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

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             axisitem.cpp
        
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      #include "axisitem_p.h"

      #include "qchartaxis.h"

      #include "chartpresenter_p.h"

      #include "chartanimator_p.h"

      #include <QPainter>

      #include <QDebug>

      #include <cmath>

      static int label_padding = 5;

      QTCOMMERCIALCHART_BEGIN_NAMESPACE

      Axis::Axis(QChartAxis* axis,ChartPresenter* presenter,AxisType type) : Chart(presenter),

          m_chartAxis(axis),

          m_type(type),

          m_labelsAngle(0),

          m_grid(presenter->rootItem()),

          m_shades(presenter->rootItem()),

          m_labels(presenter->rootItem()),

          m_axis(presenter->rootItem()),

          m_min(0),

          m_max(0),

          m_ticksCount(0)

      {

          //initial initialization

          m_axis.setZValue(ChartPresenter::AxisZValue);

          m_axis.setHandlesChildEvents(false);

          m_shades.setZValue(ChartPresenter::ShadesZValue);

          m_grid.setZValue(ChartPresenter::GridZValue);

          connect(m_chartAxis,SIGNAL(updated()),this,SLOT(handleAxisUpdated()));

          connect(m_chartAxis->categories(),SIGNAL(updated()),this,SLOT(handleAxisCategoriesUpdated()));

          handleAxisUpdated();

      }

      Axis::~Axis()

      {

      }

      void Axis::createItems(int count)

      {

          if (m_axis.children().size()==0)

              m_axis.addToGroup(new AxisItem(this));

          for (int i = 0; i < count; ++i) {

              m_grid.addToGroup(new QGraphicsLineItem());

              m_labels.addToGroup(new QGraphicsSimpleTextItem());

              m_axis.addToGroup(new QGraphicsLineItem());

              if((m_grid.childItems().size())%2 && m_grid.childItems().size()>2) m_shades.addToGroup(new QGraphicsRectItem());

             }

      }

      void Axis::deleteItems(int count)

      {

          QList<QGraphicsItem *> lines = m_grid.childItems();

          QList<QGraphicsItem *> labels = m_labels.childItems();

          QList<QGraphicsItem *> shades = m_shades.childItems();

          QList<QGraphicsItem *> axis = m_axis.childItems();

          for (int i = 0; i < count; ++i) {

              if (lines.size()%2 && lines.size() > 1) delete(shades.takeLast());

              delete(lines.takeLast());

              delete(labels.takeLast());

              delete(axis.takeLast());

          }

      }

      void Axis::updateLayout(QVector<qreal>& layout)

      {

          if (animator()) {

              animator()->updateLayout(this,layout);

          } else {

              setLayout(layout);

          }

      }

      bool Axis::createLabels(QStringList& labels,qreal min, qreal max,int ticks) const

      {

          Q_ASSERT(max>=min);

          Q_ASSERT(ticks>1);

          QChartAxisCategories* categories = m_chartAxis->categories();

          bool category = categories->count()>0;

          if (!category) {

              int n = qMax(int(-floor(log10((max-min)/(ticks-1)))),0);

              for(int i=0; i< ticks; i++) {

                  qreal value = min + (i * (max - min)/ (ticks-1));

                  labels << QString::number(value,'f',n);

              }

          } else {

              QList<qreal> values = categories->values();

              for (int i=0; i< ticks; i++) {

                  qreal value = (min + (i * (max - min)/ (ticks-1)));

                  int j=0;

                  for (; j<values.count(); j++) {

                      if (values.at(j) > value) break;

                  }

                  if (j!=0) value=values.at(j-1);

                  QString label = categories->label(value);

                  labels << label;

              }

          }

          return category;

      }

      void Axis::setAxisOpacity(qreal opacity)

      {

          m_axis.setOpacity(opacity);

      }

      qreal Axis::axisOpacity() const

      {

          return m_axis.opacity();

      }

      void Axis::setGridOpacity(qreal opacity)

      {

          m_grid.setOpacity(opacity);

      }

      qreal Axis::gridOpacity() const

      {

          return m_grid.opacity();

      }

      void Axis::setLabelsOpacity(qreal opacity)

      {

          m_labels.setOpacity(opacity);

      }

      qreal Axis::labelsOpacity() const

      {

          return m_labels.opacity();

      }

      void Axis::setShadesOpacity(qreal opacity)

      {

          m_shades.setOpacity(opacity);

      }

      qreal Axis::shadesOpacity() const

      {

          return m_shades.opacity();

      }

      void Axis::setLabelsAngle(int angle)

      {

          foreach(QGraphicsItem* item , m_labels.childItems()) {

                QPointF center = item->boundingRect().center();

                item->setRotation(angle);

          }

          m_labelsAngle=angle;

      }

      void Axis::setLabelsPen(const QPen &pen)

      {

          foreach(QGraphicsItem* item , m_labels.childItems()) {

              static_cast<QGraphicsSimpleTextItem*>(item)->setPen(pen);

          }

      }

      void Axis::setLabelsBrush(const QBrush &brush)

      {

          foreach(QGraphicsItem* item , m_labels.childItems()) {

              static_cast<QGraphicsSimpleTextItem*>(item)->setBrush(brush);

          }

      }

      void Axis::setLabelsFont(const QFont &font)

      {

          foreach(QGraphicsItem* item , m_labels.childItems()) {

              static_cast<QGraphicsSimpleTextItem*>(item)->setFont(font);

          }

      }

      void Axis::setShadesBrush(const QBrush &brush)

      {

          foreach(QGraphicsItem* item , m_shades.childItems()) {

              static_cast<QGraphicsRectItem*>(item)->setBrush(brush);

          }

      }

      void Axis::setShadesPen(const QPen &pen)

      {

          foreach(QGraphicsItem* item , m_shades.childItems()) {

              static_cast<QGraphicsRectItem*>(item)->setPen(pen);

          }

      }

      void Axis::setAxisPen(const QPen &pen)

      {

          foreach(QGraphicsItem* item , m_axis.childItems()) {

                 static_cast<QGraphicsLineItem*>(item)->setPen(pen);

          }

      }

      void Axis::setGridPen(const QPen &pen)

      {

          foreach(QGraphicsItem* item , m_grid.childItems()) {

              static_cast<QGraphicsLineItem*>(item)->setPen(pen);

          }

      }

      QVector<qreal> Axis::calculateLayout() const

      {

          Q_ASSERT(m_ticksCount>=2);

          QVector<qreal> points;

          points.resize(m_ticksCount);

          switch (m_type)

          {

              case X_AXIS:

              {

                  const qreal deltaX = m_rect.width()/(m_ticksCount-1);

                  for (int i = 0; i < m_ticksCount; ++i) {

                       int x = i * deltaX + m_rect.left();

                       points[i] = x;

                  }

              }

              break;

              case Y_AXIS:

              {

                  const qreal deltaY = m_rect.height()/(m_ticksCount-1);

                  for (int i = 0; i < m_ticksCount; ++i) {

                       int y = i * -deltaY + m_rect.bottom();

                       points[i] = y;

                  }

              }

              break;

          }

          return points;

      }

      void Axis::setLayout(QVector<qreal>& layout)

      {

      	int diff = m_layoutVector.size() - layout.size();

          if (diff>0) {

      		deleteItems(diff);

      	}

      	else if(diff<0) {

      		createItems(-diff);

      	}

      	if(diff!=0) handleAxisUpdated();

      	QStringList ticksList;

          bool categories = createLabels(ticksList,m_min,m_max,layout.size());

      	QList<QGraphicsItem *> lines = m_grid.childItems();

      	QList<QGraphicsItem *> labels = m_labels.childItems();

      	QList<QGraphicsItem *> shades = m_shades.childItems();

      	QList<QGraphicsItem *> axis = m_axis.childItems();

      	Q_ASSERT(labels.size() == ticksList.size());

      	Q_ASSERT(layout.size() == ticksList.size());

      	switch (m_type)

      	{

      		case X_AXIS:

      		{

      			QGraphicsLineItem *lineItem = static_cast<QGraphicsLineItem*>(axis.at(0));

      			lineItem->setLine(m_rect.left(), m_rect.bottom(), m_rect.right(), m_rect.bottom());

      			for (int i = 0; i < layout.size(); ++i) {

      				QGraphicsLineItem *lineItem = static_cast<QGraphicsLineItem*>(lines.at(i));

      				lineItem->setLine(layout[i], m_rect.top(), layout[i], m_rect.bottom());

      				QGraphicsSimpleTextItem *labelItem = static_cast<QGraphicsSimpleTextItem*>(labels.at(i));

      				if(!categories){

      				    labelItem->setText(ticksList.at(i));

      				    QPointF center = labelItem->boundingRect().center();

      				    labelItem->setTransformOriginPoint(center.x(), center.y());

      				    labelItem->setPos(layout[i] - center.x(), m_rect.bottom() + label_padding);

      				}else if(i>0){

      				    labelItem->setText(ticksList.at(i));

      				    QPointF center = labelItem->boundingRect().center();

      				    labelItem->setTransformOriginPoint(center.x(), center.y());

      				    labelItem->setPos(layout[i] - (layout[i] - layout[i-1])/2 - center.x(), m_rect.bottom() + label_padding);

      				}

      				if((i+1)%2 && i>1) {

      					QGraphicsRectItem *rectItem = static_cast<QGraphicsRectItem*>(shades.at(i/2-1));

      					rectItem->setRect(layout[i-1],m_rect.top(),layout[i]-layout[i-1],m_rect.height());

      				}

      				lineItem = static_cast<QGraphicsLineItem*>(axis.at(i+1));

      				lineItem->setLine(layout[i],m_rect.bottom(),layout[i],m_rect.bottom()+5);

      			}

      		}

      		break;

      		case Y_AXIS:

      		{

      			QGraphicsLineItem *lineItem = static_cast<QGraphicsLineItem*>(axis.at(0));

      			lineItem->setLine(m_rect.left() , m_rect.top(), m_rect.left(), m_rect.bottom());

      			for (int i = 0; i < layout.size(); ++i) {

      				QGraphicsLineItem *lineItem = static_cast<QGraphicsLineItem*>(lines.at(i));

      				lineItem->setLine(m_rect.left() , layout[i], m_rect.right(), layout[i]);

      				QGraphicsSimpleTextItem *labelItem = static_cast<QGraphicsSimpleTextItem*>(labels.at(i));

      				if(!categories){

      				    labelItem->setText(ticksList.at(i));

      				    QPointF center = labelItem->boundingRect().center();

      				    labelItem->setTransformOriginPoint(center.x(), center.y());

      				    labelItem->setPos(m_rect.left() - labelItem->boundingRect().width() - label_padding , layout[i]-center.y());

      				} else if(i>0){

      				    labelItem->setText(ticksList.at(i));

      				    QPointF center = labelItem->boundingRect().center();

      				    labelItem->setTransformOriginPoint(center.x(), center.y());

      				    labelItem->setPos(m_rect.left() - labelItem->boundingRect().width() - label_padding , layout[i] - (layout[i] - layout[i-1])/2 -center.y());

      				}

      				if((i+1)%2 && i>1) {

      					QGraphicsRectItem *rectItem = static_cast<QGraphicsRectItem*>(shades.at(i/2-1));

      					rectItem->setRect(m_rect.left(),layout[i],m_rect.width(),layout[i-1]-layout[i]);

      				}

      				lineItem = static_cast<QGraphicsLineItem*>(axis.at(i+1));

      				lineItem->setLine(m_rect.left()-5,layout[i],m_rect.left(),layout[i]);

      			}

      		}

      		break;

      		default:

      		qDebug()<<"Unknown axis type";

      		break;

      	}

      	m_layoutVector=layout;

      }

      bool Axis::isEmpty()

      {

          return m_rect.isEmpty() || m_min==m_max || m_ticksCount==0;

      }

      //handlers

      void Axis::handleAxisCategoriesUpdated()

      {

      	if(isEmpty()) return;

      	updateLayout(m_layoutVector);

      }

      void Axis::handleAxisUpdated()

      {

          if (isEmpty()) return;

          if (m_chartAxis->isAxisVisible()) {

              setAxisOpacity(100);

          } else {

              setAxisOpacity(0);

          }

          if(m_chartAxis->isGridLineVisible()) {

              setGridOpacity(100);

          } else {

              setGridOpacity(0);

          }

          if(m_chartAxis->labelsVisible()) {

              setLabelsOpacity(100);

          } else {

              setLabelsOpacity(0);

          }

          if (m_chartAxis->shadesVisible()) {

              setShadesOpacity(m_chartAxis->shadesOpacity());

          } else {

              setShadesOpacity(0);

          }

          setLabelsAngle(m_chartAxis->labelsAngle());

          setAxisPen(m_chartAxis->axisPen());

          setLabelsPen(m_chartAxis->labelsPen());

          setLabelsBrush(m_chartAxis->labelsBrush());

          setLabelsFont(m_chartAxis->labelsFont());

          setGridPen(m_chartAxis->gridLinePen());

          setShadesPen(m_chartAxis->shadesPen());

          setShadesBrush(m_chartAxis->shadesBrush());

      }

      void Axis::handleRangeChanged(qreal min, qreal max,int tickCount)

      {

          if(min==max || tickCount<2) return;

          m_min = min;

          m_max = max;

          m_ticksCount= tickCount;

          if (isEmpty()) return;

          QVector<qreal> layout = calculateLayout();

          updateLayout(layout);

      }

      void Axis::handleGeometryChanged(const QRectF& rect)

      {

          m_rect = rect;

          if (isEmpty()) return;

          QVector<qreal> layout = calculateLayout();

          updateLayout(layout);

      }

      void Axis::axisSelected()

      {

          qDebug()<<"TODO axis clicked";

      }

      //TODO "nice numbers algorithm"

      #include "moc_axisitem_p.cpp"

      QTCOMMERCIALCHART_END_NAMESPACE

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				#include "axisitem_p.h"
				#include "qchartaxis.h"
				#include "chartpresenter_p.h"
				#include "chartanimator_p.h"
				#include <QPainter>
				#include <QDebug>
				#include <cmath>

				static int label_padding = 5;

				QTCOMMERCIALCHART_BEGIN_NAMESPACE

				Axis::Axis(QChartAxis* axis,ChartPresenter* presenter,AxisType type) : Chart(presenter),
				m_chartAxis(axis),
				m_type(type),
				m_labelsAngle(0),
				m_grid(presenter->rootItem()),
				m_shades(presenter->rootItem()),
				m_labels(presenter->rootItem()),
				m_axis(presenter->rootItem()),
				m_min(0),
				m_max(0),
				m_ticksCount(0)
				{
				//initial initialization
				m_axis.setZValue(ChartPresenter::AxisZValue);
				m_axis.setHandlesChildEvents(false);

				m_shades.setZValue(ChartPresenter::ShadesZValue);
				m_grid.setZValue(ChartPresenter::GridZValue);

				connect(m_chartAxis,SIGNAL(updated()),this,SLOT(handleAxisUpdated()));
				connect(m_chartAxis->categories(),SIGNAL(updated()),this,SLOT(handleAxisCategoriesUpdated()));

				handleAxisUpdated();
				}

				Axis::~Axis()
				{
				}

				void Axis::createItems(int count)
				{

				if (m_axis.children().size()==0)
				m_axis.addToGroup(new AxisItem(this));
				for (int i = 0; i < count; ++i) {
				m_grid.addToGroup(new QGraphicsLineItem());
				m_labels.addToGroup(new QGraphicsSimpleTextItem());
				m_axis.addToGroup(new QGraphicsLineItem());
				if((m_grid.childItems().size())%2 && m_grid.childItems().size()>2) m_shades.addToGroup(new QGraphicsRectItem());
				}
				}

				void Axis::deleteItems(int count)
				{
				QList<QGraphicsItem *> lines = m_grid.childItems();
				QList<QGraphicsItem *> labels = m_labels.childItems();
				QList<QGraphicsItem *> shades = m_shades.childItems();
				QList<QGraphicsItem *> axis = m_axis.childItems();

				for (int i = 0; i < count; ++i) {
				if (lines.size()%2 && lines.size() > 1) delete(shades.takeLast());
				delete(lines.takeLast());
				delete(labels.takeLast());
				delete(axis.takeLast());
				}
				}

				void Axis::updateLayout(QVector<qreal>& layout)
				{
				if (animator()) {
				animator()->updateLayout(this,layout);
				} else {
				setLayout(layout);
				}
				}

				bool Axis::createLabels(QStringList& labels,qreal min, qreal max,int ticks) const
				{
				Q_ASSERT(max>=min);
				Q_ASSERT(ticks>1);

				QChartAxisCategories* categories = m_chartAxis->categories();

				bool category = categories->count()>0;

				if (!category) {
				int n = qMax(int(-floor(log10((max-min)/(ticks-1)))),0);
				for(int i=0; i< ticks; i++) {
				qreal value = min + (i * (max - min)/ (ticks-1));
				labels << QString::number(value,'f',n);
				}
				} else {
				QList<qreal> values = categories->values();
				for (int i=0; i< ticks; i++) {
				qreal value = (min + (i * (max - min)/ (ticks-1)));
				int j=0;
				for (; j<values.count(); j++) {
				if (values.at(j) > value) break;
				}
				if (j!=0) value=values.at(j-1);

				QString label = categories->label(value);
				labels << label;
				}
				}

				return category;
				}

				void Axis::setAxisOpacity(qreal opacity)
				{
				m_axis.setOpacity(opacity);
				}

				qreal Axis::axisOpacity() const
				{
				return m_axis.opacity();
				}

				void Axis::setGridOpacity(qreal opacity)
				{
				m_grid.setOpacity(opacity);
				}

				qreal Axis::gridOpacity() const
				{
				return m_grid.opacity();
				}

				void Axis::setLabelsOpacity(qreal opacity)
				{
				m_labels.setOpacity(opacity);
				}

				qreal Axis::labelsOpacity() const
				{
				return m_labels.opacity();
				}

				void Axis::setShadesOpacity(qreal opacity)
				{
				m_shades.setOpacity(opacity);
				}

				qreal Axis::shadesOpacity() const
				{
				return m_shades.opacity();
				}

				void Axis::setLabelsAngle(int angle)
				{
				foreach(QGraphicsItem* item , m_labels.childItems()) {
				QPointF center = item->boundingRect().center();
				item->setRotation(angle);
				}

				m_labelsAngle=angle;
				}

				void Axis::setLabelsPen(const QPen &pen)
				{
				foreach(QGraphicsItem* item , m_labels.childItems()) {
				static_cast<QGraphicsSimpleTextItem*>(item)->setPen(pen);
				}
				}

				void Axis::setLabelsBrush(const QBrush &brush)
				{
				foreach(QGraphicsItem* item , m_labels.childItems()) {
				static_cast<QGraphicsSimpleTextItem*>(item)->setBrush(brush);
				}
				}

				void Axis::setLabelsFont(const QFont &font)
				{
				foreach(QGraphicsItem* item , m_labels.childItems()) {
				static_cast<QGraphicsSimpleTextItem*>(item)->setFont(font);
				}
				}

				void Axis::setShadesBrush(const QBrush &brush)
				{
				foreach(QGraphicsItem* item , m_shades.childItems()) {
				static_cast<QGraphicsRectItem*>(item)->setBrush(brush);
				}
				}

				void Axis::setShadesPen(const QPen &pen)
				{
				foreach(QGraphicsItem* item , m_shades.childItems()) {
				static_cast<QGraphicsRectItem*>(item)->setPen(pen);
				}
				}

				void Axis::setAxisPen(const QPen &pen)
				{
				foreach(QGraphicsItem* item , m_axis.childItems()) {
				static_cast<QGraphicsLineItem*>(item)->setPen(pen);
				}
				}

				void Axis::setGridPen(const QPen &pen)
				{
				foreach(QGraphicsItem* item , m_grid.childItems()) {
				static_cast<QGraphicsLineItem*>(item)->setPen(pen);
				}
				}

				QVector<qreal> Axis::calculateLayout() const
				{
				Q_ASSERT(m_ticksCount>=2);

				QVector<qreal> points;
				points.resize(m_ticksCount);

				switch (m_type)
				{
				case X_AXIS:
				{
				const qreal deltaX = m_rect.width()/(m_ticksCount-1);
				for (int i = 0; i < m_ticksCount; ++i) {
				int x = i * deltaX + m_rect.left();
				points[i] = x;
				}
				}
				break;
				case Y_AXIS:
				{
				const qreal deltaY = m_rect.height()/(m_ticksCount-1);
				for (int i = 0; i < m_ticksCount; ++i) {
				int y = i * -deltaY + m_rect.bottom();
				points[i] = y;
				}
				}
				break;
				}
				return points;
				}

				void Axis::setLayout(QVector<qreal>& layout)
				{
				int diff = m_layoutVector.size() - layout.size();

				if (diff>0) {
				deleteItems(diff);
				}
				else if(diff<0) {
				createItems(-diff);
				}

				if(diff!=0) handleAxisUpdated();

				QStringList ticksList;

				bool categories = createLabels(ticksList,m_min,m_max,layout.size());

				QList<QGraphicsItem *> lines = m_grid.childItems();
				QList<QGraphicsItem *> labels = m_labels.childItems();
				QList<QGraphicsItem *> shades = m_shades.childItems();
				QList<QGraphicsItem *> axis = m_axis.childItems();

				Q_ASSERT(labels.size() == ticksList.size());
				Q_ASSERT(layout.size() == ticksList.size());

				switch (m_type)
				{
				case X_AXIS:
				{
				QGraphicsLineItem lineItem = static_cast<QGraphicsLineItem>(axis.at(0));
				lineItem->setLine(m_rect.left(), m_rect.bottom(), m_rect.right(), m_rect.bottom());

				for (int i = 0; i < layout.size(); ++i) {
				QGraphicsLineItem lineItem = static_cast<QGraphicsLineItem>(lines.at(i));
				lineItem->setLine(layout[i], m_rect.top(), layout[i], m_rect.bottom());
				QGraphicsSimpleTextItem labelItem = static_cast<QGraphicsSimpleTextItem>(labels.at(i));
				if(!categories){
				labelItem->setText(ticksList.at(i));
				QPointF center = labelItem->boundingRect().center();
				labelItem->setTransformOriginPoint(center.x(), center.y());
				labelItem->setPos(layout[i] - center.x(), m_rect.bottom() + label_padding);
				}else if(i>0){
				labelItem->setText(ticksList.at(i));
				QPointF center = labelItem->boundingRect().center();
				labelItem->setTransformOriginPoint(center.x(), center.y());
				labelItem->setPos(layout[i] - (layout[i] - layout[i-1])/2 - center.x(), m_rect.bottom() + label_padding);
				}

				if((i+1)%2 && i>1) {
				QGraphicsRectItem rectItem = static_cast<QGraphicsRectItem>(shades.at(i/2-1));
				rectItem->setRect(layout[i-1],m_rect.top(),layout[i]-layout[i-1],m_rect.height());
				}
				lineItem = static_cast<QGraphicsLineItem*>(axis.at(i+1));
				lineItem->setLine(layout[i],m_rect.bottom(),layout[i],m_rect.bottom()+5);
				}
				}
				break;

				case Y_AXIS:
				{
				QGraphicsLineItem lineItem = static_cast<QGraphicsLineItem>(axis.at(0));
				lineItem->setLine(m_rect.left() , m_rect.top(), m_rect.left(), m_rect.bottom());

				for (int i = 0; i < layout.size(); ++i) {
				QGraphicsLineItem lineItem = static_cast<QGraphicsLineItem>(lines.at(i));
				lineItem->setLine(m_rect.left() , layout[i], m_rect.right(), layout[i]);
				QGraphicsSimpleTextItem labelItem = static_cast<QGraphicsSimpleTextItem>(labels.at(i));

				if(!categories){
				labelItem->setText(ticksList.at(i));
				QPointF center = labelItem->boundingRect().center();
				labelItem->setTransformOriginPoint(center.x(), center.y());
				labelItem->setPos(m_rect.left() - labelItem->boundingRect().width() - label_padding , layout[i]-center.y());
				} else if(i>0){
				labelItem->setText(ticksList.at(i));
				QPointF center = labelItem->boundingRect().center();
				labelItem->setTransformOriginPoint(center.x(), center.y());
				labelItem->setPos(m_rect.left() - labelItem->boundingRect().width() - label_padding , layout[i] - (layout[i] - layout[i-1])/2 -center.y());
				}

				if((i+1)%2 && i>1) {
				QGraphicsRectItem rectItem = static_cast<QGraphicsRectItem>(shades.at(i/2-1));
				rectItem->setRect(m_rect.left(),layout[i],m_rect.width(),layout[i-1]-layout[i]);
				}
				lineItem = static_cast<QGraphicsLineItem*>(axis.at(i+1));
				lineItem->setLine(m_rect.left()-5,layout[i],m_rect.left(),layout[i]);
				}
				}
				break;
				default:
				qDebug()<<"Unknown axis type";
				break;
				}

				m_layoutVector=layout;
				}

				bool Axis::isEmpty()
				{
				return m_rect.isEmpty() \|\| m_min==m_max \|\| m_ticksCount==0;
				}

				//handlers

				void Axis::handleAxisCategoriesUpdated()
				{
				if(isEmpty()) return;
				updateLayout(m_layoutVector);
				}

				void Axis::handleAxisUpdated()
				{

				if (isEmpty()) return;

				if (m_chartAxis->isAxisVisible()) {
				setAxisOpacity(100);
				} else {
				setAxisOpacity(0);
				}

				if(m_chartAxis->isGridLineVisible()) {
				setGridOpacity(100);
				} else {
				setGridOpacity(0);
				}

				if(m_chartAxis->labelsVisible()) {
				setLabelsOpacity(100);
				} else {
				setLabelsOpacity(0);
				}

				if (m_chartAxis->shadesVisible()) {
				setShadesOpacity(m_chartAxis->shadesOpacity());
				} else {
				setShadesOpacity(0);
				}

				setLabelsAngle(m_chartAxis->labelsAngle());
				setAxisPen(m_chartAxis->axisPen());
				setLabelsPen(m_chartAxis->labelsPen());
				setLabelsBrush(m_chartAxis->labelsBrush());
				setLabelsFont(m_chartAxis->labelsFont());
				setGridPen(m_chartAxis->gridLinePen());
				setShadesPen(m_chartAxis->shadesPen());
				setShadesBrush(m_chartAxis->shadesBrush());

				}

				void Axis::handleRangeChanged(qreal min, qreal max,int tickCount)
				{
				if(min==max \|\| tickCount<2) return;

				m_min = min;
				m_max = max;
				m_ticksCount= tickCount;

				if (isEmpty()) return;
				QVector<qreal> layout = calculateLayout();
				updateLayout(layout);

				}

				void Axis::handleGeometryChanged(const QRectF& rect)
				{
				m_rect = rect;
				if (isEmpty()) return;
				QVector<qreal> layout = calculateLayout();
				updateLayout(layout);
				}

				void Axis::axisSelected()
				{
				qDebug()<<"TODO axis clicked";
				}

				//TODO "nice numbers algorithm"
				#include "moc_axisitem_p.cpp"

				QTCOMMERCIALCHART_END_NAMESPACE