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test parallel
test parallel
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cartesianchartlayout.cpp
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/ src / charts / layout / cartesianchartlayout.cpp
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/****************************************************************************
**
** 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/cartesianchartlayout_p.h>
#include <private/chartpresenter_p.h>
#include <private/chartaxiselement_p.h>
#include <QtCore/QDebug>
QT_CHARTS_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()));
}
QT_CHARTS_END_NAMESPACE