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Add Polar chart support...
Add Polar chart support This commit also heavily refactors things as polar chart needs separate implementation of various classes that previously only needed one, such as ChartAxis and ChartLayout. Task-number: QTRD-1757 Change-Id: I3d3db23920314987ceef3ae92879960b833b7136 Reviewed-by: Miikka Heikkinen <miikka.heikkinen@digia.com>
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cartesianchartlayout.cpp
246 lines | 8.5 KiB | text/x-c | CppLexer
/ src / layout / cartesianchartlayout.cpp
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/****************************************************************************
**
** Copyright (C) 2013 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 "cartesianchartlayout_p.h"
#include "chartpresenter_p.h"
#include "chartaxiselement_p.h"
#include <QDebug>
QTCOMMERCIALCHART_BEGIN_NAMESPACE
static const qreal maxAxisPortion = 0.4;
CartesianChartLayout::CartesianChartLayout(ChartPresenter *presenter)
: AbstractChartLayout(presenter)
{
}
CartesianChartLayout::~CartesianChartLayout()
{
}
QRectF CartesianChartLayout::calculateAxisGeometry(const QRectF &geometry, const QList<ChartAxisElement *> &axes) const
{
QSizeF left(0,0);
QSizeF minLeft(0,0);
QSizeF right(0,0);
QSizeF minRight(0,0);
QSizeF bottom(0,0);
QSizeF minBottom(0,0);
QSizeF top(0,0);
QSizeF minTop(0,0);
QSizeF labelExtents(0,0);
int leftCount = 0;
int rightCount = 0;
int topCount = 0;
int bottomCount = 0;
foreach (ChartAxisElement *axis , axes) {
if (!axis->isVisible())
continue;
QSizeF size = axis->effectiveSizeHint(Qt::PreferredSize);
//this is used to get single thick font size
QSizeF minSize = axis->effectiveSizeHint(Qt::MinimumSize);
switch (axis->axis()->alignment()) {
case Qt::AlignLeft:
left.setWidth(left.width()+size.width());
left.setHeight(qMax(left.height(),size.height()));
minLeft.setWidth(minLeft.width()+minSize.width());
minLeft.setHeight(qMax(minLeft.height(),minSize.height()));
labelExtents.setHeight(qMax(size.height(), labelExtents.height()));
leftCount++;
break;
case Qt::AlignRight:
right.setWidth(right.width()+size.width());
right.setHeight(qMax(right.height(),size.height()));
minRight.setWidth(minRight.width()+minSize.width());
minRight.setHeight(qMax(minRight.height(),minSize.height()));
labelExtents.setHeight(qMax(size.height(), labelExtents.height()));
rightCount++;
break;
case Qt::AlignTop:
top.setWidth(qMax(top.width(),size.width()));
top.setHeight(top.height()+size.height());
minTop.setWidth(qMax(minTop.width(),minSize.width()));
minTop.setHeight(minTop.height()+minSize.height());
labelExtents.setWidth(qMax(size.width(), labelExtents.width()));
topCount++;
break;
case Qt::AlignBottom:
bottom.setWidth(qMax(bottom.width(), size.width()));
bottom.setHeight(bottom.height() + size.height());
minBottom.setWidth(qMax(minBottom.width(),minSize.width()));
minBottom.setHeight(minBottom.height() + minSize.height());
labelExtents.setWidth(qMax(size.width(), labelExtents.width()));
bottomCount++;
break;
default:
qWarning()<<"Axis is without alignment !";
break;
}
}
qreal totalVerticalAxes = leftCount + rightCount;
qreal leftSqueezeRatio = 1.0;
qreal rightSqueezeRatio = 1.0;
qreal vratio = 0;
if (totalVerticalAxes > 0)
vratio = (maxAxisPortion * geometry.width()) / totalVerticalAxes;
if (leftCount > 0) {
int maxWidth = vratio * leftCount;
if (left.width() > maxWidth) {
leftSqueezeRatio = maxWidth / left.width();
left.setWidth(maxWidth);
}
}
if (rightCount > 0) {
int maxWidth = vratio * rightCount;
if (right.width() > maxWidth) {
rightSqueezeRatio = maxWidth / right.width();
right.setWidth(maxWidth);
}
}
qreal totalHorizontalAxes = topCount + bottomCount;
qreal topSqueezeRatio = 1.0;
qreal bottomSqueezeRatio = 1.0;
qreal hratio = 0;
if (totalHorizontalAxes > 0)
hratio = (maxAxisPortion * geometry.height()) / totalHorizontalAxes;
if (topCount > 0) {
int maxHeight = hratio * topCount;
if (top.height() > maxHeight) {
topSqueezeRatio = maxHeight / top.height();
top.setHeight(maxHeight);
}
}
if (bottomCount > 0) {
int maxHeight = hratio * bottomCount;
if (bottom.height() > maxHeight) {
bottomSqueezeRatio = maxHeight / bottom.height();
bottom.setHeight(maxHeight);
}
}
qreal minHeight = qMax(minLeft.height(),minRight.height()) + 1;
qreal minWidth = qMax(minTop.width(),minBottom.width()) + 1;
// Ensure that there is enough space for first and last tick labels.
left.setWidth(qMax(labelExtents.width(), left.width()));
right.setWidth(qMax(labelExtents.width(), right.width()));
top.setHeight(qMax(labelExtents.height(), top.height()));
bottom.setHeight(qMax(labelExtents.height(), bottom.height()));
QRectF chartRect = geometry.adjusted(qMax(left.width(),minWidth/2), qMax(top.height(), minHeight/2),-qMax(right.width(),minWidth/2),-qMax(bottom.height(),minHeight/2));
qreal leftOffset = 0;
qreal rightOffset = 0;
qreal topOffset = 0;
qreal bottomOffset = 0;
foreach (ChartAxisElement *axis , axes) {
if (!axis->isVisible())
continue;
QSizeF size = axis->effectiveSizeHint(Qt::PreferredSize);
switch (axis->axis()->alignment()){
case Qt::AlignLeft:{
qreal width = size.width();
if (leftSqueezeRatio < 1.0)
width *= leftSqueezeRatio;
leftOffset+=width;
axis->setGeometry(QRect(chartRect.left()-leftOffset, geometry.top(),width, geometry.bottom()),chartRect);
break;
}
case Qt::AlignRight:{
qreal width = size.width();
if (rightSqueezeRatio < 1.0)
width *= rightSqueezeRatio;
axis->setGeometry(QRect(chartRect.right()+rightOffset,geometry.top(),width,geometry.bottom()),chartRect);
rightOffset+=width;
break;
}
case Qt::AlignTop: {
qreal height = size.height();
if (topSqueezeRatio < 1.0)
height *= topSqueezeRatio;
axis->setGeometry(QRect(geometry.left(), chartRect.top() - topOffset - height, geometry.width(), height), chartRect);
topOffset += height;
break;
}
case Qt::AlignBottom:
qreal height = size.height();
if (bottomSqueezeRatio < 1.0)
height *= bottomSqueezeRatio;
axis->setGeometry(QRect(geometry.left(), chartRect.bottom() + bottomOffset, geometry.width(), height), chartRect);
bottomOffset += height;
break;
}
}
return chartRect;
}
QRectF CartesianChartLayout::calculateAxisMinimum(const QRectF &minimum, const QList<ChartAxisElement *> &axes) const
{
QSizeF left;
QSizeF right;
QSizeF bottom;
QSizeF top;
foreach (ChartAxisElement *axis, axes) {
QSizeF size = axis->effectiveSizeHint(Qt::MinimumSize);
if (!axis->isVisible())
continue;
switch (axis->axis()->alignment()) {
case Qt::AlignLeft:
left.setWidth(left.width() + size.width());
left.setHeight(qMax(left.height() * 2, size.height()));
break;
case Qt::AlignRight:
right.setWidth(right.width() + size.width());
right.setHeight(qMax(right.height() * 2, size.height()));
break;
case Qt::AlignTop:
top.setWidth(qMax(top.width(), size.width()));
top.setHeight(top.height() + size.height());
break;
case Qt::AlignBottom:
bottom.setWidth(qMax(bottom.width(), size.width()));
bottom.setHeight(bottom.height() + size.height());
break;
}
}
return minimum.adjusted(0, 0, left.width() + right.width() + qMax(top.width(), bottom.width()), top.height() + bottom.height() + qMax(left.height(), right.height()));
}
QTCOMMERCIALCHART_END_NAMESPACE