MuseScore/libmscore/ambitus.cpp
2017-03-08 13:12:26 +01:00

763 lines
29 KiB
C++

//=============================================================================
// MuseScore
// Music Composition & Notation
//
// Copyright (C) 2002-2013 Werner Schweer and others
//
// 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 "ambitus.h"
#include "chord.h"
#include "measure.h"
#include "score.h"
#include "segment.h"
#include "staff.h"
#include "stafftype.h"
#include "sym.h"
#include "system.h"
#include "utils.h"
#include "xml.h"
namespace Ms {
static const NoteHead::Group NOTEHEADGROUP_DEFAULT = NoteHead::Group::HEAD_NORMAL;
static const NoteHead::Type NOTEHEADTYPE_DEFAULT = NoteHead::Type::HEAD_AUTO;
static const MScore::DirectionH DIR_DEFAULT = MScore::DirectionH::AUTO;
static const bool HASLINE_DEFAULT = true;
static const Spatium LINEWIDTH_DEFAULT(0.12);
#if 0 // yet(?) unused
static const qreal LEDGEROFFSET_DEFAULT = 0.25;
#endif
static const qreal LINEOFFSET_DEFAULT = 0.8; // the distance between notehead and line
//---------------------------------------------------------
// Ambitus
//---------------------------------------------------------
Ambitus::Ambitus(Score* s)
: Element(s), _topAccid(s), _bottomAccid(s)
{
_noteHeadGroup = NOTEHEADGROUP_DEFAULT;
_noteHeadType = NOTEHEADTYPE_DEFAULT;
_dir = DIR_DEFAULT;
_hasLine = HASLINE_DEFAULT;
_lineWidth = LINEWIDTH_DEFAULT;
_topPitch = INVALID_PITCH;
_bottomPitch = INVALID_PITCH;
_topTpc = Tpc::TPC_INVALID;
_bottomTpc = Tpc::TPC_INVALID;
_topAccid.setParent(this);
_bottomAccid.setParent(this);
setFlags(ElementFlag::MOVABLE | ElementFlag::SELECTABLE);
}
//---------------------------------------------------------
// initFrom
//---------------------------------------------------------
void Ambitus::initFrom(Ambitus* a)
{
_noteHeadGroup = a->_noteHeadGroup;
_noteHeadType = a->_noteHeadType;
_dir = a->_dir;
_hasLine = a->_hasLine;
_lineWidth = a->_lineWidth;
_topPitch = a->_topPitch;
_bottomPitch = a->_bottomPitch;
_topTpc = a->_topTpc;
_bottomTpc = a->_bottomTpc;
}
//---------------------------------------------------------
// setTrack
//
// when the Ambitus element is assigned a track,
// initialize top and bottom 'notes' to top and bottom staff lines
//---------------------------------------------------------
void Ambitus::setTrack(int t)
{
Segment* segm = segment();
Staff* stf = score()->staff(track2staff(t));
Element::setTrack(t);
// if not initialized and there is a segment and a staff,
// initialize pitches and tpc's to first and last staff line
// (for use in palettes)
if (_topPitch == INVALID_PITCH || _topTpc == Tpc::TPC_INVALID
|| _bottomPitch == INVALID_PITCH ||_bottomTpc == Tpc::TPC_INVALID) {
if (segm && stf) {
updateRange();
_topAccid.setTrack(t);
_bottomAccid.setTrack(t);
}
// else {
// _topPitch = _bottomPitch = INVALID_PITCH;
// _topTpc = _bottomTpc = Tpc::TPC_INVALID;
}
}
//---------------------------------------------------------
// setTop/BottomPitch
//
// setting either pitch requires to adjust the corresponding tpc
//---------------------------------------------------------
void Ambitus::setTopPitch(int val)
{
int deltaPitch = val - topPitch();
// if deltaPitch is not an integer number of octaves, adjust tpc
// (to avoid 'wild' tpc changes with octave changes)
if (deltaPitch % PITCH_DELTA_OCTAVE != 0) {
int newTpc = topTpc() + deltaPitch * TPC_DELTA_SEMITONE;
// reduce newTpc into acceptable range via enharmonic
while (newTpc < Tpc::TPC_MIN)
newTpc += TPC_DELTA_ENHARMONIC;
while (newTpc > Tpc::TPC_MAX)
newTpc -= TPC_DELTA_ENHARMONIC;
_topTpc = newTpc;
}
_topPitch = val;
normalize();
}
void Ambitus::setBottomPitch(int val)
{
int deltaPitch = val - bottomPitch();
// if deltaPitch is not an integer number of octaves, adjust tpc
// (to avoid 'wild' tpc changes with octave changes)
if (deltaPitch % PITCH_DELTA_OCTAVE != 0) {
int newTpc = bottomTpc() + deltaPitch * TPC_DELTA_SEMITONE;
// reduce newTpc into acceptable range via enharmonic
while (newTpc < Tpc::TPC_MIN)
newTpc += TPC_DELTA_ENHARMONIC;
while (newTpc > Tpc::TPC_MAX)
newTpc -= TPC_DELTA_ENHARMONIC;
_bottomTpc = newTpc;
}
_bottomPitch= val;
normalize();
}
//---------------------------------------------------------
// setTop/BottomTpc
//
// setting either tpc requires to adjust the corresponding pitch
// (but remaining in the same octave)
//---------------------------------------------------------
void Ambitus::setTopTpc(int val)
{
int octave = topPitch() / PITCH_DELTA_OCTAVE;
int deltaTpc = val - topTpc();
// get new pitch according to tpc change
int newPitch = topPitch() + deltaTpc * TPC_DELTA_SEMITONE;
// reduce pitch to the same octave as original pitch
newPitch = (octave * PITCH_DELTA_OCTAVE) + (newPitch % PITCH_DELTA_OCTAVE);
_topPitch = newPitch;
_topTpc = val;
normalize();
}
void Ambitus::setBottomTpc(int val)
{
int octave = bottomPitch() / PITCH_DELTA_OCTAVE;
int deltaTpc = val - bottomTpc();
// get new pitch according to tpc change
int newPitch = bottomPitch() + deltaTpc * TPC_DELTA_SEMITONE;
// reduce pitch to the same octave as original pitch
newPitch = (octave * PITCH_DELTA_OCTAVE) + (newPitch % PITCH_DELTA_OCTAVE);
_bottomPitch= newPitch;
_bottomTpc = val;
normalize();
}
//---------------------------------------------------------
// write
//---------------------------------------------------------
void Ambitus::write(XmlWriter& xml) const
{
xml.stag("Ambitus");
xml.tag(P_ID::HEAD_GROUP, int(_noteHeadGroup), int(NOTEHEADGROUP_DEFAULT));
xml.tag(P_ID::HEAD_TYPE, int(_noteHeadType), int(NOTEHEADTYPE_DEFAULT));
xml.tag(P_ID::MIRROR_HEAD,int(_dir), int(DIR_DEFAULT));
xml.tag("hasLine", _hasLine, true);
xml.tag(P_ID::LINE_WIDTH, _lineWidth, LINEWIDTH_DEFAULT);
xml.tag("topPitch", _topPitch);
xml.tag("topTpc", _topTpc);
xml.tag("bottomPitch",_bottomPitch);
xml.tag("bottomTpc", _bottomTpc);
if (_topAccid.accidentalType() != AccidentalType::NONE) {
xml.stag("topAccidental");
_topAccid.write(xml);
xml.etag();
}
if (_bottomAccid.accidentalType() != AccidentalType::NONE) {
xml.stag("bottomAccidental");
_bottomAccid.write(xml);
xml.etag();
}
Element::writeProperties(xml);
xml.etag();
}
//---------------------------------------------------------
// read
//---------------------------------------------------------
void Ambitus::read(XmlReader& e)
{
while (e.readNextStartElement()) {
if (!readProperties(e))
e.unknown();
}
}
//---------------------------------------------------------
// readProperties
//---------------------------------------------------------
bool Ambitus::readProperties(XmlReader& e)
{
const QStringRef& tag(e.name());
if (tag == "head")
setProperty(P_ID::HEAD_GROUP, Ms::getProperty(P_ID::HEAD_GROUP, e));
else if (tag == "headType")
setProperty(P_ID::HEAD_TYPE, Ms::getProperty(P_ID::HEAD_TYPE, e));
else if (tag == "mirror")
setProperty(P_ID::MIRROR_HEAD, Ms::getProperty(P_ID::MIRROR_HEAD, e).toInt());
else if (tag == "hasLine")
setHasLine(e.readInt());
else if (tag == "lineWidth")
setProperty(P_ID::LINE_WIDTH, Ms::getProperty(P_ID::LINE_WIDTH, e));
else if (tag == "topPitch")
_topPitch = e.readInt();
else if (tag == "bottomPitch")
_bottomPitch = e.readInt();
else if (tag == "topTpc")
_topTpc = e.readInt();
else if (tag == "bottomTpc")
_bottomTpc = e.readInt();
else if (tag == "topAccidental") {
while (e.readNextStartElement()) {
if (e.name() == "Accidental")
_topAccid.read(e);
else
e.skipCurrentElement();
}
}
else if (tag == "bottomAccidental") {
while (e.readNextStartElement()) {
if (e.name() == "Accidental")
_bottomAccid.read(e);
else
e.skipCurrentElement();
}
}
else if (Element::readProperties(e))
;
else
return false;
return true;
}
//---------------------------------------------------------
// layout
//---------------------------------------------------------
void Ambitus::layout()
{
int bottomLine, topLine;
ClefType clf;
qreal headWdt = headWidth();
Key key;
qreal lineDist;
int numOfLines;
Segment* segm = segment();
qreal _spatium = spatium();
Staff* stf = nullptr;
if (segm && track() > -1) {
int tick = segm->tick();
stf = score()->staff(staffIdx());
lineDist = stf->lineDistance(tick) * _spatium;
numOfLines = stf->lines(tick);
clf = stf->clef(tick);
}
else { // for use in palettes
lineDist = _spatium;
numOfLines = 3;
clf = ClefType::G;
}
//
// NOTEHEADS Y POS
//
// if pitch == INVALID_PITCH oor tpc == INALID_TPC, set to some default:
// for use in palettes and when actual range cannot be calculated (new ambitus or no notes in staff)
//
qreal xAccidOffTop = 0;
qreal xAccidOffBottom = 0;
if (stf)
key = stf->key(segm->tick());
else
key = Key::C;
// top notehead
if (_topPitch == INVALID_PITCH || _topTpc == Tpc::TPC_INVALID)
_topPos.setY(0); // if uninitialized, set to top staff line
else {
topLine = absStep(_topTpc, _topPitch);
topLine = relStep(topLine, clf);
_topPos.setY(topLine * lineDist * 0.5);
// compute accidental
AccidentalType accidType;
// if (13 <= (tpc - key) <= 19) there is no accidental)
if (_topTpc - int(key) >= 13 && _topTpc - int(key) <= 19)
accidType = AccidentalType::NONE;
else {
AccidentalVal accidVal = AccidentalVal( (_topTpc - Tpc::TPC_MIN) / TPC_DELTA_SEMITONE - 2 );
accidType = Accidental::value2subtype(accidVal);
if (accidType == AccidentalType::NONE)
accidType = AccidentalType::NATURAL;
}
_topAccid.setAccidentalType(accidType);
if (accidType != AccidentalType::NONE)
_topAccid.layout();
else
_topAccid.setbbox(QRect());
_topAccid.rypos() = _topPos.y();
}
// bottom notehead
if (_bottomPitch == INVALID_PITCH || _bottomTpc == Tpc::TPC_INVALID)
_bottomPos.setY( (numOfLines-1) * lineDist); // if uninitialized, set to last staff line
else {
bottomLine = absStep(_bottomTpc, _bottomPitch);
bottomLine = relStep(bottomLine, clf);
_bottomPos.setY(bottomLine * lineDist * 0.5);
// compute accidental
AccidentalType accidType;
if (_bottomTpc - int(key) >= 13 && _bottomTpc - int(key) <= 19)
accidType = AccidentalType::NONE;
else {
AccidentalVal accidVal = AccidentalVal( (_bottomTpc - Tpc::TPC_MIN) / TPC_DELTA_SEMITONE - 2 );
accidType = Accidental::value2subtype(accidVal);
if (accidType == AccidentalType::NONE)
accidType = AccidentalType::NATURAL;
}
_bottomAccid.setAccidentalType(accidType);
if (accidType != AccidentalType::NONE)
_bottomAccid.layout();
else
_bottomAccid.setbbox(QRect());
_bottomAccid.rypos() = _bottomPos.y();
}
//
// NOTEHEAD X POS
//
// Note: manages colliding accidentals
//
qreal accNoteDist = point(score()->styleS(StyleIdx::accidentalNoteDistance));
xAccidOffTop = _topAccid.width() + accNoteDist;
xAccidOffBottom = _bottomAccid.width() + accNoteDist;
// if top accidental extends down more than bottom accidental extends up,
// AND ambitus is not leaning right, bottom accidental needs to be displaced
bool collision =
(_topAccid.ipos().y() + _topAccid.bbox().y() + _topAccid.height()
> _bottomAccid.ipos().y() + _bottomAccid.bbox().y() )
&& _dir != MScore::DirectionH::RIGHT;
if (collision) {
// displace bottom accidental (also attempting to 'undercut' flats)
xAccidOffBottom = xAccidOffTop +
((_bottomAccid.accidentalType() == AccidentalType::FLAT
|| _bottomAccid.accidentalType() == AccidentalType::FLAT2
|| _bottomAccid.accidentalType() == AccidentalType::NATURAL)
? _bottomAccid.width() * 0.5 : _bottomAccid.width());
}
switch (_dir) {
case MScore::DirectionH::AUTO: // noteheads one above the other
// left align noteheads and right align accidentals 'hanging' on the left
_topPos.setX(0.0);
_bottomPos.setX(0.0);
_topAccid.rxpos() = - xAccidOffTop;
_bottomAccid.rxpos() = - xAccidOffBottom;
break;
case MScore::DirectionH::LEFT: // top notehead at the left of bottom notehead
// place top notehead at left margin; bottom notehead at right of top head;
// top accid. 'hanging' on left of top head and bottom accid. 'hanging' at left of bottom head
_topPos.setX(0.0);
_bottomPos.setX(headWdt);
_topAccid.rxpos() = - xAccidOffTop;
_bottomAccid.rxpos() = collision ? - xAccidOffBottom : headWdt - xAccidOffBottom;
break;
case MScore::DirectionH::RIGHT: // top notehead at the right of bottom notehead
// bottom notehead at left margin; top notehead at right of bottomnotehead
// top accid. 'hanging' on left of top head and bottom accid. 'hanging' at left of bottom head
_bottomPos.setX(0.0);
_topPos.setX(headWdt);
_bottomAccid.rxpos() = - xAccidOffBottom;
_topAccid.rxpos() = headWdt - xAccidOffTop;
break;
}
// compute line from top note centre to bottom note centre
QLineF fullLine(_topPos.x() + headWdt*0.5, _topPos.y(),
_bottomPos.x() + headWdt*0.5, _bottomPos.y());
// shorten line on each side by offsets
qreal yDelta = _bottomPos.y() - _topPos.y();
if (yDelta != 0.0) {
qreal off = _spatium * LINEOFFSET_DEFAULT;
QPointF p1 = fullLine.pointAt(off / yDelta);
QPointF p2 = fullLine.pointAt(1 - (off / yDelta));
_line = QLineF(p1, p2);
}
else
_line = fullLine;
QRectF headRect = QRectF(0, -0.5*_spatium, headWdt, 1*_spatium);
setbbox(headRect.translated(_topPos).united(headRect.translated(_bottomPos))
.united(_topAccid.bbox().translated(_topAccid.ipos()))
.united(_bottomAccid.bbox().translated(_bottomAccid.ipos()))
);
}
//---------------------------------------------------------
// draw
//---------------------------------------------------------
void Ambitus::draw(QPainter* p) const
{
qreal _spatium = spatium();
qreal lw = lineWidth().val() * _spatium;
p->setPen(QPen(curColor(), lw, Qt::SolidLine, Qt::RoundCap));
drawSymbol(noteHead(), p, _topPos);
drawSymbol(noteHead(), p, _bottomPos);
if (_hasLine)
p->drawLine(_line);
// draw ledger lines (if not in a palette)
if (segment() && track() > -1) {
int tick = segment()->tick();
Staff* stf = score()->staff(staffIdx());
qreal lineDist = stf->lineDistance(tick);
int numOfLines = stf->lines(tick);
qreal step = lineDist * _spatium;
qreal stepTolerance = step * 0.1;
qreal ledgerOffset = score()->styleS(StyleIdx::ledgerLineLength).val() * 0.5 * _spatium;
p->setPen(QPen(curColor(), score()->styleS(StyleIdx::ledgerLineWidth).val() * _spatium,
Qt::SolidLine, Qt::RoundCap) );
if (_topPos.y()-stepTolerance <= -step) {
qreal xMin = _topPos.x() - ledgerOffset;
qreal xMax = _topPos.x() + headWidth() + ledgerOffset;
for (qreal y = -step; y >= _topPos.y()-stepTolerance; y -= step)
p->drawLine(QPointF(xMin, y), QPointF(xMax, y));
}
if (_bottomPos.y()+stepTolerance >= numOfLines * step) {
qreal xMin = _bottomPos.x() - ledgerOffset;
qreal xMax = _bottomPos.x() + headWidth() + ledgerOffset;
for (qreal y = numOfLines*step; y <= _bottomPos.y()+stepTolerance; y += step)
p->drawLine(QPointF(xMin, y), QPointF(xMax, y));
}
}
}
//---------------------------------------------------------
// scanElements
//---------------------------------------------------------
void Ambitus::scanElements(void* data, void (*func)(void*, Element*), bool /*all*/)
{
func(data, this);
if (_topAccid.accidentalType() != AccidentalType::NONE)
func(data, &_topAccid);
if (_bottomAccid.accidentalType() != AccidentalType::NONE)
func(data, &_bottomAccid);
}
//---------------------------------------------------------
// noteHead
//---------------------------------------------------------
SymId Ambitus::noteHead() const
{
int hg = 1;
NoteHead::Type ht = NoteHead::Type::HEAD_QUARTER;
if (_noteHeadType != NoteHead::Type::HEAD_AUTO)
ht = _noteHeadType;
SymId t = Note::noteHead(hg, _noteHeadGroup, ht);
if (t == SymId::noSym) {
qDebug("invalid notehead %d/%d", int(_noteHeadGroup), int(_noteHeadType));
t = Note::noteHead(0, NoteHead::Group::HEAD_NORMAL, ht);
}
return t;
}
//---------------------------------------------------------
// headWidth
//
// returns the width of the notehead symbol
//---------------------------------------------------------
qreal Ambitus::headWidth() const
{
// int head = noteHead();
// qreal val = symbols[score()->symIdx()][head].width(magS());
// return val;
return symWidth(noteHead());
}
//---------------------------------------------------------
// pagePos
//---------------------------------------------------------
QPointF Ambitus::pagePos() const
{
if (parent() == 0)
return pos();
System* system = segment()->measure()->system();
qreal yp = y();
if (system)
yp += system->staff(staffIdx())->y() + system->y();
return QPointF(pageX(), yp);
}
//---------------------------------------------------------
// normalize
//
// makes sure _topPitch is not < _bottomPitch
//---------------------------------------------------------
void Ambitus::normalize()
{
if (_topPitch < _bottomPitch) {
int temp = _topPitch;
_topPitch = _bottomPitch;
_bottomPitch= temp;
temp = _topTpc;
_topTpc = _bottomTpc;
_bottomTpc = temp;
}
}
//---------------------------------------------------------
// updateRange
//
// scans the staff contents up to next section break to update the range pitches/tpc's
//---------------------------------------------------------
void Ambitus::updateRange()
{
if (!segment())
return;
Chord* chord;
int firstTrack = track();
int lastTrack = firstTrack + VOICES-1;
int pitchTop = -1000;
int pitchBottom = 1000;
int tpcTop, tpcBottom;
int trk;
Measure* meas = segment()->measure();
Segment* segm = meas->findSegment(SegmentType::ChordRest, segment()->tick());
bool stop = meas->sectionBreak();
while (segm) {
// moved to another measure?
if (segm->measure() != meas) {
// if section break has been found, stop here
if (stop)
break;
// update meas and stop condition
meas = segm->measure();
stop = meas->sectionBreak();
}
// scan all relevant tracks of this segment for chords
for (trk=firstTrack; trk <= lastTrack; trk++)
if ( (chord=static_cast<Chord*>(segm->element(trk))) != nullptr
&& chord->type() == ElementType::CHORD) {
// update pitch range (with associated tpc's)
foreach (Note* n, chord->notes()) {
if (!n->play()) // skip notes which are not to be played
continue;
int pitch = n->ppitch();
if (pitch > pitchTop) {
pitchTop = pitch;
tpcTop = n->tpc();
}
if (pitch < pitchBottom) {
pitchBottom = pitch;
tpcBottom = n->tpc();
}
}
}
segm = segm->nextCR();
}
if (pitchTop > -1000) { // if something has been found, update this
_topPitch = pitchTop;
_bottomPitch = pitchBottom;
_topTpc = tpcTop;
_bottomTpc = tpcBottom;
}
}
//---------------------------------------------------------
// getProperty
//---------------------------------------------------------
QVariant Ambitus::getProperty(P_ID propertyId) const
{
switch(propertyId) {
case P_ID::HEAD_GROUP:
return int(noteHeadGroup());
case P_ID::HEAD_TYPE:
return int(noteHeadType());
case P_ID::MIRROR_HEAD:
return int(direction());
case P_ID::GHOST: // recycled property = _hasLine
return hasLine();
case P_ID::LINE_WIDTH:
return lineWidth();
case P_ID::TPC1:
return topTpc();
case P_ID::FBPARENTHESIS1: // recycled property = _bottomTpc
return bottomTpc();
case P_ID::PITCH:
return topPitch();
case P_ID::FBPARENTHESIS2: // recycled property = _bottomPitch
return bottomPitch();
case P_ID::FBPARENTHESIS3: // recycled property = octave of _topPitch
return topOctave();
case P_ID::FBPARENTHESIS4: // recycled property = octave of _bottomPitch
return bottomOctave();
default:
return Element::getProperty(propertyId);
}
}
//---------------------------------------------------------
// setProperty
//---------------------------------------------------------
bool Ambitus::setProperty(P_ID propertyId, const QVariant& v)
{
switch (propertyId) {
case P_ID::HEAD_GROUP:
setNoteHeadGroup( NoteHead::Group(v.toInt()) );
break;
case P_ID::HEAD_TYPE:
setNoteHeadType( NoteHead::Type(v.toInt()) );
break;
case P_ID::MIRROR_HEAD:
setDirection(MScore::DirectionH(v.toInt()) );
break;
case P_ID::GHOST: // recycled property = _hasLine
setHasLine(v.toBool());
break;
case P_ID::LINE_WIDTH:
setLineWidth(v.value<Spatium>());
break;
case P_ID::TPC1:
setTopTpc(v.toInt());
break;
case P_ID::FBPARENTHESIS1: // recycled property = _bottomTpc
setBottomTpc(v.toInt());
break;
case P_ID::PITCH:
setTopPitch(v.toInt());
break;
case P_ID::FBPARENTHESIS2: // recycled property = _bottomPitch
setBottomPitch(v.toInt());
break;
case P_ID::FBPARENTHESIS3: // recycled property = octave of _topPitch
setTopPitch(topPitch() % 12 + v.toInt() * 12);
break;
case P_ID::FBPARENTHESIS4: // recycled property = octave of _bottomPitch
setBottomPitch(bottomPitch() % 12 + v.toInt() * 12);
break;
default:
return Element::setProperty(propertyId, v);
}
triggerLayout();
return true;
}
//---------------------------------------------------------
// propertyDefault
//---------------------------------------------------------
QVariant Ambitus::propertyDefault(P_ID id) const
{
switch(id) {
case P_ID::HEAD_GROUP:
return int(NOTEHEADGROUP_DEFAULT);
case P_ID::HEAD_TYPE:
return int(NOTEHEADTYPE_DEFAULT);
case P_ID::MIRROR_HEAD:
return int(DIR_DEFAULT);
case P_ID::GHOST:
return HASLINE_DEFAULT;
case P_ID::LINE_WIDTH:
return Spatium(LINEWIDTH_DEFAULT);
case P_ID::TPC1: // no defaults for pitches, tpc's and octaves
case P_ID::FBPARENTHESIS1:
case P_ID::PITCH:
case P_ID::FBPARENTHESIS2:
case P_ID::FBPARENTHESIS3:
case P_ID::FBPARENTHESIS4:
break;
default:
return Element::propertyDefault(id);
}
return QVariant();
}
//---------------------------------------------------------
// nextElement
//---------------------------------------------------------
Element* Ambitus::nextElement()
{
return segment()->firstInNextSegments(staffIdx());
}
//---------------------------------------------------------
// prevElement
//---------------------------------------------------------
Element* Ambitus::prevElement()
{
return segment()->lastInPrevSegments(staffIdx());
}
//---------------------------------------------------------
// accessibleInfo
//---------------------------------------------------------
QString Ambitus::accessibleInfo() const
{
return QObject::tr("%1; Top pitch: %2%3; Bottom pitch: %4%5").arg(Element::accessibleInfo())
.arg(tpc2name(topTpc(), NoteSpellingType::STANDARD, NoteCaseType::AUTO, false))
.arg(QString::number(topOctave()))
.arg(tpc2name(bottomTpc(), NoteSpellingType::STANDARD, NoteCaseType::AUTO, false))
.arg(QString::number(bottomOctave()));
}
//---------------------------------------------------------
// screenReaderInfo
//---------------------------------------------------------
QString Ambitus::screenReaderInfo() const
{
return accessibleInfo();
}
}