/**************************************************************************** ** ** Copyright (C) 2013 Digia Plc and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/legal ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Digia. For licensing terms and ** conditions see http://qt.digia.com/licensing. For further information ** use the contact form at http://qt.digia.com/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Digia gives you certain additional ** rights. These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include #include #include #include #include #include #include "../shared/viewtestutil.h" #include "../shared/visualtestutil.h" #include "../../shared/util.h" using namespace QQuickViewTestUtil; using namespace QQuickVisualTestUtil; class tst_qquickpositioners : public QQmlDataTest { Q_OBJECT public: tst_qquickpositioners(); private slots: void test_horizontal(); void test_horizontal_rtl(); void test_horizontal_spacing(); void test_horizontal_spacing_rightToLeft(); void test_horizontal_animated(); void test_horizontal_animated_rightToLeft(); void test_horizontal_animated_disabled(); void test_vertical(); void test_vertical_spacing(); void test_vertical_animated(); void test_grid(); void test_grid_topToBottom(); void test_grid_rightToLeft(); void test_grid_spacing(); void test_grid_row_column_spacing(); void test_grid_animated(); void test_grid_animated_rightToLeft(); void test_grid_zero_columns(); void test_grid_H_alignment(); void test_grid_V_alignment(); void test_propertychanges(); void test_repeater(); void test_flow(); void test_flow_rightToLeft(); void test_flow_topToBottom(); void test_flow_resize(); void test_flow_resize_rightToLeft(); void test_flow_implicit_resize(); void test_conflictinganchors(); void test_mirroring(); void test_allInvisible(); void test_attachedproperties(); void test_attachedproperties_data(); void test_attachedproperties_dynamic(); void populateTransitions_row(); void populateTransitions_row_data(); void populateTransitions_column(); void populateTransitions_column_data(); void populateTransitions_grid(); void populateTransitions_grid_data(); void populateTransitions_flow(); void populateTransitions_flow_data(); void addTransitions_row(); void addTransitions_row_data(); void addTransitions_column(); void addTransitions_column_data(); void addTransitions_grid(); void addTransitions_grid_data(); void addTransitions_flow(); void addTransitions_flow_data(); void moveTransitions_row(); void moveTransitions_row_data(); void moveTransitions_column(); void moveTransitions_column_data(); void moveTransitions_grid(); void moveTransitions_grid_data(); void moveTransitions_flow(); void moveTransitions_flow_data(); private: QQuickView *createView(const QString &filename, bool wait=true); void populateTransitions(const QString &positionerObjectName); void populateTransitions_data(); void addTransitions(const QString &positionerObjectName); void addTransitions_data(); void moveTransitions(const QString &positionerObjectName); void moveTransitions_data(); void matchIndexLists(const QVariantList &indexLists, const QList &expectedIndexes); void matchItemsAndIndexes(const QVariantMap &items, const QaimModel &model, const QList &expectedIndexes); void matchItemLists(const QVariantList &itemLists, const QList &expectedItems); void checkItemPositions(QQuickItem *positioner, QaimModel *model, qreal incrementalSize); }; void tst_qquickpositioners::populateTransitions_row() { populateTransitions("row"); } void tst_qquickpositioners::populateTransitions_row_data() { populateTransitions_data(); } void tst_qquickpositioners::populateTransitions_column() { populateTransitions("column"); } void tst_qquickpositioners::populateTransitions_column_data() { populateTransitions_data(); } void tst_qquickpositioners::populateTransitions_grid() { populateTransitions("grid"); } void tst_qquickpositioners::populateTransitions_grid_data() { populateTransitions_data(); } void tst_qquickpositioners::populateTransitions_flow() { populateTransitions("flow"); } void tst_qquickpositioners::populateTransitions_flow_data() { populateTransitions_data(); } void tst_qquickpositioners::addTransitions_row() { addTransitions("row"); } void tst_qquickpositioners::addTransitions_row_data() { addTransitions_data(); } void tst_qquickpositioners::addTransitions_column() { addTransitions("column"); } void tst_qquickpositioners::addTransitions_column_data() { addTransitions_data(); } void tst_qquickpositioners::addTransitions_grid() { addTransitions("grid"); } void tst_qquickpositioners::addTransitions_grid_data() { // don't use addTransitions_data() because grid displaces items differently // (adding items further down the grid can cause displace transitions at // previous indexes, since grid is auto-resized to tightly fit all of its items) QTest::addColumn("initialItemCount"); QTest::addColumn("insertionIndex"); QTest::addColumn("insertionCount"); QTest::addColumn("expectedDisplacedIndexes"); QTest::newRow("add one @ start") << 10 << 0 << 1 << ListRange(0, 9); QTest::newRow("add one @ middle") << 10 << 5 << 1 << ListRange(3, 3) + ListRange(5, 9); QTest::newRow("add one @ end") << 10 << 10 << 1 << ListRange(3, 3) + ListRange(7, 7); QTest::newRow("add multiple @ start") << 10 << 0 << 3 << ListRange(0, 9); QTest::newRow("add multiple @ middle") << 10 << 5 << 3 << ListRange(1, 3) + ListRange(5, 9); QTest::newRow("add multiple @ end") << 10 << 10 << 3 << ListRange(1, 3) + ListRange(5, 7) + ListRange(9, 9); } void tst_qquickpositioners::addTransitions_flow() { addTransitions("flow"); } void tst_qquickpositioners::addTransitions_flow_data() { addTransitions_data(); } void tst_qquickpositioners::moveTransitions_row() { moveTransitions("row"); } void tst_qquickpositioners::moveTransitions_row_data() { moveTransitions_data(); } void tst_qquickpositioners::moveTransitions_column() { moveTransitions("column"); } void tst_qquickpositioners::moveTransitions_column_data() { moveTransitions_data(); } void tst_qquickpositioners::moveTransitions_grid() { moveTransitions("grid"); } void tst_qquickpositioners::moveTransitions_grid_data() { // don't use moveTransitions_data() because grid displaces items differently // (removing items further down the grid can cause displace transitions at // previous indexes, since grid is auto-resized to tightly fit all of its items) QTest::addColumn("initialItemCount"); QTest::addColumn("change"); QTest::addColumn("expectedDisplacedIndexes"); QTest::newRow("remove one @ start") << 10 << ListChange::remove(0, 1) << ListRange(1, 9); QTest::newRow("remove one @ middle") << 10 << ListChange::remove(4, 1) << ListRange(2, 3) + ListRange(5, 9); QTest::newRow("remove one @ end") << 10 << ListChange::remove(9, 1) << ListRange(2, 3) + ListRange(6, 7); QTest::newRow("remove multiple @ start") << 10 << ListChange::remove(0, 3) << ListRange(3, 9); QTest::newRow("remove multiple @ middle") << 10 << ListChange::remove(4, 3) << ListRange(1, 3) + ListRange(7, 9); QTest::newRow("remove multiple @ end") << 10 << ListChange::remove(7, 3) << ListRange(1, 3) + ListRange(5, 6); } void tst_qquickpositioners::moveTransitions_flow() { moveTransitions("flow"); } void tst_qquickpositioners::moveTransitions_flow_data() { moveTransitions_data(); } tst_qquickpositioners::tst_qquickpositioners() { } void tst_qquickpositioners::test_horizontal() { QScopedPointer window(createView(testFile("horizontal.qml"))); window->rootObject()->setProperty("testRightToLeft", false); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 50.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 70.0); QCOMPARE(three->y(), 0.0); QQuickItem *row = window->rootObject()->findChild("row"); QCOMPARE(row->width(), 110.0); QCOMPARE(row->height(), 50.0); } void tst_qquickpositioners::test_horizontal_rtl() { QScopedPointer window(createView(testFile("horizontal.qml"))); window->rootObject()->setProperty("testRightToLeft", true); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QCOMPARE(one->x(), 60.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 40.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 0.0); QCOMPARE(three->y(), 0.0); QQuickItem *row = window->rootObject()->findChild("row"); QCOMPARE(row->width(), 110.0); QCOMPARE(row->height(), 50.0); // Change the width of the row and check that items stay to the right row->setWidth(200); QTRY_COMPARE(one->x(), 150.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 130.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 90.0); QCOMPARE(three->y(), 0.0); } void tst_qquickpositioners::test_horizontal_spacing() { QScopedPointer window(createView(testFile("horizontal-spacing.qml"))); window->rootObject()->setProperty("testRightToLeft", false); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 60.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 90.0); QCOMPARE(three->y(), 0.0); QQuickItem *row = window->rootObject()->findChild("row"); QCOMPARE(row->width(), 130.0); QCOMPARE(row->height(), 50.0); } void tst_qquickpositioners::test_horizontal_spacing_rightToLeft() { QScopedPointer window(createView(testFile("horizontal-spacing.qml"))); window->rootObject()->setProperty("testRightToLeft", true); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QCOMPARE(one->x(), 80.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 50.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 00.0); QCOMPARE(three->y(), 0.0); QQuickItem *row = window->rootObject()->findChild("row"); QCOMPARE(row->width(), 130.0); QCOMPARE(row->height(), 50.0); } void tst_qquickpositioners::test_horizontal_animated() { QScopedPointer window(createView(testFile("horizontal-animated.qml"), false)); window->rootObject()->setProperty("testRightToLeft", false); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); //Note that they animate in QCOMPARE(one->x(), -100.0); QCOMPARE(two->x(), -100.0); QCOMPARE(three->x(), -100.0); QVERIFY(QTest::qWaitForWindowExposed(window.data())); //It may not relayout until the next frame, so it needs to be drawn QQuickItem *row = window->rootObject()->findChild("row"); QVERIFY(row); QCOMPARE(row->width(), 100.0); QCOMPARE(row->height(), 50.0); //QTRY_COMPARE used instead of waiting for the expected time of animation completion //Note that this means the duration of the animation is NOT tested QTRY_COMPARE(one->x(), 0.0); QTRY_COMPARE(one->y(), 0.0); QTRY_COMPARE(two->isVisible(), false); QTRY_COMPARE(two->x(), -100.0);//Not 'in' yet QTRY_COMPARE(two->y(), 0.0); QTRY_COMPARE(three->x(), 50.0); QTRY_COMPARE(three->y(), 0.0); //Add 'two' two->setVisible(true); QTRY_COMPARE(two->isVisible(), true); QTRY_COMPARE(row->width(), 150.0); QTRY_COMPARE(row->height(), 50.0); QTest::qWait(0);//Let the animation start QVERIFY(two->x() >= -100.0 && two->x() < 50.0); QVERIFY(three->x() >= 50.0 && three->x() < 100.0); QTRY_COMPARE(two->x(), 50.0); QTRY_COMPARE(three->x(), 100.0); } void tst_qquickpositioners::test_horizontal_animated_rightToLeft() { QScopedPointer window(createView(testFile("horizontal-animated.qml"), false)); window->rootObject()->setProperty("testRightToLeft", true); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); //Note that they animate in QCOMPARE(one->x(), -100.0); QCOMPARE(two->x(), -100.0); QCOMPARE(three->x(), -100.0); QVERIFY(QTest::qWaitForWindowExposed(window.data())); //It may not relayout until the next frame, so it needs to be drawn QQuickItem *row = window->rootObject()->findChild("row"); QVERIFY(row); QCOMPARE(row->width(), 100.0); QCOMPARE(row->height(), 50.0); //QTRY_COMPARE used instead of waiting for the expected time of animation completion //Note that this means the duration of the animation is NOT tested QTRY_COMPARE(one->x(), 50.0); QTRY_COMPARE(one->y(), 0.0); QTRY_COMPARE(two->isVisible(), false); QTRY_COMPARE(two->x(), -100.0);//Not 'in' yet QTRY_COMPARE(two->y(), 0.0); QTRY_COMPARE(three->x(), 0.0); QTRY_COMPARE(three->y(), 0.0); //Add 'two' two->setVisible(true); QTRY_COMPARE(two->isVisible(), true); // New size should propagate after visible change QTRY_COMPARE(row->width(), 150.0); QTRY_COMPARE(row->height(), 50.0); QTest::qWait(0);//Let the animation start QVERIFY(one->x() >= 50.0 && one->x() < 100); QVERIFY(two->x() >= -100.0 && two->x() < 50.0); QTRY_COMPARE(one->x(), 100.0); QTRY_COMPARE(two->x(), 50.0); } void tst_qquickpositioners::test_horizontal_animated_disabled() { QScopedPointer window(createView(testFile("horizontal-animated-disabled.qml"))); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickItem *row = window->rootObject()->findChild("row"); QVERIFY(row); qApp->processEvents(); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->isVisible(), false); QCOMPARE(two->x(), -100.0);//Not 'in' yet QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 50.0); QCOMPARE(three->y(), 0.0); //Add 'two' two->setVisible(true); QCOMPARE(two->isVisible(), true); QTRY_COMPARE(row->width(), 150.0); QTRY_COMPARE(row->height(), 50.0); QTRY_COMPARE(two->x(), 50.0); QTRY_COMPARE(three->x(), 100.0); } void tst_qquickpositioners::populateTransitions(const QString &positionerObjectName) { QFETCH(bool, dynamicallyPopulate); QFETCH(bool, usePopulateTransition); QPointF targetItems_transitionFrom(-50, -50); QPointF displacedItems_transitionVia(100, 100); QaimModel model; if (!dynamicallyPopulate) { for (int i = 0; i < 30; i++) model.addItem("Original item" + QString::number(i), ""); } QaimModel model_targetItems_transitionFrom; QaimModel model_displacedItems_transitionVia; QScopedPointer window(QQuickViewTestUtil::createView()); QQmlContext *ctxt = window->rootContext(); ctxt->setContextProperty("usePopulateTransition", usePopulateTransition); ctxt->setContextProperty("enableAddTransition", true); ctxt->setContextProperty("dynamicallyPopulate", dynamicallyPopulate); ctxt->setContextProperty("testModel", &model); ctxt->setContextProperty("model_targetItems_transitionFrom", &model_targetItems_transitionFrom); ctxt->setContextProperty("model_displacedItems_transitionVia", &model_displacedItems_transitionVia); ctxt->setContextProperty("targetItems_transitionFrom", targetItems_transitionFrom); ctxt->setContextProperty("displacedItems_transitionVia", displacedItems_transitionVia); ctxt->setContextProperty("testedPositioner", positionerObjectName); window->setSource(testFileUrl("transitions.qml")); QQuickItem *positioner = window->rootObject()->findChild(positionerObjectName); QVERIFY(positioner); window->show(); QTest::qWaitForWindowExposed(window.data()); qApp->processEvents(); if (!dynamicallyPopulate && usePopulateTransition) { QTRY_COMPARE(window->rootObject()->property("populateTransitionsDone").toInt(), model.count()); QTRY_COMPARE(window->rootObject()->property("addTransitionsDone").toInt(), 0); QList > targetData; QList targetIndexes; for (int i=0; i targetItems = findItems(positioner, "wrapper", targetIndexes); model_targetItems_transitionFrom.matchAgainst(targetData, "wasn't animated from target 'from' pos", "shouldn't have been animated from target 'from' pos"); matchItemsAndIndexes(window->rootObject()->property("targetTrans_items").toMap(), model, targetIndexes); matchIndexLists(window->rootObject()->property("targetTrans_targetIndexes").toList(), targetIndexes); matchItemLists(window->rootObject()->property("targetTrans_targetItems").toList(), targetItems); } else if (dynamicallyPopulate) { QTRY_COMPARE(window->rootObject()->property("populateTransitionsDone").toInt(), 0); QTRY_COMPARE(window->rootObject()->property("addTransitionsDone").toInt(), model.count()); } else { QTRY_COMPARE(QQuickItemPrivate::get(positioner)->polishScheduled, false); QTRY_COMPARE(window->rootObject()->property("populateTransitionsDone").toInt(), 0); QTRY_COMPARE(window->rootObject()->property("addTransitionsDone").toInt(), 0); } checkItemPositions(positioner, &model, window->rootObject()->property("incrementalSize").toInt()); // add an item and check this is done with add transition, not populate window->rootObject()->setProperty("populateTransitionsDone", 0); window->rootObject()->setProperty("addTransitionsDone", 0); model.insertItem(0, "new item", ""); QTRY_COMPARE(window->rootObject()->property("addTransitionsDone").toInt(), 1); QTRY_COMPARE(window->rootObject()->property("populateTransitionsDone").toInt(), 0); } void tst_qquickpositioners::populateTransitions_data() { QTest::addColumn("dynamicallyPopulate"); QTest::addColumn("usePopulateTransition"); QTest::newRow("statically populate") << false << true; QTest::newRow("statically populate, no populate transition") << false << false; QTest::newRow("dynamically populate") << true << true; QTest::newRow("dynamically populate, no populate transition") << true << false; } void tst_qquickpositioners::addTransitions(const QString &positionerObjectName) { QFETCH(int, initialItemCount); QFETCH(int, insertionIndex); QFETCH(int, insertionCount); QFETCH(ListRange, expectedDisplacedIndexes); QPointF targetItems_transitionFrom(-50, -50); QPointF displacedItems_transitionVia(100, 100); QaimModel model; QaimModel model_targetItems_transitionFrom; QaimModel model_displacedItems_transitionVia; QScopedPointer window(QQuickViewTestUtil::createView()); QQmlContext *ctxt = window->rootContext(); ctxt->setContextProperty("usePopulateTransition", QVariant(false)); ctxt->setContextProperty("enableAddTransition", QVariant(true)); ctxt->setContextProperty("dynamicallyPopulate", QVariant(false)); ctxt->setContextProperty("testModel", &model); ctxt->setContextProperty("model_targetItems_transitionFrom", &model_targetItems_transitionFrom); ctxt->setContextProperty("model_displacedItems_transitionVia", &model_displacedItems_transitionVia); ctxt->setContextProperty("targetItems_transitionFrom", targetItems_transitionFrom); ctxt->setContextProperty("displacedItems_transitionVia", displacedItems_transitionVia); ctxt->setContextProperty("testedPositioner", QString()); window->setSource(testFileUrl("transitions.qml")); window->show(); QTest::qWaitForWindowExposed(window.data()); qApp->processEvents(); QQuickItem *positioner = window->rootObject()->findChild(positionerObjectName); QVERIFY(positioner); positioner->findChild("repeater")->setProperty("model", QVariant::fromValue(&model)); QTRY_COMPARE(QQuickItemPrivate::get(positioner)->polishScheduled, false); for (int i = 0; i < initialItemCount; i++) model.addItem("Original item" + QString::number(i), ""); QList > expectedDisplacedValues = expectedDisplacedIndexes.getModelDataValues(model); QList > targetData; QList targetIndexes; for (int i=0; i targetItems = findItems(positioner, "wrapper", targetIndexes); // check add transition was run for first lot of added items QTRY_COMPARE(window->rootObject()->property("populateTransitionsDone").toInt(), 0); QTRY_COMPARE(window->rootObject()->property("addTransitionsDone").toInt(), initialItemCount); QTRY_COMPARE(window->rootObject()->property("displaceTransitionsDone").toInt(), 0); model_targetItems_transitionFrom.matchAgainst(targetData, "wasn't animated from target 'from' pos", "shouldn't have been animated from target 'from' pos"); matchItemsAndIndexes(window->rootObject()->property("targetTrans_items").toMap(), model, targetIndexes); matchIndexLists(window->rootObject()->property("targetTrans_targetIndexes").toList(), targetIndexes); matchItemLists(window->rootObject()->property("targetTrans_targetItems").toList(), targetItems); model_targetItems_transitionFrom.clear(); window->rootObject()->setProperty("addTransitionsDone", 0); window->rootObject()->setProperty("targetTrans_items", QVariantMap()); window->rootObject()->setProperty("targetTrans_targetIndexes", QVariantList()); window->rootObject()->setProperty("targetTrans_targetItems", QVariantList()); // do insertion targetData.clear(); targetIndexes.clear(); for (int i=insertionIndex; iproperty("count").toInt()); targetItems = findItems(positioner, "wrapper", targetIndexes); QTRY_COMPARE(window->rootObject()->property("addTransitionsDone").toInt(), targetData.count()); QTRY_COMPARE(window->rootObject()->property("displaceTransitionsDone").toInt(), expectedDisplacedIndexes.count()); // check the target and displaced items were animated model_targetItems_transitionFrom.matchAgainst(targetData, "wasn't animated from target 'from' pos", "shouldn't have been animated from target 'from' pos"); model_displacedItems_transitionVia.matchAgainst(expectedDisplacedValues, "wasn't animated with displaced anim", "shouldn't have been animated with displaced anim"); // check attached properties matchItemsAndIndexes(window->rootObject()->property("targetTrans_items").toMap(), model, targetIndexes); matchIndexLists(window->rootObject()->property("targetTrans_targetIndexes").toList(), targetIndexes); matchItemLists(window->rootObject()->property("targetTrans_targetItems").toList(), targetItems); if (expectedDisplacedIndexes.isValid()) { // adjust expectedDisplacedIndexes to their final values after the move QList displacedIndexes = adjustIndexesForAddDisplaced(expectedDisplacedIndexes.indexes, insertionIndex, insertionCount); matchItemsAndIndexes(window->rootObject()->property("displacedTrans_items").toMap(), model, displacedIndexes); matchIndexLists(window->rootObject()->property("displacedTrans_targetIndexes").toList(), targetIndexes); matchItemLists(window->rootObject()->property("displacedTrans_targetItems").toList(), targetItems); } checkItemPositions(positioner, &model, window->rootObject()->property("incrementalSize").toInt()); } void tst_qquickpositioners::addTransitions_data() { // If this data changes, update addTransitions_grid_data() also QTest::addColumn("initialItemCount"); QTest::addColumn("insertionIndex"); QTest::addColumn("insertionCount"); QTest::addColumn("expectedDisplacedIndexes"); QTest::newRow("add one @ start") << 10 << 0 << 1 << ListRange(0, 9); QTest::newRow("add one @ middle") << 10 << 5 << 1 << ListRange(5, 9); QTest::newRow("add one @ end") << 10 << 10 << 1 << ListRange(); QTest::newRow("add multiple @ start") << 10 << 0 << 3 << ListRange(0, 9); QTest::newRow("add multiple @ middle") << 10 << 5 << 3 << ListRange(5, 9); QTest::newRow("add multiple @ end") << 10 << 10 << 3 << ListRange(); } void tst_qquickpositioners::moveTransitions(const QString &positionerObjectName) { QFETCH(int, initialItemCount); QFETCH(ListChange, change); QFETCH(ListRange, expectedDisplacedIndexes); QPointF targetItems_transitionFrom(-50, -50); QPointF displacedItems_transitionVia(100, 100); QaimModel model; for (int i = 0; i < initialItemCount; i++) model.addItem("Item" + QString::number(i), ""); QaimModel model_targetItems_transitionFrom; QaimModel model_displacedItems_transitionVia; QScopedPointer window(QQuickViewTestUtil::createView()); QQmlContext *ctxt = window->rootContext(); ctxt->setContextProperty("usePopulateTransition", QVariant(false)); ctxt->setContextProperty("enableAddTransition", QVariant(false)); ctxt->setContextProperty("dynamicallyPopulate", QVariant(false)); ctxt->setContextProperty("testModel", &model); ctxt->setContextProperty("model_targetItems_transitionFrom", &model_targetItems_transitionFrom); ctxt->setContextProperty("model_displacedItems_transitionVia", &model_displacedItems_transitionVia); ctxt->setContextProperty("targetItems_transitionFrom", targetItems_transitionFrom); ctxt->setContextProperty("displacedItems_transitionVia", displacedItems_transitionVia); ctxt->setContextProperty("testedPositioner", QString()); window->setSource(testFileUrl("transitions.qml")); window->show(); QTest::qWaitForWindowExposed(window.data()); qApp->processEvents(); QList > expectedDisplacedValues = expectedDisplacedIndexes.getModelDataValues(model); QQuickItem *positioner = window->rootObject()->findChild(positionerObjectName); QVERIFY(positioner); positioner->findChild("repeater")->setProperty("model", QVariant::fromValue(&model)); QTRY_COMPARE(QQuickItemPrivate::get(positioner)->polishScheduled, false); switch (change.type) { case ListChange::Removed: model.removeItems(change.index, change.count); QTRY_COMPARE(model.count(), positioner->property("count").toInt()); break; case ListChange::Moved: model.moveItems(change.index, change.to, change.count); QTRY_COMPARE(QQuickItemPrivate::get(positioner)->polishScheduled, false); break; case ListChange::Inserted: case ListChange::SetCurrent: case ListChange::SetContentY: QVERIFY(false); break; case ListChange::Polish: break; } QTRY_COMPARE(window->rootObject()->property("displaceTransitionsDone").toInt(), expectedDisplacedIndexes.count()); QCOMPARE(window->rootObject()->property("addTransitionsDone").toInt(), 0); // check the target and displaced items were animated QCOMPARE(model_targetItems_transitionFrom.count(), 0); model_displacedItems_transitionVia.matchAgainst(expectedDisplacedValues, "wasn't animated with displaced anim", "shouldn't have been animated with displaced anim"); // check attached properties QCOMPARE(window->rootObject()->property("targetTrans_items").toMap().count(), 0); QCOMPARE(window->rootObject()->property("targetTrans_targetIndexes").toList().count(), 0); QCOMPARE(window->rootObject()->property("targetTrans_targetItems").toList().count(), 0); if (expectedDisplacedIndexes.isValid()) { // adjust expectedDisplacedIndexes to their final values after the move QList displacedIndexes; if (change.type == ListChange::Inserted) displacedIndexes = adjustIndexesForAddDisplaced(expectedDisplacedIndexes.indexes, change.index, change.count); else if (change.type == ListChange::Moved) displacedIndexes = adjustIndexesForMove(expectedDisplacedIndexes.indexes, change.index, change.to, change.count); else if (change.type == ListChange::Removed) displacedIndexes = adjustIndexesForRemoveDisplaced(expectedDisplacedIndexes.indexes, change.index, change.count); else QVERIFY(false); matchItemsAndIndexes(window->rootObject()->property("displacedTrans_items").toMap(), model, displacedIndexes); QVariantList listOfEmptyIntLists; for (int i=0; i()); QCOMPARE(window->rootObject()->property("displacedTrans_targetIndexes").toList(), listOfEmptyIntLists); QVariantList listOfEmptyObjectLists; for (int i=0; irootObject()->property("displacedTrans_targetItems").toList(), listOfEmptyObjectLists); } checkItemPositions(positioner, &model, window->rootObject()->property("incrementalSize").toInt()); } void tst_qquickpositioners::moveTransitions_data() { // If this data changes, update moveTransitions_grid_data() also QTest::addColumn("initialItemCount"); QTest::addColumn("change"); QTest::addColumn("expectedDisplacedIndexes"); QTest::newRow("remove one @ start") << 10 << ListChange::remove(0, 1) << ListRange(1, 9); QTest::newRow("remove one @ middle") << 10 << ListChange::remove(4, 1) << ListRange(5, 9); QTest::newRow("remove one @ end") << 10 << ListChange::remove(9, 1) << ListRange(); QTest::newRow("remove multiple @ start") << 10 << ListChange::remove(0, 3) << ListRange(3, 9); QTest::newRow("remove multiple @ middle") << 10 << ListChange::remove(4, 3) << ListRange(7, 9); QTest::newRow("remove multiple @ end") << 10 << ListChange::remove(7, 3) << ListRange(); } void tst_qquickpositioners::checkItemPositions(QQuickItem *positioner, QaimModel *model, qreal incrementalSize) { QVERIFY(model->count() > 0); qreal padding = 0; qreal currentSize = 30; qreal rowX = 0; qreal rowY = 0; for (int i=0; icount(); ++i) { QQuickItem *item = findItem(positioner, "wrapper", i); QVERIFY2(item, QTest::toString(QString("Item %1 not found").arg(i))); QCOMPARE(item->width(), currentSize); QCOMPARE(item->height(), currentSize); if (qobject_cast(positioner)) { QCOMPARE(item->x(), (i * 30.0) + padding); QCOMPARE(item->y(), 0.0); } else if (qobject_cast(positioner)) { QCOMPARE(item->x(), 0.0); QCOMPARE(item->y(), (i * 30.0) + padding); } else if (qobject_cast(positioner)) { int columns = 4; int rows = qCeil(model->count() / qreal(columns)); int lastMatchingRowIndex = (rows * columns) - (columns - i%columns); if (lastMatchingRowIndex >= model->count()) lastMatchingRowIndex -= columns; if (i % columns > 0) { QQuickItem *finalAlignedRowItem = findItem(positioner, "wrapper", lastMatchingRowIndex); QVERIFY(finalAlignedRowItem); QCOMPARE(item->x(), finalAlignedRowItem->x()); } else { QCOMPARE(item->x(), 0.0); } if (i / columns > 0) { QQuickItem *prevRowLastItem = findItem(positioner, "wrapper", (i/columns * columns) - 1); QVERIFY(prevRowLastItem); QCOMPARE(item->y(), prevRowLastItem->y() + prevRowLastItem->height()); } else { QCOMPARE(item->y(), 0.0); } } else if (qobject_cast(positioner)) { if (rowX + item->width() > positioner->width()) { QQuickItem *prevItem = findItem(positioner, "wrapper", i-1); QVERIFY(prevItem); rowX = 0; rowY = prevItem->y() + prevItem->height(); } QCOMPARE(item->x(), rowX); QCOMPARE(item->y(), rowY); rowX += item->width(); } else { QVERIFY2(false, "Unknown positioner type"); } QQuickText *name = findItem(positioner, "name", i); QVERIFY(name != 0); QTRY_COMPARE(name->text(), model->name(i)); padding += i * incrementalSize; currentSize += incrementalSize; } } void tst_qquickpositioners::test_vertical() { QScopedPointer window(createView(testFile("vertical.qml"))); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 0.0); QCOMPARE(two->y(), 50.0); QCOMPARE(three->x(), 0.0); QCOMPARE(three->y(), 60.0); QQuickItem *column = window->rootObject()->findChild("column"); QVERIFY(column); QCOMPARE(column->height(), 80.0); QCOMPARE(column->width(), 50.0); } void tst_qquickpositioners::test_vertical_spacing() { QScopedPointer window(createView(testFile("vertical-spacing.qml"))); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 0.0); QCOMPARE(two->y(), 60.0); QCOMPARE(three->x(), 0.0); QCOMPARE(three->y(), 80.0); QQuickItem *column = window->rootObject()->findChild("column"); QCOMPARE(column->height(), 100.0); QCOMPARE(column->width(), 50.0); } void tst_qquickpositioners::test_vertical_animated() { QScopedPointer window(createView(testFile("vertical-animated.qml"), false)); //Note that they animate in QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QCOMPARE(one->y(), -100.0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QCOMPARE(two->y(), -100.0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QCOMPARE(three->y(), -100.0); QVERIFY(QTest::qWaitForWindowExposed(window.data())); //It may not relayout until the next frame, so it needs to be drawn QQuickItem *column = window->rootObject()->findChild("column"); QVERIFY(column); QCOMPARE(column->height(), 100.0); QCOMPARE(column->width(), 50.0); //QTRY_COMPARE used instead of waiting for the expected time of animation completion //Note that this means the duration of the animation is NOT tested QTRY_COMPARE(one->y(), 0.0); QTRY_COMPARE(one->x(), 0.0); QTRY_COMPARE(two->isVisible(), false); QTRY_COMPARE(two->y(), -100.0);//Not 'in' yet QTRY_COMPARE(two->x(), 0.0); QTRY_COMPARE(three->y(), 50.0); QTRY_COMPARE(three->x(), 0.0); //Add 'two' two->setVisible(true); QTRY_COMPARE(two->isVisible(), true); QTRY_COMPARE(column->height(), 150.0); QTRY_COMPARE(column->width(), 50.0); QTest::qWait(0);//Let the animation start QVERIFY(two->y() >= -100.0 && two->y() < 50.0); QVERIFY(three->y() >= 50.0 && three->y() < 100.0); QTRY_COMPARE(two->y(), 50.0); QTRY_COMPARE(three->y(), 100.0); } void tst_qquickpositioners::test_grid() { QScopedPointer window(createView(testFile("gridtest.qml"))); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 50.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 70.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 0.0); QCOMPARE(four->y(), 50.0); QCOMPARE(five->x(), 50.0); QCOMPARE(five->y(), 50.0); QQuickGrid *grid = window->rootObject()->findChild("grid"); QCOMPARE(grid->flow(), QQuickGrid::LeftToRight); QCOMPARE(grid->width(), 100.0); QCOMPARE(grid->height(), 100.0); } void tst_qquickpositioners::test_grid_topToBottom() { QScopedPointer window(createView(testFile("grid-toptobottom.qml"))); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 0.0); QCOMPARE(two->y(), 50.0); QCOMPARE(three->x(), 0.0); QCOMPARE(three->y(), 100.0); QCOMPARE(four->x(), 50.0); QCOMPARE(four->y(), 0.0); QCOMPARE(five->x(), 50.0); QCOMPARE(five->y(), 50.0); QQuickGrid *grid = window->rootObject()->findChild("grid"); QCOMPARE(grid->flow(), QQuickGrid::TopToBottom); QCOMPARE(grid->width(), 100.0); QCOMPARE(grid->height(), 120.0); } void tst_qquickpositioners::test_grid_rightToLeft() { QScopedPointer window(createView(testFile("gridtest.qml"))); window->rootObject()->setProperty("testRightToLeft", true); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 50.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 30.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 0.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 50.0); QCOMPARE(four->y(), 50.0); QCOMPARE(five->x(), 40.0); QCOMPARE(five->y(), 50.0); QQuickGrid *grid = window->rootObject()->findChild("grid"); QCOMPARE(grid->layoutDirection(), Qt::RightToLeft); QCOMPARE(grid->width(), 100.0); QCOMPARE(grid->height(), 100.0); // Change the width of the grid and check that items stay to the right grid->setWidth(200); QTRY_COMPARE(one->x(), 150.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 130.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 100.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 150.0); QCOMPARE(four->y(), 50.0); QCOMPARE(five->x(), 140.0); QCOMPARE(five->y(), 50.0); } void tst_qquickpositioners::test_grid_spacing() { QScopedPointer window(createView(testFile("grid-spacing.qml"))); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 54.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 78.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 0.0); QCOMPARE(four->y(), 54.0); QCOMPARE(five->x(), 54.0); QCOMPARE(five->y(), 54.0); QQuickItem *grid = window->rootObject()->findChild("grid"); QCOMPARE(grid->width(), 128.0); QCOMPARE(grid->height(), 104.0); } void tst_qquickpositioners::test_grid_row_column_spacing() { QScopedPointer window(createView(testFile("grid-row-column-spacing.qml"))); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 61.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 92.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 0.0); QCOMPARE(four->y(), 57.0); QCOMPARE(five->x(), 61.0); QCOMPARE(five->y(), 57.0); QQuickItem *grid = window->rootObject()->findChild("grid"); QCOMPARE(grid->width(), 142.0); QCOMPARE(grid->height(), 107.0); } void tst_qquickpositioners::test_grid_animated() { QScopedPointer window(createView(testFile("grid-animated.qml"), false)); window->rootObject()->setProperty("testRightToLeft", false); //Note that all animate in QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QCOMPARE(one->x(), -100.0); QCOMPARE(one->y(), -100.0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QCOMPARE(two->x(), -100.0); QCOMPARE(two->y(), -100.0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QCOMPARE(three->x(), -100.0); QCOMPARE(three->y(), -100.0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QCOMPARE(four->x(), -100.0); QCOMPARE(four->y(), -100.0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(five->x(), -100.0); QCOMPARE(five->y(), -100.0); QVERIFY(QTest::qWaitForWindowExposed(window.data())); //It may not relayout until the next frame, so it needs to be drawn QQuickItem *grid = window->rootObject()->findChild("grid"); QVERIFY(grid); QCOMPARE(grid->width(), 150.0); QCOMPARE(grid->height(), 100.0); //QTRY_COMPARE used instead of waiting for the expected time of animation completion //Note that this means the duration of the animation is NOT tested QTRY_COMPARE(one->y(), 0.0); QTRY_COMPARE(one->x(), 0.0); QTRY_COMPARE(two->isVisible(), false); QTRY_COMPARE(two->y(), -100.0); QTRY_COMPARE(two->x(), -100.0); QTRY_COMPARE(three->y(), 0.0); QTRY_COMPARE(three->x(), 50.0); QTRY_COMPARE(four->y(), 0.0); QTRY_COMPARE(four->x(), 100.0); QTRY_COMPARE(five->y(), 50.0); QTRY_COMPARE(five->x(), 0.0); //Add 'two' two->setVisible(true); QCOMPARE(two->isVisible(), true); QCOMPARE(grid->width(), 150.0); QCOMPARE(grid->height(), 100.0); QTest::qWait(0);//Let the animation start QCOMPARE(two->x(), -100.0); QCOMPARE(two->y(), -100.0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(three->x(), 50.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 100.0); QCOMPARE(four->y(), 0.0); QCOMPARE(five->x(), 0.0); QCOMPARE(five->y(), 50.0); //Let the animation complete QTRY_COMPARE(two->x(), 50.0); QTRY_COMPARE(two->y(), 0.0); QTRY_COMPARE(one->x(), 0.0); QTRY_COMPARE(one->y(), 0.0); QTRY_COMPARE(three->x(), 100.0); QTRY_COMPARE(three->y(), 0.0); QTRY_COMPARE(four->x(), 0.0); QTRY_COMPARE(four->y(), 50.0); QTRY_COMPARE(five->x(), 50.0); QTRY_COMPARE(five->y(), 50.0); } void tst_qquickpositioners::test_grid_animated_rightToLeft() { QScopedPointer window(createView(testFile("grid-animated.qml"), false)); window->rootObject()->setProperty("testRightToLeft", true); //Note that all animate in QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QCOMPARE(one->x(), -100.0); QCOMPARE(one->y(), -100.0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QCOMPARE(two->x(), -100.0); QCOMPARE(two->y(), -100.0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QCOMPARE(three->x(), -100.0); QCOMPARE(three->y(), -100.0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QCOMPARE(four->x(), -100.0); QCOMPARE(four->y(), -100.0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(five->x(), -100.0); QCOMPARE(five->y(), -100.0); QVERIFY(QTest::qWaitForWindowExposed(window.data())); //It may not relayout until the next frame, so it needs to be drawn QQuickItem *grid = window->rootObject()->findChild("grid"); QVERIFY(grid); QCOMPARE(grid->width(), 150.0); QCOMPARE(grid->height(), 100.0); //QTRY_COMPARE used instead of waiting for the expected time of animation completion //Note that this means the duration of the animation is NOT tested QTRY_COMPARE(one->y(), 0.0); QTRY_COMPARE(one->x(), 100.0); QTRY_COMPARE(two->isVisible(), false); QTRY_COMPARE(two->y(), -100.0); QTRY_COMPARE(two->x(), -100.0); QTRY_COMPARE(three->y(), 0.0); QTRY_COMPARE(three->x(), 50.0); QTRY_COMPARE(four->y(), 0.0); QTRY_COMPARE(four->x(), 0.0); QTRY_COMPARE(five->y(), 50.0); QTRY_COMPARE(five->x(), 100.0); //Add 'two' two->setVisible(true); QCOMPARE(two->isVisible(), true); QCOMPARE(grid->width(), 150.0); QCOMPARE(grid->height(), 100.0); QTest::qWait(0);//Let the animation start QCOMPARE(two->x(), -100.0); QCOMPARE(two->y(), -100.0); QCOMPARE(one->x(), 100.0); QCOMPARE(one->y(), 0.0); QCOMPARE(three->x(), 50.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 0.0); QCOMPARE(four->y(), 0.0); QCOMPARE(five->x(), 100.0); QCOMPARE(five->y(), 50.0); //Let the animation complete QTRY_COMPARE(two->x(), 50.0); QTRY_COMPARE(two->y(), 0.0); QTRY_COMPARE(one->x(), 100.0); QTRY_COMPARE(one->y(), 0.0); QTRY_COMPARE(three->x(), 0.0); QTRY_COMPARE(three->y(), 0.0); QTRY_COMPARE(four->x(), 100.0); QTRY_COMPARE(four->y(), 50.0); QTRY_COMPARE(five->x(), 50.0); QTRY_COMPARE(five->y(), 50.0); } void tst_qquickpositioners::test_grid_zero_columns() { QScopedPointer window(createView(testFile("gridzerocolumns.qml"))); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 50.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 70.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 120.0); QCOMPARE(four->y(), 0.0); QCOMPARE(five->x(), 0.0); QCOMPARE(five->y(), 50.0); QQuickItem *grid = window->rootObject()->findChild("grid"); QCOMPARE(grid->width(), 170.0); QCOMPARE(grid->height(), 60.0); } void tst_qquickpositioners::test_grid_H_alignment() { QScopedPointer window(createView(testFile("gridtest.qml"))); window->rootObject()->setProperty("testHAlignment", QQuickGrid::AlignHCenter); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 50.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 70.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 0.0); QCOMPARE(four->y(), 50.0); QCOMPARE(five->x(), 55.0); QCOMPARE(five->y(), 50.0); QQuickItem *grid = window->rootObject()->findChild("grid"); QCOMPARE(grid->width(), 100.0); QCOMPARE(grid->height(), 100.0); window->rootObject()->setProperty("testHAlignment", QQuickGrid::AlignRight); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 50.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 70.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 0.0); QCOMPARE(four->y(), 50.0); QCOMPARE(five->x(), 60.0); QCOMPARE(five->y(), 50.0); QCOMPARE(grid->width(), 100.0); QCOMPARE(grid->height(), 100.0); window->rootObject()->setProperty("testRightToLeft", true); QCOMPARE(one->x(), 50.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 30.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 0.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 50.0); QCOMPARE(four->y(), 50.0); QCOMPARE(five->x(), 30.0); QCOMPARE(five->y(), 50.0); QCOMPARE(grid->width(), 100.0); QCOMPARE(grid->height(), 100.0); window->rootObject()->setProperty("testHAlignment", QQuickGrid::AlignHCenter); QCOMPARE(one->x(), 50.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 30.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 0.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 50.0); QCOMPARE(four->y(), 50.0); QCOMPARE(five->x(), 35.0); QCOMPARE(five->y(), 50.0); QCOMPARE(grid->width(), 100.0); QCOMPARE(grid->height(), 100.0); } void tst_qquickpositioners::test_grid_V_alignment() { QScopedPointer window(createView(testFile("gridtest.qml"))); window->rootObject()->setProperty("testVAlignment", QQuickGrid::AlignVCenter); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 50.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 70.0); QCOMPARE(three->y(), 15.0); QCOMPARE(four->x(), 0.0); QCOMPARE(four->y(), 50.0); QCOMPARE(five->x(), 50.0); QCOMPARE(five->y(), 70.0); window->rootObject()->setProperty("testVAlignment", QQuickGrid::AlignBottom); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 50.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 70.0); QCOMPARE(three->y(), 30.0); QCOMPARE(four->x(), 0.0); QCOMPARE(four->y(), 50.0); QCOMPARE(five->x(), 50.0); QCOMPARE(five->y(), 90.0); } void tst_qquickpositioners::test_propertychanges() { QScopedPointer window(createView(testFile("propertychangestest.qml"))); QQuickGrid *grid = qobject_cast(window->rootObject()); QVERIFY(grid != 0); QQuickTransition *rowTransition = window->rootObject()->findChild("rowTransition"); QQuickTransition *columnTransition = window->rootObject()->findChild("columnTransition"); QSignalSpy addSpy(grid, SIGNAL(addChanged())); QSignalSpy moveSpy(grid, SIGNAL(moveChanged())); QSignalSpy columnsSpy(grid, SIGNAL(columnsChanged())); QSignalSpy rowsSpy(grid, SIGNAL(rowsChanged())); QVERIFY(grid); QVERIFY(rowTransition); QVERIFY(columnTransition); QCOMPARE(grid->add(), columnTransition); QCOMPARE(grid->move(), columnTransition); QCOMPARE(grid->columns(), 4); QCOMPARE(grid->rows(), -1); grid->setAdd(rowTransition); grid->setMove(rowTransition); QCOMPARE(grid->add(), rowTransition); QCOMPARE(grid->move(), rowTransition); QCOMPARE(addSpy.count(),1); QCOMPARE(moveSpy.count(),1); grid->setAdd(rowTransition); grid->setMove(rowTransition); QCOMPARE(addSpy.count(),1); QCOMPARE(moveSpy.count(),1); grid->setAdd(0); grid->setMove(0); QCOMPARE(addSpy.count(),2); QCOMPARE(moveSpy.count(),2); grid->setColumns(-1); grid->setRows(3); QCOMPARE(grid->columns(), -1); QCOMPARE(grid->rows(), 3); QCOMPARE(columnsSpy.count(),1); QCOMPARE(rowsSpy.count(),1); grid->setColumns(-1); grid->setRows(3); QCOMPARE(columnsSpy.count(),1); QCOMPARE(rowsSpy.count(),1); grid->setColumns(2); grid->setRows(2); QCOMPARE(columnsSpy.count(),2); QCOMPARE(rowsSpy.count(),2); } void tst_qquickpositioners::test_repeater() { QScopedPointer window(createView(testFile("repeatertest.qml"))); QQuickRectangle *one = findItem(window->contentItem(), "one"); QVERIFY(one != 0); QQuickRectangle *two = findItem(window->contentItem(), "two"); QVERIFY(two != 0); QQuickRectangle *three = findItem(window->contentItem(), "three"); QVERIFY(three != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 50.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 100.0); QCOMPARE(three->y(), 0.0); } void tst_qquickpositioners::test_flow() { QScopedPointer window(createView(testFile("flowtest.qml"))); window->rootObject()->setProperty("testRightToLeft", false); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 50.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 0.0); QCOMPARE(three->y(), 50.0); QCOMPARE(four->x(), 0.0); QCOMPARE(four->y(), 70.0); QCOMPARE(five->x(), 50.0); QCOMPARE(five->y(), 70.0); QQuickItem *flow = window->rootObject()->findChild("flow"); QVERIFY(flow); QCOMPARE(flow->width(), 90.0); QCOMPARE(flow->height(), 120.0); } void tst_qquickpositioners::test_flow_rightToLeft() { QScopedPointer window(createView(testFile("flowtest.qml"))); window->rootObject()->setProperty("testRightToLeft", true); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 40.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 20.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 40.0); QCOMPARE(three->y(), 50.0); QCOMPARE(four->x(), 40.0); QCOMPARE(four->y(), 70.0); QCOMPARE(five->x(), 30.0); QCOMPARE(five->y(), 70.0); QQuickItem *flow = window->rootObject()->findChild("flow"); QVERIFY(flow); QCOMPARE(flow->width(), 90.0); QCOMPARE(flow->height(), 120.0); } void tst_qquickpositioners::test_flow_topToBottom() { QScopedPointer window(createView(testFile("flowtest-toptobottom.qml"))); window->rootObject()->setProperty("testRightToLeft", false); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 0.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 50.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 50.0); QCOMPARE(three->y(), 50.0); QCOMPARE(four->x(), 100.0); QCOMPARE(four->y(), 00.0); QCOMPARE(five->x(), 100.0); QCOMPARE(five->y(), 50.0); QQuickItem *flow = window->rootObject()->findChild("flow"); QVERIFY(flow); QCOMPARE(flow->height(), 90.0); QCOMPARE(flow->width(), 150.0); window->rootObject()->setProperty("testRightToLeft", true); QVERIFY(flow); QCOMPARE(flow->height(), 90.0); QCOMPARE(flow->width(), 150.0); QCOMPARE(one->x(), 100.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 80.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 50.0); QCOMPARE(three->y(), 50.0); QCOMPARE(four->x(), 0.0); QCOMPARE(four->y(), 0.0); QCOMPARE(five->x(), 40.0); QCOMPARE(five->y(), 50.0); } void tst_qquickpositioners::test_flow_resize() { QScopedPointer window(createView(testFile("flowtest.qml"))); QQuickItem *root = qobject_cast(window->rootObject()); QVERIFY(root); root->setWidth(125); root->setProperty("testRightToLeft", false); QQuickRectangle *one = window->rootObject()->findChild("one"); QVERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QTRY_COMPARE(one->x(), 0.0); QTRY_COMPARE(one->y(), 0.0); QTRY_COMPARE(two->x(), 50.0); QTRY_COMPARE(two->y(), 0.0); QTRY_COMPARE(three->x(), 70.0); QTRY_COMPARE(three->y(), 0.0); QTRY_COMPARE(four->x(), 0.0); QTRY_COMPARE(four->y(), 50.0); QTRY_COMPARE(five->x(), 50.0); QTRY_COMPARE(five->y(), 50.0); } void tst_qquickpositioners::test_flow_resize_rightToLeft() { QScopedPointer window(createView(testFile("flowtest.qml"))); QQuickItem *root = qobject_cast(window->rootObject()); QVERIFY(root); root->setWidth(125); root->setProperty("testRightToLeft", true); QQuickRectangle *one = window->rootObject()->findChild("one"); QTRY_VERIFY(one != 0); QQuickRectangle *two = window->rootObject()->findChild("two"); QVERIFY(two != 0); QQuickRectangle *three = window->rootObject()->findChild("three"); QVERIFY(three != 0); QQuickRectangle *four = window->rootObject()->findChild("four"); QVERIFY(four != 0); QQuickRectangle *five = window->rootObject()->findChild("five"); QVERIFY(five != 0); QCOMPARE(one->x(), 75.0); QCOMPARE(one->y(), 0.0); QCOMPARE(two->x(), 55.0); QCOMPARE(two->y(), 0.0); QCOMPARE(three->x(), 5.0); QCOMPARE(three->y(), 0.0); QCOMPARE(four->x(), 75.0); QCOMPARE(four->y(), 50.0); QCOMPARE(five->x(), 65.0); QCOMPARE(five->y(), 50.0); } void tst_qquickpositioners::test_flow_implicit_resize() { QScopedPointer window(createView(testFile("flow-testimplicitsize.qml"))); QVERIFY(window->rootObject() != 0); QQuickFlow *flow = window->rootObject()->findChild("flow"); QVERIFY(flow != 0); QCOMPARE(flow->width(), 100.0); QCOMPARE(flow->height(), 120.0); window->rootObject()->setProperty("flowLayout", 0); QCOMPARE(flow->flow(), QQuickFlow::LeftToRight); QCOMPARE(flow->width(), 220.0); QCOMPARE(flow->height(), 50.0); window->rootObject()->setProperty("flowLayout", 1); QCOMPARE(flow->flow(), QQuickFlow::TopToBottom); QCOMPARE(flow->width(), 100.0); QCOMPARE(flow->height(), 120.0); window->rootObject()->setProperty("flowLayout", 2); QCOMPARE(flow->layoutDirection(), Qt::RightToLeft); QCOMPARE(flow->width(), 220.0); QCOMPARE(flow->height(), 50.0); } void tst_qquickpositioners::test_conflictinganchors() { QQmlTestMessageHandler messageHandler; QQmlEngine engine; QQmlComponent component(&engine); component.setData("import QtQuick 2.0\nColumn { Item { width: 100; height: 100; } }", QUrl::fromLocalFile("")); QQuickItem *item = qobject_cast(component.create()); QVERIFY(item); QVERIFY2(messageHandler.messages().isEmpty(), qPrintable(messageHandler.messageString())); delete item; component.setData("import QtQuick 2.0\nRow { Item { width: 100; height: 100; } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QVERIFY2(messageHandler.messages().isEmpty(), qPrintable(messageHandler.messageString())); delete item; component.setData("import QtQuick 2.0\nGrid { Item { width: 100; height: 100; } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QVERIFY2(messageHandler.messages().isEmpty(), qPrintable(messageHandler.messageString())); delete item; component.setData("import QtQuick 2.0\nFlow { Item { width: 100; height: 100; } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QVERIFY2(messageHandler.messages().isEmpty(), qPrintable(messageHandler.messageString())); delete item; component.setData("import QtQuick 2.0\nColumn { Item { width: 100; height: 100; anchors.top: parent.top } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QCOMPARE(messageHandler.messages().size(), 1); QCOMPARE(messageHandler.messages().back(), QString("file::2:1: QML Column: Cannot specify top, bottom, verticalCenter, fill or centerIn anchors for items inside Column. Column will not function.")); messageHandler.clear(); delete item; component.setData("import QtQuick 2.0\nColumn { Item { width: 100; height: 100; anchors.centerIn: parent } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QCOMPARE(messageHandler.messages().size(), 1); QCOMPARE(messageHandler.messages().back(), QString("file::2:1: QML Column: Cannot specify top, bottom, verticalCenter, fill or centerIn anchors for items inside Column. Column will not function.")); messageHandler.clear(); delete item; component.setData("import QtQuick 2.0\nColumn { Item { width: 100; height: 100; anchors.left: parent.left } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QVERIFY2(messageHandler.messages().isEmpty(), qPrintable(messageHandler.messageString())); delete item; component.setData("import QtQuick 2.0\nRow { Item { width: 100; height: 100; anchors.left: parent.left } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QCOMPARE(messageHandler.messages().size(), 1); QCOMPARE(messageHandler.messages().back(), QString("file::2:1: QML Row: Cannot specify left, right, horizontalCenter, fill or centerIn anchors for items inside Row. Row will not function.")); messageHandler.clear(); delete item; component.setData("import QtQuick 2.0\nRow { width: 100; height: 100; Item { anchors.fill: parent } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QCOMPARE(messageHandler.messages().size(), 1); QCOMPARE(messageHandler.messages().back(), QString("file::2:1: QML Row: Cannot specify left, right, horizontalCenter, fill or centerIn anchors for items inside Row. Row will not function.")); messageHandler.clear(); delete item; component.setData("import QtQuick 2.0\nRow { Item { width: 100; height: 100; anchors.top: parent.top } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QVERIFY2(messageHandler.messages().isEmpty(), qPrintable(messageHandler.messageString())); delete item; component.setData("import QtQuick 2.0\nGrid { Item { width: 100; height: 100; anchors.horizontalCenter: parent.horizontalCenter } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QCOMPARE(messageHandler.messages().size(), 1); QCOMPARE(messageHandler.messages().back(), QString("file::2:1: QML Grid: Cannot specify anchors for items inside Grid. Grid will not function.")); messageHandler.clear(); delete item; component.setData("import QtQuick 2.0\nGrid { Item { width: 100; height: 100; anchors.centerIn: parent } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QCOMPARE(messageHandler.messages().size(), 1); QCOMPARE(messageHandler.messages().back(), QString("file::2:1: QML Grid: Cannot specify anchors for items inside Grid. Grid will not function.")); messageHandler.clear(); delete item; component.setData("import QtQuick 2.0\nFlow { Item { width: 100; height: 100; anchors.verticalCenter: parent.verticalCenter } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QCOMPARE(messageHandler.messages().size(), 1); QCOMPARE(messageHandler.messages().back(), QString("file::2:1: QML Flow: Cannot specify anchors for items inside Flow. Flow will not function.")); messageHandler.clear(); delete item; component.setData("import QtQuick 2.0\nFlow { width: 100; height: 100; Item { anchors.fill: parent } }", QUrl::fromLocalFile("")); item = qobject_cast(component.create()); QVERIFY(item); QCOMPARE(messageHandler.messages().size(), 1); QCOMPARE(messageHandler.messages().back(), QString("file::2:1: QML Flow: Cannot specify anchors for items inside Flow. Flow will not function.")); delete item; } void tst_qquickpositioners::test_mirroring() { QList qmlFiles; qmlFiles << "horizontal.qml" << "gridtest.qml" << "flowtest.qml"; QList objectNames; objectNames << "one" << "two" << "three" << "four" << "five"; foreach (const QString qmlFile, qmlFiles) { QScopedPointer windowA(createView(testFile(qmlFile))); QQuickItem *rootA = qobject_cast(windowA->rootObject()); QScopedPointer windowB(createView(testFile(qmlFile))); QQuickItem *rootB = qobject_cast(windowB->rootObject()); rootA->setProperty("testRightToLeft", true); // layoutDirection: Qt.RightToLeft // LTR != RTL foreach (const QString objectName, objectNames) { // horizontal.qml only has three items if (qmlFile == QString("horizontal.qml") && objectName == QString("four")) break; QQuickItem *itemA = rootA->findChild(objectName); QQuickItem *itemB = rootB->findChild(objectName); QTRY_VERIFY(itemA->x() != itemB->x()); } QQmlProperty enabledProp(rootB, "LayoutMirroring.enabled", qmlContext(rootB)); enabledProp.write(true); QQmlProperty inheritProp(rootB, "LayoutMirroring.childrenInherit", qmlContext(rootB)); inheritProp.write(true); // RTL == mirror foreach (const QString objectName, objectNames) { // horizontal.qml only has three items if (qmlFile == QString("horizontal.qml") && objectName == QString("four")) break; QQuickItem *itemA = rootA->findChild(objectName); QQuickItem *itemB = rootB->findChild(objectName); QTRY_COMPARE(itemA->x(), itemB->x()); } rootA->setProperty("testRightToLeft", false); // layoutDirection: Qt.LeftToRight rootB->setProperty("testRightToLeft", true); // layoutDirection: Qt.RightToLeft // LTR == RTL + mirror foreach (const QString objectName, objectNames) { // horizontal.qml only has three items if (qmlFile == QString("horizontal.qml") && objectName == QString("four")) break; QQuickItem *itemA = rootA->findChild(objectName); QQuickItem *itemB = rootB->findChild(objectName); QTRY_COMPARE(itemA->x(), itemB->x()); } } } void tst_qquickpositioners::test_allInvisible() { //QTBUG-19361 QScopedPointer window(createView(testFile("allInvisible.qml"))); QQuickItem *root = qobject_cast(window->rootObject()); QVERIFY(root); QQuickRow *row = window->rootObject()->findChild("row"); QVERIFY(row != 0); QVERIFY(row->width() == 0); QVERIFY(row->height() == 0); QQuickColumn *column = window->rootObject()->findChild("column"); QVERIFY(column != 0); QVERIFY(column->width() == 0); QVERIFY(column->height() == 0); } void tst_qquickpositioners::test_attachedproperties() { QFETCH(QString, filename); QScopedPointer window(createView(filename)); QVERIFY(window->rootObject() != 0); QQuickRectangle *greenRect = window->rootObject()->findChild("greenRect"); QVERIFY(greenRect != 0); int posIndex = greenRect->property("posIndex").toInt(); QVERIFY(posIndex == 0); bool isFirst = greenRect->property("isFirstItem").toBool(); QVERIFY(isFirst == true); bool isLast = greenRect->property("isLastItem").toBool(); QVERIFY(isLast == false); QQuickRectangle *yellowRect = window->rootObject()->findChild("yellowRect"); QVERIFY(yellowRect != 0); posIndex = yellowRect->property("posIndex").toInt(); QVERIFY(posIndex == -1); isFirst = yellowRect->property("isFirstItem").toBool(); QVERIFY(isFirst == false); isLast = yellowRect->property("isLastItem").toBool(); QVERIFY(isLast == false); yellowRect->metaObject()->invokeMethod(yellowRect, "onDemandPositioner"); posIndex = yellowRect->property("posIndex").toInt(); QVERIFY(posIndex == 1); isFirst = yellowRect->property("isFirstItem").toBool(); QVERIFY(isFirst == false); isLast = yellowRect->property("isLastItem").toBool(); QVERIFY(isLast == true); } void tst_qquickpositioners::test_attachedproperties_data() { QTest::addColumn("filename"); QTest::newRow("column") << testFile("attachedproperties-column.qml"); QTest::newRow("row") << testFile("attachedproperties-row.qml"); QTest::newRow("grid") << testFile("attachedproperties-grid.qml"); QTest::newRow("flow") << testFile("attachedproperties-flow.qml"); } void tst_qquickpositioners::test_attachedproperties_dynamic() { QScopedPointer window(createView(testFile("attachedproperties-dynamic.qml"))); QVERIFY(window->rootObject() != 0); QQuickRow *row = window->rootObject()->findChild("pos"); QVERIFY(row != 0); QQuickRectangle *rect0 = window->rootObject()->findChild("rect0"); QVERIFY(rect0 != 0); int posIndex = rect0->property("index").toInt(); QVERIFY(posIndex == 0); bool isFirst = rect0->property("firstItem").toBool(); QVERIFY(isFirst == true); bool isLast = rect0->property("lastItem").toBool(); QVERIFY(isLast == false); QQuickRectangle *rect1 = window->rootObject()->findChild("rect1"); QVERIFY(rect1 != 0); posIndex = rect1->property("index").toInt(); QVERIFY(posIndex == 1); isFirst = rect1->property("firstItem").toBool(); QVERIFY(isFirst == false); isLast = rect1->property("lastItem").toBool(); QVERIFY(isLast == true); row->metaObject()->invokeMethod(row, "createSubRect"); QTRY_VERIFY(rect1->property("index").toInt() == 1); QTRY_VERIFY(rect1->property("firstItem").toBool() == false); QTRY_VERIFY(rect1->property("lastItem").toBool() == false); QQuickRectangle *rect2 = window->rootObject()->findChild("rect2"); QVERIFY(rect2 != 0); posIndex = rect2->property("index").toInt(); QVERIFY(posIndex == 2); isFirst = rect2->property("firstItem").toBool(); QVERIFY(isFirst == false); isLast = rect2->property("lastItem").toBool(); QVERIFY(isLast == true); row->metaObject()->invokeMethod(row, "destroySubRect"); QCoreApplication::sendPostedEvents(0, QEvent::DeferredDelete); QCoreApplication::processEvents(); QTRY_VERIFY(rect1->property("index").toInt() == 1); QTRY_VERIFY(rect1->property("firstItem").toBool() == false); QTRY_VERIFY(rect1->property("lastItem").toBool() == true); } QQuickView *tst_qquickpositioners::createView(const QString &filename, bool wait) { QQuickView *window = new QQuickView(0); qDebug() << "1"; window->setSource(QUrl::fromLocalFile(filename)); qDebug() << "2"; window->show(); qDebug() << "3"; if (wait) QTest::qWaitForWindowExposed(window); //It may not relayout until the next frame, so it needs to be drawn qDebug() << "4"; return window; } void tst_qquickpositioners::matchIndexLists(const QVariantList &indexLists, const QList &expectedIndexes) { for (int i=0; i current = indexLists[i].value >().toSet(); if (current != expectedIndexes.toSet()) qDebug() << "Cannot match actual targets" << current << "with expected" << expectedIndexes; QCOMPARE(current, expectedIndexes.toSet()); } } void tst_qquickpositioners::matchItemsAndIndexes(const QVariantMap &items, const QaimModel &model, const QList &expectedIndexes) { for (QVariantMap::const_iterator it = items.begin(); it != items.end(); ++it) { QVERIFY(it.value().type() == QVariant::Int); QString name = it.key(); int itemIndex = it.value().toInt(); QVERIFY2(expectedIndexes.contains(itemIndex), QTest::toString(QString("Index %1 not found in expectedIndexes").arg(itemIndex))); if (model.name(itemIndex) != name) qDebug() << itemIndex; QCOMPARE(model.name(itemIndex), name); } QCOMPARE(items.count(), expectedIndexes.count()); } void tst_qquickpositioners::matchItemLists(const QVariantList &itemLists, const QList &expectedItems) { for (int i=0; i(current[j].value()); QVERIFY2(o, QTest::toString(QString("Invalid actual item at %1").arg(j))); QVERIFY2(expectedItems.contains(o), QTest::toString(QString("Cannot match item %1").arg(j))); } QCOMPARE(current.count(), expectedItems.count()); } } QTEST_MAIN(tst_qquickpositioners) #include "tst_qquickpositioners.moc"