void Score::splitMeasure(Segment* segment)
{
if (segment->rtick() == 0) {
MScore::setError(CANNOT_SPLIT_MEASURE_FIRST_BEAT);
return;
}
if (segment->splitsTuplet()) {
MScore::setError(CANNOT_SPLIT_MEASURE_TUPLET);
return;
}
Measure* measure = segment->measure();
ScoreRange range;
range.read(measure->first(), measure->last());
undoRemoveMeasures(measure, measure);
undoInsertTime(measure->tick(), -measure->ticks());
// create empty measures:
Measure* m2 = toMeasure(insertMeasure(Element::Type::MEASURE, measure->next(), true));
Measure* m1 = toMeasure(insertMeasure(Element::Type::MEASURE, m2, true));
int tick = segment->tick();
m1->setTick(measure->tick());
m2->setTick(tick);
int ticks1 = segment->tick() - measure->tick();
int ticks2 = measure->ticks() - ticks1;
m1->setTimesig(measure->timesig());
m2->setTimesig(measure->timesig());
m1->adjustToLen(Fraction::fromTicks(ticks1));
m2->adjustToLen(Fraction::fromTicks(ticks2));
range.write(this, m1->tick());
}
void Score::splitMeasure(ChordRest* cr)
{
Segment* segment = cr->segment();
Measure* measure = segment->measure();
ScoreRange range;
range.read(measure->first(), measure->last());
undoRemoveMeasures(measure, measure);
undoInsertTime(measure->tick(), -(measure->endTick() - measure->tick()));
// create empty measures:
Measure* m2 = toMeasure(insertMeasure(Element::Type::MEASURE, measure->next(), true));
Measure* m1 = toMeasure(insertMeasure(Element::Type::MEASURE, m2, true));
int tick = segment->tick();
m1->setTick(measure->tick());
m2->setTick(tick);
int ticks1 = segment->tick() - measure->tick();
int ticks2 = measure->ticks() - ticks1;
m1->setTimesig(measure->timesig());
m2->setTimesig(measure->timesig());
m1->adjustToLen(Fraction::fromTicks(ticks1));
m2->adjustToLen(Fraction::fromTicks(ticks2));
range.write(this, m1->tick());
}
MeasureBase* MeasureBase::nextMM() const
{
if (_next
&& _next->isMeasure()
&& score()->styleB(StyleIdx::createMultiMeasureRests)
&& toMeasure(_next)->hasMMRest()) {
return toMeasure(_next)->mmRest();
}
return _next;
}
void InspectorClef::setElement()
{
otherClef = nullptr; // no 'other clef' yet
InspectorElementBase::setElement();
// try to locate the 'other clef' of a courtesy / main pair
Clef* clef = toClef(inspector->element());
// if not in a clef-segment-measure hierarchy, do nothing
if (!clef->parent() || clef->parent()->type() != ElementType::SEGMENT)
return;
Segment* segm = toSegment(clef->parent());
int segmTick = segm->tick();
if (!segm->parent() || segm->parent()->type() != ElementType::MEASURE)
return;
Measure* meas = toMeasure(segm->parent());
Measure* otherMeas = nullptr;
Segment* otherSegm = nullptr;
if (segmTick == meas->tick()) // if clef segm is measure-initial
otherMeas = meas->prevMeasure(); // look for a previous measure
else if (segmTick == meas->tick()+meas->ticks()) // if clef segm is measure-final
otherMeas = meas->nextMeasure(); // look for a next measure
// look for a clef segment in the 'other' measure at the same tick of this clef segment
if (otherMeas)
otherSegm = otherMeas->findSegment(SegmentType::Clef, segmTick);
// if any 'other' segment found, look for a clef in the same track as this
if (otherSegm)
otherClef = toClef(otherSegm->element(clef->track()));
}
Clef* Clef::otherClef()
{
// if not in a clef-segment-measure hierarchy, do nothing
if (!parent() || !parent()->isSegment())
return nullptr;
Segment* segm = toSegment(parent());
int segmTick = segm->tick();
if (!segm->parent() || !segm->parent()->isMeasure())
return nullptr;
Measure* meas = toMeasure(segm->parent());
Measure* otherMeas = nullptr;
Segment* otherSegm = nullptr;
if (segmTick == meas->tick()) // if clef segm is measure-initial
otherMeas = meas->prevMeasure(); // look for a previous measure
else if (segmTick == meas->tick() + meas->ticks()) // if clef segm is measure-final
otherMeas = meas->nextMeasure(); // look for a next measure
if (!otherMeas)
return nullptr;
// look for a clef segment in the 'other' measure at the same tick of this clef segment
otherSegm = otherMeas->findSegment(SegmentType::Clef | SegmentType::HeaderClef, segmTick);
if (!otherSegm)
return nullptr;
// if any 'other' segment found, look for a clef in the same track as this
return toClef(otherSegm->element(track()));
}
Measure* MeasureBase::prevMeasure() const
{
MeasureBase* m = prev();
while (m) {
if (m->isMeasure())
return toMeasure(m);
m = m->prev();
}
return 0;
}
Measure* MeasureBase::nextMeasure() const
{
MeasureBase* m = _next;
for (;;) {
if (m == 0 || m->isMeasure())
break;
m = m->_next;
}
return toMeasure(m);
}
Measure* MeasureBase::prevMeasureMM() const
{
MeasureBase* m = prev();
while (m) {
if (m->isMeasure()) {
Measure* mm = toMeasure(m);
if (score()->styleB(StyleIdx::createMultiMeasureRests)) {
if (mm->mmRestCount() >= 0) {
if (mm->hasMMRest())
return mm->mmRest();
return mm;
}
}
else
return mm;
}
m = m->prev();
}
return 0;
}
void ContinuousPanel::paint(const QRect&, QPainter& painter)
{
qreal _offsetPanel = 0;
qreal _y = 0;
qreal _oldWidth = 0; // The last final panel width
qreal _newWidth = 0; // New panel width
qreal _height = 0;
qreal _leftMarginTotal = 0; // Sum of all elments left margin
qreal _panelRightPadding = 5; // Extra space for the panel after last element
Measure* measure = _score->firstMeasure();
if (!_active || !measure) {
_visible = false;
return;
}
if (measure->mmRest()) {
measure = measure->mmRest();
}
System* system = measure->system();
if (system == 0) {
_visible = false;
return;
}
Segment* s = measure->first();
double _spatium = _score->spatium();
if (_width <= 0)
_width = s->x();
//
// Set panel height for whole system
//
_height = 6 * _spatium;
_y = system->staffYpage(0) + system->page()->pos().y();
double y2 = 0.0;
for (int i = 0; i < _score->nstaves(); ++i) {
SysStaff* ss = system->staff(i);
if (!ss->show() || !_score->staff(i)->show())
continue;
y2 = ss->y() + ss->bbox().height();
}
_height += y2 + 6*_spatium;
_y -= 6 * _spatium;
//
// Check elements at current panel position
//
_offsetPanel = -(_sv->xoffset()) / _sv->mag();
_rect = QRect(_offsetPanel + _width, _y, 1, _height);
Page* page = _score->pages().front();
QList<Element*> el = page->items(_rect);
if (el.empty()) {
_visible = false;
return;
}
qStableSort(el.begin(), el.end(), elementLessThan);
const Measure*_currentMeasure = 0;
for (const Element* e : el) {
e->itemDiscovered = 0;
if (!e->visible() && !_score->showInvisible())
continue;
if (e->isMeasure()) {
_currentMeasure = toMeasure(e);
break;
}
}
if (!_currentMeasure)
return;
// Don't show panel if staff names are visible
if (_currentMeasure == _score->firstMeasure() && _sv->toPhysical(_currentMeasure->canvasPos()).x() > 0) {
_visible = false;
return;
}
qreal _xPosMeasure = _currentMeasure->canvasX();
qreal _measureWidth = _currentMeasure->width();
int tick = _currentMeasure->tick();
Fraction _currentTimeSig = _currentMeasure->timesig();
//qDebug() << "_sv->xoffset()=" <<_sv->xoffset() << " _sv->mag()="<< _sv->mag() <<" s->x=" << s->x() << " width=" << _width << " currentMeasure=" << _currentMeasure->x() << " _xPosMeasure=" << _xPosMeasure;
//---------------------------------------------------------
// findElementWidths
// determines the max width for each element types
//---------------------------------------------------------
// The first pass serves to get the maximum width for each elements
qreal lineWidthName = 0;
qreal _widthClef = 0;
qreal _widthKeySig = 0;
qreal _widthTimeSig = 0;
qreal _xPosTimeSig = 0;
for (const Element* e : el) {
e->itemDiscovered = 0;
if (!e->visible() && !_score->showInvisible())
continue;
if (e->isRest() && toRest(e)->isGap())
continue;
if (e->isStaffLines()) {
Staff* currentStaff = _score->staff(e->staffIdx());
Segment* parent = _score->tick2segment(tick);
// Find maximum width for the staff name
QList<StaffName>& staffNamesLong = currentStaff->part()->instrument()->longNames();
QString staffName = staffNamesLong.isEmpty() ? " " : staffNamesLong[0].name();
if (staffName == "") {
QList<StaffName>& staffNamesShort = currentStaff->part()->instrument()->shortNames();
staffName = staffNamesShort.isEmpty() ? "" : staffNamesShort[0].name();
}
Text* newName = new Text(_score);
newName->setXmlText(staffName);
newName->setParent(parent);
newName->setTrack(e->track());
newName->textStyle().setFamily("FreeSans");
newName->textStyle().setSizeIsSpatiumDependent(true);
newName->layout();
newName->setPlainText(newName->plainText());
newName->layout();
// Find maximum width for the current Clef
Clef* newClef = new Clef(_score);
ClefType currentClef = currentStaff->clef(tick);
newClef->setClefType(currentClef);
newClef->setParent(parent);
newClef->setTrack(e->track());
newClef->layout();
if (newClef->width() > _widthClef)
_widthClef = newClef->width();
// Find maximum width for the current KeySignature
KeySig* newKs = new KeySig(_score);
KeySigEvent currentKeySigEvent = currentStaff->keySigEvent(tick);
newKs->setKeySigEvent(currentKeySigEvent);
// The Parent and the Track must be set to have the key signature layout adjusted to different clefs
// This also adds naturals to the key signature (if set in the score style)
newKs->setParent(parent);
newKs->setTrack(e->track());
newKs->setHideNaturals(true);
newKs->layout();
if (newKs->width() > _widthKeySig)
_widthKeySig = newKs->width();
// Find maximum width for the current TimeSignature
TimeSig* newTs = new TimeSig(_score);
// Try to get local time signature, if not, get the current measure one
TimeSig* currentTimeSig = currentStaff->timeSig(tick);
if (currentTimeSig)
newTs->setFrom(currentTimeSig);
else
newTs->setSig(Fraction(_currentTimeSig.numerator(), _currentTimeSig.denominator()), TimeSigType::NORMAL);
newTs->setParent(parent);
newTs->setTrack(e->track());
newTs->layout();
if ((newName->width() > lineWidthName) && (newName->xmlText() != ""))
lineWidthName = newName->width();
if (newTs->width() > _widthTimeSig)
_widthTimeSig = newTs->width();
delete newClef;
delete newName;
delete newKs;
delete newTs;
}
}
_leftMarginTotal = _score->styleP(StyleIdx::clefLeftMargin);
_leftMarginTotal += _score->styleP(StyleIdx::keysigLeftMargin);
_leftMarginTotal += _score->styleP(StyleIdx::timesigLeftMargin);
_newWidth = _widthClef + _widthKeySig + _widthTimeSig + _leftMarginTotal + _panelRightPadding;
_xPosMeasure -= _offsetPanel;
lineWidthName += _score->spatium() + _score->styleP(StyleIdx::clefLeftMargin) + _widthClef;
if (_newWidth < lineWidthName) {
_newWidth = lineWidthName;
_oldWidth = 0;
}
if (_oldWidth == 0) {
_oldWidth = _newWidth;
_width = _newWidth;
}
else if (_newWidth > 0) {
if (_newWidth == _width) {
_oldWidth = _width;
_width = _newWidth;
}
else if (((_xPosMeasure <= _newWidth) && (_xPosMeasure >= _oldWidth)) ||
((_xPosMeasure >= _newWidth) && (_xPosMeasure <= _oldWidth)))
_width = _xPosMeasure;
else if (((_xPosMeasure+_measureWidth <= _newWidth) && (_xPosMeasure+_measureWidth >= _oldWidth)) ||
((_xPosMeasure+_measureWidth >= _newWidth) && (_xPosMeasure+_measureWidth <= _oldWidth)))
_width = _xPosMeasure+_measureWidth;
else {
_oldWidth = _width;
_width = _newWidth;
}
}
_rect = QRect(0, _y, _width, _height);
//====================
painter.save();
// Draw colored rectangle
painter.setClipping(false);
QPointF pos(_offsetPanel, 0);
painter.translate(pos);
QPen pen;
pen.setWidthF(0.0);
pen.setStyle(Qt::NoPen);
painter.setPen(pen);
painter.setBrush(preferences.fgColor);
QRectF bg(_rect);
bg.setWidth(_widthClef + _widthKeySig + _widthTimeSig + _leftMarginTotal + _panelRightPadding);
QPixmap* fgPixmap = _sv->fgPixmap();
if (fgPixmap == 0 || fgPixmap->isNull())
painter.fillRect(bg, preferences.fgColor);
else {
painter.setMatrixEnabled(false);
painter.drawTiledPixmap(bg, *fgPixmap, bg.topLeft()
- QPoint(lrint(_sv->matrix().dx()), lrint(_sv->matrix().dy())));
painter.setMatrixEnabled(true);
}
painter.setClipRect(_rect);
painter.setClipping(true);
QColor color(MScore::layoutBreakColor);
// Draw measure text number
QString text = QString("#%1").arg(_currentMeasure->no()+1);
Text* newElement = new Text(_score);
newElement->setTextStyleType(TextStyleType::DEFAULT);
newElement->setFlag(ElementFlag::MOVABLE, false);
newElement->setXmlText(text);
newElement->textStyle().setFamily("FreeSans");
newElement->textStyle().setSizeIsSpatiumDependent(true);
newElement->setColor(color);
newElement->sameLayout();
pos = QPointF(_score->styleP(StyleIdx::clefLeftMargin) + _widthClef, _y + newElement->height());
painter.translate(pos);
newElement->draw(&painter);
pos += QPointF(_offsetPanel, 0);
painter.translate(-pos);
delete newElement;
// This second pass draws the elements spaced evently using the width of the largest element
for (const Element* e : el) {
if (!e->visible() && !_score->showInvisible())
continue;
if (e->isRest() && toRest(e)->isGap())
continue;
if (e->isStaffLines()) {
painter.save();
Staff* currentStaff = _score->staff(e->staffIdx());
Segment* parent = _score->tick2segmentMM(tick);
pos = QPointF (_offsetPanel, e->pagePos().y());
painter.translate(pos);
// Draw staff lines
StaffLines newStaffLines(*toStaffLines(e));
newStaffLines.setParent(parent);
newStaffLines.setTrack(e->track());
newStaffLines.layout();
newStaffLines.setColor(color);
newStaffLines.setWidth(bg.width());
newStaffLines.draw(&painter);
// Draw barline
BarLine barLine(_score);
barLine.setBarLineType(BarLineType::NORMAL);
barLine.setParent(parent);
barLine.setTrack(e->track());
barLine.setSpan(currentStaff->barLineSpan());
barLine.setSpanFrom(currentStaff->barLineFrom());
barLine.setSpanTo(currentStaff->barLineTo());
barLine.layout();
barLine.setColor(color);
barLine.draw(&painter);
// Draw the current staff name
QList<StaffName>& staffNamesLong = currentStaff->part()->instrument()->longNames();
QString staffName = staffNamesLong.isEmpty() ? " " : staffNamesLong[0].name();
if (staffName == "") {
QList<StaffName>& staffNamesShort = currentStaff->part()->instrument()->shortNames();
staffName = staffNamesShort.isEmpty() ? "" : staffNamesShort[0].name();
}
Text* newName = new Text(_score);
newName->setXmlText(staffName);
newName->setParent(parent);
newName->setTrack(e->track());
newName->setColor(color);
newName->textStyle().setFamily("FreeSans");
newName->textStyle().setSizeIsSpatiumDependent(true);
newName->layout();
newName->setPlainText(newName->plainText());
newName->layout();
if (currentStaff->part()->staff(0) == currentStaff) {
double _spatium = _score->spatium();
pos = QPointF (_score->styleP(StyleIdx::clefLeftMargin) + _widthClef, -_spatium * 2);
painter.translate(pos);
newName->draw(&painter);
painter.translate(-pos);
}
delete newName;
qreal posX = 0.0;
// Draw the current Clef
Clef clef(_score);
clef.setClefType(currentStaff->clef(tick));
clef.setParent(parent);
clef.setTrack(e->track());
clef.setColor(color);
clef.layout();
posX += _score->styleP(StyleIdx::clefLeftMargin);
clef.drawAt(&painter, QPointF(posX, clef.pos().y()));
posX += _widthClef;
// Draw the current KeySignature
KeySig newKs(_score);
newKs.setKeySigEvent(currentStaff->keySigEvent(tick));
// The Parent and the track must be set to have the key signature layout adjusted to different clefs
// This also adds naturals to the key signature (if set in the score style)
newKs.setParent(parent);
newKs.setTrack(e->track());
newKs.setColor(color);
newKs.setHideNaturals(true);
newKs.layout();
posX += _score->styleP(StyleIdx::keysigLeftMargin);
newKs.drawAt(&painter, QPointF(posX, 0.0));
posX += _widthKeySig + _xPosTimeSig;
// Draw the current TimeSignature
TimeSig newTs(_score);
// Try to get local time signature, if not, get the current measure one
TimeSig* currentTimeSig = currentStaff->timeSig(tick);
if (currentTimeSig) {
newTs.setFrom(currentTimeSig);
newTs.setParent(parent);
newTs.setTrack(e->track());
newTs.setColor(color);
newTs.layout();
posX += _score->styleP(StyleIdx::timesigLeftMargin);
newTs.drawAt(&painter, QPointF(posX, 0.0));
}
painter.restore();
}
}
painter.restore();
_visible = true;
}
void System::layout2()
{
VBox* b = vbox();
if (b) {
b->layout();
setbbox(b->bbox());
return;
}
setPos(0.0, 0.0);
QList<std::pair<int,SysStaff*>> visibleStaves;
int firstStaffIdx = -1;
int lastStaffIdx = 0;
int firstStaffInitialIdx = -1;
int lastStaffInitialIdx = 0;
Measure* fm = firstMeasure();
for (int i = 0; i < _staves.size(); ++i) {
Staff* s = score()->staff(i);
SysStaff* ss = _staves[i];
if (s->show() && ss->show()) {
visibleStaves.append(std::pair<int,SysStaff*>(i, ss));
if (firstStaffIdx == -1)
firstStaffIdx = i;
if (i > lastStaffIdx)
lastStaffIdx = i;
if (fm && fm->visible(i)) {
if (firstStaffInitialIdx == -1)
firstStaffInitialIdx = i;
lastStaffInitialIdx = i;
}
}
else {
ss->setbbox(QRectF()); // already done in layout() ?
}
}
if (firstStaffIdx == -1)
firstStaffIdx = 0;
if (firstStaffInitialIdx == -1)
firstStaffInitialIdx = 0;
qreal _spatium = spatium();
qreal y = 0.0;
qreal minVerticalDistance = score()->styleP(StyleIdx::minVerticalDistance);
qreal staffDistance = score()->styleP(StyleIdx::staffDistance);
qreal akkoladeDistance = score()->styleP(StyleIdx::akkoladeDistance);
if (visibleStaves.empty()) {
qDebug("====no visible staves, staves %d, score staves %d", _staves.size(), score()->nstaves());
}
for (auto i = visibleStaves.begin();; ++i) {
SysStaff* ss = i->second;
int si1 = i->first;
Staff* staff = score()->staff(si1);
auto ni = i + 1;
qreal h = staff->height();
if (ni == visibleStaves.end()) {
ss->setYOff(staff->lines() == 1 ? _spatium * staff->mag() : 0.0);
ss->bbox().setRect(_leftMargin, y, width() - _leftMargin, h);
break;
}
int si2 = ni->first;
qreal dist = h;
switch (staff->innerBracket()) {
case BracketType::BRACE:
dist += akkoladeDistance;
break;
case BracketType::NORMAL:
case BracketType::SQUARE:
case BracketType::LINE:
case BracketType::NO_BRACKET:
dist += staffDistance;
break;
}
dist += score()->staff(si2)->userDist();
for (MeasureBase* mb : ml) {
if (!mb->isMeasure())
continue;
Measure* m = toMeasure(mb);
Shape& s1 = m->staffShape(si1);
Shape& s2 = m->staffShape(si2);
qreal d = s1.minVerticalDistance(s2) + minVerticalDistance;
dist = qMax(dist, d);
Spacer* sp = m->mstaff(si1)->_vspacerDown;
if (sp) {
if (sp->spacerType() == SpacerType::FIXED) {
dist = staff->height() + sp->gap();
break;
}
else
dist = qMax(dist, staff->height() + sp->gap());
}
sp = m->mstaff(si2)->_vspacerUp;
if (sp)
dist = qMax(dist, sp->gap());
}
ss->setYOff(staff->lines() == 1 ? _spatium * staff->mag() : 0.0);
ss->bbox().setRect(_leftMargin, y, width() - _leftMargin, h);
y += dist;
}
qreal systemHeight = staff(lastStaffIdx)->bbox().bottom();
setHeight(systemHeight);
for (MeasureBase* m : ml) {
if (m->isMeasure()) {
// note that the factor 2 * _spatium must be corrected for when exporting
// system distance in MusicXML (issue #24733)
m->bbox().setRect(0.0, -_spatium, m->width(), systemHeight + 2.0 * _spatium);
}
else if (m->isHBox()) {
m->bbox().setRect(0.0, 0.0, m->width(), systemHeight);
toHBox(m)->layout2();
}
else if (m->isTBox()) {
// m->bbox().setRect(0.0, 0.0, m->width(), systemHeight);
toTBox(m)->layout();
}
else
qDebug("unhandled measure type %s", m->name());
}
if (fm) {
Segment* s = fm->first();
BarLine* _barLine = s->isBeginBarLineType() ? toBarLine(s->element(0)) : 0;
if (_barLine) {
_barLine->setTrack(firstStaffInitialIdx * VOICES);
_barLine->setSpan(lastStaffInitialIdx - firstStaffInitialIdx + 1);
if (score()->staff(firstStaffInitialIdx)->lines() == 1)
_barLine->setSpanFrom(BARLINE_SPAN_1LINESTAFF_FROM);
else
_barLine->setSpanFrom(0);
int llines = score()->staff(lastStaffInitialIdx)->lines();
int spanTo = llines == 1 ? BARLINE_SPAN_1LINESTAFF_TO : (llines - 1) * 2;
_barLine->setSpanTo(spanTo);
_barLine->layout();
}
}
//---------------------------------------------------
// layout brackets vertical position
//---------------------------------------------------
for (Bracket* b : _brackets) {
int staffIdx1 = b->firstStaff();
int staffIdx2 = b->lastStaff();
qreal sy = 0; // assume bracket not visible
qreal ey = 0;
// if start staff not visible, try next staff
while (staffIdx1 <= staffIdx2 && !_staves[staffIdx1]->show())
++staffIdx1;
// if end staff not visible, try prev staff
while (staffIdx1 <= staffIdx2 && !_staves[staffIdx2]->show())
--staffIdx2;
// the bracket will be shown IF:
// it spans at least 2 visible staves (staffIdx1 < staffIdx2) OR
// it spans just one visible staff (staffIdx1 == staffIdx2) but it is required to do so
// (the second case happens at least when the bracket is initially dropped)
bool notHidden = (staffIdx1 < staffIdx2) || (b->span() == 1 && staffIdx1 == staffIdx2);
if (notHidden) { // set vert. pos. and height to visible spanned staves
sy = _staves[staffIdx1]->bbox().top();
ey = _staves[staffIdx2]->bbox().bottom();
}
b->rypos() = sy;
// if (score()->staff(firstStaffInitialIdx)->lines() == 1) // bbox of one line staff bad?
// b->rypos() -= _spatium;
b->setHeight(ey - sy);
b->layout();
}
//---------------------------------------------------
// layout instrument names
//---------------------------------------------------
int staffIdx = 0;
for (Part* p : score()->parts()) {
SysStaff* s = staff(staffIdx);
SysStaff* s2;
int nstaves = p->nstaves();
if (s->show()) {
for (InstrumentName* t : s->instrumentNames) {
//
// override Text->layout()
//
qreal y1, y2;
switch (t->layoutPos()) {
default:
case 0: // center at part
y1 = s->bbox().top();
s2 = staff(staffIdx);
for (int i = staffIdx + nstaves - 1; i > 0; --i) {
SysStaff* s = staff(i);
if (s->show()) {
s2 = s;
break;
}
}
y2 = s2->bbox().bottom();
break;
case 1: // center at first staff
y1 = s->bbox().top();
y2 = s->bbox().bottom();
break;
// TODO:
// sort out invisible staves
case 2: // center between first and second staff
y1 = s->bbox().top();
y2 = staff(staffIdx + 1)->bbox().bottom();
break;
case 3: // center at second staff
y1 = staff(staffIdx + 1)->bbox().top();
y2 = staff(staffIdx + 1)->bbox().bottom();
break;
case 4: // center between first and second staff
y1 = staff(staffIdx + 1)->bbox().top();
y2 = staff(staffIdx + 2)->bbox().bottom();
break;
case 5: // center at third staff
y1 = staff(staffIdx + 2)->bbox().top();
y2 = staff(staffIdx + 2)->bbox().bottom();
break;
}
t->rypos() = y1 + (y2 - y1) * .5 + t->textStyle().offset(t->spatium()).y();
}
}
staffIdx += nstaves;
}
}
Measure* Articulation::measure() const
{
Segment* s = segment();
return toMeasure(s ? s->parent() : 0);
}
Measure* Fermata::measure() const
{
Segment* s = segment();
return toMeasure(s ? s->parent() : 0);
}
