Implemented new Simon MIDI module, switching from MidiStreamer to MidiParser. Restructuring enables XMIDI support and vc_72 implementation. Various cleanup on MidiParser's and MidiDriver's.

svn-id: r7654
2003-05-18 23:55:53 +00:00 · 2003-05-18 23:55:53 +00:00 · c81b58d38e
commit c81b58d38e
parent b43bca21cb
12 changed files with 362 additions and 507 deletions
--- a/backends/midi/adlib.cpp
+++ b/backends/midi/adlib.cpp
@ -867,6 +867,9 @@ int MidiDriver_ADLIB::open() {
 }
 void MidiDriver_ADLIB::close() {
 	if (!_isOpen)
 		return;
 	uint i;
 	for (i = 0; i < ARRAYSIZE(_voices); ++i) {
 		if (_voices [i]._part)
--- a/backends/midi/windows.cpp
+++ b/backends/midi/windows.cpp
@ -65,6 +65,8 @@ int MidiDriver_WIN::open() {
 }
 void MidiDriver_WIN::close() {
 	if (!_isOpen)
 		return;
 	_isOpen = false;
 	midiOutUnprepareHeader (_mo, &_streamHeader, sizeof (_streamHeader));
 	check_error(midiOutClose(_mo));
@ -83,7 +85,6 @@ void MidiDriver_WIN::send(uint32 b)
 	u.bData[1] = (byte)((b & 0x0000FF00) >> 8);
 	u.bData[0] = (byte)(b & 0x000000FF);
 	// printMidi(u.bData[0], u.bData[1], u.bData[2], u.bData[3]);
 	check_error(midiOutShortMsg(_mo, u.dwData));
 }
--- a/scummvm.dsp
+++ b/scummvm.dsp
@ -266,6 +266,10 @@ SOURCE=.\sound\midiparser.h
 # End Source File
 # Begin Source File
 SOURCE=.\sound\midiparser_smf.cpp
 # End Source File
 # Begin Source File
 SOURCE=.\sound\midiparser_xmidi.cpp
 # End Source File
 # Begin Source File
--- a/simon/items.cpp
+++ b/simon/items.cpp
@ -1451,8 +1451,9 @@ void SimonState::o_unk_127() {
 				_vc72_var3 = 0xffff;
 				_midi_unk2 = 0xffff;
 				if (_game & GF_WIN) {
-					midi.initialize();
+					// FIXME: What do we expect to happen at this moment?
-					midi.play();
+					// midi.initialize();
 					// midi.play();
 				}
 				_vc72_var1 = b;
 			} else {
--- a/simon/midi.cpp
+++ b/simon/midi.cpp
@ -24,411 +24,138 @@
 #include "scummsys.h"
 #include "common/system.h"
 #include "common/file.h"
 #include "sound/midistreamer.h"
 #include "sound/mixer.h"
 #include "simon/simon.h"
-MidiPlayer::MidiPlayer() {
+MidiPlayer::MidiPlayer (OSystem *system) {
 	// Since initialize() is called every time the music changes,
 	// this is where we'll initialize stuff that must persist
 	// between songs.
 	_system = system;
 	_mutex = system->create_mutex();
 	_data = 0;
 	_masterVolume = 255;
 	_num_songs = 0;
 	_currentTrack = 255;
 }
-void MidiPlayer::read_all_songs(File *in, uint music) {
+MidiPlayer::~MidiPlayer() {
-	uint i, num;
+	_system->lock_mutex (_mutex);
-
+	close();
-	_currentSong = _songs;
+	_system->unlock_mutex (_mutex);
-
+	_system->delete_mutex (_mutex);
 	num = in->readByte();
 	for (i = 0; i != num; i++) {
 		read_one_song(in, &_songs[i], music);
 	}
 }
-void MidiPlayer::read_all_songs_old(File *in, uint music) {
+int MidiPlayer::open() {
-	uint i, num;
+	// Don't ever call open without first setting the output driver!
 	if (!_driver)
 		return 255;
-	_currentSong = _songs;
+	int ret = _driver->open();
-
+	if (ret)
-	num = 1;
+		return ret;
-
+	_driver->setTimerCallback (this, &onTimer);
-	for (i = 0; i != num; i++) {
+	return 0;
 		read_one_song(in, &_songs[i], music);
 	}
 }
-void MidiPlayer::read_all_songs_old(File *in, uint music, uint16 size) {
+void MidiPlayer::close() {
-	_currentSong = _songs;
+	_system->lock_mutex (_mutex);
-
+	stop();
-	_lastDelay = 0;
+	if (_driver)
-
+		_driver->close();
-	read_one_song(in, &_songs[0], music, size);
+	_driver = NULL;
 	clearConstructs();
 	_system->unlock_mutex (_mutex);
 }
-void MidiPlayer::read_mthd(File *in, Song *s, bool old, uint music, uint16 size) {
+void MidiPlayer::send (uint32 b) {
-	Track *t;
+	byte volume;
 	uint i;
-	if (!old) {
+	// Only thing we care about is volume control changes.
-		if (in->readUint32BE() != 6)
+	if ((b & 0xFFF0) == 0x07B0) {
-			error("Invalid 'MThd' chunk size");
+		volume = (byte) ((b >> 16) & 0xFF) * _masterVolume / 255;
-		s->midi_format = in->readUint16BE();
+		_volumeTable [b & 0xF] = volume;
-		s->num_tracks = in->readUint16BE();
+		b = (b & 0xFF00FFFF) | (volume << 16);
 		s->ppqn = in->readUint16BE();
 	} else {
 		s->midi_format = 0;
 		s->num_tracks = 1;
 		s->ppqn = 0xc0;
 		in->readUint16BE();
 		in->readByte();
 	}
-	s->tracks = t = (Track *)calloc(s->num_tracks, sizeof(Track));
+	_driver->send (b);
 	if (t == NULL)
 		error("Out of memory when allocating MIDI tracks");
 	for (i = 0; i != s->num_tracks; i++, t++) {
 		if (!old) {
 			if (in->readUint32BE() != 'MTrk')
 				error("Midi track has no 'MTrk'");
 			t->data_size = in->readUint32BE();
 		} else {
 			//FIXME We currently don't know how to find out music track size for GMF midi format
 			// So we use music files sizes minues header for now to allow looping
 			int music_data_size[] = {8900, 12166, 2848, 3442, 4034, 4508, 7064, 9730, 6014, 4742, 3138,
 						6570, 5384, 8909, 6457, 16321, 2742, 8968, 4804, 8442, 7717,
 						9444, 5800, 1381, 5660, 6684, 2456, 4744, 2455, 1177, 1232,
 						17256, 5103, 8794, 4884, 16};
 			if (size)
 				t->data_size = size - 8;
 			else
 			t->data_size = music_data_size[music] - 8;
 }
-		t->data_ptr = (byte *)calloc(t->data_size, 1);
+void MidiPlayer::metaEvent (byte type, byte *data, uint16 length) {
-		if (t->data_ptr == NULL)
+	// Only thing we care about is End of Track.
-			error("Out of memory when allocating MIDI track data (%d)", t->data_size);
+	if (type != 0x2F)
 		in->read(t->data_ptr, t->data_size);
 		t->data_cur_size = t->data_size;
 		t->data_cur_ptr = t->data_ptr;
 		t->a = 0;
 		t->last_cmd = 0;
 		t->delay = 0;
 		if (t->data_cur_size == 0) {
 			t->a |= 1;
 			continue;
 		}
 		t->delay = track_read_gamma(t);
 	}
 }
 void MidiPlayer::read_one_song(File *in, Song *s, uint music, uint16 size) {
 	_lastDelay = 0;
 	s->ppqn = 0;
 	s->midi_format = 0;
 	s->num_tracks = 0;
 	s->tracks = NULL;
 	uint32 id = in->readUint32BE();
 	switch (id) {
 	case 'MThd':
 		read_mthd(in, s, false, music, size);
 		break;
 	case 'GMF\x1':
 		read_mthd(in, s, true, music, size);
 		break;
 	default:
 		error("Midi song has no 'MThd'");
 	}
 }
 uint32 MidiPlayer::track_read_gamma(Track *t) {
 	uint32 sum;
 	byte b;
 	sum = 0;
 	do {
 		b = track_read_byte(t);
 		sum = (sum << 7) | (b & 0x7F);
 	} while (b & 0x80);
 	return sum;
 }
 byte MidiPlayer::track_read_byte(Track *t) {
 	if (t->a & 1)
 		error("Trying to read byte from MIDI stream when end reached");
 	if (!--t->data_cur_size) {
 		t->a |= 1;
 	}
 	return *t->data_cur_ptr++;
 }
 void MidiPlayer::initialize() {
 	int res;
 	int i;
 	for (i = 0; i != 16; i++)
 		_volumeTable[i] = 127;
 	_midiDriver->property(MidiDriver::PROP_TIMEDIV, _songs[0].ppqn);
 	res = _midiDriver->open();
 	if (res != 0)
 		error("MidiPlayer::initializer, got %s", MidiDriver::getErrorName(res));
 	if (_paused)
 		_midiDriver->pause (true);
 }
 int MidiPlayer::fill(MidiEvent *me, int num_event) {
 	uint32 best, j;
 	Track *best_track, *t;
 	bool did_reset;
 	NoteRec midi_tmp_note_rec;
 	int i = 0;
 	did_reset = false;
 	for (i = 0; i != num_event;) {
 		best_track = NULL;
 		best = 0xFFFFFFFF;
 		/* Locate which track that's next */
 		t = _currentSong->tracks;
 		for (j = _currentSong->num_tracks; j; j--, t++) {
 			if (!(t->a & 1)) {
 				if (t->delay < best) {
 					best = t->delay;
 					best_track = t;
 				}
 			}
 		}
 		if (best_track == NULL) {
 			/* reset tracks if song ended? */
 			if (did_reset) {
 				/* exit if song ended completely */
 				return i;
 			}
 			did_reset = true;
 			reset_tracks();
 			continue;
 		}
 		read_next_note(best_track, &midi_tmp_note_rec);
 		if (fill_helper(&midi_tmp_note_rec, me + i))
 			i++;
 		if (midi_tmp_note_rec.sysex_data)
 			free(midi_tmp_note_rec.sysex_data);
 	}
 	return i;
 }
 int MidiPlayer::on_fill(void *param, MidiEvent *ev, int num) {
 	MidiPlayer *mp = (MidiPlayer *) param;
 	return mp->fill(ev, num);
 }
 bool MidiPlayer::fill_helper(NoteRec *nr, MidiEvent *me) {
 	uint b;
 	b = nr->delay - _lastDelay;
 	_lastDelay = nr->delay;
 	if (nr->cmd < 0xF0) {
 		me->delta = b;
 		me->event = nr->cmd | (nr->param_1 << 8) | (nr->param_2 << 16);
 		if ((nr->cmd & 0xF0) == 0xB0 && nr->param_1 == 7) {
 			_volumeTable[nr->cmd & 0xF] = nr->param_2;
 //			nr->param_1 = 0x76;
 			me->event = nr->cmd | (nr->param_1 << 8) | ((nr->param_2 * _masterVolume / 255) << 16) /* | MEVT_F_CALLBACK */ ;
 		}
 		return true;
 	}
 	if (nr->cmd == 0xF0 || nr->cmd == 0xF7 || nr->param_1 != 0x51) {
 		return false;
 	}
 	int tempo = nr->sysex_data[2] | (nr->sysex_data[1] << 8) | (nr->sysex_data[0] << 16);
 //	_midi_var8 = (_currentSong->ppqn * 60000) / tempo;
 	me->delta = b;
 	me->event = (MidiStreamer::ME_TEMPO << 24) | tempo;
 	return true;
 }
 void MidiPlayer::reset_tracks() {
 	if (_midi_sfx_toggle)
 		return;
-	Track *t;
+	_parser->jumpToTick (0);
 	uint i;
 	_lastDelay = 0;
 	for (i = 0, t = _currentSong->tracks; i != _currentSong->num_tracks; i++, t++) {
 		t->data_cur_size = t->data_size;
 		t->data_cur_ptr = t->data_ptr;
 		t->a = 0;
 		t->last_cmd = 0;
 		t->delay = 0;
 		if (t->data_cur_size == 0) {
 			t->a |= 1;
 		} else {
 			t->delay = track_read_gamma(t);
 		}
 	}
 }
-void MidiPlayer::read_next_note(Track *t, NoteRec *nr) {
+void MidiPlayer::onTimer (void *data) {
-	byte cmd_byte;
+	MidiPlayer *player = (MidiPlayer *) data;
-	uint i;
+	if (player->_paused)
-
+		return;
-	nr->delay = 0;
+	if (player->_parser) {
-	nr->cmd = 0;
+		player->_system->lock_mutex (player->_mutex);
-	nr->param_1 = 0;
+		player->_parser->onTimer();
-	nr->param_2 = 0;
+		player->_system->unlock_mutex (player->_mutex);
 	nr->cmd_length = 0;
 	nr->sysex_data = NULL;
 	if (t->a & 1 || t->data_cur_size == 0)
 		error("read next note when track ended");
 	/* read next midi byte, but skip any pitch bends. */
 	for (;;) {
 		cmd_byte = track_read_byte(t);
 		if ((cmd_byte & 0xF0) != 0xE0)
 			break;
 		track_read_byte(t);
 //		track_read_byte(t);
 	}
 	if (!(cmd_byte & 0x80)) {
 		/* running status? */
 		if (t->last_cmd == 0)
 			error("Last cmd = 0");
 		nr->cmd = t->last_cmd;
 		nr->param_1 = cmd_byte;
 		cmd_byte = nr->cmd & 0xF0;
 		nr->cmd_length = 2;
 		if (cmd_byte != 0xC0 && cmd_byte != 0xD0) {
 			nr->param_2 = track_read_byte(t);
 			nr->cmd_length++;
 		}
 	} else if ((cmd_byte & 0xF0) != 0xF0) {
 		nr->cmd = cmd_byte;
 		t->last_cmd = cmd_byte;
 		cmd_byte &= 0xF0;
 		nr->cmd_length = (cmd_byte == 0xC0 || cmd_byte == 0xD0) ? 2 : 3;
 		if (t->data_cur_size < nr->cmd_length - 1) {
 			error("read_next_note: end of stream");
 		}
 		nr->param_1 = track_read_byte(t);
 		if (nr->cmd_length == 3)
 			nr->param_2 = track_read_byte(t);
 	} else if (cmd_byte == 0xF0 || cmd_byte == 0xF7) {
 		nr->cmd = cmd_byte;
 		nr->cmd_length = track_read_gamma(t);
 		if (t->data_cur_size < nr->cmd_length)
 			error("read_next_note: end of stream 2");
 		nr->sysex_data = (byte *)malloc(nr->cmd_length);
 		if (nr->sysex_data == NULL)
 			error("read_next_note: out of memory");
 		for (i = 0; i != nr->cmd_length; i++)
 			nr->sysex_data[i] = track_read_byte(t);
 	} else if (cmd_byte == 0xFF) {
 		nr->cmd = cmd_byte;
 		nr->param_1 = track_read_byte(t);
 		nr->cmd_length = track_read_gamma(t);
 		if (nr->cmd_length) {
 			if (t->data_cur_size < nr->cmd_length)
 				error("read_next_note: end of stream 3");
 			nr->sysex_data = (byte *)malloc(nr->cmd_length);
 			if (nr->sysex_data == NULL)
 				error("read_next_note: out of memory");
 			for (i = 0; i != nr->cmd_length; i++)
 				nr->sysex_data[i] = track_read_byte(t);
 		}
 		if (nr->param_1 == 0x2F)
 			t->a |= 1;
 	} else {
 		error("Invalid sysex cmd");
 	}
 	nr->delay = t->delay;
 	if (!(t->a & 1)) {
 		t->delay += track_read_gamma(t);
 	}
 }
-void MidiPlayer::shutdown() {
+void MidiPlayer::jump (uint16 track, uint16 tick) {
-	_midiDriver->close();
+	if (track == _currentTrack)
-	unload();
+		return;
 	if (_num_songs > 0) {
 		if (track >= _num_songs)
 			return;
 		_system->lock_mutex (_mutex);
 		if (_parser) {
 			delete _parser;
 			_parser = 0;
 		}
-void MidiPlayer::unload() {
+		MidiParser *parser = MidiParser::createParser_SMF();
-	uint i, j;
+		parser->setMidiDriver (this);
-	Song *s;
+		parser->setTimerRate (_driver->getBaseTempo());
-	Track *t;
+		if (!parser->loadMusic (_songs[track], _song_sizes[track])) {
-	for (i = 0, s = _songs; i != 8; i++, s++) {
+			printf ("Error reading track!\n");
-		if (s->tracks) {
+			delete parser;
-			for (j = 0, t = s->tracks; j != s->num_tracks; j++, t++) {
+			parser = 0;
 				if (t->data_ptr)
 					free(t->data_ptr);
 			}
 			free(s->tracks);
 			s->tracks = NULL;
 		}
 		_currentTrack = (byte) track;
 		for (int i = ARRAYSIZE (_volumeTable); i; --i)
 			_volumeTable[i-1] = 127;
 		_parser = parser; // That plugs the power cord into the wall
 		_system->unlock_mutex (_mutex);
 	} else if (_parser) {
 		_system->lock_mutex (_mutex);
 		_currentTrack = (byte) track;
 		_parser->setTrack ((byte) track);
 		_parser->jumpToTick (tick - 1);
 		_system->unlock_mutex (_mutex);
 	}
 }
-void MidiPlayer::play() {
+void MidiPlayer::stop() {
-	if (!_paused)
+	_system->lock_mutex (_mutex);
-		_midiDriver->pause(false);
+	if (_parser)
 		_parser->unloadMusic();
 	_currentTrack = 255;
 	_system->unlock_mutex (_mutex);
 }
 void MidiPlayer::pause (bool b) {
 	if (_paused == b)
 		return;
 	_paused = b;
 	_midiDriver->pause(b);
-	for (int i = ARRAYSIZE (_volumeTable); i; --i) {
+	_system->lock_mutex (_mutex);
-		_midiDriver->send (((_paused ? 0 : (_volumeTable[i-1] * _masterVolume / 255)) << 16) | (7 << 8) | 0xB0 | i);
+	for (int i = ARRAYSIZE (_volumeTable); i; --i)
-	}
+		_driver->send (((_paused ? 0 : (_volumeTable[i-1] * _masterVolume / 255)) << 16) | (7 << 8) | 0xB0 | i);
-	
+	_system->unlock_mutex (_mutex);
 }
 int MidiPlayer::get_volume() {
 	return _masterVolume;
 }
 void MidiPlayer::set_volume (int volume) {
@ -443,16 +170,152 @@ void MidiPlayer::set_volume (int volume) {
 	_masterVolume = volume;
 	// Now tell all the channels this.
-	if (_midiDriver && !_paused) {
+	_system->lock_mutex (_mutex);
 	if (_driver && !_paused) {
 		for (int i = ARRAYSIZE (_volumeTable); i; --i) {
-			_midiDriver->send (((_volumeTable[i-1] * _masterVolume / 255) << 16) | (7 << 8) | 0xB0 | i);
+			_driver->send (((_volumeTable[i-1] * _masterVolume / 255) << 16) | (7 << 8) | 0xB0 | i);
 		}
 	}
 	_system->unlock_mutex (_mutex);
 }
 void MidiPlayer::set_driver(MidiDriver *md) {
-	// We must always use the MidiStreamer front-end
+	// Don't try to set this more than once.
-	// so we can support user-initiated MIDI events (like volume).
+	if (_driver)
-	_midiDriver = new MidiStreamer (md);
+		return;
-	_midiDriver->set_stream_callback(this, on_fill);
+	_driver = md;
 }
 void MidiPlayer::clearConstructs() {
 	if (_num_songs > 0) {
 		byte i;
 		for (i = 0; i < _num_songs; ++i) {
 			free (_songs [i]);
 		}
 		_num_songs = 0;
 	}
 	if (_data) {
 		free (_data);
 		_data = 0;
 	}
 	if (_parser) {
 		delete _parser;
 		_parser = 0;
 	}
 }
 void MidiPlayer::playSMF (File *in) {
 	_system->lock_mutex (_mutex);
 	clearConstructs();
 	uint32 size = in->size() - in->pos();
 	if (size > 64000)
 		size = 64000;
 	_data = (byte *) calloc (size, 1);
 	in->read (_data, size);
 	MidiParser *parser = MidiParser::createParser_SMF();
 	parser->setMidiDriver (this);
 	parser->setTimerRate (_driver->getBaseTempo());
 	if (!parser->loadMusic (_data, size)) {
 		printf ("Error reading track!\n");
 		delete parser;
 		parser = 0;
 	}
 	_currentTrack = 0;
 	for (int i = ARRAYSIZE (_volumeTable); i; --i)
 		_volumeTable[i-1] = 127;
 	_parser = parser; // That plugs the power cord into the wall
 	_system->unlock_mutex (_mutex);
 }
 void MidiPlayer::playMultipleSMF (File *in) {
 	// This is a special case for Simon 2 Windows.
 	// Instead of having multiple sequences as
 	// separate tracks in a Type 2 file, simon2win
 	// has multiple songs, each of which is a Type 1
 	// file. Thus, preceding the songs is a single
 	// byte specifying how many songs are coming.
 	// We need to load ALL the songs and then
 	// treat them as separate tracks -- for the
 	// purpose of jumps, anyway.
 	_system->lock_mutex (_mutex);
 	clearConstructs();
 	_num_songs = in->readByte();
 	if (_num_songs > 16) {
 		printf ("playMultipleSMF: %d is too many songs to keep track of!\n", (int) _num_songs);
 		_system->unlock_mutex (_mutex);
 		return;
 	}
 	byte i;
 	for (i = 0; i < _num_songs; ++i) {
 		byte buf[5];
 		uint32 pos = in->pos();
 		// Make sure there's a MThd
 		in->read (buf, 4);
 		if (memcmp (buf, "MThd", 4)) {
 			printf ("Expected MThd but found '%c%c%c%c' instead!\n", buf[0], buf[1], buf[2], buf[3]);
 			_system->unlock_mutex (_mutex);
 			return;
 		}
 		in->seek (in->readUint32BE() + in->pos(), SEEK_SET);
 		// Now skip all the MTrk blocks
 		while (true) {
 			in->read (buf, 4);
 			if (memcmp (buf, "MTrk", 4))
 				break;
 			in->seek (in->readUint32BE() + in->pos(), SEEK_SET);
 		}
 		uint32 pos2 = in->pos() - 4;
 		uint32 size = pos2 - pos;
 		_songs[i] = (byte *) calloc (size, 1);
 		in->seek (pos, SEEK_SET);
 		in->read (_songs[i], size);
 		_song_sizes[i] = size;
 	}
 	_system->unlock_mutex (_mutex);
 	jump (0, 1);
 }
 void MidiPlayer::playXMIDI (File *in) {
 	_system->lock_mutex (_mutex);
 	clearConstructs();
 	char buf[4];
 	uint32 pos = in->pos();
 	uint32 size = 4;
 	in->read (buf, 4);
 	if (!memcmp (buf, "FORM", 4)) {
 		while (memcmp (buf, "CAT ", 4)) { size += 4; in->read (buf, 4); }
 		size += 4 + in->readUint32BE();
 		in->seek (pos, 0);
 		_data = (byte *) calloc (size, 1);
 		in->read (_data, size);
 	} else {
 		printf ("ERROR! Expected 'FORM' tag but found '%c%c%c%c' instead!\n", buf[0], buf[1], buf[2], buf[3]);
 		_system->unlock_mutex (_mutex);
 		return;
 	}
 	MidiParser *parser = MidiParser::createParser_XMIDI();
 	parser->setMidiDriver (this);
 	parser->setTimerRate (_driver->getBaseTempo());
 	if (!parser->loadMusic (_data, size)) {
 		printf ("Error reading track!\n");
 		delete parser;
 		parser = 0;
 	}
 	_currentTrack = 0;
 	for (int i = ARRAYSIZE (_volumeTable); i; --i)
 		_volumeTable[i-1] = 127;
 	_parser = parser; // That plugs the power cord into the wall
 	_system->unlock_mutex (_mutex);
 }
--- a/simon/midi.h
+++ b/simon/midi.h
@ -22,79 +22,64 @@
 #ifndef SIMON_MIDI_H
 #define SIMON_MIDI_H
-class MidiDriver;
+#include "sound/mididrv.h"
-class MidiStreamer;
+#include "sound/midiparser.h"
 class File;
-struct MidiEvent;
+class OSystem;
-class MidiPlayer {
+class MidiPlayer : public MidiDriver {
-public:
+protected:
-	MidiPlayer();
+	OSystem *_system;
 	void *_mutex;
 	MidiDriver *_driver;
 	MidiParser *_parser;
-	bool _midi_sfx_toggle;
+	byte *_data;
 	void read_all_songs (File *in, uint music);
 	void read_all_songs_old (File *in, uint music, uint16 size);
 	void read_all_songs_old (File *in, uint music);
 	void initialize();
 	void shutdown();
 	void play();
 	void pause (bool b);
 	int  get_volume();
 	void set_volume (int volume);
 	void set_driver (MidiDriver *md);
 private:
 	struct Track {
 		uint32 a;
 		uint32 data_size;
 		uint32 data_cur_size;
 		byte *data_ptr;
 		byte *data_cur_ptr;
 		uint32 delay;
 		byte last_cmd;
 	};
 	struct Song {
 		uint ppqn;
 		uint midi_format;
 		uint num_tracks;
 		Track *tracks;
 	};
 	struct NoteRec {
 		uint32 delay;
 		byte cmd;
 		byte param_1;
 		byte param_2;
 		uint cmd_length;
 		byte *sysex_data;
 	};
 	MidiStreamer *_midiDriver;
 	uint _lastDelay;
 	Song *_currentSong;
 	Song _songs[8];
 	byte _volumeTable[16]; // 0-127
 	byte _masterVolume;    // 0-255
 	bool _paused;
 	byte _currentTrack;
-	void read_mthd(File *in, Song *s, bool old, uint music, uint16 size);
+	byte _num_songs;
 	byte *_songs[16];
 	uint32 _song_sizes[16];
-	void read_one_song(File *in, Song *s, uint music, uint16 size = 0);
+	static void onTimer (void *data);
 	void clearConstructs();
-	static uint32 track_read_gamma(Track *t);
+public:
-	static byte track_read_byte(Track *t);
+	bool _midi_sfx_toggle;
-	int fill (MidiEvent *me, int num_event);
+	 MidiPlayer (OSystem *system);
-	bool fill_helper (NoteRec *nr, MidiEvent *me);
+	~MidiPlayer();
-	void reset_tracks();
+	void playSMF (File *in);
-	void read_next_note(Track *t, NoteRec *nr);
+	void playMultipleSMF (File *in);
 	void playXMIDI (File *in);
 	void jump (uint16 track, uint16 tick);
 	void stop();
 	void pause (bool b);
-	void unload();
+	int  get_volume() { return _masterVolume; }
 	void set_volume (int volume);
 	void set_driver (MidiDriver *md);
-	static int on_fill(void *param, MidiEvent *ev, int num);
+public:
 	// MidiDriver interface implementation
 	int open();
 	void close();
 	void send(uint32 b);
 	void metaEvent (byte type, byte *data, uint16 length);
 	// Timing functions - MidiDriver now operates timers
 	void setTimerCallback (void *timer_param, void (*timer_proc) (void *)) { }
 	uint32 getBaseTempo (void) { return _driver ? _driver->getBaseTempo() : 0x4A0000; }
 	// Channel allocation functions
 	MidiChannel *allocateChannel() { return 0; }
 	MidiChannel *getPercussionChannel() { return 0; }
 };
 #endif
--- a/simon/simon.cpp
+++ b/simon/simon.cpp
@ -170,7 +170,7 @@ Engine *Engine_SIMON_create(GameDetector *detector, OSystem *syst) {
 }
 SimonState::SimonState(GameDetector *detector, OSystem *syst)
-	: Engine(detector, syst) {
+	: Engine(detector, syst), midi (syst) {
 	MidiDriver *driver = detector->createMidi();
 	_dummy_item_1 = new Item();
@ -183,6 +183,9 @@ SimonState::SimonState(GameDetector *detector, OSystem *syst)
 	if (!driver)
 		driver = MidiDriver_ADLIB_create();
 	midi.set_driver(driver);
 	int ret = midi.open();
 	if (ret)
 		warning ("MIDI Player init failed: \"%s\"", midi.getErrorName (ret));
 	_game = (byte)detector->_features;
@ -857,11 +860,12 @@ void SimonState::playSting(uint a) {
 	if (_mus_file->read(_mus_offsets, size) != size)
 		error("Can't read offsets");
-	midi.shutdown();
+	// midi.shutdown();
 	_mus_file->seek(_mus_offsets[a], SEEK_SET);
-	midi.read_all_songs_old(_mus_file, a, _mus_offsets[a+1] - _mus_offsets[a]);
+	// midi.read_all_songs_old(_mus_file, a, _mus_offsets[a+1] - _mus_offsets[a]);
-	midi.initialize();
+	// midi.initialize();
-	midi.play();
+	// midi.play();
 	midi.playSMF (_mus_file);
 }
 Subroutine *SimonState::getSubroutineByID(uint subroutine_id) {
@ -3113,7 +3117,7 @@ void SimonState::processSpecialKeys() {
 			if (_game == GAME_SIMON1DOS) {
 				midi._midi_sfx_toggle ^= 1;
 				if (midi._midi_sfx_toggle)
-					midi.shutdown();
+					midi.stop();
 				else
 					playMusic(0, _last_music_played);
 			} else
@ -5043,14 +5047,13 @@ void SimonState::playMusic(uint music_unk, uint music) {
 	if (_game & GF_SIMON2) {        // Simon 2 music
 		if (_game & GF_WIN) {	
-			midi.shutdown();
+			midi.stop();
 			_game_file->seek(_game_offsets_ptr[gss->MUSIC_INDEX_BASE + music - 1], SEEK_SET);
-			midi.read_all_songs(_game_file, music);
+			midi.playMultipleSMF (_game_file);
 		} else {
-			/* TODO Add XMI midi format support for simon2dos/talkie */
+			midi.stop();
-			//midi.shutdown();
+			_game_file->seek(_game_offsets_ptr[gss->MUSIC_INDEX_BASE + music - 1], SEEK_SET);
-			//_game_file->seek(_game_offsets_ptr[gss->MUSIC_INDEX_BASE + music - 1], SEEK_SET);
+			midi.playXMIDI (_game_file);
 			//midi.read_xmi_songs(_game_file, music);
 		}
 		_midi_unk1 = music;
 		_vc72_var1 = music_unk;
@ -5066,13 +5069,15 @@ void SimonState::playMusic(uint music_unk, uint music) {
 		} else if (_game & GF_DEMO) {
 			/* TODO Add music support for simon1demo */
 		} else {
-			midi.shutdown();
+			midi.stop();
 			if (_game & GF_WIN) {	
 				_game_file->seek(_game_offsets_ptr[gss->MUSIC_INDEX_BASE + music], SEEK_SET);
-				midi.read_all_songs(_game_file, music);
+				// midi.read_all_songs(_game_file, music);
 				midi.playSMF (_game_file);
 			} else if (_game & GF_TALKIE) {
 				_game_file->seek(_game_offsets_ptr[gss->MUSIC_INDEX_BASE + music], SEEK_SET);
-				midi.read_all_songs_old(_game_file, music);
+				// midi.read_all_songs_old(_game_file, music);
 				midi.playSMF (_game_file);
 			} else {
 				char buf[50];
 				File *f = new File();
@ -5082,11 +5087,10 @@ void SimonState::playMusic(uint music_unk, uint music) {
 					warning("Can't load music from '%s'", buf);
 					return;
 				}
-				midi.read_all_songs_old(f, music);
+				// midi.read_all_songs_old(f, music);
 				midi.playSMF (f);
 				delete f;
 			}
 			midi.initialize();
 			midi.play();
 		}
 	}
 }
--- a/simon/vga.cpp
+++ b/simon/vga.cpp
@ -1814,8 +1814,9 @@ void SimonState::vc_69() {
 	if (_vc72_var1 == 999) {
 		_vc70_var2 = b;
 		if (_game & GF_WIN) {
-			midi.initialize();
+			// FIXME: What do we expect to have happen here?
-			midi.play();
+			// midi.initialize();
 			// midi.play();
 		}
 		_vc72_var1 = b;
 	} else if (_vc72_var1 != 0xFFFF) {
@ -1854,8 +1855,7 @@ void SimonState::vc_72() {
 		_vc72_var3 = a;
 	}
-	if (_debugMode)
+	midi.jump (a, b);
 		warning("vc_72(%d,%d): music stuff?", a, b);
 }
 void SimonState::vc_73_set_op189_flag() {
--- a/sound/midiparser.h
+++ b/sound/midiparser.h
@ -34,7 +34,7 @@ protected:
 	uint32 _timer_rate;
 public:
-	virtual bool loadMusic (byte *data) = 0;
+	virtual bool loadMusic (byte *data, uint32 size) = 0;
 	virtual void unloadMusic() = 0;
 	void setMidiDriver (MidiDriver *driver) { _driver = driver; }
@ -44,7 +44,7 @@ public:
 	virtual void setTrack (byte track) = 0;
 	virtual void jumpToTick (uint32 tick) = 0;
-	static MidiParser *createParser_RIFF();
+	static MidiParser *createParser_SMF();
 	static MidiParser *createParser_XMIDI();
 };
--- a/sound/midiparser_smf.cpp
+++ b/sound/midiparser_smf.cpp
@ -48,8 +48,6 @@ protected:
 	uint32 _ppqn;
 	uint32 _psec_per_tick; // Microseconds per delta tick
 	int _lock;
 protected:
 	uint32 read4high (byte * &data) {
 		uint32 val = 0;
@ -109,16 +107,9 @@ uint32 MidiParser_SMF::readVLQ (byte * &data) {
 }
 void MidiParser_SMF::onTimer() {
 	if (_lock++) {
 		--_lock;
 		return;
 	}
 	if (!_play_pos || !_driver)
 		return;
 	playToTime (_play_time + _timer_rate, true);
 	_lock = 0;
 }
 void MidiParser_SMF::playToTime (uint32 psec, bool transmit) {
@ -215,7 +206,6 @@ void MidiParser_SMF::playToTime (uint32 psec, bool transmit) {
 					if (transmit) {
 						_driver->metaEvent (event, pos, (uint16) length);
 					}
 					_lock = 0;
 					return;
 				} else if (event == 0x51) {
 					if (length >= 3) {
@ -238,8 +228,6 @@ void MidiParser_SMF::playToTime (uint32 psec, bool transmit) {
 	_play_pos = pos;
 }
 // This code was adapted from the exult methods
 // XMIDI::ExtractTracks and XMIDI::ExtractTracksFromXmi
 bool MidiParser_SMF::loadMusic (byte *data, uint32 size) {
 	uint32 len;
 	bool isGMD = false; // Indicates an older GMD file without block headers
@ -465,9 +453,6 @@ void MidiParser_SMF::allNotesOff() {
 }
 void MidiParser_SMF::unloadMusic() {
 	while (_lock);
 	++_lock;
 	_play_pos = NULL;
 	_data = NULL;
 	_num_tracks = 0;
@ -476,8 +461,6 @@ void MidiParser_SMF::unloadMusic() {
 	_last_event_time = 0;
 	_running_status = 0;
 	allNotesOff();
 	_lock = 0;
 }
 void MidiParser_SMF::setTrack (byte track) {
--- a/sound/midiparser_xmidi.cpp
+++ b/sound/midiparser_xmidi.cpp
@ -51,8 +51,6 @@ protected:
 	NoteTimer _notes_cache[32];
 	int _lock;
 protected:
 	uint32 read4high (byte * &data) {
 		uint32 val = 0;
@ -69,8 +67,10 @@ protected:
 	uint32 readVLQ (byte * &data);
 	uint32 readVLQ2 (byte * &data);
 	void playToTime (uint32 psec, bool transmit);
 public:
-	bool loadMusic (byte *data);
+	bool loadMusic (byte *data, uint32 size);
 	void unloadMusic();
 	void setMidiDriver (MidiDriver *driver) { _driver = driver; }
@ -130,6 +130,12 @@ uint32 MidiParser_XMIDI::readVLQ2 (byte * &pos) {
 }
 void MidiParser_XMIDI::onTimer() {
 	if (!_play_pos || !_driver)
 		return;
 	playToTime (_play_time + _timer_rate, true);
 }
 void MidiParser_XMIDI::playToTime (uint32 psec, bool transmit) {
 	uint32 delta;
 	uint32 end_time;
 	uint32 event_time;
@ -143,15 +149,7 @@ void MidiParser_XMIDI::onTimer() {
 	byte vel;
 	uint32 note_length;
-	if (_lock++) {
+	end_time = psec;
 		--_lock;
 		return;
 	}
 	if (!_play_pos || !_driver)
 		return;
 	end_time = _play_time + _timer_rate;
 	pos = _play_pos;
 	// Send any necessary note off events.
@ -159,6 +157,7 @@ void MidiParser_XMIDI::onTimer() {
 	for (i = ARRAYSIZE(_notes_cache); i; --i, ++ptr) {
 		if (ptr->time_left) {
 			if (ptr->time_left <= _timer_rate) {
 				if (transmit)
 					_driver->send (0x80 | ptr->channel | (ptr->note << 8));
 				ptr->time_left = 0;
 			} else {
@ -191,6 +190,7 @@ void MidiParser_XMIDI::onTimer() {
 					ptr->time_left = note_length;
 					ptr->channel = event & 0x0F;
 					ptr->note = note;
 					if (transmit)
 						_driver->send (event | (note << 8) | (vel << 16));
 					break;
 				}
@ -199,6 +199,7 @@ void MidiParser_XMIDI::onTimer() {
 		case 0xC: // Program Change
 		case 0xD: // Channel Aftertouch
 			if (transmit)
 				_driver->send (event | (pos[0] << 8));
 			++pos;
 			break;
@ -207,6 +208,7 @@ void MidiParser_XMIDI::onTimer() {
 		case 0xA: // Key Aftertouch
 		case 0xB: // Control Change
 		case 0xE: // Pitch Bender Change
 			if (transmit)
 				_driver->send (event | (pos[0] << 8) | (pos[1] << 16));
 			pos += 2;
 			break;
@ -214,11 +216,13 @@ void MidiParser_XMIDI::onTimer() {
 		case 0xF: // Meta or SysEx event
 			switch (event & 0x0F) {
 			case 0x2: // Song Position Pointer
 				if (transmit)
 					_driver->send (event | (pos[0] << 8) | (pos[1] << 16));
 				pos += 2;
 				break;
 			case 0x3: // Song Select
 				if (transmit)
 					_driver->send (event | (pos[0] << 8));
 				++pos;
 				break;
@ -229,10 +233,13 @@ void MidiParser_XMIDI::onTimer() {
 			case 0xB: // Sequencer Continue
 			case 0xC: // Sequencer Stop
 			case 0xE: // Active Sensing
 				if (transmit)
 					_driver->send (event);
 				break;
 			case 0x0: // SysEx
 				length = readVLQ (pos);
 				if (transmit)
 					_driver->sysEx (pos, (uint16)(length - 1));
 				pos += length;
 				break;
@ -240,26 +247,28 @@ void MidiParser_XMIDI::onTimer() {
 			case 0xF: // META event
 				event = *pos++;
 				length = readVLQ (pos);
 				_driver->metaEvent (event, pos, (uint16) length);
 				if (event == 0x2F) {
 					// End of song must be processed by us,
 					// as well as sending it to the output device.
 				if (event == 0x2F) {
 					// End of song. See if there are still holding notes
 					// we need to wait for.
 					ptr = &_notes_cache[0];
 					for (i = ARRAYSIZE(_notes_cache); i; --i, ++ptr) {
 						if (ptr->time_left) {
 							if (transmit)
 								_driver->send (0x80 | ptr->channel | (ptr->note << 8));
 							ptr->time_left = 0;
 						}
 					}
 					_play_pos = 0;
-					_lock = 0;
+					if (transmit)
 						_driver->metaEvent (event, pos, (uint16) length);
 					return;
 				}
 				if (transmit)
 					_driver->metaEvent (event, pos, (uint16) length);
 				pos += length;
 				break;
 			}
 		}
@ -268,12 +277,9 @@ void MidiParser_XMIDI::onTimer() {
 	_play_time = end_time;
 	_play_pos = pos;
 	_lock = 0;
 }
-// This code was adapted from the exult methods
+bool MidiParser_XMIDI::loadMusic (byte *data, uint32 size) {
 // XMIDI::ExtractTracks and XMIDI::ExtractTracksFromXmi
 bool MidiParser_XMIDI::loadMusic (byte *data) {
 	uint32 i = 0;
 	byte *start;
 	uint32 len;
@ -419,9 +425,6 @@ void MidiParser_XMIDI::unloadMusic() {
 	int i;
 	NoteTimer *ptr;
 	while (_lock);
 	++_lock;
 	_play_pos = NULL;
 	_data = NULL;
 	_num_tracks = 0;
@ -437,8 +440,6 @@ void MidiParser_XMIDI::unloadMusic() {
 			ptr->time_left = 0;
 		}
 	}
 	_lock = 0;
 }
 void MidiParser_XMIDI::setTrack (byte track) {
@ -451,7 +452,15 @@ void MidiParser_XMIDI::setTrack (byte track) {
 }
 void MidiParser_XMIDI::jumpToTick (uint32 tick) {
-	// TODO: Implement this.
+	if (_active_track >= _num_tracks)
 		return;
 	_play_pos = _tracks[_active_track];
 	_play_time = 0;
 	_last_event_time = 0;
 	if (tick > 0) {
 		printf ("jumpToTick (%ld) not completely implemented!\n", tick);
 		playToTime (tick * MICROSECONDS_PER_TICK - 1, false);
 	}
 }
 MidiParser *MidiParser::createParser_XMIDI() { return new MidiParser_XMIDI; }
--- a/sound/module.mk
+++ b/sound/module.mk
@ -2,6 +2,8 @@ MODULE := sound
 MODULE_OBJS = \
 	sound/fmopl.o \
 	sound/midiparser_smf.o \
 	sound/midiparser_xmidi.o \
 	sound/midistreamer.o \
 	sound/midiparser_xmidi.o \
 	sound/mixer.o \