457 lines
16 KiB
C++
457 lines
16 KiB
C++
//=============================================================================
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// MuseScore
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// Music Composition & Notation
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//
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// Copyright (C) 2002-2011 Werner Schweer
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//
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// This program is free software; you can redistribute it and/or modify
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// it under the terms of the GNU General Public License version 2
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// as published by the Free Software Foundation and appearing in
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// the file LICENCE.GPL
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//=============================================================================
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#include "tremolo.h"
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#include "score.h"
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#include "style.h"
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#include "chord.h"
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#include "note.h"
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#include "measure.h"
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#include "segment.h"
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#include "stem.h"
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#include "xml.h"
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namespace Ms {
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//---------------------------------------------------------
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// Tremolo
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//---------------------------------------------------------
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static const char* tremoloName[] = {
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QT_TRANSLATE_NOOP("Tremolo", "Eighth through stem"),
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QT_TRANSLATE_NOOP("Tremolo", "16th through stem"),
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QT_TRANSLATE_NOOP("Tremolo", "32nd through stem"),
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QT_TRANSLATE_NOOP("Tremolo", "64th through stem"),
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QT_TRANSLATE_NOOP("Tremolo", "Eighth between notes"),
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QT_TRANSLATE_NOOP("Tremolo", "16th between notes"),
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QT_TRANSLATE_NOOP("Tremolo", "32nd between notes"),
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QT_TRANSLATE_NOOP("Tremolo", "64th between notes")
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};
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Tremolo::Tremolo(Score* score)
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: Element(score)
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{
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setTremoloType(TremoloType::R8);
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_chord1 = 0;
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_chord2 = 0;
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setFlags(ElementFlag::MOVABLE | ElementFlag::SELECTABLE);
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}
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Tremolo::Tremolo(const Tremolo& t)
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: Element(t)
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{
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setTremoloType(t.tremoloType());
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_chord1 = t.chord1();
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_chord2 = t.chord2();
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setFlags(ElementFlag::MOVABLE | ElementFlag::SELECTABLE);
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}
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//---------------------------------------------------------
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// mag
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//---------------------------------------------------------
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qreal Tremolo::mag() const
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{
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return parent() ? parent()->mag() : 1.0;
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}
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//---------------------------------------------------------
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// draw
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//---------------------------------------------------------
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void Tremolo::draw(QPainter* painter) const
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{
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painter->setBrush(QBrush(curColor()));
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painter->setPen(Qt::NoPen);
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painter->drawPath(path);
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if ((parent() == 0) && !twoNotes()) {
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qreal x = 0.0; // bbox().width() * .25;
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QPen pen(curColor(), point(score()->styleS(Sid::stemWidth)));
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painter->setPen(pen);
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qreal _spatium = spatium() * mag();
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painter->drawLine(QLineF(x, -_spatium*.5, x, path.boundingRect().height() + _spatium));
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}
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}
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//---------------------------------------------------------
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// setTremoloType
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//---------------------------------------------------------
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void Tremolo::setTremoloType(TremoloType t)
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{
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_tremoloType = t;
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switch (tremoloType()) {
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case TremoloType::R16:
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case TremoloType::C16:
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_lines = 2;
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break;
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case TremoloType::R32:
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case TremoloType::C32:
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_lines = 3;
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break;
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case TremoloType::R64:
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case TremoloType::C64:
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_lines = 4;
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break;
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default:
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_lines = 1;
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break;
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}
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}
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//---------------------------------------------------------
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// layout
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//---------------------------------------------------------
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void Tremolo::layout()
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{
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qreal _spatium = spatium() * mag();
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qreal w2 = _spatium * score()->styleS(Sid::tremoloWidth).val() * .5;
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qreal lw = _spatium * score()->styleS(Sid::tremoloStrokeWidth).val();
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qreal td = _spatium * score()->styleS(Sid::tremoloDistance).val();
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path = QPainterPath();
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qreal ty = 0.0;
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for (int i = 0; i < _lines; i++) {
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path.addRect(-w2, ty, 2.0 * w2, lw);
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ty += td;
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}
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// QRectF rect = path.boundingRect();
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// if ((parent() == 0) && !twoNotes())
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// rect.setHeight(rect.height() + _spatium);
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_chord1 = toChord(parent());
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if (_chord1 == 0) {
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// just for the palette
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QTransform shearTransform;
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shearTransform.shear(0.0, -(lw / 2.0) / w2);
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path = shearTransform.map(path);
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setbbox(path.boundingRect());
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addbbox(QRectF(bbox().x(), bbox().bottom(), bbox().width(), _spatium));
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return;
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}
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Note* anchor1 = _chord1->upNote();
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Stem* stem = _chord1->stem();
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qreal x, y, h;
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if (stem) {
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x = stem->pos().x();
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y = stem->pos().y();
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h = stem->stemLen();
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}
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else {
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// center tremolo above note
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x = anchor1->x() + anchor1->headWidth() * .5;
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y = anchor1->y();
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h = 2.0 * _spatium + bbox().height();
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if (anchor1->line() > 4)
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h *= -1;
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}
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if (!twoNotes()) {
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//
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// single note tremolos
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//
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bool up = _chord1->up();
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int line = up ? _chord1->upLine() : _chord1->downLine();
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static const qreal t[3][2][4][2] = {
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// normal stem
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{
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// DOWN
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{
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// even line odd line
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{ 6, 5 }, // line 1
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{ 6 - 2 * .8, 5 - 2 * .8 }, // line 2
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{ 6 - 4 * .8, 3 }, // line 3
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{ 2 , 3 } // line 4
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},
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// UP
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{
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// even line odd line
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{ -6, -5 }, // line 1
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{ -6, -5 }, // line 2
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{ -6, -3 - 4 * .8 }, // line 3
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{ -2 - 6 * .8, -3 - 6 * .8 } // line 4
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}
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},
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// stem with hook
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{
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// DOWN
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{
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// even line odd line
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{ 3, 3 }, // line 1
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{ 2, 2 }, // line 2
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{ 2, 2 }, // line 3
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{ 2, 2 } // line 4
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},
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// UP
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{
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// even line odd line
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{ -3, -3 }, // line 1
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{ -2 - 2 * .8, -2 - 2 * .8 }, // line 2
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{ -2 - 4 * .8, -2 - 4 * .8 }, // line 3
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{ -2 - 6 * .8, -2 - 6 * .8 } // line 4
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}
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},
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// stem with beam
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{
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// DOWN
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{
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// even line odd line
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{ 3, 3 }, // line 1
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{ 2, 2 }, // line 2
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{ 2, 2 }, // line 3
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{ 2, 2 } // line 4
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},
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// UP
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{
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// even line odd line
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{ -3, -3 }, // line 1
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{ -2 - 2 * .8, -2 - 2 * .8 }, // line 2
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{ -2 - 4 * .8, -2 - 4 * .8 }, // line 3
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{ -2 - 6 * .8, -2 - 6 * .8 } // line 4
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}
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},
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};
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int idx = _chord1->hook() ? 1 : (_chord1->beam() ? 2 : 0);
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y = (line + t[idx][up][_lines-1][line & 1]) * spatium() * .5;
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QTransform shearTransform;
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shearTransform.shear(0.0, -(lw / 2.0) / w2);
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path = shearTransform.map(path);
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setbbox(path.boundingRect());
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setPos(x, y);
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return;
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}
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y += (h - bbox().height()) * .5;
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//
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// two chord tremolo
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//
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Segment* s = _chord1->segment()->next();
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while (s) {
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if (s->element(track()) && (s->element(track())->type() == ElementType::CHORD))
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break;
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s = s->next();
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}
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if (s == 0) {
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qDebug("no second note of tremolo found");
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return;
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}
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_chord2 = toChord(s->element(track()));
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_chord2->setTremolo(this);
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Stem* stem1 = _chord1->stem();
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Stem* stem2 = _chord2->stem();
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// compute the y coordinates of the tips of the stems
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qreal y1, y2;
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qreal firstChordStaffY;
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if (stem2 && stem1) {
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// stemPageYOffset variable is used for the case when the first
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// chord is cross-staff
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firstChordStaffY = stem1->pagePos().y() - stem1->y(); // y coordinate of the staff of the first chord
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y1 = stem1->y() + stem1->p2().y();
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y2 = stem2->pagePos().y() - firstChordStaffY + stem2->p2().y(); // ->p2().y() is better than ->stemLen()
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}
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else {
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firstChordStaffY = _chord1->pagePos().y() - _chord1->y(); // y coordinate of the staff of the first chord
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y1 = _chord1->stemPosBeam().y() - firstChordStaffY + _chord1->defaultStemLength();
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y2 = _chord2->stemPosBeam().y() - firstChordStaffY + _chord2->defaultStemLength();
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}
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// improve the case when one stem is up and another is down
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if (_chord1->beams() == 0 && _chord2->beams() == 0 &&
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_chord1->up() != _chord2->up()) {
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qreal meanNote1Y = .5 * (_chord1->upNote()->pagePos().y() - firstChordStaffY + _chord1->downNote()->pagePos().y() - firstChordStaffY);
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qreal meanNote2Y = .5 * (_chord2->upNote()->pagePos().y() - firstChordStaffY + _chord2->downNote()->pagePos().y() - firstChordStaffY);
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y1 = .5 * (y1 + meanNote1Y);
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y2 = .5 * (y2 + meanNote2Y);
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}
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y = (y1 + y2) * .5;
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if (!_chord1->up()) {
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y -= path.boundingRect().height() * .5;
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}
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if (!_chord2->up()) {
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y -= path.boundingRect().height() * .5;
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}
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// compute the x coordinates of the inner edge of the stems
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qreal x2 = _chord2->stemPosBeam().x();
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if (_chord2->up() && stem2)
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x2 -= stem2->lineWidth();
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qreal x1 = _chord1->stemPosBeam().x();
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if (!_chord1->up() && stem1)
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x1 += stem1->lineWidth();
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x = (x1 + x2) * .5 - _chord1->pagePos().x();
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QTransform xScaleTransform;
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// TODO const qreal H_MULTIPLIER = score()->styleS(Sid::tremoloBeamLengthMultiplier).val();
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const qreal H_MULTIPLIER = 0.62;
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// TODO const qreal MAX_H_LENGTH = _spatium * score()->styleS(Sid::tremoloBeamLengthMultiplier).val();
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const qreal MAX_H_LENGTH = _spatium * 12.0;
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qreal xScaleFactor = qMin(H_MULTIPLIER * (x2 - x1), MAX_H_LENGTH);
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xScaleFactor /= (2.0 * w2);
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xScaleTransform.scale(xScaleFactor, 1.0);
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path = xScaleTransform.map(path);
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qreal beamYOffset = 0.0;
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if (_chord1->beams() == _chord2->beams() && _chord1->beam()) {
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int beams = _chord1->beams();
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qreal beamHalfLineWidth = point(score()->styleS(Sid::beamWidth)) * .5 * mag();
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beamYOffset = beams * _chord1->beam()->beamDist() - beamHalfLineWidth;
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if (_chord1->up() != _chord2->up()) { // cross-staff
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beamYOffset = 2 * beamYOffset + beamHalfLineWidth;
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}
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else if (!_chord1->up() && !_chord2->up()) {
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beamYOffset = -beamYOffset;
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}
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}
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QTransform shearTransform;
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if (_chord1->beams() == 0 && _chord2->beams() == 0) {
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if (_chord1->up() && !_chord2->up())
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shearTransform.shear(0.0, (y2 - y1 - path.boundingRect().height()) / (x2 - x1));
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else if (!_chord1->up() && _chord2->up())
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shearTransform.shear(0.0, (y2 - y1 + path.boundingRect().height()) / (x2 - x1));
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else
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shearTransform.shear(0.0, (y2 - y1) / (x2 - x1));
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}
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else {
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shearTransform.shear(0.0, (y2 - y1) / (x2 - x1));
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}
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path = shearTransform.map(path);
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setbbox(path.boundingRect());
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setPos(x, y + beamYOffset);
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}
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//---------------------------------------------------------
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// write
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//---------------------------------------------------------
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void Tremolo::write(XmlWriter& xml) const
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{
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if (!xml.canWrite(this))
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return;
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xml.stag(name());
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xml.tag("subtype", tremoloTypeName());
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Element::writeProperties(xml);
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xml.etag();
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}
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//---------------------------------------------------------
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// read
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//---------------------------------------------------------
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void Tremolo::read(XmlReader& e)
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{
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while (e.readNextStartElement()) {
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if (e.name() == "subtype")
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setTremoloType(e.readElementText());
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else if (!Element::readProperties(e))
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e.unknown();
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}
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}
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//---------------------------------------------------------
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// tremoloTypeName
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//---------------------------------------------------------
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QString Tremolo::tremoloTypeName() const
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{
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switch(tremoloType()) {
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case TremoloType::R8: return QString("r8");
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case TremoloType::R16: return QString("r16");
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case TremoloType::R32: return QString("r32");
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case TremoloType::R64: return QString("r64");
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case TremoloType::C8: return QString("c8");
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case TremoloType::C16: return QString("c16");
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case TremoloType::C32: return QString("c32");
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case TremoloType::C64: return QString("c64");
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default:
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break;
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}
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return QString("??");
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}
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//---------------------------------------------------------
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// setTremoloType
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//---------------------------------------------------------
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void Tremolo::setTremoloType(const QString& s)
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{
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TremoloType t;
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if (s == "r8")
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t = TremoloType::R8;
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else if (s == "r16")
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t = TremoloType::R16;
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else if (s == "r32")
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t = TremoloType::R32;
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else if (s == "r64")
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t = TremoloType::R64;
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else if (s == "c8")
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t = TremoloType::C8;
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else if (s == "c16")
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t = TremoloType::C16;
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else if (s == "c32")
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t = TremoloType::C32;
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else if (s == "c64")
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t = TremoloType::C64;
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else
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t = TremoloType(s.toInt()); // for compatibility with old tremolo type
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setTremoloType(t);
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}
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//---------------------------------------------------------
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// tremoloLen
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//---------------------------------------------------------
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Fraction Tremolo::tremoloLen() const
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{
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Fraction f;
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switch(lines()) {
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case 1: f.set(1,8); break;
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case 2: f.set(1,16); break;
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case 3: f.set(1,32); break;
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case 4: f.set(1,64); break;
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}
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return f;
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}
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//---------------------------------------------------------
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// subtypeName
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//---------------------------------------------------------
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QString Tremolo::subtypeName() const
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{
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return qApp->translate("Tremolo", tremoloName[subtype() - int(TremoloType::R8)]);
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}
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//---------------------------------------------------------
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// accessibleInfo
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//---------------------------------------------------------
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QString Tremolo::accessibleInfo() const
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{
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return QString("%1: %2").arg(Element::accessibleInfo()).arg(subtypeName());
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}
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}
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