312 lines
13 KiB
C++
312 lines
13 KiB
C++
//=============================================================================
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// MuseScore
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// Music Composition & Notation
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//
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// Copyright (C) 2002-2011 Werner Schweer
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//
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// This program is free software; you can redistribute it and/or modify
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// it under the terms of the GNU General Public License version 2
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// as published by the Free Software Foundation and appearing in
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// the file LICENCE.GPL
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//=============================================================================
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#include "exportmidi.h"
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#include "midi/midifile.h"
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#include "libmscore/score.h"
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#include "libmscore/part.h"
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#include "libmscore/staff.h"
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#include "libmscore/tempo.h"
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#include "synthesizer/event.h"
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#include "libmscore/sig.h"
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#include "libmscore/key.h"
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#include "libmscore/text.h"
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#include "libmscore/measure.h"
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#include "libmscore/repeatlist.h"
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namespace Ms {
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//---------------------------------------------------------
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// writeHeader
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//---------------------------------------------------------
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void ExportMidi::writeHeader()
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{
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if (mf.tracks().isEmpty())
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return;
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MidiTrack &track = mf.tracks().front();
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#if 0 // TODO
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MeasureBase* measure = cs->first();
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foreach (const Element* e, *measure->el()) {
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if (e->type() == Element::TEXT) {
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const Text* text = (const Text*)(e);
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QString str = text->getText();
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int len = str.length() + 1;
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unsigned char* data = new unsigned char[len];
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strcpy((char*)(data), str.toLatin1().data());
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Event ev(ME_META);
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ev.setOntime(0);
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ev.setData(data);
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ev.setLen(len);
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switch (text->subtype()) {
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case TEXT_TITLE:
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ev.setMetaType(META_TITLE);
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track.insert(ev);
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break;
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case TEXT_SUBTITLE:
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ev.setMetaType(META_SUBTITLE);
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track.insert(ev);
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break;
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case TEXT_COMPOSER:
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ev.setMetaType(META_COMPOSER);
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track.insert(ev);
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break;
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case TEXT_TRANSLATOR:
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ev.setMetaType(META_TRANSLATOR);
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track.insert(ev);
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break;
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case TEXT_POET:
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ev.setMetaType(META_POET);
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track.insert(ev);
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break;
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default:
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break;
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}
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}
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}
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#endif
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//--------------------------------------------
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// write time signature
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//--------------------------------------------
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TimeSigMap* sigmap = cs->sigmap();
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foreach(const RepeatSegment* rs, *cs->repeatList()) {
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int startTick = rs->tick;
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int endTick = startTick + rs->len;
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int tickOffset = rs->utick - rs->tick;
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auto bs = sigmap->lower_bound(startTick);
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auto es = sigmap->lower_bound(endTick);
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for (auto is = bs; is != es; ++is) {
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SigEvent se = is->second;
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unsigned char* data = new unsigned char[4];
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Fraction ts(se.timesig());
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data[0] = ts.numerator();
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int n;
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switch (ts.denominator()) {
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case 1: n = 0; break;
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case 2: n = 1; break;
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case 4: n = 2; break;
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case 8: n = 3; break;
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case 16: n = 4; break;
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case 32: n = 5; break;
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default:
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n = 2;
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qDebug("ExportMidi: unknown time signature %s",
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qPrintable(ts.print()));
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break;
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}
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data[1] = n;
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data[2] = 24;
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data[3] = 8;
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MidiEvent ev;
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ev.setType(ME_META);
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ev.setMetaType(META_TIME_SIGNATURE);
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ev.setEData(data);
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ev.setLen(4);
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track.insert(is->first + tickOffset, ev);
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}
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}
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//---------------------------------------------------
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// write key signatures
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// assume every staff corresponds to a midi track
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//---------------------------------------------------
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int staffIdx = 0;
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for (auto &track: mf.tracks()) {
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Staff* staff = cs->staff(staffIdx);
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KeyList* keys = staff->keyList();
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foreach(const RepeatSegment* rs, *cs->repeatList()) {
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int startTick = rs->tick;
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int endTick = startTick + rs->len;
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int tickOffset = rs->utick - rs->tick;
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auto sk = keys->lower_bound(startTick);
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auto ek = keys->lower_bound(endTick);
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bool keysigFound = false;
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for (auto ik = sk; ik != ek; ++ik) {
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keysigFound = true;
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MidiEvent ev;
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ev.setType(ME_META);
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Key key = ik->second.key(); // -7 -- +7
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ev.setMetaType(META_KEY_SIGNATURE);
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ev.setLen(2);
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unsigned char* data = new unsigned char[2];
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data[0] = int(key);
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data[1] = 0; // major
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ev.setEData(data);
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track.insert(ik->first + tickOffset, ev);
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}
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if (!keysigFound) {
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MidiEvent ev;
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ev.setType(ME_META);
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int key = 0;
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ev.setMetaType(META_KEY_SIGNATURE);
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ev.setLen(2);
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unsigned char* data = new unsigned char[2];
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data[0] = key;
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data[1] = 0; // major
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ev.setEData(data);
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track.insert(0, ev);
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}
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}
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++staffIdx;
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}
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//--------------------------------------------
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// write tempo changes
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//--------------------------------------------
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TempoMap* tempomap = cs->tempomap();
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int relTempo = tempomap->relTempo();
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foreach(const RepeatSegment* rs, *cs->repeatList()) {
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int startTick = rs->tick;
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int endTick = startTick + rs->len;
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int tickOffset = rs->utick - rs->tick;
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auto se = tempomap->lower_bound(startTick);
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auto ee = tempomap->lower_bound(endTick);
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for (auto it = se; it != ee; ++it) {
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MidiEvent ev;
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ev.setType(ME_META);
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//
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// compute midi tempo: microseconds / quarter note
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//
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int tempo = lrint((1.0 / (it->second.tempo * relTempo)) * 1000000.0);
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ev.setMetaType(META_TEMPO);
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ev.setLen(3);
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unsigned char* data = new unsigned char[3];
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data[0] = tempo >> 16;
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data[1] = tempo >> 8;
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data[2] = tempo;
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ev.setEData(data);
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track.insert(it->first + tickOffset, ev);
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}
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}
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}
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//---------------------------------------------------------
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// write
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// export midi file
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// return false on error
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//---------------------------------------------------------
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bool ExportMidi::write(const QString& name, bool midiExpandRepeats)
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{
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f.setFileName(name);
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if (!f.open(QIODevice::WriteOnly))
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return false;
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mf.setDivision(MScore::division);
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mf.setFormat(1);
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QList<MidiTrack>& tracks = mf.tracks();
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for (int i = 0; i < cs->nstaves(); ++i)
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tracks.append(MidiTrack());
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cs->updateSwing();
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cs->createPlayEvents();
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cs->updateRepeatList(midiExpandRepeats);
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writeHeader();
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int staffIdx = 0;
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for (auto &track: tracks) {
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Staff* staff = cs->staff(staffIdx);
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Part* part = staff->part();
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track.setOutPort(part->midiPort());
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track.setOutChannel(part->midiChannel());
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// Render each staff only once
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EventMap events;
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cs->renderStaff(&events, staff);
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cs->renderSpanners(&events, staffIdx);
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// Pass throught the all instruments in the part
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const InstrumentList* il = part->instrList();
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for(auto j = il->begin(); j!= il->end(); j++) {
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// Pass throught the all channels of the instrument
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// "normal", "pizzicato", "tremolo" for Strings,
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// "normal", "mute" for Trumpet
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foreach(const Channel& ch, j->second.channel()) {
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char port = part->score()->midiPort(ch.channel);
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char channel = part->score()->midiChannel(ch.channel);
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if (staff->isTop()) {
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// set pitch bend sensitivity to 12 semitones:
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_LRPN, 0));
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_HRPN, 0));
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_HDATA, 12));
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// reset fine tuning
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_LRPN, 1));
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_HRPN, 0));
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_HDATA, 64));
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// deactivate rpn
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_LRPN, 127));
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_HRPN, 127));
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if (ch.program != -1)
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_PROGRAM, ch.program));
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_VOLUME, ch.volume));
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_PANPOT, ch.pan));
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_REVERB_SEND, ch.reverb));
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track.insert(0, MidiEvent(ME_CONTROLLER, channel, CTRL_CHORUS_SEND, ch.chorus));
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}
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// Export port to MIDI META event
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MidiEvent ev;
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ev.setType(ME_META);
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ev.setMetaType(META_PORT_CHANGE);
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ev.setLen(1);
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unsigned char* data = new unsigned char[1];
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data[0] = int(track.outPort());
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ev.setEData(data);
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track.insert(0, ev);
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for (auto i = events.begin(); i != events.end(); ++i) {
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NPlayEvent event(i->second);
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char eventPort = cs->midiPort(event.channel());
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char eventChannel = cs->midiChannel(event.channel());
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if (port != eventPort || channel != eventChannel)
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continue;
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if (event.type() == ME_NOTEON) {
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track.insert(i->first, MidiEvent(ME_NOTEON, channel,
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event.pitch(), event.velo()));
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}
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else if (event.type() == ME_CONTROLLER) {
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track.insert(i->first, MidiEvent(ME_CONTROLLER, channel,
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event.controller(), event.value()));
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}
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else {
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qDebug("writeMidi: unknown midi event 0x%02x", event.type());
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}
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}
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}
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}
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++staffIdx;
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}
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return !mf.write(&f);
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}
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}
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