HG_REPOSITORIES/LPP/INSTRUMENTATION/USERS/JEANDET/qtcharts Files · tests/auto/qvalueaxis/tst_qvalueaxis.cpp

Add pressed, released and doubleClicked signals...

Add pressed, released and doubleClicked signals Added pressed, released and doubleClicked signals for all series. The signals are also added to QPieSlice and QBoxPlotSet. Change-Id: If94948be439a3b53ed48c02d0092091e836222a4 Task-number: QTRD-2384 Reviewed-by: Miikka Heikkinen <miikka.heikkinen@theqtcompany.com>

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             tst_qvalueaxis.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.digia.com

       **

       ** This file is part of the Qt Enterprise Charts Add-on.

       **

       ** $QT_BEGIN_LICENSE$

       ** Licensees holding valid Qt Enterprise licenses may use this file in

       ** accordance with the Qt Enterprise 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 "../qabstractaxis/tst_qabstractaxis.h"

      #include <QtCharts/QValueAxis>

      #include <QtCharts/QLineSeries>

      class tst_QValueAxis: public tst_QAbstractAxis

      {

      Q_OBJECT

      public slots:

          void initTestCase();

          void cleanupTestCase();

          void init();

          void cleanup();

      private slots:

          void qvalueaxis_data();

          void qvalueaxis();

          void max_raw_data();

          void max_raw();

          void max_data();

          void max();

          void max_animation_data();

          void max_animation();

          void min_raw_data();

          void min_raw();

          void min_data();

          void min();

          void min_animation_data();

          void min_animation();

          void applyNiceNumbers_data();

          void applyNiceNumbers();

          void range_raw_data();

          void range_raw();

          void range_data();

          void range();

          void range_animation_data();

          void range_animation();

          void ticksCount_data();

          void ticksCount();

          void noautoscale_data();

          void noautoscale();

          void autoscale_data();

          void autoscale();

      private:

          QValueAxis* m_valuesaxis;

          QLineSeries* m_series;

      };

      void tst_QValueAxis::initTestCase()

      {

      }

      void tst_QValueAxis::cleanupTestCase()

      {

          QTest::qWait(1); // Allow final deleteLaters to run

      }

      void tst_QValueAxis::init()

      {

          m_valuesaxis = new QValueAxis();

          m_series = new QLineSeries();

          *m_series << QPointF(-100, -100) << QPointF(0, 0) << QPointF(100, 100);

          tst_QAbstractAxis::init(m_valuesaxis,m_series);

          m_chart->addSeries(m_series);

          m_chart->createDefaultAxes();

      }

      void tst_QValueAxis::cleanup()

      {

          delete m_series;

          delete m_valuesaxis;

          m_series = 0;

          m_valuesaxis = 0;

          tst_QAbstractAxis::cleanup();

      }

      void tst_QValueAxis::qvalueaxis_data()

      {

      }

      void tst_QValueAxis::qvalueaxis()

      {

          qabstractaxis();

          QVERIFY(qFuzzyCompare(m_valuesaxis->max(), 0));

          QVERIFY(qFuzzyCompare(m_valuesaxis->min(), 0));

          QCOMPARE(m_valuesaxis->niceNumbersEnabled(), false);

          QCOMPARE(m_valuesaxis->tickCount(), 5);

          QCOMPARE(m_valuesaxis->type(), QAbstractAxis::AxisTypeValue);

          m_chart->setAxisX(m_valuesaxis, m_series);

          m_view->show();

          QTest::qWaitForWindowShown(m_view);

          QVERIFY(!qFuzzyCompare(m_valuesaxis->max(), 0));

          QVERIFY(!qFuzzyCompare(m_valuesaxis->min(), 0));

          QCOMPARE(m_valuesaxis->niceNumbersEnabled(), false);

          QCOMPARE(m_valuesaxis->tickCount(), 5);

      }

      void tst_QValueAxis::max_raw_data()

      {

          QTest::addColumn<qreal>("max");

          QTest::newRow("1.0") << (qreal)1.0;

          QTest::newRow("50.0") << (qreal)50.0;

          QTest::newRow("101.0") << (qreal)101.0;

      }

      void tst_QValueAxis::max_raw()

      {

          QFETCH(qreal, max);

          QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));

          QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));

          QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

          m_valuesaxis->setMax(max);

          QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), max), "Not equal");

          QCOMPARE(spy0.count(), 1);

          QCOMPARE(spy1.count(), 0);

          QCOMPARE(spy2.count(), 1);

      }

      void tst_QValueAxis::max_data()

      {

          max_raw_data();

      }

      void tst_QValueAxis::max()

      {

          m_chart->setAxisX(m_valuesaxis, m_series);

          m_view->show();

          QTest::qWaitForWindowShown(m_view);

          max_raw();

      }

      void tst_QValueAxis::max_animation_data()

      {

          max_data();

      }

      void tst_QValueAxis::max_animation()

      {

          m_chart->setAnimationOptions(QChart::GridAxisAnimations);

          max();

      }

      void tst_QValueAxis::min_raw_data()

      {

          QTest::addColumn<qreal>("min");

          QTest::newRow("-1.0") << (qreal)-1.0;

          QTest::newRow("-50.0") << (qreal)-50.0;

          QTest::newRow("-101.0") << (qreal)-101.0;

      }

      void tst_QValueAxis::min_raw()

      {

          QFETCH(qreal, min);

          QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));

          QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));

          QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

          m_valuesaxis->setMin(min);

          QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), min), "Not equal");

          QCOMPARE(spy0.count(), 0);

          QCOMPARE(spy1.count(), 1);

          QCOMPARE(spy2.count(), 1);

      }

      void tst_QValueAxis::min_data()

      {

          min_raw_data();

      }

      void tst_QValueAxis::min()

      {

          m_chart->setAxisX(m_valuesaxis, m_series);

          m_view->show();

          QTest::qWaitForWindowShown(m_view);

          min_raw();

      }

      void tst_QValueAxis::min_animation_data()

      {

          min_data();

      }

      void tst_QValueAxis::min_animation()

      {

          m_chart->setAnimationOptions(QChart::GridAxisAnimations);

          min();

      }

      void tst_QValueAxis::applyNiceNumbers_data()

      {

          QTest::addColumn<bool>("niceNumbersEnabled");

          QTest::addColumn<qreal>("min");

          QTest::addColumn<qreal>("max");

          QTest::addColumn<int>("ticks");

          QTest::addColumn<qreal>("expectedMin");

          QTest::addColumn<qreal>("expectedMax");

          QTest::addColumn<int>("expectedTicks");

          QTest::newRow("true 0.1 , 99.0 , 5") << true << (qreal)0.1 << (qreal)99.0 << 5 << (qreal)0.0 << (qreal)100.0 << 6;

          QTest::newRow("true 1 , 10.0 , 5") << true << (qreal)1.0 << (qreal)10.0 << 5 << (qreal)0.0 << (qreal)10.0 << 6;

          QTest::newRow("true 0.1 , 6.6 , 5") << true << (qreal)0.1 << (qreal)6.6 << 5 << (qreal)0.0 << (qreal)8.0 << 5;

          QTest::newRow("false 0.1 , 6.6 , 5") << false << (qreal)0.1 << (qreal)6.6 << 5 << (qreal)0.1 << (qreal)6.6 << 5;

          QTest::newRow("true 0.1, 99, 5") << true << (qreal)0.1 << (qreal)99.0 << 5 << (qreal)0.0 << (qreal)100.0 << 6;

          QTest::newRow("true 5, 93.5 , 5") << true << (qreal)5.0 << (qreal)93.5 << 5 << (qreal)0.0 << (qreal)100.0 << 6;

      }

      void tst_QValueAxis::applyNiceNumbers()

      {

          QFETCH(bool, niceNumbersEnabled);

          QFETCH(qreal, min);

          QFETCH(qreal, max);

          QFETCH(int, ticks);

          QFETCH(qreal, expectedMin);

          QFETCH(qreal, expectedMax);

          QFETCH(int, expectedTicks);

          m_valuesaxis->setRange(min, max);

          m_valuesaxis->setTickCount(ticks);

          QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), min), "Min not equal");

          QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), max), "Max not equal");

          QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));

          QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));

          QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

          if(niceNumbersEnabled) m_valuesaxis->applyNiceNumbers();

          if(!qFuzzyCompare(expectedMin, min))

              QCOMPARE(spy1.count(), 1);

          if(!qFuzzyCompare(expectedMax, max))

              QCOMPARE(spy0.count(), 1);

          if((!qFuzzyCompare(expectedMin, min)) || (!qFuzzyCompare(expectedMax, max)))

              QCOMPARE(spy2.count(), 1);

          QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), expectedMin), "Min not equal");

          QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), expectedMax), "Max not equal");

          QCOMPARE(m_valuesaxis->tickCount(), expectedTicks);

      }

      void tst_QValueAxis::range_raw_data()

      {

          QTest::addColumn<qreal>("min");

          QTest::addColumn<qreal>("max");

          QTest::newRow("1.0 - 101.0") << (qreal)-1.0 << (qreal)101.0;

          QTest::newRow("25.0 - 75.0") << (qreal)25.0 << (qreal)75.0;

          QTest::newRow("101.0") << (qreal)40.0 << (qreal)60.0;

      }

      void tst_QValueAxis::range_raw()

      {

          QFETCH(qreal, min);

          QFETCH(qreal, max);

          QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));

          QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));

          QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

          m_valuesaxis->setRange(min, max);

          QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), min), "Min not equal");

          QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), max), "Max not equal");

          QCOMPARE(spy0.count(), 1);

          QCOMPARE(spy1.count(), 1);

          QCOMPARE(spy2.count(), 1);

      }

      void tst_QValueAxis::range_data()

      {

          range_raw_data();

      }

      void tst_QValueAxis::range()

      {

          m_chart->setAxisX(m_valuesaxis, m_series);

          m_view->show();

          QTest::qWaitForWindowShown(m_view);

          range_raw();

      }

      void tst_QValueAxis::range_animation_data()

      {

          range_data();

      }

      void tst_QValueAxis::range_animation()

      {

          m_chart->setAnimationOptions(QChart::GridAxisAnimations);

          range();

      }

      void tst_QValueAxis::ticksCount_data()

      {

          QTest::addColumn<int>("ticksCount");

          QTest::addColumn<int>("expectedCount");

          QTest::newRow("0") << 2;

          QTest::newRow("1") << 2;

          QTest::newRow("2") << 2;

          QTest::newRow("3") << 3;

          QTest::newRow("-1") << 2;

      }

      void tst_QValueAxis::ticksCount()

      {

          QFETCH(int, ticksCount);

          QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));

          QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));

          QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

          m_valuesaxis->setTickCount(ticksCount);

          QCOMPARE(m_valuesaxis->tickCount(), ticksCount);

          QCOMPARE(spy0.count(), 0);

          QCOMPARE(spy1.count(), 0);

          QCOMPARE(spy2.count(), 0);

          m_chart->setAxisX(m_valuesaxis, m_series);

          m_view->show();

          QTest::qWaitForWindowShown(m_view);

          QCOMPARE(m_valuesaxis->tickCount(), ticksCount);

      }

      void tst_QValueAxis::noautoscale_data()

      {

          QTest::addColumn<qreal>("min");

          QTest::addColumn<qreal>("max");

          QTest::newRow("1.0 - 101.0") << (qreal)-1.0 << (qreal)101.0;

          QTest::newRow("25.0 - 75.0") << (qreal)25.0 << (qreal)75.0;

          QTest::newRow("101.0") << (qreal)40.0 << (qreal)60.0;

      }

      void tst_QValueAxis::noautoscale()

      {

          QFETCH(qreal, min);

          QFETCH(qreal, max);

          QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));

          QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));

          QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

          m_valuesaxis->setRange(min, max);

          QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), min), "Min not equal");

          QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), max), "Max not equal");

          QCOMPARE(spy0.count(), 1);

          QCOMPARE(spy1.count(), 1);

          QCOMPARE(spy2.count(), 1);

          m_chart->setAxisX(m_valuesaxis, m_series);

          m_view->show();

          QTest::qWaitForWindowShown(m_view);

          QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), min), "Min not equal");

          QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), max), "Max not equal");

      }

      void tst_QValueAxis::autoscale_data()

      {

      }

      void tst_QValueAxis::autoscale()

      {

          QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));

          QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));

          QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

          QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), 0), "Min not equal");

          QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), 0), "Max not equal");

          m_chart->setAxisX(m_valuesaxis, m_series);

          QCOMPARE(spy0.count(), 1);

          QCOMPARE(spy1.count(), 1);

          QCOMPARE(spy2.count(), 1);

          m_view->show();

          QTest::qWaitForWindowShown(m_view);

          QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), -100), "Min not equal");

          QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), 100), "Max not equal");

      }

      QTEST_MAIN(tst_QValueAxis)

      #include "tst_qvalueaxis.moc"

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				/****************************************************************************
				**
				** Copyright (C) 2014 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 Enterprise Charts Add-on.
				**
				** $QT_BEGIN_LICENSE$
				** Licensees holding valid Qt Enterprise licenses may use this file in
				** accordance with the Qt Enterprise 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 "../qabstractaxis/tst_qabstractaxis.h"
				#include <QtCharts/QValueAxis>
				#include <QtCharts/QLineSeries>

				class tst_QValueAxis: public tst_QAbstractAxis
				{
				Q_OBJECT

				public slots:
				void initTestCase();
				void cleanupTestCase();
				void init();
				void cleanup();

				private slots:
				void qvalueaxis_data();
				void qvalueaxis();
				void max_raw_data();
				void max_raw();
				void max_data();
				void max();
				void max_animation_data();
				void max_animation();
				void min_raw_data();
				void min_raw();
				void min_data();
				void min();
				void min_animation_data();
				void min_animation();
				void applyNiceNumbers_data();
				void applyNiceNumbers();
				void range_raw_data();
				void range_raw();
				void range_data();
				void range();
				void range_animation_data();
				void range_animation();
				void ticksCount_data();
				void ticksCount();
				void noautoscale_data();
				void noautoscale();
				void autoscale_data();
				void autoscale();

				private:
				QValueAxis* m_valuesaxis;
				QLineSeries* m_series;
				};

				void tst_QValueAxis::initTestCase()
				{
				}

				void tst_QValueAxis::cleanupTestCase()
				{
				QTest::qWait(1); // Allow final deleteLaters to run
				}

				void tst_QValueAxis::init()
				{
				m_valuesaxis = new QValueAxis();
				m_series = new QLineSeries();
				*m_series << QPointF(-100, -100) << QPointF(0, 0) << QPointF(100, 100);
				tst_QAbstractAxis::init(m_valuesaxis,m_series);
				m_chart->addSeries(m_series);
				m_chart->createDefaultAxes();
				}

				void tst_QValueAxis::cleanup()
				{
				delete m_series;
				delete m_valuesaxis;
				m_series = 0;
				m_valuesaxis = 0;
				tst_QAbstractAxis::cleanup();
				}

				void tst_QValueAxis::qvalueaxis_data()
				{
				}

				void tst_QValueAxis::qvalueaxis()
				{
				qabstractaxis();

				QVERIFY(qFuzzyCompare(m_valuesaxis->max(), 0));
				QVERIFY(qFuzzyCompare(m_valuesaxis->min(), 0));
				QCOMPARE(m_valuesaxis->niceNumbersEnabled(), false);
				QCOMPARE(m_valuesaxis->tickCount(), 5);
				QCOMPARE(m_valuesaxis->type(), QAbstractAxis::AxisTypeValue);

				m_chart->setAxisX(m_valuesaxis, m_series);
				m_view->show();
				QTest::qWaitForWindowShown(m_view);

				QVERIFY(!qFuzzyCompare(m_valuesaxis->max(), 0));
				QVERIFY(!qFuzzyCompare(m_valuesaxis->min(), 0));
				QCOMPARE(m_valuesaxis->niceNumbersEnabled(), false);
				QCOMPARE(m_valuesaxis->tickCount(), 5);
				}

				void tst_QValueAxis::max_raw_data()
				{
				QTest::addColumn<qreal>("max");
				QTest::newRow("1.0") << (qreal)1.0;
				QTest::newRow("50.0") << (qreal)50.0;
				QTest::newRow("101.0") << (qreal)101.0;
				}

				void tst_QValueAxis::max_raw()
				{
				QFETCH(qreal, max);

				QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));
				QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));
				QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

				m_valuesaxis->setMax(max);
				QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), max), "Not equal");

				QCOMPARE(spy0.count(), 1);
				QCOMPARE(spy1.count(), 0);
				QCOMPARE(spy2.count(), 1);

				}

				void tst_QValueAxis::max_data()
				{
				max_raw_data();
				}

				void tst_QValueAxis::max()
				{
				m_chart->setAxisX(m_valuesaxis, m_series);
				m_view->show();
				QTest::qWaitForWindowShown(m_view);
				max_raw();
				}

				void tst_QValueAxis::max_animation_data()
				{
				max_data();
				}

				void tst_QValueAxis::max_animation()
				{
				m_chart->setAnimationOptions(QChart::GridAxisAnimations);
				max();
				}

				void tst_QValueAxis::min_raw_data()
				{
				QTest::addColumn<qreal>("min");
				QTest::newRow("-1.0") << (qreal)-1.0;
				QTest::newRow("-50.0") << (qreal)-50.0;
				QTest::newRow("-101.0") << (qreal)-101.0;
				}

				void tst_QValueAxis::min_raw()
				{
				QFETCH(qreal, min);

				QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));
				QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));
				QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

				m_valuesaxis->setMin(min);
				QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), min), "Not equal");

				QCOMPARE(spy0.count(), 0);
				QCOMPARE(spy1.count(), 1);
				QCOMPARE(spy2.count(), 1);
				}

				void tst_QValueAxis::min_data()
				{
				min_raw_data();
				}

				void tst_QValueAxis::min()
				{
				m_chart->setAxisX(m_valuesaxis, m_series);
				m_view->show();
				QTest::qWaitForWindowShown(m_view);
				min_raw();
				}

				void tst_QValueAxis::min_animation_data()
				{
				min_data();
				}

				void tst_QValueAxis::min_animation()
				{
				m_chart->setAnimationOptions(QChart::GridAxisAnimations);
				min();
				}

				void tst_QValueAxis::applyNiceNumbers_data()
				{
				QTest::addColumn<bool>("niceNumbersEnabled");
				QTest::addColumn<qreal>("min");
				QTest::addColumn<qreal>("max");
				QTest::addColumn<int>("ticks");
				QTest::addColumn<qreal>("expectedMin");
				QTest::addColumn<qreal>("expectedMax");
				QTest::addColumn<int>("expectedTicks");
				QTest::newRow("true 0.1 , 99.0 , 5") << true << (qreal)0.1 << (qreal)99.0 << 5 << (qreal)0.0 << (qreal)100.0 << 6;
				QTest::newRow("true 1 , 10.0 , 5") << true << (qreal)1.0 << (qreal)10.0 << 5 << (qreal)0.0 << (qreal)10.0 << 6;
				QTest::newRow("true 0.1 , 6.6 , 5") << true << (qreal)0.1 << (qreal)6.6 << 5 << (qreal)0.0 << (qreal)8.0 << 5;
				QTest::newRow("false 0.1 , 6.6 , 5") << false << (qreal)0.1 << (qreal)6.6 << 5 << (qreal)0.1 << (qreal)6.6 << 5;
				QTest::newRow("true 0.1, 99, 5") << true << (qreal)0.1 << (qreal)99.0 << 5 << (qreal)0.0 << (qreal)100.0 << 6;
				QTest::newRow("true 5, 93.5 , 5") << true << (qreal)5.0 << (qreal)93.5 << 5 << (qreal)0.0 << (qreal)100.0 << 6;
				}

				void tst_QValueAxis::applyNiceNumbers()
				{
				QFETCH(bool, niceNumbersEnabled);
				QFETCH(qreal, min);
				QFETCH(qreal, max);
				QFETCH(int, ticks);
				QFETCH(qreal, expectedMin);
				QFETCH(qreal, expectedMax);
				QFETCH(int, expectedTicks);

				m_valuesaxis->setRange(min, max);
				m_valuesaxis->setTickCount(ticks);

				QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), min), "Min not equal");
				QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), max), "Max not equal");

				QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));
				QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));
				QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

				if(niceNumbersEnabled) m_valuesaxis->applyNiceNumbers();

				if(!qFuzzyCompare(expectedMin, min))
				QCOMPARE(spy1.count(), 1);
				if(!qFuzzyCompare(expectedMax, max))
				QCOMPARE(spy0.count(), 1);
				if((!qFuzzyCompare(expectedMin, min)) \|\| (!qFuzzyCompare(expectedMax, max)))
				QCOMPARE(spy2.count(), 1);

				QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), expectedMin), "Min not equal");
				QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), expectedMax), "Max not equal");
				QCOMPARE(m_valuesaxis->tickCount(), expectedTicks);

				}

				void tst_QValueAxis::range_raw_data()
				{
				QTest::addColumn<qreal>("min");
				QTest::addColumn<qreal>("max");
				QTest::newRow("1.0 - 101.0") << (qreal)-1.0 << (qreal)101.0;
				QTest::newRow("25.0 - 75.0") << (qreal)25.0 << (qreal)75.0;
				QTest::newRow("101.0") << (qreal)40.0 << (qreal)60.0;
				}

				void tst_QValueAxis::range_raw()
				{
				QFETCH(qreal, min);
				QFETCH(qreal, max);

				QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));
				QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));
				QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

				m_valuesaxis->setRange(min, max);
				QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), min), "Min not equal");
				QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), max), "Max not equal");

				QCOMPARE(spy0.count(), 1);
				QCOMPARE(spy1.count(), 1);
				QCOMPARE(spy2.count(), 1);
				}

				void tst_QValueAxis::range_data()
				{
				range_raw_data();
				}

				void tst_QValueAxis::range()
				{
				m_chart->setAxisX(m_valuesaxis, m_series);
				m_view->show();
				QTest::qWaitForWindowShown(m_view);
				range_raw();
				}

				void tst_QValueAxis::range_animation_data()
				{
				range_data();
				}

				void tst_QValueAxis::range_animation()
				{
				m_chart->setAnimationOptions(QChart::GridAxisAnimations);
				range();
				}

				void tst_QValueAxis::ticksCount_data()
				{
				QTest::addColumn<int>("ticksCount");
				QTest::addColumn<int>("expectedCount");
				QTest::newRow("0") << 2;
				QTest::newRow("1") << 2;
				QTest::newRow("2") << 2;
				QTest::newRow("3") << 3;
				QTest::newRow("-1") << 2;
				}

				void tst_QValueAxis::ticksCount()
				{
				QFETCH(int, ticksCount);

				QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));
				QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));
				QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

				m_valuesaxis->setTickCount(ticksCount);
				QCOMPARE(m_valuesaxis->tickCount(), ticksCount);

				QCOMPARE(spy0.count(), 0);
				QCOMPARE(spy1.count(), 0);
				QCOMPARE(spy2.count(), 0);

				m_chart->setAxisX(m_valuesaxis, m_series);
				m_view->show();
				QTest::qWaitForWindowShown(m_view);

				QCOMPARE(m_valuesaxis->tickCount(), ticksCount);
				}

				void tst_QValueAxis::noautoscale_data()
				{
				QTest::addColumn<qreal>("min");
				QTest::addColumn<qreal>("max");
				QTest::newRow("1.0 - 101.0") << (qreal)-1.0 << (qreal)101.0;
				QTest::newRow("25.0 - 75.0") << (qreal)25.0 << (qreal)75.0;
				QTest::newRow("101.0") << (qreal)40.0 << (qreal)60.0;
				}

				void tst_QValueAxis::noautoscale()
				{
				QFETCH(qreal, min);
				QFETCH(qreal, max);

				QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));
				QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));
				QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

				m_valuesaxis->setRange(min, max);
				QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), min), "Min not equal");
				QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), max), "Max not equal");

				QCOMPARE(spy0.count(), 1);
				QCOMPARE(spy1.count(), 1);
				QCOMPARE(spy2.count(), 1);

				m_chart->setAxisX(m_valuesaxis, m_series);
				m_view->show();
				QTest::qWaitForWindowShown(m_view);
				QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), min), "Min not equal");
				QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), max), "Max not equal");
				}

				void tst_QValueAxis::autoscale_data()
				{

				}

				void tst_QValueAxis::autoscale()
				{
				QSignalSpy spy0(m_valuesaxis, SIGNAL(maxChanged(qreal)));
				QSignalSpy spy1(m_valuesaxis, SIGNAL(minChanged(qreal)));
				QSignalSpy spy2(m_valuesaxis, SIGNAL(rangeChanged(qreal,qreal)));

				QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), 0), "Min not equal");
				QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), 0), "Max not equal");
				m_chart->setAxisX(m_valuesaxis, m_series);

				QCOMPARE(spy0.count(), 1);
				QCOMPARE(spy1.count(), 1);
				QCOMPARE(spy2.count(), 1);

				m_view->show();
				QTest::qWaitForWindowShown(m_view);
				QVERIFY2(qFuzzyCompare(m_valuesaxis->min(), -100), "Min not equal");
				QVERIFY2(qFuzzyCompare(m_valuesaxis->max(), 100), "Max not equal");
				}

				QTEST_MAIN(tst_QValueAxis)
				#include "tst_qvalueaxis.moc"