/* ScummVM - Scumm Interpreter * Copyright (C) 2001 Ludvig Strigeus * Copyright (C) 2001/2002 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. * * $Header$ */ /* * Timidity support by Lionel Ulmer * QuickTime support by Florent Boudet * Raw output support by Michael Pearce * MorphOS support by Ruediger Hanke * Alsa support by Nicolas Noble copied from * both the QuickTime support and (vkeybd http://www.alsa-project.org/~iwai/alsa.html) */ #include "stdafx.h" #include "mididrv.h" #include "fmopl.h" #include "mixer.h" #include "common/engine.h" // for warning/error/debug #include "common/util.h" #if defined(WIN32) && !defined(_WIN32_WCE) /* Windows MIDI driver */ class MidiDriver_WIN : public MidiDriver { public: int open(int mode); void close(); void send(uint32 b); void pause(bool p); void set_stream_callback(void *param, StreamCallback *sc); void setPitchBendRange (byte channel, uint range) { } private: struct MyMidiHdr { MIDIHDR hdr; }; enum { NUM_PREPARED_HEADERS = 2, MIDI_EVENT_SIZE = 64, BUFFER_SIZE = MIDI_EVENT_SIZE * 12, }; StreamCallback *_stream_proc; void *_stream_param; int _mode; HMIDIOUT _mo; HMIDISTRM _ms; MyMidiHdr *_prepared_headers; uint16 _time_div; void unprepare(); void prepare(); void check_error(MMRESULT result); void fill_all(); uint32 property(int prop, uint32 param); static void CALLBACK midi_callback(HMIDIOUT hmo, UINT wMsg, DWORD dwInstance, DWORD dwParam1, DWORD dwParam2); }; void MidiDriver_WIN::set_stream_callback(void *param, StreamCallback *sc) { _stream_param = param; _stream_proc = sc; } void CALLBACK MidiDriver_WIN::midi_callback(HMIDIOUT hmo, UINT wMsg, DWORD dwInstance, DWORD dwParam1, DWORD dwParam2) { switch (wMsg) { case MM_MOM_DONE:{ MidiDriver_WIN *md = ((MidiDriver_WIN *) dwInstance); if (md->_mode) md->fill_all(); break; } } } int MidiDriver_WIN::open(int mode) { if (_mode != 0) return MERR_ALREADY_OPEN; _mode = mode; if (mode == MO_SIMPLE) { MMRESULT res = midiOutOpen((HMIDIOUT *) & _mo, MIDI_MAPPER, NULL, NULL, 0); if (res != MMSYSERR_NOERROR) check_error(res); } else { /* streaming mode */ MIDIPROPTIMEDIV mptd; UINT _midi_device_id = 0; check_error(midiStreamOpen(&_ms, &_midi_device_id, 1, (uint32)midi_callback, (uint32)this, CALLBACK_FUNCTION)); prepare(); mptd.cbStruct = sizeof(mptd); mptd.dwTimeDiv = _time_div; check_error(midiStreamProperty(_ms, (byte *)&mptd, MIDIPROP_SET | MIDIPROP_TIMEDIV)); fill_all(); } return 0; } void MidiDriver_WIN::fill_all() { if (_stream_proc == NULL) { error("MidiDriver_WIN::fill_all() called, but _stream_proc==NULL"); } uint i; MyMidiHdr *mmh = _prepared_headers; MidiEvent my_evs[64]; for (i = 0; i != NUM_PREPARED_HEADERS; i++, mmh++) { if (!(mmh->hdr.dwFlags & MHDR_INQUEUE)) { int num = _stream_proc(_stream_param, my_evs, 64); int i; /* end of stream? */ if (num == 0) break; MIDIEVENT *ev = (MIDIEVENT *)mmh->hdr.lpData; MidiEvent *my_ev = my_evs; for (i = 0; i != num; i++, my_ev++) { ev->dwStreamID = 0; ev->dwDeltaTime = my_ev->delta; switch (my_ev->event >> 24) { case 0: ev->dwEvent = my_ev->event; break; case ME_TEMPO: /* change tempo event */ ev->dwEvent = (ME_TEMPO << 24) | (my_ev->event & 0xFFFFFF); break; default: error("Invalid event type passed"); } /* increase stream pointer by 12 bytes * (need to be 12 bytes, and sizeof(MIDIEVENT) is 16) */ ev = (MIDIEVENT *)((byte *)ev + 12); } mmh->hdr.dwBytesRecorded = num * 12; check_error(midiStreamOut(_ms, &mmh->hdr, sizeof(mmh->hdr))); } } } void MidiDriver_WIN::prepare() { int i; MyMidiHdr *mmh; _prepared_headers = (MyMidiHdr *) calloc(sizeof(MyMidiHdr), 2); for (i = 0, mmh = _prepared_headers; i != NUM_PREPARED_HEADERS; i++, mmh++) { mmh->hdr.dwBufferLength = BUFFER_SIZE; mmh->hdr.lpData = (LPSTR) calloc(BUFFER_SIZE, 1); check_error(midiOutPrepareHeader((HMIDIOUT) _ms, &mmh->hdr, sizeof(mmh->hdr))); } } void MidiDriver_WIN::unprepare() { uint i; MyMidiHdr *mmh = _prepared_headers; for (i = 0; i != NUM_PREPARED_HEADERS; i++, mmh++) { check_error(midiOutUnprepareHeader((HMIDIOUT) _ms, &mmh->hdr, sizeof(mmh->hdr))); free(mmh->hdr.lpData); mmh->hdr.lpData = NULL; } free(_prepared_headers); } void MidiDriver_WIN::close() { int mode_was = _mode; _mode = 0; switch (mode_was) { case MO_SIMPLE: check_error(midiOutClose(_mo)); break; case MO_STREAMING:; check_error(midiStreamStop(_ms)); check_error(midiOutReset((HMIDIOUT) _ms)); unprepare(); check_error(midiStreamClose(_ms)); break; } } void MidiDriver_WIN::send(uint32 b) { union { DWORD dwData; BYTE bData[4]; } u; if (_mode != MO_SIMPLE) error("MidiDriver_WIN:send called but driver is not in simple mode"); u.bData[3] = (byte)((b & 0xFF000000) >> 24); u.bData[2] = (byte)((b & 0x00FF0000) >> 16); 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)); } void MidiDriver_WIN::pause(bool p) { if (_mode == MO_STREAMING) { if (p) check_error(midiStreamPause(_ms)); else check_error(midiStreamRestart(_ms)); } } void MidiDriver_WIN::check_error(MMRESULT result) { char buf[200]; if (result != MMSYSERR_NOERROR) { midiOutGetErrorText(result, buf, 200); warning("MM System Error '%s'", buf); } } uint32 MidiDriver_WIN::property(int prop, uint32 param) { switch (prop) { /* 16-bit time division according to standard midi specification */ case PROP_TIMEDIV: _time_div = (uint16)param; return 1; } return 0; } MidiDriver *MidiDriver_WIN_create() { return new MidiDriver_WIN(); } #endif // WIN32 #ifdef __MORPHOS__ #include #include #include #include #include #include #include "morphos_sound.h" /* MorphOS MIDI driver */ class MidiDriver_ETUDE:public MidiDriver { public: int open(int mode); void close(); void send(uint32 b); void pause(bool p); void set_stream_callback(void *param, StreamCallback *sc); void setPitchBendRange (byte channel, uint range) { } private: enum { NUM_BUFFERS = 2, MIDI_EVENT_SIZE = 64, BUFFER_SIZE = MIDI_EVENT_SIZE * 12, }; static void midi_callback(ULONG msg, struct IOMidiRequest *req, APTR user_data); void fill_all(); uint32 property(int prop, uint32 param); StreamCallback *_stream_proc; void *_stream_param; IOMidiRequest *_stream_req[NUM_BUFFERS]; void *_stream_buf[NUM_BUFFERS]; bool _req_sent[NUM_BUFFERS]; int _mode; uint16 _time_div; }; void MidiDriver_ETUDE::set_stream_callback(void *param, StreamCallback *sc) { _stream_param = param; _stream_proc = sc; } int MidiDriver_ETUDE::open(int mode) { if (_mode != 0) return MERR_ALREADY_OPEN; _mode = mode; if (!init_morphos_music(0, _mode == MO_STREAMING ? ETUDEF_STREAMING : ETUDEF_DIRECT)) return MERR_DEVICE_NOT_AVAILABLE; if (_mode == MO_STREAMING && ScummMidiRequest) { _stream_req[0] = ScummMidiRequest; _stream_req[1] = (IOMidiRequest *) AllocVec(sizeof (IOMidiRequest), MEMF_PUBLIC); _stream_buf[0] = AllocVec(BUFFER_SIZE, MEMF_PUBLIC); _stream_buf[1] = AllocVec(BUFFER_SIZE, MEMF_PUBLIC); _req_sent[0] = _req_sent[1] = false; if (_stream_req[1] == NULL || _stream_buf[0] == NULL || _stream_buf[1] == NULL) { close(); return MERR_DEVICE_NOT_AVAILABLE; } if (ScummMidiRequest) { memcpy(_stream_req[1], _stream_req[0], sizeof (IOMidiRequest)); struct TagItem MidiStreamTags[] = { { ESA_Callback, (ULONG) &midi_callback }, { ESA_UserData, (ULONG) this }, { ESA_TimeDiv, _time_div }, { TAG_DONE, 0 } }; SetMidiStreamAttrsA(ScummMidiRequest, MidiStreamTags); fill_all(); } } return 0; } void MidiDriver_ETUDE::close() { if (_mode == MO_STREAMING) { if (_req_sent[0]) { AbortIO((IORequest *) _stream_req[0]); WaitIO((IORequest *) _stream_req[0]); _req_sent[0] = false; } if (_req_sent[1]) { AbortIO((IORequest *) _stream_req[1]); WaitIO((IORequest *) _stream_req[1]); _req_sent[1] = false; } if (_stream_req[1]) FreeVec(_stream_req[1]); if (_stream_buf[0]) FreeVec(_stream_buf[0]); if (_stream_buf[1]) FreeVec(_stream_buf[1]); } exit_morphos_music(); _mode = 0; } void MidiDriver_ETUDE::send(uint32 b) { if (_mode != MO_SIMPLE) error("MidiDriver_ETUDE::send called but driver is not in simple mode"); if (ScummMidiRequest) { ULONG midi_data = READ_LE_UINT32(&b); SendShortMidiMsg(ScummMidiRequest, midi_data); } } void MidiDriver_ETUDE::midi_callback(ULONG msg, struct IOMidiRequest *req, APTR user_data) { switch (msg) { case ETUDE_STREAM_MSG_BLOCKEND: { MidiDriver_ETUDE *md = ((MidiDriver_ETUDE *) user_data); if (md && md->_mode) md->fill_all(); break; } } } void MidiDriver_ETUDE::fill_all() { if (_stream_proc == NULL) { error("MidiDriver_ETUDE::fill_all() called, but _stream_proc == NULL"); } uint buf; MidiEvent my_evs[64]; for (buf = 0; buf < NUM_BUFFERS; buf++) { if (!_req_sent[buf] || CheckIO((IORequest *) _stream_req[buf])) { int num = _stream_proc(_stream_param, my_evs, 64); if (_req_sent[buf]) { WaitIO((IORequest *) _stream_req[buf]); _req_sent[buf] = false; } /* end of stream? */ if (num == 0) break; MIDIEVENT *ev = (MIDIEVENT *) _stream_buf[buf]; MidiEvent *my_ev = my_evs; for (int i = 0; i < num; i++, my_ev++) { ev->me_StreamID = 0; ev->me_DeltaTime = my_ev->delta; switch (my_ev->event >> 24) { case 0: ev->me_Event = my_ev->event; break; case ME_TEMPO: /* change tempo event */ ev->me_Event = (MEVT_TEMPO << 24) | (my_ev->event & 0xFFFFFF); break; default: error("Invalid event type passed"); } /* increase stream pointer by 12 bytes * (need to be 12 bytes, and sizeof(MIDIEVENT) is 16) */ ev = (MIDIEVENT *)((byte *)ev + 12); } ConvertWindowsMidiStream(_stream_buf[buf], num * 12); _stream_req[buf]->emr_Std.io_Command = CMD_WRITE; _stream_req[buf]->emr_Std.io_Data = _stream_buf[buf]; _stream_req[buf]->emr_Std.io_Length = num * 12; SendIO((IORequest *) _stream_req[buf]); _req_sent[buf] = true; } } } void MidiDriver_ETUDE::pause(bool p) { if (_mode == MO_STREAMING && ScummMidiRequest) { if (p) PauseMidiStream(ScummMidiRequest); else RestartMidiStream(ScummMidiRequest); } } uint32 MidiDriver_ETUDE::property(int prop, uint32 param) { switch (prop) { /* 16-bit time division according to standard midi specification */ case PROP_TIMEDIV: _time_div = (uint16)param; return 1; } return 0; } extern MidiDriver* EtudeMidiDriver; MidiDriver *MidiDriver_ETUDE_create() { EtudeMidiDriver = new MidiDriver_ETUDE(); return EtudeMidiDriver; } #endif // __MORPHOS__ #if defined(UNIX) && !defined(__BEOS__) #define SEQ_MIDIPUTC 5 #define SPECIAL_CHANNEL 9 class MidiDriver_SEQ:public MidiDriver { public: MidiDriver_SEQ(); int open(int mode); void close(); void send(uint32 b); void pause(bool p); void set_stream_callback(void *param, StreamCallback *sc); void setPitchBendRange (byte channel, uint range) { } private: StreamCallback *_stream_proc; void *_stream_param; int _mode; int device, _device_num; }; MidiDriver_SEQ::MidiDriver_SEQ() { _mode = 0; device = 0; _device_num = 0; } int MidiDriver_SEQ::open(int mode) { if (_mode != 0) return MERR_ALREADY_OPEN; device = 0; _mode = mode; if (mode != MO_SIMPLE) return MERR_STREAMING_NOT_AVAILABLE; char *device_name = getenv("SCUMMVM_MIDI"); if (device_name != NULL) { device = (::open((device_name), O_RDWR, 0)); } else { warning("You need to set-up the SCUMMVM_MIDI environment variable properly (see readme.txt) "); } if ((device_name == NULL) || (device < 0)) { if (device_name == NULL) warning("Opening /dev/null (no music will be heard) "); else warning("Cannot open rawmidi device %s - using /dev/null (no music will be heard) ", device_name); device = (::open(("/dev/null"), O_RDWR, 0)); if (device < 0) error("Cannot open /dev/null to dump midi output"); } if (getenv("SCUMMVM_MIDIPORT")) _device_num = atoi(getenv("SCUMMVM_MIDIPORT")); return 0; } void MidiDriver_SEQ::close() { ::close(device); _mode = 0; } void MidiDriver_SEQ::send(uint32 b) { unsigned char buf[256]; int position = 0; switch (b & 0xF0) { case 0x80: case 0x90: case 0xA0: case 0xB0: case 0xE0: buf[position++] = SEQ_MIDIPUTC; buf[position++] = (unsigned char)b; buf[position++] = _device_num; buf[position++] = 0; buf[position++] = SEQ_MIDIPUTC; buf[position++] = (unsigned char)((b >> 8) & 0x7F); buf[position++] = _device_num; buf[position++] = 0; buf[position++] = SEQ_MIDIPUTC; buf[position++] = (unsigned char)((b >> 16) & 0x7F); buf[position++] = _device_num; buf[position++] = 0; break; case 0xC0: case 0xD0: buf[position++] = SEQ_MIDIPUTC; buf[position++] = (unsigned char)b; buf[position++] = _device_num; buf[position++] = 0; buf[position++] = SEQ_MIDIPUTC; buf[position++] = (unsigned char)((b >> 8) & 0x7F); buf[position++] = _device_num; buf[position++] = 0; break; default: fprintf(stderr, "Unknown : %08x\n", (int)b); break; } write(device, buf, position); } void MidiDriver_SEQ::pause(bool p) { if (_mode == MO_STREAMING) { } } void MidiDriver_SEQ::set_stream_callback(void *param, StreamCallback *sc) { _stream_param = param; _stream_proc = sc; } MidiDriver *MidiDriver_SEQ_create() { return new MidiDriver_SEQ(); } #endif #if defined(__APPLE__) || defined(macintosh) // FIXME - this is for Mac OS X and Mac OS 9. It's not really possible // to check for these *cleanly* without a configure script, though.. #if defined(MACOSX) // On MacOSX, these are in a frameworks! #include #include #else #include #include #endif /* QuickTime MIDI driver */ class MidiDriver_QT:public MidiDriver { public: int open(int mode); void close(); void send(uint32 b); void pause(bool p) { } void set_stream_callback(void *param, StreamCallback *sc); void setPitchBendRange (byte channel, uint range); private: NoteAllocator qtNoteAllocator; NoteChannel qtNoteChannel[16]; NoteRequest simpleNoteRequest; StreamCallback *_stream_proc; void *_stream_param; int _mode; // Pitch bend tracking. Necessary since QTMA handles // pitch bending so differently from MPU401. uint16 _pitchbend [16]; byte _pitchbend_range [16]; }; void MidiDriver_QT::set_stream_callback(void *param, StreamCallback *sc) { _stream_param = param; _stream_proc = sc; } int MidiDriver_QT::open(int mode) { ComponentResult qtErr = noErr; int i; qtNoteAllocator = NULL; if (mode == MO_STREAMING) return MERR_STREAMING_NOT_AVAILABLE; _mode = mode; for (i = 0; i < 15; i++) qtNoteChannel[i] = NULL; qtNoteAllocator = OpenDefaultComponent(kNoteAllocatorComponentType, 0); if (qtNoteAllocator == NULL) goto bail; simpleNoteRequest.info.flags = 0; *(short *)(&simpleNoteRequest.info.polyphony) = EndianS16_NtoB(15); // simultaneous tones *(Fixed *) (&simpleNoteRequest.info.typicalPolyphony) = EndianU32_NtoB(0x00010000); qtErr = NAStuffToneDescription(qtNoteAllocator, 1, &simpleNoteRequest.tone); if (qtErr != noErr) goto bail; for (i = 0; i < 15; i++) { qtErr = NANewNoteChannel(qtNoteAllocator, &simpleNoteRequest, &(qtNoteChannel[i])); if ((qtErr != noErr) || (qtNoteChannel == NULL)) goto bail; } return 0; bail: error("Init QT failed %x %x %d\n", (int)qtNoteAllocator, (int)qtNoteChannel, (int)qtErr); for (i = 0; i < 15; i++) { if (qtNoteChannel[i] != NULL) NADisposeNoteChannel(qtNoteAllocator, qtNoteChannel[i]); qtNoteChannel[i] = NULL; } if (qtNoteAllocator != NULL) { CloseComponent(qtNoteAllocator); qtNoteAllocator = NULL; } return MERR_DEVICE_NOT_AVAILABLE; } void MidiDriver_QT::close() { _mode = 0; for (int i = 0; i < 15; i++) { if (qtNoteChannel[i] != NULL) NADisposeNoteChannel(qtNoteAllocator, qtNoteChannel[i]); qtNoteChannel[i] = NULL; } if (qtNoteAllocator != NULL) { CloseComponent(qtNoteAllocator); qtNoteAllocator = NULL; } } void MidiDriver_QT::send(uint32 b) { if (_mode != MO_SIMPLE) error("MidiDriver_QT:send called but driver is not in simple mode"); MusicMIDIPacket midPacket; unsigned char *midiCmd = midPacket.data; midPacket.length = 3; midiCmd[3] = (b & 0xFF000000) >> 24; midiCmd[2] = (b & 0x00FF0000) >> 16; midiCmd[1] = (b & 0x0000FF00) >> 8; midiCmd[0] = (b & 0x000000FF); unsigned char chanID = midiCmd[0] & 0x0F; switch (midiCmd[0] & 0xF0) { case 0x80: // Note off NAPlayNote(qtNoteAllocator, qtNoteChannel[chanID], midiCmd[1], 0); break; case 0x90: // Note on NAPlayNote(qtNoteAllocator, qtNoteChannel[chanID], midiCmd[1], midiCmd[2]); break; case 0xB0: // Effect switch (midiCmd[1]) { case 0x01: // Modulation NASetController(qtNoteAllocator, qtNoteChannel[chanID], kControllerModulationWheel, midiCmd[2] << 8); break; case 0x07: // Volume NASetController(qtNoteAllocator, qtNoteChannel[chanID], kControllerVolume, midiCmd[2] * 300); break; case 0x0A: // Pan NASetController(qtNoteAllocator, qtNoteChannel[chanID], kControllerPan, (midiCmd[2] << 1) + 0xFF); break; case 0x40: // Sustain on/off NASetController(qtNoteAllocator, qtNoteChannel[chanID], kControllerSustain, midiCmd[2]); break; case 0x5b: // ext effect depth NASetController(qtNoteAllocator, qtNoteChannel[chanID], kControllerReverb, midiCmd[2] << 8); break; case 0x5d: // chorus depth NASetController(qtNoteAllocator, qtNoteChannel[chanID], kControllerChorus, midiCmd[2] << 8); break; case 0x7b: // mode message all notes off for (int i = 0; i < 128; i++) NAPlayNote(qtNoteAllocator, qtNoteChannel[chanID], i, 0); break; case 0x64: case 0x65: case 0x06: case 0x26: // pitch bend changes - ignore those for now break; default: error("Unknown MIDI effect: %08x\n", (int)b); break; } break; case 0xC0: // Program change NASetInstrumentNumber(qtNoteAllocator, qtNoteChannel[chanID], midiCmd[1] + 1); break; case 0xE0:{ // Pitch bend // QuickTime specifies pitchbend in semitones, using 8.8 fixed point values; // but iMuse sends us the pitch bend data as 0-16383. which has to be mapped // to +/- 12 semitones. Based on this, we first center the input data, then // multiply it by a factor. If all was right, the factor would be 3/8, but for // mysterious reasons the actual factor we have to use is more like 1/32 or 3/64. // Maybe the QT docs are right, and _pitchbend[chanID] = ((uint16) midiCmd[1] | (uint16) (midiCmd[2] << 7)); long theBend = ((long) _pitchbend[chanID] - 0x2000) * _pitchbend_range[chanID] / 32; NASetController(qtNoteAllocator, qtNoteChannel[chanID], kControllerPitchBend, theBend); } break; default: error("Unknown Command: %08x\n", (int)b); NASendMIDI(qtNoteAllocator, qtNoteChannel[chanID], &midPacket); break; } } void MidiDriver_QT::setPitchBendRange (byte channel, uint range) { if (_pitchbend_range[channel] == range) return; _pitchbend_range[channel] = range; long theBend = _pitchbend[channel]; theBend = (theBend - 0x2000) * range / 32; NASetController(qtNoteAllocator, qtNoteChannel[channel], kControllerPitchBend, theBend); } MidiDriver *MidiDriver_QT_create() { return new MidiDriver_QT(); } #endif // __APPLE__ || macintosh #ifdef __APPLE__ #include /* CoreAudio MIDI driver */ /* Based on code by Benjamin W. Zale */ class MidiDriver_CORE:public MidiDriver { public: MidiDriver_CORE():au_MusicDevice(NULL), au_output(NULL) { } int open(int mode); void close(); void send(uint32 b); void pause(bool p); void set_stream_callback(void *param, StreamCallback *sc); void setPitchBendRange (byte channel, uint range) { } private: AudioUnit au_MusicDevice; AudioUnit au_output; StreamCallback *_stream_proc; void *_stream_param; int _mode; }; void MidiDriver_CORE::set_stream_callback(void *param, StreamCallback *sc) { _stream_param = param; _stream_proc = sc; } int MidiDriver_CORE::open(int mode) { if (au_output != NULL) return MERR_ALREADY_OPEN; if (mode == MO_STREAMING) return MERR_STREAMING_NOT_AVAILABLE; _mode = mode; int err; struct AudioUnitConnection auconnect; ComponentDescription compdesc; Component compid; // Open the Music Device compdesc.componentType = kAudioUnitComponentType; compdesc.componentSubType = kAudioUnitSubType_MusicDevice; compdesc.componentManufacturer = kAudioUnitID_DLSSynth; compdesc.componentFlags = 0; compdesc.componentFlagsMask = 0; compid = FindNextComponent(NULL, &compdesc); au_MusicDevice = (AudioUnit) OpenComponent(compid); // open the output unit au_output = (AudioUnit) OpenDefaultComponent(kAudioUnitComponentType, kAudioUnitSubType_Output); // connect the units auconnect.sourceAudioUnit = au_MusicDevice; auconnect.sourceOutputNumber = 0; auconnect.destInputNumber = 0; err = AudioUnitSetProperty(au_output, kAudioUnitProperty_MakeConnection, kAudioUnitScope_Input, 0, (void *)&auconnect, sizeof(struct AudioUnitConnection)); // initialize the units AudioUnitInitialize(au_MusicDevice); AudioUnitInitialize(au_output); // start the output AudioOutputUnitStart(au_output); #if 1 // Send initial pitch bend sensitivity values for +/- 12 semitones. // For information on control change registered parameters, // which includes the Pitch Bend sensitivity settings, // visit http://www.midi.org/about-midi/table3.htm, // Table 3a. int chan; for (chan = 0; chan < 16; ++chan) { MusicDeviceMIDIEvent(au_MusicDevice, (0xB0 | chan), 101, 0, 0); MusicDeviceMIDIEvent(au_MusicDevice, (0xB0 | chan), 100, 0, 0); MusicDeviceMIDIEvent(au_MusicDevice, (0xB0 | chan), 6, 12, 0); MusicDeviceMIDIEvent(au_MusicDevice, (0xB0 | chan), 38, 0, 0); } // next for #endif return 0; } void MidiDriver_CORE::close() { // Stop the output AudioOutputUnitStop(au_output); // Cleanup CloseComponent(au_output); CloseComponent(au_MusicDevice); _mode = 0; } void MidiDriver_CORE::send(uint32 b) { if (_mode != MO_SIMPLE) error("MidiDriver_CORE:send called but driver is not in simple mode"); unsigned char first_byte, seccond_byte, status_byte; status_byte = (b & 0x000000FF); first_byte = (b & 0x0000FF00) >> 8; seccond_byte = (b & 0x00FF0000) >> 16; MusicDeviceMIDIEvent(au_MusicDevice, status_byte, first_byte, seccond_byte, 0); } void MidiDriver_CORE::pause(bool) { } MidiDriver *MidiDriver_CORE_create() { return new MidiDriver_CORE(); } #endif // __APPLE__ /* NULL driver */ class MidiDriver_NULL:public MidiDriver { public: int open(int mode); void close() { } void send(uint32 b) { } void pause(bool p) { } void set_stream_callback(void *param, StreamCallback *sc) { } void setPitchBendRange (byte channel, uint range) { } private: }; int MidiDriver_NULL::open(int mode) { warning("Music not enabled - MIDI support selected with no MIDI driver available. Try Adlib"); return 0; } MidiDriver *MidiDriver_NULL_create() { return new MidiDriver_NULL(); } /* Default (empty) property method */ uint32 MidiDriver::property(int prop, uint32 param) { return 0; } /* retrieve a string representation of an error code */ const char *MidiDriver::get_error_name(int error_code) { static const char *const midi_errors[] = { "No error", "Cannot connect", "Streaming not available", "Device not available", "Driver already open" }; if ((uint) error_code >= ARRAYSIZE(midi_errors)) return "Unknown Error"; return midi_errors[error_code]; } #if defined(UNIX) && defined(USE_ALSA) #include /* * ALSA sequencer driver * Mostly cut'n'pasted from Virtual Tiny Keyboard (vkeybd) by Takashi Iwai * (you really rox, you know?) */ #if SND_LIB_MINOR >= 6 #define snd_seq_flush_output(x) snd_seq_drain_output(x) #define snd_seq_set_client_group(x,name) /*nop */ #define my_snd_seq_open(seqp) snd_seq_open(seqp, "hw", SND_SEQ_OPEN_OUTPUT, 0) #else /* SND_SEQ_OPEN_OUT causes oops on early version of ALSA */ #define my_snd_seq_open(seqp) snd_seq_open(seqp, SND_SEQ_OPEN) #endif /* * parse address string */ #define ADDR_DELIM ".:" class MidiDriver_ALSA:public MidiDriver { public: MidiDriver_ALSA(); int open(int mode); void close(); void send(uint32 b); void pause(bool p); void set_stream_callback(void *param, StreamCallback *sc); void setPitchBendRange (byte channel, uint range) { } private: void send_event(int do_flush); snd_seq_event_t ev; StreamCallback *_stream_proc; void *_stream_param; int _mode; snd_seq_t *seq_handle; int seq_client, seq_port; int my_client, my_port; static int parse_addr(char *arg, int *client, int *port); }; MidiDriver_ALSA::MidiDriver_ALSA():_mode(0), seq_handle(0), seq_client(0), seq_port(0), my_client(0), my_port(0) { } int MidiDriver_ALSA::parse_addr(char *arg, int *client, int *port) { char *p; if (isdigit(*arg)) { if ((p = strpbrk(arg, ADDR_DELIM)) == NULL) return -1; *client = atoi(arg); *port = atoi(p + 1); } else { if (*arg == 's' || *arg == 'S') { *client = SND_SEQ_ADDRESS_SUBSCRIBERS; *port = 0; } else return -1; } return 0; } void MidiDriver_ALSA::send_event(int do_flush) { snd_seq_ev_set_direct(&ev); snd_seq_ev_set_source(&ev, my_port); snd_seq_ev_set_dest(&ev, seq_client, seq_port); snd_seq_event_output(seq_handle, &ev); if (do_flush) snd_seq_flush_output(seq_handle); } int MidiDriver_ALSA::open(int mode) { char *var; unsigned int caps; if (_mode != 0) return MERR_ALREADY_OPEN; _mode = mode; if (mode != MO_SIMPLE) return MERR_STREAMING_NOT_AVAILABLE; if (!(var = getenv("SCUMMVM_PORT"))) { // default alsa port if none specified if (parse_addr("65:0", &seq_client, &seq_port) < 0) { error("Invalid port %s", var); return -1; } } else { if (parse_addr(var, &seq_client, &seq_port) < 0) { error("Invalid port %s", var); return -1; } } if (my_snd_seq_open(&seq_handle)) { error("Can't open sequencer"); return -1; } my_client = snd_seq_client_id(seq_handle); snd_seq_set_client_name(seq_handle, "SCUMMVM"); snd_seq_set_client_group(seq_handle, "input"); caps = SND_SEQ_PORT_CAP_READ; if (seq_client == SND_SEQ_ADDRESS_SUBSCRIBERS) caps = ~SND_SEQ_PORT_CAP_SUBS_READ; my_port = snd_seq_create_simple_port(seq_handle, "SCUMMVM", caps, SND_SEQ_PORT_TYPE_MIDI_GENERIC | SND_SEQ_PORT_TYPE_APPLICATION); if (my_port < 0) { snd_seq_close(seq_handle); error("Can't create port"); return -1; } if (seq_client != SND_SEQ_ADDRESS_SUBSCRIBERS) { /* subscribe to MIDI port */ if (snd_seq_connect_to(seq_handle, my_port, seq_client, seq_port) < 0) { snd_seq_close(seq_handle); error("Can't subscribe to MIDI port (%d:%d)", seq_client, seq_port); return -1; } } printf("ALSA client initialised [%d:%d]\n", my_client, my_port); return 0; } void MidiDriver_ALSA::close() { _mode = 0; if (seq_handle) snd_seq_close(seq_handle); } void MidiDriver_ALSA::send(uint32 b) { unsigned int midiCmd[4]; ev.type = SND_SEQ_EVENT_OSS; midiCmd[3] = (b & 0xFF000000) >> 24; midiCmd[2] = (b & 0x00FF0000) >> 16; midiCmd[1] = (b & 0x0000FF00) >> 8; midiCmd[0] = (b & 0x000000FF); ev.data.raw32.d[0] = midiCmd[0]; ev.data.raw32.d[1] = midiCmd[1]; ev.data.raw32.d[2] = midiCmd[2]; unsigned char chanID = midiCmd[0] & 0x0F; switch (midiCmd[0] & 0xF0) { case 0x80: snd_seq_ev_set_noteoff(&ev, chanID, midiCmd[1], midiCmd[2]); send_event(1); break; case 0x90: snd_seq_ev_set_noteon(&ev, chanID, midiCmd[1], midiCmd[2]); send_event(1); break; case 0xB0: /* is it this simple ? Wow... */ snd_seq_ev_set_controller(&ev, chanID, midiCmd[1], midiCmd[2]); send_event(1); break; case 0xC0: snd_seq_ev_set_pgmchange(&ev, chanID, midiCmd[1]); send_event(0); break; case 0xE0:{ // long theBend = ((((long)midiCmd[1] + (long)(midiCmd[2] << 7))) - 0x2000) / 4; // snd_seq_ev_set_pitchbend(&ev, chanID, theBend); long theBend = ((long)midiCmd[1] + (long)(midiCmd[2] << 7)) - 0x2000; snd_seq_ev_set_pitchbend(&ev, chanID, theBend); send_event(1); } break; default: error("Unknown Command: %08x\n", (int)b); /* I don't know if this works but, well... */ send_event(1); break; } } void MidiDriver_ALSA::pause(bool p) { if (_mode == MO_STREAMING) { /* Err... and what? */ } } void MidiDriver_ALSA::set_stream_callback(void *param, StreamCallback *sc) { _stream_param = param; _stream_proc = sc; } MidiDriver *MidiDriver_ALSA_create() { return new MidiDriver_ALSA(); } #endif