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MuseScore/libmscore/edit.cpp

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//=============================================================================
// MuseScore
// Music Composition & Notation
//
// Copyright (C) 2002-2012 Werner Schweer
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License version 2
// as published by the Free Software Foundation and appearing in
// the file LICENCE.GPL
//=============================================================================
#include "note.h"
#include "rest.h"
#include "chord.h"
#include "key.h"
#include "sig.h"
#include "clef.h"
#include "score.h"
#include "slur.h"
#include "tie.h"
#include "hairpin.h"
#include "segment.h"
#include "staff.h"
#include "part.h"
#include "timesig.h"
#include "page.h"
#include "barline.h"
#include "tuplet.h"
#include "lyrics.h"
#include "image.h"
#include "keysig.h"
#include "beam.h"
#include "utils.h"
#include "harmony.h"
#include "system.h"
#include "navigate.h"
#include "articulation.h"
#include "drumset.h"
#include "measure.h"
#include "undo.h"
#include "tupletmap.h"
#include "tiemap.h"
#include "stem.h"
#include "iname.h"
#include "range.h"
#include "hook.h"
#include "repeat.h"
#include "textframe.h"
#include "accidental.h"
namespace Ms {
//---------------------------------------------------------
// getSelectedNote
//---------------------------------------------------------
Note* Score::getSelectedNote()
{
Element* el = selection().element();
if (el && el->isNote())
return toNote(el);
MScore::setError(NO_NOTE_SELECTED);
return 0;
}
//---------------------------------------------------------
// getSelectedChordRest
//---------------------------------------------------------
ChordRest* Score::getSelectedChordRest() const
{
Element* el = selection().element();
if (el) {
if (el->isNote())
return toNote(el)->chord();
else if (el->isRest() || el->isRepeatMeasure())
return toRest(el);
else if (el->isChord())
return toChord(el);
}
MScore::setError(NO_NOTE_REST_SELECTED);
return 0;
}
//---------------------------------------------------------
// getSelectedChordRest2
//---------------------------------------------------------
void Score::getSelectedChordRest2(ChordRest** cr1, ChordRest** cr2) const
{
*cr1 = 0;
*cr2 = 0;
foreach(Element* e, selection().elements()) {
if (e->isNote())
e = e->parent();
if (e->isChordRest()) {
ChordRest* cr = toChordRest(e);
if (*cr1 == 0 || (*cr1)->tick() > cr->tick())
*cr1 = cr;
if (*cr2 == 0 || (*cr2)->tick() < cr->tick())
*cr2 = cr;
}
}
if (*cr1 == 0)
MScore::setError(NO_NOTE_REST_SELECTED);
if (*cr1 == *cr2)
*cr2 = 0;
}
//---------------------------------------------------------
// pos
//---------------------------------------------------------
int Score::pos()
{
Element* el = selection().element();
if (selection().activeCR())
el = selection().activeCR();
if (el) {
switch (el->type()) {
case ElementType::NOTE:
el = el->parent();
// fall through
case ElementType::REPEAT_MEASURE:
case ElementType::REST:
case ElementType::CHORD:
return toChordRest(el)->tick();
default:
break;
}
}
return -1;
}
//---------------------------------------------------------
// addRest
// create one Rest at tick with duration d
// create segment if necessary
//---------------------------------------------------------
Rest* Score::addRest(int tick, int track, TDuration d, Tuplet* tuplet)
{
Measure* measure = tick2measure(tick);
Rest* rest = new Rest(this, d);
if (d.type() == TDuration::DurationType::V_MEASURE)
rest->setDuration(measure->stretchedLen(staff(track/VOICES)));
else
rest->setDuration(d.fraction());
rest->setTrack(track);
rest->setTuplet(tuplet);
undoAddCR(rest, measure, tick);
return rest;
}
//---------------------------------------------------------
// addRest
//---------------------------------------------------------
Rest* Score::addRest(Segment* s, int track, TDuration d, Tuplet* tuplet)
{
Rest* rest = new Rest(this, d);
if (d.type() == TDuration::DurationType::V_MEASURE)
rest->setDuration(s->measure()->stretchedLen(staff(track/VOICES)));
else
rest->setDuration(d.fraction());
rest->setTrack(track);
rest->setParent(s);
rest->setTuplet(tuplet);
undoAddCR(rest, tick2measure(s->tick()), s->tick());
return rest;
}
//---------------------------------------------------------
// addChord
// Create one Chord at tick with duration d
// - create segment if necessary.
// - Use chord "oc" as prototype;
// - if "genTie" then tie to chord "oc"
//---------------------------------------------------------
Chord* Score::addChord(int tick, TDuration d, Chord* oc, bool genTie, Tuplet* tuplet)
{
Measure* measure = tick2measure(tick);
if (measure->endTick() <= tick) {
qDebug("Score::addChord(): end of score?");
return 0;
}
Chord* chord = new Chord(this);
chord->setTuplet(tuplet);
chord->setTrack(oc->track());
chord->setDurationType(d);
chord->setDuration(d.fraction());
foreach(Note* n, oc->notes()) {
Note* nn = new Note(this);
nn->setPitch(n->pitch());
nn->setTpc1(n->tpc1());
nn->setTpc2(n->tpc2());
chord->add(nn);
}
undoAddCR(chord, measure, tick);
//
// now as both chords are in place
// (have segments as parent) we can add ties:
//
if (genTie) {
int n = oc->notes().size();
for(int i = 0; i < n; ++i) {
Note* n = oc->notes()[i];
Note* nn = chord->notes()[i];
Tie* tie = new Tie(this);
tie->setStartNote(n);
tie->setEndNote(nn);
tie->setTrack(n->track());
undoAddElement(tie);
}
}
return chord;
}
//---------------------------------------------------------
// addClone
//---------------------------------------------------------
ChordRest* Score::addClone(ChordRest* cr, int tick, const TDuration& d)
{
ChordRest* newcr;
// change a RepeatMeasure() into an Rest()
if (cr->isRepeatMeasure())
newcr = new Rest(*toRest(cr));
else
newcr = toChordRest(cr->clone());
newcr->rxpos() = 0.0;
newcr->setDurationType(d);
newcr->setDuration(d.fraction());
newcr->setTuplet(cr->tuplet());
newcr->setSelected(false);
undoAddCR(newcr, cr->measure(), tick);
return newcr;
}
//---------------------------------------------------------
// setRest
// create one or more rests to fill "l"
//---------------------------------------------------------
Rest* Score::setRest(int tick, int track, Fraction l, bool useDots, Tuplet* tuplet, bool useFullMeasureRest)
{
Measure* measure = tick2measure(tick);
Rest* r = 0;
Staff* staff = Score::staff(track / VOICES);
while (!l.isZero()) {
//
// divide into measures
//
Fraction f;
if (tuplet) {
int ticks = (tuplet->tick() + tuplet->actualTicks()) - tick;
f = Fraction::fromTicks(ticks);
for (Tuplet* t = tuplet; t; t = t->tuplet())
f *= t->ratio();
//
// restrict to tuplet len
//
if (f < l)
l = f;
}
else if (measure->tick() < tick)
f = Fraction::fromTicks(measure->tick() + measure->ticks() - tick);
else
f = measure->len();
f *= staff->timeStretch(tick);
f.reduce();
if (f > l)
f = l;
if ((track % VOICES) && !measure->hasVoice(track) && (tick == measure->tick())) {
l -= f;
measure = measure->nextMeasure();
if (!measure)
break;
tick = measure->tick();
continue;
}
if ((measure->timesig() == measure->len()) // not in pickup measure
&& (measure->tick() == tick)
&& (measure->stretchedLen(staff) == f)
&& !tuplet
&& (useFullMeasureRest)) {
Rest* rest = addRest(tick, track, TDuration(TDuration::DurationType::V_MEASURE), tuplet);
tick += rest->actualTicks();
if (r == 0)
r = rest;
}
else {
//
// compute list of durations which will fit l
//
std::vector<TDuration> dList = toDurationList(f, useDots);
if (dList.empty())
return 0;
Rest* rest = 0;
if (((tick - measure->tick()) % dList[0].ticks()) == 0) {
for (const TDuration& d : dList) {
rest = addRest(tick, track, d, tuplet);
if (r == 0)
r = rest;
tick += rest->actualTicks();
}
}
else {
for (int i = dList.size() - 1; i >= 0; --i) {
rest = addRest(tick, track, dList[i], tuplet);
if (r == 0)
r = rest;
tick += rest->actualTicks();
}
}
}
l -= f;
measure = measure->nextMeasure();
if (!measure)
break;
tick = measure->tick();
}
return r;
}
//---------------------------------------------------------
// addNote from NoteVal
//---------------------------------------------------------
Note* Score::addNote(Chord* chord, NoteVal& noteVal)
{
Note* note = new Note(this);
note->setParent(chord);
note->setTrack(chord->track());
note->setNval(noteVal);
undoAddElement(note);
setPlayNote(true);
setPlayChord(true);
select(note, SelectType::SINGLE, 0);
if (!chord->staff()->isTabStaff(chord->tick())) {
NoteEntryMethod entryMethod = _is.noteEntryMethod();
if (entryMethod != NoteEntryMethod::REALTIME_AUTO && entryMethod != NoteEntryMethod::REALTIME_MANUAL)
_is.moveToNextInputPos();
}
return note;
}
//---------------------------------------------------------
// rewriteMeasures
// rewrite all measures from fm to lm (including)
// If staffIdx is valid (>= 0), then rewrite a local
// timesig change.
//---------------------------------------------------------
bool Score::rewriteMeasures(Measure* fm, Measure* lm, const Fraction& ns, int staffIdx)
{
if (staffIdx >= 0) {
// local timesig
// don't actually rewrite, just update measure rest durations
// abort if there is anything other than measure rests in range
int strack = staffIdx * VOICES;
int etrack = strack + VOICES;
for (Measure* m = fm; ; m = m->nextMeasure()) {
for (Segment* s = m->first(Segment::Type::ChordRest); s; s = s->next(Segment::Type::ChordRest)) {
for (int track = strack; track < etrack; ++track) {
ChordRest* cr = toChordRest(s->element(track));
if (!cr)
continue;
if (cr->isRest() && cr->durationType() == TDuration::DurationType::V_MEASURE)
cr->undoChangeProperty(P_ID::DURATION, QVariant::fromValue(ns));
else
return false;
}
}
if (m == lm)
break;
}
return true;
}
int measures = 1;
bool fmr = true;
for (Measure* m = fm; m; m = m->nextMeasure()) {
if (!m->isFullMeasureRest())
fmr = false;
if (m == lm)
break;
++measures;
}
if (!fmr) {
// check for local time signatures
for (Measure* m = fm; m; m = m -> nextMeasure()) {
for (int staffIdx = 0; staffIdx < nstaves(); ++staffIdx) {
if (staff(staffIdx)->timeStretch(m->tick()) != Fraction(1,1)) {
// we cannot change a staff with a local time signature
return false;
}
if (m == lm)
break;
}
}
}
ScoreRange range;
range.read(fm->first(), lm->last());
//
// calculate number of required measures = nm
//
Fraction k = range.duration() / ns;
int nm = (k.numerator() + k.denominator() - 1)/ k.denominator();
Fraction nd(nm * ns.numerator(), ns.denominator()); // total new duration
// evtl. we have to fill the last measure
Fraction fill = nd - range.duration();
range.fill(fill);
for (Score* s : scoreList()) {
Measure* m1 = s->tick2measure(fm->tick());
Measure* m2 = s->tick2measure(lm->tick());
int tick1 = m1->tick();
int tick2 = m2->endTick();
auto spanners = s->spannerMap().findContained(tick1, tick2);
for (auto i : spanners)
undo(new RemoveElement(i.value));
s->undoRemoveMeasures(m1, m2);
Measure* nfm = 0;
Measure* nlm = 0;
int tick = 0;
// bool endBarGenerated = m1->endBarLineGenerated();
for (int i = 0; i < nm; ++i) {
Measure* m = new Measure(s);
m->setPrev(nlm);
if (nlm)
nlm->setNext(m);
m->setTimesig(ns);
m->setLen(ns);
m->setTick(tick);
// m->setEndBarLineType(BarLineType::NORMAL, endBarGenerated);
tick += m->ticks();
nlm = m;
if (nfm == 0)
nfm = m;
}
// nlm->setEndBarLineType(m2->endBarLineType(), m2->endBarLineGenerated(),
// m2->endBarLineVisible(), m2->endBarLineColor());
//
// insert new calculated measures
//
nfm->setPrev(m1->prev());
nlm->setNext(m2->next());
s->undo(new InsertMeasures(nfm, nlm));
}
if (!fill.isZero())
undoInsertTime(lm->endTick(), fill.ticks());
if (!range.write(masterScore(), fm->tick()))
return false;
connectTies(true);
if (noteEntryMode()) {
// set input cursor to possibly re-written segment
int icTick = inputPos();
Segment* icSegment = tick2segment(icTick, false, Segment::Type::ChordRest);
if (!icSegment) {
// this can happen if cursor was on a rest
// and in the rewriting it got subsumed into a full measure rest
Measure* icMeasure = tick2measure(icTick);
if (!icMeasure) // shouldn't happen, but just in case
icMeasure = firstMeasure();
icSegment = icMeasure->first(Segment::Type::ChordRest);
}
inputState().setSegment(icSegment);
}
return true;
}
//---------------------------------------------------------
// rewriteMeasures
// rewrite all measures up to the next time signature or section break
//---------------------------------------------------------
bool Score::rewriteMeasures(Measure* fm, const Fraction& ns, int staffIdx)
{
Measure* lm = fm;
Measure* fm1 = fm;
Measure* nm = nullptr;
LayoutBreak* sectionBreak = nullptr;
// disable local time sig modifications in linked staves
if (staffIdx != -1 && excerpts().size() > 0) {
MScore::setError(CANNOT_CHANGE_LOCAL_TIMESIG);
return false;
}
//
// split into Measure segments fm-lm
//
for (MeasureBase* m = fm; ; m = m->next()) {
if (!m || !m->isMeasure() || lm->sectionBreak()
|| (toMeasure(m)->first(Segment::Type::TimeSig) && m != fm))
{
// save section break to reinstate after rewrite
if (lm->sectionBreak())
sectionBreak = new LayoutBreak(*lm->sectionBreakElement());
if (!rewriteMeasures(fm1, lm, ns, staffIdx)) {
if (staffIdx >= 0) {
MScore::setError(CANNOT_CHANGE_LOCAL_TIMESIG);
// restore measure rests that were prematurely modified
Fraction fr(staff(staffIdx)->timeSig(fm->tick())->sig());
for (Measure* m = fm1; m; m = m->nextMeasure()) {
ChordRest* cr = m->findChordRest(m->tick(), staffIdx * VOICES);
if (cr && cr->isRest() && cr->durationType() == TDuration::DurationType::V_MEASURE)
cr->undoChangeProperty(P_ID::DURATION, QVariant::fromValue(fr));
else
break;
}
}
else {
// this can be hit for local time signatures as well
// (if we are rewriting all staves, but one has a local time signature)
// TODO: detect error conditions better, have clearer error messages
// and perform necessary fixups
MScore::setError(TUPLET_CROSSES_BAR);
}
for (Measure* m = fm1; m; m = m->nextMeasure()) {
if (m->first(Segment::Type::TimeSig))
break;
Fraction fr(ns);
undoChangeProperty(m, P_ID::TIMESIG_NOMINAL, QVariant::fromValue(fr));
}
return false;
}
// after rewrite, lm is not necessarily valid
// m is first MeasureBase after rewritten range
// m->prevMeasure () is new last measure of range
// set nm to first true Measure after rewritten range
// we may use this to reinstate time signatures
if (m && m->prevMeasure())
nm = m->prevMeasure()->nextMeasure();
else
nm = nullptr;
if (sectionBreak) {
// reinstate section break, then stop rewriting
if (m && m->prevMeasure()) {
sectionBreak->setParent(m->prevMeasure());
undoAddElement(sectionBreak);
}
else if (!m) {
sectionBreak->setParent(lastMeasure());
undoAddElement(sectionBreak);
}
else {
qDebug("unable to restore section break");
nm = nullptr;
sectionBreak = nullptr;
}
break;
}
// stop rewriting at end of score
// or at a measure (which means we found a time signature segment)
if (!m || m->isMeasure())
break;
// skip frames
while (!m->isMeasure()) {
if (m->sectionBreak()) {
// frame has a section break; we can stop skipping ahead
sectionBreak = m->sectionBreakElement();
break;
}
m = m->next();
if (!m)
break;
}
// stop rewriting if we encountered a section break on a frame
// or if there is a time signature on first measure after the frame
if (sectionBreak || (m && toMeasure(m)->first(Segment::Type::TimeSig)))
break;
// set up for next range to rewrite
fm1 = toMeasure(m);
if (fm1 == 0)
break;
}
// if we didn't break the loop already,
// we must have an ordinary measure
// add measure to range to rewrite
lm = toMeasure(m);
}
// if any staves don't have time signatures at the point where we stopped,
// we need to reinstate their previous time signatures
if (!nm)
return true;
Segment* s = nm->undoGetSegment(Segment::Type::TimeSig, nm->tick());
for (int i = 0; i < nstaves(); ++i) {
if (!s->element(i * VOICES)) {
TimeSig* ots = staff(i)->timeSig(nm->tick());
if (ots) {
TimeSig* nts = new TimeSig(*ots);
nts->setParent(s);
if (sectionBreak) {
nts->setGenerated(false);
nts->setShowCourtesySig(false);
}
undoAddElement(nts);
}
}
}
return true;
}
//---------------------------------------------------------
// cmdAddTimeSig
//
// Add or change time signature at measure in response
// to gui command (drop timesig on measure or timesig)
//---------------------------------------------------------
void Score::cmdAddTimeSig(Measure* fm, int staffIdx, TimeSig* ts, bool local)
{
deselectAll();
Fraction ns = ts->sig();
int tick = fm->tick();
TimeSig* lts = staff(staffIdx)->timeSig(tick);
if (local) {
Fraction stretch = (ns / fm->timesig()).reduced();
ts->setStretch(stretch);
}
Fraction stretch;
Fraction lsig; // last signature
if (lts) {
stretch = lts->stretch();
lsig = lts->sig();
}
else {
stretch.set(1,1);
lsig.set(4,4); // set to default
}
int track = staffIdx * VOICES;
Segment* seg = fm->undoGetSegment(Segment::Type::TimeSig, tick);
TimeSig* ots = toTimeSig(seg->element(track));
if (ots && (*ots == *ts)) {
//
// ignore if there is already a timesig
// with same values
//
delete ts;
return;
}
if (ots && ots->sig().identical(ns) && ots->stretch() == ts->stretch()) {
ots->undoChangeProperty(P_ID::TIMESIG, QVariant::fromValue(ns));
ots->undoChangeProperty(P_ID::GROUPS, QVariant::fromValue(ts->groups()));
if (ts->hasCustomText()) {
ots->undoChangeProperty(P_ID::NUMERATOR_STRING, ts->numeratorString());
ots->undoChangeProperty(P_ID::DENOMINATOR_STRING, ts->denominatorString());
}
foreach (Score* score, scoreList()) {
Measure* fm = score->tick2measure(tick);
for (Measure* m = fm; m; m = m->nextMeasure()) {
if ((m != fm) && m->first(Segment::Type::TimeSig))
break;
bool changeActual = m->len() == m->timesig();
undoChangeProperty(m, P_ID::TIMESIG_NOMINAL, QVariant::fromValue(ns));
if (changeActual)
undoChangeProperty(m, P_ID::TIMESIG_ACTUAL, QVariant::fromValue(ns));
// undoChangeProperty(ots, P_ID::GROUPS, QVariant::fromValue(ts->groups()));
}
}
int n = nstaves();
for (int staffIdx = 0; staffIdx < n; ++staffIdx) {
TimeSig* nsig = toTimeSig(seg->element(staffIdx * VOICES));
undoChangeProperty(nsig, P_ID::TIMESIG_TYPE, int(ts->timeSigType()));
if (ts->hasCustomText()) {
nsig->undoChangeProperty(P_ID::NUMERATOR_STRING, ts->numeratorString());
nsig->undoChangeProperty(P_ID::DENOMINATOR_STRING, ts->denominatorString());
}
}
}
else {
Score* score = masterScore();
Measure* fm = score->tick2measure(tick);
//
// rewrite all measures up to the next time signature
//
if (fm == score->firstMeasure() && (fm->len() != fm->timesig())) {
// handle upbeat
undoChangeProperty(fm, P_ID::TIMESIG_NOMINAL, QVariant::fromValue(ns));
Measure* m = fm->nextMeasure();
Segment* s = m->findSegment(Segment::Type::TimeSig, m->tick());
fm = s ? 0 : fm->nextMeasure();
}
else {
if (sigmap()->timesig(seg->tick()).nominal().identical(ns)) {
// no change to global time signature,
// but we need to rewrite any staves with local time signatures
for (int i = 0; i < nstaves(); ++i) {
if (staff(i)->timeSig(tick) && staff(i)->timeSig(tick)->isLocal()) {
if (!score->rewriteMeasures(fm, ns, i)) {
undoStack()->current()->unwind();
return;
}
}
}
fm = 0;
}
}
// try to rewrite the measures first
// we will only add time signatures if this succeeds
// this means, however, that the rewrite cannot depend on the time signatures being in place
if (fm) {
if (!score->rewriteMeasures(fm, ns, local ? staffIdx : -1)) {
undoStack()->current()->unwind();
return;
}
}
// add the time signatures
foreach (Score* score, scoreList()) {
Measure* nfm = score->tick2measure(tick);
seg = nfm->undoGetSegment(Segment::Type::TimeSig, nfm->tick());
int startStaffIdx, endStaffIdx;
if (local) {
if (score == this) {
startStaffIdx = staffIdx;
endStaffIdx = startStaffIdx + 1;
}
else {
// TODO: get index for this score
qDebug("cmdAddTimeSig: unable to write local time signature change to linked score");
startStaffIdx = 0;
endStaffIdx = 0;
}
}
else {
startStaffIdx = 0;
endStaffIdx = score->nstaves();
}
for (int staffIdx = startStaffIdx; staffIdx < endStaffIdx; ++staffIdx) {
TimeSig* nsig = toTimeSig(seg->element(staffIdx * VOICES));
if (nsig == 0) {
nsig = new TimeSig(*ts);
nsig->setScore(score);
nsig->setTrack(staffIdx * VOICES);
nsig->setParent(seg);
nsig->setNeedLayout(true);
undoAddElement(nsig);
}
else {
nsig->undoChangeProperty(P_ID::SHOW_COURTESY, ts->showCourtesySig());
nsig->undoChangeProperty(P_ID::TIMESIG_TYPE, int(ts->timeSigType()));
nsig->undoChangeProperty(P_ID::TIMESIG, QVariant::fromValue(ts->sig()));
if (ts->hasCustomText()) {
nsig->undoChangeProperty(P_ID::NUMERATOR_STRING, ts->numeratorString());
nsig->undoChangeProperty(P_ID::DENOMINATOR_STRING, ts->denominatorString());
}
// HACK do it twice to accommodate undo
nsig->undoChangeProperty(P_ID::TIMESIG_TYPE, int(ts->timeSigType()));
nsig->undoChangeProperty(P_ID::TIMESIG_STRETCH, QVariant::fromValue(ts->stretch()));
nsig->undoChangeProperty(P_ID::GROUPS, QVariant::fromValue(ts->groups()));
nsig->setSelected(false);
nsig->setDropTarget(0); // DEBUG
}
}
}
}
delete ts;
}
//---------------------------------------------------------
// cmdRemoveTimeSig
//---------------------------------------------------------
void Score::cmdRemoveTimeSig(TimeSig* ts)
{
if (ts->isLocal() && excerpts().size() > 0) {
MScore::setError(CANNOT_CHANGE_LOCAL_TIMESIG);
return;
}
Measure* m = ts->measure();
Segment* s = ts->segment();
//
// we cannot remove a courtesy time signature
//
if (m->tick() != s->tick())
return;
int tick = m->tick();
// if we remove all time sigs from segment, segment will be already removed by now
// but this would leave us no means of detecting that we have have measures in a local timesig
// in cases where we try deleting the local time sig
// known bug: this means we do not correctly detect non-empty measures when deleting global timesig change after a local one
// see http://musescore.org/en/node/51596
undoRemoveElement(s);
Measure* pm = m->prevMeasure();
Fraction ns(pm ? pm->timesig() : Fraction(4,4));
if (!rewriteMeasures(m, ns, -1)) {
undoStack()->current()->unwind();
}
else {
m = tick2measure(tick); // old m may have been replaced
// hack: fix measure rest durations for staves with local time signatures
// if a time signature was deleted to reveal a previous local one,
// then rewriteMeasures() got the measure rest durations wrong
// (if we fixed it to work for delete, it would fail for add)
// so we will fix measure rest durations here
// TODO: fix rewriteMeasures() to get this right
for (int i = 0; i < nstaves(); ++i) {
TimeSig* ts = staff(i)->timeSig(tick);
if (ts && ts->isLocal()) {
for (Measure* nm = m; nm; nm = nm->nextMeasure()) {
// stop when time signature changes
if (staff(i)->timeSig(nm->tick()) != ts)
break;
// fix measure rest duration
ChordRest* cr = nm->findChordRest(nm->tick(), i * VOICES);
if (cr && cr->isRest() && cr->durationType() == TDuration::DurationType::V_MEASURE)
cr->undoChangeProperty(P_ID::DURATION, QVariant::fromValue(nm->stretchedLen(staff(i))));
//cr->setDuration(nm->stretchedLen(staff(i)));
}
}
}
}
}
//---------------------------------------------------------
// addTiedMidiPitch
//---------------------------------------------------------
Note* Score::addTiedMidiPitch(int pitch, bool addFlag, Chord* prevChord)
{
Note* n = addMidiPitch(pitch, addFlag);
if (prevChord) {
Note* nn = prevChord->findNote(n->pitch());
if (nn) {
Tie* tie = new Tie(this);
tie->setStartNote(nn);
tie->setEndNote(n);
tie->setTrack(n->track());
n->setTieBack(tie);
nn->setTieFor(tie);
undoAddElement(tie);
}
}
return n;
}
//---------------------------------------------------------
// addMidiPitch
//---------------------------------------------------------
Note* Score::addMidiPitch(int pitch, bool addFlag)
{
NoteVal nval(pitch);
Staff* st = staff(inputState().track() / VOICES);
// if transposing, interpret MIDI pitch as representing desired written pitch
// set pitch based on corresponding sounding pitch
if (!styleB(StyleIdx::concertPitch))
nval.pitch += st->part()->instrument(inputState().tick())->transpose().chromatic;
// let addPitch calculate tpc values from pitch
//Key key = st->key(inputState().tick());
//nval.tpc1 = pitch2tpc(nval.pitch, key, Prefer::NEAREST);
return addPitch(nval, addFlag);
}
//---------------------------------------------------------
// searchNote
// search for note or rest before or at tick position tick
// in staff
//---------------------------------------------------------
ChordRest* Score::searchNote(int tick, int track) const
{
ChordRest* ipe = 0;
Segment::Type st = Segment::Type::ChordRest;
for (Segment* segment = firstSegment(st); segment; segment = segment->next1(st)) {
ChordRest* cr = segment->cr(track);
if (!cr)
continue;
if (cr->tick() == tick)
return cr;
if (cr->tick() > tick)
return ipe ? ipe : cr;
ipe = cr;
}
return 0;
}
//---------------------------------------------------------
// regroupNotesAndRests
// * combine consecutive rests into fewer rests of longer duration.
// * combine tied notes/chords into fewer notes of longer duration.
// Only operates on one voice - protects manual layout adjustment, etc.
//---------------------------------------------------------
void Score::regroupNotesAndRests(int startTick, int endTick, int track)
{
Segment* inputSegment = _is.segment(); // store this so we can get back to it later.
Segment* seg = tick2segment(startTick, true, Segment::Type::ChordRest);
for (Measure* msr = seg->measure(); msr && msr->tick() < endTick; msr = msr->nextMeasure()) {
int maxTick = endTick > msr->endTick() ? msr->endTick() : endTick;
if (!seg || seg->measure() != msr)
seg = msr->first(Segment::Type::ChordRest);
for (; seg && seg->tick() + seg->ticks() < maxTick; seg = seg->next(Segment::Type::ChordRest)) {
ChordRest* curr = seg->cr(track);
if (!curr)
continue; // voice is empty here
if (curr->isRest()) {
// combine consecutive rests
ChordRest* lastRest = curr;
for (Segment* s = seg->next(Segment::Type::ChordRest); s && s->tick() + s->ticks() <= maxTick; s = s->next(Segment::Type::ChordRest)) {
ChordRest* cr = s->cr(track);
if (!cr || !cr->isRest())
break;
lastRest = cr;
}
int restTicks = lastRest->tick() + lastRest->duration().ticks() - curr->tick();
seg = setNoteRest(seg, curr->track(), NoteVal(), Fraction::fromTicks(restTicks), Direction::AUTO);
}
else {
// combine tied chords
Chord* chord = toChord(curr);
Chord* lastTiedChord = chord;
for (Chord* next = chord->nextTiedChord(); next && next->tick() + next->duration().ticks() <= maxTick; next = next->nextTiedChord()) {
lastTiedChord = next;
}
if (!lastTiedChord)
lastTiedChord = chord;
int numNotes = chord->notes().size();
int pitches[numNotes];
Tie* tieBack[numNotes];
Tie* tieFor[numNotes];
for (int i = 0; i < numNotes; i++) {
Note* n = chord->notes()[i];
Note* nn = lastTiedChord->notes()[i];
pitches[i] = n->pitch();
tieBack[i] = n->tieBack();
tieFor[i] = nn->tieFor();
n->setTieBack(0);
nn->setTieFor(0);
}
int noteTicks = lastTiedChord->tick() + lastTiedChord->duration().ticks() - chord->tick();
seg = setNoteRest(seg, curr->track(), NoteVal(pitches[0]), Fraction::fromTicks(noteTicks), Direction::AUTO);
Chord* newChord = toChord(seg->cr(track));
Note* n = newChord->notes().front();
undoRemoveElement(n);
for (int i = 0; i < numNotes; i++) {
NoteVal nval = NoteVal(pitches[i]);
n = addNote(newChord, nval);
if (tieBack[i]) {
n->setTieBack(tieBack[i]);
tieBack[i]->setEndNote(n);
}
if (tieFor[i]) {
n->setTieFor(tieFor[i]);
tieFor[i]->setStartNote(n);
}
}
}
}
}
// now put the input state back where it was before
_is.setSegment(inputSegment);
}
//---------------------------------------------------------
// cmdAddTie
//---------------------------------------------------------
void Score::cmdAddTie()
{
std::vector<Note*> noteList;
Element* el = selection().element();
if (el && el->isNote()) {
Note* n = toNote(el);
if (noteEntryMode())
noteList = n->chord()->notes();
else
noteList.push_back(n);
}
else if (el && el->isStem()) {
Chord* chord = toStem(el)->chord();
noteList = chord->notes();
}
else
noteList = selection().noteList();
if (noteList.empty()) {
qDebug("no notes selected");
return;
}
startCmd();
Chord* lastAddedChord = nullptr;
for (Note* note : noteList) {
if (note->tieFor()) {
qDebug("cmdAddTie: note %p has already tie? noteFor: %p", note, note->tieFor());
continue;
}
if (noteEntryMode()) {
// set cursor at position after note
_is.setSegment(note->chord()->segment());
_is.moveToNextInputPos();
_is.setLastSegment(_is.segment());
if (_is.cr() == 0)
expandVoice();
ChordRest* cr = _is.cr();
if (cr == 0)
break;
bool addFlag = lastAddedChord != nullptr;
// try to re-use existing note or chord
Note* n = nullptr;
if (cr->isChord()) {
Chord* c = toChord(cr);
Note* nn = c->findNote(note->pitch());
if (nn && nn->tpc() == note->tpc())
n = nn; // re-use note
else
addFlag = true; // re-use chord
}
// if no note to re-use, create one
NoteVal nval(note->noteVal());
if (!n)
n = addPitch(nval, addFlag);
else
select(n);
if (n) {
if (!lastAddedChord)
lastAddedChord = n->chord();
// n is not necessarily next note if duration span over measure
Note* nnote = searchTieNote(note);
while (nnote) {
// DEBUG: if duration spans over measure
// this does not set line for intermediate notes
// tpc was set correctly already
//n->setLine(note->line());
//n->setTpc(note->tpc());
Tie* tie = new Tie(this);
tie->setStartNote(note);
tie->setEndNote(nnote);
tie->setTrack(note->track());
undoAddElement(tie);
if (!addFlag || nnote->chord() == lastAddedChord) {
break;
}
else {
note = nnote;
_is.setLastSegment(_is.segment());
nnote = addPitch(nval, true);
}
}
}
}
else {
Note* note2 = searchTieNote(note);
#if 0
// this code appears to mostly duplicate searchTieNote()
// not clear if it served any additional purpose
// it might have before we supported extended ties?
Part* part = chord->part();
int strack = part->staves()->front()->idx() * VOICES;
int etrack = strack + part->staves()->size() * VOICES;
for (Segment* seg = chord->segment()->next1(Segment::Type::ChordRest); seg; seg = seg->next1(Segment::Type::ChordRest)) {
bool noteFound = false;
for (int track = strack; track < etrack; ++track) {
ChordRest* cr = toChordRest(seg->element(track));
if (cr == 0 || !cr->isChord())
continue;
int staffIdx = cr->staffIdx() + cr->staffMove();
if (staffIdx != chord->staffIdx() + chord->staffMove())
continue;
foreach(Note* n, toChord(cr)->notes()) {
if (n->pitch() == note->pitch()) {
if (note2 == 0 || note->chord()->track() == chord->track())
note2 = n;
}
// this may belong to *previous* if?
else if (cr->track() == chord->track())
noteFound = true;
}
}
if (noteFound || note2)
break;
}
#endif
if (note2) {
Tie* tie = new Tie(this);
tie->setStartNote(note);
tie->setEndNote(note2);
tie->setTrack(note->track());
undoAddElement(tie);
}
}
}
if (lastAddedChord)
nextInputPos(lastAddedChord, false);
endCmd();
}
//---------------------------------------------------------
// cmdAddOttava
//---------------------------------------------------------
void Score::cmdAddOttava(Ottava::Type type)
{
Selection sel = selection();
ChordRest* cr1;
ChordRest* cr2;
// add on each staff if possible
if (sel.isRange() && sel.staffStart() != sel.staffEnd() - 1) {
for (int staffIdx = sel.staffStart() ; staffIdx < sel.staffEnd(); ++staffIdx) {
ChordRest* cr1 = sel.firstChordRest(staffIdx * VOICES);
ChordRest* cr2 = sel.lastChordRest(staffIdx * VOICES);
if (!cr1)
continue;
if (cr2 == 0)
cr2 = cr1;
Ottava* ottava = new Ottava(this);
ottava->setOttavaType(type);
ottava->setTrack(cr1->track());
ottava->setTrack2(cr1->track());
ottava->setTick(cr1->tick());
ottava->setTick2(cr2->tick() + cr2->actualTicks());
undoAddElement(ottava);
}
}
else {
getSelectedChordRest2(&cr1, &cr2);
if (!cr1)
return;
if (cr2 == 0)
cr2 = cr1;
Ottava* ottava = new Ottava(this);
ottava->setOttavaType(type);
ottava->setTrack(cr1->track());
ottava->setTrack2(cr1->track());
ottava->setTick(cr1->tick());
ottava->setTick2(cr2->tick() + cr2->actualTicks());
undoAddElement(ottava);
if (!noteEntryMode())
select(ottava, SelectType::SINGLE, 0);
}
}
//---------------------------------------------------------
// cmdSetBeamMode
//---------------------------------------------------------
void Score::cmdSetBeamMode(Beam::Mode mode)
{
ChordRest* cr = getSelectedChordRest();
if (cr == 0)
return;
cr->setBeamMode(mode);
}
//---------------------------------------------------------
// cmdFlip
//---------------------------------------------------------
void Score::cmdFlip()
{
const QList<Element*>& el = selection().elements();
if (el.empty()) {
MScore::setError(NO_NOTE_SLUR_SELECTED);
return;
}
for (Element* e : el) {
if (e->isNote() || e->isStem() || e->isHook()) {
Chord* chord;
if (e->isNote())
chord = toNote(e)->chord();
else if (e->isStem())
chord = toStem(e)->chord();
else
chord = toHook(e)->chord();
if (chord->beam())
if (!selection().isRange())
e = chord->beam(); // fall through
else
continue;
else {
Direction dir = chord->up() ? Direction::DOWN : Direction::UP;
undoChangeProperty(chord, P_ID::STEM_DIRECTION, dir);
}
}
else if (e->isBeam()) {
Beam* beam = toBeam(e);
Direction dir = beam->up() ? Direction::DOWN : Direction::UP;
undoChangeProperty(beam, P_ID::STEM_DIRECTION, dir);
}
else if (e->isSlurTieSegment()) {
SlurTie* slur = toSlurTieSegment(e)->slurTie();
Direction dir = slur->up() ? Direction::DOWN : Direction::UP;
undoChangeProperty(slur, P_ID::SLUR_DIRECTION, dir);
}
else if (e->isHairpinSegment()) {
Hairpin* h = toHairpinSegment(e)->hairpin();
HairpinType st = h->hairpinType();
switch (st) {
case HairpinType::CRESC_HAIRPIN: st = HairpinType::DECRESC_HAIRPIN; break;
case HairpinType::DECRESC_HAIRPIN: st = HairpinType::CRESC_HAIRPIN; break;
case HairpinType::CRESC_LINE: st = HairpinType::DECRESC_LINE; break;
case HairpinType::DECRESC_LINE: st = HairpinType::CRESC_LINE; break;
}
undoChangeProperty(h, P_ID::HAIRPIN_TYPE, int(st));
}
else if (e->isArticulation()) {
Articulation* a = toArticulation(e);
ArticulationAnchor aa = a->anchor();
switch (aa) {
case ArticulationAnchor::TOP_CHORD:
aa = ArticulationAnchor::BOTTOM_CHORD;
break;
case ArticulationAnchor::BOTTOM_CHORD:
aa = ArticulationAnchor::TOP_CHORD;
break;
case ArticulationAnchor::CHORD:
aa = a->up() ? ArticulationAnchor::BOTTOM_CHORD : ArticulationAnchor::TOP_CHORD;
break;
case ArticulationAnchor::TOP_STAFF:
aa = ArticulationAnchor::BOTTOM_STAFF;
break;
case ArticulationAnchor::BOTTOM_STAFF:
aa = ArticulationAnchor::TOP_STAFF;
break;
}
// undoChangeProperty(a, P_ID::DIRECTION, a->up() ? Direction::DOWN : Direction::UP);
undoChangeProperty(a, P_ID::ARTICULATION_ANCHOR, int(aa));
}
else if (e->isTuplet()) {
Tuplet* tuplet = toTuplet(e);
Direction d = tuplet->isUp() ? Direction::DOWN : Direction::UP;
undoChangeProperty(tuplet, P_ID::DIRECTION, d);
}
else if (e->isNoteDot()) {
Note* note = toNote(e->parent());
Direction d = note->dotIsUp() ? Direction::DOWN : Direction::UP;
undoChangeProperty(note, P_ID::DOT_POSITION, d);
}
else if (e->isTempoText()
|| e->isStaffText()
|| e->isDynamic()
|| e->isHairpin()
|| e->isOttavaSegment()
|| e->isTextLineSegment()
|| e->isPedalSegment()
|| e->isTrillSegment()) {
// getProperty() delegates call from spannerSegment to Spanner:
Element::Placement p = Element::Placement(e->getProperty(P_ID::PLACEMENT).toInt());
p = (p == Element::Placement::ABOVE) ? Element::Placement::BELOW : Element::Placement::ABOVE;
e->undoChangeProperty(P_ID::AUTOPLACE, true);
e->undoChangeProperty(P_ID::PLACEMENT, int(p));
}
else if (e->isLyrics()) {
toLyrics(e)->chordRest()->flipLyrics(toLyrics(e));
}
}
}
//---------------------------------------------------------
// deleteItem
//---------------------------------------------------------
void Score::deleteItem(Element* el)
{
if (!el)
return;
// qDebug("%s", el->name());
switch (el->type()) {
case ElementType::INSTRUMENT_NAME: {
Part* part = el->part();
InstrumentName* in = toInstrumentName(el);
if (in->instrumentNameType() == InstrumentNameType::LONG)
undo(new ChangeInstrumentLong(0, part, QList<StaffName>()));
else if (in->instrumentNameType() == InstrumentNameType::SHORT)
undo(new ChangeInstrumentShort(0, part, QList<StaffName>()));
}
break;
case ElementType::TIMESIG: {
// timesig might already be removed
TimeSig* ts = toTimeSig(el);
Segment* s = ts->segment();
Measure* m = s->measure();
Segment* ns = m->findSegment(s->segmentType(), s->tick());
if (!ns || (ns->element(ts->track()) != ts)) {
qDebug("deleteItem: not found");
break;
}
cmdRemoveTimeSig(ts);
}
break;
case ElementType::KEYSIG:
undoRemoveElement(el);
break;
case ElementType::NOTE:
{
Chord* chord = toChord(el->parent());
if (chord->notes().size() > 1) {
undoRemoveElement(el);
select(chord->downNote(), SelectType::SINGLE, 0);
break;
}
// else fall through
el = chord;
}
case ElementType::CHORD:
{
Chord* chord = toChord(el);
removeChordRest(chord, false);
// replace with rest
if (chord->noteType() == NoteType::NORMAL) {
Rest* rest = new Rest(this, chord->durationType());
rest->setDurationType(chord->durationType());
rest->setDuration(chord->duration());
rest->setTrack(el->track());
rest->setParent(chord->parent());
Segment* segment = chord->segment();
undoAddCR(rest, segment->measure(), segment->tick());
Tuplet* tuplet = chord->tuplet();
if (tuplet) {
QList<ScoreElement*> tl = tuplet->linkList();
for (ScoreElement* e : rest->linkList()) {
DurationElement* de = static_cast<DurationElement*>(e);
for (ScoreElement* ee : tl) {
Tuplet* t = static_cast<Tuplet*>(ee);
if (t->score() == de->score() && t->track() == de->track()) {
de->setTuplet(t);
t->add(de);
break;
}
}
}
}
//select(rest, SelectType::SINGLE, 0);
}
else {
// remove segment if empty
Segment* seg = chord->segment();
if (seg->empty())
undoRemoveElement(seg);
}
}
break;
case ElementType::REPEAT_MEASURE:
{
RepeatMeasure* rm = toRepeatMeasure(el);
removeChordRest(rm, false);
Rest* rest = new Rest(this);
rest->setDurationType(TDuration::DurationType::V_MEASURE);
rest->setDuration(rm->measure()->stretchedLen(rm->staff()));
rest->setTrack(rm->track());
rest->setParent(rm->parent());
Segment* segment = rm->segment();
undoAddCR(rest, segment->measure(), segment->tick());
}
case ElementType::REST:
//
// only allow for voices != 0
// e.g. voice 0 rests cannot be removed
//
{
Rest* rest = toRest(el);
if (rest->tuplet() && rest->tuplet()->elements().empty())
undoRemoveElement(rest->tuplet());
if (el->voice() != 0) {
rest->undoChangeProperty(P_ID::GAP, true);
for (ScoreElement* r : el->linkList()) {
Rest* rest = static_cast<Rest*>(r);
if (rest->track() % VOICES)
rest->undoChangeProperty(P_ID::GAP, true);
}
// delete them really when only gap rests are in the actual measure.
Measure* m = toRest(el)->measure();
int track = el->track();
if (m->isOnlyDeletedRests(track)) {
static const Segment::Type st { Segment::Type::ChordRest };
for (const Segment* s = m->first(st); s; s = s->next(st)) {
Element* del = s->element(track);
if (s->segmentType() != st || !del)
continue;
if (toRest(del)->isGap())
undoRemoveElement(del);
}
}
else {
// check if the other rest could be combined
Segment* s = toRest(el)->segment();
std::vector<Rest*> rests;
// find previous segment with cr in this track
Element* pe = 0;
for (Segment* ps = s->prev(Segment::Type::ChordRest); ps; ps = ps->prev(Segment::Type::ChordRest)) {
Element* el = ps->element(track);
if (el && el->isRest() && toRest(el)->isGap()) {
pe = el;
rests.push_back(toRest(el));
}
else if (el)
break;
}
// find next segment with cr in this track
Segment* ns;
Element* ne = 0;
for (ns = s->next(Segment::Type::ChordRest); ns; ns = ns->next(Segment::Type::ChordRest)) {
Element* el = ns->element(track);
if (el && el->isRest() && toRest(el)->isGap()) {
ne = el;
rests.push_back(toRest(el));
}
else if (el)
break;
}
int stick = 0;
int ticks = 0;
if (pe)
stick = pe->tick();
else
stick = s->tick();
if (ne)
ticks = ne->tick() - stick + toRest(ne)->actualTicks();
else if (ns)
ticks = ns->tick() - stick;
else
ticks = m->ticks() + m->tick() - stick;
if (ticks != m->ticks() && ticks != s->ticks()) {
undoRemoveElement(rest);
for (Rest* r : rests) {
undoRemoveElement(r);
}
Fraction f = Fraction::fromTicks(ticks);
std::vector<TDuration> dList = toDurationList(f, true);
if (dList.empty())
break;
for (const TDuration& d : dList) {
Rest* rest = new Rest(this);
rest->setDuration(d.fraction());
rest->setDurationType(d);
rest->setTrack(track);
rest->setGap(true);
undoAddCR(rest, m, stick);
}
}
}
// Set input position
// TODO If deleted element is last of a sequence, use prev?
if (_is.noteEntryMode())
score()->move("prev-chord");
}
}
break;
case ElementType::ACCIDENTAL:
if (el->parent()->isNote())
changeAccidental(toNote(el->parent()), AccidentalType::NONE);
else
undoRemoveElement(el);
break;
case ElementType::BAR_LINE: {
BarLine* bl = toBarLine(el);
Segment* s = bl->segment();
Measure* m = s->measure();
if (s->isBeginBarLineType()) {
undoRemoveElement(el);
}
else {
if (bl->barLineType() == BarLineType::START_REPEAT)
m->undoChangeProperty(P_ID::REPEAT_START, false);
else if (bl->barLineType() == BarLineType::END_REPEAT)
m->undoChangeProperty(P_ID::REPEAT_END, false);
else if (bl->barLineType() == BarLineType::END_START_REPEAT) {
m->undoChangeProperty(P_ID::REPEAT_START, false);
m->undoChangeProperty(P_ID::REPEAT_END, false);
}
else
undoRemoveElement(el);
}
}
break;
case ElementType::TUPLET:
cmdDeleteTuplet(toTuplet(el), true);
break;
case ElementType::MEASURE: {
Measure* m = toMeasure(el);
undoRemoveMeasures(m, m);
undoInsertTime(m->tick(), -(m->endTick() - m->tick()));
}
break;
case ElementType::BRACKET:
undoRemoveBracket(toBracket(el));
break;
case ElementType::LAYOUT_BREAK:
{
undoRemoveElement(el);
LayoutBreak* lb = toLayoutBreak(el);
Measure* m = lb->measure();
if (m->isMMRest()) {
// propagate to original measure
m = m->mmRestLast();
foreach(Element* e, m->el()) {
if (e->isLayoutBreak()) {
undoRemoveElement(e);
break;
}
}
}
}
break;
case ElementType::CLEF:
{
Clef* clef = toClef(el);
Measure* m = clef->measure();
if (m->isMMRest()) {
// propagate to original measure
m = m->mmRestLast();
Segment* s = m->findSegment(Segment::Type::Clef, clef->segment()->tick());
if (s && s->element(clef->track())) {
Clef* c = toClef(s->element(clef->track()));
undoRemoveElement(c);
}
}
else {
if (clef->generated()) {
// find the real clef if this is a cautionary one
Measure* m = clef->measure();
if (m && m->prevMeasure()) {
int tick = m->tick();
m = m->prevMeasure();
Segment* s = m->findSegment(Segment::Type::Clef, tick);
if (s && s->element(clef->track()))
clef = toClef(s->element(clef->track()));
}
}
undoRemoveElement(clef);
}
}
break;
case ElementType::REHEARSAL_MARK:
case ElementType::TEMPO_TEXT:
{
Segment* s = toSegment(el->parent());
Measure* m = s->measure();
if (m->isMMRest()) {
// propagate to original measure/element
m = m->mmRestFirst();
Segment* ns = m->findSegment(Segment::Type::ChordRest, s->tick());
for (Element* e : ns->annotations()) {
if (e->type() == el->type() && e->track() == el->track()) {
el = e;
undoRemoveElement(el);
break;
}
}
}
else
undoRemoveElement(el);
}
break;
case ElementType::OTTAVA_SEGMENT:
case ElementType::HAIRPIN_SEGMENT:
case ElementType::TRILL_SEGMENT:
case ElementType::TEXTLINE_SEGMENT:
case ElementType::VOLTA_SEGMENT:
case ElementType::SLUR_SEGMENT:
case ElementType::TIE_SEGMENT:
case ElementType::PEDAL_SEGMENT:
case ElementType::GLISSANDO_SEGMENT:
{
el = static_cast<SpannerSegment*>(el)->spanner();
undoRemoveElement(el);
}
break;
case ElementType::STEM_SLASH: // cannot delete this elements
case ElementType::HOOK:
qDebug("cannot remove %s", el->name());
break;
case ElementType::TEXT:
if (el->parent()->isTBox())
undoChangeProperty(el, P_ID::TEXT, QString());
else
undoRemoveElement(el);
break;
default:
undoRemoveElement(el);
break;
}
}
//---------------------------------------------------------
// deleteMeasures
//---------------------------------------------------------
void Score::deleteMeasures(MeasureBase* is, MeasureBase* ie)
{
// qDebug("deleteMeasures %p %p", is, ie);
#if 0
if (!selection().isRange())
return;
MeasureBase* is = selection().startSegment()->measure();
if (is->isMeasure() && toMeasure(is)->isMMRest())
is = toMeasure(is)->mmRestFirst();
Segment* seg = selection().endSegment();
MeasureBase* ie;
// choose the correct last measure based on the end segment
// this depends on whether a whole measure is selected or only a few notes within it
if (seg)
ie = seg->prev() ? seg->measure() : seg->measure()->prev();
else
ie = lastMeasure();
#endif
select(0, SelectType::SINGLE, 0);
// createEndBar if last measure is deleted
bool createEndBar = false;
if (ie->isMeasure()) {
Measure* iem = toMeasure(ie);
if (iem->isMMRest())
ie = iem = iem->mmRestLast();
//TODO createEndBar = (iem == lastMeasureMM()) && (iem->endBarLineType() == BarLineType::END);
createEndBar = false;
}
// get the last deleted timesig & keysig in order to restore after deletion
KeySigEvent lastDeletedKeySigEvent;
TimeSig* lastDeletedSig = 0;
KeySig* lastDeletedKeySig = 0;
bool transposeKeySigEvent = false;
for (MeasureBase* mb = ie;; mb = mb->prev()) {
if (mb->isMeasure()) {
Measure* m = toMeasure(mb);
Segment* sts = m->findSegment(Segment::Type::TimeSig, m->tick());
if (sts && !lastDeletedSig)
lastDeletedSig = toTimeSig(sts->element(0));
sts = m->findSegment(Segment::Type::KeySig, m->tick());
if (sts && !lastDeletedKeySig) {
lastDeletedKeySig = toKeySig(sts->element(0));
if (lastDeletedKeySig) {
lastDeletedKeySigEvent = lastDeletedKeySig->keySigEvent();
if (!styleB(StyleIdx::concertPitch) && !lastDeletedKeySigEvent.isAtonal() && !lastDeletedKeySigEvent.custom()) {
// convert to concert pitch
transposeKeySigEvent = true;
Interval v = staff(0)->part()->instrument(m->tick())->transpose();
if (!v.isZero())
lastDeletedKeySigEvent.setKey(transposeKey(lastDeletedKeySigEvent.key(), v));
}
}
}
if (lastDeletedSig && lastDeletedKeySig)
break;
}
if (mb == is)
break;
}
int startTick = is->tick();
int endTick = ie->tick();
undoInsertTime(is->tick(), -(ie->endTick() - is->tick()));
for (Score* score : scoreList()) {
Measure* is = score->tick2measure(startTick);
Measure* ie = score->tick2measure(endTick);
score->undoRemoveMeasures(is, ie);
// adjust views
Measure* focusOn = is->prevMeasure() ? is->prevMeasure() : score->firstMeasure();
for (MuseScoreView* v : score->viewer)
v->adjustCanvasPosition(focusOn, false);
if (createEndBar) {
// Measure* lastMeasure = score->lastMeasure();
//TODO if (lastMeasure && lastMeasure->endBarLineType() == BarLineType::NORMAL)
// score->undoChangeEndBarLineType(lastMeasure, BarLineType::END);
}
// insert correct timesig after deletion
Measure* mBeforeSel = is->prevMeasure();
Measure* mAfterSel = mBeforeSel ? mBeforeSel->nextMeasure() : score->firstMeasure();
if (mAfterSel && lastDeletedSig) {
bool changed = true;
if (mBeforeSel) {
if (mBeforeSel->timesig() == mAfterSel->timesig()) {
changed = false;
}
}
Segment* s = mAfterSel->findSegment(Segment::Type::TimeSig, mAfterSel->tick());
if (!s && changed) {
Segment* ns = mAfterSel->undoGetSegment(Segment::Type::TimeSig, mAfterSel->tick());
for (int staffIdx = 0; staffIdx < score->nstaves(); staffIdx++) {
TimeSig* nts = new TimeSig(score);
nts->setTrack(staffIdx * VOICES);
nts->setParent(ns);
nts->setSig(lastDeletedSig->sig(), lastDeletedSig->timeSigType());
score->undoAddElement(nts);
}
}
}
// insert correct keysig if necessary
if (mAfterSel && !mBeforeSel && lastDeletedKeySig) {
Segment* s = mAfterSel->findSegment(Segment::Type::KeySig, mAfterSel->tick());
if (!s) {
Segment* ns = mAfterSel->undoGetSegment(Segment::Type::KeySig, mAfterSel->tick());
for (int staffIdx = 0; staffIdx < score->nstaves(); staffIdx++) {
KeySigEvent nkse = lastDeletedKeySigEvent;
if (transposeKeySigEvent) {
Interval v = score->staff(staffIdx)->part()->instrument(0)->transpose();
v.flip();
nkse.setKey(transposeKey(nkse.key(), v));
}
KeySig* nks = new KeySig(score);
nks->setTrack(staffIdx * VOICES);
nks->setParent(ns);
nks->setKeySigEvent(nkse);
score->undoAddElement(nks);
}
}
}
}
_is.setSegment(0); // invalidate position
}
//---------------------------------------------------------
// cmdDeleteSelection
//---------------------------------------------------------
void Score::cmdDeleteSelection()
{
ChordRest* cr = nullptr; // select something after deleting notes
if (selection().isRange()) {
Segment* s1 = selection().startSegment();
Segment* s2 = selection().endSegment();
// delete content from measures underlying mmrests
if (s1 && s1->measure() && s1->measure()->isMMRest())
s1 = s1->measure()->mmRestFirst()->first();
if (s2 && s2->measure() && s2->measure()->isMMRest())
s2 = s2->measure()->mmRestLast()->last();
int stick1 = selection().tickStart();
int stick2 = selection().tickEnd();
Segment* ss1 = s1;
if (!ss1->isChordRestType())
ss1 = ss1->next1(Segment::Type::ChordRest);
bool fullMeasure = ss1 && (ss1->measure()->first(Segment::Type::ChordRest) == ss1)
&& (s2 == 0 || s2->isEndBarLineType());
int tick2 = s2 ? s2->tick() : INT_MAX;
int track1 = selection().staffStart() * VOICES;
int track2 = selection().staffEnd() * VOICES;
auto spanners = _spanner.findOverlapping(stick1, stick2 - 1);
for (auto i : spanners) {
Spanner* sp = i.value;
if (sp->isVolta())
continue;
if (sp->track() >= track1 && sp->track() < track2) {
if (sp->tick() >= stick1 && sp->tick() < stick2
&& sp->tick2() >= stick1 && sp->tick2() < stick2) {
undoRemoveElement(sp);
}
else if (sp->isSlur() && ((sp->tick() >= stick1 && sp->tick() < stick2)
|| (sp->tick2() >= stick1 && sp->tick2() < stick2))) {
undoRemoveElement(sp);
}
}
}
for (int track = track1; track < track2; ++track) {
if (!selectionFilter().canSelectVoice(track))
continue;
Fraction f;
int tick = -1;
Tuplet* tuplet = 0;
for (Segment* s = s1; s && (s->tick() < stick2); s = s->next1()) {
if (s->element(track) && s->isBreathType()) {
deleteItem(s->element(track));
continue;
}
foreach (Element* annotation, s->annotations()) {
// skip if not included in selection (eg, filter)
if (!selectionFilter().canSelect(annotation))
continue;
if (!annotation->systemFlag() && annotation->track() == track)
undoRemoveElement(annotation);
}
Element* e = s->element(track);
if (!e)
continue;
if (!s->isChordRestType()) {
// do not delete TimeSig/KeySig,
// it doesn't make sense to do it, except on full system
if (s->segmentType() != Segment::Type::TimeSig && s->segmentType() != Segment::Type::KeySig)
undoRemoveElement(e);
continue;
}
ChordRest* cr = toChordRest(e);
if (tick == -1) {
// first ChordRest found:
int offset = cr->rtick();
if (cr->measure()->tick() >= s1->tick() && offset) {
f = Fraction::fromTicks(offset);
tick = s->measure()->tick();
}
else {
tick = s->tick();
f = Fraction();
}
tuplet = cr->tuplet();
if (tuplet && (tuplet->tick() == tick) && ((tuplet->tick() + tuplet->actualTicks()) <= tick2) ) {
// remove complete top level tuplet
Tuplet* t = cr->tuplet();
while (t->tuplet())
t = t->tuplet();
cmdDeleteTuplet(t, false);
f += t->duration();
tuplet = 0;
continue;
}
}
if (tuplet != cr->tuplet()) {
Tuplet* t = cr->tuplet();
if (t && (((t->tick() + t->actualTicks()) <= tick2) || fullMeasure)) {
// remove complete top level tuplet
while (t->tuplet())
t = t->tuplet();
cmdDeleteTuplet(t, false);
f += t->duration();
tuplet = 0;
continue;
}
if (f.isValid())
setRest(tick, track, f, false, tuplet);
tick = cr->tick();
tuplet = cr->tuplet();
removeChordRest(cr, true);
f = cr->duration();
}
else {
removeChordRest(cr, true);
f += cr->duration();
}
}
if (f.isValid() && !f.isZero()) {
if (fullMeasure) {
// handle this as special case to be able to
// fix broken measures:
for (Measure* m = s1->measure(); m; m = m->nextMeasure()) {
Staff* staff = Score::staff(track / VOICES);
int tick = m->tick();
TimeSig* ts = staff->timeSig(tick);
if (ts) {
Fraction f = ts->sig();
Rest* r = setRest(tick, track, f, false, 0);
if (!cr)
cr = r;
if (s2 && (m == s2->measure()))
break;
}
}
}
else {
Rest* r = setRest(tick, track, f, false, tuplet);
if (!cr)
cr = r;
}
}
}
s1 = tick2segment(stick1);
s2 = tick2segment(stick2, true);
if (s1 == 0 || s2 == 0)
deselectAll();
else {
_selection.setStartSegment(s1);
_selection.setEndSegment(s2);
_selection.updateSelectedElements();
}
}
else {
// deleteItem modifies selection().elements() list,
// so we need a local copy:
QList<Element*> el = selection().elements();
// keep track of linked elements that are deleted implicitly
// so we don't try to delete them twice if they are also in selection
QList<ScoreElement*> deletedElements;
// Similarly, deleting one spanner segment, will delete all of them
// so we don't try to delete them twice if they are also in selection
QList<Spanner*> deletedSpanners;
for (Element* e : el) {
// these are the linked elements we are about to delete
QList<ScoreElement*> links;
if (e->links())
links = *e->links();
// find location of element to select after deleting notes
int tick = -1;
int track = -1;
if (!cr) {
if (e->isNote())
tick = toNote(e)->chord()->tick();
else if (e->isRest())
tick = toRest(e)->tick();
//else tick < 0
track = e->track();
}
// delete element if we have not done so already
if (!deletedElements.contains(e)) {
// do not delete two spanner segments from the same spanner
if (e->isSpannerSegment()) {
Spanner* spanner = static_cast<SpannerSegment*>(e)->spanner();
if (deletedSpanners.contains(spanner))
continue;
else {
QList<ScoreElement*> linkedSpanners;
if (spanner->links())
linkedSpanners = *spanner->links();
else
linkedSpanners.append(spanner);
for (ScoreElement* se : linkedSpanners)
deletedSpanners.append(static_cast<Spanner*>(se));
}
}
deleteItem(e);
}
// find element to select
if (!cr && tick >= 0 && track >= 0)
cr = findCR(tick, track);
// add these linked elements to list of already-deleted elements
for (ScoreElement* se : links)
deletedElements.append(se);
}
}
deselectAll();
// make new selection if appropriate
if (_is.noteEntryMode())
cr = _is.cr();
if (cr) {
if (cr->isChord())
select(toChord(cr)->upNote(), SelectType::SINGLE);
else
select(cr, SelectType::SINGLE);
}
}
//---------------------------------------------------------
// cmdFullMeasureRest
//---------------------------------------------------------
void Score::cmdFullMeasureRest()
{
Segment* s1 = nullptr;
Segment* s2 = nullptr;
int stick1 = -1;
int stick2 = -1;
int track1 = -1;
int track2 = -1;
Rest* r = nullptr;
if (inputState().noteEntryMode()) {
s1 = inputState().segment();
if (!s1 || s1->rtick() != 0)
return;
Measure* m = s1->measure();
s2 = m->last();
stick1 = s1->tick();
stick2 = s2->tick();
track1 = inputState().track();
track2 = track1 + 1;
}
else if (selection().isRange()) {
s1 = selection().startSegment();
s2 = selection().endSegment();
if (styleB(StyleIdx::createMultiMeasureRests)) {
// use underlying measures
if (s1 && s1->measure()->isMMRest())
s1 = tick2segment(stick1);
if (s2 && s2->measure()->isMMRest())
s2 = tick2segment(stick2, true);
}
stick1 = selection().tickStart();
stick2 = selection().tickEnd();
Segment* ss1 = s1;
if (ss1 && ss1->segmentType() != Segment::Type::ChordRest)
ss1 = ss1->next1(Segment::Type::ChordRest);
bool fullMeasure = ss1 && (ss1->measure()->first(Segment::Type::ChordRest) == ss1)
&& (s2 == 0 || (s2->segmentType() == Segment::Type::EndBarLine)
|| (s2->segmentType() == Segment::Type::TimeSigAnnounce)
|| (s2->segmentType() == Segment::Type::KeySigAnnounce));
if (!fullMeasure) {
return;
}
track1 = selection().staffStart() * VOICES;
track2 = selection().staffEnd() * VOICES;
}
else if (selection().cr()) {
ChordRest* cr = selection().cr();
if (!cr || cr->rtick() != 0)
return;
Measure* m = cr->measure();
s1 = m->first();
s2 = m->last();
stick1 = s1->tick();
stick2 = s2->tick();
track1 = selection().cr()->track();
track2 = track1 + 1;
}
else {
return;
}
for (int track = track1; track < track2; ++track) {
if (selection().isRange() && !selectionFilter().canSelectVoice(track))
continue;
// first pass - remove non-initial rests from empty measures/voices
for (Segment* s = s1; s != s2; s = s->next1()) {
if (!(s->measure()->isOnlyRests(track))) // Don't remove anything from measures that contain notes
continue;
if (s->segmentType() != Segment::Type::ChordRest || !s->element(track))
continue;
ChordRest* cr = toChordRest(s->element(track));
// keep first rest of measure as placeholder (replaced in second pass)
// but delete all others
if (s->rtick())
removeChordRest(cr, true);
}
// second pass - replace placeholders with full measure rests
for (Measure* m = s1->measure(); m; m = m->nextMeasure()) {
if (m->isOnlyRests(track)) {
ChordRest* cr = m->findChordRest(m->tick(), track);
if (cr) {
removeChordRest(cr, true);
r = addRest(m->tick(), track, TDuration(TDuration::DurationType::V_MEASURE), 0);
}
else if (inputState().noteEntryMode()) {
// might be no cr at input position
r = addRest(m->tick(), track, TDuration(TDuration::DurationType::V_MEASURE), 0);
}
}
if (s2 && (m == s2->measure()))
break;
}
}
// selected range is probably empty now and possibly subsumed by an mmrest
// so updating selection requires forcing mmrests to be updated first
//TODO-ws if (styleB(StyleIdx::createMultiMeasureRests))
// createMMRests();
s1 = tick2segmentMM(stick1);
s2 = tick2segmentMM(stick2, true);
if (selection().isRange() && s1 && s2) {
_selection.setStartSegment(s1);
_selection.setEndSegment(s2);
_selection.updateSelectedElements();
}
else if (r) {
// note entry mode
select(r, SelectType::SINGLE);
}
else {
deselectAll();
}
}
//---------------------------------------------------------
// addLyrics
// called from Keyboard Accelerator & menu
//---------------------------------------------------------
Lyrics* Score::addLyrics()
{
Element* el = selection().element();
if (el == 0 || (!el->isNote() && !el->isLyrics())) {
MScore::setError(NO_LYRICS_SELECTED);
return 0;
}
ChordRest* cr;
if (el->isNote()) {
cr = toNote(el)->chord();
if(cr->isGrace())
cr = toChordRest(cr->parent());
}
else if (el->isLyrics())
cr = toLyrics(el)->chordRest();
else
return 0;
int no = cr->lyrics().size();
Lyrics* lyrics = new Lyrics(this);
lyrics->setTrack(cr->track());
lyrics->setParent(cr);
lyrics->setNo(no);
undoAddElement(lyrics);
select(lyrics, SelectType::SINGLE, 0);
return lyrics;
}
//---------------------------------------------------------
// addHairpin
//---------------------------------------------------------
Hairpin* Score::addHairpin(HairpinType t, int tickStart, int tickEnd, int track)
{
Hairpin* pin = new Hairpin(this);
pin->setHairpinType(t);
if (t == HairpinType::CRESC_LINE) {
pin->setBeginText("cresc.");
pin->setContinueText("(cresc.)");
}
else if (t == HairpinType::DECRESC_LINE) {
pin->setBeginText("dim.");
pin->setContinueText("(dim.)");
}
pin->setTrack(track);
pin->setTrack2(track);
pin->setTick(tickStart);
pin->setTick2(tickEnd);
undoAddElement(pin);
return pin;
}
//---------------------------------------------------------
// cmdCreateTuplet
// replace cr with tuplet
//---------------------------------------------------------
void Score::cmdCreateTuplet(ChordRest* ocr, Tuplet* tuplet)
{
qDebug("cmdCreateTuplet at %d <%s> track %d duration <%s> ratio <%s> baseLen <%s>",
ocr->tick(), ocr->name(), ocr->track(),
qPrintable(ocr->duration().print()),
qPrintable(tuplet->ratio().print()),
qPrintable(tuplet->baseLen().fraction().print())
);
int track = ocr->track();
Measure* measure = ocr->measure();
int tick = ocr->tick();
if (ocr->tuplet())
tuplet->setTuplet(ocr->tuplet());
undoRemoveElement(ocr);
ChordRest* cr;
if (ocr->isChord()) {
cr = new Chord(this);
foreach (Note* oldNote, toChord(ocr)->notes()) {
Note* note = new Note(this);
note->setPitch(oldNote->pitch());
note->setTpc1(oldNote->tpc1());
note->setTpc2(oldNote->tpc2());
cr->add(note);
}
}
else
cr = new Rest(this);
Fraction an = (tuplet->duration() * tuplet->ratio()) / tuplet->baseLen().fraction();
int actualNotes = an.numerator() / an.denominator();
tuplet->setTrack(track);
cr->setTuplet(tuplet);
cr->setTrack(track);
cr->setDurationType(tuplet->baseLen());
cr->setDuration(tuplet->baseLen().fraction());
qDebug("tuplet note duration %s actualNotes %d ticks %d track %d tuplet track %d",
qPrintable(tuplet->baseLen().name()), actualNotes, cr->actualTicks(), track, tuplet->track());
undoAddCR(cr, measure, tick);
int ticks = cr->actualTicks();
for (int i = 0; i < (actualNotes-1); ++i) {
tick += ticks;
Rest* rest = new Rest(this);
rest->setTuplet(tuplet);
rest->setTrack(track);
rest->setDurationType(tuplet->baseLen());
rest->setDuration(tuplet->baseLen().fraction());
undoAddCR(rest, measure, tick);
}
}
//---------------------------------------------------------
// colorItem
//---------------------------------------------------------
void Score::colorItem(Element* element)
{
QColor sc(element->color());
QColor c = QColorDialog::getColor(sc);
if (!c.isValid())
return;
foreach(Element* e, selection().elements()) {
if (e->color() != c) {
undoChangeProperty(e, P_ID::COLOR, c);
e->setGenerated(false);
addRefresh(e->abbox());
if (e->isBarLine()) {
// Element* ep = e->parent();
// if (ep->isSegment() && toSegment(ep)->isEndBarLineType()) {
// Measure* m = toSegment(ep)->measure();
// BarLine* bl = toBarLine(e);
// m->setEndBarLineType(bl->barLineType(), false, e->visible(), e->color());
// }
}
}
}
deselectAll();
}
//---------------------------------------------------------
// cmdExchangeVoice
//---------------------------------------------------------
void Score::cmdExchangeVoice(int s, int d)
{
if (!selection().isRange()) {
MScore::setError(NO_STAFF_SELECTED);
return;
}
int t1 = selection().tickStart();
int t2 = selection().tickEnd();
Measure* m1 = tick2measure(t1);
Measure* m2 = tick2measure(t2);
if (selection().score()->excerpt())
return;
if (t2 > m2->tick())
m2 = 0;
for (;;) {
undoExchangeVoice(m1, s, d, selection().staffStart(), selection().staffEnd());
m1 = m1->nextMeasure();
if ((m1 == 0) || (m2 && (m1->tick() == m2->tick())))
break;
}
}
//---------------------------------------------------------
// cmdEnterRest
//---------------------------------------------------------
void Score::cmdEnterRest(const TDuration& d)
{
if (_is.track() == -1) {
qDebug("cmdEnterRest: track -1");
return;
}
startCmd();
expandVoice();
if (_is.cr() == 0) {
qDebug("cannot enter rest here");
return;
}
int track = _is.track();
NoteVal nval;
setNoteRest(_is.segment(), track, nval, d.fraction(), Direction::AUTO);
_is.moveToNextInputPos();
if (!noteEntryMode() || usingNoteEntryMethod(NoteEntryMethod::STEPTIME))
_is.setRest(false); // continue with normal note entry
endCmd();
}
//---------------------------------------------------------
// removeChordRest
// remove chord or rest
// remove associated segment if empty
// remove beam
// remove slurs
//---------------------------------------------------------
void Score::removeChordRest(ChordRest* cr, bool clearSegment)
{
QList<Segment*> segments;
for (ScoreElement* e : cr->linkList()) {
undo(new RemoveElement(static_cast<Element*>(e)));
if (clearSegment) {
Segment* s = cr->segment();
if (!segments.contains(s))
segments.append(s);
}
}
for (Segment* s : segments) {
if (s->empty())
undo(new RemoveElement(s));
}
if (cr->beam()) {
Beam* beam = cr->beam();
if (beam->generated()) {
beam->parent()->remove(beam);
delete beam;
}
else
undoRemoveElement(beam);
}
}
//---------------------------------------------------------
// cmdDeleteTuplet
// remove tuplet and replace with rest
//---------------------------------------------------------
void Score::cmdDeleteTuplet(Tuplet* tuplet, bool replaceWithRest)
{
foreach(DurationElement* de, tuplet->elements()) {
if (de->isChordRest())
removeChordRest(toChordRest(de), true);
else {
Q_ASSERT(de->isTuplet());
cmdDeleteTuplet(toTuplet(de), false);
}
}
if (replaceWithRest)
setRest(tuplet->tick(), tuplet->track(), tuplet->duration(), true, tuplet->tuplet());
}
//---------------------------------------------------------
// nextInputPos
//---------------------------------------------------------
void Score::nextInputPos(ChordRest* cr, bool doSelect)
{
ChordRest* ncr = nextChordRest(cr);
if ((ncr == 0) && (_is.track() % VOICES)) {
Segment* s = tick2segment(cr->tick() + cr->actualTicks(), false, Segment::Type::ChordRest);
int track = (cr->track() / VOICES) * VOICES;
ncr = s ? toChordRest(s->element(track)) : 0;
}
if (ncr) {
_is.setSegment(ncr->segment());
if (doSelect)
select(ncr, SelectType::SINGLE, 0);
setPlayPos(ncr->tick());
for (MuseScoreView* v : viewer)
v->moveCursor();
}
}
//---------------------------------------------------------
// searchMeasureBase
// search corresponding measure in linked score
//---------------------------------------------------------
static MeasureBase* searchMeasureBase(Score* score, MeasureBase* mb)
{
if (mb == 0)
return 0;
if (mb->isMeasure()) {
for (Measure* m = score->firstMeasure(); m; m = m->nextMeasure()) {
if (m->tick() == mb->tick())
return m;
}
}
else {
if (!mb->links()) {
if (mb->score() == score)
return mb;
else
qDebug("searchMeasureBase: no links");
}
else {
for (ScoreElement* m : *mb->links()) {
if (m->score() == score)
return static_cast<MeasureBase*>(m);
}
}
}
qDebug("searchMeasureBase: measure not found");
return nullptr;
}
//---------------------------------------------------------
// insertMeasure
// Create a new MeasureBase of type type and insert
// before measure.
// If measure is zero, append new MeasureBase.
//---------------------------------------------------------
MeasureBase* Score::insertMeasure(ElementType type, MeasureBase* measure, bool createEmptyMeasures)
{
int tick;
int ticks = 0;
if (measure) {
if (measure->isMeasure() && toMeasure(measure)->isMMRest()) {
measure = toMeasure(measure)->prev();
measure = measure ? measure->next() : firstMeasure();
deselectAll();
}
tick = measure->tick();
}
else
tick = last() ? last()->endTick() : 0;
// use nominal time signature of current measure
Fraction f = sigmap()->timesig(tick).nominal();
QList<pair<Score*, MeasureBase*>> ml;
for (Score* score : scoreList())
ml.append(pair<Score*, MeasureBase*>(score, searchMeasureBase(score, measure)));
MeasureBase* omb = 0; // measure base in "this" score
MeasureBase* rmb = 0; // measure base in root score (for linking)
for (pair<Score*, MeasureBase*> p : ml) {
Score* score = p.first;
MeasureBase* im = p.second;
MeasureBase* mb = static_cast<MeasureBase*>(Element::create(type, score));
mb->setTick(tick);
if (score == this)
omb = mb;
if (type == ElementType::MEASURE) {
if (isMaster())
omb = toMeasure(mb);
Measure* m = toMeasure(mb);
Measure* mi = im ? score->tick2measure(im->tick()) : 0;
m->setTimesig(f);
m->setLen(f);
ticks = m->ticks();
QList<TimeSig*> tsl;
QList<KeySig*> ksl;
QList<Clef*> cl;
QList<Clef*> pcl;
//
// remove clef, time and key signatures
//
if (mi) {
for (int staffIdx = 0; staffIdx < score->nstaves(); ++staffIdx) {
Measure* pm = mi->prevMeasure();
if (pm) {
Segment* ps = pm->findSegment(Segment::Type::Clef, tick);
if (ps) {
Element* pc = ps->element(staffIdx * VOICES);
if (pc) {
pcl.push_back(toClef(pc));
undo(new RemoveElement(pc));
if (ps->empty())
undoRemoveElement(ps);
}
}
}
for (Segment* s = mi->first(); s && s->tick() == tick; s = s->next()) {
Element* e = s->element(staffIdx * VOICES);
if (!e)
continue;
Element* ee = 0;
if (e->isKeySig()) {
KeySig* ks = toKeySig(e);
ksl.push_back(ks);
ee = e;
}
else if (e->isTimeSig()) {
TimeSig* ts = toTimeSig(e);
tsl.push_back(ts);
ee = e;
}
if (tick == 0 && e->isClef()) {
Clef* clef = toClef(e);
cl.push_back(clef);
ee = e;
}
if (ee) {
undo(new RemoveElement(ee));
if (s->empty())
undoRemoveElement(s);
}
}
}
}
m->setNext(im);
m->setPrev(im ? im->prev() : score->last());
undo(new InsertMeasures(m, m));
//
// move clef, time, key signatrues
//
for (TimeSig* ts : tsl) {
TimeSig* nts = new TimeSig(*ts);
Segment* s = m->undoGetSegment(Segment::Type::TimeSig, tick);
nts->setParent(s);
undoAddElement(nts);
}
for (KeySig* ks : ksl) {
KeySig* nks = new KeySig(*ks);
Segment* s = m->undoGetSegment(Segment::Type::KeySig, tick);
nks->setParent(s);
undoAddElement(nks);
}
for (Clef* clef : cl) {
Clef* nClef = new Clef(*clef);
Segment* s = m->undoGetSegment(Segment::Type::Clef, tick);
nClef->setParent(s);
undoAddElement(nClef);
}
Measure* pm = m->prevMeasure();
for (Clef* clef : pcl) {
Clef* nClef = new Clef(*clef);
Segment* s = pm->undoGetSegment(Segment::Type::Clef, tick);
nClef->setParent(s);
undoAddElement(nClef);
}
// if (createEndBar)
// m->setEndBarLineType(BarLineType::END, false);
}
else {
// a frame, not a measure
if (isMaster())
rmb = mb;
else if (rmb && mb != rmb) {
mb->linkTo(rmb);
if (rmb->isTBox())
toTBox(mb)->text()->linkTo(toTBox(rmb)->text());
}
mb->setNext(im);
mb->setPrev(im ? im->prev() : score->last());
undo(new InsertMeasures(mb, mb));
}
}
undoInsertTime(tick, ticks);
if (omb && type == ElementType::MEASURE && !createEmptyMeasures) {
//
// fill measure with rest
//
Score* _root = masterScore();
MeasureBase* rootMeasure = searchMeasureBase(_root, omb);
Q_ASSERT(_root == rootMeasure->score());
for (int staffIdx = 0; staffIdx < _root->nstaves(); ++staffIdx) {
int track = staffIdx * VOICES;
int tick = omb->tick();
Segment* s = toMeasure(rootMeasure)->findSegment(Segment::Type::ChordRest, tick);
if (s == 0 || s->element(track) == 0) {
// add rest to this staff and to all the staves linked to it
Rest* rest = new Rest(_root, TDuration(TDuration::DurationType::V_MEASURE));
Fraction timeStretch(_root->staff(staffIdx)->timeStretch(tick));
rest->setDuration(toMeasure(omb)->len() * timeStretch);
rest->setTrack(track);
_root->undoAddCR(rest, toMeasure(rootMeasure), tick);
}
}
}
deselectAll();
return omb;
}
//---------------------------------------------------------
// checkSpanner
// check if spanners are still valid as anchors may
// have changed or be removed.
// Spanners need to have a start anchor. Slurs need a
// start and end anchor.
//---------------------------------------------------------
void Score::checkSpanner(int startTick, int endTick)
{
QList<Spanner*> sl; // spanners to remove
QList<Spanner*> sl2; // spanners to shorten
auto spanners = _spanner.findOverlapping(startTick, endTick);
// printf("checkSpanner %d %d\n", startTick, endTick);
// for (auto i = spanners.begin(); i < spanners.end(); i++) {
// DEBUG: check all spanner
// there may be spanners outside of score bc. some measures were deleted
int lastTick = lastMeasure()->endTick();
for (auto i : _spanner.map()) {
Spanner* s = i.second;
if (s->isSlur()) {
Segment* seg = tick2segmentMM(s->tick(), false, Segment::Type::ChordRest);
if (!seg || !seg->element(s->track())) {
qDebug("checkSpanner::remove (1) tick %d seg %p", s->tick(), seg);
sl.append(s);
}
else {
seg = tick2segmentMM(s->tick2(), false, Segment::Type::ChordRest);
if (!seg || !seg->element(s->track2())) {
qDebug("checkSpanner::remove (2) %d - tick %d track %d",
s->tick(), s->tick2(), s->track2());
sl.append(s);
}
}
}
else {
// remove spanner if there is no start element
s->computeStartElement();
if (!s->startElement()) {
sl.append(s);
qDebug("checkSpanner::remove (3)");
}
else {
if (s->tick2() > lastTick)
sl2.append(s); //s->undoChangeProperty(P_ID::SPANNER_TICKS, lastTick - s->tick());
else
s->computeEndElement();
}
}
}
for (auto s : sl) // actually remove scheduled spanners
undo(new RemoveElement(s));
for (auto s : sl2) { // shorten spanners that extended past end of score
undo(new ChangeProperty(s, P_ID::SPANNER_TICKS, lastTick - s->tick()));
s->computeEndElement();
}
}
static constexpr Segment::Type CR_TYPE = Segment::Type::ChordRest;
//---------------------------------------------------------
// globalTimeDelete
//---------------------------------------------------------
void Score::globalTimeDelete()
{
qDebug("not implemented");
}
//---------------------------------------------------------
// localTimeDelete
//---------------------------------------------------------
void Score::localTimeDelete()
{
Segment* startSegment;
Segment* endSegment;
if (selection().state() != SelState::RANGE) {
Element* el = selection().element();
if (!el)
return;
ChordRest* cr = 0;
if (el->isNote())
cr = toNote(el)->chord();
else if (el->isChordRest())
cr = toChordRest(el);
else
return;
startSegment = cr->segment();
int endTick = startSegment->tick() + cr->duration().ticks();
endSegment = cr->measure()->findSegment(CR_TYPE, endTick);
if (endSegment == 0) {
qDebug("no segment at %d", endTick);
return;
}
}
else {
startSegment = selection().startSegment();
endSegment = selection().endSegment();
}
MeasureBase* is = startSegment->measure();
if (is->isMeasure() && toMeasure(is)->isMMRest())
is = toMeasure(is)->mmRestFirst();
MeasureBase* ie;
if (endSegment)
ie = endSegment->prev() ? endSegment->measure() : endSegment->measure()->prev();
else
ie = lastMeasure();
for (;;) {
if (is->tick() != startSegment->tick()) {
int tick = startSegment->tick();
int len;
if (ie == is)
len = endSegment->tick() - tick;
else
len = is->endTick() - tick;
timeDelete(toMeasure(is), startSegment, Fraction::fromTicks(len));
if (is == ie)
break;
is = is->next();
}
int endTick = endSegment ? endSegment->tick() : ie->endTick();
if (ie->endTick() != endTick) {
int len = endSegment->tick() - ie->tick();
timeDelete(toMeasure(ie), toMeasure(ie)->first(), Fraction::fromTicks(len));
if (is == ie)
break;
ie = ie->prev();
}
deleteMeasures(is, ie);
break;
};
deselectAll();
}
//---------------------------------------------------------
// timeDelete
//---------------------------------------------------------
void Score::timeDelete(Measure* m, Segment* startSegment, const Fraction& f)
{
int tick = startSegment->rtick();
int len = f.ticks();
int etick = tick + len;
Segment* fs = m->first(CR_TYPE);
for (int track = 0; track < _staves.size() * VOICES; ++track) {
if (m->hasVoice(track)) {
for (Segment* s = fs; s; s = s->next(CR_TYPE)) {
if (s->element(track)) {
ChordRest* cr = toChordRest(s->element(track));
int cetick = s->rtick() + cr->duration().ticks();
if (cetick <= tick) {
continue;
}
if (s->rtick() >= etick) {
break;
}
if (cr->isFullMeasureRest()) {
// do nothing
}
// inside deleted area
else if (s->rtick() >= tick && cetick <= etick) {
// inside
undoRemoveElement(cr);
}
else if (s->rtick() >= tick) {
// running out
Fraction ff = cr->duration() - Fraction::fromTicks(cetick - etick);
undoRemoveElement(cr);
createCRSequence(ff, cr, tick + len);
}
else if (s->rtick() < tick && cetick <= etick) {
// running in
Fraction f1 = Fraction::fromTicks(tick - s->tick());
changeCRlen(cr, f1, false);
}
else {
// running in/out
Fraction f1 = cr->duration() - f;
changeCRlen(cr, f1, false);
}
}
}
}
}
undoInsertTime(tick, -len);
undo(new InsertTime(this, tick, -len));
for (Segment* s = startSegment->next(); s; s = s->next())
s->undoChangeProperty(P_ID::TICK, s->rtick() - len);
undo(new ChangeMeasureLen(m, m->len() - f));
}
//---------------------------------------------------------
// cloneVoice
//---------------------------------------------------------
void Score::cloneVoice(int strack, int dtrack, Segment* sf, int lTick, bool link, bool spanner)
{
int start = sf->tick();
TieMap tieMap;
TupletMap tupletMap; // tuplets cannot cross measure boundaries
Score* score = sf->score();
Tremolo* tremolo = 0;
for (Segment* oseg = sf; oseg && oseg->tick() < lTick; oseg = oseg->next1()) {
Segment* ns = 0; //create segment later, on demand
Measure* dm = tick2measure(oseg->tick());
Element* oe = oseg->element(strack);
if (oe && !oe->generated() && oe->isChordRest()) {
Element* ne;
//does a linked clone to create just this element
//otherwise element will be add in every linked stave
if (link)
ne = oe->linkedClone();
else
ne = oe->clone();
ne->setTrack(dtrack);
//Don't clone gaps to a first voice
if (!(ne->track() % VOICES) && ne->isRest())
toRest(ne)->setGap(false);
ne->setScore(this);
ChordRest* ocr = toChordRest(oe);
ChordRest* ncr = toChordRest(ne);
//Handle beams
if (ocr->beam() && !ocr->beam()->empty() && ocr->beam()->elements().front() == ocr) {
Beam* nb = ocr->beam()->clone();
nb->clear();
nb->setTrack(dtrack);
nb->setScore(this);
nb->add(ncr);
ncr->setBeam(nb);
}
// clone Tuplets
Tuplet* ot = ocr->tuplet();
if (ot) {
ot->setTrack(strack);
Tuplet* nt = tupletMap.findNew(ot);
if (nt == 0) {
if (link)
nt = toTuplet(ot->linkedClone());
else
nt = toTuplet(ot->clone());
nt->setTrack(dtrack);
nt->setParent(dm);
tupletMap.add(ot, nt);
Tuplet* nt1 = nt;
while (ot->tuplet()) {
Tuplet* nt = tupletMap.findNew(ot->tuplet());
if (nt == 0) {
if (link)
nt = toTuplet(ot->tuplet()->linkedClone());
else
nt = toTuplet(ot->tuplet()->clone());
nt->setTrack(dtrack);
nt->setParent(dm);
tupletMap.add(ot->tuplet(), nt);
}
nt->add(nt1);
nt1->setTuplet(nt);
ot = ot->tuplet();
nt1 = nt;
}
}
nt->add(ncr);
ncr->setTuplet(nt);
}
// clone additional settings
if (oe->isChordRest()) {
if (oe->isRest()) {
Rest* ore = toRest(ocr);
// If we would clone a full measure rest just don't clone this rest
if (ore->isFullMeasureRest() && (dtrack % VOICES)) {
continue;
}
}
if (oe->isChord()) {
Chord* och = toChord(ocr);
Chord* nch = toChord(ncr);
int n = och->notes().size();
for (int i = 0; i < n; ++i) {
Note* on = och->notes().at(i);
Note* nn = nch->notes().at(i);
Interval v = staff(dtrack) ? staff(dtrack)->part()->instrument(dtrack)->transpose() : Interval();
nn->setTpc1(on->tpc1());
if (v.isZero())
nn->setTpc2(on->tpc1());
else {
v.flip();
nn->setTpc2(Ms::transposeTpc(nn->tpc1(), v, true));
}
if (on->tieFor()) {
Tie* tie;
if (link)
tie = toTie(on->tieFor()->linkedClone());
else
tie = toTie(on->tieFor()->clone());
tie->setScore(this);
nn->setTieFor(tie);
tie->setStartNote(nn);
tie->setTrack(nn->track());
tie->setEndNote(nn);
tieMap.add(on->tieFor(), tie);
}
if (on->tieBack()) {
Tie* tie = tieMap.findNew(on->tieBack());
if (tie) {
nn->setTieBack(tie);
tie->setEndNote(nn);
}
else {
qDebug("cloneVoices: cannot find tie");
}
}
// add back spanners (going back from end to start spanner element
// makes sure the 'other' spanner anchor element is already set up)
// 'on' is the old spanner end note and 'nn' is the new spanner end note
for (Spanner* oldSp : on->spannerBack()) {
Note* newStart = Spanner::startElementFromSpanner(oldSp, nn);
if (newStart) {
Spanner* newSp;
if (link)
newSp = static_cast<Spanner*>(oldSp->linkedClone());
else
newSp = static_cast<Spanner*>(oldSp->clone());
newSp->setNoteSpan(newStart, nn);
addElement(newSp);
}
else {
qDebug("cloneVoices: cannot find spanner start note");
}
}
}
// two note tremolo
if (och->tremolo() && och->tremolo()->twoNotes()) {
if (och == och->tremolo()->chord1()) {
if (tremolo)
qDebug("unconnected two note tremolo");
if (link)
tremolo = toTremolo(och->tremolo()->linkedClone());
else
tremolo = toTremolo(och->tremolo()->clone());
tremolo->setScore(nch->score());
tremolo->setParent(nch);
tremolo->setTrack(nch->track());
tremolo->setChords(nch, 0);
nch->setTremolo(tremolo);
}
else if (och == och->tremolo()->chord2()) {
if (!tremolo)
qDebug("first note for two note tremolo missing");
else {
tremolo->setChords(tremolo->chord1(), nch);
nch->setTremolo(tremolo);
}
}
else
qDebug("inconsistent two note tremolo");
}
}
// Add element (link -> just in this measure)
if (link) {
if (!ns)
ns = dm->getSegment(oseg->segmentType(), oseg->tick());
ns->add(ne);
}
else {
undoAddCR(toChordRest(ne), dm, oseg->tick());
}
}
}
Segment* tst = dm->segments().firstCRSegment();
if (strack % VOICES && !(dtrack % VOICES) && (!tst || (!tst->element(dtrack)))) {
Rest* rest = new Rest(this);
rest->setDuration(dm->len());
rest->setDurationType(TDuration::DurationType::V_MEASURE);
rest->setTrack(dtrack);
if (link) {
Segment* segment = dm->getSegment(Segment::Type::ChordRest, dm->tick());
segment->add(rest);
}
else
undoAddCR(toChordRest(rest), dm, dm->tick());
}
}
if (spanner) {
// Find and add corresponding slurs
auto spanners = score->spannerMap().findOverlapping(start, lTick);
for (auto i = spanners.begin(); i < spanners.end(); i++) {
Spanner* sp = i->value;
int spStart = sp->tick();
int track = sp->track();
int track2 = sp->track2();
int spEnd = spStart + sp->ticks();
qDebug("Start %d End %d Diff %d \n Measure Start %d End %d", spStart, spEnd, spEnd-spStart, start, lTick);
if (sp->isSlur() && (spStart >= start && spEnd < lTick)) {
if (track == strack && track2 == strack){
Spanner* ns;
if (link)
ns = static_cast<Spanner*>(sp->linkedClone());
else
ns = static_cast<Spanner*>(sp->clone());
ns->setScore(this);
ns->setParent(0);
ns->setTrack(dtrack);
ns->setTrack2(dtrack);
// set start/end element for slur
ChordRest* cr1 = sp->startCR();
ChordRest* cr2 = sp->endCR();
ns->setStartElement(0);
ns->setEndElement(0);
if (cr1 && cr1->links()) {
for (ScoreElement* e : *cr1->links()) {
ChordRest* cr = static_cast<ChordRest*>(e);
if (cr == cr1)
continue;
if ((cr->score() == this) && (cr->tick() == ns->tick()) && cr->track() == dtrack) {
ns->setStartElement(cr);
break;
}
}
}
if (cr2 && cr2->links()) {
for (ScoreElement* e : *cr2->links()) {
ChordRest* cr = static_cast<ChordRest*>(e);
if (cr == cr2)
continue;
if ((cr->score() == this) && (cr->tick() == ns->tick2()) && cr->track() == dtrack) {
ns->setEndElement(cr);
break;
}
}
}
undo(new AddElement(ns));
}
}
}
}
//Layout
//TODO ?? doLayoutRange(start, lTick);
}
}
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