555 lines
15 KiB
C++
555 lines
15 KiB
C++
/****************************************************************************
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**
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** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies).
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** All rights reserved.
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** Contact: Nokia Corporation (qt-info@nokia.com)
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**
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** This file is part of the Qt Components project.
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**
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** $QT_BEGIN_LICENSE:BSD$
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** You may use this file under the terms of the BSD license as follows:
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**
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** "Redistribution and use in source and binary forms, with or without
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** modification, are permitted provided that the following conditions are
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** met:
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** * Redistributions of source code must retain the above copyright
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** notice, this list of conditions and the following disclaimer.
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** * Redistributions in binary form must reproduce the above copyright
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** notice, this list of conditions and the following disclaimer in
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** the documentation and/or other materials provided with the
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** distribution.
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** * Neither the name of Nokia Corporation and its Subsidiary(-ies) nor
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** the names of its contributors may be used to endorse or promote
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** products derived from this software without specific prior written
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** permission.
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**
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** THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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** "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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** LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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** A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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** OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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** SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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** LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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** OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE."
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** $QT_END_LICENSE$
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**
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****************************************************************************/
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/*!
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\class QRangeModel
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\brief The QRangeModel class, helps users to build components that depend
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on some value and/or position to be in a certain range previously defined
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With this class, the user sets a value range and a position range, which
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represent the valid values/positions the model can assume. It is worth telling
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that the value property always has priority over the position property. A nice use
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case, would be a Slider implementation with the help of QRangeModel. If the user sets
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a value range to [0,100], a position range to [50,100] and sets the value
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to 80, the equivalent position would be 90. After that, if the user decides to
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resize the slider, the value would be the same, but the knob position would
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be updated due to the new position range.
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\ingroup qt-components
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*/
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#ifndef QT_NO_ACCESSIBILITY
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#include <QAccessible>
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#endif
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#include <QDebug>
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#include "qrangemodel.h"
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#include "qrangemodel_p.h"
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namespace Plasma
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{
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QRangeModelPrivate::QRangeModelPrivate(QRangeModel *qq)
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: q_ptr(qq)
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{
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}
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QRangeModelPrivate::~QRangeModelPrivate()
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{
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}
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void QRangeModelPrivate::init()
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{
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minimum = 0;
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maximum = 99;
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stepSize = 0;
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value = 0;
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pos = 0;
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posatmin = 0;
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posatmax = 0;
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inverted = false;
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}
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/*!
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Calculates the position that is going to be seen outside by the component
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that is using QRangeModel. It takes into account the \l stepSize,
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\l positionAtMinimum, \l positionAtMaximum properties
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and \a position that is passed as parameter.
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*/
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qreal QRangeModelPrivate::publicPosition(qreal position) const
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{
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// Calculate the equivalent stepSize for the position property.
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const qreal min = effectivePosAtMin();
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const qreal max = effectivePosAtMax();
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const qreal valueRange = maximum - minimum;
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const qreal positionValueRatio = valueRange ? (max - min) / valueRange : 0;
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const qreal positionStep = stepSize * positionValueRatio;
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if (positionStep == 0) {
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return (min < max) ? qBound(min, position, max) : qBound(max, position, min);
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}
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const int stepSizeMultiplier = (position - min) / positionStep;
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// Test whether value is below minimum range
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if (stepSizeMultiplier < 0) {
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return min;
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}
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qreal leftEdge = (stepSizeMultiplier * positionStep) + min;
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qreal rightEdge = ((stepSizeMultiplier + 1) * positionStep) + min;
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if (min < max) {
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leftEdge = qMin(leftEdge, max);
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rightEdge = qMin(rightEdge, max);
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} else {
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leftEdge = qMax(leftEdge, max);
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rightEdge = qMax(rightEdge, max);
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}
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if (qAbs(leftEdge - position) <= qAbs(rightEdge - position)) {
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return leftEdge;
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}
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return rightEdge;
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}
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/*!
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Calculates the value that is going to be seen outside by the component
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that is using QRangeModel. It takes into account the \l stepSize,
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\l minimumValue, \l maximumValue properties
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and \a value that is passed as parameter.
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*/
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qreal QRangeModelPrivate::publicValue(qreal value) const
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{
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// It is important to do value-within-range check this
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// late (as opposed to during setPosition()). The reason is
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// QML bindings; a position that is initially invalid because it lays
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// outside the range, might become valid later if the range changes.
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if (stepSize == 0) {
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return qBound(minimum, value, maximum);
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}
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const int stepSizeMultiplier = (value - minimum) / stepSize;
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// Test whether value is below minimum range
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if (stepSizeMultiplier < 0) {
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return minimum;
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}
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const qreal leftEdge = qMin(maximum, (stepSizeMultiplier * stepSize) + minimum);
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const qreal rightEdge = qMin(maximum, ((stepSizeMultiplier + 1) * stepSize) + minimum);
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const qreal middle = (leftEdge + rightEdge) / 2;
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return (value <= middle) ? leftEdge : rightEdge;
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}
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/*!
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Checks if the \l value or \l position, that is seen by the user, has changed and emits the changed signal if it
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has changed.
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*/
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void QRangeModelPrivate::emitValueAndPositionIfChanged(const qreal oldValue, const qreal oldPosition)
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{
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Q_Q(QRangeModel);
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// Effective value and position might have changed even in cases when e.g. d->value is
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// unchanged. This will be the case when operating with values outside range:
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const qreal newValue = q->value();
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const qreal newPosition = q->position();
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if (!qFuzzyCompare(newValue, oldValue)) {
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emit q->valueChanged(newValue);
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}
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if (!qFuzzyCompare(newPosition, oldPosition)) {
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emit q->positionChanged(newPosition);
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}
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}
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/*!
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Constructs a QRangeModel with \a parent
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*/
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QRangeModel::QRangeModel(QObject *parent)
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: QObject(parent), d_ptr(new QRangeModelPrivate(this))
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{
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Q_D(QRangeModel);
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d->init();
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}
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/*!
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\internal
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Constructs a QRangeModel with private class pointer \a dd and \a parent
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*/
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QRangeModel::QRangeModel(QRangeModelPrivate &dd, QObject *parent)
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: QObject(parent), d_ptr(&dd)
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{
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Q_D(QRangeModel);
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d->init();
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}
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/*!
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Destroys the QRangeModel
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*/
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QRangeModel::~QRangeModel()
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{
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delete d_ptr;
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d_ptr = 0;
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}
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/*!
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Sets the range of valid positions, that \l position can assume externally, with
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\a min and \a max.
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Such range is represented by \l positionAtMinimum and \l positionAtMaximum
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*/
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void QRangeModel::setPositionRange(qreal min, qreal max)
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{
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Q_D(QRangeModel);
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bool emitPosAtMinChanged = !qFuzzyCompare(min, d->posatmin);
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bool emitPosAtMaxChanged = !qFuzzyCompare(max, d->posatmax);
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if (!(emitPosAtMinChanged || emitPosAtMaxChanged)) {
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return;
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}
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const qreal oldPosition = position();
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d->posatmin = min;
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d->posatmax = max;
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// When a new positionRange is defined, the position property must be updated based on the value property.
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// For instance, imagine that you have a valueRange of [0,100] and a position range of [20,100],
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// if a user set the value to 50, the position would be 60. If this positionRange is updated to [0,100], then
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// the new position, based on the value (50), will be 50.
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// If the newPosition is different than the old one, it must be updated, in order to emit
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// the positionChanged signal.
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d->pos = d->equivalentPosition(d->value);
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if (emitPosAtMinChanged) {
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emit positionAtMinimumChanged(d->posatmin);
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}
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if (emitPosAtMaxChanged) {
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emit positionAtMaximumChanged(d->posatmax);
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}
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d->emitValueAndPositionIfChanged(value(), oldPosition);
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}
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/*!
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Sets the range of valid values, that \l value can assume externally, with
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\a min and \a max. The range has the following constraint: \a min must be less or equal \a max
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Such range is represented by \l minimumValue and \l maximumValue
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*/
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void QRangeModel::setRange(qreal min, qreal max)
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{
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Q_D(QRangeModel);
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bool emitMinimumChanged = !qFuzzyCompare(min, d->minimum);
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bool emitMaximumChanged = !qFuzzyCompare(max, d->maximum);
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if (!(emitMinimumChanged || emitMaximumChanged)) {
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return;
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}
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const qreal oldValue = value();
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const qreal oldPosition = position();
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d->minimum = min;
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d->maximum = qMax(min, max);
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// Update internal position if it was changed. It can occurs if internal value changes, due to range update
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d->pos = d->equivalentPosition(d->value);
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if (emitMinimumChanged) {
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emit minimumChanged(d->minimum);
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}
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if (emitMaximumChanged) {
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emit maximumChanged(d->maximum);
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}
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d->emitValueAndPositionIfChanged(oldValue, oldPosition);
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}
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/*!
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\property QRangeModel::minimumValue
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\brief the minimum value that \l value can assume
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This property's default value is 0
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*/
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void QRangeModel::setMinimum(qreal min)
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{
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Q_D(const QRangeModel);
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setRange(min, d->maximum);
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}
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qreal QRangeModel::minimum() const
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{
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Q_D(const QRangeModel);
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return d->minimum;
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}
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/*!
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\property QRangeModel::maximumValue
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\brief the maximum value that \l value can assume
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This property's default value is 99
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*/
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void QRangeModel::setMaximum(qreal max)
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{
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Q_D(const QRangeModel);
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// if the new maximum value is smaller than
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// minimum, update minimum too
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setRange(qMin(d->minimum, max), max);
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}
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qreal QRangeModel::maximum() const
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{
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Q_D(const QRangeModel);
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return d->maximum;
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}
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/*!
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\property QRangeModel::stepSize
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\brief the value that is added to the \l value and \l position property
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Example: If a user sets a range of [0,100] and stepSize
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to 30, the valid values that are going to be seen externally would be: 0, 30, 60, 90, 100.
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*/
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void QRangeModel::setStepSize(qreal stepSize)
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{
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Q_D(QRangeModel);
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stepSize = qMax(qreal(0.0), stepSize);
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if (qFuzzyCompare(stepSize, d->stepSize)) {
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return;
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}
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const qreal oldValue = value();
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const qreal oldPosition = position();
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d->stepSize = stepSize;
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emit stepSizeChanged(d->stepSize);
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d->emitValueAndPositionIfChanged(oldValue, oldPosition);
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}
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qreal QRangeModel::stepSize() const
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{
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Q_D(const QRangeModel);
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return d->stepSize;
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}
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/*!
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Returns a valid position, respecting the \l positionAtMinimum,
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\l positionAtMaximum and the \l stepSize properties.
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Such calculation is based on the parameter \a value (which is valid externally).
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*/
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qreal QRangeModel::positionForValue(qreal value) const
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{
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Q_D(const QRangeModel);
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const qreal unconstrainedPosition = d->equivalentPosition(value);
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return d->publicPosition(unconstrainedPosition);
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}
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/*!
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\property QRangeModel::position
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\brief the current position of the model
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Represents a valid external position, based on the \l positionAtMinimum,
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\l positionAtMaximum and the \l stepSize properties.
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The user can set it internally with a position, that is not within the current position range,
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since it can become valid if the user changes the position range later.
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*/
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qreal QRangeModel::position() const
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{
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Q_D(const QRangeModel);
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// Return the internal position but observe boundaries and
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// stepSize restrictions.
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return d->publicPosition(d->pos);
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}
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void QRangeModel::setPosition(qreal newPosition)
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{
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Q_D(QRangeModel);
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if (qFuzzyCompare(newPosition, d->pos)) {
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return;
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}
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const qreal oldPosition = position();
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const qreal oldValue = value();
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// Update position and calculate new value
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d->pos = newPosition;
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d->value = d->equivalentValue(d->pos);
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d->emitValueAndPositionIfChanged(oldValue, oldPosition);
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}
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/*!
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\property QRangeModel::positionAtMinimum
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\brief the minimum value that \l position can assume
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This property's default value is 0
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*/
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void QRangeModel::setPositionAtMinimum(qreal min)
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{
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Q_D(QRangeModel);
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setPositionRange(min, d->posatmax);
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}
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qreal QRangeModel::positionAtMinimum() const
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{
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Q_D(const QRangeModel);
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return d->posatmin;
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}
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/*!
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\property QRangeModel::positionAtMaximum
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\brief the maximum value that \l position can assume
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This property's default value is 0
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*/
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void QRangeModel::setPositionAtMaximum(qreal max)
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{
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Q_D(QRangeModel);
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setPositionRange(d->posatmin, max);
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}
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qreal QRangeModel::positionAtMaximum() const
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{
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Q_D(const QRangeModel);
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return d->posatmax;
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}
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/*!
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Returns a valid value, respecting the \l minimumValue,
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\l maximumValue and the \l stepSize properties.
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Such calculation is based on the parameter \a position (which is valid externally).
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*/
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qreal QRangeModel::valueForPosition(qreal position) const
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{
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Q_D(const QRangeModel);
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const qreal unconstrainedValue = d->equivalentValue(position);
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return d->publicValue(unconstrainedValue);
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}
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/*!
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\property QRangeModel::value
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\brief the current value of the model
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Represents a valid external value, based on the \l minimumValue,
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\l maximumValue and the \l stepSize properties.
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The user can set it internally with a value, that is not within the current range,
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since it can become valid if the user changes the range later.
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*/
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qreal QRangeModel::value() const
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{
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Q_D(const QRangeModel);
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// Return internal value but observe boundaries and
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// stepSize restrictions
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return d->publicValue(d->value);
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}
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void QRangeModel::setValue(qreal newValue)
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{
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Q_D(QRangeModel);
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if (qFuzzyCompare(newValue, d->value)) {
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return;
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}
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const qreal oldValue = value();
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const qreal oldPosition = position();
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// Update relative value and position
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d->value = newValue;
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d->pos = d->equivalentPosition(d->value);
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d->emitValueAndPositionIfChanged(oldValue, oldPosition);
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}
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/*!
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\property QRangeModel::inverted
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\brief the model is inverted or not
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The model can be represented with an inverted behavior, e.g. when \l value assumes
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the maximum value (represented by \l maximumValue) the \l position will be at its
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minimum (represented by \l positionAtMinimum).
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*/
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void QRangeModel::setInverted(bool inverted)
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{
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Q_D(QRangeModel);
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if (inverted == d->inverted) {
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return;
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}
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d->inverted = inverted;
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emit invertedChanged(d->inverted);
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// After updating the internal value, the position property can change.
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setPosition(d->equivalentPosition(d->value));
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}
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bool QRangeModel::inverted() const
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{
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Q_D(const QRangeModel);
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return d->inverted;
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}
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/*!
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Sets the \l value to \l minimumValue.
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*/
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void QRangeModel::toMinimum()
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{
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Q_D(const QRangeModel);
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setValue(d->minimum);
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}
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/*!
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Sets the \l value to \l maximumValue.
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*/
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void QRangeModel::toMaximum()
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{
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Q_D(const QRangeModel);
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setValue(d->maximum);
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}
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} // Plasma namespace
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