/* * Copyright (C) 2008-2015 David Robillard * Copyright (C) 2009-2018 Paul Davis * Copyright (C) 2009 Hans Baier * Copyright (C) 2010-2012 Carl Hetherington * Copyright (C) 2014-2018 Robin Gareus * * 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 #include #include #include #include #include #include "libsmf/smf.h" #include "evoral/Event.h" #include "evoral/SMF.h" #include "evoral/midi_util.h" #ifdef COMPILER_MSVC extern double round(double x); #endif using namespace std; namespace Evoral { SMF::SMF() : _smf (0) , _smf_track (0) , _empty (true) , _type0 (false) {}; SMF::~SMF() { close (); } uint16_t SMF::num_tracks() const { Glib::Threads::Mutex::Lock lm (_smf_lock); return _smf ? _smf->number_of_tracks : 0; } uint16_t SMF::ppqn() const { Glib::Threads::Mutex::Lock lm (_smf_lock); return _smf->ppqn; } /** Seek to the specified track (1-based indexing) * \return 0 on success */ int SMF::seek_to_track(int track) { Glib::Threads::Mutex::Lock lm (_smf_lock); _smf_track = smf_get_track_by_number(_smf, track); if (_smf_track != NULL) { _smf_track->next_event_number = (_smf_track->number_of_events == 0) ? 0 : 1; return 0; } else { return -1; } } /** Attempt to open the SMF file just to see if it is valid. * * \return true on success * false on failure */ bool SMF::test(const std::string& path) { FILE* f = g_fopen(path.c_str(), "r"); if (f == 0) { return false; } smf_t* test_smf = smf_load(f); fclose(f); if (!test_smf) { return false; } if (test_smf) { smf_delete(test_smf); } return true; } /** Attempt to open the SMF file for reading and/or writing. * * \return 0 on success * -1 if the file can not be opened or created * -2 if the file exists but specified track does not exist */ int SMF::open(const std::string& path, int track) { Glib::Threads::Mutex::Lock lm (_smf_lock); _type0 = false; _type0channels.clear (); assert(track >= 1); if (_smf) { smf_delete(_smf); } FILE* f = g_fopen(path.c_str(), "r"); if (f == 0) { return -1; } else if ((_smf = smf_load(f)) == 0) { fclose(f); return -1; } else if ((_smf_track = smf_get_track_by_number(_smf, track)) == 0) { fclose(f); return -2; } //cerr << "Track " << track << " # events: " << _smf_track->number_of_events << endl; if (_smf_track->number_of_events == 0) { _smf_track->next_event_number = 0; _empty = true; } else { _smf_track->next_event_number = 1; _empty = false; } fclose(f); lm.release (); if (_smf->format == 0 && _smf->number_of_tracks == 1 && !_empty) { // type-0 file: scan file for # of used channels. int ret; uint32_t delta_t = 0; uint32_t size = 0; uint8_t* buf = NULL; event_id_t event_id = 0; seek_to_start(); while ((ret = read_event (&delta_t, &size, &buf, &event_id)) >= 0) { if (ret == 0) { continue; } if (size == 0) { break; } uint8_t type = buf[0] & 0xf0; uint8_t chan = buf[0] & 0x0f; if (type < 0x80 || type > 0xE0) { continue; } _type0channels.insert(chan); } _type0 = true; seek_to_start(); } return 0; } /** Attempt to create a new SMF file for reading and/or writing. * * \return 0 on success * -1 if the file can not be created * -2 if the track can not be created */ int SMF::create(const std::string& path, int track, uint16_t ppqn) { Glib::Threads::Mutex::Lock lm (_smf_lock); assert(track >= 1); if (_smf) { smf_delete(_smf); } _smf = smf_new(); if (_smf == NULL) { return -1; } if (smf_set_ppqn(_smf, ppqn) != 0) { return -1; } for (int i = 0; i < track; ++i) { _smf_track = smf_track_new(); if (!_smf_track) { return -2; } smf_add_track(_smf, _smf_track); } _smf_track = smf_get_track_by_number(_smf, track); if (!_smf_track) return -2; _smf_track->next_event_number = 0; { /* put a stub file on disk */ FILE* f = g_fopen (path.c_str(), "w+"); if (f == 0) { return -1; } if (smf_save (_smf, f)) { fclose (f); return -1; } fclose (f); } _empty = true; _type0 = false; _type0channels.clear (); return 0; } void SMF::close() { Glib::Threads::Mutex::Lock lm (_smf_lock); if (_smf) { smf_delete(_smf); _smf = 0; _smf_track = 0; _type0 = false; _type0channels.clear (); } } void SMF::seek_to_start() const { Glib::Threads::Mutex::Lock lm (_smf_lock); if (_smf_track) { _smf_track->next_event_number = std::min(_smf_track->number_of_events, (size_t)1); } else { cerr << "WARNING: SMF seek_to_start() with no track" << endl; } } /** Read an event from the current position in file. * * File position MUST be at the beginning of a delta time, or this will die very messily. * ev.buffer must be of size ev.size, and large enough for the event. The returned event * will have it's time field set to it's delta time, in SMF tempo-based ticks, using the * rate given by ppqn() (it is the caller's responsibility to calculate a real time). * * \a buf must be a pointer to a buffer allocated with malloc, or a pointer to NULL. * \a size must be the capacity of \a buf. If it is not large enough, \a buf will * be reallocated and *size will be set to the new size of buf. * * if the event is a meta-event and is an Evoral Note ID, then \a note_id will be set * to the value of the NoteID; otherwise, meta-events will set \a note_id to -1. * * \return event length (including status byte) on success, 0 if event was * a meta event, or -1 on EOF (or end of track). */ int SMF::read_event(uint32_t* delta_t, uint32_t* size, uint8_t** buf, event_id_t* note_id) const { Glib::Threads::Mutex::Lock lm (_smf_lock); smf_event_t* event; assert(delta_t); assert(size); assert(buf); assert(note_id); if ((event = smf_track_get_next_event(_smf_track)) != NULL) { *delta_t = event->delta_time_pulses; if (smf_event_is_metadata(event)) { *note_id = -1; // "no note id in this meta-event */ if (event->midi_buffer[1] == 0x7f) { // Sequencer-specific uint32_t evsize; uint32_t lenlen; if (smf_extract_vlq (&event->midi_buffer[2], event->midi_buffer_length-2, &evsize, &lenlen) == 0) { if (event->midi_buffer[2+lenlen] == 0x99 && // Evoral event->midi_buffer[3+lenlen] == 0x1) { // Evoral Note ID uint32_t id; uint32_t idlen; if (smf_extract_vlq (&event->midi_buffer[4+lenlen], event->midi_buffer_length-(4+lenlen), &id, &idlen) == 0) { *note_id = id; } } } } return 0; /* this is a meta-event */ } int event_size = event->midi_buffer_length; assert(event_size > 0); // Make sure we have enough scratch buffer if (*size < (unsigned)event_size) { *buf = (uint8_t*)realloc(*buf, event_size); } assert (*buf); memcpy(*buf, event->midi_buffer, size_t(event_size)); *size = event_size; if (((*buf)[0] & 0xF0) == 0x90 && (*buf)[2] == 0) { /* normalize note on with velocity 0 to proper note off */ (*buf)[0] = 0x80 | ((*buf)[0] & 0x0F); /* note off */ (*buf)[2] = 0x40; /* default velocity */ } if (!midi_event_is_valid(*buf, *size)) { cerr << "WARNING: SMF ignoring illegal MIDI event" << endl; *size = 0; return -1; } /* printf("SMF::read_event @ %u: ", *delta_t); for (size_t i = 0; i < *size; ++i) { printf("%X ", (*buf)[i]); } printf("\n") */ return event_size; } else { return -1; } } void SMF::append_event_delta(uint32_t delta_t, uint32_t size, const uint8_t* buf, event_id_t note_id) { Glib::Threads::Mutex::Lock lm (_smf_lock); if (size == 0) { return; } /* printf("SMF::append_event_delta @ %u:", delta_t); for (size_t i = 0; i < size; ++i) { printf("%X ", buf[i]); } printf("\n"); */ switch (buf[0]) { case 0xf1: case 0xf2: case 0xf3: case 0xf4: case 0xf5: case 0xf6: case 0xf8: case 0xf9: case 0xfa: case 0xfb: case 0xfc: case 0xfd: case 0xfe: case 0xff: /* System Real Time or System Common event: not valid in SMF */ return; } if (!midi_event_is_valid(buf, size)) { cerr << "WARNING: SMF ignoring illegal MIDI event" << endl; return; } smf_event_t* event; /* XXX july 2010: currently only store event ID's for notes, program changes and bank changes */ uint8_t const c = buf[0] & 0xf0; bool const store_id = ( c == MIDI_CMD_NOTE_ON || c == MIDI_CMD_NOTE_OFF || c == MIDI_CMD_NOTE_PRESSURE || c == MIDI_CMD_PGM_CHANGE || (c == MIDI_CMD_CONTROL && (buf[1] == MIDI_CTL_MSB_BANK || buf[1] == MIDI_CTL_LSB_BANK)) ); if (store_id && note_id >= 0) { int idlen; int lenlen; uint8_t idbuf[16]; uint8_t lenbuf[16]; event = smf_event_new (); assert(event != NULL); /* generate VLQ representation of note ID */ idlen = smf_format_vlq (idbuf, sizeof(idbuf), note_id); /* generate VLQ representation of meta event length, which is the idlen + 2 bytes (Evoral type ID plus Note ID type) */ lenlen = smf_format_vlq (lenbuf, sizeof(lenbuf), idlen+2); event->midi_buffer_length = 2 + lenlen + 2 + idlen; /* this should be allocated by malloc(3) because libsmf will call free(3) on it */ event->midi_buffer = (uint8_t*) malloc (sizeof(uint8_t) * event->midi_buffer_length); event->midi_buffer[0] = 0xff; // Meta-event event->midi_buffer[1] = 0x7f; // Sequencer-specific memcpy (&event->midi_buffer[2], lenbuf, lenlen); event->midi_buffer[2+lenlen] = 0x99; // Evoral type ID event->midi_buffer[3+lenlen] = 0x1; // Evoral type Note ID memcpy (&event->midi_buffer[4+lenlen], idbuf, idlen); assert(_smf_track); smf_track_add_event_delta_pulses(_smf_track, event, 0); } event = smf_event_new_from_pointer(buf, size); assert(event != NULL); assert(_smf_track); smf_track_add_event_delta_pulses(_smf_track, event, delta_t); _empty = false; } void SMF::begin_write() { Glib::Threads::Mutex::Lock lm (_smf_lock); assert(_smf_track); smf_track_delete(_smf_track); _smf_track = smf_track_new(); assert(_smf_track); smf_add_track(_smf, _smf_track); assert(_smf->number_of_tracks == 1); } void SMF::end_write(string const & path) { Glib::Threads::Mutex::Lock lm (_smf_lock); if (!_smf) { return; } FILE* f = g_fopen (path.c_str(), "w+"); if (f == 0) { throw FileError (path); } if (smf_save(_smf, f) != 0) { fclose(f); throw FileError (path); } fclose(f); } double SMF::round_to_file_precision (double val) const { double div = ppqn(); return round (val * div) / div; } void SMF::track_names(vector& names) const { if (!_smf) { return; } names.clear (); Glib::Threads::Mutex::Lock lm (_smf_lock); for (uint16_t n = 0; n < _smf->number_of_tracks; ++n) { smf_track_t* trk = smf_get_track_by_number (_smf, n+1); if (!trk) { names.push_back (string()); } else { if (trk->name) { names.push_back (trk->name); } else { names.push_back (string()); } } } } void SMF::instrument_names(vector& names) const { if (!_smf) { return; } names.clear (); Glib::Threads::Mutex::Lock lm (_smf_lock); for (uint16_t n = 0; n < _smf->number_of_tracks; ++n) { smf_track_t* trk = smf_get_track_by_number (_smf, n+1); if (!trk) { names.push_back (string()); } else { if (trk->instrument) { names.push_back (trk->instrument); } else { names.push_back (string()); } } } } SMF::Tempo::Tempo (smf_tempo_t* smft) : time_pulses (smft->time_pulses) , time_seconds (smft->time_seconds) , microseconds_per_quarter_note (smft->microseconds_per_quarter_note) , numerator (smft->numerator) , denominator (smft->denominator) , clocks_per_click (smft->clocks_per_click) , notes_per_note (smft->notes_per_note) { } int SMF::num_tempos () const { assert (_smf); return smf_get_tempo_count (_smf); } SMF::Tempo* SMF::tempo_at_smf_pulse (size_t smf_pulse) const { smf_tempo_t* t = smf_get_tempo_by_seconds (_smf, smf_pulse); if (!t) { return 0; } return new Tempo (t); } SMF::Tempo* SMF::tempo_at_seconds (double seconds) const { smf_tempo_t* t = smf_get_tempo_by_seconds (_smf, seconds); if (!t) { return 0; } return new Tempo (t); } SMF::Tempo* SMF::nth_tempo (size_t n) const { assert (_smf); smf_tempo_t* t = smf_get_tempo_by_number (_smf, n); if (!t) { return 0; } return new Tempo (t); } } // namespace Evoral