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Fix to domain initialization when log base was preset on axis before adding it to chart
Fix to domain initialization when log base was preset on axis before adding it to chart
Marek Rosa - - Load All Authors

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r2295:8468c10170a2
r2295:8468c10170a2
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logxlogydomain.cpp
229 lines | 8.0 KiB | text/x-c | CppLexer
/ src / domain / logxlogydomain.cpp
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/****************************************************************************
**
** Copyright (C) 2012 Digia Plc
** All rights reserved.
** For any questions to Digia, please use contact form at http://qt.digia.com
**
** This file is part of the Qt Commercial Charts Add-on.
**
** $QT_BEGIN_LICENSE$
** Licensees holding valid Qt Commercial licenses may use this file in
** accordance with the Qt Commercial License Agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and Digia.
**
** If you have questions regarding the use of this file, please use
** contact form at http://qt.digia.com
** $QT_END_LICENSE$
**
****************************************************************************/
#include "logxlogydomain_p.h"
#include "qabstractaxis_p.h"
#include "qlogvalueaxis.h"
#include <qmath.h>
QTCOMMERCIALCHART_BEGIN_NAMESPACE
LogXLogYDomain::LogXLogYDomain(QObject *parent)
: AbstractDomain(parent),
m_logMinX(0),
m_logMaxX(1),
m_logBaseX(10),
m_logMinY(0),
m_logMaxY(1),
m_logBaseY(10)
{
}
LogXLogYDomain::~LogXLogYDomain()
{
}
void LogXLogYDomain::setRange(qreal minX, qreal maxX, qreal minY, qreal maxY)
{
bool axisXChanged = false;
bool axisYChanged = false;
if (!qFuzzyIsNull(m_minX - minX) || !qFuzzyIsNull(m_maxX - maxX)) {
m_minX = minX;
m_maxX = maxX;
axisXChanged = true;
m_logMinX = log10(m_minX) / log10(m_logBaseX);
m_logMaxX = log10(m_maxX) / log10(m_logBaseX);
if(!m_signalsBlocked)
emit rangeHorizontalChanged(m_minX, m_maxX);
}
if (!qFuzzyIsNull(m_minY - minY) || !qFuzzyIsNull(m_maxY - maxY)) {
m_minY = minY;
m_maxY = maxY;
axisYChanged = true;
m_logMinY = log10(m_minY) / log10(m_logBaseY);
m_logMaxY = log10(m_maxY) / log10(m_logBaseY);
if(!m_signalsBlocked)
emit rangeVerticalChanged(m_minY, m_maxY);
}
if (axisXChanged || axisYChanged)
emit updated();
}
void LogXLogYDomain::zoomIn(const QRectF &rect)
{
qreal newLogMinX = rect.left() * (m_logMaxX - m_logMinX) / m_size.width() + m_logMinX;
qreal newLogMaxX = rect.right() * (m_logMaxX - m_logMinX) / m_size.width() + m_logMinX;
qreal minX = qPow(m_logBaseX, newLogMinX);
qreal maxX = qPow(m_logBaseX, newLogMaxX);
qreal newLogMinY = m_logMaxY - rect.bottom() * (m_logMaxY - m_logMinY) / m_size.height();
qreal newLogMaxY = m_logMaxY - rect.top() * (m_logMaxY - m_logMinY) / m_size.height();
qreal minY = qPow(m_logBaseY, newLogMinY);
qreal maxY = qPow(m_logBaseY, newLogMaxY);
setRange(minX, maxX, minY, maxY);
}
void LogXLogYDomain::zoomOut(const QRectF &rect)
{
qreal ratioX = m_size.width()/rect.width();
qreal newLogMinX = m_logMinX - (m_logMaxX - m_logMinX) / ratioX;
qreal newLogMaxX = m_logMaxX + (m_logMaxX - m_logMinX) / ratioX;
qreal minX = qPow(m_logBaseX, newLogMinX);
qreal maxX = qPow(m_logBaseX, newLogMaxX);
qreal ratioY = m_size.height()/rect.height();
qreal newLogMinY = m_logMinY - (m_logMaxY - m_logMinY) / ratioY;
qreal newLogMaxY = m_logMaxY + (m_logMaxY - m_logMinY) / ratioY;
qreal minY = qPow(m_logBaseY, newLogMinY);
qreal maxY = qPow(m_logBaseY, newLogMaxY);
setRange(minX, maxX, minY, maxY);
}
void LogXLogYDomain::move(qreal dx, qreal dy)
{
qreal stepX = dx * qAbs(m_logMaxX - m_logMinX) / m_size.width();
qreal minX = qPow(m_logBaseX, m_logMinX + stepX);
qreal maxX = qPow(m_logBaseX, m_logMaxX + stepX);
qreal stepY = dy * qAbs(m_logMaxY - m_logMinY) / m_size.height();
qreal minY = qPow(m_logBaseY, m_logMinY + stepY);
qreal maxY = qPow(m_logBaseY, m_logMaxY + stepY);
setRange(minX, maxX, minY, maxY);
}
QPointF LogXLogYDomain::calculateGeometryPoint(const QPointF &point) const
{
const qreal leftEdgeX= m_logMinX < m_logMaxX ? m_logMinX : m_logMaxX;
const qreal leftEdgeY = m_logMinY < m_logMaxY ? m_logMinY : m_logMaxY;
const qreal deltaX = m_size.width() / qAbs(m_logMaxX - m_logMinX);
const qreal deltaY = m_size.height() / qAbs(m_logMaxY - m_logMinY);
qreal x = (log10(point.x()) / log10(m_logBaseX)) * deltaX - leftEdgeX * deltaX;
qreal y = (log10(point.y()) / log10(m_logBaseY)) * -deltaY - leftEdgeY * -deltaY + m_size.height();
return QPointF(x, y);
}
QVector<QPointF> LogXLogYDomain::calculateGeometryPoints(const QList<QPointF>& vector) const
{
const qreal leftEdgeX= m_logMinX < m_logMaxX ? m_logMinX : m_logMaxX;
const qreal leftEdgeY = m_logMinY < m_logMaxY ? m_logMinY : m_logMaxY;
const qreal deltaX = m_size.width() / qAbs(m_logMaxX - m_logMinX);
const qreal deltaY = m_size.height() / qAbs(m_logMaxY - m_logMinY);
QVector<QPointF> result;
result.resize(vector.count());
for (int i = 0; i < vector.count(); ++i) {
qreal x = (log10(vector[i].x()) / log10(m_logBaseX)) * deltaX - leftEdgeX * deltaX;
qreal y = (log10(vector[i].y()) / log10(m_logBaseY)) * -deltaY - leftEdgeY * -deltaY + m_size.height();
result[i].setX(x);
result[i].setY(y);
}
return result;
}
QPointF LogXLogYDomain::calculateDomainPoint(const QPointF &point) const
{
const qreal leftEdgeX= m_logMinX < m_logMaxX ? m_logMinX : m_logMaxX;
const qreal leftEdgeY = m_logMinY < m_logMaxY ? m_logMinY : m_logMaxY;
const qreal deltaX = m_size.width() / qAbs(m_logMaxX - m_logMinX);
const qreal deltaY = m_size.height() / qAbs(m_logMaxY - m_logMinY);
qreal x = qPow(m_logBaseX, leftEdgeX + point.x() / deltaX);
qreal y = qPow(m_logBaseY, leftEdgeY + (m_size.height() - point.y()) / deltaY);
return QPointF(x, y);
}
bool LogXLogYDomain::attachAxis(QAbstractAxis* axis)
{
AbstractDomain::attachAxis(axis);
QLogValueAxis *logAxis = qobject_cast<QLogValueAxis *>(axis);
if(logAxis && logAxis->orientation()==Qt::Vertical) {
QObject::connect(logAxis, SIGNAL(baseChanged(qreal)), this, SLOT(handleVerticalAxisBaseChanged(qreal)));
handleVerticalAxisBaseChanged(logAxis->base());
}
if(logAxis && logAxis->orientation()==Qt::Horizontal) {
QObject::connect(logAxis, SIGNAL(baseChanged(qreal)), this, SLOT(handleHorizontalAxisBaseChanged(qreal)));
handleHorizontalAxisBaseChanged(logAxis->base());
}
return true;
}
bool LogXLogYDomain::detachAxis(QAbstractAxis* axis)
{
AbstractDomain::detachAxis(axis);
QLogValueAxis *logAxis = qobject_cast<QLogValueAxis *>(axis);
if(logAxis && logAxis->orientation()==Qt::Vertical)
QObject::disconnect(logAxis, SIGNAL(baseChanged(qreal)), this, SLOT(handleVerticalAxisBaseChanged(qreal)));
if(logAxis && logAxis->orientation()==Qt::Horizontal)
QObject::disconnect(logAxis, SIGNAL(baseChanged(qreal)), this, SLOT(handleHorizontalAxisBaseChanged(qreal)));
return true;
}
void LogXLogYDomain::handleVerticalAxisBaseChanged(qreal baseY)
{
m_logBaseY = baseY;
m_logMinY = log10(m_minY) / log10(m_logBaseY);
m_logMaxY = log10(m_maxY) / log10(m_logBaseY);
}
void LogXLogYDomain::handleHorizontalAxisBaseChanged(qreal baseX)
{
m_logBaseX = baseX;
m_logMinX = log10(m_minX) / log10(m_logBaseX);
m_logMaxX = log10(m_maxX) / log10(m_logBaseX);
}
// operators
bool QTCOMMERCIALCHART_AUTOTEST_EXPORT operator== (const LogXLogYDomain &domain1, const LogXLogYDomain &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 QTCOMMERCIALCHART_AUTOTEST_EXPORT operator!= (const LogXLogYDomain &domain1, const LogXLogYDomain &domain2)
{
return !(domain1 == domain2);
}
QDebug QTCOMMERCIALCHART_AUTOTEST_EXPORT operator<<(QDebug dbg, const LogXLogYDomain &domain)
{
dbg.nospace() << "AbstractDomain(" << domain.m_minX << ',' << domain.m_maxX << ',' << domain.m_minY << ',' << domain.m_maxY << ')' << domain.m_size;
return dbg.maybeSpace();
}
#include "moc_logxlogydomain_p.cpp"
QTCOMMERCIALCHART_END_NAMESPACE