HG_REPOSITORIES/LPP/INSTRUMENTATION/USERS/JEANDET/qtcharts Files · src/chartlayout.cpp

Fix label truncate issues with multiple axes...

Fix label truncate issues with multiple axes If there were multiple axes on single side of the chart, the axes wider/higher than average never got their preferred size, causing labels to truncate. Fixed by calculating the required squeeze ratio instead of just blindly using even fraction of available space. Task-number: QTRD-1897 Reviewed-by: Mika Salmela

Miikka Heikkinen - - Load All Authors

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             chartlayout.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 "chartlayout_p.h"

      #include "chartpresenter_p.h"

      #include "qlegend_p.h"

      #include "chartaxis_p.h"

      #include "charttitle_p.h"

      #include "chartbackground_p.h"

      #include <QDebug>

      QTCOMMERCIALCHART_BEGIN_NAMESPACE

      static const qreal maxAxisPortion = 0.4;

      ChartLayout::ChartLayout(ChartPresenter *presenter)

          : m_presenter(presenter),

            m_margins(20, 20, 20, 20),

            m_minChartRect(0, 0, 200, 200)

      {

      }

      ChartLayout::~ChartLayout()

      {

      }

      void ChartLayout::setGeometry(const QRectF &rect)

      {

          if (!rect.isValid())

              return;

          QList<ChartAxis *> axes = m_presenter->axisItems();

          ChartTitle *title = m_presenter->titleElement();

          QLegend *legend = m_presenter->legend();

          ChartBackground *background = m_presenter->backgroundElement();

          QRectF contentGeometry = calculateBackgroundGeometry(rect, background);

          contentGeometry = calculateContentGeometry(contentGeometry);

          if (title && title->isVisible())

              contentGeometry = calculateTitleGeometry(contentGeometry, title);

          if (legend->isAttachedToChart() && legend->isVisible())

              contentGeometry = calculateLegendGeometry(contentGeometry, legend);

          contentGeometry = calculateAxisGeometry(contentGeometry, axes);

          m_presenter->setGeometry(contentGeometry);

          QGraphicsLayout::setGeometry(rect);

      }

      QRectF ChartLayout::calculateContentGeometry(const QRectF &geometry) const

      {

          return geometry.adjusted(m_margins.left(), m_margins.top(), -m_margins.right(), -m_margins.bottom());

      }

      QRectF ChartLayout::calculateContentMinimum(const QRectF &minimum) const

      {

          return  minimum.adjusted(0, 0, m_margins.left() + m_margins.right(), m_margins.top() + m_margins.bottom());

      }

      QRectF ChartLayout::calculateBackgroundGeometry(const QRectF &geometry, ChartBackground *background) const

      {

          qreal left, top, right, bottom;

          getContentsMargins(&left, &top, &right, &bottom);

          QRectF backgroundGeometry = geometry.adjusted(left, top, -right, -bottom);

          if (background)

              background->setRect(backgroundGeometry);

          return backgroundGeometry;

      }

      QRectF ChartLayout::calculateBackgroundMinimum(const QRectF &minimum) const

      {

          qreal left, top, right, bottom;

          getContentsMargins(&left, &top, &right, &bottom);

          return minimum.adjusted(0, 0, left + right, top + bottom);

      }

      QRectF ChartLayout::calculateAxisGeometry(const QRectF &geometry, const QList<ChartAxis *>& 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);

          int leftCount = 0;

          int rightCount = 0;

          int topCount = 0;

          int bottomCount = 0;

          foreach (ChartAxis *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->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()));

                 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()));

                  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());

                  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());

                  bottomCount++;

                  break;

              default:

                  qWarning()<<"Axis is without alignment !";

                  break;

              }

          }

          int 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);

              }

          }

          int 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;

          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(ChartElement *axisElement , axes) {

              //TODO fixme

              ChartAxis* axis = qobject_cast<ChartAxis*>(axisElement);

              if (!axis->isVisible())

                  continue;

              QSizeF size = axis->effectiveSizeHint(Qt::PreferredSize);

              switch(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 ChartLayout::calculateAxisMinimum(const QRectF &minimum, const QList<ChartAxis *>& axes) const

      {

          QSizeF left;

          QSizeF right;

          QSizeF bottom;

          QSizeF top;

          foreach (ChartAxis *axis, axes) {

              QSizeF size = axis->effectiveSizeHint(Qt::MinimumSize);

              if (!axis->isVisible())

                  continue;

              switch (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()));

      }

      QRectF ChartLayout::calculateLegendGeometry(const QRectF &geometry, QLegend *legend) const

      {

          QSizeF size = legend->effectiveSizeHint(Qt::PreferredSize, QSizeF(-1, -1));

          QRectF legendRect;

          QRectF result;

          switch (legend->alignment()) {

          case Qt::AlignTop: {

              legendRect = QRectF(geometry.topLeft(), QSizeF(geometry.width(), size.height()));

              result = geometry.adjusted(0, legendRect.height(), 0, 0);

              break;

          }

          case Qt::AlignBottom: {

              legendRect = QRectF(QPointF(geometry.left(), geometry.bottom() - size.height()), QSizeF(geometry.width(), size.height()));

              result = geometry.adjusted(0, 0, 0, -legendRect.height());

              break;

          }

          case Qt::AlignLeft: {

              qreal width = qMin(size.width(), geometry.width() * maxAxisPortion);

              legendRect = QRectF(geometry.topLeft(), QSizeF(width, geometry.height()));

              result = geometry.adjusted(width, 0, 0, 0);

              break;

          }

          case Qt::AlignRight: {

              qreal width = qMin(size.width(), geometry.width() * maxAxisPortion);

              legendRect = QRectF(QPointF(geometry.right() - width, geometry.top()), QSizeF(width, geometry.height()));

              result = geometry.adjusted(0, 0, -width, 0);

              break;

          }

          default: {

              legendRect = QRectF(0, 0, 0, 0);

              result = geometry;

              break;

          }

          }

          legend->setGeometry(legendRect);

          return result;

      }

      QRectF ChartLayout::calculateLegendMinimum(const QRectF &geometry, QLegend *legend) const

      {

          QSizeF minSize = legend->effectiveSizeHint(Qt::MinimumSize, QSizeF(-1, -1));

          return geometry.adjusted(0, 0, minSize.width(), minSize.height());

      }

      QRectF ChartLayout::calculateTitleGeometry(const QRectF &geometry, ChartTitle *title) const

      {

          title->setGeometry(geometry);

          QPointF center = geometry.center() - title->boundingRect().center();

          title->setPos(center.x(),title->pos().y());

          return geometry.adjusted(0,title->boundingRect().height()+1,0,0);

      }

      QRectF ChartLayout::calculateTitleMinimum(const QRectF &minimum, ChartTitle *title) const

      {

          QSizeF min = title->sizeHint(Qt::MinimumSize);

          return  minimum.adjusted(0, 0, min.width(), min.height());

      }

      QSizeF ChartLayout::sizeHint(Qt::SizeHint which, const QSizeF &constraint) const

      {

          Q_UNUSED(constraint);

          if (which == Qt::MinimumSize) {

              QList<ChartAxis *> axes = m_presenter->axisItems();

              ChartTitle *title = m_presenter->titleElement();

              QLegend *legend = m_presenter->legend();

              QRectF minimumRect(0, 0, 0, 0);

              minimumRect = calculateBackgroundMinimum(minimumRect);

              minimumRect = calculateContentMinimum(minimumRect);

              minimumRect = calculateTitleMinimum(minimumRect, title);

              minimumRect = calculateLegendMinimum(minimumRect, legend);

              minimumRect = calculateAxisMinimum(minimumRect, axes);

              return  minimumRect.united(m_minChartRect).size().toSize();

          }

          return QSize(-1, -1);

      }

      void ChartLayout::setMargins(const QMargins &margins)

      {

          if (m_margins != margins) {

              m_margins = margins;

              updateGeometry();

          }

      }

      QMargins ChartLayout::margins() const

      {

          return m_margins;

      }

      QTCOMMERCIALCHART_END_NAMESPACE

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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 "chartlayout_p.h"
				#include "chartpresenter_p.h"
				#include "qlegend_p.h"
				#include "chartaxis_p.h"
				#include "charttitle_p.h"
				#include "chartbackground_p.h"
				#include <QDebug>

				QTCOMMERCIALCHART_BEGIN_NAMESPACE

				static const qreal maxAxisPortion = 0.4;

				ChartLayout::ChartLayout(ChartPresenter *presenter)
				: m_presenter(presenter),
				m_margins(20, 20, 20, 20),
				m_minChartRect(0, 0, 200, 200)
				{

				}

				ChartLayout::~ChartLayout()
				{

				}

				void ChartLayout::setGeometry(const QRectF &rect)
				{
				if (!rect.isValid())
				return;

				QList<ChartAxis *> axes = m_presenter->axisItems();
				ChartTitle *title = m_presenter->titleElement();
				QLegend *legend = m_presenter->legend();
				ChartBackground *background = m_presenter->backgroundElement();

				QRectF contentGeometry = calculateBackgroundGeometry(rect, background);

				contentGeometry = calculateContentGeometry(contentGeometry);

				if (title && title->isVisible())
				contentGeometry = calculateTitleGeometry(contentGeometry, title);

				if (legend->isAttachedToChart() && legend->isVisible())
				contentGeometry = calculateLegendGeometry(contentGeometry, legend);

				contentGeometry = calculateAxisGeometry(contentGeometry, axes);

				m_presenter->setGeometry(contentGeometry);

				QGraphicsLayout::setGeometry(rect);
				}

				QRectF ChartLayout::calculateContentGeometry(const QRectF &geometry) const
				{
				return geometry.adjusted(m_margins.left(), m_margins.top(), -m_margins.right(), -m_margins.bottom());
				}

				QRectF ChartLayout::calculateContentMinimum(const QRectF &minimum) const
				{
				return minimum.adjusted(0, 0, m_margins.left() + m_margins.right(), m_margins.top() + m_margins.bottom());
				}


				QRectF ChartLayout::calculateBackgroundGeometry(const QRectF &geometry, ChartBackground *background) const
				{
				qreal left, top, right, bottom;
				getContentsMargins(&left, &top, &right, &bottom);
				QRectF backgroundGeometry = geometry.adjusted(left, top, -right, -bottom);
				if (background)
				background->setRect(backgroundGeometry);
				return backgroundGeometry;
				}

				QRectF ChartLayout::calculateBackgroundMinimum(const QRectF &minimum) const
				{
				qreal left, top, right, bottom;
				getContentsMargins(&left, &top, &right, &bottom);
				return minimum.adjusted(0, 0, left + right, top + bottom);
				}


				QRectF ChartLayout::calculateAxisGeometry(const QRectF &geometry, const QList<ChartAxis *>& 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);
				int leftCount = 0;
				int rightCount = 0;
				int topCount = 0;
				int bottomCount = 0;

				foreach (ChartAxis *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->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()));
				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()));
				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());
				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());
				bottomCount++;
				break;
				default:
				qWarning()<<"Axis is without alignment !";
				break;
				}
				}

				int 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);
				}
				}

				int 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;

				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(ChartElement *axisElement , axes) {

				//TODO fixme
				ChartAxis* axis = qobject_cast<ChartAxis*>(axisElement);

				if (!axis->isVisible())
				continue;

				QSizeF size = axis->effectiveSizeHint(Qt::PreferredSize);

				switch(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 ChartLayout::calculateAxisMinimum(const QRectF &minimum, const QList<ChartAxis *>& axes) const
				{
				QSizeF left;
				QSizeF right;
				QSizeF bottom;
				QSizeF top;

				foreach (ChartAxis *axis, axes) {

				QSizeF size = axis->effectiveSizeHint(Qt::MinimumSize);

				if (!axis->isVisible())
				continue;

				switch (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()));
				}

				QRectF ChartLayout::calculateLegendGeometry(const QRectF &geometry, QLegend *legend) const
				{
				QSizeF size = legend->effectiveSizeHint(Qt::PreferredSize, QSizeF(-1, -1));
				QRectF legendRect;
				QRectF result;

				switch (legend->alignment()) {
				case Qt::AlignTop: {
				legendRect = QRectF(geometry.topLeft(), QSizeF(geometry.width(), size.height()));
				result = geometry.adjusted(0, legendRect.height(), 0, 0);
				break;
				}
				case Qt::AlignBottom: {
				legendRect = QRectF(QPointF(geometry.left(), geometry.bottom() - size.height()), QSizeF(geometry.width(), size.height()));
				result = geometry.adjusted(0, 0, 0, -legendRect.height());
				break;
				}
				case Qt::AlignLeft: {
				qreal width = qMin(size.width(), geometry.width() * maxAxisPortion);
				legendRect = QRectF(geometry.topLeft(), QSizeF(width, geometry.height()));
				result = geometry.adjusted(width, 0, 0, 0);
				break;
				}
				case Qt::AlignRight: {
				qreal width = qMin(size.width(), geometry.width() * maxAxisPortion);
				legendRect = QRectF(QPointF(geometry.right() - width, geometry.top()), QSizeF(width, geometry.height()));
				result = geometry.adjusted(0, 0, -width, 0);
				break;
				}
				default: {
				legendRect = QRectF(0, 0, 0, 0);
				result = geometry;
				break;
				}
				}

				legend->setGeometry(legendRect);

				return result;
				}

				QRectF ChartLayout::calculateLegendMinimum(const QRectF &geometry, QLegend *legend) const
				{
				QSizeF minSize = legend->effectiveSizeHint(Qt::MinimumSize, QSizeF(-1, -1));
				return geometry.adjusted(0, 0, minSize.width(), minSize.height());
				}

				QRectF ChartLayout::calculateTitleGeometry(const QRectF &geometry, ChartTitle *title) const
				{
				title->setGeometry(geometry);
				QPointF center = geometry.center() - title->boundingRect().center();
				title->setPos(center.x(),title->pos().y());
				return geometry.adjusted(0,title->boundingRect().height()+1,0,0);
				}

				QRectF ChartLayout::calculateTitleMinimum(const QRectF &minimum, ChartTitle *title) const
				{
				QSizeF min = title->sizeHint(Qt::MinimumSize);
				return minimum.adjusted(0, 0, min.width(), min.height());
				}

				QSizeF ChartLayout::sizeHint(Qt::SizeHint which, const QSizeF &constraint) const
				{
				Q_UNUSED(constraint);
				if (which == Qt::MinimumSize) {
				QList<ChartAxis *> axes = m_presenter->axisItems();
				ChartTitle *title = m_presenter->titleElement();
				QLegend *legend = m_presenter->legend();
				QRectF minimumRect(0, 0, 0, 0);
				minimumRect = calculateBackgroundMinimum(minimumRect);
				minimumRect = calculateContentMinimum(minimumRect);
				minimumRect = calculateTitleMinimum(minimumRect, title);
				minimumRect = calculateLegendMinimum(minimumRect, legend);
				minimumRect = calculateAxisMinimum(minimumRect, axes);
				return minimumRect.united(m_minChartRect).size().toSize();
				}
				return QSize(-1, -1);
				}

				void ChartLayout::setMargins(const QMargins &margins)
				{
				if (m_margins != margins) {
				m_margins = margins;
				updateGeometry();
				}
				}

				QMargins ChartLayout::margins() const
				{
				return m_margins;
				}

				QTCOMMERCIALCHART_END_NAMESPACE