/* ScummVM - Scumm Interpreter * Copyright (C) 2001-2005 The ScummVM project * * 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. * * $Header$ */ #include "stdafx.h" #include "common/scummsys.h" #ifdef USE_MT32EMU #include "sound/softsynth/mt32/mt32emu.h" #include "sound/softsynth/emumidi.h" #include "sound/mpu401.h" #include "common/util.h" #include "common/file.h" #include "common/config-manager.h" #include "common/system.h" #include "graphics/fontman.h" #include "graphics/surface.h" class MidiChannel_MT32 : public MidiChannel_MPU401 { void effectLevel(byte value) { } void chorusLevel(byte value) { } }; class MidiDriver_MT32 : public MidiDriver_Emulated { private: PlayingSoundHandle _handle; MidiChannel_MT32 _midiChannels[16]; uint16 _channelMask; MT32Emu::Synth *_synth; int _outputRate; protected: void generateSamples(int16 *buf, int len); public: bool _initialising; MidiDriver_MT32(SoundMixer *mixer); virtual ~MidiDriver_MT32(); int open(); void close(); void send(uint32 b); void setPitchBendRange (byte channel, uint range); void sysEx(byte *msg, uint16 length); uint32 property(int prop, uint32 param); MidiChannel *allocateChannel(); MidiChannel *getPercussionChannel(); // AudioStream API bool isStereo() const { return true; } int getRate() const { return _outputRate; } }; typedef File SFile; class MT32File: public MT32Emu::File { SFile file; public: bool open(const char *filename, OpenMode mode) { SFile::AccessMode accessMode = mode == OpenMode_read ? SFile::kFileReadMode : SFile::kFileWriteMode; return file.open(filename, accessMode); } void close() { return file.close(); } size_t read(void *in, size_t size) { return file.read(in, size); } bool readLine(char *in, size_t size) { return file.gets(in, size) != NULL; } bool readBit8u(MT32Emu::Bit8u *in) { byte b = file.readByte(); if (file.eof()) return false; *in = b; return true; } size_t write(const void *in, size_t size) { return file.write(in, size); } bool writeBit8u(MT32Emu::Bit8u out) { file.writeByte(out); return !file.ioFailed(); } bool isEOF() { return file.eof(); } }; static int eatSystemEvents() { OSystem::Event event; while (g_system->pollEvent(event)) { switch (event.type) { case OSystem::EVENT_QUIT: return 1; default: break; } } return 0; } static void drawProgress(float progress) { const Graphics::Font &font(*FontMan.getFontByUsage(Graphics::FontManager::kOSDFont)); Graphics::Surface surf; uint32 borderColor = 0x2; uint32 fillColor = 0x4; surf.w = g_system->getWidth() / 7 * 5; surf.h = font.getFontHeight(); int x = g_system->getWidth() / 7; int y = g_system->getHeight() / 2 - surf.h / 2; surf.pitch = surf.w; surf.bytesPerPixel = 1; surf.pixels = calloc(surf.w, surf.h); Common::Rect r(surf.w, surf.h); surf.frameRect(r, borderColor); r.grow(-1); r.right = r.left + (uint16)(r.width() * progress); surf.fillRect(r, fillColor); g_system->copyRectToScreen((byte *)surf.pixels, surf.pitch, x, y, surf.w, surf.h); g_system->updateScreen(); free(surf.pixels); } static void drawMessage(int offset, const Common::String &text) { const Graphics::Font &font(*FontMan.getFontByUsage(Graphics::FontManager::kOSDFont)); Graphics::Surface surf; uint32 color = 0x2; surf.w = g_system->getWidth(); surf.h = font.getFontHeight(); surf.pitch = surf.w; surf.bytesPerPixel = 1; surf.pixels = calloc(surf.w, surf.h); font.drawString(&surf, text, 0, 0, surf.w, color, Graphics::kTextAlignCenter); int y = g_system->getHeight() / 2 - font.getFontHeight() / 2 + offset * (font.getFontHeight() + 1); g_system->copyRectToScreen((byte *)surf.pixels, surf.pitch, 0, y, surf.w, surf.h); g_system->updateScreen(); free(surf.pixels); } static MT32Emu::File *MT32_OpenFile(void *userData, const char *filename, MT32Emu::File::OpenMode mode) { MT32File *file = new MT32File(); if (!file->open(filename, mode)) { delete file; return NULL; } return file; } static void MT32_PrintDebug(void *userData, const char *fmt, va_list list) { char buf[512]; if (((MidiDriver_MT32 *)userData)->_initialising) { vsprintf(buf, fmt, list); buf[70] = 0; // Truncate to a reasonable length drawMessage(1, buf); } //vdebug(0, fmt, list); // FIXME: Use a higher debug level } static int MT32_Report(void *userData, MT32Emu::ReportType type, const void *reportData) { switch(type) { case MT32Emu::ReportType_lcdMessage: g_system->displayMessageOnOSD((const char *)reportData); break; case MT32Emu::ReportType_errorControlROM: error("Failed to load MT32_CONTROL.ROM"); break; case MT32Emu::ReportType_errorPCMROM: error("Failed to load MT32_PCM.ROM"); break; case MT32Emu::ReportType_progressInit: if (((MidiDriver_MT32 *)userData)->_initialising) { drawProgress(*((const float *)reportData)); return eatSystemEvents(); } break; default: break; } return 0; } //////////////////////////////////////// // // MidiDriver_MT32 // //////////////////////////////////////// MidiDriver_MT32::MidiDriver_MT32(SoundMixer *mixer) : MidiDriver_Emulated(mixer) { _channelMask = 0xFFFF; // Permit all 16 channels by default uint i; for (i = 0; i < ARRAYSIZE(_midiChannels); ++i) { _midiChannels[i].init(this, i); } _synth = NULL; // A higher baseFreq reduces the length used in generateSamples(), // and means that the timer callback will be called more often. // That results in more accurate timing. _baseFreq = 10000; // Unfortunately bugs in the emulator cause inaccurate tuning // at rates other than 32KHz, thus we produce data at 32KHz and // rely on SoundMixer to convert. _outputRate = 32000; //_mixer->getOutputRate(); _initialising = false; } MidiDriver_MT32::~MidiDriver_MT32() { if (_synth != NULL) delete _synth; } int MidiDriver_MT32::open() { MT32Emu::SynthProperties prop; if (_isOpen) return MERR_ALREADY_OPEN; MidiDriver_Emulated::open(); memset(&prop, 0, sizeof(prop)); prop.sampleRate = getRate(); prop.useReverb = true; prop.useDefaultReverb = false; prop.reverbType = 0; prop.reverbTime = 5; prop.reverbLevel = 3; prop.userData = this; prop.printDebug = MT32_PrintDebug; prop.report = MT32_Report; prop.openFile = MT32_OpenFile; _synth = new MT32Emu::Synth(); _initialising = true; const byte dummy_palette[] = { 0, 0, 0, 0, 0, 0, 171, 0, 0, 171, 0, 0, 0, 171, 171, 0, 171, 0, 0, 0 }; g_system->setPalette(dummy_palette, 0, 5); drawMessage(-1, "Initialising MT-32 Emulator"); if (!_synth->open(prop)) return MERR_DEVICE_NOT_AVAILABLE; _initialising = false; g_system->clearScreen(); g_system->updateScreen(); _mixer->playInputStream(SoundMixer::kSFXAudioDataType, &_handle, this, -1, 255, 0, false, true); return 0; } void MidiDriver_MT32::send(uint32 b) { _synth->playMsg(b); } void MidiDriver_MT32::setPitchBendRange(byte channel, uint range) { if (range > 24) { printf("setPitchBendRange() called with range > 24: %d", range); } byte benderRangeSysex[9]; benderRangeSysex[0] = 0x41; // Roland benderRangeSysex[1] = channel; benderRangeSysex[2] = 0x16; // MT-32 benderRangeSysex[3] = 0x12; // Write benderRangeSysex[4] = 0x00; benderRangeSysex[5] = 0x00; benderRangeSysex[6] = 0x04; benderRangeSysex[7] = (byte)range; benderRangeSysex[8] = MT32Emu::Synth::calcSysexChecksum(&benderRangeSysex[4], 4, 0); sysEx(benderRangeSysex, 9); } void MidiDriver_MT32::sysEx(byte *msg, uint16 length) { if (msg[0] == 0xf0) { _synth->playSysex(msg, length); } else { _synth->playSysexWithoutFraming(msg, length); } } void MidiDriver_MT32::close() { if (!_isOpen) return; _isOpen = false; // Detach the player callback handler setTimerCallback(NULL, NULL); // Detach the mixer callback handler _mixer->stopHandle(_handle); _synth->close(); delete _synth; _synth = NULL; } void MidiDriver_MT32::generateSamples(int16 *data, int len) { _synth->render(data, len); } uint32 MidiDriver_MT32::property(int prop, uint32 param) { switch (prop) { case PROP_CHANNEL_MASK: _channelMask = param & 0xFFFF; return 1; } return 0; } MidiChannel *MidiDriver_MT32::allocateChannel() { MidiChannel_MT32 *chan; uint i; for (i = 0; i < ARRAYSIZE(_midiChannels); ++i) { if (i == 9 || !(_channelMask & (1 << i))) continue; chan = &_midiChannels[i]; if (chan->allocate()) { return chan; } } return NULL; } MidiChannel *MidiDriver_MT32::getPercussionChannel() { return &_midiChannels[9]; } // This code should be used when calling the timer callback from the mixer thread is undesirable. // Note that it results in less accurate timing. #if 0 class MidiEvent_MT32 { public: MidiEvent_MT32 *_next; uint32 _msg; // 0xFFFFFFFF indicates a sysex message byte *_data; uint32 _len; MidiEvent_MT32(uint32 msg, byte *data, uint32 len) { _msg = msg; if (len > 0) { _data = new byte[len]; memcpy(_data, data, len); } _len = len; _next = NULL; } MidiEvent_MT32() { if (_len > 0) delete _data; } }; class MidiDriver_ThreadedMT32 : public MidiDriver_MT32 { private: OSystem::Mutex _eventMutex; MidiEvent_MT32 *_events; Timer::TimerProc _timer_proc; void pushMidiEvent(MidiEvent_MT32 *event); MidiEvent_MT32 *popMidiEvent(); protected: void send(uint32 b); void sysEx(byte *msg, uint16 length); public: MidiDriver_ThreadedMT32(SoundMixer *mixer); void onTimer(); void close(); void setTimerCallback(void *timer_param, Timer::TimerProc timer_proc); }; MidiDriver_ThreadedMT32::MidiDriver_ThreadedMT32(SoundMixer *mixer) : MidiDriver_MT32(mixer) { _events = NULL; _timer_proc = NULL; } void MidiDriver_ThreadedMT32::close() { MidiDriver_MT32::close(); while ((popMidiEvent() != NULL)) { // Just eat any leftover events } } void MidiDriver_ThreadedMT32::setTimerCallback(void *timer_param, Timer::TimerProc timer_proc) { if (!_timer_proc || !timer_proc) { if (_timer_proc) g_timer->removeTimerProc(_timer_proc); _timer_proc = timer_proc; if (timer_proc) g_timer->installTimerProc(timer_proc, getBaseTempo(), timer_param); } } void MidiDriver_ThreadedMT32::pushMidiEvent(MidiEvent_MT32 *event) { Common::StackLock lock(_eventMutex); if (_events == NULL) { _events = event; } else { MidiEvent_MT32 *last = _events; while (last->_next != NULL) last = last->_next; last->_next = event; } } MidiEvent_MT32 *MidiDriver_ThreadedMT32::popMidiEvent() { Common::StackLock lock(_eventMutex); MidiEvent_MT32 *event; event = _events; if (event != NULL) _events = event->_next; return event; } void MidiDriver_ThreadedMT32::send(uint32 b) { MidiEvent_MT32 *event = new MidiEvent_MT32(b, NULL, 0); pushMidiEvent(event); } void MidiDriver_ThreadedMT32::sysEx(byte *msg, uint16 length) { MidiEvent_MT32 *event = new MidiEvent_MT32(0xFFFFFFFF, msg, length); pushMidiEvent(event); } void MidiDriver_ThreadedMT32::onTimer() { MidiEvent_MT32 *event; while ((event = popMidiEvent()) != NULL) { if (event->_msg == 0xFFFFFFFF) { MidiDriver_MT32::sysEx(event->_data, event->_len); } else { MidiDriver_MT32::send(event->_msg); } delete event; } } #endif //////////////////////////////////////// // // MidiDriver_MT32 factory // //////////////////////////////////////// MidiDriver *MidiDriver_MT32_create(SoundMixer *mixer) { // HACK: It will stay here until engine plugin loader overhaul if (ConfMan.hasKey("extrapath")) File::addDefaultDirectory(ConfMan.get("extrapath")); return new MidiDriver_MT32(mixer); } #endif