/* ** midisource.cpp ** Implements base class for the different MIDI formats ** **--------------------------------------------------------------------------- ** Copyright 2008-2016 Randy Heit ** Copyright 2017-2018 Christoph Oelckers ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** */ #include "zmusic_internal.h" #include "midisource.h" char MIDI_EventLengths[7] = { 2, 2, 2, 2, 1, 1, 2 }; char MIDI_CommonLengths[15] = { 0, 1, 2, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; //========================================================================== // // MIDISource :: SetTempo // // Sets the tempo from a track's initial meta events. Later tempo changes // create MEVENT_TEMPO events instead. // //========================================================================== void MIDISource::SetTempo(int new_tempo) { InitialTempo = new_tempo; // This intentionally uses a callback to avoid any dependencies on the class that is playing the song. // This should probably be done differently, but right now that's not yet possible. if (TempoCallback(new_tempo)) { Tempo = new_tempo; } } //========================================================================== // // MIDISource :: ClampLoopCount // // We use the XMIDI interpretation of loop count here, where 1 means it // plays that section once (in other words, no loop) rather than the EMIDI // interpretation where 1 means to loop it once. // // If LoopLimit is 1, we limit all loops, since this pass over the song is // used to determine instruments for precaching. // // If LoopLimit is higher, we only limit infinite loops, since this song is // being exported. // //========================================================================== int MIDISource::ClampLoopCount(int loopcount) { if (LoopLimit == 0) { return loopcount; } if (LoopLimit == 1) { return 1; } if (loopcount == 0) { return LoopLimit; } return loopcount; } //========================================================================== // // MIDISource :: VolumeControllerChange // // Some devices don't support master volume // (e.g. the Audigy's software MIDI synth--but not its two hardware ones), // so assume none of them do and scale channel volumes manually. // //========================================================================== int MIDISource::VolumeControllerChange(int channel, int volume) { ChannelVolumes[channel] = volume; // When exporting this MIDI file, // we should not adjust the volume level. return Exporting? volume : ((volume + 1) * Volume) >> 16; } //========================================================================== // // MIDISource :: Precache // // Generates a list of instruments this song uses and passes them to the // MIDI device for precaching. The default implementation here pretends to // play the song and watches for program change events on normal channels // and note on events on channel 10. // //========================================================================== std::vector MIDISource::PrecacheData() { uint32_t Events[2][MAX_MIDI_EVENTS*3]; uint8_t found_instruments[256] = { 0, }; uint8_t found_banks[256] = { 0, }; bool multiple_banks = false; LoopLimit = 1; DoRestart(); found_banks[0] = true; // Bank 0 is always used. found_banks[128] = true; // Simulate playback to pick out used instruments. while (!CheckDone()) { uint32_t *event_end = MakeEvents(Events[0], &Events[0][MAX_MIDI_EVENTS*3], 1000000*600); for (uint32_t *event = Events[0]; event < event_end; ) { if (MEVENT_EVENTTYPE(event[2]) == 0) { int command = (event[2] & 0x70); int channel = (event[2] & 0x0f); int data1 = (event[2] >> 8) & 0x7f; int data2 = (event[2] >> 16) & 0x7f; if (channel != 9 && command == (MIDI_PRGMCHANGE & 0x70)) { found_instruments[data1] = true; } else if (channel == 9 && command == (MIDI_PRGMCHANGE & 0x70) && data1 != 0) { // On a percussion channel, program change also serves as bank select. multiple_banks = true; found_banks[data1 | 128] = true; } else if (channel == 9 && command == (MIDI_NOTEON & 0x70) && data2 != 0) { found_instruments[data1 | 128] = true; } else if (command == (MIDI_CTRLCHANGE & 0x70) && data1 == 0 && data2 != 0) { multiple_banks = true; if (channel == 9) { found_banks[data2 | 128] = true; } else { found_banks[data2] = true; } } } // Advance to next event if (event[2] < 0x80000000) { // short message event += 3; } else { // long message event += 3 + ((MEVENT_EVENTPARM(event[2]) + 3) >> 2); } } } DoRestart(); // Now pack everything into a contiguous region for the PrecacheInstruments call(). std::vector packed; for (int i = 0; i < 256; ++i) { if (found_instruments[i]) { uint16_t packnum = (i & 127) | ((i & 128) << 7); if (!multiple_banks) { packed.push_back(packnum); } else { // In order to avoid having to multiplex tracks in a type 1 file, // precache every used instrument in every used bank, even if not // all combinations are actually used. for (int j = 0; j < 128; ++j) { if (found_banks[j + (i & 128)]) { packed.push_back(packnum | (j << 7)); } } } } } return packed; } //========================================================================== // // MIDISource :: CheckCaps // // Called immediately after the device is opened in case a source should // want to alter its behavior depending on which device it got. // //========================================================================== void MIDISource::CheckCaps(int tech) { } //========================================================================== // // MIDISource :: SetMIDISubsong // // Selects which subsong to play. This is private. // //========================================================================== bool MIDISource::SetMIDISubsong(int subsong) { return subsong == 0; } //========================================================================== // // WriteVarLen // //========================================================================== static void WriteVarLen (std::vector &file, uint32_t value) { uint32_t buffer = value & 0x7F; while ( (value >>= 7) ) { buffer <<= 8; buffer |= (value & 0x7F) | 0x80; } for (;;) { file.push_back(uint8_t(buffer)); if (buffer & 0x80) { buffer >>= 8; } else { break; } } } //========================================================================== // // MIDIStreamer :: CreateSMF // // Simulates playback to create a Standard MIDI File. // //========================================================================== void MIDISource::CreateSMF(std::vector &file, int looplimit) { const int EXPORT_LOOP_LIMIT = 30; // Maximum number of times to loop when exporting a MIDI file. // (for songs with loop controller events) static const uint8_t StaticMIDIhead[] = { 'M','T','h','d', 0, 0, 0, 6, 0, 0, // format 0: only one track 0, 1, // yes, there is really only one track 0, 0, // divisions (filled in) 'M','T','r','k', 0, 0, 0, 0, // The first event sets the tempo (filled in) 0, 255, 81, 3, 0, 0, 0 }; uint32_t Events[2][MAX_MIDI_EVENTS*3]; uint32_t delay = 0; uint8_t running_status = 255; // Always create songs aimed at GM devices. CheckCaps(MIDIDEV_MIDIPORT); LoopLimit = looplimit <= 0 ? EXPORT_LOOP_LIMIT : looplimit; DoRestart(); StartPlayback(false, LoopLimit); file.resize(sizeof(StaticMIDIhead)); memcpy(file.data(), StaticMIDIhead, sizeof(StaticMIDIhead)); file[12] = Division >> 8; file[13] = Division & 0xFF; file[26] = InitialTempo >> 16; file[27] = InitialTempo >> 8; file[28] = InitialTempo; while (!CheckDone()) { uint32_t *event_end = MakeEvents(Events[0], &Events[0][MAX_MIDI_EVENTS*3], 1000000*600); for (uint32_t *event = Events[0]; event < event_end; ) { delay += event[0]; if (MEVENT_EVENTTYPE(event[2]) == MEVENT_TEMPO) { WriteVarLen(file, delay); delay = 0; uint32_t tempo = MEVENT_EVENTPARM(event[2]); file.push_back(MIDI_META); file.push_back(MIDI_META_TEMPO); file.push_back(3); file.push_back(uint8_t(tempo >> 16)); file.push_back(uint8_t(tempo >> 8)); file.push_back(uint8_t(tempo)); running_status = 255; } else if (MEVENT_EVENTTYPE(event[2]) == MEVENT_LONGMSG) { WriteVarLen(file, delay); delay = 0; uint32_t len = MEVENT_EVENTPARM(event[2]); uint8_t *bytes = (uint8_t *)&event[3]; if (bytes[0] == MIDI_SYSEX) { len--; file.push_back(MIDI_SYSEX); WriteVarLen(file, len); auto p = file.size(); file.resize(p + len); memcpy(&file[p], bytes + 1, len); } else { file.push_back(MIDI_SYSEXEND); WriteVarLen(file, len); auto p = file.size(); file.resize(p + len); memcpy(&file[p], bytes, len); } running_status = 255; } else if (MEVENT_EVENTTYPE(event[2]) == 0) { WriteVarLen(file, delay); delay = 0; uint8_t status = uint8_t(event[2]); if (status != running_status) { running_status = status; file.push_back(status); } file.push_back(uint8_t((event[2] >> 8) & 0x7F)); if (MIDI_EventLengths[(status >> 4) & 7] == 2) { file.push_back(uint8_t((event[2] >> 16) & 0x7F)); } } // Advance to next event if (event[2] < 0x80000000) { // short message event += 3; } else { // long message event += 3 + ((MEVENT_EVENTPARM(event[2]) + 3) >> 2); } } } // End track WriteVarLen(file, delay); file.push_back(MIDI_META); file.push_back(MIDI_META_EOT); file.push_back(0); // Fill in track length uint32_t len = (uint32_t)file.size() - 22; file[18] = uint8_t(len >> 24); file[19] = uint8_t(len >> 16); file[20] = uint8_t(len >> 8); file[21] = uint8_t(len & 255); LoopLimit = 0; } //========================================================================== // // Global interface (identification / creation of MIDI sources) // //========================================================================== extern int MUSHeaderSearch(const uint8_t *head, int len); //========================================================================== // // identify MIDI file type // //========================================================================== DLL_EXPORT EMIDIType ZMusic_IdentifyMIDIType(uint32_t *id, int size) { // Check for MUS format // Tolerate sloppy wads by searching up to 32 bytes for the header if (MUSHeaderSearch((uint8_t*)id, size) >= 0) { return MIDI_MUS; } // Check for HMI format else if (id[0] == MAKE_ID('H','M','I','-') && id[1] == MAKE_ID('M','I','D','I') && id[2] == MAKE_ID('S','O','N','G')) { return MIDI_HMI; } // Check for HMP format else if (id[0] == MAKE_ID('H','M','I','M') && id[1] == MAKE_ID('I','D','I','P')) { return MIDI_HMI; } // Check for XMI format else if ((id[0] == MAKE_ID('F','O','R','M') && id[2] == MAKE_ID('X','D','I','R')) || ((id[0] == MAKE_ID('C','A','T',' ') || id[0] == MAKE_ID('F','O','R','M')) && id[2] == MAKE_ID('X','M','I','D'))) { return MIDI_XMI; } // Check for MIDI format else if (id[0] == MAKE_ID('M','T','h','d')) { return MIDI_MIDI; } else { return MIDI_NOTMIDI; } } //========================================================================== // // create a source based on MIDI file type // //========================================================================== DLL_EXPORT ZMusic_MidiSource ZMusic_CreateMIDISource(const uint8_t *data, size_t length, EMIDIType miditype) { try { MIDISource* source; switch (miditype) { case MIDI_MUS: source = new MUSSong2(data, length); break; case MIDI_MIDI: source = new MIDISong2(data, length); break; case MIDI_HMI: source = new HMISong(data, length); break; case MIDI_XMI: source = new XMISong(data, length); break; default: SetError("Unable to identify MIDI data"); source = nullptr; break; } return source; } catch (const std::exception & ex) { SetError(ex.what()); return nullptr; } }