void MTrack::fillGapWithRests(Score* score, int voice,
const Fraction &startChordTickFrac,
const Fraction &restLength, int track)
{
Fraction startChordTick = startChordTickFrac;
Fraction restLen = restLength;
while (restLen > 0) {
Fraction len = restLen;
Measure* measure = score->tick2measure(startChordTick.ticks());
if (startChordTick >= Fraction::fromTicks(measure->tick() + measure->ticks())) {
qDebug("tick2measure: %d end of score?", startChordTick.ticks());
startChordTick += restLen;
restLen = Fraction(0);
break;
}
len = splitDurationOnBarBoundary(len, startChordTick, measure);
if (len >= Fraction::fromTicks(measure->ticks())) {
// rest to the whole measure
len = Fraction::fromTicks(measure->ticks());
if (voice == 0) {
TDuration duration(TDuration::V_MEASURE);
Rest* rest = new Rest(score, duration);
rest->setDuration(measure->len());
rest->setTrack(track);
Segment* s = measure->getSegment(rest, startChordTick.ticks());
s->add(rest);
}
restLen -= len;
startChordTick += len;
}
else {
auto dl = toDurationList(measure, voice, startChordTick, len,
Meter::DurationType::REST);
if (dl.isEmpty()) {
qDebug("cannot create duration list for len %d", len.ticks());
restLen = Fraction(0); // fake
break;
}
for (const auto &durationPair: dl) {
const TDuration &duration = durationPair.second;
const Fraction &tupletRatio = durationPair.first;
len = duration.fraction() / tupletRatio;
Rest* rest = new Rest(score, duration);
rest->setDuration(duration.fraction());
rest->setTrack(track);
Segment* s = measure->getSegment(Segment::SegChordRest,
startChordTick.ticks());
s->add(rest);
addElementToTuplet(voice, startChordTick, len, rest);
restLen -= len;
startChordTick += len;
}
}
}
}
void fillGapsWithRests(Score* score, int ctick, int restLen, int track)
{
bool useDots = preferences.midiImportOperations.currentTrackOperations().useDots;
while (restLen > 0) {
int len = restLen;
Measure* measure = score->tick2measure(ctick);
if (ctick >= measure->tick() + measure->ticks()) {
qDebug("tick2measure: %d end of score?", ctick);
ctick += restLen;
restLen = 0;
break;
}
// split rest on measure boundary
if ((ctick + len) > measure->tick() + measure->ticks())
len = measure->tick() + measure->ticks() - ctick;
if (len >= measure->ticks()) {
len = measure->ticks();
TDuration d(TDuration::V_MEASURE);
Rest* rest = new Rest(score, d);
rest->setDuration(measure->len());
rest->setTrack(track);
Segment* s = measure->getSegment(rest, ctick);
s->add(rest);
restLen -= len;
ctick += len;
}
else {
QList<TDuration> dl = Meter::toDurationList(ctick - measure->tick(),
ctick + len - measure->tick(),
measure->timesig(),
Meter::DurationType::REST,
useDots);
if (dl.isEmpty()) {
qDebug("cannot create duration list for len %d", len);
restLen = 0; // fake
break;
}
foreach (TDuration d, dl) {
Rest* rest = new Rest(score, d);
rest->setDuration(d.fraction());
rest->setTrack(track);
Segment* s = measure->getSegment(Segment::SegChordRest, ctick);
s->add(rest);
restLen -= d.ticks();
ctick += d.ticks();
}
}
}
void setTempoToScore(Score *score, int tick, double beatsPerSecond)
{
if (score->tempomap()->find(tick) != score->tempomap()->end())
return;
// don't repeat tempo, always set only tempo for tick 0
if (tick > 0 && score->tempo(tick) == beatsPerSecond)
return;
score->setTempo(tick, beatsPerSecond);
auto *data = preferences.midiImportOperations.data();
if (data->trackOpers.showTempoText.value()) {
const int tempoInBpm = qRound(beatsPerSecond * 60.0);
TempoText *tempoText = new TempoText(score);
tempoText->setTempo(beatsPerSecond);
tempoText->setXmlText(QString("<sym>metNoteQuarterUp</sym> = %1").arg(tempoInBpm));
tempoText->setTrack(0);
Measure *measure = score->tick2measure(tick);
if (!measure) {
qDebug("MidiTempo::setTempoToScore: no measure for tick %d", tick);
return;
}
Segment *segment = measure->getSegment(Segment::Type::ChordRest, tick);
if (!segment) {
qDebug("MidiTempo::setTempoToScore: no chord/rest segment for tempo at %d", tick);
return;
}
segment->add(tempoText);
data->hasTempoText = true; // to show tempo text column in the MIDI import panel
}
}
void GuitarPro5::readMeasures(int /*startingTempo*/)
{
Measure* measure = score->firstMeasure();
bool mixChange = false;
for (int bar = 0; bar < measures; ++bar, measure = measure->nextMeasure()) {
const GpBar& gpbar = bars[bar];
if (!gpbar.marker.isEmpty()) {
Text* s = new RehearsalMark(score);
s->setText(gpbar.marker.trimmed());
s->setTrack(0);
Segment* segment = measure->getSegment(Segment::Type::ChordRest, measure->tick());
segment->add(s);
}
Tuplet* tuplets[staves * 2]; // two voices
for (int track = 0; track < staves*2; ++track)
tuplets[track] = 0;
for (int staffIdx = 0; staffIdx < staves; ++staffIdx) {
readMeasure(measure, staffIdx, tuplets, mixChange);
if (!(((bar == (measures-1)) && (staffIdx == (staves-1))))) {
/*int a = */ readChar();
// qDebug(" ======skip %02x", a);
}
}
if (bar == 1 && !mixChange)
setTempo(tempo, score->firstMeasure());
}
}
void Lilypond::addNote(const LNote& lnote)
{
createMeasure();
Segment* segment = new Segment(measure);
segment->setSubtype(SegChordRest);
segment->setTick(tick);
segment->setParent(measure);
measure->add(segment);
Chord* chord = new Chord(score);
chord->setTrack(staff->idx() * VOICES);
chord->setParent(segment);
Duration d;
d.setVal(lnote.len);
chord->setDurationType(d);
segment->add(chord);
Note* note = new Note(score);
note->setPitch(lnote.pitch);
note->setTpcFromPitch();
note->setParent(chord);
note->setTrack(staff->idx() * VOICES);
chord->add(note);
tick += lnote.len;
}
//-----------------------------------------------------
//
//-----------------------------------------------------
int readSegments()
{
int scan_index;
int type;
int n_beams;
int ret;
float angle, range;
float timestamp;
int n_lasers;
int level;
int n_segments;
Segment *s;
int num_readings;
int position;
while ( !feof(fin) ) {
//start reading segments
ret = fscanf(fin, "%d %f %d %d %d %d %d", &scan_index, ×tamp, &n_lasers, &level, &n_segments, &type, &n_beams);
if ( ret == 7 ) {
if (mScan!=NULL) {
if ( scan_index != mScan->scan_id ) {
outputScan();
delete mScan;
mScan=NULL;
}
}
if (mScan==NULL) {
mScan = new MultiScan(n_lasers);
mScan->scan_id = scan_index;
//cerr << "mScan->scan_id: " << mScan->scan_id << endl;
mScan->timestamp = timestamp;
}
// read multi scan
s = new Segment;
s->type = type;
for(int k=0; k<n_beams; k++) {
Beam *b = new Beam;;
fscanf(fin, " %d %d %f %f", &num_readings, &position, &angle, &range );
b->range = range;
b->angle = angle;
s->add(b);
}
mScan->scans[level]->add(s);
} // end if ( ret == 3 ) {
} //end while ( !feof(fin) )
if ( mScan != NULL ) {
outputScan();
delete mScan;
mScan = NULL;
}
return 1;
}
void MTrack::processPendingNotes(QList<MidiChord> &midiChords,
int voice,
const Fraction &startChordTickFrac,
const Fraction &nextChordTick)
{
Score* score = staff->score();
int track = staff->idx() * VOICES + voice;
Drumset* drumset = staff->part()->instr()->drumset();
bool useDrumset = staff->part()->instr()->useDrumset();
// all midiChords here should have the same onTime value
// and all notes in each midiChord should have the same duration
Fraction startChordTick = startChordTickFrac;
while (!midiChords.isEmpty()) {
Fraction tick = startChordTick;
Fraction len = nextChordTick - tick;
if (len <= Fraction(0))
break;
len = findMinDuration(midiChords, len);
Measure* measure = score->tick2measure(tick.ticks());
len = splitDurationOnBarBoundary(len, tick, measure);
auto dl = toDurationList(measure, voice, tick, len, Meter::DurationType::NOTE);
if (dl.isEmpty())
break;
const TDuration &d = dl[0].second;
const Fraction &tupletRatio = dl[0].first;
len = d.fraction() / tupletRatio;
Chord* chord = new Chord(score);
chord->setTrack(track);
chord->setDurationType(d);
chord->setDuration(d.fraction());
Segment* s = measure->getSegment(chord, tick.ticks());
s->add(chord);
chord->setUserPlayEvents(true);
addElementToTuplet(voice, tick, len, chord);
for (int k = 0; k < midiChords.size(); ++k) {
MidiChord& midiChord = midiChords[k];
setMusicNotesFromMidi(score, midiChord.notes, startChordTick,
len, chord, tick, drumset, useDrumset);
if (!midiChord.notes.empty() && midiChord.notes.first().len <= len) {
midiChords.removeAt(k);
--k;
continue;
}
setTies(chord, score, midiChord.notes);
for (auto &midiNote: midiChord.notes)
midiNote.len -= len;
}
startChordTick += len;
}
fillGapWithRests(score, voice, startChordTick,
nextChordTick - startChordTick, track);
}
void MCursor::addKeySig(Key key)
{
createMeasures();
Measure* measure = _score->tick2measure(_tick);
Segment* segment = measure->getSegment(Segment::Type::KeySig, _tick);
int n = _score->nstaves();
for (int i = 0; i < n; ++i) {
KeySig* ks = new KeySig(_score);
ks->setKey(key);
ks->setTrack(i * VOICES);
segment->add(ks);
}
}
//-----------------------------------------------------
// segment a scan
// ----------------------------------------------------
void LegsDetector::segmentScan(double threshold, int n_readings, double *angles, double *ranges, dyntab_segments *segments)
{
//cerr << "LegsDetector::segmentScan" << endl;
Segment *s;
Beam *b=NULL, *b_prev=NULL;
s = new Segment;
//start with a segment
for (int i=0; i<n_readings; i++) {
// read the first point
b = new Beam;
b->range = ranges[i];
b->angle = angles[i];
b->num_readings = n_readings;
b->position = i;
if ( s->num() > 0 ) {
if ( fabs(b_prev->range - b->range) < threshold ) {
// same segment
b_prev = b;
b->segment_id = segments->num();
s->add(b);
}
else {
segments->add(s);
s = new Segment;
b->segment_id = segments->num();
s->add(b);
b_prev = b;
}
}
else {
b_prev = b;
s->add(b);
}
}
segments->add(s);
}
TimeSig* MCursor::addTimeSig(const Fraction& f)
{
createMeasures();
Measure* measure = _score->tick2measure(_tick);
Segment* segment = measure->getSegment(Segment::Type::TimeSig, _tick);
TimeSig* ts = 0;
for (int i = 0; i < _score->nstaves(); ++i) {
ts = new TimeSig(_score);
ts->setSig(f, TimeSigType::NORMAL);
ts->setTrack(i * VOICES);
segment->add(ts);
}
_score->sigmap()->add(_tick, SigEvent(f));
return ts;
}
static void setTempo(Score* score, int tempo)
{
TempoText* tt = new TempoText(score);
tt->setTempo(double(tempo)/60.0);
tt->setTrack(0);
QTextCursor* c = tt->startCursorEdit();
c->movePosition(QTextCursor::EndOfLine);
addSymbolToText(SymCode(0xe105, 1), c);
c->insertText(" = ");
c->insertText(QString("%1").arg(tempo));
tt->endEdit();
Measure* measure = score->firstMeasure();
Segment* segment = measure->getSegment(Segment::SegChordRest, 0);
segment->add(tt);
}
void Lilypond::addRest()
{
createMeasure();
Segment* segment = new Segment(measure);
segment->setSubtype(SegChordRest);
segment->setTick(tick);
segment->setParent(measure);
measure->add(segment);
Rest* rest = new Rest(score);
rest->setTrack(staff->idx() * VOICES);
rest->setParent(segment);
Duration d;
d.setVal(curLen);
rest->setDurationType(d);
segment->add(rest);
tick += curLen;
}
Chord* MCursor::addChord(int pitch, const TDuration& duration)
{
createMeasures();
Measure* measure = _score->tick2measure(_tick);
Segment* segment = measure->getSegment(Segment::Type::ChordRest, _tick);
Chord* chord = static_cast<Chord*>(segment->element(_track));
if (chord == 0) {
chord = new Chord(_score);
chord->setTrack(_track);
chord->setDurationType(duration);
chord->setDuration(duration.fraction());
segment->add(chord);
}
Note* note = new Note(_score);
chord->add(note);
note->setPitch(pitch);
note->setTpcFromPitch();
_tick += duration.ticks();
return chord;
}
void SwingDetector::applySwing()
{
if (elements.size() != 2 && elements.size() != 3)
return;
Tuplet *tuplet = nullptr;
for (ChordRest *el: elements) {
el->setDurationType(TDuration::DurationType::V_EIGHTH);
el->setTicks(Fraction(1, 8));
el->setDots(0);
if (el->tuplet()) {
if (!tuplet)
tuplet = el->tuplet();
tuplet->remove(el);
el->setTuplet(nullptr);
}
}
const ChordRest *first = elements.front();
const int startTick = first->segment()->tick().ticks();
ChordRest *last = elements.back();
last->segment()->remove(last);
Segment *s = last->measure()->getSegment(SegmentType::ChordRest, Fraction::fromTicks(startTick + MScore::division / 2));
s->add(last);
if (elements.size() == 3) {
// remove central rest
ChordRest *cr = elements[1];
cr->score()->removeElement(cr);
delete cr;
}
if (tuplet) {
// delete tuplet
delete tuplet;
tuplet = nullptr;
}
if (!swingApplied)
swingApplied = true;
}
void assignKeyListToStaff(const KeyList &kl, Staff *staff)
{
Score* score = staff->score();
const int track = staff->idx() * VOICES;
Key pkey = Key::C;
for (auto it = kl.begin(); it != kl.end(); ++it) {
const int tick = it->first;
Key key = it->second.key();
if ((key == Key::C) && (key == pkey)) // dont insert uneccessary C key
continue;
pkey = key;
KeySig* ks = new KeySig(score);
ks->setTrack(track);
ks->setGenerated(false);
ks->setKey(key);
ks->setMag(staff->mag());
Measure* m = score->tick2measure(tick);
Segment* seg = m->getSegment(ks, tick);
seg->add(ks);
}
}
void MTrack::convertTrack(const Fraction &lastTick)
{
Score* score = staff->score();
int key = 0; // TODO-LIB findKey(mtrack, score->sigmap());
int track = staff->idx() * VOICES;
int voices = VOICES;
for (int voice = 0; voice < voices; ++voice) {
// startChordTick is onTime value of all simultaneous notes
// chords here are consist of notes with equal durations
// several chords may have the same onTime value
Fraction startChordTick;
QList<MidiChord> midiChords;
for (auto it = chords.begin(); it != chords.end();) {
const Fraction &nextChordTick = it->first;
const MidiChord& midiChord = it->second;
if (midiChord.voice != voice) {
++it;
continue;
}
processPendingNotes(midiChords, voice, startChordTick, nextChordTick);
// now 'midiChords' list is empty
// so - fill it:
// collect all midiChords on current tick position
startChordTick = nextChordTick; // debug
for (;it != chords.end(); ++it) {
const MidiChord& midiChord = it->second;
if (it->first != startChordTick)
break;
if (midiChord.voice != voice)
continue;
midiChords.append(midiChord);
}
if (midiChords.isEmpty())
break;
}
// process last chords at the end of the score
processPendingNotes(midiChords, voice, startChordTick, lastTick);
}
createTuplets(track, score);
KeyList* km = staff->keymap();
if (!hasKey && !mtrack->drumTrack()) {
KeySigEvent ks;
ks.setAccidentalType(key);
(*km)[0] = ks;
}
for (auto it = km->begin(); it != km->end(); ++it) {
int tick = it->first;
KeySigEvent key = it->second;
KeySig* ks = new KeySig(score);
ks->setTrack(track);
ks->setGenerated(false);
ks->setKeySigEvent(key);
ks->setMag(staff->mag());
Measure* m = score->tick2measure(tick);
Segment* seg = m->getSegment(ks, tick);
seg->add(ks);
}
#if 0 // TODO
ClefList* cl = staff->clefList();
for (ciClefEvent i = cl->begin(); i != cl->end(); ++i) {
int tick = i.key();
Clef* clef = new Clef(score);
clef->setClefType(i.value());
clef->setTrack(track);
clef->setGenerated(false);
clef->setMag(staff->mag());
Measure* m = score->tick2measure(tick);
Segment* seg = m->getSegment(clef, tick);
seg->add(clef);
}
#endif
}
Score::FileError Score::read114(XmlReader& e)
{
if (parentScore())
setMscVersion(parentScore()->mscVersion());
for (unsigned int i = 0; i < sizeof(style114)/sizeof(*style114); ++i)
style()->set(style114[i].idx, style114[i].val);
// old text style defaults
TextStyle ts = style()->textStyle("Chord Symbol");
ts.setYoff(-4.0);
style()->setTextStyle(ts);
TempoMap tm;
while (e.readNextStartElement()) {
e.setTrack(-1);
const QStringRef& tag(e.name());
if (tag == "Staff")
readStaff(e);
else if (tag == "KeySig") { // not supported
KeySig* ks = new KeySig(this);
ks->read(e);
// customKeysigs.append(ks);
delete ks;
}
else if (tag == "siglist")
_sigmap->read(e, _fileDivision);
else if (tag == "programVersion") {
_mscoreVersion = e.readElementText();
parseVersion(_mscoreVersion);
}
else if (tag == "programRevision")
_mscoreRevision = e.readInt();
else if (tag == "Mag"
|| tag == "MagIdx"
|| tag == "xoff"
|| tag == "Symbols"
|| tag == "cursorTrack"
|| tag == "yoff")
e.skipCurrentElement(); // obsolete
else if (tag == "tempolist") {
// store the tempo list to create invisible tempo text later
qreal tempo = e.attribute("fix","2.0").toDouble();
tm.setRelTempo(tempo);
while (e.readNextStartElement()) {
if (e.name() == "tempo") {
int tick = e.attribute("tick").toInt();
double tmp = e.readElementText().toDouble();
tick = (tick * MScore::division + _fileDivision/2) / _fileDivision;
auto pos = tm.find(tick);
if (pos != tm.end())
tm.erase(pos);
tm.setTempo(tick, tmp);
}
else if (e.name() == "relTempo")
e.readElementText();
else
e.unknown();
}
}
else if (tag == "playMode")
_playMode = PlayMode(e.readInt());
else if (tag == "SyntiSettings")
_synthesizerState.read(e);
else if (tag == "Spatium")
_style.setSpatium (e.readDouble() * MScore::DPMM);
else if (tag == "Division")
_fileDivision = e.readInt();
else if (tag == "showInvisible")
_showInvisible = e.readInt();
else if (tag == "showFrames")
_showFrames = e.readInt();
else if (tag == "showMargins")
_showPageborders = e.readInt();
else if (tag == "Style") {
qreal sp = _style.spatium();
_style.load(e);
// adjust this now so chords render properly on read
// other style adjustments can wait until reading is finished
if (style(StyleIdx::useGermanNoteNames).toBool())
style()->set(StyleIdx::useStandardNoteNames, false);
if (_layoutMode == LayoutMode::FLOAT) {
// style should not change spatium in
// float mode
_style.setSpatium(sp);
}
}
else if (tag == "TextStyle") {
TextStyle s;
s.read(e);
qreal spMM = _style.spatium() / MScore::DPMM;
if (s.frameWidthMM() != 0.0)
s.setFrameWidth(Spatium(s.frameWidthMM() / spMM));
if (s.paddingWidthMM() != 0.0)
s.setPaddingWidth(Spatium(s.paddingWidthMM() / spMM));
\
// convert 1.2 text styles
s.setName(convertOldTextStyleNames(s.name()));
if (s.name() == "Lyrics Odd Lines" || s.name() == "Lyrics Even Lines")
s.setAlign((s.align() & ~ Align(AlignmentFlags::VMASK)) | AlignmentFlags::BASELINE);
_style.setTextStyle(s);
}
else if (tag == "page-layout") {
if (_layoutMode != LayoutMode::FLOAT && _layoutMode != LayoutMode::SYSTEM) {
PageFormat pf;
pf.copy(*pageFormat());
pf.read(e, this);
setPageFormat(pf);
}
else
e.skipCurrentElement();
}
else if (tag == "copyright" || tag == "rights") {
Text* text = new Text(this);
text->read(e);
text->layout();
setMetaTag("copyright", text->plainText());
delete text;
}
else if (tag == "movement-number")
setMetaTag("movementNumber", e.readElementText());
else if (tag == "movement-title")
setMetaTag("movementTitle", e.readElementText());
else if (tag == "work-number")
setMetaTag("workNumber", e.readElementText());
else if (tag == "work-title")
setMetaTag("workTitle", e.readElementText());
else if (tag == "source")
setMetaTag("source", e.readElementText());
else if (tag == "metaTag") {
QString name = e.attribute("name");
setMetaTag(name, e.readElementText());
}
else if (tag == "Part") {
Part* part = new Part(this);
part->read114(e);
_parts.push_back(part);
}
else if (tag == "Slur") {
Slur* slur = new Slur(this);
slur->read(e);
addSpanner(slur);
}
else if ((tag == "HairPin")
|| (tag == "Ottava")
|| (tag == "TextLine")
|| (tag == "Volta")
|| (tag == "Trill")
|| (tag == "Pedal")) {
Spanner* s = static_cast<Spanner*>(Element::name2Element(tag, this));
s->read(e);
if (s->track() == -1)
s->setTrack(e.track());
else
e.setTrack(s->track()); // update current track
if (s->tick() == -1)
s->setTick(e.tick());
else
e.initTick(s->tick()); // update current tick
if (s->track2() == -1)
s->setTrack2(s->track());
if (s->ticks() == 0) {
delete s;
qDebug("zero spanner %s ticks: %d", s->name(), s->ticks());
}
else {
addSpanner(s);
}
}
else if (tag == "Excerpt") {
if (MScore::noExcerpts)
e.skipCurrentElement();
else {
Excerpt* ex = new Excerpt(this);
ex->read(e);
_excerpts.append(ex);
}
}
else if (tag == "Beam") {
Beam* beam = new Beam(this);
beam->read(e);
beam->setParent(0);
// _beams.append(beam);
}
else if (tag == "name")
setName(e.readElementText());
else
e.unknown();
}
if (e.error() != XmlStreamReader::NoError)
return FileError::FILE_BAD_FORMAT;
int n = nstaves();
for (int idx = 0; idx < n; ++idx) {
Staff* s = _staves[idx];
int track = idx * VOICES;
// check barLineSpan
if (s->barLineSpan() > (n - idx)) {
qDebug("read114: invalid bar line span %d (max %d)",
s->barLineSpan(), n - idx);
s->setBarLineSpan(n - idx);
}
for (auto i : e.clefs(idx)) {
int tick = i.first;
ClefType clefId = i.second;
Measure* m = tick2measure(tick);
if (!m)
continue;
if ((tick == m->tick()) && m->prevMeasure())
m = m->prevMeasure();
Segment* seg = m->getSegment(Segment::Type::Clef, tick);
if (seg->element(track))
static_cast<Clef*>(seg->element(track))->setGenerated(false);
else {
Clef* clef = new Clef(this);
clef->setClefType(clefId);
clef->setTrack(track);
clef->setParent(seg);
clef->setGenerated(false);
seg->add(clef);
}
}
// create missing KeySig
KeyList* km = s->keyList();
for (auto i = km->begin(); i != km->end(); ++i) {
int tick = i->first;
if (tick < 0) {
qDebug("read114: Key tick %d", tick);
continue;
}
if (tick == 0 && i->second.key() == Key::C)
continue;
Measure* m = tick2measure(tick);
if (!m) //empty score
break;
Segment* seg = m->getSegment(Segment::Type::KeySig, tick);
if (seg->element(track))
static_cast<KeySig*>(seg->element(track))->setGenerated(false);
else {
KeySigEvent ke = i->second;
KeySig* ks = new KeySig(this);
ks->setKeySigEvent(ke);
ks->setParent(seg);
ks->setTrack(track);
ks->setGenerated(false);
seg->add(ks);
}
}
}
for (std::pair<int,Spanner*> p : spanner()) {
Spanner* s = p.second;
if (s->type() != Element::Type::SLUR) {
if (s->type() == Element::Type::VOLTA) {
Volta* volta = static_cast<Volta*>(s);
volta->setAnchor(Spanner::Anchor::MEASURE);
}
}
if (s->type() == Element::Type::OTTAVA
|| s->type() == Element::Type::PEDAL
|| s->type() == Element::Type::TRILL
|| s->type() == Element::Type::TEXTLINE) {
qreal yo = 0;
if (s->type() == Element::Type::OTTAVA) {
// fix ottava position
yo = styleS(StyleIdx::ottavaY).val() * spatium();
if (s->placement() == Element::Placement::BELOW)
yo = -yo + s->staff()->height();
}
else if (s->type() == Element::Type::PEDAL) {
yo = styleS(StyleIdx::pedalY).val() * spatium();
}
else if (s->type() == Element::Type::TRILL) {
yo = styleS(StyleIdx::trillY).val() * spatium();
}
else if (s->type() == Element::Type::TEXTLINE) {
yo = -5.0 * spatium();
}
if (!s->spannerSegments().isEmpty()) {
for (SpannerSegment* seg : s->spannerSegments()) {
if (!seg->userOff().isNull())
seg->setUserYoffset(seg->userOff().y() - yo);
}
}
else {
s->setUserYoffset(-yo);
}
}
}
connectTies();
//
// remove "middle beam" flags from first ChordRest in
// measure
//
for (Measure* m = firstMeasure(); m; m = m->nextMeasure()) {
int tracks = nstaves() * VOICES;
bool first = true;
for (int track = 0; track < tracks; ++track) {
for (Segment* s = m->first(); s; s = s->next()) {
if (s->segmentType() != Segment::Type::ChordRest)
continue;
ChordRest* cr = static_cast<ChordRest*>(s->element(track));
if (cr) {
if(cr->type() == Element::Type::REST) {
Rest* r = static_cast<Rest*>(cr);
if (!r->userOff().isNull()) {
int lineOffset = r->computeLineOffset();
qreal lineDist = r->staff() ? r->staff()->staffType()->lineDistance().val() : 1.0;
r->rUserYoffset() -= (lineOffset * .5 * lineDist * r->spatium());
}
}
if(!first) {
switch(cr->beamMode()) {
case Beam::Mode::AUTO:
case Beam::Mode::BEGIN:
case Beam::Mode::END:
case Beam::Mode::NONE:
break;
case Beam::Mode::MID:
case Beam::Mode::BEGIN32:
case Beam::Mode::BEGIN64:
cr->setBeamMode(Beam::Mode::BEGIN);
break;
case Beam::Mode::INVALID:
if (cr->type() == Element::Type::CHORD)
cr->setBeamMode(Beam::Mode::AUTO);
else
cr->setBeamMode(Beam::Mode::NONE);
break;
}
first = false;
}
}
}
}
}
for (MeasureBase* mb = _measures.first(); mb; mb = mb->next()) {
if (mb->type() == Element::Type::VBOX) {
Box* b = static_cast<Box*>(mb);
qreal y = point(styleS(StyleIdx::staffUpperBorder));
b->setBottomGap(y);
}
}
_fileDivision = MScore::division;
//
// sanity check for barLineSpan and update ottavas
//
foreach(Staff* staff, _staves) {
int barLineSpan = staff->barLineSpan();
int idx = staffIdx(staff);
int n = nstaves();
if (idx + barLineSpan > n) {
qDebug("bad span: idx %d span %d staves %d", idx, barLineSpan, n);
staff->setBarLineSpan(n - idx);
}
staff->updateOttava();
}
void GuitarPro5::readTracks()
{
for (int i = 0; i < staves; ++i) {
int tuning[GP_MAX_STRING_NUMBER];
Staff* staff = score->staff(i);
Part* part = staff->part();
uchar c = readUChar(); // simulations bitmask
if (c & 0x2) { // 12 stringed guitar
}
if (c & 0x4) { // banjo track
}
if (i == 0 || version == 500)
skip(1);
QString name = readPascalString(40);
int strings = readInt();
if (strings <= 0 || strings > GP_MAX_STRING_NUMBER)
throw GuitarProError::GP_BAD_NUMBER_OF_STRINGS ;
for (int j = 0; j < strings; ++j) {
tuning[j] = readInt();
}
for (int j = strings; j < GP_MAX_STRING_NUMBER; ++j)
readInt();
/*int midiPort =*/ readInt(); // -1
int midiChannel = readInt() - 1;
/*int midiChannel2 =*/ readInt(); // -1
int frets = readInt();
int capo = readInt();
/*int color =*/ readInt();
skip(version > 500 ? 49 : 44);
if (version > 500) {
// british stack clean / amp tone
readDelphiString();
readDelphiString();
}
int tuning2[strings];
for (int k = 0; k < strings; ++k)
tuning2[strings-k-1] = tuning[k];
StringData stringData(frets, strings, tuning2);
Instrument* instr = part->instr();
instr->setStringData(stringData);
part->setPartName(name);
part->setLongName(name);
instr->setTranspose(Interval(capo));
//
// determine clef
//
int patch = channelDefaults[midiChannel].patch;
ClefType clefId = ClefType::G;
if (midiChannel == GP_DEFAULT_PERCUSSION_CHANNEL) {
clefId = ClefType::PERC;
// instr->setUseDrumset(DrumsetKind::GUITAR_PRO);
instr->setDrumset(gpDrumset);
staff->setStaffType(StaffType::preset(StaffTypes::PERC_DEFAULT));
}
else if (patch >= 24 && patch < 32)
clefId = ClefType::G3;
else if (patch >= 32 && patch < 40)
clefId = ClefType::F8;
Measure* measure = score->firstMeasure();
Clef* clef = new Clef(score);
clef->setClefType(clefId);
clef->setTrack(i * VOICES);
Segment* segment = measure->getSegment(Segment::Type::Clef, 0);
segment->add(clef);
Channel& ch = instr->channel(0);
if (midiChannel == GP_DEFAULT_PERCUSSION_CHANNEL) {
ch.program = 0;
ch.bank = 128;
}
else {
ch.program = patch;
ch.bank = 0;
}
ch.volume = channelDefaults[midiChannel].volume;
ch.pan = channelDefaults[midiChannel].pan;
ch.chorus = channelDefaults[midiChannel].chorus;
ch.reverb = channelDefaults[midiChannel].reverb;
//qDebug("default2: %d", channelDefaults[i].reverb);
// missing: phase, tremolo
ch.updateInitList();
}
skip(version == 500 ? 2 : 1);
}
int GuitarPro5::readBeat(int tick, int voice, Measure* measure, int staffIdx, Tuplet** tuplets, bool /*mixChange*/)
{
uchar beatBits = readUChar();
bool dotted = beatBits & BEAT_DOTTED;
slide = -1;
int track = staffIdx * VOICES + voice;
if (slides.contains(track))
slide = slides.take(track);
int pause = -1;
if (beatBits & BEAT_PAUSE)
pause = readUChar();
// readDuration
int len = readChar();
int tuple = 0;
if (beatBits & BEAT_TUPLET)
tuple = readInt();
Segment* segment = measure->getSegment(Segment::Type::ChordRest, tick);
if (beatBits & BEAT_CHORD) {
int numStrings = score->staff(staffIdx)->part()->instr()->stringData()->strings();
skip(17);
QString name = readPascalString(21);
skip(4);
// no header to be read in the GP5 format - default to true.
readChord(segment, staffIdx * VOICES, numStrings, name, true);
skip(32);
}
Lyrics* lyrics = 0;
if (beatBits & BEAT_LYRICS) {
QString txt = readDelphiString();
lyrics = new Lyrics(score);
lyrics->setText(txt);
}
gpLyrics.beatCounter++;
if (gpLyrics.beatCounter >= gpLyrics.fromBeat && gpLyrics.lyricTrack == staffIdx+1) {
int index = gpLyrics.beatCounter - gpLyrics.fromBeat;
if (index < gpLyrics.lyrics.size()) {
lyrics = new Lyrics(score);
lyrics->setText(gpLyrics.lyrics[index]);
}
}
int beatEffects = 0;
if (beatBits & BEAT_EFFECTS)
beatEffects = readBeatEffects(track, segment);
if (beatBits & BEAT_MIX_CHANGE)
readMixChange(measure);
int strings = readUChar(); // used strings mask
Fraction l = len2fraction(len);
// Some beat effects could add a Chord before this
ChordRest* cr = segment->cr(track);
if (voice != 0 && pause == 0 && strings == 0)
cr = 0;
else {
if (strings == 0) {
if (cr) {
segment->remove(cr);
delete cr;
cr = 0;
}
cr = new Rest(score);
}
else {
if (!cr)
cr = new Chord(score);
}
cr->setTrack(track);
TDuration d(l);
d.setDots(dotted ? 1 : 0);
if (dotted)
l = l + (l/2);
if (tuple) {
Tuplet* tuplet = tuplets[staffIdx * 2 + voice];
if ((tuplet == 0) || (tuplet->elementsDuration() == tuplet->baseLen().fraction() * tuplet->ratio().numerator())) {
tuplet = new Tuplet(score);
// int track = staffIdx * 2 + voice;
tuplets[staffIdx * 2 + voice] = tuplet;
tuplet->setTrack(cr->track());
setTuplet(tuplet, tuple);
tuplet->setParent(measure);
}
tuplet->setTrack(cr->track());
tuplet->setBaseLen(l);
tuplet->setDuration(l * tuplet->ratio().denominator());
cr->setTuplet(tuplet);
tuplet->add(cr);
}
cr->setDuration(l);
if (cr->type() == Element::Type::REST && (pause == 0 || l == measure->len()))
cr->setDurationType(TDuration::DurationType::V_MEASURE);
else
cr->setDurationType(d);
if(!segment->cr(track))
segment->add(cr);
Staff* staff = cr->staff();
int numStrings = staff->part()->instr()->stringData()->strings();
bool hasSlur = false;
for (int i = 6; i >= 0; --i) {
if (strings & (1 << i) && ((6-i) < numStrings)) {
Note* note = new Note(score);
if (dotted) {
// there is at most one dotted note in this guitar pro version
NoteDot* dot = new NoteDot(score);
dot->setIdx(0);
dot->setParent(note);
dot->setTrack(track); // needed to know the staff it belongs to (and detect tablature)
dot->setVisible(true);
note->add(dot);
}
static_cast<Chord*>(cr)->add(note);
hasSlur = readNote(6-i, note);
note->setTpcFromPitch();
}
}
createSlur(hasSlur, staffIdx, cr);
if (lyrics)
cr->add(lyrics);
}
int rr = readChar();
if (cr && (cr->type() == Element::Type::CHORD)) {
Chord* chord = static_cast<Chord*>(cr);
applyBeatEffects(chord, beatEffects);
if (rr == ARPEGGIO_DOWN)
chord->setStemDirection(MScore::Direction::DOWN);
else if (rr == ARPEGGIO_UP)
chord->setStemDirection(MScore::Direction::UP);
}
int r = readChar();
if (r & 0x8) {
int rrr = readChar();
qDebug(" 3beat read 0x%02x", rrr);
}
if (cr && (cr->type() == Element::Type::CHORD) && slide > 0)
createSlide(slide, cr, staffIdx);
restsForEmptyBeats(segment, measure, cr, l, track, tick);
return cr ? cr->actualTicks() : measure->ticks();
}
void MuseData::readNote(Part* part, const QString& s)
{
// a b c d e f g
static int table[7] = { 9, 11, 0, 2, 4, 5, 7 };
int step = s[0].toLatin1() - 'A';
int alter = 0;
int octave = 0;
for (int i = 1; i < 3; ++i) {
if (s[i] == '#')
alter += 1;
else if (s[i] == 'f')
alter -= 1;
else if (s[i].isDigit()) {
octave = s.mid(i,1).toInt();
break;
}
}
MScore::Direction dir = MScore::AUTO;
if (s.size() >= 23) {
if (s[22] == 'u')
dir = MScore::UP;
else if (s[22] == 'd')
dir = MScore::DOWN;
}
int staffIdx = 0;
if (s.size() >= 24) {
if (s[23].isDigit())
staffIdx = s.mid(23,1).toInt() - 1;
}
Staff* staff = part->staff(staffIdx);
int gstaff = staff->idx();
int pitch = table[step] + alter + (octave + 1) * 12;
if (pitch < 0)
pitch = 0;
if (pitch > 127)
pitch = 127;
int ticks = s.mid(5, 3).toInt();
ticks = (ticks * MScore::division + _division/2) / _division;
int tick = curTick;
curTick += ticks;
Tuplet* tuplet = 0;
if (s.size() >= 22) {
int a = 1;
int b = 1;
if (s[19] != ' ') {
a = s[19].toLatin1() - '0';
if (a == 3 && s[20] != ':')
b = 2;
else {
b = s[21].toLatin1() - '0';
}
}
if (a == 3 && b == 2) { // triplet
if (chordRest && chordRest->tuplet() && ntuplet) {
tuplet = chordRest->tuplet();
}
else {
tuplet = new Tuplet(score);
tuplet->setTrack(gstaff * VOICES);
tuplet->setTick(tick);
ntuplet = a;
tuplet->setRatio(Fraction(a, b));
measure->add(tuplet);
}
}
else if (a == 1 && b == 1)
;
else
qDebug("unsupported tuple %d/%d", a, b);
}
Chord* chord = new Chord(score);
chordRest = chord;
chord->setTrack(gstaff * VOICES);
chord->setStemDirection(dir);
if (tuplet) {
chord->setTuplet(tuplet);
tuplet->add(chord);
--ntuplet;
}
TDuration d;
d.setVal(ticks);
chord->setDurationType(d);
Segment* segment = measure->getSegment(chord, tick);
voice = 0;
for (; voice < VOICES; ++voice) {
Element* e = segment->element(gstaff * VOICES + voice);
if (e == 0) {
chord->setTrack(gstaff * VOICES + voice);
segment->add(chord);
break;
}
}
if (voice == VOICES) {
qDebug("cannot allocate voice");
delete chord;
return;
}
Note* note = new Note(score);
note->setPitch(pitch);
note->setTpcFromPitch();
note->setTrack(gstaff * VOICES + voice);
chord->add(note);
QString dynamics;
QString an = s.mid(31, 11);
for (int i = 0; i < an.size(); ++i) {
if (an[i] == '(')
openSlur(0, tick, staff, voice);
else if (an[i] == ')')
closeSlur(0, tick, staff, voice);
else if (an[i] == '[')
openSlur(1, tick, staff, voice);
else if (an[i] == ']')
closeSlur(1, tick, staff, voice);
else if (an[i] == '{')
openSlur(2, tick, staff, voice);
else if (an[i] == '}')
closeSlur(2, tick, staff, voice);
else if (an[i] == 'z')
openSlur(3, tick, staff, voice);
else if (an[i] == 'x')
closeSlur(3, tick, staff, voice);
else if (an[i] == '.') {
Articulation* atr = new Articulation(score);
atr->setArticulationType(Articulation_Staccato);
chord->add(atr);
}
else if (an[i] == '_') {
Articulation* atr = new Articulation(score);
atr->setArticulationType(Articulation_Tenuto);
chord->add(atr);
}
else if (an[i] == 'v') {
Articulation* atr = new Articulation(score);
atr->setArticulationType(Articulation_Upbow);
chord->add(atr);
}
else if (an[i] == 'n') {
Articulation* atr = new Articulation(score);
atr->setArticulationType(Articulation_Downbow);
chord->add(atr);
}
else if (an[i] == 't') {
Articulation* atr = new Articulation(score);
atr->setArticulationType(Articulation_Trill);
chord->add(atr);
}
else if (an[i] == 'F') {
Articulation* atr = new Articulation(score);
atr->setUp(true);
atr->setArticulationType(Articulation_Fermata);
chord->add(atr);
}
else if (an[i] == 'E') {
Articulation* atr = new Articulation(score);
atr->setUp(false);
atr->setArticulationType(Articulation_Fermata);
chord->add(atr);
}
else if (an[i] == 'O') {
// Articulation* atr = new Articulation(score);
// atr->setArticulationType(Articulation_Downbow);
// chord->add(atr);
qDebug("%06d: open string '%c' not implemented", tick, an[i].toLatin1());
}
else if (an[i] == '&') {
// skip editorial level
if (i <= an.size() && an[i+1].isDigit())
++i;
}
else if (an[i] == 'p')
dynamics += "p";
else if (an[i] == 'm')
dynamics += "m";
else if (an[i] == 'f')
dynamics += "f";
else if (an[i] == '-') // tie
;
else if (an[i] == '*') // start tuplet
;
else if (an[i] == '!') // stop tuplet
;
else if (an[i] == '+') // cautionary accidental
;
else if (an[i] == 'X') // ???
;
else if (an[i] == ' ')
;
else {
qDebug("%06d: notation '%c' not implemented", tick, an[i].toLatin1());
}
}
if (!dynamics.isEmpty()) {
Dynamic* dyn = new Dynamic(score);
dyn->setDynamicType(dynamics);
dyn->setTrack(gstaff * VOICES);
Segment* s = measure->getSegment(Segment::SegChordRest, tick);
s->add(dyn);
}
QString txt = s.mid(43, 36);
if (!txt.isEmpty()) {
QStringList sl = txt.split("|");
int no = 0;
foreach(QString w, sl) {
w = diacritical(w);
Lyrics* l = new Lyrics(score);
l->setText(w);
l->setNo(no++);
l->setTrack(gstaff * VOICES);
Segment* segment = measure->tick2segment(tick);
segment->add(l);
}
void MsScWriter::beginMeasure(const Bww::MeasureBeginFlags mbf)
{
qDebug() << "MsScWriter::beginMeasure()";
++measureNumber;
// create a new measure
currentMeasure = new Measure(score);
currentMeasure->setTick(tick);
currentMeasure->setTimesig(Fraction(beats, beat));
currentMeasure->setNo(measureNumber);
score->measures()->add(currentMeasure);
if (mbf.repeatBegin)
currentMeasure->setRepeatFlags(RepeatStart);
if (mbf.irregular)
currentMeasure->setIrregular(true);
if (mbf.endingFirst || mbf.endingSecond) {
Volta* volta = new Volta(score);
volta->setTrack(0);
volta->endings().clear();
if (mbf.endingFirst) {
volta->setText("1");
volta->endings().append(1);
ending = 1;
}
else {
volta->setText("2");
volta->endings().append(2);
ending = 2;
}
volta->setStartElement(currentMeasure);
currentMeasure->add(volta);
lastVolta = volta;
}
// set clef, key and time signature in the first measure
if (measureNumber == 1) {
// clef
Clef* clef = new Clef(score);
clef->setClefType(CLEF_G);
clef->setTrack(0);
Segment* s = currentMeasure->getSegment(clef, tick);
s->add(clef);
// keysig
KeySigEvent key;
key.setAccidentalType(2);
KeySig* keysig = new KeySig(score);
keysig->setKeySigEvent(key);
keysig->setTrack(0);
s = currentMeasure->getSegment(keysig, tick);
s->add(keysig);
// timesig
TimeSig* timesig = new TimeSig(score);
timesig->setSig(Fraction(beats, beat));
timesig->setTrack(0);
s = currentMeasure->getSegment(timesig, tick);
s->add(timesig);
}
}
bool MuseScore::importPdf(Score* score, const QString& path)
{
Omr* omr = new Omr(path, score);
if (!omr->readPdf()) {
delete omr;
return false;
}
score->setOmr(omr);
qreal sp = omr->spatiumMM();
if (sp == 0.0)
sp = 1.5;
score->setSpatium(sp * DPMM);
score->style()->set(StyleVal(ST_pageFillLimit, 1.0));
score->style()->set(StyleVal(ST_lastSystemFillLimit, 0.0));
score->style()->set(StyleVal(ST_staffLowerBorder, 0.0));
score->style()->set(StyleVal(ST_measureSpacing, 1.0));
PageFormat pF(*score->pageFormat());
pF.setEvenLeftMargin(5.0 * DPMM / DPI);
pF.setEvenTopMargin(0);
pF.setEvenBottomMargin(0);
pF.setOddLeftMargin(5.0 * DPMM / DPI);
pF.setOddTopMargin(0);
pF.setOddBottomMargin(0);
score->setPageFormat(pF);
score->style()->set(StyleVal(ST_systemDistance, Spatium(omr->systemDistance())));
score->style()->set(StyleVal(ST_akkoladeDistance, Spatium(omr->staffDistance())));
Part* part = new Part(score);
Staff* staff = new Staff(score, part, 0);
part->staves()->push_back(staff);
score->staves().insert(0, staff);
staff = new Staff(score, part, 1);
part->staves()->push_back(staff);
score->staves().insert(1, staff);
part->staves()->front()->setBarLineSpan(part->nstaves());
score->insertPart(part, 0);
TDuration d(TDuration::V_MEASURE);
Measure* measure = 0;
int tick = 0;
foreach(const OmrPage* omrPage, omr->pages()) {
int nsystems = omrPage->systems().size();
int n = nsystems == 0 ? 1 : nsystems;
for (int k = 0; k < n; ++k) {
int numMeasures = 1;
if (k < nsystems) {
const OmrSystem& omrSystem = omrPage->systems().at(k);
numMeasures = omrSystem.barLines.size() - 1;
if (numMeasures < 1)
numMeasures = 1;
else if (numMeasures > 50) // sanity check
numMeasures = 50;
}
for (int i = 0; i < numMeasures; ++i) {
measure = new Measure(score);
measure->setTick(tick);
Rest* rest = new Rest(score, d);
rest->setDuration(Fraction(4,4));
rest->setTrack(0);
Segment* s = measure->getSegment(SegChordRest, tick);
s->add(rest);
rest = new Rest(score, d);
rest->setDuration(Fraction(4,4));
rest->setTrack(4);
s->add(rest);
score->measures()->add(measure);
tick += MScore::division * 4;
}
if (k < (nsystems-1)) {
LayoutBreak* b = new LayoutBreak(score);
b->setSubtype(LAYOUT_BREAK_LINE);
measure->add(b);
}
}
if (measure) {
LayoutBreak* b = new LayoutBreak(score);
b->setSubtype(LAYOUT_BREAK_PAGE);
measure->add(b);
}
}
//---create bracket
score->staff(0)->setBracket(0, BRACKET_AKKOLADE);
score->staff(0)->setBracketSpan(0, 2);
//---create clefs
measure = score->firstMeasure();
if (measure) {
Clef* clef = new Clef(score);
clef->setClefType(CLEF_G);
clef->setTrack(0);
Segment* segment = measure->getSegment(SegClef, 0);
segment->add(clef);
clef = new Clef(score);
clef->setClefType(CLEF_F);
clef->setTrack(4);
segment->add(clef);
}
score->setShowOmr(true);
omr->page(0)->readHeader(score);
score->rebuildMidiMapping();
return true;
}
void MsScWriter::note(const QString pitch, const QVector<Bww::BeamType> beamList,
const QString type, const int dots,
bool tieStart, bool /*TODO tieStop */,
StartStop triplet,
bool grace)
{
qDebug() << "MsScWriter::note()"
<< "type:" << type
<< "dots:" << dots
<< "grace" << grace
;
if (!stepAlterOctMap.contains(pitch)
|| !typeMap.contains(type)) {
// TODO: error message
return;
}
StepAlterOct sao = stepAlterOctMap.value(pitch);
int ticks = 4 * MScore::division / type.toInt();
if (dots) ticks = 3 * ticks / 2;
qDebug() << "ticks:" << ticks;
TDuration durationType(TDuration::V_INVALID);
durationType.setVal(ticks);
qDebug() << "duration:" << durationType.name();
if (triplet != ST_NONE) ticks = 2 * ticks / 3;
BeamMode bm = (beamList.at(0) == Bww::BM_BEGIN) ? BEAM_BEGIN : BEAM_AUTO;
Direction sd = AUTO;
// create chord
Chord* cr = new Chord(score);
//ws cr->setTick(tick);
cr->setBeamMode(bm);
cr->setTrack(0);
if (grace) {
cr->setNoteType(NOTE_GRACE32);
cr->setDurationType(TDuration::V_32ND);
sd = UP;
}
else {
if (durationType.type() == TDuration::V_INVALID)
durationType.setType(TDuration::V_QUARTER);
cr->setDurationType(durationType);
sd = DOWN;
}
cr->setDuration(durationType.fraction());
cr->setDots(dots);
cr->setStemDirection(sd);
// add note to chord
Note* note = new Note(score);
note->setTrack(0);
xmlSetPitch(note, sao.s.toAscii(), sao.a, sao.o);
if (tieStart) {
Tie* tie = new Tie(score);
note->setTieFor(tie);
tie->setStartNote(note);
tie->setTrack(0);
}
cr->add(note);
// add chord to measure
Segment* s = currentMeasure->getSegment(cr, tick);
s->add(cr);
if (!grace) {
doTriplet(cr, triplet);
int tickBefore = tick;
tick += ticks;
Fraction nl(Fraction::fromTicks(tick - currentMeasure->tick()));
currentMeasure->setLen(nl);
qDebug() << "MsScWriter::note()"
<< "tickBefore:" << tickBefore
<< "tick:" << tick
<< "nl:" << nl.print()
;
}
}
