HG_REPOSITORIES/LPP/INSTRUMENTATION/USERS/JEANDET/qtcharts Files · src/charts/domain/abstractdomain.cpp

Remove theme setting from StackedBarChart Drilldown example...

Remove theme setting from StackedBarChart Drilldown example The theme previously set for this example made it really slow on Android. Therefore the theme setting is removed. Change-Id: Ia454cdce2ebecfdd24ce9d91f1b8cb63fdb86be3 Reviewed-by: Mika Salmela <mika.salmela@theqtcompany.com>

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             abstractdomain.cpp
        
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      /****************************************************************************

      **

      ** Copyright (C) 2014 Digia Plc

      ** All rights reserved.

      ** For any questions to Digia, please use contact form at http://qt.io

      **

      ** This file is part of the Qt Charts module.

      **

      ** Licensees holding valid commercial license for Qt may use this file in

      ** accordance with the Qt 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.io

      **

      ****************************************************************************/

      #include <private/abstractdomain_p.h>

      #include <private/qabstractaxis_p.h>

      #include <QtCore/QtMath>

      QT_CHARTS_BEGIN_NAMESPACE

      AbstractDomain::AbstractDomain(QObject *parent)

          : QObject(parent),

            m_minX(0),

            m_maxX(0),

            m_minY(0),

            m_maxY(0),

            m_signalsBlocked(false),

            m_zoomed(false),

            m_zoomResetMinX(0),

            m_zoomResetMaxX(0),

            m_zoomResetMinY(0),

            m_zoomResetMaxY(0)

      {

      }

      AbstractDomain::~AbstractDomain()

      {

      }

      void AbstractDomain::setSize(const QSizeF &size)

      {

          if (m_size != size) {

              m_size=size;

              emit updated();

          }

      }

      QSizeF AbstractDomain::size() const

      {

          return m_size;

      }

      void AbstractDomain::setRangeX(qreal min, qreal max)

      {

          setRange(min, max, m_minY, m_maxY);

      }

      void AbstractDomain::setRangeY(qreal min, qreal max)

      {

          setRange(m_minX, m_maxX, min, max);

      }

      void AbstractDomain::setMinX(qreal min)

      {

          setRange(min, m_maxX, m_minY, m_maxY);

      }

      void AbstractDomain::setMaxX(qreal max)

      {

          setRange(m_minX, max, m_minY, m_maxY);

      }

      void AbstractDomain::setMinY(qreal min)

      {

          setRange(m_minX, m_maxX, min, m_maxY);

      }

      void AbstractDomain::setMaxY(qreal max)

      {

          setRange(m_minX, m_maxX, m_minY, max);

      }

      qreal AbstractDomain::spanX() const

      {

          Q_ASSERT(m_maxX >= m_minX);

          return m_maxX - m_minX;

      }

      qreal AbstractDomain::spanY() const

      {

          Q_ASSERT(m_maxY >= m_minY);

          return m_maxY - m_minY;

      }

      bool AbstractDomain::isEmpty() const

      {

          return qFuzzyCompare(spanX(), 0) || qFuzzyCompare(spanY(), 0) || m_size.isEmpty();

      }

      QPointF AbstractDomain::calculateDomainPoint(const QPointF &point) const

      {

          const qreal deltaX = m_size.width() / (m_maxX - m_minX);

          const qreal deltaY = m_size.height() / (m_maxY - m_minY);

          qreal x = point.x() / deltaX + m_minX;

          qreal y = (point.y() - m_size.height()) / (-deltaY) + m_minY;

          return QPointF(x, y);

      }

      // handlers

      void AbstractDomain::handleVerticalAxisRangeChanged(qreal min, qreal max)

      {

          setRangeY(min, max);

      }

      void AbstractDomain::handleHorizontalAxisRangeChanged(qreal min, qreal max)

      {

          setRangeX(min, max);

      }

      void AbstractDomain::blockRangeSignals(bool block)

      {

          if (m_signalsBlocked!=block) {

              m_signalsBlocked=block;

              if (!block) {

                  emit rangeHorizontalChanged(m_minX,m_maxX);

                  emit rangeVerticalChanged(m_minY,m_maxY);

              }

          }

      }

      void AbstractDomain::zoomReset()

      {

          if (m_zoomed) {

              setRange(m_zoomResetMinX,

                       m_zoomResetMaxX,

                       m_zoomResetMinY,

                       m_zoomResetMaxY);

              m_zoomed = false;

          }

      }

      void AbstractDomain::storeZoomReset()

      {

          if (!m_zoomed) {

              m_zoomed = true;

              m_zoomResetMinX = m_minX;

              m_zoomResetMaxX = m_maxX;

              m_zoomResetMinY = m_minY;

              m_zoomResetMaxY = m_maxY;

          }

      }

      //algorithm defined by Paul S.Heckbert GraphicalGems I

      void AbstractDomain::looseNiceNumbers(qreal &min, qreal &max, int &ticksCount)

      {

          qreal range = niceNumber(max - min, true); //range with ceiling

          qreal step = niceNumber(range / (ticksCount - 1), false);

          min = qFloor(min / step);

          max = qCeil(max / step);

          ticksCount = int(max - min) + 1;

          min *= step;

          max *= step;

      }

      //nice numbers can be expressed as form of 1*10^n, 2* 10^n or 5*10^n

      qreal AbstractDomain::niceNumber(qreal x, bool ceiling)

      {

          qreal z = qPow(10, qFloor(log10(x))); //find corresponding number of the form of 10^n than is smaller than x

          qreal q = x / z; //q<10 && q>=1;

          if (ceiling) {

              if (q <= 1.0) q = 1;

              else if (q <= 2.0) q = 2;

              else if (q <= 5.0) q = 5;

              else q = 10;

          } else {

              if (q < 1.5) q = 1;

              else if (q < 3.0) q = 2;

              else if (q < 7.0) q = 5;

              else q = 10;

          }

          return q * z;

      }

      bool AbstractDomain::attachAxis(QAbstractAxis *axis)

      {

          if (axis->orientation() == Qt::Vertical) {

              QObject::connect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleVerticalAxisRangeChanged(qreal,qreal)));

              QObject::connect(this, SIGNAL(rangeVerticalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));

          }

          if (axis->orientation() == Qt::Horizontal) {

              QObject::connect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleHorizontalAxisRangeChanged(qreal,qreal)));

              QObject::connect(this, SIGNAL(rangeHorizontalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));

          }

          return true;

      }

      bool AbstractDomain::detachAxis(QAbstractAxis *axis)

      {

          if (axis->orientation() == Qt::Vertical) {

      		QObject::disconnect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleVerticalAxisRangeChanged(qreal,qreal)));

      		QObject::disconnect(this, SIGNAL(rangeVerticalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));

      	}

          if (axis->orientation() == Qt::Horizontal) {

      		QObject::disconnect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleHorizontalAxisRangeChanged(qreal,qreal)));

      		QObject::disconnect(this, SIGNAL(rangeHorizontalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));

      	}

      	return true;

      }

      // operators

      bool QT_CHARTS_AUTOTEST_EXPORT operator== (const AbstractDomain &domain1, const AbstractDomain &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 QT_CHARTS_AUTOTEST_EXPORT operator!= (const AbstractDomain &domain1, const AbstractDomain &domain2)

      {

          return !(domain1 == domain2);

      }

      QDebug QT_CHARTS_AUTOTEST_EXPORT operator<<(QDebug dbg, const AbstractDomain &domain)

      {

      #ifdef QT_NO_TEXTSTREAM

          Q_UNUSED(domain)

      #else

          dbg.nospace() << "AbstractDomain(" << domain.m_minX << ',' << domain.m_maxX << ',' << domain.m_minY << ',' << domain.m_maxY << ')' << domain.m_size;

      #endif

          return dbg.maybeSpace();

      }

      // This function adjusts min/max ranges to failsafe values if negative/zero values are attempted.

      void AbstractDomain::adjustLogDomainRanges(qreal &min, qreal &max)

      {

          if (min <= 0) {

             min = 1.0;

             if (max <= min)

                 max = min + 1.0;

          }

      }

      #include "moc_abstractdomain_p.cpp"

      QT_CHARTS_END_NAMESPACE

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				/****************************************************************************
				**
				** Copyright (C) 2014 Digia Plc
				** All rights reserved.
				** For any questions to Digia, please use contact form at http://qt.io
				**
				** This file is part of the Qt Charts module.
				**
				** Licensees holding valid commercial license for Qt may use this file in
				** accordance with the Qt 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.io
				**
				****************************************************************************/

				#include <private/abstractdomain_p.h>
				#include <private/qabstractaxis_p.h>
				#include <QtCore/QtMath>

				QT_CHARTS_BEGIN_NAMESPACE

				AbstractDomain::AbstractDomain(QObject *parent)
				: QObject(parent),
				m_minX(0),
				m_maxX(0),
				m_minY(0),
				m_maxY(0),
				m_signalsBlocked(false),
				m_zoomed(false),
				m_zoomResetMinX(0),
				m_zoomResetMaxX(0),
				m_zoomResetMinY(0),
				m_zoomResetMaxY(0)

				{
				}

				AbstractDomain::~AbstractDomain()
				{
				}

				void AbstractDomain::setSize(const QSizeF &size)
				{
				if (m_size != size) {
				m_size=size;
				emit updated();
				}
				}

				QSizeF AbstractDomain::size() const
				{
				return m_size;
				}

				void AbstractDomain::setRangeX(qreal min, qreal max)
				{
				setRange(min, max, m_minY, m_maxY);
				}

				void AbstractDomain::setRangeY(qreal min, qreal max)
				{
				setRange(m_minX, m_maxX, min, max);
				}

				void AbstractDomain::setMinX(qreal min)
				{
				setRange(min, m_maxX, m_minY, m_maxY);
				}

				void AbstractDomain::setMaxX(qreal max)
				{
				setRange(m_minX, max, m_minY, m_maxY);
				}

				void AbstractDomain::setMinY(qreal min)
				{
				setRange(m_minX, m_maxX, min, m_maxY);
				}

				void AbstractDomain::setMaxY(qreal max)
				{
				setRange(m_minX, m_maxX, m_minY, max);
				}

				qreal AbstractDomain::spanX() const
				{
				Q_ASSERT(m_maxX >= m_minX);
				return m_maxX - m_minX;
				}

				qreal AbstractDomain::spanY() const
				{
				Q_ASSERT(m_maxY >= m_minY);
				return m_maxY - m_minY;
				}

				bool AbstractDomain::isEmpty() const
				{
				return qFuzzyCompare(spanX(), 0) \|\| qFuzzyCompare(spanY(), 0) \|\| m_size.isEmpty();
				}

				QPointF AbstractDomain::calculateDomainPoint(const QPointF &point) const
				{
				const qreal deltaX = m_size.width() / (m_maxX - m_minX);
				const qreal deltaY = m_size.height() / (m_maxY - m_minY);
				qreal x = point.x() / deltaX + m_minX;
				qreal y = (point.y() - m_size.height()) / (-deltaY) + m_minY;
				return QPointF(x, y);
				}

				// handlers

				void AbstractDomain::handleVerticalAxisRangeChanged(qreal min, qreal max)
				{
				setRangeY(min, max);
				}

				void AbstractDomain::handleHorizontalAxisRangeChanged(qreal min, qreal max)
				{
				setRangeX(min, max);
				}

				void AbstractDomain::blockRangeSignals(bool block)
				{
				if (m_signalsBlocked!=block) {
				m_signalsBlocked=block;
				if (!block) {
				emit rangeHorizontalChanged(m_minX,m_maxX);
				emit rangeVerticalChanged(m_minY,m_maxY);
				}
				}
				}

				void AbstractDomain::zoomReset()
				{
				if (m_zoomed) {
				setRange(m_zoomResetMinX,
				m_zoomResetMaxX,
				m_zoomResetMinY,
				m_zoomResetMaxY);
				m_zoomed = false;
				}
				}

				void AbstractDomain::storeZoomReset()
				{
				if (!m_zoomed) {
				m_zoomed = true;
				m_zoomResetMinX = m_minX;
				m_zoomResetMaxX = m_maxX;
				m_zoomResetMinY = m_minY;
				m_zoomResetMaxY = m_maxY;
				}
				}

				//algorithm defined by Paul S.Heckbert GraphicalGems I

				void AbstractDomain::looseNiceNumbers(qreal &min, qreal &max, int &ticksCount)
				{
				qreal range = niceNumber(max - min, true); //range with ceiling
				qreal step = niceNumber(range / (ticksCount - 1), false);
				min = qFloor(min / step);
				max = qCeil(max / step);
				ticksCount = int(max - min) + 1;
				min *= step;
				max *= step;
				}

				//nice numbers can be expressed as form of 110^n, 2 10^n or 5*10^n

				qreal AbstractDomain::niceNumber(qreal x, bool ceiling)
				{
				qreal z = qPow(10, qFloor(log10(x))); //find corresponding number of the form of 10^n than is smaller than x
				qreal q = x / z; //q<10 && q>=1;

				if (ceiling) {
				if (q <= 1.0) q = 1;
				else if (q <= 2.0) q = 2;
				else if (q <= 5.0) q = 5;
				else q = 10;
				} else {
				if (q < 1.5) q = 1;
				else if (q < 3.0) q = 2;
				else if (q < 7.0) q = 5;
				else q = 10;
				}
				return q * z;
				}

				bool AbstractDomain::attachAxis(QAbstractAxis *axis)
				{
				if (axis->orientation() == Qt::Vertical) {
				QObject::connect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleVerticalAxisRangeChanged(qreal,qreal)));
				QObject::connect(this, SIGNAL(rangeVerticalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));
				}

				if (axis->orientation() == Qt::Horizontal) {
				QObject::connect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleHorizontalAxisRangeChanged(qreal,qreal)));
				QObject::connect(this, SIGNAL(rangeHorizontalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));
				}

				return true;
				}

				bool AbstractDomain::detachAxis(QAbstractAxis *axis)
				{
				if (axis->orientation() == Qt::Vertical) {
				QObject::disconnect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleVerticalAxisRangeChanged(qreal,qreal)));
				QObject::disconnect(this, SIGNAL(rangeVerticalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));
				}

				if (axis->orientation() == Qt::Horizontal) {
				QObject::disconnect(axis->d_ptr.data(), SIGNAL(rangeChanged(qreal,qreal)), this, SLOT(handleHorizontalAxisRangeChanged(qreal,qreal)));
				QObject::disconnect(this, SIGNAL(rangeHorizontalChanged(qreal,qreal)), axis->d_ptr.data(), SLOT(handleRangeChanged(qreal,qreal)));
				}

				return true;
				}

				// operators

				bool QT_CHARTS_AUTOTEST_EXPORT operator== (const AbstractDomain &domain1, const AbstractDomain &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 QT_CHARTS_AUTOTEST_EXPORT operator!= (const AbstractDomain &domain1, const AbstractDomain &domain2)
				{
				return !(domain1 == domain2);
				}


				QDebug QT_CHARTS_AUTOTEST_EXPORT operator<<(QDebug dbg, const AbstractDomain &domain)
				{
				#ifdef QT_NO_TEXTSTREAM
				Q_UNUSED(domain)
				#else
				dbg.nospace() << "AbstractDomain(" << domain.m_minX << ',' << domain.m_maxX << ',' << domain.m_minY << ',' << domain.m_maxY << ')' << domain.m_size;
				#endif
				return dbg.maybeSpace();
				}

				// This function adjusts min/max ranges to failsafe values if negative/zero values are attempted.
				void AbstractDomain::adjustLogDomainRanges(qreal &min, qreal &max)
				{
				if (min <= 0) {
				min = 1.0;
				if (max <= min)
				max = min + 1.0;
				}
				}


				#include "moc_abstractdomain_p.cpp"

				QT_CHARTS_END_NAMESPACE