
		} else {

			if (!getNextChunk())
				break;
		}
	}

	return (numSamples - samplesLeft);
}

bool PCMMusicPlayer::isPlaying() const {
	return ((_state != S_IDLE) && (_state != S_STOP));
}

bool PCMMusicPlayer::isDimmed() const {
	return _dimmed;
}

void PCMMusicPlayer::getTunePlaying(void *voidPtr, int length) {
	Common::StackLock lock(_mutex);

	debugC(DEBUG_DETAILED, kTinselDebugMusic, "getTunePlaying");

	assert(length == (3 * sizeof(int32)));

	int32 *p = (int32 *) voidPtr;

	_mState = _state;

	p[0] = (int32) _mState;
	p[1] = _scriptNum;
	p[2] = _scriptIndex;
}

void PCMMusicPlayer::restoreThatTune(void *voidPtr) {
	Common::StackLock lock(_mutex);

	debugC(DEBUG_DETAILED, kTinselDebugMusic, "restoreThatTune");

	int32 *p = (int32 *) voidPtr;

	_mState = (State) p[0];
	_scriptNum = p[1];
	_scriptIndex = p[2];

	if (_mState != S_IDLE)
		_state = S_NEW;

	delete _curChunk;
	_curChunk = 0;

	_end = false;
}

void PCMMusicPlayer::setMusicSceneDetails(SCNHANDLE hScript,
		SCNHANDLE hSegment, const char *fileName) {

	Common::StackLock lock(_mutex);

	stop();

	debugC(DEBUG_INTERMEDIATE, kTinselDebugMusic, "Setting music scene details: %s", fileName);

	_hScript = hScript;
	_hSegment = hSegment;
	_filename = fileName;

	// Start scene with music not dimmed
	_dimmed = false;
	_dimmedTinsel = false;
	_dimIteration = 0;
	setVol(255);
}

void PCMMusicPlayer::setVolume(int volume) {
	assert((volume >= 0) && (volume <= 100));

	_dimmed = false;
	setVol((volume * 255) / 100);
}

void PCMMusicPlayer::setVol(uint8 volume) {
	_volume = volume;

	_vm->_mixer->setChannelVolume(_handle, _volume);
}

bool PCMMusicPlayer::getMusicTinselDimmed() const {
	return _dimmedTinsel;
}

void PCMMusicPlayer::dim(bool bTinselDim) {
	if (_dimmed || (_volume == 0) ||
			(_state == S_IDLE) || !_curChunk || (SysVar(SV_MUSICDIMFACTOR) == 0))
		return;

	_dimmed = true;
	if (bTinselDim)
		_dimmedTinsel = true;

	_dimmedVolume = _volume - (_volume / SysVar(SV_MUSICDIMFACTOR));

	// Iterate down, negative iteration
	if (!_dimIteration)
		_dimPosition = _volume;
	_dimIteration = (_dimmedVolume - _volume)/DIM_SPEED;

	debugC(DEBUG_DETAILED, kTinselDebugMusic, "Dimming music from %d to %d, steps %d", _dimPosition, _dimmedVolume, _dimIteration);

	// And SFX
	if (SysVar(SYS_SceneFxDimFactor))
		_vm->_sound->setSFXVolumes(255 - 255/SysVar(SYS_SceneFxDimFactor));
}

void PCMMusicPlayer::unDim(bool bTinselUnDim) {
	if (!_dimmed || (_dimmedTinsel && !bTinselUnDim))
		return; // not dimmed

	_dimmed = _dimmedTinsel = false;

	if ((_volume == 0) || (_state == S_IDLE) || !_curChunk)
		return;

	// Iterate up, positive iteration
	if (!_dimIteration)
		_dimPosition = _dimmedVolume;
	_dimIteration = (_volume - _dimmedVolume)/DIM_SPEED;

	debugC(DEBUG_DETAILED, kTinselDebugMusic, "UnDimming music from %d to %d, steps %d", _dimPosition, _volume, _dimIteration);

	// And SFX
	_vm->_sound->setSFXVolumes(255);
}

void PCMMusicPlayer::dimIteration() {
	if (_dimIteration != 0)
	{
		_dimPosition += _dimIteration;
		if (_dimPosition >= _volume)
		{
			_dimPosition = _volume;
			_dimIteration = 0;
		}
		else if (_dimPosition <= _dimmedVolume)
		{
			_dimPosition = _dimmedVolume;
			_dimIteration = 0;
		}

		_vm->_mixer->setChannelVolume(_handle, _dimPosition);
	}
}

void PCMMusicPlayer::startFadeOut(int ticks) {
	if ((_volume == 0) || (_state == S_IDLE) || !_curChunk)
		return;

	debugC(DEBUG_INTERMEDIATE, kTinselDebugMusic, "Fading out music...");

	if (_dimmed) {
		// Start from dimmed volume and go from there
		_dimmed = false;
		_fadeOutVolume = _volume - _volume/SysVar(SV_MUSICDIMFACTOR);
	} else
		_fadeOutVolume = _volume;

	assert(ticks != 0);
	_fadeOutIteration = _fadeOutVolume / ticks;

	fadeOutIteration();
}

void PCMMusicPlayer::fadeOutIteration() {
	if ((_volume == 0) || (_state == S_IDLE) || !_curChunk)
		return;

	_fadeOutVolume = CLIP<int>(_fadeOutVolume -= _fadeOutIteration, 0, 255);

	_vm->_mixer->setChannelVolume(_handle, _fadeOutVolume);
}

bool PCMMusicPlayer::getNextChunk() {
	MusicSegment *musicSegments;
	int32 *script, *scriptBuffer;
	int id;
	int snum;
	uint32 sampleOffset, sampleLength, sampleCLength;
	Common::File file;
	byte *buffer;
	Common::SeekableReadStream *sampleStream;

	switch (_state) {
	case S_NEW:
	case S_NEXT:
		_forcePlay = false;

		script = scriptBuffer = (int32 *)LockMem(_hScript);

		// Set parameters for this chunk of music
		id = _scriptNum;
		while (id--)
			script = scriptBuffer + READ_LE_UINT32(script);
		snum = FROM_LE_32(script[_scriptIndex++]);

		if (snum == MUSIC_JUMP || snum == MUSIC_END) {
			// Let usual code sort it out!
			_scriptIndex--;    // Undo increment
			_forcePlay = true; // Force a Play
			_state = S_END1;   // 'Goto' S_END1
			break;
		}

		musicSegments = (MusicSegment *) LockMem(_hSegment);

		assert(FROM_LE_32(musicSegments[snum].numChannels) == 1);
		assert(FROM_LE_32(musicSegments[snum].bitsPerSample) == 16);

		sampleOffset = FROM_LE_32(musicSegments[snum].sampleOffset);
		sampleLength = FROM_LE_32(musicSegments[snum].sampleLength);
		sampleCLength = (((sampleLength + 63) & ~63)*33)/64;

		if (!file.open(_filename))
			error(CANNOT_FIND_FILE, _filename.c_str());

		file.seek(sampleOffset);
		if (file.eos() || file.err() || (uint32)file.pos() != sampleOffset)
			error(FILE_IS_CORRUPT, _filename.c_str());

		buffer = (byte *) malloc(sampleCLength);
		assert(buffer);

		// read all of the sample
		if (file.read(buffer, sampleCLength) != sampleCLength)
			error(FILE_IS_CORRUPT, _filename.c_str());

		debugC(DEBUG_DETAILED, kTinselDebugMusic, "Creating ADPCM music chunk with size %d, "
				"offset %d (script %d.%d)", sampleCLength, sampleOffset,
				_scriptNum, _scriptIndex - 1);

		sampleStream = new Common::MemoryReadStream(buffer, sampleCLength, DisposeAfterUse::YES);

		delete _curChunk;
		_curChunk = new Tinsel8_ADPCMStream(sampleStream, DisposeAfterUse::YES, sampleCLength,
				22050, 1, 32);

		_state = S_MID;
		return true;

	case S_END1:
		debugC(DEBUG_DETAILED, kTinselDebugMusic, "Music reached state S_END1 (script %d.%d)",
				_scriptNum, _scriptIndex);

		script = scriptBuffer = (int32 *) LockMem(_hScript);

		id = _scriptNum;
		while (id--)
			script = scriptBuffer + READ_LE_UINT32(script);
		snum = FROM_LE_32(script[_scriptIndex]);

		if (snum == MUSIC_END) {
			_state = S_END2;
		} else {
			if (snum == MUSIC_JUMP)
				_scriptIndex = FROM_LE_32(script[_scriptIndex+1]);

			_state = _forcePlay ? S_NEW : S_NEXT;
			_forcePlay = false;
		}

		return true;

	case S_END2:
		debugC(DEBUG_DETAILED, kTinselDebugMusic, "Music reached state S_END2 (script %d.%d)",
				_scriptNum, _scriptIndex);

		_silenceSamples = 11025; // Half a second of silence
		return true;

	case S_END3:
		debugC(DEBUG_DETAILED, kTinselDebugMusic, "Music reached state S_END3 (script %d.%d)",
				_scriptNum, _scriptIndex);

		stop();
		_state = S_IDLE;
		return false;

	case S_IDLE:
		return false;

	default:
		break;
	}

	return true;
}

void PCMMusicPlayer::play() {
	if (_curChunk)
		return;
	if (_scriptNum == -1)
		return;

	_end = false;

	getNextChunk();
}

void PCMMusicPlayer::stop() {
	delete _curChunk;
	_curChunk = 0;
	_scriptNum = -1;
	_state = S_IDLE;
	_mState = S_IDLE;

	_end = true;
}

void CurrentMidiFacts(SCNHANDLE	*pMidi, bool *pLoop) {
	*pMidi = g_currentMidi;
	*pLoop = g_currentLoop;
}

void RestoreMidiFacts(SCNHANDLE	Midi, bool Loop) {
	StopMidi();

	g_currentMidi = Midi;
	g_currentLoop = Loop;

	if (_vm->_config->_musicVolume != 0 && Loop) {
		bool mute = false;
		if (ConfMan.hasKey("mute"))
			mute = ConfMan.getBool("mute");

		PlayMidiSequence(g_currentMidi, true);
		SetMidiVolume(mute ? 0 : _vm->_config->_musicVolume);
	}
}

#if 0
// Dumps all of the game's music in external XMIDI *.xmi files
void dumpMusic() {
	Common::File midiFile;
	Common::DumpFile outFile;
	char outName[20];
	midiFile.open(MIDI_FILE);
	int outFileSize = 0;
	char buffer[20000];

	const int total = 155;	// maximum (SCN version)

	for (int i = 0; i < total; i++) {
		if (midiOffsets[i] == 0)
			break;

		sprintf(outName, "track%03d.xmi", i + 1);
		outFile.open(outName);

		if (i < total - 1)
			outFileSize = midiOffsets[i + 1] - midiOffsets[i] - 4;
		else
			outFileSize = midiFile.size() - midiOffsets[i] - 4;

		midiFile.seek(midiOffsets[i] + 4, SEEK_SET);

		assert(outFileSize < 20000);
		midiFile.read(buffer, outFileSize);
		outFile.write(buffer, outFileSize);

		outFile.close();
	}

	midiFile.close();
}
#endif

} // End of namespace Tinsel