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MuseScore/libmscore/edit.cpp
lasconic b276a19bf9 do not create unconnected tie
2013-06-05 16:18:31 +02:00

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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 "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 "tempo.h"
#include "undo.h"
#include "tablature.h"
#include "stafftype.h"
#include "tupletmap.h"
#include "slurmap.h"
#include "tiemap.h"
#include "stem.h"
#include "iname.h"
#include "range.h"
#include "hook.h"
#include "pitchspelling.h"
#include "tempotext.h"
#include "dynamic.h"
#include "repeat.h"
namespace Ms {
//---------------------------------------------------------
// getSelectedNote
//---------------------------------------------------------
Note* Score::getSelectedNote()
{
Element* el = selection().element();
if (el) {
if (el->type() == Element::NOTE)
return static_cast<Note*>(el);
}
selectNoteMessage();
return 0;
}
//---------------------------------------------------------
// getSelectedChordRest
//---------------------------------------------------------
ChordRest* Score::getSelectedChordRest() const
{
Element* el = selection().element();
if (el) {
if (el->type() == Element::NOTE)
return static_cast<Note*>(el)->chord();
else if (el->type() == Element::REST || el->type() == Element::REPEAT_MEASURE)
return static_cast<Rest*>(el);
else if (el->type() == Element::CHORD)
return static_cast<Chord*>(el);
}
selectNoteRestMessage();
return 0;
}
//---------------------------------------------------------
// getSelectedChordRest2
//---------------------------------------------------------
void Score::getSelectedChordRest2(ChordRest** cr1, ChordRest** cr2) const
{
*cr1 = 0;
*cr2 = 0;
foreach(Element* e, selection().elements()) {
if (e->type() == Element::NOTE)
e = e->parent();
if (e->isChordRest()) {
ChordRest* cr = static_cast<ChordRest*>(e);
if (*cr1 == 0 || (*cr1)->tick() > cr->tick())
*cr1 = cr;
if (*cr2 == 0 || (*cr2)->tick() < cr->tick())
*cr2 = cr;
}
}
if (*cr1 == 0)
selectNoteRestMessage();
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 Element::NOTE:
el = el->parent();
// fall through
case Element::REPEAT_MEASURE:
case Element::REST:
case Element::CHORD:
return static_cast<ChordRest*>(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::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::V_MEASURE)
rest->setDuration(s->measure()->stretchedLen(staff(track/VOICES)));
else
rest->setDuration(d.fraction());
rest->setTrack(track);
rest->setParent(s);
rest->setTuplet(tuplet);
undoAddElement(rest);
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);
chord->add(nn);
nn->setPitch(n->pitch(), n->tpc());
}
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);
}
}
updateAccidentals(measure, chord->staffIdx());
return chord;
}
//---------------------------------------------------------
// addClone
//---------------------------------------------------------
ChordRest* Score::addClone(ChordRest* cr, int tick, const TDuration& d)
{
qDebug("addClone %s at %d %s", cr->name(), tick, qPrintable(d.fraction().print()));
ChordRest* newcr;
// change a RepeatMeasure() into an Rest()
if (cr->type() == Element::REPEAT_MEASURE)
newcr = new Rest(*static_cast<Rest*>(cr));
else
newcr = static_cast<ChordRest*>(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)
{
Measure* measure = tick2measure(tick);
Rest* r = 0;
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();
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->timesig() == f)) {
Rest* rest = addRest(tick, track, TDuration(TDuration::V_MEASURE), tuplet);
tick += measure->timesig().ticks();
if (r == 0)
r = rest;
}
else {
//
// compute list of durations which will fit l
//
QList<TDuration> dList = toDurationList(f, useDots);
if (dList.isEmpty())
return 0;
foreach(TDuration d, dList) {
qDebug(" duration %d/%d", d.fraction().numerator(), d.fraction().denominator());
}
Rest* rest = 0;
if (((tick - measure->tick()) % dList[0].ticks()) == 0) {
foreach(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 pitch
//---------------------------------------------------------
Note* Score::addNote(Chord* chord, int pitch)
{
Note* note = new Note(this);
note->setParent(chord);
note->setTrack(chord->track());
note->setPitch(pitch);
note->setTpcFromPitch();
undoAddElement(note);
_playNote = true;
select(note, SELECT_SINGLE, 0);
return note;
}
//---------------------------------------------------------
// 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);
if (note->tpc() == INVALID_TPC)
note->setTpcFromPitch();
undoAddElement(note);
_playNote = true;
select(note, SELECT_SINGLE, 0);
return note;
}
//---------------------------------------------------------
// rewriteMeasures
// rewrite all measures up to the next time signature
// or section break
//---------------------------------------------------------
bool Score::rewriteMeasures(Measure* fm, Measure* lm, const Fraction& ns)
{
int measures = 1;
for (Measure* m = fm; m != lm; m = m -> nextMeasure())
++measures;
ScoreRange range;
range.read(fm->first(), lm->last(), 0, nstaves() * VOICES);
if (!range.canWrite(ns))
return false;
// range.check();
undo(new RemoveMeasures(fm, lm));
//
// calculate number of required measures = nm
//
Fraction k = range.duration();
k /= 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();
if (!fill.isZero())
range.fill(fill);
Measure* nfm = 0;
Measure* nlm = 0;
// create destination measures
int tick = 0;
for (int i = 0; i < nm; ++i) {
Measure* m = new Measure(this);
m->setPrev(nlm);
if (nlm)
nlm->setNext(m);
m->setTimesig(ns);
m->setLen(ns);
m->setTick(tick);
tick += m->ticks();
nlm = m;
if (nfm == 0)
nfm = m;
}
if (!range.write(0, nfm)) {
qDebug("cannot write measures\n");
abort();
}
nlm->setEndBarLineType(lm->endBarLineType(), lm->endBarLineGenerated(),
lm->endBarLineVisible(), lm->endBarLineColor());
//
// insert new calculated measures
//
nfm->setPrev(fm->prev());
nlm->setNext(lm->next());
undo(new InsertMeasures(nfm, nlm));
return true;
}
//---------------------------------------------------------
// warnTupletCrossing
//---------------------------------------------------------
static void warnTupletCrossing()
{
QMessageBox::warning(0,
QT_TRANSLATE_NOOP("addRemoveTimeSig", "MuseScore"),
QT_TRANSLATE_NOOP("addRemoveTimeSig", "cannot rewrite measures:\n"
"tuplet would cross measure")
);
}
//---------------------------------------------------------
// rewriteMeasures
// rewrite all measures up to the next time signature
//---------------------------------------------------------
void Score::rewriteMeasures(Measure* fm, const Fraction& ns)
{
Measure* lm = fm;
Measure* fm1 = fm;
//
// split into Measure segments fm-lm
//
for (MeasureBase* m = fm; ; m = m->next()) {
if (!m || (m->type() != Element::MEASURE)
|| (static_cast<Measure*>(m)->first(Segment::SegTimeSig) && m != fm))
{
if (!rewriteMeasures(fm1, lm, ns)) {
warnTupletCrossing();
for (Measure* m = fm1; m; m = m->nextMeasure()) {
if (m->first(Segment::SegTimeSig))
break;
Fraction fr(ns);
undoChangeProperty(m, P_TIMESIG_NOMINAL, QVariant::fromValue(fr));
}
return;
}
if (!m || m->type() == Element::MEASURE)
break;
while (m->type() != Element::MEASURE) {
m = m->next();
if (!m)
break;
}
fm1 = static_cast<Measure*>(m);
if (fm1 == 0)
break;
}
lm = static_cast<Measure*>(m);
}
}
//---------------------------------------------------------
// 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)
{
Fraction ns = ts->sig();
int tick = fm->tick();
TimeSig* lts = staff(staffIdx)->timeSig(tick);
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::SegTimeSig, tick);
TimeSig* ots = static_cast<TimeSig*>(seg->element(track));
if (ots) {
//
// ignore if there is already a timesig
// with same values
//
if ((ots->timeSigType() == ts->timeSigType())
&& (ots->sig().identical(ts->sig()))
&& (ots->stretch() == ts->stretch())) {
delete ts;
return;
}
}
if (local) {
ts->setParent(seg);
ts->setTrack(track);
ts->setStretch(ts->sig() / lsig);
undoAddElement(ts);
timesigStretchChanged(ts, fm, staffIdx);
return;
}
foreach(Score* score, scoreList()) {
Measure* fm = score->tick2measure(tick);
Measure* nfm = fm;
if (ots && ots->sig() == ts->sig() && ots->stretch() == ts->stretch()) {
//
// Set time signature of all measures up to next
// time signature. Do not touch measure contents.
//
for (Measure* m = fm; m; m = m->nextMeasure()) {
if ((m != fm) && m->first(Segment::SegTimeSig))
break;
bool changeActual = m->len() == m->timesig();
undoChangeProperty(m, P_TIMESIG_NOMINAL, QVariant::fromValue(ns));
if (changeActual)
undoChangeProperty(m, P_TIMESIG_ACTUAL, QVariant::fromValue(ns));
}
}
else {
//
// rewrite all measures up to the next time signature
//
if (fm == firstMeasure() && (fm->len() != fm->timesig())) {
// handle upbeat
undoChangeProperty(fm, P_TIMESIG_NOMINAL, QVariant::fromValue(ns));
score->rewriteMeasures(fm->nextMeasure(), ns);
}
else {
score->rewriteMeasures(fm, ns);
nfm = fm->prev() ? fm->prev()->nextMeasure() : firstMeasure();
}
}
seg = nfm->undoGetSegment(Segment::SegTimeSig, nfm->tick());
int n = score->nstaves();
for (int staffIdx = 0; staffIdx < n; ++staffIdx) {
TimeSig* nsig = static_cast<TimeSig*>(seg->element(staffIdx * VOICES));
if (nsig == 0) {
nsig = new TimeSig(this);
nsig->setTrack(staffIdx * VOICES);
nsig->setParent(seg);
nsig->setSig(ts->sig(), ts->timeSigType());
undoAddElement(nsig);
}
else {
undo(new ChangeTimesig(nsig, false, ts->sig(), ts->stretch(),
ts->numeratorString(), ts->denominatorString(), ts->timeSigType()));
nsig->setDropTarget(0); // DEBUG
}
}
}
delete ts;
}
//---------------------------------------------------------
// timesigStretchChanged
//---------------------------------------------------------
void Score::timesigStretchChanged(TimeSig* ts, Measure* fm, int staffIdx)
{
for (Measure* m = fm; m; m = m->nextMeasure()) {
if ((m != fm) && m->first(Segment::SegTimeSig))
break;
int strack = staffIdx * VOICES;
int etrack = strack + VOICES;
for (Segment* s = m->first(Segment::SegChordRest); s; s = s->next(Segment::SegChordRest)) {
for (int track = strack; track < etrack; ++track) {
ChordRest* cr = static_cast<ChordRest*>(s->element(track));
if (!cr)
continue;
if (cr->type() == Element::REST && cr->durationType() == TDuration::V_MEASURE)
cr->setDuration(ts->sig());
else
qDebug("timeSigChanged: not implemented: chord/rest does not fit");
}
}
}
}
//---------------------------------------------------------
// cmdRemoveTimeSig
//---------------------------------------------------------
void Score::cmdRemoveTimeSig(TimeSig* ts)
{
undoRemoveElement(ts->segment());
Measure* fm = ts->measure();
Measure* lm = fm;
Measure* pm = fm->prevMeasure();
Fraction ns(pm ? pm->timesig() : Fraction(4,4));
for (Measure* m = lm; m; m = m->nextMeasure()) {
if (m->first(Segment::SegTimeSig))
break;
lm = m;
}
rewriteMeasures(fm, ns);
}
//---------------------------------------------------------
// putNote
// mouse click in state NOTE_ENTRY
//---------------------------------------------------------
void Score::putNote(const QPointF& pos, bool replace)
{
Position p;
if (!getPosition(&p, pos, _is.voice())) {
qDebug("cannot put note here, get position failed");
return;
}
putNote(p, replace);
}
void Score::putNote(const Position& p, bool replace)
{
Segment* s = p.segment;
int staffIdx = p.staffIdx;
int line = p.line;
int tick = s->tick();
Staff* st = staff(staffIdx);
ClefType clef = st->clef(tick);
// qDebug("putNote at tick %d staff %d line %d clef %d currentAccidental %d",
// tick, staffIdx, line, clef, acci);
_is.setTrack(staffIdx * VOICES + _is.voice());
_is.setSegment(s);
const Instrument* instr = st->part()->instr();
MScore::Direction stemDirection = MScore::AUTO;
NoteVal nval;
Tablature* neck = 0;
StaffTypeTablature * tab = 0;
switch(st->staffType()->group()) {
case PERCUSSION_STAFF: {
if (_is.rest)
break;
Drumset* ds = instr->drumset();
nval.pitch = _is.drumNote();
if (nval.pitch < 0)
return;
nval.headGroup = ds->noteHead(nval.pitch);
if (nval.headGroup < 0)
return;
stemDirection = ds->stemDirection(nval.pitch);
break;
}
case TAB_STAFF: {
if (_is.rest)
return;
neck = instr->tablature();
tab = (StaffTypeTablature*)st->staffType();
int string = tab->VisualStringToPhys(line);
if (string < 0 || string >= neck->strings())
return;
// build a default NoteVal for that line
nval.string = string;
if(p.fret != FRET_NONE) // if a fret is given, use it
nval.fret = p.fret;
else { // if no fret, use 0 as default
_is.setString(line);
nval.fret = 0;
}
nval.pitch = neck->getPitch(string, nval.fret);
break;
}
case PITCHED_STAFF: {
AccidentalVal acci = s->measure()->findAccidental(s, staffIdx, line);
int step = absStep(line, clef);
int octave = step/7;
nval.pitch = step2pitch(step) + octave * 12 + acci;
nval.tpc = step2tpc(step % 7, acci);
}
break;
}
_is.pitch = nval.pitch;
expandVoice();
ChordRest* cr = _is.cr();
bool addToChord = false;
if (cr) {
// retrieve total duration of current chord
TDuration d = cr->durationType();
Note* note = 0;
if (cr->type() == Element::CHORD) {
Fraction f = cr->duration();
note = static_cast<Chord*>(cr)->upNote();
if (note) {
Note* note2 = note;
while (note2->tieFor() && note2->tieFor()->endNote()) {
note2 = note2->tieFor()->endNote();
f += note2->chord()->duration();
}
TDuration dd(f);
if (dd.isValid())
d = dd;
}
else
qDebug("note not found: %d!", nval.pitch);
}
// if not in replace mode AND chord duration == input duration AND not rest input
// we need to add to current chord (otherwise, we will need to replace it or create a new onw)
if (!replace
&& (d == _is.duration())
&& (cr->type() == Element::CHORD)
&& !_is.rest)
{
if (st->isTabStaff()) { // TAB
// if a note on same string already exists, update to new pitch/fret
foreach(Note * note, static_cast<Chord*>(cr)->notes())
if(note->string() == nval.string) { // if string is the same
// if adding a new digit will keep fret number within fret limit
// add a digit
if (neck && tab->useNumbers() && note->fret() >= 1) {
int fret = note->fret() * 10 + nval.fret;
if (fret <= neck->frets() ) {
nval.fret = fret;
nval.pitch = neck->getPitch(nval.string, nval.fret);
}
else
qDebug("can't increase fret to %d", fret);
}
// otherwise, replace with new fret
note->undoChangeProperty(P_PITCH, nval.pitch);
note->undoChangeProperty(P_FRET, nval.fret);
return;
}
}
else { // not TAB
// if a note with the same pitch already exists in the chord, remove it
Chord* chord = static_cast<Chord*>(cr);
note = chord->findNote(nval.pitch);
if (note) {
if (chord->notes().size() > 1)
undoRemoveElement(note);
return;
}
}
addToChord = true; // if no special case, add note to chord
}
}
if (addToChord && cr->type() == Element::CHORD) {
// if adding, add!
addNote(static_cast<Chord*>(cr), nval);
}
else {
// if not adding, replace current chord (or create a new one)
if (_is.rest)
nval.pitch = -1;
setNoteRest(_is.segment(), _is.track(), nval, _is.duration().fraction(), stemDirection);
}
if (!st->isTabStaff())
moveToNextInputPos();
}
//---------------------------------------------------------
// repitchNote
//---------------------------------------------------------
void Score::repitchNote(const Position& p, bool replace)
{
Segment* s = p.segment;
int tick = s->tick();
Staff* st = staff(p.staffIdx);
ClefType clef = st->clef(tick);
NoteVal nval;
AccidentalVal acci = s->measure()->findAccidental(s, p.staffIdx, p.line);
int step = absStep(p.line, clef);
int octave = step / 7;
nval.pitch = step2pitch(step) + octave * 12 + acci;
nval.tpc = step2tpc(step % 7, acci);
_is.pitch = nval.pitch;
Chord* chord;
if (_is.cr()->type() == Element::REST) {
undoRemoveElement(_is.cr());
chord = new Chord(this);
chord->setParent(s);
chord->setTrack(_is.cr()->track());
undoAddElement(chord);
}
else {
chord = static_cast<Chord*>(_is.cr());
}
Note* note = new Note(this);
note->setNval(nval);
note->setParent(chord);
if (replace) {
while (!chord->notes().isEmpty())
undoRemoveElement(chord->notes().first());
}
undoAddElement(note);
moveToNextInputPos();
}
//---------------------------------------------------------
// cmdAddTie
//---------------------------------------------------------
void Score::cmdAddTie()
{
QList<Note*> noteList;
Element* el = selection().element();
if (el && el->type() == Element::NOTE)
noteList.append(static_cast<Note*>(el));
else if (el && el->type() == Element::STEM) {
Chord* chord = static_cast<Stem*>(el)->chord();
noteList = chord->notes();
}
else
noteList = selection().noteList();
if (noteList.isEmpty()) {
qDebug("no notes selected");
return;
}
startCmd();
foreach (Note* note, noteList) {
if (note->tieFor()) {
qDebug("cmdAddTie: has already tie? noteFor: %p", note->tieFor());
continue;
}
Chord* chord = note->chord();
if (noteEntryMode()) {
if (_is.cr() == 0) {
if (MScore::debugMode)
qDebug("cmdAddTie: no pos");
expandVoice();
}
if (_is.cr() == 0)
break;
bool addFlag = _is.cr()->type() == Element::CHORD;
Note* n = addPitch(note->pitch(), addFlag);
if (n) {
// n is not necessarly next note if duration span over measure
Note* nnote = searchTieNote(note);
if (nnote) {
n->setLine(note->line());
n->setTpc(note->tpc());
Tie* tie = new Tie(this);
tie->setStartNote(note);
tie->setEndNote(nnote);
tie->setTrack(note->track());
note->setTieFor(tie);
nnote->setTieBack(tie);
undoAddElement(tie);
nextInputPos(n->chord(), false);
}
}
continue;
}
Note* note2 = searchTieNote(note);
Part* part = chord->staff()->part();
int strack = part->staves()->front()->idx() * VOICES;
int etrack = strack + part->staves()->size() * VOICES;
for (Segment* seg = chord->segment()->next1(Segment::SegChordRestGrace); seg; seg = seg->next1(Segment::SegChordRestGrace)) {
bool noteFound = false;
for (int track = strack; track < etrack; ++track) {
ChordRest* cr = static_cast<ChordRest*>(seg->element(track));
if (cr == 0 || cr->type() != Element::CHORD)
continue;
int staffIdx = cr->staffIdx() + cr->staffMove();
if (staffIdx != chord->staffIdx() + chord->staffMove())
continue;
foreach(Note* n, static_cast<Chord*>(cr)->notes()) {
if (n->pitch() == note->pitch()) {
if (note2 == 0 || note->chord()->track() == chord->track())
note2 = n;
}
else if (cr->track() == chord->track())
noteFound = true;
}
}
if (noteFound || note2)
break;
}
if(note2) {
Tie* tie = new Tie(this);
tie->setStartNote(note);
tie->setEndNote(note2);
tie->setTrack(note->track());
undoAddElement(tie);
}
}
endCmd();
}
//---------------------------------------------------------
// cmdAddHairpin
// 'H' typed on keyboard
//---------------------------------------------------------
void Score::cmdAddHairpin(bool decrescendo)
{
ChordRest* cr1;
ChordRest* cr2;
getSelectedChordRest2(&cr1, &cr2);
if (!cr1)
return;
if (cr2 == 0)
cr2 = nextChordRest(cr1);
if (cr2 == 0)
return;
Hairpin* pin = new Hairpin(this);
pin->setHairpinType(decrescendo ? Hairpin::DECRESCENDO : Hairpin::CRESCENDO);
pin->setTrack(cr1->track());
pin->setStartElement(cr1->segment());
pin->setEndElement(cr2->segment());
pin->setParent(cr1->segment());
undoAddElement(pin);
if (!noteEntryMode())
select(pin, SELECT_SINGLE, 0);
}
//---------------------------------------------------------
// cmdSetBeamMode
//---------------------------------------------------------
void Score::cmdSetBeamMode(BeamMode mode)
{
ChordRest* cr = getSelectedChordRest();
if (cr == 0)
return;
cr->setBeamMode(mode);
_layoutAll = true;
}
//---------------------------------------------------------
// cmdFlip
//---------------------------------------------------------
void Score::cmdFlip()
{
const QList<Element*>& el = selection().elements();
if (el.isEmpty()) {
selectNoteSlurMessage();
return;
}
foreach (Element* e, el) {
if (e->type() == Element::NOTE || e->type() == Element::STEM || e->type() == Element::HOOK) {
Chord* chord;
if (e->type() == Element::NOTE)
chord = static_cast<Note*>(e)->chord();
else if (e->type() == Element::STEM)
chord = static_cast<Stem*>(e)->chord();
else if (e->type() == Element::HOOK)
chord = static_cast<Hook*>(e)->chord();
if (chord->beam())
e = chord->beam(); // fall trough
else {
MScore::Direction dir = chord->up() ? MScore::DOWN : MScore::UP;
undoChangeProperty(chord, P_STEM_DIRECTION, dir);
}
}
if (e->type() == Element::BEAM) {
Beam* beam = static_cast<Beam*>(e);
MScore::Direction dir = beam->up() ? MScore::DOWN : MScore::UP;
undoChangeProperty(beam, P_STEM_DIRECTION, dir);
}
else if (e->type() == Element::SLUR_SEGMENT) {
SlurTie* slur = static_cast<SlurSegment*>(e)->slurTie();
MScore::Direction dir = slur->up() ? MScore::DOWN : MScore::UP;
undoChangeProperty(slur, P_SLUR_DIRECTION, dir);
}
else if (e->type() == Element::HAIRPIN_SEGMENT) {
int st = static_cast<Hairpin*>(e)->hairpinType() == 0 ? 1 : 0;
e->score()->undoChangeProperty(e, P_SUBTYPE, st);
}
else if (e->type() == Element::ARTICULATION) {
Articulation* a = static_cast<Articulation*>(e);
if (a->articulationType() == Articulation_Staccato
|| a->articulationType() == Articulation_Tenuto
|| a->articulationType() == Articulation_Sforzatoaccent) {
ArticulationAnchor aa = a->anchor();
if (aa == A_TOP_CHORD)
aa = A_BOTTOM_CHORD;
else if (aa == A_BOTTOM_CHORD)
aa = A_TOP_CHORD;
else if (aa == A_CHORD)
aa = a->up() ? A_BOTTOM_CHORD : A_TOP_CHORD;
if (aa != a->anchor())
undoChangeProperty(a, P_ARTICULATION_ANCHOR, aa);
}
else {
MScore::Direction d = a->up() ? MScore::DOWN : MScore::UP;
undoChangeProperty(a, P_DIRECTION, d);
}
return; // no layoutAll
}
else if (e->type() == Element::TUPLET) {
Tuplet* tuplet = static_cast<Tuplet*>(e);
MScore::Direction d = tuplet->isUp() ? MScore::DOWN : MScore::UP;
undoChangeProperty(tuplet, P_DIRECTION, d);
}
else if (e->type() == Element::NOTEDOT)
undo(new FlipNoteDotDirection(static_cast<Note*>(e->parent())));
else if (
(e->type() == Element::TEMPO_TEXT)
| (e->type() == Element::DYNAMIC)
| (e->type() == Element::HAIRPIN)
| (e->type() == Element::DYNAMIC)
) {
Element::Placement p = e->placement() == Element::ABOVE ? Element::BELOW : Element::ABOVE;
undoChangeProperty(e, P_PLACEMENT, p);
}
}
_layoutAll = true; // must be set in und/redo
}
//---------------------------------------------------------
// cmdAddBSymbol
// add Symbol or Image
//---------------------------------------------------------
void Score::cmdAddBSymbol(BSymbol* s, const QPointF& pos, const QPointF& off)
{
s->setSelected(false);
bool foundPage = false;
foreach (Page* page, pages()) {
if (page->contains(pos)) {
const QList<System*>* sl = page->systems();
if (sl->isEmpty()) {
qDebug("addSymbol: cannot put symbol here: no system on page");
delete s;
return;
}
System* system = sl->front();
MeasureBase* m = system->measures().front();
if (m == 0) {
qDebug("addSymbol: cannot put symbol here: no measure in system");
delete s;
return;
}
s->setPos(0.0, 0.0);
s->setUserOff(pos - m->pagePos() - off);
s->setTrack(0);
s->setParent(m);
foundPage = true;
break;
}
}
if (!foundPage) {
qDebug("addSymbol: cannot put symbol here: no page");
delete s;
return;
}
undoAddElement(s);
addRefresh(s->abbox());
select(s, SELECT_SINGLE, 0);
}
//---------------------------------------------------------
// deleteItem
//---------------------------------------------------------
void Score::deleteItem(Element* el)
{
switch(el->type()) {
case Element::INSTRUMENT_NAME: {
Part* part = el->staff()->part();
InstrumentName* in = static_cast<InstrumentName*>(el);
if (in->instrumentNameType() == INSTRUMENT_NAME_LONG)
undo(new ChangeInstrumentLong(0, part, QList<StaffNameDoc>()));
else if (in->instrumentNameType() == INSTRUMENT_NAME_SHORT)
undo(new ChangeInstrumentShort(0, part, QList<StaffNameDoc>()));
}
break;
case Element::TIMESIG:
cmdRemoveTimeSig(static_cast<TimeSig*>(el));
break;
case Element::OTTAVA_SEGMENT:
case Element::HAIRPIN_SEGMENT:
case Element::TRILL_SEGMENT:
case Element::TEXTLINE_SEGMENT:
case Element::VOLTA_SEGMENT:
case Element::SLUR_SEGMENT:
case Element::PEDAL_SEGMENT:
undoRemoveElement(static_cast<SpannerSegment*>(el)->spanner());
break;
case Element::NOTE:
{
Chord* chord = static_cast<Chord*>(el->parent());
if (chord->notes().size() > 1) {
undoRemoveElement(el);
break;
}
// else fall through
el = chord;
}
case Element::CHORD:
{
Chord* chord = static_cast<Chord*>(el);
removeChordRest(chord, false);
// replace with rest if voice 0 or if in tuplet
Tuplet* tuplet = chord->tuplet();
// if ((el->voice() == 0 || tuplet) && (chord->noteType() == NOTE_NORMAL)) {
if (chord->noteType() == NOTE_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());
// undoAddElement(rest);
if (tuplet) {
tuplet->add(rest);
rest->setTuplet(tuplet);
rest->setDurationType(chord->durationType());
}
select(rest, SELECT_SINGLE, 0);
}
else {
// remove segment if empty
Segment* seg = chord->segment();
if (seg->isEmpty())
undoRemoveElement(seg);
}
}
break;
case Element::REPEAT_MEASURE:
{
RepeatMeasure* rm = static_cast<RepeatMeasure*>(el);
removeChordRest(rm, false);
Rest* rest = new Rest(this);
rest->setDurationType(TDuration::V_MEASURE);
rest->setDuration(rm->measure()->len());
rest->setTrack(rm->track());
rest->setParent(rm->parent());
Segment* segment = rm->segment();
undoAddCR(rest, segment->measure(), segment->tick());
}
case Element::REST:
//
// only allow for voices != 0
// e.g. voice 0 rests cannot be removed
//
{
Rest* rest = static_cast<Rest*>(el);
if (rest->tuplet() && rest->tuplet()->elements().empty())
undoRemoveElement(rest->tuplet());
if (el->voice() != 0)
undoRemoveElement(el);
}
break;
case Element::MEASURE:
{
Measure* measure = static_cast<Measure*>(el);
undo(new RemoveElement(measure));
}
break;
case Element::ACCIDENTAL:
changeAccidental(static_cast<Note*>(el->parent()), Accidental::ACC_NONE);
break;
case Element::BAR_LINE:
{
BarLine* bl = static_cast<BarLine*>(el);
if (bl->parent()->type() != Element::SEGMENT)
break;
Segment* seg = static_cast<Segment*>(bl->parent());
bool normalBar = seg->measure()->endBarLineType() == NORMAL_BAR;
int tick = seg->tick();
Segment::SegmentType segType = seg->segmentType();
foreach(Score* score, scoreList()) {
Measure* m = score->tick2measure(tick);
if (segType == Segment::SegStartRepeatBarLine)
undoChangeProperty(m, P_REPEAT_FLAGS, m->repeatFlags() & ~RepeatStart);
else if (segType == Segment::SegBarLine)
undoRemoveElement(el);
else if (segType == Segment::SegEndBarLine) {
// if bar line has custom barLineType, change to barLineType of the whole measure
if (bl->customSubtype()) {
undoChangeProperty(bl, P_SUBTYPE, seg->measure()->endBarLineType());
}
// otherwise, if whole measure has special end bar line, change to normal
else if (!normalBar) {
if (m->tick() >= tick)
m = m->prevMeasure();
undoChangeProperty(m, P_REPEAT_FLAGS, m->repeatFlags() & ~RepeatEnd);
Measure* nm = m->nextMeasure();
if (nm)
undoChangeProperty(nm, P_REPEAT_FLAGS, nm->repeatFlags() & ~RepeatStart);
undoChangeEndBarLineType(m, NORMAL_BAR);
m->setEndBarLineGenerated(true);
}
}
}
}
break;
case Element::TUPLET:
cmdDeleteTuplet(static_cast<Tuplet*>(el), true);
break;
default:
undoRemoveElement(el);
break;
}
}
//---------------------------------------------------------
// cmdDeleteSelectedMeasures
//---------------------------------------------------------
void Score::cmdDeleteSelectedMeasures()
{
if (selection().state() != SEL_RANGE)
return;
MeasureBase* is = selection().startSegment()->measure();
int startIdx = measureIdx(is);
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()->prev() : seg->measure();
else
ie = lastMeasure();
int endIdx = measureIdx(ie);
Measure* mBeforeSel = is->prevMeasure();
// createEndBar if last measure is deleted
bool createEndBar = false;
if (ie->type() == Element::MEASURE) {
Measure* iem = static_cast<Measure*>(ie);
createEndBar = (iem == lastMeasure()) && (iem->endBarLineType() == END_BAR);
}
// get the last deleted timesig in order to restore after deletion
TimeSig* lastDeletedSig = 0;
for (MeasureBase* mb = ie;; mb = mb->prev()) {
if (mb->type() == Element::MEASURE) {
Measure* m = static_cast<Measure*>(mb);
Segment* sts = m->findSegment(Segment::SegTimeSig, m->tick());
if (sts) {
lastDeletedSig = static_cast<TimeSig*>(sts->element(0));
break;
}
}
if (mb == is)
break;
}
QList<Score*> scores = scoreList();
foreach(Score* score, scores) {
MeasureBase* is = score->measure(startIdx);
MeasureBase* ie = score->measure(endIdx);
for (;;) {
deleteItem(ie);
if (ie == is)
break;
ie = ie->prev();
if (ie == 0)
break;
}
}
if (createEndBar) {
MeasureBase* mb = _measures.last();
while (mb && mb->type() != Element::MEASURE)
mb = mb->prev();
if (mb) {
Measure* lastMeasure = static_cast<Measure*>(mb);
if (lastMeasure->endBarLineType() == NORMAL_BAR) {
undoChangeEndBarLineType(lastMeasure, END_BAR);
}
}
}
// insert correct timesig after deletion
Measure* mAfterSel = mBeforeSel ? mBeforeSel->nextMeasure() : firstMeasure();
if (mAfterSel && lastDeletedSig) {
bool changed = true;
if (mBeforeSel) {
if (mBeforeSel->timesig() == mAfterSel->timesig()) {
changed = false;
}
}
Segment* s = mAfterSel->findSegment(Segment::SegTimeSig, mAfterSel->tick());
if (!s && changed) {
Segment* ns = mAfterSel->undoGetSegment(Segment::SegTimeSig, mAfterSel->tick());
for (int staffIdx = 0; staffIdx < nstaves(); staffIdx++) {
TimeSig* nts = new TimeSig(this);
nts->setTrack(staffIdx * VOICES);
nts->setParent(ns);
nts->setSig(lastDeletedSig->sig(), lastDeletedSig->timeSigType());
undoAddElement(nts);
}
}
}
select(0, SELECT_SINGLE, 0);
_is.setSegment(0); // invalidate position
}
//---------------------------------------------------------
// cmdDeleteSelection
//---------------------------------------------------------
void Score::cmdDeleteSelection()
{
if (selection().state() == SEL_RANGE) {
Segment* s1 = selection().startSegment();
Segment* s2 = selection().endSegment();
Segment* ss1 = s1;
if (ss1->segmentType() != Segment::SegChordRest)
ss1 = ss1->next1(Segment::SegChordRest);
bool fullMeasure = ss1 && (ss1->measure()->first(Segment::SegChordRest) == ss1)
&& (s2 == 0 || (s2->segmentType() == Segment::SegEndBarLine));
int tick2 = s2 ? s2->tick() : INT_MAX;
int track1 = selection().staffStart() * VOICES;
int track2 = selection().staffEnd() * VOICES;
for (int track = track1; track < track2; ++track) {
Fraction f;
int tick = -1;
Tuplet* tuplet = 0;
for (Segment* s = s1; s != s2; s = s->next1()) {
if (s->element(track) &&
((s->segmentType() == Segment::SegBreath)
|| (s->segmentType() == Segment::SegGrace))) {
deleteItem(s->element(track));
continue;
}
if (s->segmentType() != Segment::SegChordRest || !s->element(track))
continue;
ChordRest* cr = static_cast<ChordRest*>(s->element(track));
if (tick == -1) {
// first ChordRest found:
int offset = cr->tick() - s->measure()->tick();
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()) {
setRest(m->tick(), track, Fraction(m->len()), false, 0);
if (s2 && (m == s2->measure()))
break;
}
}
else {
setRest(tick, track, f, false, tuplet);
}
}
}
}
else {
// deleteItem modifies selection().elements() list,
// so we need a local copy:
QList<Element*> el(selection().elements());
if (el.isEmpty())
qDebug("...nothing selected");
foreach(Element* e, el)
deleteItem(e);
if (!noteEntryMode()) // in entry mode deleting note or chord add rest selected
deselectAll();
}
_layoutAll = true;
}
//---------------------------------------------------------
// addLyrics
// called from Keyboard Accelerator & menue
//---------------------------------------------------------
Lyrics* Score::addLyrics()
{
Element* el = selection().element();
if (el == 0 || (el->type() != Element::NOTE && el->type() != Element::LYRICS)) {
QMessageBox::information(0,
QMessageBox::tr("MuseScore:"),
QMessageBox::tr("No note or lyrics selected:\n"
"Please select a single note or lyrics and retry operation\n"),
QMessageBox::Ok, QMessageBox::NoButton);
return 0;
}
ChordRest* cr;
if (el->type() == Element::NOTE)
cr = static_cast<Note*>(el)->chord();
else if (el->type() == Element::LYRICS)
cr = static_cast<Lyrics*>(el)->chordRest();
else
return 0;
QList<Lyrics*> ll = cr->lyricsList();
int no = ll.size();
Lyrics* lyrics = new Lyrics(this);
lyrics->setTrack(cr->track());
lyrics->setParent(cr);
lyrics->setNo(no);
undoAddElement(lyrics);
select(lyrics, SELECT_SINGLE, 0);
return lyrics;
}
//---------------------------------------------------------
// cmdCreateTuplet
// replace cr with tuplet
//---------------------------------------------------------
void Score::cmdCreateTuplet(ChordRest* ocr, Tuplet* tuplet)
{
qDebug("createTuplet at %d <%s> duration <%s> ratio <%s> baseLen <%s>",
ocr->tick(), ocr->name(),
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->type() == Element::CHORD) {
cr = new Chord(this);
foreach(Note* oldNote, static_cast<Chord*>(ocr)->notes()) {
Note* note = new Note(this);
note->setPitch(oldNote->pitch(), oldNote->tpc());
cr->add(note);
}
}
else
cr = new Rest(this);
Fraction an = (tuplet->duration() * tuplet->ratio()) / tuplet->baseLen().fraction();
int actualNotes = an.numerator() / an.denominator();
cr->setTuplet(tuplet);
cr->setTrack(track);
cr->setDurationType(tuplet->baseLen());
cr->setDuration(tuplet->baseLen().fraction());
qDebug("tuplet note duration %s actualNotes %d ticks %d",
qPrintable(tuplet->baseLen().name()), actualNotes, cr->actualTicks());
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);
}
_layoutAll = true;
}
//---------------------------------------------------------
// 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_COLOR, c);
e->setGenerated(false);
refresh |= e->abbox();
if (e->type() == Element::BAR_LINE) {
Element* ep = e->parent();
if (ep->type() == Element::SEGMENT && static_cast<Segment*>(ep)->segmentType() == Segment::SegEndBarLine) {
Measure* m = static_cast<Segment*>(ep)->measure();
BarLine* bl = static_cast<BarLine*>(e);
m->setEndBarLineType(bl->barLineType(), false, e->visible(), e->color());
}
}
}
}
deselectAll();
}
//---------------------------------------------------------
// cmdExchangeVoice
//---------------------------------------------------------
void Score::cmdExchangeVoice(int s, int d)
{
if (selection().state() != SEL_RANGE) {
selectStavesMessage();
return;
}
int t1 = selection().tickStart();
int t2 = selection().tickEnd();
Measure* m1 = tick2measure(t1);
Measure* m2 = tick2measure(t2);
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(), MScore::AUTO);
moveToNextInputPos();
_is.rest = 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)
{
undoRemoveElement(cr);
if (clearSegment) {
Segment* seg = cr->segment();
if (seg->isEmpty())
undoRemoveElement(seg);
}
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)
{
qDebug("Score::cmdDeleteTuplet elements %d replace %d",
tuplet->elements().size(), replaceWithRest);
foreach(DurationElement* de, tuplet->elements()) {
qDebug(" element %s", de->name());
if (de->isChordRest())
removeChordRest(static_cast<ChordRest*>(de), true);
else {
Q_ASSERT(de->type() == Element::TUPLET);
cmdDeleteTuplet(static_cast<Tuplet*>(de), false);
}
}
// undoRemoveElement(tuplet);
if (replaceWithRest) {
Rest* rest = setRest(tuplet->tick(), tuplet->track(), tuplet->duration(), true, 0);
if (tuplet->tuplet()) {
rest->setTuplet(tuplet->tuplet());
tuplet->tuplet()->add(rest);
}
}
}
//---------------------------------------------------------
// 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());
int track = (cr->track() / VOICES) * VOICES;
ncr = s ? static_cast<ChordRest*>(s->element(track)) : 0;
}
_is.setSegment(ncr ? ncr->segment() : 0);
if (doSelect)
select(ncr, SELECT_SINGLE, 0);
// if (ncr)
// emit posChanged(ncr->tick());
}
//---------------------------------------------------------
// insertMeasure
// Create a new MeasureBase of type type and insert
// before measure.
// If measure is zero, append new MeasureBase.
//---------------------------------------------------------
MeasureBase* Score::insertMeasure(Element::ElementType type, MeasureBase* measure,
bool createEmptyMeasures)
{
int tick;
int idx;
if (measure) {
tick = measure->tick();
idx = measureIdx(measure);
}
else {
measure = last();
if (measure)
tick = measure->tick() + measure->ticks();
else
tick = 0;
idx = -1;
}
MeasureBase* omb = 0;
foreach(Score* score, scoreList()) {
MeasureBase* mb = static_cast<MeasureBase*>(Element::create(type, score));
MeasureBase* im = idx != -1 ? score->measure(idx) : 0;
// insert before im, append if im = 0
mb->setTick(tick);
if (score == this)
omb = mb;
if (type == Element::MEASURE) {
bool createEndBar = false;
bool endBarGenerated = false;
if (idx == -1) {
Measure* lm = score->lastMeasure();
if (lm && lm->endBarLineType() == END_BAR) {
createEndBar = true;
if (!lm->endBarLineGenerated()) {
score->undoChangeEndBarLineType(lm, NORMAL_BAR);
}
else {
endBarGenerated = true;
lm->setEndBarLineType(NORMAL_BAR, true);
}
}
else if (lm == 0)
createEndBar = true;
}
Fraction f = score->sigmap()->timesig(tick).nominal();
Measure* m = static_cast<Measure*>(mb);
m->setTimesig(f);
m->setLen(f);
QList<TimeSig*> tsl;
QList<KeySig*> ksl;
QList<Clef*> cl;
if (tick == 0) {
//
// remove time and key signatures
//
for (int staffIdx = 0; staffIdx < nstaves(); ++staffIdx) {
for (Segment* s = score->firstSegment(); s && s->tick() == 0; s = s->next()) {
Element* e = s->element(staffIdx * VOICES);
if (e == 0)
continue;
if (e->type() == Element::KEYSIG) {
KeySig* ks = static_cast<KeySig*>(e);
ksl.append(ks);
undo(new RemoveElement(ks));
if (ks->segment()->isEmpty())
undoRemoveElement(ks->segment());
}
else if (e->type() == Element::TIMESIG) {
TimeSig* ts = static_cast<TimeSig*>(e);
tsl.append(ts);
undo(new RemoveElement(ts));
if (ts->segment()->isEmpty())
undoRemoveElement(ts->segment());
}
else if (e->type() == Element::CLEF) {
Clef* clef = static_cast<Clef*>(e);
cl.append(clef);
undo(new RemoveElement(e));
if (clef->segment()->isEmpty())
undoRemoveElement(clef->segment());
}
}
}
}
undo(new InsertMeasure(m, im));
//
// if measure is inserted at tick zero,
// create key and time signature
//
foreach(TimeSig* ts, tsl) {
TimeSig* nts = new TimeSig(*ts);
Segment* s = m->undoGetSegment(Segment::SegTimeSig, 0);
nts->setParent(s);
undoAddElement(nts);
}
foreach(KeySig* ks, ksl) {
KeySig* nks = new KeySig(*ks);
Segment* s = m->undoGetSegment(Segment::SegKeySig, 0);
nks->setParent(s);
undoAddElement(nks);
}
foreach(Clef* clef, cl) {
Clef* nClef = new Clef(*clef);
Segment* s = m->undoGetSegment(Segment::SegClef, 0);
nClef->setParent(s);
undoAddElement(nClef);
}
if (createEndBar) {
Measure* lm = score->lastMeasure();
if (lm)
lm->setEndBarLineType(END_BAR, endBarGenerated);
}
score->fixTicks();
}
else {
undo(new InsertMeasure(mb, im));
}
}
if (type == Element::MEASURE && !createEmptyMeasures) {
//
// fill measure with rest
//
Score* root = rootScore();
Measure* m = static_cast<Measure*>(omb);
for (int staffIdx = 0; staffIdx < root->nstaves(); ++staffIdx) {
int track = staffIdx * VOICES;
Segment* s = m->findSegment(Segment::SegChordRest, m->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::V_MEASURE));
rest->setDuration(m->len());
rest->setTrack(track);
undoAddCR(rest, m, m->tick());
}
}
}
return omb;
}
}
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