MuseScore/libmscore/barline.cpp

1029 lines
40 KiB
C++

//=============================================================================
// MuseScore
// Music Composition & Notation
//
// Copyright (C) 2002-2011 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 "barline.h"
#include "score.h"
#include "sym.h"
#include "staff.h"
#include "system.h"
#include "measure.h"
#include "segment.h"
#include "articulation.h"
#include "stafftype.h"
//---------------------------------------------------------
// static members init
//---------------------------------------------------------
qreal BarLine::yoff1 = 0.0;
qreal BarLine::yoff2 = 0.0;
bool BarLine::ctrlDrag = false;
int BarLine::_origSpan, BarLine::_origSpanFrom, BarLine::_origSpanTo;
//---------------------------------------------------------
// barLineNames
// must be synchronized with enum BarLineType
//---------------------------------------------------------
static const char* barLineNames[] = {
"normal", "double", "start-repeat", "end-repeat", "dashed", "end",
"end-start-repeat", "dotted"
};
//---------------------------------------------------------
// BarLine
//---------------------------------------------------------
BarLine::BarLine(Score* s)
: Element(s)
{
setBarLineType(NORMAL_BAR);
_span = 1;
_spanFrom = 0;
_spanTo = DEFAULT_BARLINE_TO;
_customSpan = false;
_customSubtype = false;
setHeight(DEFAULT_BARLINE_TO/2 * spatium()); // for use in palettes
}
//---------------------------------------------------------
// pagePos
//---------------------------------------------------------
QPointF BarLine::pagePos() const
{
if (parent() == 0)
return pos();
System* system;
if (parent()->type() != SEGMENT)
system = static_cast<System*>(parent());
else
system = static_cast<Segment*>(parent())->measure()->system();
qreal yp = y();
if (system)
yp += system->staffY(staffIdx());
return QPointF(pageX(), yp);
}
//---------------------------------------------------------
// getY
//---------------------------------------------------------
void BarLine::getY(qreal* y1, qreal* y2) const
{
qreal _spatium = spatium();
if (parent()) {
int staffIdx1 = staffIdx();
int staffIdx2 = staffIdx1 + _span - 1;
if (staffIdx2 >= score()->nstaves()) {
qDebug("BarLine: bad _span %d", _span);
staffIdx2 = score()->nstaves() - 1;
}
Measure* measure;
System* system;
qreal yp = 0.0;
if (parent()->type() == SEGMENT) {
Segment* segment = static_cast<Segment*>(parent());
measure = segment->measure();
system = measure->system();
}
else {
system = static_cast<System*>(parent());
measure = system->firstMeasure();
}
if (measure) {
StaffLines* l1 = measure->staffLines(staffIdx1);
StaffLines* l2 = measure->staffLines(staffIdx2);
if (system)
yp += system->staff(staffIdx1)->y();
*y1 = l1->y1() - yp;
*y1 += (_spanFrom * score()->staff(staffIdx1)->lineDistance() * _spatium) / 2;
*y2 = l2->y1() - yp;
*y2 += (_spanTo * score()->staff(staffIdx2)->lineDistance() * _spatium) / 2;
}
}
else {
// for use in palette
*y1 = _spanFrom * _spatium / 2;
*y2 = _spanTo * _spatium / 2;
}
if (selected()) {
*y1 += yoff1;
*y2 += yoff2;
}
}
//---------------------------------------------------------
// drawDots
//---------------------------------------------------------
void BarLine::drawDots(QPainter* painter, qreal x) const
{
const Sym& dotsym = symbols[score()->symIdx()][dotSym];
qreal mags = magS();
qreal _spatium = spatium();
if (parent() == 0) { // for use in palette
dotsym.draw(painter, mags, QPointF(x, 1.5 * _spatium));
dotsym.draw(painter, mags, QPointF(x, 2.5 * _spatium));
}
else if (parent()->type() == SEGMENT) {
System* s = static_cast<Segment*>(parent())->measure()->system();
int staffIdx1 = staffIdx();
int staffIdx2 = staffIdx1 + _span - 1;
int sp = _span;
if (staffIdx2 >= score()->nstaves()) {
qDebug("BarLine: bad _span %d", _span);
staffIdx2 = score()->nstaves() - 1;
sp = staffIdx2 - staffIdx1 + 1;
}
qreal dy = s->staff(staffIdx1)->y();
for (int i = 0; i < sp; ++i) {
Staff* staff = score()->staff(staffIdx1 + i);
StaffType* st = staff->staffType();
qreal doty1 = st->doty1() * _spatium;
qreal doty2 = st->doty2() * _spatium;
qreal staffy = s->staff(staffIdx1 + i)->y() - dy;
dotsym.draw(painter, mags, QPointF(x, staffy + doty1));
dotsym.draw(painter, mags, QPointF(x, staffy + doty2));
}
}
}
//---------------------------------------------------------
// draw
//---------------------------------------------------------
void BarLine::draw(QPainter* painter) const
{
/* use condition in BarLine::scanElements() instead:
// if no width (because staff is set to hide bar lines), draw nothing
if (width() == 0.0)
return;
*/
qreal lw = point(score()->styleS(ST_barWidth));
qreal y1, y2;
getY(&y1, &y2);
QPen pen(curColor(), lw, Qt::SolidLine, Qt::FlatCap);
painter->setPen(pen);
qreal mags = magS();
switch(barLineType()) {
case BROKEN_BAR:
pen.setStyle(Qt::DashLine);
painter->setPen(pen);
painter->drawLine(QLineF(lw * .5, y1, lw * .5, y2));
break;
case DOTTED_BAR:
pen.setStyle(Qt::DotLine);
painter->setPen(pen);
case NORMAL_BAR:
painter->drawLine(QLineF(lw * .5, y1, lw * .5, y2));
break;
case END_BAR:
{
qreal lw2 = point(score()->styleS(ST_endBarWidth));
qreal d = point(score()->styleS(ST_endBarDistance));
painter->drawLine(QLineF(lw * .5, y1, lw * .5, y2));
pen.setWidthF(lw2);
painter->setPen(pen);
qreal x = d + lw2 * .5 + lw;
painter->drawLine(QLineF(x, y1, x, y2));
}
break;
case DOUBLE_BAR:
{
lw = point(score()->styleS(ST_doubleBarWidth));
qreal d = point(score()->styleS(ST_doubleBarDistance));
pen.setWidthF(lw);
painter->setPen(pen);
qreal x = lw * .5;
painter->drawLine(QLineF(x, y1, x, y2));
x += d + lw;
painter->drawLine(QLineF(x, y1, x, y2));
}
break;
case START_REPEAT:
{
qreal lw2 = point(score()->styleS(ST_endBarWidth));
qreal d1 = point(score()->styleS(ST_endBarDistance));
qreal x2 = lw2 * .5; // thick line (lw2)
qreal x1 = lw2 + d1 + lw * .5; // thin line (lw)
qreal x0 = lw2 + d1 + lw + d1; // dot position
drawDots(painter, x0);
painter->drawLine(QLineF(x1, y1, x1, y2));
pen.setWidthF(lw2);
painter->setPen(pen);
painter->drawLine(QLineF(x2, y1, x2, y2));
if (score()->styleB(ST_repeatBarTips)) {
symbols[score()->symIdx()][brackettipsRightUp].draw(painter, mags, QPointF(0.0, y1));
symbols[score()->symIdx()][brackettipsRightDown].draw(painter, mags, QPointF(0.0, y2));
}
}
break;
case END_REPEAT:
{
qreal lw2 = point(score()->styleS(ST_endBarWidth));
qreal d1 = point(score()->styleS(ST_endBarDistance));
const Sym& dotsym = symbols[score()->symIdx()][dotSym];
qreal dotw = dotsym.width(mags);
qreal x1 = dotw + d1 + lw * .5;
qreal x2 = dotw + d1 + lw + d1 + lw2 * .5;
drawDots(painter, 0.0);
painter->drawLine(QLineF(x1, y1, x1, y2));
pen.setWidthF(lw2);
painter->setPen(pen);
painter->drawLine(QLineF(x2, y1, x2, y2));
if (score()->styleB(ST_repeatBarTips)) {
qreal x = x2 + lw2 * .5;
symbols[score()->symIdx()][brackettipsLeftUp].draw(painter, mags, QPointF(x, y1));
symbols[score()->symIdx()][brackettipsLeftDown].draw(painter, mags, QPointF(x, y2));
}
}
break;
case END_START_REPEAT:
{
qreal lw2 = point(score()->styleS(ST_endBarWidth));
qreal d1 = point(score()->styleS(ST_endBarDistance));
const Sym& dotsym = symbols[score()->symIdx()][dotSym];
qreal dotw = dotsym.width(mags);
qreal x1 = dotw + d1 + lw * .5; // thin bar
qreal x2 = dotw + d1 + lw + d1 + lw2 * .5; // thick bar
qreal x3 = dotw + d1 + lw + d1 + lw2 + d1 + lw * .5; // thin bar
qreal x4 = dotw + d1 + lw + d1 + lw2 + d1 + lw + d1; // dot position
drawDots(painter, .0);
drawDots(painter, x4);
painter->drawLine(QLineF(x1, y1, x1, y2));
pen.setWidthF(lw2);
painter->setPen(pen);
painter->drawLine(QLineF(x2, y1, x2, y2));
pen.setWidthF(lw);
painter->setPen(pen);
painter->drawLine(QLineF(x3, y1, x3, y2));
if (score()->styleB(ST_repeatBarTips)) {
qreal x = x2;
symbols[score()->symIdx()][brackettipsRightUp].draw(painter, mags, QPointF(x, y1));
symbols[score()->symIdx()][brackettipsRightDown].draw(painter, mags, QPointF(x, y2));
symbols[score()->symIdx()][brackettipsLeftUp].draw(painter, mags, QPointF(x, y1));
symbols[score()->symIdx()][brackettipsLeftDown].draw(painter, mags, QPointF(x, y2));
}
}
break;
}
}
//---------------------------------------------------------
// write
//---------------------------------------------------------
void BarLine::write(Xml& xml) const
{
xml.stag("BarLine");
xml.tag("subtype", barLineTypeName());
if (_customSubtype)
xml.tag("customSubtype", _customSubtype);
// if any span value is different from staff's, output all values
if ( (staff() && ( _span != staff()->barLineSpan()
|| _spanFrom != staff()->barLineFrom()
|| _spanTo != staff()->barLineTo()
)
)
|| !staff()) // (palette bar lines have no staff: output all values)
xml.tag(QString("span from=\"%1\" to=\"%2\"").arg(_spanFrom).arg(_spanTo), _span);
// if no custom value, output _span only (as in previous code)
else
xml.tag("span", _span);
foreach(const Element* e, _el)
e->write(xml);
Element::writeProperties(xml);
xml.etag();
}
//---------------------------------------------------------
// read
//---------------------------------------------------------
void BarLine::read(XmlReader& e)
{
// if bar line belongs to a staff, span values default to staff values
if (staff()) {
_span = staff()->barLineSpan();
_spanFrom = staff()->barLineFrom();
_spanTo = staff()->barLineTo();
}
while (e.readNextStartElement()) {
const QStringRef& tag(e.name());
if (tag == "subtype") {
bool ok;
const QString& val(e.readElementText());
int i = val.toInt(&ok);
if (!ok)
setBarLineType(val);
else {
BarLineType ct = NORMAL_BAR;
switch (i) {
default:
case 0: ct = NORMAL_BAR; break;
case 1: ct = DOUBLE_BAR; break;
case 2: ct = START_REPEAT; break;
case 3: ct = END_REPEAT; break;
case 4: ct = BROKEN_BAR; break;
case 5: ct = END_BAR; break;
case 6: ct = END_START_REPEAT; break;
case 7: ct = DOTTED_BAR; break;
}
setBarLineType(ct);
}
if (parent() && parent()->type() == SEGMENT) {
Measure* m = static_cast<Segment*>(parent())->measure();
if (barLineType() != m->endBarLineType())
_customSubtype = true;
}
}
else if (tag == "customSubtype")
_customSubtype = e.readInt();
else if (tag == "span") {
_spanFrom = e.intAttribute("from", _spanFrom);
_spanTo = e.intAttribute("to", _spanTo);
_span = e.readInt();
// WARNING: following statements assume staff and staff bar line spans are correctly set
if (staff() && (_span != staff()->barLineSpan()
|| _spanFrom != staff()->barLineFrom() || _spanTo != staff()->barLineTo()))
_customSpan = true;
}
else if (tag == "Articulation") {
Articulation* a = new Articulation(score());
a->read(e);
add(a);
}
else if (!Element::readProperties(e))
e.unknown();
}
}
//---------------------------------------------------------
// space
//---------------------------------------------------------
Space BarLine::space() const
{
return Space(0.0, width());
}
//---------------------------------------------------------
// acceptDrop
//---------------------------------------------------------
bool BarLine::acceptDrop(MuseScoreView*, const QPointF&, Element* e) const
{
int type = e->type();
if (type == BAR_LINE) {
if (parent() && parent()->type() == SEGMENT)
return true;
if (parent() && parent()->type() == SYSTEM) {
BarLine* b = static_cast<BarLine*>(e);
return (b->barLineType() == BROKEN_BAR || b->barLineType() == DOTTED_BAR
|| b->barLineType() == NORMAL_BAR || b->barLineType() == DOUBLE_BAR
|| b->spanFrom() != 0 || b->spanTo() != DEFAULT_BARLINE_TO);
}
}
else {
return (type == ARTICULATION
&& parent()
&& parent()->type() == SEGMENT
&& static_cast<Segment*>(parent())->segmentType() == Segment::SegEndBarLine);
}
return false;
}
//---------------------------------------------------------
// drop
//---------------------------------------------------------
Element* BarLine::drop(const DropData& data)
{
Element* e = data.element;
int type = e->type();
if (type == BAR_LINE) {
BarLine* bl = static_cast<BarLine*>(e);
BarLineType st = bl->barLineType();
// if no change in subtype or no change in span, do nothing
if (st == barLineType() && bl->spanFrom() == 0 && bl->spanTo() == DEFAULT_BARLINE_TO) {
delete e;
return 0;
}
// system left-side bar line
if (parent()->type() == SYSTEM) {
BarLine* b = static_cast<System*>(parent())->barLine();
score()->undoChangeProperty(b, P_SUBTYPE, int(bl->barLineType()));
delete e;
return 0;
}
//parent is a segment
Measure* m = static_cast<Segment*>(parent())->measure();
// check if the new property can apply to this single bar line
bool oldRepeat = (barLineType() == START_REPEAT || barLineType() == END_REPEAT
|| barLineType() == END_START_REPEAT);
bool newRepeat = (bl->barLineType() == START_REPEAT || bl->barLineType() == END_REPEAT
|| bl->barLineType() == END_START_REPEAT);
// if repeats are not involved or drop refers to span rather than subtype =>
// single bar line drop
if( (!oldRepeat && !newRepeat) || (bl->spanFrom() != 0 || bl->spanTo() != DEFAULT_BARLINE_TO) ) {
// if drop refers to span, update this bar line span
if(bl->spanFrom() != 0 || bl->spanTo() != DEFAULT_BARLINE_TO) {
// if dropped spanFrom or spanTo are below the middle of standard staff (5 lines)
// adjust to the number of syaff lines
int bottomSpan = (staff()->lines()-1) * 2;
int spanFrom = bl->spanFrom() > 4 ? bottomSpan - (8 - bl->spanFrom()) : bl->spanFrom();
int spanTo = bl->spanTo() > 4 ? bottomSpan - (8 - bl->spanTo()) : bl->spanTo();
score()->undoChangeSingleBarLineSpan(this, 1, spanFrom, spanTo);
}
// if drop refer to subtype, update this bar line subtype
else {
// score()->undoChangeBarLine(m, bl->barLineType());
score()->undoChangeProperty(this, P_SUBTYPE, int(bl->barLineType()));
}
delete e;
return 0;
}
// drop applies to all bar lines of the measure
if (st == START_REPEAT) {
m = m->nextMeasure();
if (m == 0) {
delete e;
return 0;
}
}
m->drop(data);
}
else if (type == ARTICULATION) {
Articulation* atr = static_cast<Articulation*>(e);
atr->setParent(this);
atr->setTrack(track());
score()->undoAddElement(atr);
return atr;
}
return 0;
}
//---------------------------------------------------------
// updateGrips
//---------------------------------------------------------
void BarLine::updateGrips(int* grips, QRectF* grip) const
{
*grips = 2;
qreal lw = point(score()->styleS(ST_barWidth));
qreal y1, y2;
getY(&y1, &y2);
grip[0].translate(QPointF(lw * .5, y1) + pagePos());
grip[1].translate(QPointF(lw * .5, y2) + pagePos());
}
//---------------------------------------------------------
// startEdit
//---------------------------------------------------------
void BarLine::startEdit(MuseScoreView*, const QPointF&)
{
// keep a copy of original span values
_origSpan = _span;
_origSpanFrom = _spanFrom;
_origSpanTo = _spanTo;
}
//---------------------------------------------------------
// endEdit
//---------------------------------------------------------
void BarLine::endEdit()
{
if (ctrlDrag) { // if single bar line edit
ctrlDrag = false;
_customSpan = true; // mark bar line as custom spanning
int newSpan = _span; // copy edited span values
int newSpanFrom = _spanFrom;
int newSpanTo = _spanTo;
_span = _origSpan; // restore original span values
_spanFrom = _origSpanFrom;
_spanTo = _origSpanTo;
score()->undoChangeSingleBarLineSpan(this, newSpan, newSpanFrom, newSpanTo);
return;
}
// if same as staff settings, do nothing
if (staff()->barLineSpan() == _span && staff()->barLineFrom() == _spanFrom && staff()->barLineTo() == _spanTo)
return;
int idx1 = staffIdx();
if(_span != staff()->barLineSpan()) {
// if now bar lines span more staves
if (_span > staff()->barLineSpan()) {
int idx2 = idx1 + _span;
// set span 0 to all additional staves
for (int idx = idx1 + 1; idx < idx2; ++idx)
// mensurstrich special case:
// if line spans to top line of a stave AND current staff is
// the last spanned staff BUT NOT the last score staff
// keep its bar lines
// otherwise remove them
if(_spanTo > 0 || !(idx == idx2-1 && idx != score()->nstaves()-1) )
score()->undoChangeBarLineSpan(score()->staff(idx), 0, 0,
(score()->staff(idx)->lines()-1)*2);
}
// if now bar lines span fewer staves
else {
int idx1 = staffIdx() + _span;
int idx2 = staffIdx() + staff()->barLineSpan();
// set standard span for each no-longer-spanned staff
for (int idx = idx1; idx < idx2; ++idx)
score()->undoChangeBarLineSpan(score()->staff(idx), 1, 0, (score()->staff(idx)->lines()-1)*2);
}
}
// update span for the staff the edited bar line belongs to
score()->undoChangeBarLineSpan(staff(), _span, _spanFrom, _spanTo);
}
//---------------------------------------------------------
// editDrag
//---------------------------------------------------------
void BarLine::editDrag(const EditData& ed)
{
qreal lineDist = staff()->lineDistance() * spatium();
qreal min, max, lastmax, y1, y2;
getY(&y1, &y2);
y1 -= yoff1; // current positions of barline ends, ignoring any in-process dragging
y2 -= yoff2;
if(ed.curGrip == 0) {
// min offset for top grip is line -1
// max offset is 1 line above bottom grip or 1 below last staff line, whichever comes first
min = -y1 - lineDist;
max = y2 - y1 - lineDist; // 1 line above bottom grip
lastmax = (staff()->lines() - _spanFrom/2) * lineDist; // 1 line below last staff line
if(lastmax < max)
max = lastmax;
// update yoff1 and bring it within limits
yoff1 += ed.delta.y();
if(yoff1 < min)
yoff1 = min;
if(yoff1 > max)
yoff1 = max;
}
else {
// min for bottom grip is 1 line below top grip
// no max
min = y1 - y2 + lineDist;
// update yoff2 and bring it within limit
yoff2 += ed.delta.y();
if(yoff2 < min)
yoff2 = min;
}
}
//---------------------------------------------------------
// endEditDrag
// snap to nearest staff / staff line
//---------------------------------------------------------
void BarLine::endEditDrag()
{
qreal y1, y2;
getY(&y1, &y2);
qreal ay0 = pagePos().y();
qreal ay2 = ay0 + y2; // absolute (page-relative) bar line bottom coord
int staffIdx1 = staffIdx();
int staffIdx2;
System* syst;
if (parent()->type() == SYSTEM) {
syst = static_cast<System*>(parent());
}
else {
syst = static_cast<Segment*>(parent())->measure()->system();
}
qreal systTopY = syst->pagePos().y();
// determine new span value
int numOfStaves = syst->staves()->size();
if (staffIdx1 + 1 >= numOfStaves)
// if initial staff is last staff, ending staff must be the same
staffIdx2 = staffIdx1;
else {
// if there are other staves after it, look for staff nearest to bar line bottom coord
qreal staff1TopY = syst->staff(staffIdx1)->y() + systTopY;
for (staffIdx2 = staffIdx1 + 1; staffIdx2 < numOfStaves; ++staffIdx2) {
// compute 1st staff height, absolute top Y of 2nd staff and height of blank between the staves
Staff * staff1 = score()->staff(staffIdx2-1);
qreal staff1Hght = (staff1->lines()-1) * staff1->lineDistance() * spatium();
qreal staff2TopY = systTopY + syst->staff(staffIdx2)->y();
qreal blnkBtwnStaff = staff2TopY - staff1TopY - staff1Hght;
// if bar line bottom coord is above than mid-way of blank between staves...
if (ay2 < (staff1TopY + staff1Hght + blnkBtwnStaff * .5))
break; // ...staff 1 is ending staff
// if bar line is below, advance to next staff
staff1TopY = staff2TopY;
}
staffIdx2 -= 1;
}
int newSpan = staffIdx2 - staffIdx1 + 1;
// determine new spanFrom value
int newSpanFrom = _spanFrom;
if(yoff1 != 0.0) {
// round bar line top coord to nearest line of 1st staff (in half line dist units)
newSpanFrom = ((int)floor(y1 / (staff()->lineDistance() * spatium()) + 0.5 )) * 2;
// min = 1 line dist above 1st staff line | max = 1 line dist below last staff line
if(newSpanFrom < MIN_BARLINE_SPAN_FROMTO)
newSpanFrom = MIN_BARLINE_SPAN_FROMTO;
if(newSpanFrom > staff()->lines()*2)
newSpanFrom = staff()->lines()*2;
}
// determine new spanTo value
int newSpanTo = _spanTo;
if(yoff2 != 0.0) {
// round bar line bottom coord to nearest line of 2nd staff (in half line dist units)
Staff * staff2 = score()->staff(staffIdx2);
qreal staff2TopY = systTopY + syst->staff(staffIdx2)->y();
newSpanTo = ((int)floor( (ay2 - staff2TopY) / (staff2->lineDistance() * spatium()) + 0.5 )) * 2;
// min = 1 line dist above 1st staff line | max = 1 line dist below last staff line
if(newSpanTo < MIN_BARLINE_SPAN_FROMTO)
newSpanTo = MIN_BARLINE_SPAN_FROMTO;
if(newSpanTo > staff()->lines()*2)
newSpanTo = staff2->lines()*2;
}
// if any value changed, update
if(newSpan != _span || newSpanFrom != _spanFrom || newSpanTo != _spanTo) {
_span = newSpan;
_spanFrom = newSpanFrom;
_spanTo = newSpanTo;
}
yoff1 = yoff2 = 0.0;
}
//---------------------------------------------------------
// layoutWidth
//---------------------------------------------------------
qreal BarLine::layoutWidth(Score* score, BarLineType type, qreal mag)
{
qreal _spatium = score->spatium();
qreal dw = score->styleS(ST_barWidth).val() * _spatium;
qreal dotwidth = symbols[score->symIdx()][dotSym].width(mag);
switch(type) {
case DOUBLE_BAR:
dw = (score->styleS(ST_doubleBarWidth) * 2
+ score->styleS(ST_doubleBarDistance)).val() * _spatium;
break;
case START_REPEAT:
dw += dotwidth + (score->styleS(ST_endBarWidth)
+ 2 * score->styleS(ST_endBarDistance)).val() * _spatium;
break;
case END_REPEAT:
dw += dotwidth + (score->styleS(ST_endBarWidth)
+ 2 * score->styleS(ST_endBarDistance)).val() * _spatium;
break;
case END_BAR:
dw += (score->styleS(ST_endBarWidth)
+ score->styleS(ST_endBarDistance)).val() * _spatium;
break;
case END_START_REPEAT:
dw += 2 * dotwidth + (score->styleS(ST_barWidth)
+ score->styleS(ST_endBarWidth)
+ 4 * score->styleS(ST_endBarDistance)).val() * _spatium;
break;
case BROKEN_BAR:
case NORMAL_BAR:
case DOTTED_BAR:
break;
default:
qDebug("illegal bar line type");
break;
}
return dw;
}
//---------------------------------------------------------
// layout
//---------------------------------------------------------
void BarLine::layout()
{
qreal y1, y2;
getY(&y1, &y2);
// if bar line does not belong to a system, has a staff and staff is set to hide bar lines, set null bbox
if (parent() && parent()->type() != Element::SYSTEM && staff() && !staff()->staffType()->showBarlines())
setbbox(QRectF());
// bar lines not hidden
else {
qreal dw = layoutWidth(score(), barLineType(), magS());
QRectF r(0.0, y1, dw, y2-y1);
if (score()->styleB(ST_repeatBarTips)) {
qreal mags = magS();
int si = score()->symIdx();
switch (barLineType()) {
case START_REPEAT:
r |= symbols[si][brackettipsRightUp].bbox(mags).translated(0, y1);
r |= symbols[si][brackettipsRightDown].bbox(mags).translated(0, y2);
break;
case END_REPEAT:
r |= symbols[si][brackettipsLeftUp].bbox(mags).translated(0, y1);
r |= symbols[si][brackettipsLeftDown].bbox(mags).translated(0, y2);
break;
case END_START_REPEAT:
{
qreal lw = point(score()->styleS(ST_barWidth));
qreal lw2 = point(score()->styleS(ST_endBarWidth));
qreal d1 = point(score()->styleS(ST_endBarDistance));
const Sym& dotsym = symbols[score()->symIdx()][dotSym];
qreal dotw = dotsym.width(mags);
qreal x = dotw + 2 * d1 + lw + lw2 * .5; // thick bar
r |= symbols[si][brackettipsRightUp].bbox(mags).translated(x, y1);
r |= symbols[si][brackettipsRightDown].bbox(mags).translated(x, y2);
r |= symbols[si][brackettipsLeftUp].bbox(mags).translated(x, y1);
r |= symbols[si][brackettipsLeftDown].bbox(mags).translated(x, y2);
}
break;
default:
break;
}
}
setbbox(r);
}
// in any case, lay out attached elements
foreach(Element* e, _el) {
e->layout();
if (e->type() == ARTICULATION) {
Articulation* a = static_cast<Articulation*>(e);
MScore::Direction dir = a->direction();
qreal distance = 0.5 * spatium();
qreal x = width() * .5;
if (dir == MScore::DOWN) {
qreal botY = y2 + distance;
a->setPos(QPointF(x, botY));
}
else {
qreal topY = y1 - distance;
a->setPos(QPointF(x, topY));
}
}
}
}
//---------------------------------------------------------
// shape
//---------------------------------------------------------
QPainterPath BarLine::shape() const
{
QPainterPath p;
qreal d = spatium() * .3;
p.addRect(bbox().adjusted(-d, .0, d, .0));
return p;
}
//---------------------------------------------------------
// tick
//---------------------------------------------------------
int BarLine::tick() const
{
return (parent() && parent()->type() == SEGMENT)
? static_cast<Segment*>(parent())->tick() : 0;
}
//---------------------------------------------------------
// barLineTypeName
//---------------------------------------------------------
QString BarLine::barLineTypeName() const
{
return QString(barLineNames[barLineType()]);
}
//---------------------------------------------------------
// setBarLineType
//---------------------------------------------------------
void BarLine::setBarLineType(const QString& s)
{
for (unsigned i = 0; i < sizeof(barLineNames)/sizeof(*barLineNames); ++i) {
if (barLineNames[i] == s) {
_barLineType = BarLineType(i);
return;
}
}
_barLineType = NORMAL_BAR;
}
//---------------------------------------------------------
// scanElements
//---------------------------------------------------------
void BarLine::scanElements(void* data, void (*func)(void*, Element*), bool all)
{
// if no width (staff has bar lines turned off) and not all requested, do nothing
if (width() == 0.0 && !all)
return;
func(data, this);
foreach(Element* e, _el)
e->scanElements(data, func, all);
}
//---------------------------------------------------------
// add
//---------------------------------------------------------
void BarLine::add(Element* e)
{
if (parent() && parent()->type() != SEGMENT) {
delete e;
return;
}
e->setParent(this);
switch(e->type()) {
case ARTICULATION:
_el.push_back(e);
setGenerated(false);
if (parent() && parent()->parent())
static_cast<Measure*>(parent()->parent())->setEndBarLineGenerated(false);
break;
default:
qDebug("BarLine::add() not impl. %s", e->name());
delete e;
break;
}
}
//---------------------------------------------------------
// remove
//---------------------------------------------------------
void BarLine::remove(Element* e)
{
switch(e->type()) {
case ARTICULATION:
if (!_el.remove(e))
qDebug("BarLine::remove(): cannot find %s", e->name());
break;
default:
qDebug("BarLine::remove() not impl. %s", e->name());
break;
}
}
//---------------------------------------------------------
// updateCustomSpan
//---------------------------------------------------------
void BarLine::updateCustomSpan()
{
// if barline belongs to a staff and any of the staff span params is different from barline's...
if (staff())
if (staff()->barLineSpan() != _span || staff()->barLineFrom() != _spanFrom || staff()->barLineTo() != _spanTo) {
_customSpan = true; // ...span is custom
return;
}
// if no staff or same span params as staff, span is not custom
_customSpan = false;
}
//---------------------------------------------------------
// getProperty
//---------------------------------------------------------
QVariant BarLine::getProperty(P_ID id) const
{
switch (id) {
case P_SUBTYPE:
return int(_barLineType);
case P_BARLINE_SPAN:
return span();
case P_BARLINE_SPAN_FROM:
return spanFrom();
case P_BARLINE_SPAN_TO:
return spanTo();
default:
break;
}
return Element::getProperty(id);
}
//---------------------------------------------------------
// setProperty
//---------------------------------------------------------
bool BarLine::setProperty(P_ID id, const QVariant& v)
{
switch(id) {
case P_SUBTYPE:
_barLineType = BarLineType(v.toInt());
_customSubtype = parent() && (static_cast<Segment*>(parent())->measure())->endBarLineType() != v.toInt();
break;
case P_BARLINE_SPAN:
setSpan(v.toInt());
break;
case P_BARLINE_SPAN_FROM:
setSpanFrom(v.toInt());
break;
case P_BARLINE_SPAN_TO:
setSpanTo(v.toInt());
break;
default:
return Element::setProperty(id, v);
}
score()->setLayoutAll(true);
return true;
}
//---------------------------------------------------------
// propertyDefault
//---------------------------------------------------------
QVariant BarLine::propertyDefault(P_ID propertyId) const
{
switch(propertyId) {
case P_SUBTYPE:
// default subtype is the subtype of the measure, if any
if (parent() && parent()->type() == Element::SEGMENT && static_cast<Segment*>(parent())->measure() )
return static_cast<Segment*>(parent())->measure()->endBarLineType();
return NORMAL_BAR;
case P_BARLINE_SPAN:
// if there is a staff, default span is staff span
if (staff())
return staff()->barLineSpan();
// if no staff, default span is 1
return 1;
case P_BARLINE_SPAN_FROM:
// if there is a staff, default From span is staff From span
if (staff())
return staff()->barLineFrom();
// if no staff, default From is from top
return 0;
case P_BARLINE_SPAN_TO:
// if there is a staff, default To span is staff To span
if (staff())
return staff()->barLineTo();
// if no staff, assume a standard 5-line setup
return DEFAULT_BARLINE_TO;
default:
break;
}
return Element::propertyDefault(propertyId);
}