scummvm/audio/midiparser.cpp
2021-03-03 02:15:05 +02:00

546 lines
14 KiB
C++

/* 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.
*
*/
#include "audio/midiparser.h"
#include "audio/mididrv.h"
#include "common/textconsole.h"
#include "common/util.h"
//////////////////////////////////////////////////
//
// MidiParser implementation
//
//////////////////////////////////////////////////
MidiParser::MidiParser() :
_hangingNotesCount(0),
_driver(0),
_timerRate(0x4A0000),
_ppqn(96),
_tempo(500000),
_psecPerTick(5208), // 500000 / 96
_sysExDelay(0),
_autoLoop(false),
_smartJump(false),
_centerPitchWheelOnUnload(false),
_sendSustainOffOnNotesOff(false),
_disableAllNotesOffMidiEvents(false),
_disableAutoStartPlayback(false),
_numTracks(0),
_activeTrack(255),
_abortParse(false),
_jumpingToTick(false),
_doParse(true),
_pause(false) {
memset(_activeNotes, 0, sizeof(_activeNotes));
memset(_tracks, 0, sizeof(_tracks));
_nextEvent.start = NULL;
_nextEvent.delta = 0;
_nextEvent.event = 0;
_nextEvent.length = 0;
}
void MidiParser::property(int prop, int value) {
switch (prop) {
case mpAutoLoop:
_autoLoop = (value != 0);
break;
case mpSmartJump:
_smartJump = (value != 0);
break;
case mpCenterPitchWheelOnUnload:
_centerPitchWheelOnUnload = (value != 0);
break;
case mpSendSustainOffOnNotesOff:
_sendSustainOffOnNotesOff = (value != 0);
break;
case mpDisableAllNotesOffMidiEvents:
_disableAllNotesOffMidiEvents = (value != 0);
break;
case mpDisableAutoStartPlayback:
_disableAutoStartPlayback = (value != 0);
break;
default:
break;
}
}
void MidiParser::sendToDriver(uint32 b) {
_driver->send(b);
}
void MidiParser::sendMetaEventToDriver(byte type, byte *data, uint16 length) {
_driver->metaEvent(type, data, length);
}
void MidiParser::setTempo(uint32 tempo) {
_tempo = tempo;
if (_ppqn)
_psecPerTick = (tempo + (_ppqn >> 2)) / _ppqn;
}
// This is the conventional (i.e. SMF) variable length quantity
uint32 MidiParser::readVLQ(byte * &data) {
byte str;
uint32 value = 0;
int i;
for (i = 0; i < 4; ++i) {
str = data[0];
++data;
value = (value << 7) | (str & 0x7F);
if (!(str & 0x80))
break;
}
return value;
}
void MidiParser::activeNote(byte channel, byte note, bool active) {
if (note >= 128 || channel >= 16)
return;
if (active)
_activeNotes[note] |= (1 << channel);
else
_activeNotes[note] &= ~(1 << channel);
// See if there are hanging notes that we can cancel
NoteTimer *ptr = _hangingNotes;
int i;
for (i = ARRAYSIZE(_hangingNotes); i; --i, ++ptr) {
if (ptr->channel == channel && ptr->note == note && ptr->timeLeft) {
ptr->timeLeft = 0;
--_hangingNotesCount;
break;
}
}
}
void MidiParser::hangingNote(byte channel, byte note, uint32 timeLeft, bool recycle) {
NoteTimer *best = 0;
NoteTimer *ptr = _hangingNotes;
int i;
if (_hangingNotesCount >= ARRAYSIZE(_hangingNotes)) {
warning("MidiParser::hangingNote(): Exceeded polyphony");
return;
}
for (i = ARRAYSIZE(_hangingNotes); i; --i, ++ptr) {
if (ptr->channel == channel && ptr->note == note) {
if (ptr->timeLeft && ptr->timeLeft < timeLeft && recycle)
return;
best = ptr;
if (ptr->timeLeft) {
if (recycle)
sendToDriver(0x80 | channel, note, 0);
--_hangingNotesCount;
}
break;
} else if (!best && ptr->timeLeft == 0) {
best = ptr;
}
}
// Occassionally we might get a zero or negative note
// length, if the note should be turned on and off in
// the same iteration. For now just set it to 1 and
// we'll turn it off in the next cycle.
if (!timeLeft || timeLeft & 0x80000000)
timeLeft = 1;
if (best) {
best->channel = channel;
best->note = note;
best->timeLeft = timeLeft;
++_hangingNotesCount;
} else {
// We checked this up top. We should never get here!
warning("MidiParser::hangingNote(): Internal error");
}
}
void MidiParser::onTimer() {
uint32 endTime;
uint32 eventTime;
// The SysEx delay can be decreased whenever time passes,
// even if the parser does not parse events.
_sysExDelay -= (_sysExDelay > _timerRate) ? _timerRate : _sysExDelay;
if (!_position._playPos || !_driver || !_doParse || _pause || !_driver->isReady())
return;
_abortParse = false;
endTime = _position._playTime + _timerRate;
// Scan our hanging notes for any
// that should be turned off.
if (_hangingNotesCount) {
NoteTimer *ptr = &_hangingNotes[0];
int i;
for (i = ARRAYSIZE(_hangingNotes); i; --i, ++ptr) {
if (ptr->timeLeft) {
if (ptr->timeLeft <= _timerRate) {
sendToDriver(0x80 | ptr->channel, ptr->note, 0);
ptr->timeLeft = 0;
--_hangingNotesCount;
} else {
ptr->timeLeft -= _timerRate;
}
}
}
}
bool loopEvent = false;
while (!_abortParse) {
EventInfo &info = _nextEvent;
eventTime = _position._lastEventTime + info.delta * _psecPerTick;
if (eventTime > endTime)
break;
// Process the next info.
if (info.event < 0x80) {
warning("Bad command or running status %02X", info.event);
_position._playPos = 0;
return;
}
if (info.command() == 0x8) {
activeNote(info.channel(), info.basic.param1, false);
} else if (info.command() == 0x9) {
if (info.length > 0)
hangingNote(info.channel(), info.basic.param1, info.length * _psecPerTick - (endTime - eventTime));
else
activeNote(info.channel(), info.basic.param1, true);
}
// Player::metaEvent() in SCUMM will delete the parser object,
// so return immediately if that might have happened.
bool ret = processEvent(info);
if (!ret)
return;
loopEvent |= info.loop;
if (!_abortParse) {
_position._lastEventTime = eventTime;
_position._lastEventTick += info.delta;
parseNextEvent(_nextEvent);
}
}
if (!_abortParse) {
_position._playTime = endTime;
_position._playTick = (_position._playTime - _position._lastEventTime) / _psecPerTick + _position._lastEventTick;
if (loopEvent) {
// One of the processed events has looped (part of) the MIDI data.
// Infinite looping will cause the tracker to overflow eventually.
// Reset the tracker positions to prevent this from happening.
_position._playTime -= _position._lastEventTime;
_position._lastEventTime = 0;
_position._playTick -= _position._lastEventTick;
_position._lastEventTick = 0;
}
}
}
bool MidiParser::processEvent(const EventInfo &info, bool fireEvents) {
if (info.event == 0xF0) {
// SysEx event
// Check for trailing 0xF7 -- if present, remove it.
if (fireEvents) {
if (_sysExDelay > 0)
// Don't process this event if the delay from
// the previous SysEx hasn't passed yet.
return false;
uint16 delay;
if (info.ext.data[info.length-1] == 0xF7)
delay = _driver->sysExNoDelay(info.ext.data, (uint16)info.length-1);
else
delay = _driver->sysExNoDelay(info.ext.data, (uint16)info.length);
// Set the delay in microseconds so the next
// SysEx event will be delayed if necessary.
_sysExDelay = delay * 1000;
}
} else if (info.event == 0xFF) {
// META event
if (info.ext.type == 0x2F) {
// End of Track must be processed by us,
// as well as sending it to the output device.
if (_autoLoop) {
jumpToTick(0);
parseNextEvent(_nextEvent);
} else {
stopPlaying();
if (fireEvents)
sendMetaEventToDriver(info.ext.type, info.ext.data, (uint16)info.length);
}
return false;
} else if (info.ext.type == 0x51) {
if (info.length >= 3) {
setTempo(info.ext.data[0] << 16 | info.ext.data[1] << 8 | info.ext.data[2]);
}
}
if (fireEvents)
sendMetaEventToDriver(info.ext.type, info.ext.data, (uint16)info.length);
} else {
if (fireEvents)
sendToDriver(info.event, info.basic.param1, info.basic.param2);
}
return true;
}
void MidiParser::allNotesOff() {
if (!_driver)
return;
int i, j;
// Turn off all active notes
for (i = 0; i < 128; ++i) {
for (j = 0; j < 16; ++j) {
if (_activeNotes[i] & (1 << j)) {
sendToDriver(0x80 | j, i, 0);
}
}
}
// Turn off all hanging notes
for (i = 0; i < ARRAYSIZE(_hangingNotes); i++) {
if (_hangingNotes[i].timeLeft) {
sendToDriver(0x80 | _hangingNotes[i].channel, _hangingNotes[i].note, 0);
_hangingNotes[i].timeLeft = 0;
}
}
_hangingNotesCount = 0;
if (!_disableAllNotesOffMidiEvents) {
// To be sure, send an "All Note Off" event (but not all MIDI devices
// support this...).
_driver->stopAllNotes(_sendSustainOffOnNotesOff);
}
memset(_activeNotes, 0, sizeof(_activeNotes));
}
void MidiParser::resetTracking() {
_position.clear();
}
bool MidiParser::setTrack(int track) {
if (track < 0 || track >= _numTracks)
return false;
// We allow restarting the track via setTrack when
// it isn't playing anymore. This allows us to reuse
// a MidiParser when a track has finished and will
// be restarted via setTrack by the client again.
// This isn't exactly how setTrack behaved before though,
// the old MidiParser code did not allow setTrack to be
// used to restart a track, which was already finished.
//
// TODO: Check if any engine has problem with this
// handling, if so we need to find a better way to handle
// track restarts. (KYRA relies on this working)
else if (track == _activeTrack && isPlaying())
return true;
if (_smartJump)
hangAllActiveNotes();
else if (isPlaying())
allNotesOff();
resetTracking();
_pause = false;
memset(_activeNotes, 0, sizeof(_activeNotes));
if (_disableAutoStartPlayback)
_doParse = false;
onTrackStart(track);
_activeTrack = track;
_position._playPos = _tracks[track];
parseNextEvent(_nextEvent);
return true;
}
void MidiParser::stopPlaying() {
if (isPlaying())
allNotesOff();
resetTracking();
_pause = false;
}
bool MidiParser::startPlaying() {
if (_activeTrack >= _numTracks || _pause)
return false;
if (!_position._playPos) {
_position._playPos = _tracks[_activeTrack];
parseNextEvent(_nextEvent);
}
_doParse = true;
return true;
}
void MidiParser::pausePlaying() {
if (isPlaying() && !_pause) {
_pause = true;
allNotesOff();
}
}
void MidiParser::resumePlaying() {
_pause = false;
}
void MidiParser::hangAllActiveNotes() {
// Search for note off events until we have
// accounted for every active note.
uint16 tempActive[128];
memcpy(tempActive, _activeNotes, sizeof (tempActive));
uint32 advanceTick = _position._lastEventTick;
while (true) {
int i;
for (i = 0; i < 128; ++i)
if (tempActive[i] != 0)
break;
if (i == 128)
break;
parseNextEvent(_nextEvent);
advanceTick += _nextEvent.delta;
if (_nextEvent.command() == 0x8) {
if (tempActive[_nextEvent.basic.param1] & (1 << _nextEvent.channel())) {
hangingNote(_nextEvent.channel(), _nextEvent.basic.param1, (advanceTick - _position._lastEventTick) * _psecPerTick, false);
tempActive[_nextEvent.basic.param1] &= ~(1 << _nextEvent.channel());
}
} else if (_nextEvent.event == 0xFF && _nextEvent.ext.type == 0x2F) {
// warning("MidiParser::hangAllActiveNotes(): Hit End of Track with active notes left");
for (i = 0; i < 128; ++i) {
for (int j = 0; j < 16; ++j) {
if (tempActive[i] & (1 << j)) {
activeNote(j, i, false);
sendToDriver(0x80 | j, i, 0);
}
}
}
break;
}
}
}
bool MidiParser::jumpToTick(uint32 tick, bool fireEvents, bool stopNotes, bool dontSendNoteOn) {
if (_activeTrack >= _numTracks || _pause)
return false;
assert(!_jumpingToTick); // This function is not re-entrant
_jumpingToTick = true;
Tracker currentPos(_position);
EventInfo currentEvent(_nextEvent);
resetTracking();
_position._playPos = _tracks[_activeTrack];
parseNextEvent(_nextEvent);
if (tick > 0) {
while (true) {
EventInfo &info = _nextEvent;
if (_position._lastEventTick + info.delta >= tick) {
_position._playTime += (tick - _position._lastEventTick) * _psecPerTick;
_position._playTick = tick;
break;
}
_position._lastEventTick += info.delta;
_position._lastEventTime += info.delta * _psecPerTick;
_position._playTick = _position._lastEventTick;
_position._playTime = _position._lastEventTime;
// Some special processing for the fast-forward case
if (info.command() == 0x9 && dontSendNoteOn) {
// Don't send note on; doing so creates a "warble" with
// some instruments on the MT-32. Refer to bug #9262
} else if (info.event == 0xFF && info.ext.type == 0x2F) {
// End of track
// This means that we failed to find the right tick.
_position = currentPos;
_nextEvent = currentEvent;
_jumpingToTick = false;
return false;
} else {
processEvent(info, fireEvents);
}
parseNextEvent(_nextEvent);
}
}
if (stopNotes) {
if (!_smartJump || !currentPos._playPos) {
allNotesOff();
} else {
EventInfo targetEvent(_nextEvent);
Tracker targetPosition(_position);
_position = currentPos;
_nextEvent = currentEvent;
hangAllActiveNotes();
_nextEvent = targetEvent;
_position = targetPosition;
}
}
_abortParse = true;
_jumpingToTick = false;
return true;
}
void MidiParser::unloadMusic() {
if (_numTracks == 0)
// No music data loaded
return;
stopPlaying();
_numTracks = 0;
_activeTrack = 255;
_abortParse = true;
if (_centerPitchWheelOnUnload) {
// Center the pitch wheels in preparation for the next piece of
// music. It's not safe to do this from within allNotesOff(),
// and might not even be safe here, so we only do it if the
// client has explicitly asked for it.
if (_driver) {
for (int i = 0; i < 16; ++i) {
sendToDriver(0xE0 | i, 0, 0x40);
}
}
}
}