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abstractdomain.cpp
275 lines | 7.6 KiB | text/x-c | CppLexer
/****************************************************************************
**
** Copyright (C) 2016 The Qt Company Ltd.
** Contact: https://www.qt.io/licensing/
**
** This file is part of the Qt Charts module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:GPL$
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The Qt Company. For licensing terms
** and conditions see https://www.qt.io/terms-conditions. For further
** information use the contact form at https://www.qt.io/contact-us.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3 or (at your option) any later version
** approved by the KDE Free Qt Foundation. The licenses are as published by
** the Free Software Foundation and appearing in the file LICENSE.GPL3
** included in the packaging of this file. Please review the following
** information to ensure the GNU General Public License requirements will
** be met: https://www.gnu.org/licenses/gpl-3.0.html.
**
** $QT_END_LICENSE$
**
****************************************************************************/
#include <private/abstractdomain_p.h>
#include <private/qabstractaxis_p.h>
#include <QtCore/QtMath>
#include <cmath>
QT_CHARTS_BEGIN_NAMESPACE
AbstractDomain::AbstractDomain(QObject *parent)
: QObject(parent),
m_minX(0),
m_maxX(0),
m_minY(0),
m_maxY(0),
m_signalsBlocked(false),
m_zoomed(false),
m_zoomResetMinX(0),
m_zoomResetMaxX(0),
m_zoomResetMinY(0),
m_zoomResetMaxY(0)
{
}
AbstractDomain::~AbstractDomain()
{
}
void AbstractDomain::setSize(const QSizeF &size)
{
if (m_size != size) {
m_size=size;
emit updated();
}
}
QSizeF AbstractDomain::size() const
{
return m_size;
}
void AbstractDomain::setRangeX(qreal min, qreal max)
{
setRange(min, max, m_minY, m_maxY);
}
void AbstractDomain::setRangeY(qreal min, qreal max)
{
setRange(m_minX, m_maxX, min, max);
}
void AbstractDomain::setMinX(qreal min)
{
setRange(min, m_maxX, m_minY, m_maxY);
}
void AbstractDomain::setMaxX(qreal max)
{
setRange(m_minX, max, m_minY, m_maxY);
}
void AbstractDomain::setMinY(qreal min)
{
setRange(m_minX, m_maxX, min, m_maxY);
}
void AbstractDomain::setMaxY(qreal max)
{
setRange(m_minX, m_maxX, m_minY, max);
}
qreal AbstractDomain::spanX() const
{
Q_ASSERT(m_maxX >= m_minX);
return m_maxX - m_minX;
}
qreal AbstractDomain::spanY() const
{
Q_ASSERT(m_maxY >= m_minY);
return m_maxY - m_minY;
}
bool AbstractDomain::isEmpty() const
{
return qFuzzyCompare(spanX(), 0) || qFuzzyCompare(spanY(), 0) || m_size.isEmpty();
}
QPointF AbstractDomain::calculateDomainPoint(const QPointF &point) const
{
const qreal deltaX = m_size.width() / (m_maxX - m_minX);
const qreal deltaY = m_size.height() / (m_maxY - m_minY);
qreal x = point.x() / deltaX + m_minX;
qreal y = (point.y() - m_size.height()) / (-deltaY) + m_minY;
return QPointF(x, y);
}
// handlers
void AbstractDomain::handleVerticalAxisRangeChanged(qreal min, qreal max)
{
setRangeY(min, max);
}
void AbstractDomain::handleHorizontalAxisRangeChanged(qreal min, qreal max)
{
setRangeX(min, max);
}
void AbstractDomain::blockRangeSignals(bool block)
{
if (m_signalsBlocked!=block) {
m_signalsBlocked=block;
if (!block) {
emit rangeHorizontalChanged(m_minX,m_maxX);
emit rangeVerticalChanged(m_minY,m_maxY);
}
}
}
void AbstractDomain::zoomReset()
{
if (m_zoomed) {
setRange(m_zoomResetMinX,
m_zoomResetMaxX,
m_zoomResetMinY,
m_zoomResetMaxY);
m_zoomed = false;
}
}
void AbstractDomain::storeZoomReset()
{
if (!m_zoomed) {
m_zoomed = true;
m_zoomResetMinX = m_minX;
m_zoomResetMaxX = m_maxX;
m_zoomResetMinY = m_minY;
m_zoomResetMaxY = m_maxY;
}
}
//algorithm defined by Paul S.Heckbert GraphicalGems I
void AbstractDomain::looseNiceNumbers(qreal &min, qreal &max, int &ticksCount)
{
qreal range = niceNumber(max - min, true); //range with ceiling
qreal step = niceNumber(range / (ticksCount - 1), false);
min = qFloor(min / step);
max = qCeil(max / step);
ticksCount = int(max - min) + 1;
min *= step;
max *= step;
}
//nice numbers can be expressed as form of 1*10^n, 2* 10^n or 5*10^n
qreal AbstractDomain::niceNumber(qreal x, bool ceiling)
{
qreal z = qPow(10, qFloor(std::log10(x))); //find corresponding number of the form of 10^n than is smaller than x
qreal q = x / z; //q<10 && q>=1;
if (ceiling) {
if (q <= 1.0) q = 1;
else if (q <= 2.0) q = 2;
else if (q <= 5.0) q = 5;
else q = 10;
} else {
if (q < 1.5) q = 1;
else if (q < 3.0) q = 2;
else if (q < 7.0) q = 5;
else q = 10;
}
return q * z;
}
bool AbstractDomain::attachAxis(QAbstractAxis *axis)
{
if (axis->orientation() == Qt::Vertical) {
QObject::connect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleVerticalAxisRangeChanged(qreal,qreal)));
QObject::connect(this, SIGNAL(rangeVerticalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));
}
if (axis->orientation() == Qt::Horizontal) {
QObject::connect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleHorizontalAxisRangeChanged(qreal,qreal)));
QObject::connect(this, SIGNAL(rangeHorizontalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));
}
return true;
}
bool AbstractDomain::detachAxis(QAbstractAxis *axis)
{
if (axis->orientation() == Qt::Vertical) {
QObject::disconnect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleVerticalAxisRangeChanged(qreal,qreal)));
QObject::disconnect(this, SIGNAL(rangeVerticalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));
}
if (axis->orientation() == Qt::Horizontal) {
QObject::disconnect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleHorizontalAxisRangeChanged(qreal,qreal)));
QObject::disconnect(this, SIGNAL(rangeHorizontalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));
}
return true;
}
// operators
bool Q_AUTOTEST_EXPORT operator== (const AbstractDomain &domain1, const AbstractDomain &domain2)
{
return (qFuzzyIsNull(domain1.m_maxX - domain2.m_maxX)
&& qFuzzyIsNull(domain1.m_maxY - domain2.m_maxY)
&& qFuzzyIsNull(domain1.m_minX - domain2.m_minX)
&& qFuzzyIsNull(domain1.m_minY - domain2.m_minY));
}
bool Q_AUTOTEST_EXPORT operator!= (const AbstractDomain &domain1, const AbstractDomain &domain2)
{
return !(domain1 == domain2);
}
QDebug Q_AUTOTEST_EXPORT operator<<(QDebug dbg, const AbstractDomain &domain)
{
#ifdef QT_NO_TEXTSTREAM
Q_UNUSED(domain)
#else
dbg.nospace() << "AbstractDomain(" << domain.m_minX << ',' << domain.m_maxX << ',' << domain.m_minY << ',' << domain.m_maxY << ')' << domain.m_size;
#endif
return dbg.maybeSpace();
}
// This function adjusts min/max ranges to failsafe values if negative/zero values are attempted.
void AbstractDomain::adjustLogDomainRanges(qreal &min, qreal &max)
{
if (min <= 0) {
min = 1.0;
if (max <= min)
max = min + 1.0;
}
}
#include "moc_abstractdomain_p.cpp"
QT_CHARTS_END_NAMESPACE