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MuseScore/libmscore/slur.cpp
Werner Schweer db99ff0b15 fixes for slur autoplace
2016-11-16 08:54:26 +01:00

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//=============================================================================
// MuseScore
// Music Composition & Notation
//
// Copyright (C) 2002-2016 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 "measure.h"
#include "score.h"
#include "system.h"
#include "undo.h"
#include "chord.h"
#include "stem.h"
#include "slur.h"
#include "tie.h"
#include "part.h"
#include "navigate.h"
namespace Ms {
Element* SlurTie::editEndElement;
Element* SlurTie::editStartElement;
QList<SlurOffsets> SlurTie::editUps;
//---------------------------------------------------------
// draw
//---------------------------------------------------------
void SlurSegment::draw(QPainter* painter) const
{
QPen pen(curColor());
switch (slurTie()->lineType()) {
case 0:
painter->setBrush(QBrush(pen.color()));
pen.setCapStyle(Qt::RoundCap);
pen.setJoinStyle(Qt::RoundJoin);
pen.setWidthF(score()->styleP(StyleIdx::SlurEndWidth));
break;
case 1:
painter->setBrush(Qt::NoBrush);
pen.setWidthF(score()->styleP(StyleIdx::SlurDottedWidth));
pen.setStyle(Qt::DotLine);
break;
case 2:
painter->setBrush(Qt::NoBrush);
pen.setWidthF(score()->styleP(StyleIdx::SlurDottedWidth));
pen.setStyle(Qt::DashLine);
break;
}
painter->setPen(pen);
painter->drawPath(path);
}
//---------------------------------------------------------
// updateGrips
// return grip rectangles in page coordinates
//---------------------------------------------------------
void SlurSegment::updateGrips(Grip* defaultGrip, QVector<QRectF>& r) const
{
*defaultGrip = Grip::END;
QPointF p(pagePos());
p -= QPointF(0.0, system()->staff(staffIdx())->y()); // ??
for (int i = 0; i < int(Grip::GRIPS); ++i)
r[i].translate(_ups[i].p + _ups[i].off + p);
}
//---------------------------------------------------------
// searchCR
//---------------------------------------------------------
static ChordRest* searchCR(Segment* segment, int startTrack, int endTrack)
{
// for (Segment* s = segment; s; s = s->next1MM(Segment::Type::ChordRest)) {
for (Segment* s = segment; s; s = s->next(Segment::Type::ChordRest)) { // restrict search to measure
if (startTrack > endTrack) {
for (int t = startTrack-1; t >= endTrack; --t) {
if (s->element(t))
return toChordRest(s->element(t));
}
}
else {
for (int t = startTrack; t < endTrack; ++t) {
if (s->element(t))
return toChordRest(s->element(t));
}
}
}
return 0;
}
//---------------------------------------------------------
// edit
// return true if event is accepted
//---------------------------------------------------------
bool SlurSegment::edit(MuseScoreView* viewer, Grip curGrip, int key, Qt::KeyboardModifiers modifiers, const QString&)
{
Slur* sl = slur();
if (key == Qt::Key_X) {
sl->setSlurDirection(sl->up() ? Direction::DOWN : Direction::UP);
sl->layout();
return true;
}
if (key == Qt::Key_Home) {
ups(curGrip).off = QPointF();
sl->layout();
return true;
}
if (!((modifiers & Qt::ShiftModifier)
&& ((spannerSegmentType() == SpannerSegmentType::SINGLE)
|| (spannerSegmentType() == SpannerSegmentType::BEGIN && curGrip == Grip::START)
|| (spannerSegmentType() == SpannerSegmentType::END && curGrip == Grip::END)
)))
return false;
ChordRest* cr = 0;
ChordRest* e;
ChordRest* e1;
if (curGrip == Grip::START) {
e = sl->startCR();
e1 = sl->endCR();
}
else {
e = sl->endCR();
e1 = sl->startCR();
}
if (key == Qt::Key_Left)
cr = prevChordRest(e);
else if (key == Qt::Key_Right)
cr = nextChordRest(e);
else if (key == Qt::Key_Up) {
Part* part = e->part();
int startTrack = part->startTrack();
int endTrack = e->track();
cr = searchCR(e->segment(), endTrack, startTrack);
}
else if (key == Qt::Key_Down) {
int startTrack = e->track() + 1;
Part* part = e->part();
int endTrack = part->endTrack();
cr = searchCR(e->segment(), startTrack, endTrack);
}
if (cr && cr != e1)
changeAnchor(viewer, curGrip, cr);
undoChangeProperty(P_ID::AUTOPLACE, false);
return true;
}
//---------------------------------------------------------
// changeAnchor
//---------------------------------------------------------
void SlurSegment::changeAnchor(MuseScoreView* viewer, Grip curGrip, Element* element)
{
if (curGrip == Grip::START) {
spanner()->setStartElement(element);
switch (spanner()->anchor()) {
case Spanner::Anchor::NOTE: {
Tie* tie = toTie(spanner());
Note* note = toNote(element);
if (note->chord()->tick() <= tie->endNote()->tick()) {
tie->startNote()->setTieFor(0);
tie->setStartNote(note);
note->setTieFor(tie);
}
break;
}
case Spanner::Anchor::CHORD:
spanner()->setTick(element->tick());
spanner()->setTick2(spanner()->endElement()->tick());
spanner()->setTrack(element->track());
if (score()->spannerMap().removeSpanner(spanner()))
score()->addSpanner(spanner());
break;
case Spanner::Anchor::SEGMENT:
case Spanner::Anchor::MEASURE:
qDebug("SlurSegment::changeAnchor: bad anchor");
break;
}
}
else {
spanner()->setEndElement(element);
switch (spanner()->anchor()) {
case Spanner::Anchor::NOTE: {
Tie* tie = toTie(spanner());
Note* note = toNote(element);
// do not allow backward ties
if (note->chord()->tick() >= tie->startNote()->tick()) {
tie->endNote()->setTieBack(0);
tie->setEndNote(note);
note->setTieBack(tie);
}
break;
}
case Spanner::Anchor::CHORD:
spanner()->setTick2(element->tick());
spanner()->setTrack2(element->track());
break;
case Spanner::Anchor::SEGMENT:
case Spanner::Anchor::MEASURE:
qDebug("SlurSegment::changeAnchor: bad anchor");
break;
}
}
int segments = spanner()->spannerSegments().size();
ups(curGrip).off = QPointF();
spanner()->layout();
if (spanner()->spannerSegments().size() != segments) {
QList<SpannerSegment*>& ss = spanner()->spannerSegments();
SlurSegment* newSegment = toSlurSegment(curGrip == Grip::END ? ss.back() : ss.front());
score()->endCmd();
score()->startCmd();
viewer->startEdit(newSegment, curGrip);
score()->setLayoutAll();
}
}
//---------------------------------------------------------
// gripAnchor
//---------------------------------------------------------
QPointF SlurSegment::gripAnchor(Grip grip) const
{
SlurPos spos;
slurTie()->slurPos(&spos);
QPointF sp(system()->pagePos());
QPointF p1(spos.p1 + spos.system1->pagePos());
QPointF p2(spos.p2 + spos.system2->pagePos());
switch (spannerSegmentType()) {
case SpannerSegmentType::SINGLE:
if (grip == Grip::START)
return p1;
else if (grip == Grip::END)
return p2;
break;
case SpannerSegmentType::BEGIN:
if (grip == Grip::START)
return p1;
else if (grip == Grip::END)
return system()->abbox().topRight();
break;
case SpannerSegmentType::MIDDLE:
if (grip == Grip::START)
return sp;
else if (grip == Grip::END)
return system()->abbox().topRight();
break;
case SpannerSegmentType::END:
if (grip == Grip::START)
return sp;
else if (grip == Grip::END)
return p2;
break;
}
return QPointF();
}
//---------------------------------------------------------
// getGrip
//---------------------------------------------------------
QPointF SlurSegment::getGrip(Grip n) const
{
switch (n) {
case Grip::START:
case Grip::END:
return (ups(n).p - gripAnchor(n)) / spatium() + ups(n).off / spatium();
default:
return ups(n).off / spatium();
}
}
//---------------------------------------------------------
// setGrip
//---------------------------------------------------------
void SlurSegment::setGrip(Grip n, const QPointF& pt)
{
switch (n) {
case Grip::START:
case Grip::END:
ups(n).off = ((pt * spatium()) - (ups(n).p - gripAnchor(n)));
break;
default:
ups(n).off = pt * spatium();
break;
}
slurTie()->layout();
}
//---------------------------------------------------------
// editDrag
//---------------------------------------------------------
void SlurSegment::editDrag(const EditData& ed)
{
ups(ed.curGrip).off += ed.delta;
Grip g = ed.curGrip;
if (g == Grip::START || g == Grip::END) {
computeBezier();
//
// move anchor for slurs/ties
//
if ((g == Grip::START && isSingleBeginType()) || (g == Grip::END && isSingleEndType())) {
Spanner* spanner = slurTie();
Qt::KeyboardModifiers km = qApp->keyboardModifiers();
Note* note = static_cast<Note*>(ed.view->elementNear(ed.pos));
if (note && note->isNote()
&& ((g == Grip::END && note->tick() > slurTie()->tick()) || (g == Grip::START && note->tick() < slurTie()->tick2()))
) {
if (g == Grip::END && spanner->isTie()) {
Tie* tie = toTie(spanner);
if (tie->startNote()->pitch() == note->pitch()
&& tie->startNote()->chord()->tick() < note->chord()->tick()) {
ed.view->setDropTarget(note);
if (note != tie->endNote()) {
changeAnchor(ed.view, ed.curGrip, note);
return;
}
}
}
else if (!spanner->isTie() && km != (Qt::ShiftModifier | Qt::ControlModifier)) {
Chord* c = note->chord();
ed.view->setDropTarget(note);
if (c != spanner->endCR()) {
changeAnchor(ed.view, g, c);
slurTie()->layout();
}
}
}
else
ed.view->setDropTarget(0);
}
}
else if (ed.curGrip == Grip::BEZIER1 || ed.curGrip == Grip::BEZIER2)
computeBezier();
else if (ed.curGrip == Grip::SHOULDER) {
ups(ed.curGrip).off = QPointF();
computeBezier(ed.delta);
}
else if (ed.curGrip == Grip::DRAG) {
ups(Grip::DRAG).off = QPointF();
setUserOff(userOff() + ed.delta);
}
undoChangeProperty(P_ID::AUTOPLACE, false);
}
//---------------------------------------------------------
// computeBezier
// compute help points of slur bezier segment
//---------------------------------------------------------
void SlurSegment::computeBezier(QPointF p6o)
{
qreal _spatium = spatium();
qreal shoulderW; // height as fraction of slur-length
qreal shoulderH;
//
// p1 and p2 are the end points of the slur
//
QPointF pp1 = ups(Grip::START).p + ups(Grip::START).off;
QPointF pp2 = ups(Grip::END).p + ups(Grip::END).off;
QPointF p2 = pp2 - pp1;
if ((p2.x() == 0.0) && (p2.y() == 0.0)) {
Measure* m1 = slur()->startCR()->segment()->measure();
Measure* m2 = slur()->endCR()->segment()->measure();
qDebug("zero slur at tick %d(%d) track %d in measure %d-%d tick %d ticks %d",
m1->tick(), tick(), track(), m1->no(), m2->no(), slur()->tick(), slur()->ticks());
slur()->setBroken(true);
return;
}
qreal sinb = atan(p2.y() / p2.x());
QTransform t;
t.rotateRadians(-sinb);
p2 = t.map(p2);
p6o = t.map(p6o);
double smallH = 0.5;
qreal d = p2.x() / _spatium;
if (d <= 2.0) {
shoulderH = d * 0.5 * smallH * _spatium;
shoulderW = .6;
}
else {
qreal dd = log10(1.0 + (d - 2.0) * .5) * 2.0;
if (dd > 3.0)
dd = 3.0;
shoulderH = (dd + smallH) * _spatium;
if (d > 18.0)
shoulderW = 0.7; // 0.8;
else if (d > 10)
shoulderW = 0.6; // 0.7;
else
shoulderW = 0.5; // 0.6;
}
shoulderH -= p6o.y();
if (!slur()->up())
shoulderH = -shoulderH;
qreal c = p2.x();
qreal c1 = (c - c * shoulderW) * .5 + p6o.x();
qreal c2 = c1 + c * shoulderW + p6o.x();
QPointF p5 = QPointF(c * .5, 0.0);
QPointF p3(c1, -shoulderH);
QPointF p4(c2, -shoulderH);
qreal w = score()->styleP(StyleIdx::SlurMidWidth) - score()->styleP(StyleIdx::SlurEndWidth);
if ((c2 - c1) <= _spatium)
w *= .5;
QPointF th(0.0, w); // thickness of slur
QPointF p3o = p6o + t.map(ups(Grip::BEZIER1).off);
QPointF p4o = p6o + t.map(ups(Grip::BEZIER2).off);
if (!p6o.isNull()) {
QPointF p6i = t.inverted().map(p6o);
ups(Grip::BEZIER1).off += p6i ;
ups(Grip::BEZIER2).off += p6i;
}
//-----------------------------------calculate p6
QPointF pp3 = p3 + p3o;
QPointF pp4 = p4 + p4o;
QPointF ppp4 = pp4 - pp3;
qreal r2 = atan(ppp4.y() / ppp4.x());
t.reset();
t.rotateRadians(-r2);
QPointF p6 = QPointF(t.map(ppp4).x() * .5, 0.0);
t.rotateRadians(2 * r2);
p6 = t.map(p6) + pp3 - p6o;
//-----------------------------------
path = QPainterPath();
path.moveTo(QPointF());
path.cubicTo(p3 + p3o - th, p4 + p4o - th, p2);
if (slur()->lineType() == 0)
path.cubicTo(p4 +p4o + th, p3 + p3o + th, QPointF());
th = QPointF(0.0, 3.0 * w);
shapePath = QPainterPath();
shapePath.moveTo(QPointF());
shapePath.cubicTo(p3 + p3o - th, p4 + p4o - th, p2);
shapePath.cubicTo(p4 +p4o + th, p3 + p3o + th, QPointF());
// translate back
t.reset();
t.translate(pp1.x(), pp1.y());
t.rotateRadians(sinb);
path = t.map(path);
shapePath = t.map(shapePath);
ups(Grip::BEZIER1).p = t.map(p3);
ups(Grip::BEZIER2).p = t.map(p4);
ups(Grip::END).p = t.map(p2) - ups(Grip::END).off;
ups(Grip::DRAG).p = t.map(p5);
ups(Grip::SHOULDER).p = t.map(p6);
QPointF staffOffset;
if (system() && track() >= 0)
staffOffset = QPointF(0.0, -system()->staff(staffIdx())->y());
QPainterPath p;
p.moveTo(QPointF());
p.cubicTo(p3 + p3o - th, p4 + p4o - th, p2);
_shape.clear();
QPointF start;
start = t.map(start);
int nbShapes = 15;
for (int i = 1; i <= nbShapes; i++) {
QPointF point = t.map(p.pointAtPercent(i/float(nbShapes)));
QRectF re(start, point);
re.translate(staffOffset);
_shape.add(re);
start = point;
}
path.translate(staffOffset);
shapePath.translate(staffOffset);
}
//---------------------------------------------------------
// slurDistance
//---------------------------------------------------------
inline static qreal slurDistance(const Shape& shape, const QPointF& pt, qreal sdist, bool up)
{
qreal ddy;
if (up) {
ddy = -shape.bottomDistance(pt) + sdist;
if (ddy <= 0.0) // assume no more collisions
ddy = 0;
}
else {
ddy = shape.topDistance(pt) - sdist;
if (ddy >= 0.0)
ddy = 0.0;
}
return ddy;
}
//---------------------------------------------------------
// layout
// p1, p2 are in System coordinates
//---------------------------------------------------------
void SlurSegment::layoutSegment(const QPointF& p1, const QPointF& p2)
{
if (autoplace()) {
// TODO: must be saved when switching to autoplace
for (UP& up : _ups)
up.off = QPointF();
rUserYoffset() = 0;
}
ups(Grip::START).p = p1;
ups(Grip::END).p = p2;
computeBezier();
if (autoplace() && system()) {
bool up = slur()->up();
//
// lookup segments for collision detection
//
struct Collision {
qreal dist;
QPointF p;
Collision(qreal a, const QPointF b) : dist(a), p(b) {}
};
QList<Collision> pl; // skyline
qreal sdist = spatium() * 0.5; // minimum distance to slur
QPointF pp1 = ups(Grip::START).p + ups(Grip::START).off;
QPointF pp2 = ups(Grip::END).p + ups(Grip::END).off;
Segment* ls = system()->lastMeasure()->last();
Segment* fs = system()->firstMeasure()->first();
for (Segment* s = fs; s && s != ls; s = s->next1()) {
if (!s->enabled())
continue;
qreal x1 = s->x() + s->measure()->x();
qreal x2 = x1 + s->width();
if (pp1.x() > x2)
continue;
if (pp2.x() >= x1 && pp2.x() < x2)
break;
if (up) {
QPointF pt = QPoint(s->x() + s->parent()->x(), s->staffShape(staffIdx()).top() + s->pos().y());
qreal dist = _shape.bottomDistance(pt) - sdist;
if (dist < 0.0)
pl.append(Collision(-dist, pt));
}
else {
QPointF pt = QPoint(s->x() + s->parent()->x(), s->staffShape(staffIdx()).bottom() + s->pos().y());
qreal dist = _shape.topDistance(pt) - sdist;
if (dist < 0.0)
pl.append(Collision(dist, pt));
}
}
//
// compute shape
// pl contains a list of colliding points
//
for (int i = 0; i < pl.size() - 1; ++i) {
Collision& c1 = pl[i];
Collision& c2 = pl[i+1];
if (qAbs(c1.p.y() - c2.p.y()) < 0.1) {
// combine the collisions
c1.p.rx() += (c2.p.x() - c1.p.x()) / 2.0;
pl.erase(pl.begin() + i + 1);
}
}
qSort(pl.begin(), pl.end(), [](const Collision& a, const Collision& b) { return a.dist < b.dist; });
if (pl.empty()) // no collision: do nothing
;
else {
qreal ddy = pl[0].dist;
for (int i = 0;;) {
qreal x = pl[i].p.x();
qreal x1 = ups(Grip::BEZIER1).p.x(); // p1.x();
qreal x2 = ups(Grip::BEZIER2).p.x(); // p2.x();
qreal ratio = (x - x1) / (x2 - x1);
for (int k = 0; k < 10; ++k) {
const qreal magic = 1.1;
_ups[int(Grip::BEZIER1)].off.ry() -= ddy * magic * (1.0 - ratio);
_ups[int(Grip::BEZIER2)].off.ry() -= ddy * magic * ratio;
computeBezier();
if (qAbs(ddy) < spatium() * .2) {
// printf("collision %d -- tries %d\n", i, k);
break;
}
ddy = slurDistance(_shape, pl[i].p, sdist, up);
}
++i;
if (i == pl.size())
break;
ddy = slurDistance(_shape, pl[i].p, sdist, up);
if (ddy == 0.0)
break;
}
}
#if 0
else {
// fallback: move whole slur
qreal ddy = up ? -1000000 : +1000000;
for (const Collision& c : pl)
ddy = up ? qMax(ddy, c.dist) : qMin(ddy, c.dist);
rUserYoffset() = -ddy;
}
#endif
}
else {
printf("manual layout=== slur\n");
if ((staffIdx() > 0) && score()->mscVersion() < 206 && !readPos().isNull()) {
QPointF staffOffset;
if (system() && track() >= 0)
staffOffset = QPointF(0.0, system()->staff(staffIdx())->y());
setReadPos(readPos() + staffOffset);
}
adjustReadPos();
}
setbbox(path.boundingRect());
}
//---------------------------------------------------------
// isEdited
//---------------------------------------------------------
bool SlurSegment::isEdited() const
{
for (int i = 0; i < int(Grip::GRIPS); ++i) {
if (!_ups[i].off.isNull())
return true;
}
return false;
}
//---------------------------------------------------------
// fixArticulations
//---------------------------------------------------------
static qreal fixArticulations(qreal yo, Chord* c, qreal _up)
{
//
// handle special case of tenuto and staccato;
//
const QVector<Articulation*>& al = c->articulations();
if (al.size() >= 2) {
Articulation* a = al.at(1);
if (a->up() == c->up())
return yo;
else if (a->isTenuto() || a->isStaccato())
return a->y() + (a->height() + c->score()->spatium() * .3) * _up;
}
else if (al.size() >= 1) {
Articulation* a = al.at(0);
if (a->up() == c->up())
return yo;
else if (a->isTenuto() || a->isStaccato())
return a->y() + (a->height() + c->score()->spatium() * .3) * _up;
}
return yo;
}
//---------------------------------------------------------
// slurPos
// Calculate position of start- and endpoint of slur
// relative to System() position.
//---------------------------------------------------------
void Slur::slurPosChord(SlurPos* sp)
{
Chord* stChord;
Chord* enChord ;
if (startChord()->isGraceAfter()){ // grace notes after, coming in reverse order
stChord = endChord();
enChord = startChord();
_up = false;
}
else{
stChord = startChord();
enChord = endChord();
}
Note* _startNote = stChord->downNote();
Note* _endNote = enChord->downNote();
qreal hw = _startNote->headWidth();
qreal __up = _up ? -1.0 : 1.0;
qreal _spatium = spatium();
Measure* measure = endChord()->measure();
sp->system1 = measure->system();
if (!sp->system1) // DEBUG
return;
Q_ASSERT(sp->system1);
sp->system2 = sp->system1;
QPointF pp(sp->system1->pagePos());
qreal xo;
qreal yo;
//------p1
if (_up) {
xo = _startNote->x() + hw * 1.12;
yo = _startNote->pos().y() + hw * .3 * __up;
}
else {
xo = _startNote->x() + hw * 0.4;
yo = _startNote->pos().y() + _spatium * .75 * __up;
}
sp->p1 = stChord->pagePos() - pp + QPointF(xo, yo);
//------p2
if ((enChord->notes().size() > 1) || (enChord->stem() && !enChord->up() && !_up)) {
xo = _endNote->x() - hw * 0.12;
yo = _endNote->pos().y() + hw * .3 * __up;
}
else {
xo = _endNote->x() + hw * 0.15;
yo = _endNote->pos().y() + _spatium * .75 * __up;
}
sp->p2 = enChord->pagePos() - pp + QPointF(xo, yo);
}
//---------------------------------------------------------
// slurPos
// calculate position of start- and endpoint of slur
// relative to System() position
//---------------------------------------------------------
void Slur::slurPos(SlurPos* sp)
{
qreal _spatium = spatium();
if (endCR() == 0) {
sp->p1 = startCR()->pagePos();
sp->p1.rx() += startCR()->width();
sp->p2 = sp->p1;
sp->p2.rx() += 5 * _spatium;
sp->system1 = startCR()->measure()->system();
sp->system2 = sp->system1;
return;
}
bool useTablature = staff() != nullptr && staff()->isTabStaff();
bool staffHasStems = true; // assume staff uses stems
StaffType* stt = nullptr;
if (useTablature) {
stt = staff()->staffType();
staffHasStems = stt->stemThrough(); // if tab with stems beside, stems do not count for slur pos
}
// start and end cr, chord, and note
ChordRest* scr = startCR();
ChordRest* ecr = endCR();
Chord* sc = 0;
Note* note1 = 0;
if (scr->isChord()) {
sc = toChord(scr);
note1 = _up ? sc->upNote() : sc->downNote();
}
Chord* ec = 0;
Note* note2 = 0;
if (ecr->isChord()) {
ec = toChord(ecr);
note2 = _up ? ec->upNote() : ec->downNote();
}
sp->system1 = scr->measure()->system();
sp->system2 = ecr->measure()->system();
if (sp->system1 == 0 || sp->system2 == 0)
return;
sp->p1 = scr->pagePos() - sp->system1->pagePos();
sp->p2 = ecr->pagePos() - sp->system2->pagePos();
// account for centering or other adjustments (other than mirroring)
if (note1 && !note1->mirror())
sp->p1.rx() += note1->x();
if (note2 && !note2->mirror())
sp->p2.rx() += note2->x();
qreal xo, yo;
Stem* stem1 = sc && staffHasStems ? sc->stem() : 0;
Stem* stem2 = ec && staffHasStems ? ec->stem() : 0;
enum class SlurAnchor : char {
NONE, STEM
};
SlurAnchor sa1 = SlurAnchor::NONE;
SlurAnchor sa2 = SlurAnchor::NONE;
// if slur is 'embedded' between either stem or both (as it might happen with voices)
// link corresponding slur end to stem position
if ((scr->up() == ecr->up()) && !scr->beam() && !ecr->beam() && (_up == scr->up())) {
// both chords are facing same direction and slur is also in same direction
// and no beams
if (stem1)
sa1 = SlurAnchor::STEM;
if (stem2)
sa2 = SlurAnchor::STEM;
}
qreal __up = _up ? -1.0 : 1.0;
qreal hw1 = note1 ? note1->tabHeadWidth(stt) : scr->width(); // if stt == 0, tabHeadWidth()
qreal hw2 = note2 ? note2->tabHeadWidth(stt) : ecr->width(); // defaults to headWidth()
QPointF pt;
switch (sa1) {
case SlurAnchor::STEM: //sc can't be null
// place slur starting point at stem base point
pt = sc->stemPos() - sc->pagePos() + sc->stem()->p2();
if (useTablature) // in tabs, stems are centred on note:
pt.rx() = hw1 * 0.5; // skip half notehead to touch stem
sp->p1 += pt;
sp->p1 += QPointF(0.35 * _spatium, 0.25 * _spatium); // clear the stem (x) and the notehead (y)
break;
case SlurAnchor::NONE:
break;
}
switch (sa2) {
case SlurAnchor::STEM: //ec can't be null
pt = ec->stemPos() - ec->pagePos() + ec->stem()->p2();
if (useTablature)
pt.rx() = hw2 * 0.5;
sp->p2 += pt;
sp->p2 += QPointF(-0.35 * _spatium, 0.25 * _spatium);
break;
case SlurAnchor::NONE:
break;
}
//
// default position:
// horizontal: middle of notehead
// vertical: _spatium * .4 above/below notehead
//
//------p1
// Compute x0, y0 and stemPos
if (sa1 == SlurAnchor::NONE || sa2 == SlurAnchor::NONE) { // need stemPos if sa2 == SlurAnchor::NONE
bool stemPos = false; // p1 starts at chord stem side
// default positions
xo = hw1 * .5;
if (note1)
yo = note1->pos().y();
else if (_up)
yo = scr->bbox().top();
else
yo = scr->bbox().top() + scr->height();
yo += _spatium * .9 * __up;
// adjustments for stem and/or beam
if (stem1) { //sc not null
Beam* beam1 = sc->beam();
if (beam1 && (beam1->elements().back() != sc) && (sc->up() == _up)) {
// start chord is beamed but not the last chord of beam group
// and slur direction is same as start chord (stem side)
// in these cases, layout start of slur to stem
qreal sh = stem1->height() + _spatium;
if (_up)
yo = sc->downNote()->pos().y() - sh;
else
yo = sc->upNote()->pos().y() + sh;
xo = stem1->pos().x();
// force end of slur to layout to stem as well,
// if start and end chords have same stem direction
stemPos = true;
}
else {
// start chord is not beamed or is last chord of beam group
// or slur direction is opposite that of start chord
// at this point slur is in default position relative to note on slur side
// but we may need to make further adjustments
// if stem and slur are both up
// we need to clear stem horizontally
if (sc->up() && _up)
xo = hw1 + _spatium * .3;
//
// handle case: stem up - stem down
// stem down - stem up
//
if ((sc->up() != ecr->up()) && (sc->up() == _up)) {
// start and end chord have opposite direction
// and slur direction is same as start chord
// (so slur starts on stem side)
// float the start point along the stem to follow direction of movement
// see for example Gould p. 111
// get position of note on slur side for start & end chords
Note* n1 = sc->up() ? sc->upNote() : sc->downNote();
Note* n2 = 0;
if (ec)
n2 = ec->up() ? ec->upNote() : ec->downNote();
// differential in note positions
qreal yd = (n2 ? n2->pos().y() : ecr->pos().y()) - n1->pos().y();
yd *= .5;
// float along stem according to differential
qreal sh = stem1->height();
if (_up && yd < 0.0)
yo = qMax(yo + yd, sc->downNote()->pos().y() - sh - _spatium);
else if (!_up && yd > 0.0)
yo = qMin(yo + yd, sc->upNote()->pos().y() + sh + _spatium);
// we may wish to force end to align to stem as well,
// if it is in same direction
// (but it won't be, so this assignment should have no effect)
stemPos = true;
}
else if (sc->up() != _up) {
// slur opposite direction from chord
// avoid articulations
yo = fixArticulations(yo, sc, __up);
}
}
}
else if (sc && sc->up() != _up) {
// slur opposite direction from chord
// avoid articulations
yo = fixArticulations(yo, sc, __up);
}
if (sa1 == SlurAnchor::NONE)
sp->p1 += QPointF(xo, yo);
//------p2
if (sa2 == SlurAnchor::NONE) {
// default positions
xo = hw2 * .5;
if (note2)
yo = note2->pos().y();
else if (_up)
yo = endCR()->bbox().top();
else
yo = endCR()->bbox().top() + endCR()->height();
yo += _spatium * .9 * __up;
// adjustments for stem and/or beam
if (stem2) { //ec can't be null
Beam* beam2 = ec->beam();
if ((stemPos && (scr->up() == ec->up()))
|| (beam2
&& (!beam2->elements().empty())
&& (beam2->elements().front() != ec)
&& (ec->up() == _up)
&& sc && (sc->noteType() == NoteType::NORMAL)
)
) {
// slur start was laid out to stem and start and end have same direction
// OR
// end chord is beamed but not the first chord of beam group
// and slur direction is same as end chord (stem side)
// and start chordrest is not a grace chord
// in these cases, layout end of slur to stem
qreal sh = stem2->height() + _spatium;
if (_up)
yo = ec->downNote()->pos().y() - sh;
else
yo = ec->upNote()->pos().y() + sh;
xo = stem2->pos().x();
}
else
{
// slur was not aligned to stem or start and end have different direction
// AND
// end chord is not beamed or is first chord of beam group
// or slur direction is opposite that of end chord
// if stem and slur are both down,
// we need to clear stem horizontally
if (!ec->up() && !_up)
xo = -_spatium * .3 + note2->x();
//
// handle case: stem up - stem down
// stem down - stem up
//
if ((scr->up() != ec->up()) && (ec->up() == _up)) {
// start and end chord have opposite direction
// and slur direction is same as end chord
// (so slur end on stem side)
// float the end point along the stem to follow direction of movement
// see for example Gould p. 111
Note* n1 = 0;
if (sc)
n1 = sc->up() ? sc->upNote() : sc->downNote();
Note* n2 = ec->up() ? ec->upNote() : ec->downNote();
qreal yd = n2->pos().y() - (n1 ? n1->pos().y() : startCR()->pos().y());
yd *= .5;
qreal mh = stem2->height();
if (_up && yd > 0.0)
yo = qMax(yo - yd, ec->downNote()->pos().y() - mh - _spatium);
else if (!_up && yd < 0.0)
yo = qMin(yo - yd, ec->upNote()->pos().y() + mh + _spatium);
}
else if (ec->up() != _up) {
// slur opposite direction from chord
// avoid articulations
yo = fixArticulations(yo, ec, __up);
}
}
}
else if (ec && ec->up() != _up) {
// slur opposite direction from chord
// avoid articulations
yo = fixArticulations(yo, ec, __up);
}
sp->p2 += QPointF(xo, yo);
}
}
}
//---------------------------------------------------------
// Slur
//---------------------------------------------------------
Slur::Slur(Score* s)
: SlurTie(s)
{
setAnchor(Anchor::CHORD);
}
//---------------------------------------------------------
// Slur
//---------------------------------------------------------
Slur::~Slur()
{
}
//---------------------------------------------------------
// write
//---------------------------------------------------------
void Slur::write(Xml& xml) const
{
if (broken()) {
qDebug("broken slur not written");
return;
}
if (!xml.canWrite(this))
return;
xml.stag(QString("Slur id=\"%1\"").arg(xml.spannerId(this)));
SlurTie::writeProperties(xml);
xml.etag();
}
//---------------------------------------------------------
// read
//---------------------------------------------------------
void Slur::read(XmlReader& e)
{
setTrack(e.track()); // set staff
e.addSpanner(e.intAttribute("id"), this);
while (e.readNextStartElement()) {
const QStringRef& tag(e.name());
if (tag == "track2")
setTrack2(e.readInt());
else if (tag == "startTrack") // obsolete
setTrack(e.readInt());
else if (tag == "endTrack") // obsolete
e.readInt();
else if (!SlurTie::readProperties(e))
e.unknown();
}
if (track2() == -1)
setTrack2(track());
}
//---------------------------------------------------------
// chordsHaveTie
//---------------------------------------------------------
static bool chordsHaveTie(Chord* c1, Chord* c2)
{
int n1 = c1->notes().size();
for (int i1 = 0; i1 < n1; ++i1) {
Note* n1 = c1->notes().at(i1);
int n2 = c2->notes().size();
for (int i2 = 0; i2 < n2; ++i2) {
Note* n2 = c2->notes().at(i2);
if (n1->tieFor() && n1->tieFor() == n2->tieBack())
return true;
}
}
return false;
}
//---------------------------------------------------------
// directionMixture
//---------------------------------------------------------
static bool isDirectionMixture(Chord* c1, Chord* c2)
{
bool up = c1->up();
for (Segment* seg = c1->segment(); seg; seg = seg->next(Segment::Type::ChordRest)) {
Element* e = seg->element(c1->track());
if (!e || !e->isChord())
continue;
Chord* c = toChord(e);
if (c->up() != up)
return true;
if (seg == c2->segment())
break;
}
return false;
}
//---------------------------------------------------------
// layoutSystem
//---------------------------------------------------------
SpannerSegment* Slur::layoutSystem(System* system)
{
int stick = system->firstMeasure()->tick();
int etick = system->lastMeasure()->endTick();
SlurSegment* slurSegment = 0;
for (SpannerSegment* ss : segments) {
if (!ss->system()) {
slurSegment = toSlurSegment(ss);
break;
}
}
if (!slurSegment) {
slurSegment = new SlurSegment(score());
add(slurSegment);
}
slurSegment->setSystem(system);
slurSegment->setSpanner(this);
SpannerSegmentType sst;
if (tick() >= stick) {
//
// this is the first call to layoutSystem,
// processing the first line segment
//
if (track2() == -1)
setTrack2(track());
if (startCR() == 0 || startCR()->measure() == 0) {
qDebug("Slur::layout(): track %d-%d %p - %p tick %d-%d null start anchor",
track(), track2(), startCR(), endCR(), tick(), tick2());
return slurSegment;
}
if (endCR() == 0) { // sanity check
setEndElement(startCR());
setTick2(tick());
}
switch (_slurDirection) {
case Direction::UP:
_up = true;
break;
case Direction::DOWN:
_up = false;
break;
case Direction::AUTO:
{
//
// assumption:
// slurs have only chords or rests as start/end elements
//
if (startCR() == 0 || endCR() == 0) {
_up = true;
break;
}
Chord* c1 = startCR()->isChord() ? toChord(startCR()) : 0;
Chord* c2 = endCR()->isChord() ? toChord(endCR()) : 0;
_up = !(startCR()->up());
Measure* m1 = startCR()->measure();
if ((endCR()->tick() - startCR()->tick()) > m1->ticks()) // long slurs are always above
_up = true;
else
_up = !startCR()->up();
if (c1 && c2 && isDirectionMixture(c1, c2) && !c1->isGrace()) {
// slurs go above if start and end note have different stem directions,
// but grace notes are exceptions
_up = true;
}
else if (m1->mstaff(startCR()->staffIdx())->hasVoices && c1 && !c1->isGrace()) {
// in polyphonic passage, slurs go on the stem side
_up = startCR()->up();
}
else if (c1 && c2 && chordsHaveTie(c1, c2)) {
// could confuse slur with tie, put slur on stem side
_up = startCR()->up();
}
}
break;
}
sst = tick2() <= etick ? SpannerSegmentType::SINGLE : SpannerSegmentType::BEGIN;
}
else if (tick() < stick && tick2() > etick)
sst = SpannerSegmentType::MIDDLE;
else
sst = SpannerSegmentType::END;
slurSegment->setSpannerSegmentType(sst);
SlurPos sPos;
slurPos(&sPos);
switch (sst) {
case SpannerSegmentType::SINGLE:
slurSegment->layoutSegment(sPos.p1, sPos.p2);
break;
case SpannerSegmentType::BEGIN:
slurSegment->layoutSegment(sPos.p1, QPointF(system->bbox().width(), sPos.p1.y()));
break;
case SpannerSegmentType::MIDDLE: {
qreal x1 = firstNoteRestSegmentX(system);
qreal x2 = system->bbox().width();
qreal y = staffIdx() > system->staves()->size() ? system->y() : system->staff(staffIdx())->y();
slurSegment->layoutSegment(QPointF(x1, y), QPointF(x2, y));
}
break;
case SpannerSegmentType::END:
slurSegment->layoutSegment(QPointF(firstNoteRestSegmentX(system), sPos.p2.y()), sPos.p2);
break;
}
QList<SpannerSegment*> sl;
for (SpannerSegment* ss : segments) {
if (ss->system())
sl.push_back(ss);
else {
qDebug("delete spanner segment %s", ss->name());
delete ss;
}
}
segments.swap(sl);
return slurSegment;
}
//---------------------------------------------------------
// layout
//---------------------------------------------------------
void Slur::layout()
{
if (track2() == -1)
setTrack2(track());
qreal _spatium = spatium();
if (score() == gscore || tick() == -1) {
//
// when used in a palette, slur has no parent and
// tick and tick2 has no meaning so no layout is
// possible and needed
//
SlurSegment* s;
if (spannerSegments().empty()) {
s = new SlurSegment(score());
s->setTrack(track());
add(s);
}
else {
s = frontSegment();
}
s->setSpannerSegmentType(SpannerSegmentType::SINGLE);
s->layoutSegment(QPointF(0, 0), QPointF(_spatium * 6, 0));
setbbox(frontSegment()->bbox());
return;
}
if (startCR() == 0 || startCR()->measure() == 0) {
qDebug("Slur::layout(): track %d-%d %p - %p tick %d-%d null start anchor",
track(), track2(), startCR(), endCR(), tick(), tick2());
return;
}
if (endCR() == 0) { // sanity check
setEndElement(startCR());
setTick2(tick());
}
switch (_slurDirection) {
case Direction::UP:
_up = true;
break;
case Direction::DOWN:
_up = false;
break;
case Direction::AUTO:
{
//
// assumption:
// slurs have only chords or rests as start/end elements
//
if (startCR() == 0 || endCR() == 0) {
_up = true;
break;
}
Measure* m1 = startCR()->measure();
Chord* c1 = startCR()->isChord() ? toChord(startCR()) : 0;
Chord* c2 = endCR()->isChord() ? toChord(endCR()) : 0;
_up = !(startCR()->up());
if ((endCR()->tick() - startCR()->tick()) > m1->ticks()) {
// long slurs are always above
_up = true;
}
else
_up = !(startCR()->up());
if (c1 && c2 && isDirectionMixture(c1, c2) && (c1->noteType() == NoteType::NORMAL)) {
// slurs go above if start and end note have different stem directions,
// but grace notes are exceptions
_up = true;
}
else if (m1->mstaff(startCR()->staffIdx())->hasVoices && c1 && c1->noteType() == NoteType::NORMAL) {
// in polyphonic passage, slurs go on the stem side
_up = startCR()->up();
}
else if (c1 && c2 && chordsHaveTie(c1, c2)) {
// could confuse slur with tie, put slur on stem side
_up = startCR()->up();
}
}
break;
}
SlurPos sPos;
slurPos(&sPos);
const QList<System*>& sl = score()->systems();
ciSystem is = sl.begin();
while (is != sl.end()) {
if (*is == sPos.system1)
break;
++is;
}
if (is == sl.end())
qDebug("Slur::layout first system not found");
setPos(0, 0);
//---------------------------------------------------------
// count number of segments, if no change, all
// user offsets (drags) are retained
//---------------------------------------------------------
unsigned nsegs = 1;
for (ciSystem iis = is; iis != sl.end(); ++iis) {
if ((*iis)->vbox())
continue;
if (*iis == sPos.system2)
break;
++nsegs;
}
fixupSegments(nsegs);
for (int i = 0; is != sl.end(); ++i, ++is) {
System* system = *is;
if (system->vbox()) {
--i;
continue;
}
SlurSegment* segment = segmentAt(i);
segment->setSystem(system);
// case 1: one segment
if (sPos.system1 == sPos.system2) {
segment->setSpannerSegmentType(SpannerSegmentType::SINGLE);
segment->layoutSegment(sPos.p1, sPos.p2);
}
// case 2: start segment
else if (i == 0) {
segment->setSpannerSegmentType(SpannerSegmentType::BEGIN);
qreal x = system->bbox().width();
segment->layoutSegment(sPos.p1, QPointF(x, sPos.p1.y()));
}
// case 3: middle segment
else if (i != 0 && system != sPos.system2) {
segment->setSpannerSegmentType(SpannerSegmentType::MIDDLE);
qreal x1 = firstNoteRestSegmentX(system);
qreal x2 = system->bbox().width();
qreal y = staffIdx() > system->staves()->size() ? system->y() : system->staff(staffIdx())->y();
segment->layoutSegment(QPointF(x1, y), QPointF(x2, y));
}
// case 4: end segment
else {
segment->setSpannerSegmentType(SpannerSegmentType::END);
qreal x = firstNoteRestSegmentX(system);
segment->layoutSegment(QPointF(x, sPos.p2.y()), sPos.p2);
}
if (system == sPos.system2)
break;
}
setbbox(spannerSegments().empty() ? QRectF() : frontSegment()->bbox());
}
//---------------------------------------------------------
// setTrack
//---------------------------------------------------------
void Slur::setTrack(int n)
{
Element::setTrack(n);
for (SpannerSegment* ss : spannerSegments())
ss->setTrack(n);
}
//---------------------------------------------------------
// readProperties
//---------------------------------------------------------
bool Slur::readProperties(XmlReader& e)
{
const QStringRef& tag(e.name());
if (tag == "SlurSegment") {
int idx = e.intAttribute("no", 0);
int n = spannerSegments().size();
for (int i = n; i < idx; ++i)
add(new SlurSegment(score()));
SlurSegment* segment = new SlurSegment(score());
segment->setAutoplace(false);
segment->read(e);
add(segment);
}
else if (!SlurTie::readProperties(e))
return false;
return true;
}
}
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