qt5base-lts/tests/auto/qabstractslider/tst_qabstractslider.cpp

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** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies).
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#include <QtTest/QtTest>
#include <QAbstractSlider>
#include <QScrollBar>
#include <QSlider>
#include <QStyle>
#include <QStyleOption>
#include <QTime>
#include <QDebug>
// defined to be 120 by the wheel mouse vendors according to the docs
#define WHEEL_DELTA 120
class Slider : public QAbstractSlider
{
public:
Slider(QWidget *parent)
: QAbstractSlider(parent) {}
using QAbstractSlider::setRepeatAction;
using QAbstractSlider::repeatAction;
};
class tst_QAbstractSlider: public QObject
{
Q_OBJECT
public slots:
void initTestCase();
void cleanupTestCase();
void actionTriggered(int action);
void rangeChanged(int min, int max);
void valueChanged(int value);
void sliderMoved(int value);
private slots:
void triggerAction_data();
void triggerAction();
void minimum_maximum_data();
void minimum_maximum();
void keyPressed_data();
void keyPressed();
void wheelEvent_data();
void wheelEvent();
void sliderPressedReleased_data();
void sliderPressedReleased();
void setOrientation();
void sliderMoved_data();
void sliderMoved();
void rangeChanged_data();
void rangeChanged();
void setSliderPosition_data();
void setSliderPosition();
void setValue_data();
void setValue();
void setRepeatAction();
private:
void waitUntilTimeElapsed(const QTime& t, int ms);
QWidget *topLevel;
Slider *slider;
int previousAction;
int reportedMinimum;
int reportedMaximum;
int reportedValue;
int reportedSliderPosition;
qint64 timeStamp;
qint64 actionTriggeredTimeStamp;
qint64 valueChangedTimeStamp;
qint64 rangeChangedTimeStamp;
qint64 sliderMovedTimeStamp;
};
Q_DECLARE_METATYPE(QList<Qt::Key>)
Q_DECLARE_METATYPE(QPoint)
void tst_QAbstractSlider::initTestCase()
{
topLevel = new QWidget;
slider = new Slider(topLevel);
slider->setObjectName("testWidget");
slider->resize(100,100);
slider->show();
previousAction = QAbstractSlider::SliderNoAction;
timeStamp = 0;
connect(slider,SIGNAL(actionTriggered(int)),this,SLOT(actionTriggered(int)));
connect(slider,SIGNAL(rangeChanged(int,int)),this,SLOT(rangeChanged(int,int)));
connect(slider,SIGNAL(valueChanged(int)),this,SLOT(valueChanged(int)));
connect(slider,SIGNAL(sliderMoved(int)),this,SLOT(sliderMoved(int)));
}
void tst_QAbstractSlider::cleanupTestCase()
{
delete topLevel;
}
void tst_QAbstractSlider::actionTriggered(int action)
{
previousAction = action;
actionTriggeredTimeStamp = timeStamp++;
}
void tst_QAbstractSlider::rangeChanged(int min,int max)
{
reportedMinimum = min;
reportedMaximum = max;
rangeChangedTimeStamp = timeStamp++;
}
void tst_QAbstractSlider::valueChanged(int value)
{
reportedValue = value;
valueChangedTimeStamp = timeStamp++;
}
void tst_QAbstractSlider::sliderMoved(int value)
{
reportedSliderPosition = value;
sliderMovedTimeStamp = timeStamp++;
}
void tst_QAbstractSlider::triggerAction_data()
{
QTest::addColumn<int>("sliderAction");
QTest::addColumn<int>("maximum");
QTest::addColumn<int>("minimum");
QTest::addColumn<int>("initialSliderPosition");
QTest::addColumn<int>("singleStep");
QTest::addColumn<int>("pageStep");
QTest::addColumn<int>("expectedSliderPosition");
QTest::newRow("No action") << int(QAbstractSlider::SliderNoAction) // sliderAction
<< 1000 // max
<< 900 // min
<< 987 // initial position
<< 237 // single step size
<< 234 // page step size
<< 987; // expected position after
QTest::newRow("Move action") << int(QAbstractSlider::SliderMove) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 237 // single step size
<< 234 // page step size
<< 988; // expected position after
QTest::newRow("Empty step add") << int(QAbstractSlider::SliderSingleStepAdd) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 0 // single step size
<< 234 // page step size
<< 988; // expected position after
QTest::newRow("Empty step sub") << int(QAbstractSlider::SliderSingleStepSub) // sliderAction
<< 1000 // max
<< 900 // min
<< 987 // initial position
<< 0 // single step size
<< 234 // page step size
<< 987; // expected position after
QTest::newRow("Empty page add") << int(QAbstractSlider::SliderPageStepAdd) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 234 // single step size
<< 0 // page step size
<< 988; // expected position after
QTest::newRow("Empty page sub") << int(QAbstractSlider::SliderPageStepSub) // sliderAction
<< 1000 // max
<< 900 // min
<< 987 // initial position
<< 234 // single step size
<< 0 // page step size
<< 987; // expected position after
QTest::newRow("Legal step add") << int(QAbstractSlider::SliderSingleStepAdd) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 5 // single step size
<< 234 // page step size
<< 993; // expected position after
QTest::newRow("Legal step sub") << int(QAbstractSlider::SliderSingleStepSub) // sliderAction
<< 1000 // max
<< 900 // min
<< 987 // initial position
<< 5 // single step size
<< 234 // page step size
<< 982; // expected position after
QTest::newRow("Legal page add") << int(QAbstractSlider::SliderPageStepAdd) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 234 // single step size
<< 5 // page step size
<< 993; // expected position after
QTest::newRow("Legal page sub") << int(QAbstractSlider::SliderPageStepSub) // sliderAction
<< 1000 // max
<< 900 // min
<< 987 // initial position
<< 234 // single step size
<< 5 // page step size
<< 982; // expected position after
QTest::newRow("Illegal step add") << int(QAbstractSlider::SliderSingleStepAdd) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 500 // single step size
<< 234 // page step size
<< 1000; // expected position after
QTest::newRow("Illegal step sub") << int(QAbstractSlider::SliderSingleStepSub) // sliderAction
<< 1000 // max
<< 900 // min
<< 987 // initial position
<< 500 // single step size
<< 234 // page step size
<< 900; // expected position after
QTest::newRow("Illegal page add") << int(QAbstractSlider::SliderPageStepAdd) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 234 // single step size
<< 500 // page step size
<< 1000; // expected position after
QTest::newRow("Illegal page sub") << int(QAbstractSlider::SliderPageStepSub) // sliderAction
<< 1000 // max
<< 900 // min
<< 987 // initial position
<< 234 // single step size
<< 500 // page step size
<< 900; // expected position after
// Negative steps will also be abs()'d so, check that case.
QTest::newRow("Negative step add") << int(QAbstractSlider::SliderSingleStepAdd) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< -1 // single step size
<< 234 // page step size
<< 989; // expected position after
QTest::newRow("Negative step sub") << int(QAbstractSlider::SliderSingleStepSub) // sliderAction
<< 1000 // max
<< 900 // min
<< 987 // initial position
<< -1 // single step size
<< 234 // page step size
<< 986; // expected position after
QTest::newRow("Negative page add") << int(QAbstractSlider::SliderPageStepAdd) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 234 // single step size
<< -1 // page step size
<< 989; // expected position after
QTest::newRow("Negative page sub") << int(QAbstractSlider::SliderPageStepSub) // sliderAction
<< 1000 // max
<< 900 // min
<< 987 // initial position
<< 234 // single step size
<< -1 // page step size
<< 986; // expected position after
QTest::newRow("Illegal negative step add") << int(QAbstractSlider::SliderSingleStepAdd) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< -500 // single step size
<< 234 // page step size
<< 1000; // expected position after
QTest::newRow("Illegal negative step sub") << int(QAbstractSlider::SliderSingleStepSub) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< -500 // single step size
<< 234 // page step size
<< 900; // expected position after
QTest::newRow("Illegal negative page add") << int(QAbstractSlider::SliderPageStepAdd) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 234 // single step size
<< -500 // page step size
<< 1000; // expected position after
QTest::newRow("Illegal negative page sub") << int(QAbstractSlider::SliderPageStepSub) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 245 // single step size
<< -500 // page step size
<< 900; // expected position after
QTest::newRow("Slider to minimum") << int(QAbstractSlider::SliderToMinimum) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 245 // single step size
<< 1 // page step size
<< 900; // expected position after
QTest::newRow("Slider to maximum") << int(QAbstractSlider::SliderToMaximum) // sliderAction
<< 1000 // max
<< 900 // min
<< 988 // initial position
<< 245 // single step size
<< 1 // page step size
<< 1000; // expected position after
}
void tst_QAbstractSlider::triggerAction()
{
QFETCH(int,sliderAction);
QFETCH(int,maximum);
QFETCH(int,minimum);
QFETCH(int,initialSliderPosition);
QFETCH(int,singleStep);
QFETCH(int,pageStep);
QFETCH(int,expectedSliderPosition);
slider->setTracking(true);
slider->setRange(minimum,maximum);
slider->setSingleStep(singleStep);
slider->setPageStep(pageStep);
QCOMPARE(slider->singleStep(), qAbs(singleStep));
QCOMPARE(slider->pageStep(), qAbs(pageStep));
int oldPosition = slider->sliderPosition();
slider->setSliderPosition(initialSliderPosition);
QVERIFY( (oldPosition == initialSliderPosition && previousAction == int(QAbstractSlider::SliderNoAction)) ||
(oldPosition != initialSliderPosition && previousAction == int(QAbstractSlider::SliderMove)));
previousAction = int(QAbstractSlider::SliderNoAction);
QAbstractSlider::SliderAction *action = reinterpret_cast<QAbstractSlider::SliderAction*>(&sliderAction);
QVERIFY(action != 0);
slider->triggerAction(*action);
QCOMPARE(previousAction,sliderAction); // previousAction set in the actionTriggered() slot
QCOMPARE(slider->sliderPosition(),expectedSliderPosition);
QCOMPARE(slider->value(),expectedSliderPosition);
QCOMPARE(reportedValue,expectedSliderPosition);
previousAction = int(QAbstractSlider::SliderNoAction);
if (initialSliderPosition != expectedSliderPosition)
QVERIFY(actionTriggeredTimeStamp < valueChangedTimeStamp);
}
void tst_QAbstractSlider::minimum_maximum_data()
{
QTest::addColumn<int>("minimum");
QTest::addColumn<int>("maximum");
QTest::addColumn<int>("expectedMinimum");
QTest::addColumn<int>("expectedMaximum");
QTest::newRow("Normal range") << 100 << 200 << 100 << 200;
QTest::newRow("Minimum higher") << 100 << 0 << 100 << 100;
QTest::newRow("Negative minimum") << -100 << 100 << -100 << 100;
QTest::newRow("Negative range") << -100 << -50 << -100 << -50;
}
void tst_QAbstractSlider::minimum_maximum()
{
QFETCH(int, minimum);
QFETCH(int, maximum);
QFETCH(int, expectedMinimum);
QFETCH(int, expectedMaximum);
slider->setRange(minimum,maximum);
QCOMPARE(slider->minimum(),expectedMinimum);
QCOMPARE(slider->maximum(),expectedMaximum);
QCOMPARE(reportedMinimum,expectedMinimum);
QCOMPARE(reportedMaximum,expectedMaximum);
slider->setRange(minimum,maximum);
slider->setMaximum(slider->minimum() - 1);
QCOMPARE(slider->maximum(),slider->minimum());
QCOMPARE(reportedMinimum,slider->minimum());
QCOMPARE(reportedMaximum,slider->maximum());
slider->setRange(minimum,maximum);
slider->setMinimum(slider->maximum() + 1);
QCOMPARE(slider->minimum(),slider->maximum());
QCOMPARE(reportedMinimum,slider->minimum());
QCOMPARE(reportedMaximum,slider->maximum());
slider->setRange(minimum,maximum);
slider->setSliderPosition(slider->maximum() + 1);
QCOMPARE(slider->sliderPosition(), slider->maximum());
QCOMPARE(slider->value(), slider->maximum());
QCOMPARE(reportedValue, slider->maximum());
slider->setRange(minimum,maximum);
slider->setSliderPosition(slider->minimum() - 1);
QCOMPARE(slider->sliderPosition(), slider->minimum());
QCOMPARE(slider->value(), slider->minimum());
QCOMPARE(reportedValue, slider->minimum());
slider->setRange(minimum,maximum);
int oldPosition = slider->sliderPosition();
slider->setMaximum(oldPosition - 1);
QCOMPARE(slider->sliderPosition(),oldPosition - 1);
slider->setRange(minimum,maximum);
oldPosition = slider->sliderPosition();
slider->setMinimum(oldPosition + 1);
QCOMPARE(slider->sliderPosition(), oldPosition + 1);
}
void tst_QAbstractSlider::keyPressed_data()
{
QTest::addColumn<int>("initialSliderPosition");
QTest::addColumn<int>("minimum");
QTest::addColumn<int>("maximum");
QTest::addColumn<int>("stepSize");
QTest::addColumn<int>("pageSize");
QTest::addColumn<QList<Qt::Key> >("keySequence");
QTest::addColumn<int>("expectedSliderPositionHorizontal");
QTest::addColumn<int>("expectedSliderPositionVertical");
QTest::addColumn<int>("expectedSliderPositionHorizontalInverted"); // :)
QTest::addColumn<int>("expectedSliderPositionVerticalInverted");
QList<Qt::Key> list;
list << Qt::Key_Down;
QTest::newRow("Step down once") << 10 // initial position
<< 0 // minimum
<< 100 // maximum
<< 3 // single step size
<< 0 // page step size
<< list // key sequence
<< 7 // result in case of horizontal slider
<< 7 // result in case of vertical slider
<< 13 // result in case of inverted horiz. slider
<< 13; // result in case of inverted vertical slider
list = QList<Qt::Key>();
list << Qt::Key_Up;
QTest::newRow("Step down once") << 10 // initial position
<< 0 // minimum
<< 100 // maximum
<< 3 // single step size
<< 0 // page step size
<< list // key sequence
<< 13 // result in case of horizontal slider
<< 13 // result in case of vertical slider
<< 7 // result in case of inverted horiz. slider
<< 7; // result in case of inverted vertical slider
list = QList<Qt::Key>();
list << Qt::Key_Left;
QTest::newRow("Step left once") << 10 // initial position
<< 0 // minimum
<< 100 // maximum
<< 3 // single step size
<< 0 // page step size
<< list // key sequence
<< 7 // result in case of horizontal slider
<< 7 // result in case of vertical slider
<< 13 // result in case of inverted horiz. slider
<< 13; // result in case of inverted vertical slider
list = QList<Qt::Key>();
list << Qt::Key_Right;
QTest::newRow("Step right once") << 10 // initial position
<< 0 // minimum
<< 100 // maximum
<< 3 // single step size
<< 0 // page step size
<< list // key sequence
<< 13 // result in case of horizontal slider
<< 13 // result in case of vertical slider
<< 7 // result in case of inverted horiz. slider
<< 7; // result in case of inverted vertical slider
list = QList<Qt::Key>();
list << Qt::Key_PageDown;
QTest::newRow("Page down once") << 10 // initial position
<< 0 // minimum
<< 100 // maximum
<< 0 // single step size
<< 3 // page step size
<< list // key sequence
<< 7 // result in case of horizontal slider
<< 7 // result in case of vertical slider
<< 13 // result in case of inverted horiz. slider
<< 13; // result in case of inverted vertical slider
list = QList<Qt::Key>();
list << Qt::Key_PageUp;
QTest::newRow("Page up once") << 10 // initial position
<< 0 // minimum
<< 100 // maximum
<< 0 // single step size
<< 3 // page step size
<< list // key sequence
<< 13 // result in case of horizontal slider
<< 13 // result in case of vertical slider
<< 7 // result in case of inverted horiz. slider
<< 7; // result in case of inverted vertical slider
list = QList<Qt::Key>();
list << Qt::Key_Up << Qt::Key_Up << Qt::Key_PageDown << Qt::Key_PageDown << Qt::Key_Left << Qt::Key_Left
<< Qt::Key_Right << Qt::Key_Down << Qt::Key_PageUp << Qt::Key_PageUp << Qt::Key_Down << Qt::Key_Right;
QTest::newRow("Symmetric seq") << 50 // initial position
<< 0 // minimum
<< 100 // maximum
<< 3 // single step size
<< 3 // page step size
<< list // key sequence
<< 50 // result in case of horizontal slider
<< 50 // result in case of vertical slider
<< 50 // result in case of inverted horiz. slider
<< 50; // result in case of inverted vertical slider
list = QList<Qt::Key>();
list << Qt::Key_Home;
QTest::newRow("Home") << 10 // initial position
<< 0 // minimum
<< 100 // maximum
<< 0 // single step size
<< 3 // page step size
<< list // key sequence
<< 0 // result in case of horizontal slider
<< 0 // result in case of vertical slider
<< 0 // result in case of inverted horiz. slider
<< 0; // result in case of inverted vertical slider
list = QList<Qt::Key>();
list << Qt::Key_End;
QTest::newRow("End") << 10 // initial position
<< 0 // minimum
<< 100 // maximum
<< 0 // single step size
<< 3 // page step size
<< list // key sequence
<< 100 // result in case of horizontal slider
<< 100 // result in case of vertical slider
<< 100 // result in case of inverted horiz. slider
<< 100; // result in case of inverted vertical slider
list = QList<Qt::Key>();
list << Qt::Key_End << Qt::Key_Up;
QTest::newRow("Past end")<< 10 // initial position
<< 0 // minimum
<< 100 // maximum
<< 3 // single step size
<< 3 // page step size
<< list // key sequence
<< 100 // result in case of horizontal slider
<< 100 // result in case of vertical slider
<< 97 // result in case of inverted horiz. slider
<< 97; // result in case of inverted vertical slider
list = QList<Qt::Key>();
list << Qt::Key_Home << Qt::Key_Down;
QTest::newRow("Past home")<< 10 // initial position
<< 0 // minimum
<< 100 // maximum
<< 3 // single step size
<< 3 // page step size
<< list // key sequence
<< 0 // result in case of horizontal slider
<< 0 // result in case of vertical slider
<< 3 // result in case of inverted horiz. slider
<< 3; // result in case of inverted vertical slider
}
void tst_QAbstractSlider::keyPressed()
{
QFETCH(int, initialSliderPosition);
QFETCH(int, minimum);
QFETCH(int, maximum);
QFETCH(int, stepSize);
QFETCH(int, pageSize);
QFETCH(QList<Qt::Key>, keySequence);
QFETCH(int, expectedSliderPositionHorizontal);
QFETCH(int, expectedSliderPositionVertical);
QFETCH(int, expectedSliderPositionHorizontalInverted);
QFETCH(int, expectedSliderPositionVerticalInverted);
// Horizontal non-inverted
slider->setRange(minimum,maximum);
slider->setSliderPosition(initialSliderPosition);
slider->setSingleStep(stepSize);
slider->setPageStep(pageSize);
slider->setOrientation(Qt::Horizontal);
slider->setInvertedAppearance(false);
slider->setInvertedControls(false);
for (int i=0;i<keySequence.count();i++) {
QTest::keyClick(slider, keySequence.at(i));
}
QCOMPARE(slider->sliderPosition(), expectedSliderPositionHorizontal);
// Horizontal inverted
slider->setRange(minimum,maximum);
slider->setSliderPosition(initialSliderPosition);
slider->setSingleStep(stepSize);
slider->setPageStep(pageSize);
slider->setOrientation(Qt::Horizontal);
slider->setInvertedAppearance(true);
slider->setInvertedControls(true);
for (int i=0;i<keySequence.count();i++)
QTest::keyPress(slider, keySequence.at(i));
QCOMPARE(slider->sliderPosition(), expectedSliderPositionHorizontalInverted);
// Vertical non-inverted
slider->setRange(minimum,maximum);
slider->setSliderPosition(initialSliderPosition);
slider->setSingleStep(stepSize);
slider->setPageStep(pageSize);
slider->setOrientation(Qt::Vertical);
slider->setInvertedAppearance(false);
slider->setInvertedControls(false);
for (int i=0;i<keySequence.count();i++)
QTest::keyPress(slider, keySequence.at(i));
QCOMPARE(slider->sliderPosition(), expectedSliderPositionVertical);
// Vertical inverted
slider->setRange(minimum,maximum);
slider->setSliderPosition(initialSliderPosition);
slider->setSingleStep(stepSize);
slider->setPageStep(pageSize);
slider->setOrientation(Qt::Vertical);
slider->setInvertedAppearance(true);
slider->setInvertedControls(true);
for (int i=0;i<keySequence.count();i++)
QTest::keyPress(slider, keySequence.at(i));
QCOMPARE(slider->sliderPosition(), expectedSliderPositionVerticalInverted);
}
void tst_QAbstractSlider::wheelEvent_data()
{
QTest::addColumn<int>("initialSliderPosition");
QTest::addColumn<int>("minimum");
QTest::addColumn<int>("maximum");
QTest::addColumn<int>("singleStep");
QTest::addColumn<int>("pageStep");
QTest::addColumn<bool>("invertedControls");
QTest::addColumn<int>("wheelScrollLines");
QTest::addColumn<bool>("withModifiers"); // use keyboard modifiers while scrolling? (CTRL and SHIFT)
QTest::addColumn<int>("deltaMultiple"); // multiples of WHEEL_DELTA
QTest::addColumn<int>("sliderOrientation");
QTest::addColumn<int>("wheelOrientation");
QTest::addColumn<int>("expectedSliderPosition");
QTest::addColumn<QPoint>("distanceFromBottomRight"); // mpointer's distance from bottom-right corner of widget
QTest::newRow("Normal data step") << 0 // initial position
<< 0 // minimum
<< 100 // maximum
<< 1 // single step
<< 100 // page step
<< false // inverted controls
<< 20 // wheel scroll lines
<< false // with modifiers
<< 1 // delta
<< int(Qt::Vertical) // orientation of slider
<< int(Qt::Vertical) // orientation of wheel
<< 20 // expected position after
<< QPoint(0,0);
QTest::newRow("Normal data page") << 0 // initial position
<< 0 // minimum
<< 100 // maximum
<< 100 // single step
<< 1 // page step
<< false // inverted controls
<< 20 // wheel scroll lines
<< false // with modifiers
<< 1 // delta
<< int(Qt::Vertical) // orientation of slider
<< int(Qt::Vertical) // orientation of wheel
#ifndef Q_WS_MAC
<< 1 // expected position after
#else
// We don't restrict scrolling to pageStep on Mac
<< 100 // expected position after
#endif
<< QPoint(1,1);
QTest::newRow("Different orientation") << 0 // initial position
<< 0 // minimum
<< 100 // maximum
<< 100 // single step
<< 1 // page step
<< false // inverted controls
<< 20 // wheel scroll lines
<< false // with modifiers
<< 1 // delta
<< int(Qt::Horizontal) // orientation of slider
<< int(Qt::Vertical) // orientation of wheel
#ifndef Q_WS_MAC
<< 1 // expected position after
#else
// We don't restrict scrolling to pageStep on Mac
<< 100 // expected position after
#endif
<< QPoint(1,1);
QTest::newRow("Different orientation2")<< 0 // initial position
<< 0 // minimum
<< 100 // maximum
<< 100 // single step
<< 1 // page step
<< false // inverted controls
<< 20 // wheel scroll lines
<< false // with modifiers
<< 1 // delta
<< int(Qt::Horizontal) // orientation of slider
<< int(Qt::Vertical) // orientation of wheel
#ifndef Q_WS_MAC
<< 1 // expected position after
#else
// We don't restrict scrolling to pageStep on Mac
<< 100 // expected position after
#endif
<< QPoint(0,0);
QTest::newRow("Inverted controls") << 50 // initial position
<< 0 // minimum
<< 100 // maximum
<< 1 // single step
<< 100 // page step
<< true // inverted controls
<< 20 // wheel scroll lines
<< false // with modifiers
<< -1 // delta
<< int(Qt::Horizontal) // orientation of slider
<< int(Qt::Horizontal) // orientation of wheel
<< 30 // expected position after
<< QPoint(1,1);
QTest::newRow("Past end") << 50 // initial position
<< 0 // minimum
<< 100 // maximum
<< 26 // single step
<< 100 // page step
<< false // inverted controls
<< 1 // wheel scroll lines
<< false // with modifiers
<< -2 // delta
<< int(Qt::Horizontal) // orientation of slider
<< int(Qt::Horizontal) // orientation of wheel
<< 100 // expected position after
<< QPoint(0,0);
QTest::newRow("Past start") << 50 // initial position
<< 0 // minimum
<< 100 // maximum
<< 26 // single step
<< 100 // page step
<< false // inverted controls
<< 1 // wheel scroll lines
<< false // with modifiers
<< 2 // delta
<< int(Qt::Horizontal) // orientation of slider
<< int(Qt::Horizontal) // orientation of wheel
<< 0 // expected position after
<< QPoint(0,0);
QTest::newRow("With modifiers") << 50 // initial position
<< 0 // minimum
<< 100 // maximum
<< 1 // single step
<< 40 // page step
<< false // inverted controls
<< 20 // wheel scroll lines
<< true // with modifiers
<< -1 // delta
<< int(Qt::Horizontal) // orientation of slider
<< int(Qt::Horizontal) // orientation of wheel
<< 90 // expected position after
<< QPoint(0,0);
}
void tst_QAbstractSlider::wheelEvent()
{
QFETCH(int,initialSliderPosition);
QFETCH(int,minimum);
QFETCH(int,maximum);
QFETCH(int,singleStep);
QFETCH(int,pageStep);
QFETCH(bool,invertedControls);
QFETCH(int,wheelScrollLines);
QFETCH(bool,withModifiers);
QFETCH(int,deltaMultiple);
QFETCH(int,sliderOrientation);
QFETCH(int,wheelOrientation);
QFETCH(int,expectedSliderPosition);
QFETCH(QPoint,distanceFromBottomRight);
QCoreApplication *applicationInstance = QCoreApplication::instance();
QVERIFY(applicationInstance != 0);
QApplication::setWheelScrollLines(wheelScrollLines);
Qt::Orientation orientation = *reinterpret_cast<Qt::Orientation*>(&sliderOrientation);
slider->setRange(minimum,maximum);
slider->setSliderPosition(initialSliderPosition);
slider->setSingleStep(singleStep);
slider->setPageStep(pageStep);
slider->setInvertedControls(invertedControls);
slider->setOrientation(orientation);
Qt::KeyboardModifier k = withModifiers ? Qt::ControlModifier : Qt::NoModifier;
orientation = *reinterpret_cast<Qt::Orientation*>(&wheelOrientation);
QWheelEvent event(slider->rect().bottomRight() + distanceFromBottomRight, WHEEL_DELTA * deltaMultiple,
Qt::NoButton, k, orientation);
QVERIFY(applicationInstance->sendEvent(slider,&event));
QCOMPARE(slider->sliderPosition(),expectedSliderPosition);
slider->setSliderPosition(initialSliderPosition);
k = withModifiers ? Qt::ShiftModifier : Qt::NoModifier;
event = QWheelEvent(slider->rect().bottomRight() + distanceFromBottomRight, WHEEL_DELTA * deltaMultiple,
Qt::NoButton, k, orientation);
QSignalSpy spy1(slider, SIGNAL(actionTriggered(int)));
QSignalSpy spy2(slider, SIGNAL(valueChanged(int)));
QVERIFY(applicationInstance->sendEvent(slider,&event));
QCOMPARE(slider->sliderPosition(),expectedSliderPosition);
int expectedSignalCount = (initialSliderPosition == expectedSliderPosition) ? 0 : 1;
QCOMPARE(spy1.count(), expectedSignalCount);
QCOMPARE(spy2.count(), expectedSignalCount);
if (expectedSignalCount)
QVERIFY(actionTriggeredTimeStamp < valueChangedTimeStamp);
}
void tst_QAbstractSlider::sliderPressedReleased_data()
{
QTest::addColumn<int>("control");
QTest::addColumn<int>("minimum");
QTest::addColumn<int>("maximum");
QTest::addColumn<uint>("subControl");
QTest::addColumn<int>("expectedCount");
QTest::newRow("slider on the handle") << int(QStyle::CC_Slider)
<< 0
<< 20
<< uint(QStyle::SC_SliderHandle)
<< 1;
QTest::newRow("slider on the groove") << int(QStyle::CC_Slider)
<< 0
<< 20
<< uint(QStyle::SC_SliderGroove)
<< ((qApp->style()->styleHint(QStyle::SH_Slider_AbsoluteSetButtons) & Qt::LeftButton) ? 1 : 0);
QTest::newRow("scrollbar on the handle") << int(QStyle::CC_ScrollBar)
<< 0
<< 20
<< uint(QStyle::SC_ScrollBarSlider)
<< 1;
QTest::newRow("scrollbar on the groove") << int(QStyle::CC_ScrollBar)
<< 0
<< 20
<< uint(QStyle::SC_ScrollBarGroove)
<< 0;
}
void tst_QAbstractSlider::sliderPressedReleased()
{
QFETCH(int, control);
QFETCH(int, minimum);
QFETCH(int, maximum);
QFETCH(uint, subControl);
QFETCH(int, expectedCount);
QWidget topLevel;
QAbstractSlider *slider;
switch (control) {
default:
qWarning("Bad input into test, leaving");
return;
break;
case QStyle::CC_Slider:
slider = new QSlider(&topLevel);
slider->setLayoutDirection(Qt::LeftToRight); // Makes "upside down" much easier to compute
break;
case QStyle::CC_ScrollBar:
slider = new QScrollBar(&topLevel);
break;
}
slider->setMinimum(minimum);
slider->setMaximum(maximum);
slider->setValue(0);
slider->setOrientation(Qt::Vertical);
slider->resize(slider->sizeHint().width(), slider->sizeHint().height() + 100);
QSignalSpy spy1(slider, SIGNAL(sliderPressed()));
QSignalSpy spy2(slider, SIGNAL(sliderReleased()));
// Mac Style requires the control to be active to get the correct values...
topLevel.show();
slider->activateWindow();
QStyleOptionSlider option;
option.init(slider);
option.upsideDown = control == QStyle::CC_Slider ? !slider->invertedAppearance()
: slider->invertedAppearance();
option.subControls = QStyle::SC_None;
option.activeSubControls = QStyle::SC_None;
option.orientation = slider->orientation();
option.maximum = maximum;
option.minimum = minimum;
option.sliderPosition = slider->value();
option.sliderValue = slider->value();
option.singleStep = slider->singleStep();
option.pageStep = slider->pageStep();
QRect rect = slider->style()->subControlRect(QStyle::ComplexControl(control), &option,
QStyle::SubControl(subControl), slider);
QTest::mousePress(slider, Qt::LeftButton, 0, QPoint(rect.center().x() + 2, rect.center().y() + 2));
QCOMPARE(spy1.count(), expectedCount);
QTest::mouseRelease(slider, Qt::LeftButton, 0, rect.center());
QCOMPARE(spy2.count(), expectedCount);
delete slider;
}
void tst_QAbstractSlider::sliderMoved_data()
{
QTest::addColumn<int>("control");
QTest::addColumn<int>("minimum");
QTest::addColumn<int>("maximum");
QTest::addColumn<int>("position");
QTest::addColumn<bool>("sliderDown");
QTest::addColumn<int>("expectedCount");
QTest::newRow("slider pressed") << int(QStyle::CC_Slider)
<< 0
<< 20
<< 10
<< true
<< 1;
QTest::newRow("slider not pressed") << int(QStyle::CC_Slider)
<< 0
<< 20
<< 10
<< false
<< 0;
QTest::newRow("scrollbar pressed") << int(QStyle::CC_ScrollBar)
<< 0
<< 20
<< 10
<< true
<< 1;
QTest::newRow("scrollbar not pressed") << int(QStyle::CC_ScrollBar)
<< 0
<< 20
<< 10
<< false
<< 0;
}
void tst_QAbstractSlider::sliderMoved()
{
QFETCH(int, control);
QFETCH(int, minimum);
QFETCH(int, maximum);
QFETCH(int, position);
QFETCH(bool, sliderDown);
QFETCH(int, expectedCount);
QAbstractSlider *slider;
switch (control) {
default:
slider = 0;
break;
case QStyle::CC_Slider:
slider = new QSlider;
break;
case QStyle::CC_ScrollBar:
slider = new QScrollBar;
break;
}
QSignalSpy spy(slider, SIGNAL(sliderMoved(int)));
slider->setMinimum(minimum);
slider->setMaximum(maximum);
slider->setSliderDown(sliderDown);
slider->setSliderPosition(position);
QCOMPARE(spy.count(), expectedCount);
delete slider;
}
void tst_QAbstractSlider::setOrientation()
{
QSlider slider(0);
QSizePolicy sp = slider.sizePolicy();
slider.setOrientation(slider.orientation());
QSizePolicy sp2 = slider.sizePolicy();
QCOMPARE(sp, sp2);
slider.setOrientation(Qt::Horizontal);
sp = slider.sizePolicy();
slider.setOrientation(Qt::Vertical);
sp2 = slider.sizePolicy();
QVERIFY(sp != sp2);
sp2.transpose();
QCOMPARE(sp, sp2);
}
void tst_QAbstractSlider::rangeChanged_data()
{
QTest::addColumn<int>("minimum");
QTest::addColumn<int>("maximum");
QTest::addColumn<int>("newMin");
QTest::addColumn<int>("newMax");
QTest::addColumn<int>("expectedCount");
QTest::newRow("no change")
<< 0
<< 20
<< 0
<< 20
<< 0;
QTest::newRow("min change")
<< 0
<< 20
<< 10
<< 20
<< 1;
QTest::newRow("max change")
<< 0
<< 20
<< 0
<< 30
<< 1;
QTest::newRow("both change")
<< 0
<< 20
<< 10
<< 30
<< 1;
}
void tst_QAbstractSlider::rangeChanged()
{
QFETCH(int, minimum);
QFETCH(int, maximum);
QFETCH(int, newMin);
QFETCH(int, newMax);
QFETCH(int, expectedCount);
QSlider slider;
slider.setRange(minimum, maximum);
QSignalSpy spy(&slider, SIGNAL(rangeChanged(int, int)));
slider.setRange(newMin, newMax);
QCOMPARE(spy.count(), expectedCount);
}
void tst_QAbstractSlider::setSliderPosition_data()
{
QTest::addColumn<bool>("tracking");
QTest::addColumn<bool>("down");
QTest::newRow("tracking, slider down")
<< true
<< true;
QTest::newRow("tracking, slider not down")
<< true
<< false;
QTest::newRow("no tracking, slider down")
<< false
<< true;
QTest::newRow("no tracking, slider not down")
<< false
<< false;
}
void tst_QAbstractSlider::setSliderPosition()
{
QFETCH(bool, tracking);
QFETCH(bool, down);
const int minimum = 0;
const int maximum = 100;
const int initialValue = 50;
const int targetPosition = 75;
slider->setRange(minimum, maximum);
slider->setTracking(tracking);
slider->setSliderDown(down);
slider->setValue(initialValue);
QCOMPARE(slider->sliderPosition(), initialValue);
QSignalSpy spy1(slider, SIGNAL(sliderMoved(int)));
QSignalSpy spy2(slider, SIGNAL(valueChanged(int)));
slider->setSliderPosition(targetPosition);
QCOMPARE(slider->sliderPosition(), targetPosition);
QCOMPARE(spy1.count(), down ? 1 : 0);
QCOMPARE(spy2.count(), tracking ? 1 : 0);
QCOMPARE(slider->value(), tracking ? targetPosition : initialValue);
if (tracking && down)
QVERIFY(sliderMovedTimeStamp < valueChangedTimeStamp);
}
void tst_QAbstractSlider::setValue_data()
{
QTest::addColumn<bool>("down");
QTest::newRow("slider down")
<< true;
QTest::newRow("slider not down")
<< false;
}
void tst_QAbstractSlider::setValue()
{
QFETCH(bool, down);
const int minimum = 0;
const int maximum = 100;
slider->setRange(minimum, maximum);
slider->setSliderDown(down);
slider->setValue(49); // to force a valueChanged() below
QSignalSpy spy1(slider, SIGNAL(sliderMoved(int)));
QSignalSpy spy2(slider, SIGNAL(valueChanged(int)));
QSignalSpy spy3(slider, SIGNAL(actionTriggered(int)));
slider->setValue(50);
QCOMPARE(spy1.count(), down ? 1 : 0);
QCOMPARE(spy2.count(), 1);
QCOMPARE(spy3.count(), 0);
QCOMPARE(slider->value(), reportedValue);
QCOMPARE(slider->sliderPosition(), reportedSliderPosition);
if (down)
QVERIFY(sliderMovedTimeStamp < valueChangedTimeStamp);
}
void tst_QAbstractSlider::waitUntilTimeElapsed(const QTime& t, int ms)
{
const int eps = 80;
while (t.elapsed() < ms + eps)
QTest::qWait(qMax(ms - t.elapsed() + eps, 25));
}
void tst_QAbstractSlider::setRepeatAction()
{
slider->setRange(0, 1000);
slider->setValue(55);
slider->setPageStep(10);
QSignalSpy spy(slider, SIGNAL(actionTriggered(int)));
// Start repeat action with initial delay of 500 ms, and then repeating
// every 250 ms.
slider->setRepeatAction(QAbstractSlider::SliderPageStepAdd, 500, 250);
QCOMPARE(spy.count(), 0);
QCOMPARE(slider->value(), 55);
QTime t;
t.start();
QTest::qWait(300);
QCOMPARE(spy.count(), 0);
QCOMPARE(slider->value(), 55);
waitUntilTimeElapsed(t, 550);
QCOMPARE(spy.count(), 1);
QCOMPARE(slider->value(), 65);
QCOMPARE(spy.at(0).at(0).toUInt(), (uint)QAbstractSlider::SliderPageStepAdd);
waitUntilTimeElapsed(t, 790);
QCOMPARE(spy.count(), 2);
QCOMPARE(slider->value(), 75);
QCOMPARE(spy.at(1).at(0).toUInt(), (uint)QAbstractSlider::SliderPageStepAdd);
waitUntilTimeElapsed(t, 1790);
QCOMPARE(spy.count(), 6);
QCOMPARE(slider->value(), 115);
QCOMPARE(spy.at(4).at(0).toUInt(), (uint)QAbstractSlider::SliderPageStepAdd);
QCOMPARE(spy.at(5).at(0).toUInt(), (uint)QAbstractSlider::SliderPageStepAdd);
slider->setRepeatAction(QAbstractSlider::SliderNoAction);
QCOMPARE(spy.count(), 6);
QCOMPARE(slider->value(), 115);
QTest::qWait(300);
QCOMPARE(spy.count(), 6);
QCOMPARE(slider->value(), 115);
}
QTEST_MAIN(tst_QAbstractSlider)
#include "tst_qabstractslider.moc"