/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:GPL-EXCEPT$ ** 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 The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 as published by the Free Software ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include #include "../shared/testmodel.h" class tst_QQuickTreeModelAdaptor : public QObject { Q_OBJECT public: void compareData(int row, QQuickTreeModelAdaptor1 &tma, const QModelIndex &idx, TestModel &model, bool expanded = false); void compareModels(QQuickTreeModelAdaptor1 &tma, TestModel &model); void expandAndTest(const QModelIndex &idx, QQuickTreeModelAdaptor1 &tma, bool expandable, int expectedRowCountDifference); void collapseAndTest(const QModelIndex &idx, QQuickTreeModelAdaptor1 &tma, bool expandable, int expectedRowCountDifference); private slots: void initTestCase(); void cleanup(); void setModel(); void modelDestroyed(); void modelReset(); void rootIndex(); void dataAccess(); void dataChange(); void groupedDataChange(); void expandAndCollapse_data(); void expandAndCollapse(); void expandAndCollapse2ndLevel(); void layoutChange(); void removeRows_data(); void removeRows(); void removeRowsChildrenAndParent(); void removeChildrenMoveParent(); void removeChildrenRelayoutParent(); void insertRows_data(); void insertRows(); void moveRows_data(); void moveRows(); void reparentOnSameRow(); void selectionForRowRange(); void hasChildrenEmit(); }; void tst_QQuickTreeModelAdaptor::initTestCase() { } void tst_QQuickTreeModelAdaptor::cleanup() { } void tst_QQuickTreeModelAdaptor::compareData(int row, QQuickTreeModelAdaptor1 &tma, const QModelIndex &modelIdx, TestModel &model, bool expanded) { const QModelIndex &tmaIdx = tma.index(row); const int indexDepth = model.level(modelIdx) - model.level(tma.rootIndex()) - 1; QCOMPARE(tma.mapToModel(tmaIdx), modelIdx); QCOMPARE(tma.data(tmaIdx, Qt::DisplayRole).toString(), model.displayData(modelIdx)); QCOMPARE(tma.data(tmaIdx, QQuickTreeModelAdaptor1::DepthRole).toInt(), indexDepth); QCOMPARE(tma.data(tmaIdx, QQuickTreeModelAdaptor1::ExpandedRole).toBool(), expanded); QCOMPARE(tma.data(tmaIdx, QQuickTreeModelAdaptor1::HasChildrenRole).toBool(), model.hasChildren(modelIdx)); } void tst_QQuickTreeModelAdaptor::expandAndTest(const QModelIndex &idx, QQuickTreeModelAdaptor1 &tma, bool expandable, int expectedRowCountDifference) { QSignalSpy rowsAboutToBeInsertedSpy(&tma, SIGNAL(rowsAboutToBeInserted(QModelIndex,int,int))); QSignalSpy rowsInsertedSpy(&tma, SIGNAL(rowsInserted(QModelIndex,int,int))); QSignalSpy dataChangedSpy(&tma, SIGNAL(dataChanged(QModelIndex,QModelIndex,QVector))); int oldRowCount = tma.rowCount(); tma.expand(idx); QCOMPARE(tma.isExpanded(idx), expandable); const QModelIndex &tmaIdx = tma.index(tma.itemIndex(idx)); QCOMPARE(tma.data(tmaIdx, QQuickTreeModelAdaptor1::ExpandedRole).toBool(), expandable); if (expandable && expectedRowCountDifference != 0) { // Rows were added below the parent QCOMPARE(tma.rowCount(), oldRowCount + expectedRowCountDifference); QCOMPARE(rowsAboutToBeInsertedSpy.count(), rowsInsertedSpy.count()); QVERIFY(rowsInsertedSpy.count() > 0); if (rowsInsertedSpy.count() == 1) { const QVariantList &rowsAboutToBeInsertedArgs = rowsAboutToBeInsertedSpy.takeFirst(); const QVariantList &rowsInsertedArgs = rowsInsertedSpy.takeFirst(); for (int i = 0; i < rowsInsertedArgs.count(); i++) QCOMPARE(rowsAboutToBeInsertedArgs.at(i), rowsInsertedArgs.at(i)); QCOMPARE(rowsInsertedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsInsertedArgs.at(1).toInt(), tma.itemIndex(idx) + 1); QCOMPARE(rowsInsertedArgs.at(2).toInt(), tma.itemIndex(idx) + expectedRowCountDifference); } // Data changed for the parent's ExpandedRole (value checked above) QCOMPARE(dataChangedSpy.count(), 1); const QVariantList &dataChangedArgs = dataChangedSpy.first(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tmaIdx); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tmaIdx); QCOMPARE(dataChangedArgs.at(2).value >(), QVector(1, QQuickTreeModelAdaptor1::ExpandedRole)); } else { QCOMPARE(tma.rowCount(), oldRowCount); QCOMPARE(rowsAboutToBeInsertedSpy.count(), 0); QCOMPARE(rowsInsertedSpy.count(), 0); } } void tst_QQuickTreeModelAdaptor::collapseAndTest(const QModelIndex &idx, QQuickTreeModelAdaptor1 &tma, bool expandable, int expectedRowCountDifference) { QSignalSpy rowsAboutToBeRemovedSpy(&tma, SIGNAL(rowsAboutToBeRemoved(QModelIndex,int,int))); QSignalSpy rowsRemovedSpy(&tma, SIGNAL(rowsRemoved(QModelIndex,int,int))); QSignalSpy dataChangedSpy(&tma, SIGNAL(dataChanged(QModelIndex,QModelIndex,QVector))); int oldRowCount = tma.rowCount(); tma.collapse(idx); QVERIFY(!tma.isExpanded(idx)); const QModelIndex &tmaIdx = tma.index(tma.itemIndex(idx)); if (tmaIdx.isValid()) QCOMPARE(tma.data(tmaIdx, QQuickTreeModelAdaptor1::ExpandedRole).toBool(), false); if (expandable && expectedRowCountDifference != 0) { // Rows were removed below the parent QCOMPARE(tma.rowCount(), oldRowCount - expectedRowCountDifference); QCOMPARE(rowsAboutToBeRemovedSpy.count(), 1); QCOMPARE(rowsRemovedSpy.count(), 1); const QVariantList &rowsAboutToBeRemovedArgs = rowsAboutToBeRemovedSpy.takeFirst(); const QVariantList &rowsRemovedArgs = rowsRemovedSpy.takeFirst(); for (int i = 0; i < rowsRemovedArgs.count(); i++) QCOMPARE(rowsAboutToBeRemovedArgs.at(i), rowsRemovedArgs.at(i)); QCOMPARE(rowsRemovedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsRemovedArgs.at(1).toInt(), tma.itemIndex(idx) + 1); QCOMPARE(rowsRemovedArgs.at(2).toInt(), tma.itemIndex(idx) + expectedRowCountDifference); // Data changed for the parent's ExpandedRole (value checked above) QCOMPARE(dataChangedSpy.count(), 1); const QVariantList &dataChangedArgs = dataChangedSpy.first(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tmaIdx); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tmaIdx); QCOMPARE(dataChangedArgs.at(2).value >(), QVector(1, QQuickTreeModelAdaptor1::ExpandedRole)); } else { QCOMPARE(tma.rowCount(), oldRowCount); QCOMPARE(rowsAboutToBeRemovedSpy.count(), 0); QCOMPARE(rowsRemovedSpy.count(), 0); } } void tst_QQuickTreeModelAdaptor::compareModels(QQuickTreeModelAdaptor1 &tma, TestModel &model) { QModelIndex parent = tma.rootIndex(); QStack parents; QModelIndex idx = model.index(0, 0, parent); int modelVisibleRows = model.rowCount(parent); for (int i = 0; i < tma.rowCount(); i++) { bool expanded = tma.isExpanded(i); compareData(i, tma, idx, model, expanded); if (expanded) { parents.push(parent); parent = idx; modelVisibleRows += model.rowCount(parent); idx = model.index(0, 0, parent); } else { while (idx.row() == model.rowCount(parent) - 1) { if (parents.isEmpty()) break; idx = parent; parent = parents.pop(); } idx = model.index(idx.row() + 1, 0, parent); } } QCOMPARE(tma.rowCount(), modelVisibleRows); // Duplicates the model inspection above, but provides extra tests QVERIFY(tma.testConsistency()); } void tst_QQuickTreeModelAdaptor::setModel() { TestModel model(5, 1); QQuickTreeModelAdaptor1 tma; QSignalSpy modelChangedSpy(&tma, SIGNAL(modelChanged(QAbstractItemModel*))); tma.setModel(&model); QCOMPARE(modelChangedSpy.count(), 1); QCOMPARE(tma.model(), &model); // Set same model twice tma.setModel(&model); QCOMPARE(modelChangedSpy.count(), 1); modelChangedSpy.clear(); tma.setModel(0); QCOMPARE(modelChangedSpy.count(), 1); QCOMPARE(tma.model(), static_cast(0)); } void tst_QQuickTreeModelAdaptor::modelDestroyed() { TestModel *model = new TestModel(5, 1); QQuickTreeModelAdaptor1 tma; QSignalSpy modelChangedSpy(&tma, SIGNAL(modelChanged(QAbstractItemModel*))); tma.setModel(model); QCOMPARE(modelChangedSpy.count(), 1); QCOMPARE(tma.model(), model); QModelIndex idx = model->index(0, 0); modelChangedSpy.clear(); delete model; QCOMPARE(modelChangedSpy.count(), 1); QCOMPARE(tma.model(), (QAbstractItemModel *)0); tma.expand(idx); // No crash, all fine } void tst_QQuickTreeModelAdaptor::modelReset() { TestModel model(5, 1); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); QSignalSpy modelAboutToBeResetSpy(&tma, SIGNAL(modelAboutToBeReset())); QSignalSpy modelResetSpy(&tma, SIGNAL(modelReset())); // Nothing expanded model.resetModel(); QCOMPARE(modelAboutToBeResetSpy.count(), 1); QCOMPARE(modelResetSpy.count(), 1); QCOMPARE(tma.rowCount(), model.rowCount()); compareModels(tma, model); // Expanded items should not be anymore tma.expand(model.index(0, 0)); tma.expand(model.index(2, 0)); tma.expand(model.index(2, 0, model.index(2, 0))); modelAboutToBeResetSpy.clear(); modelResetSpy.clear(); model.resetModel(); QCOMPARE(modelAboutToBeResetSpy.count(), 1); QCOMPARE(modelResetSpy.count(), 1); QCOMPARE(tma.rowCount(), model.rowCount()); compareModels(tma, model); } void tst_QQuickTreeModelAdaptor::rootIndex() { TestModel model(5, 1); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); QVERIFY(!tma.rootIndex().isValid()); compareModels(tma, model); QSignalSpy rootIndexSpy(&tma, SIGNAL(rootIndexChanged())); QModelIndex rootIndex = model.index(0, 0); tma.setRootIndex(rootIndex); QCOMPARE(tma.rootIndex(), rootIndex); QCOMPARE(rootIndexSpy.count(), 1); compareModels(tma, model); rootIndexSpy.clear(); rootIndex = model.index(2, 2, tma.rootIndex()); tma.setRootIndex(rootIndex); QCOMPARE(tma.rootIndex(), rootIndex); QCOMPARE(rootIndexSpy.count(), 1); compareModels(tma, model); // Expand 1st visible item, business as usual expandAndTest(model.index(0, 0, rootIndex), tma, true /*expandable*/, 5); // Expand non root item descendant item, nothing should happen expandAndTest(model.index(0, 0), tma, true /*expandable*/, 0); // Collapse 1st visible item, business as usual collapseAndTest(model.index(0, 0, rootIndex), tma, true /*expandable*/, 5); // Collapse non root item descendant item, nothing should happen collapseAndTest(model.index(0, 0), tma, true /*expandable*/, 0); } void tst_QQuickTreeModelAdaptor::dataAccess() { TestModel model(5, 1); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); QCOMPARE(tma.rowCount(), model.rowCount()); compareModels(tma, model); QModelIndex parentIdx = model.index(2, 0); QVERIFY(model.hasChildren(parentIdx)); tma.expand(parentIdx); QVERIFY(tma.isExpanded(parentIdx)); QCOMPARE(tma.rowCount(), model.rowCount() + model.rowCount(parentIdx)); compareModels(tma, model); tma.collapse(parentIdx); QCOMPARE(tma.rowCount(), model.rowCount()); compareModels(tma, model); } void tst_QQuickTreeModelAdaptor::dataChange() { TestModel model(5, 1); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); QSignalSpy dataChangedSpy(&tma, SIGNAL(dataChanged(QModelIndex,QModelIndex,QVector))); const QModelIndex &idx = model.index(2, 0); model.setData(idx, QVariant(), Qt::DisplayRole); QCOMPARE(dataChangedSpy.count(), 1); const QVariantList &dataChangedArgs = dataChangedSpy.first(); const QModelIndex &tmaIdx = tma.index(tma.itemIndex(idx)); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tmaIdx); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tmaIdx); QCOMPARE(dataChangedArgs.at(2).value >(), QVector(1, Qt::DisplayRole)); compareModels(tma, model); { // Non expanded children shouldn't emit any signal dataChangedSpy.clear(); const QModelIndex &childIdx = model.index(4, 0, idx); model.setData(childIdx, QVariant(), Qt::DisplayRole); QCOMPARE(dataChangedSpy.count(), 0); compareModels(tma, model); // But expanded children should tma.expand(idx); QVERIFY(tma.isExpanded(idx)); dataChangedSpy.clear(); // expand() emits dataChanged() with ExpandedRole model.setData(childIdx, QVariant(), Qt::DisplayRole); QCOMPARE(dataChangedSpy.count(), 1); const QVariantList &dataChangedArgs = dataChangedSpy.first(); const QModelIndex &tmaIdx = tma.index(tma.itemIndex(childIdx)); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tmaIdx); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tmaIdx); QCOMPARE(dataChangedArgs.at(2).value >(), QVector(1, Qt::DisplayRole)); compareModels(tma, model); } } void tst_QQuickTreeModelAdaptor::groupedDataChange() { TestModel model(10, 1); const QModelIndex &topLeftIdx = model.index(1, 0); const QModelIndex &bottomRightIdx = model.index(7, 0); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); QSignalSpy dataChangedSpy(&tma, SIGNAL(dataChanged(QModelIndex,QModelIndex,QVector))); const QVector roles(1, Qt::DisplayRole); { // No expanded items model.groupedSetData(topLeftIdx, bottomRightIdx, roles); QCOMPARE(dataChangedSpy.count(), 1); compareModels(tma, model); const QModelIndex &tmaTLIdx = tma.index(tma.itemIndex(topLeftIdx)); const QModelIndex &tmaBRIdx = tma.index(tma.itemIndex(bottomRightIdx)); const QVariantList &dataChangedArgs = dataChangedSpy.first(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tmaTLIdx); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tmaBRIdx); QCOMPARE(dataChangedArgs.at(2).value >(), roles); } // One item expanded in the group range const QModelIndex &expandedIdx = model.index(4, 0); tma.expand(expandedIdx); QVERIFY(tma.isExpanded(expandedIdx)); for (int i = 0; i < 2; i++) { const QModelIndex &tmaTLIdx = tma.index(tma.itemIndex(topLeftIdx)); const QModelIndex &tmaExpandedIdx = tma.index(tma.itemIndex(expandedIdx)); const QModelIndex &tmaExpandedSiblingIdx = tma.index(tma.itemIndex(expandedIdx.sibling(expandedIdx.row() + 1, 0))); const QModelIndex &tmaBRIdx = tma.index(tma.itemIndex(bottomRightIdx)); dataChangedSpy.clear(); // expand() sends a dataChaned() signal model.groupedSetData(topLeftIdx, bottomRightIdx, roles); QCOMPARE(dataChangedSpy.count(), 2); compareModels(tma, model); QVariantList dataChangedArgs = dataChangedSpy.takeFirst(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tmaTLIdx); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tmaExpandedIdx); QCOMPARE(dataChangedArgs.at(2).value >(), roles); dataChangedArgs = dataChangedSpy.takeFirst(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tmaExpandedSiblingIdx); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tmaBRIdx); QCOMPARE(dataChangedArgs.at(2).value >(), roles); // Further expanded descendants should not change grouping tma.expand(model.index(0, 0, expandedIdx)); QVERIFY(tma.isExpanded(expandedIdx)); } tma.collapse(model.index(0, 0, expandedIdx)); // Let's expand one more and see what happens... const QModelIndex &otherExpandedIdx = model.index(6, 0); tma.expand(otherExpandedIdx); QVERIFY(tma.isExpanded(otherExpandedIdx)); for (int i = 0; i < 3; i++) { const QModelIndex &tmaTLIdx = tma.index(tma.itemIndex(topLeftIdx)); const QModelIndex &tmaExpandedIdx = tma.index(tma.itemIndex(expandedIdx)); const QModelIndex &tmaExpandedSiblingIdx = tma.index(tma.itemIndex(expandedIdx.sibling(expandedIdx.row() + 1, 0))); const QModelIndex &tmaOtherExpandedIdx = tma.index(tma.itemIndex(otherExpandedIdx)); const QModelIndex &tmaOtherExpandedSiblingIdx = tma.index(tma.itemIndex(otherExpandedIdx.sibling(otherExpandedIdx.row() + 1, 0))); const QModelIndex &tmaBRIdx = tma.index(tma.itemIndex(bottomRightIdx)); dataChangedSpy.clear(); // expand() sends a dataChaned() signal model.groupedSetData(topLeftIdx, bottomRightIdx, roles); QCOMPARE(dataChangedSpy.count(), 3); compareModels(tma, model); QVariantList dataChangedArgs = dataChangedSpy.takeFirst(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tmaTLIdx); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tmaExpandedIdx); QCOMPARE(dataChangedArgs.at(2).value >(), roles); dataChangedArgs = dataChangedSpy.takeFirst(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tmaExpandedSiblingIdx); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tmaOtherExpandedIdx); QCOMPARE(dataChangedArgs.at(2).value >(), roles); dataChangedArgs = dataChangedSpy.takeFirst(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tmaOtherExpandedSiblingIdx); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tmaBRIdx); QCOMPARE(dataChangedArgs.at(2).value >(), roles); // Further expanded descendants should not change grouping if (i == 0) { tma.expand(model.index(0, 0, expandedIdx)); QVERIFY(tma.isExpanded(expandedIdx)); } else { tma.expand(model.index(0, 0, otherExpandedIdx)); QVERIFY(tma.isExpanded(expandedIdx)); } } } void tst_QQuickTreeModelAdaptor::expandAndCollapse_data() { QTest::addColumn("parentRow"); QTest::newRow("First") << 0; QTest::newRow("Middle") << 2; QTest::newRow("Last") << 4; QTest::newRow("Non expandable") << 3; } void tst_QQuickTreeModelAdaptor::expandAndCollapse() { QFETCH(int, parentRow); TestModel model(5, 1); const QModelIndex &parentIdx = model.index(parentRow, 0); bool expandable = model.hasChildren(parentIdx); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); expandAndTest(parentIdx, tma, expandable, model.rowCount(parentIdx)); compareModels(tma, model); collapseAndTest(parentIdx, tma, expandable, model.rowCount(parentIdx)); compareModels(tma, model); } void tst_QQuickTreeModelAdaptor::expandAndCollapse2ndLevel() { const int expandRows[] = { 0, 2, 4, 3 }; const int expandRowsCount = sizeof(expandRows) / sizeof(expandRows[0]); for (int i = 0; i < expandRowsCount - 1; i++) { // Skip last non-expandable row TestModel model(5, 1); const QModelIndex &parentIdx = model.index(expandRows[i], 0); QVERIFY(model.hasChildren(parentIdx)); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); tma.expand(parentIdx); QVERIFY(tma.isExpanded(parentIdx)); QCOMPARE(tma.rowCount(), model.rowCount() + model.rowCount(parentIdx)); for (int j = 0; j < expandRowsCount; j++) { const QModelIndex &childIdx = model.index(expandRows[j], 0, parentIdx); bool expandable = model.hasChildren(childIdx); // Expand child expandAndTest(childIdx, tma, expandable, model.rowCount(childIdx)); compareModels(tma, model); // Collapse child collapseAndTest(childIdx, tma, expandable, model.rowCount(childIdx)); compareModels(tma, model); // Expand child again expandAndTest(childIdx, tma, expandable, model.rowCount(childIdx)); compareModels(tma, model); // Collapse parent -> child node invisible, but expanded collapseAndTest(parentIdx, tma, true, model.rowCount(parentIdx) + model.rowCount(childIdx)); compareModels(tma, model); QCOMPARE(tma.isExpanded(childIdx), expandable); // Expand parent again expandAndTest(parentIdx, tma, true, model.rowCount(parentIdx) + model.rowCount(childIdx)); compareModels(tma, model); // Collapse parent -> child node invisible, but expanded collapseAndTest(parentIdx, tma, true, model.rowCount(parentIdx) + model.rowCount(childIdx)); compareModels(tma, model); QCOMPARE(tma.isExpanded(childIdx), expandable); // Collapse child -> nothing should change collapseAndTest(childIdx, tma, false, 0); compareModels(tma, model); // Expand parent again expandAndTest(parentIdx, tma, true, model.rowCount(parentIdx)); compareModels(tma, model); // Expand child, one last time expandAndTest(childIdx, tma, expandable, model.rowCount(childIdx)); compareModels(tma, model); // Collapse child, and done collapseAndTest(childIdx, tma, expandable, model.rowCount(childIdx)); compareModels(tma, model); } } } void tst_QQuickTreeModelAdaptor::layoutChange() { TestModel model(5, 1); const QModelIndex &idx = model.index(0, 0); const QModelIndex &idx2 = model.index(2, 0); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); // Nothing expanded QSignalSpy dataChangedSpy(&tma, SIGNAL(dataChanged(QModelIndex,QModelIndex,QVector))); model.changeLayout(); QCOMPARE(dataChangedSpy.count(), 1); QVariantList dataChangedArgs = dataChangedSpy.takeFirst(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tma.index(0)); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tma.index(tma.rowCount() - 1)); QVERIFY(dataChangedArgs.at(2).value >().isEmpty()); compareModels(tma, model); // One item expanded tma.expand(idx); QVERIFY(tma.isExpanded(idx)); dataChangedSpy.clear(); model.changeLayout(); QCOMPARE(dataChangedSpy.count(), 1); dataChangedArgs = dataChangedSpy.takeFirst(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tma.index(0)); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tma.index(tma.rowCount() - 1)); QVERIFY(dataChangedArgs.at(2).value >().isEmpty()); compareModels(tma, model); // One parent layout change, expanded dataChangedSpy.clear(); QList parents; parents << idx; model.changeLayout(parents); QCOMPARE(dataChangedSpy.count(), 1); dataChangedArgs = dataChangedSpy.takeFirst(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tma.index(tma.itemIndex(model.index(0, 0, idx)))); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tma.index(tma.itemIndex(model.index(model.rowCount(idx) - 1, 0, idx)))); QVERIFY(dataChangedArgs.at(2).value >().isEmpty()); compareModels(tma, model); // One parent layout change, collapsed tma.collapse(idx); dataChangedSpy.clear(); model.changeLayout(parents); QCOMPARE(dataChangedSpy.count(), 0); compareModels(tma, model); // Two-parent layout change, both collapsed parents << idx2; dataChangedSpy.clear(); model.changeLayout(parents); QCOMPARE(dataChangedSpy.count(), 0); compareModels(tma, model); // Two-parent layout change, only one expanded tma.expand(idx2); QVERIFY(tma.isExpanded(idx2)); dataChangedSpy.clear(); model.changeLayout(parents); QCOMPARE(dataChangedSpy.count(), 1); dataChangedArgs = dataChangedSpy.takeFirst(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tma.index(tma.itemIndex(model.index(0, 0, idx2)))); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tma.index(tma.itemIndex(model.index(model.rowCount(idx2) - 1, 0, idx2)))); QVERIFY(dataChangedArgs.at(2).value >().isEmpty()); compareModels(tma, model); // Two-parent layout change, both expanded tma.expand(idx); QVERIFY(tma.isExpanded(idx)); dataChangedSpy.clear(); model.changeLayout(parents); QCOMPARE(dataChangedSpy.count(), 2); dataChangedArgs = dataChangedSpy.takeFirst(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tma.index(tma.itemIndex(model.index(0, 0, idx)))); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tma.index(tma.itemIndex(model.index(model.rowCount(idx) - 1, 0, idx)))); QVERIFY(dataChangedArgs.at(2).value >().isEmpty()); dataChangedArgs = dataChangedSpy.takeFirst(); QCOMPARE(dataChangedArgs.at(0).toModelIndex(), tma.index(tma.itemIndex(model.index(0, 0, idx2)))); QCOMPARE(dataChangedArgs.at(1).toModelIndex(), tma.index(tma.itemIndex(model.index(model.rowCount(idx2) - 1, 0, idx2)))); QVERIFY(dataChangedArgs.at(2).value >().isEmpty()); compareModels(tma, model); } static const int ModelRowCount = 9; void tst_QQuickTreeModelAdaptor::removeRows_data() { QTest::addColumn("removeFromRow"); QTest::addColumn("removeCount"); QTest::addColumn("removeParentRow"); QTest::addColumn("expandRow"); QTest::addColumn("expandParentRow"); QTest::addColumn("expectedRemovedCount"); QTest::newRow("Nothing expanded, remove 1st row") << 0 << 1 << -1 << -1 << -1 << 1; QTest::newRow("Expand 1st row, remove 1st row") << 0 << 1 << -1 << 0 << -1 << 1 + ModelRowCount; QTest::newRow("Expand last row, remove 1st row") << 0 << 1 << -1 << ModelRowCount - 1 << -1 << 1; QTest::newRow("Nothing expanded, remove last row") << ModelRowCount - 1 << 1 << -1 << -1 << -1 << 1; QTest::newRow("Expand 1st row, remove last row") << ModelRowCount - 1 << 1 << -1 << 0 << -1 << 1; QTest::newRow("Expand last row, remove last row") << ModelRowCount - 1 << 1 << -1 << ModelRowCount - 1 << -1 << 1 + ModelRowCount; QTest::newRow("Remove child row, parent collapsed") << 2 << 1 << 0 << -1 << -1 << 0; QTest::newRow("Remove child row, parent expanded") << 2 << 1 << 0 << 0 << -1 << 1; QTest::newRow("Remove several rows, nothing expanded") << 2 << 5 << -1 << -1 << -1 << 5; QTest::newRow("Remove several rows, 1st row expanded") << 2 << 5 << -1 << 0 << -1 << 5; QTest::newRow("Remove several rows, last row expanded") << 2 << 5 << -1 << ModelRowCount - 1 << -1 << 5; QTest::newRow("Remove several rows, one of them expanded") << 2 << 5 << -1 << 4 << -1 << 5 + ModelRowCount; QTest::newRow("Remove all rows, nothing expanded") << 0 << ModelRowCount << -1 << -1 << -1 << ModelRowCount; QTest::newRow("Remove all rows, 1st row expanded") << 0 << ModelRowCount << -1 << 0 << -1 << ModelRowCount * 2; QTest::newRow("Remove all rows, last row expanded") << 0 << ModelRowCount << -1 << ModelRowCount - 1 << -1 << ModelRowCount * 2; QTest::newRow("Remove all rows, random one expanded") << 0 << ModelRowCount << -1 << 4 << -1 << ModelRowCount * 2; } void tst_QQuickTreeModelAdaptor::removeRows() { QFETCH(int, removeFromRow); QFETCH(int, removeCount); QFETCH(int, removeParentRow); QFETCH(int, expandRow); QFETCH(int, expandParentRow); QFETCH(int, expectedRemovedCount); TestModel model(ModelRowCount, 1); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); const QModelIndex &expandParentIdx = expandParentRow == -1 ? QModelIndex() : model.index(expandParentRow, 0); if (expandParentIdx.isValid()) { tma.expand(expandParentIdx); QVERIFY(tma.isExpanded(expandParentIdx)); } const QModelIndex &expandIdx = model.index(expandRow, 0, expandParentIdx); if (expandIdx.isValid()) { tma.expand(expandIdx); QVERIFY(tma.isExpanded(expandIdx)); } const QModelIndex &removeParentIdx = removeParentRow == -1 ? QModelIndex() : model.index(removeParentRow, 0); const QModelIndex &removeIdx = model.index(removeFromRow, 0, removeParentIdx); int tmaItemIdx = tma.itemIndex(removeIdx); QSignalSpy rowsAboutToBeRemovedSpy(&tma, SIGNAL(rowsAboutToBeRemoved(const QModelIndex&, int, int))); QSignalSpy rowsRemovedSpy(&tma, SIGNAL(rowsRemoved(const QModelIndex&, int, int))); model.removeRows(removeFromRow, removeCount, removeParentIdx); if (expectedRemovedCount == 0) { QCOMPARE(rowsAboutToBeRemovedSpy.count(), 0); QCOMPARE(rowsRemovedSpy.count(), 0); } else { QCOMPARE(rowsAboutToBeRemovedSpy.count(), 1); QCOMPARE(rowsRemovedSpy.count(), 1); QVariantList rowsAboutToBeRemovedArgs = rowsAboutToBeRemovedSpy.first(); QVariantList rowsRemovedArgs = rowsRemovedSpy.first(); QCOMPARE(rowsAboutToBeRemovedArgs, rowsRemovedArgs); QCOMPARE(rowsAboutToBeRemovedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeRemovedArgs.at(1).toInt(), tmaItemIdx); QCOMPARE(rowsAboutToBeRemovedArgs.at(2).toInt(), tmaItemIdx + expectedRemovedCount - 1); } } void tst_QQuickTreeModelAdaptor::removeRowsChildrenAndParent() { TestModel model(ModelRowCount, 1); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); // Expand the first node const QModelIndex &parent = model.index(0, 0); tma.expand(parent); QVERIFY(tma.isExpanded(parent)); QSignalSpy rowsAboutToBeRemovedSpy(&tma, SIGNAL(rowsAboutToBeRemoved(const QModelIndex&, int, int))); QSignalSpy rowsRemovedSpy(&tma, SIGNAL(rowsRemoved(const QModelIndex&, int, int))); // Remove the first node children int expectedRemovedCount = model.rowCount(parent); int tmaItemIdx = tma.itemIndex(model.index(0, 0, parent)); QCOMPARE(tmaItemIdx, tma.itemIndex(parent) + 1); model.removeRows(0, expectedRemovedCount, parent); QCOMPARE(rowsAboutToBeRemovedSpy.count(), 1); QCOMPARE(rowsRemovedSpy.count(), 1); QVariantList rowsAboutToBeRemovedArgs = rowsAboutToBeRemovedSpy.first(); QVariantList rowsRemovedArgs = rowsRemovedSpy.first(); QCOMPARE(rowsAboutToBeRemovedArgs, rowsRemovedArgs); QCOMPARE(rowsAboutToBeRemovedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeRemovedArgs.at(1).toInt(), tmaItemIdx); QCOMPARE(rowsAboutToBeRemovedArgs.at(2).toInt(), tmaItemIdx + expectedRemovedCount - 1); // Remove the first node rowsAboutToBeRemovedSpy.clear(); rowsRemovedSpy.clear(); model.removeRows(0, 1, QModelIndex()); QCOMPARE(rowsAboutToBeRemovedSpy.count(), 1); QCOMPARE(rowsRemovedSpy.count(), 1); rowsAboutToBeRemovedArgs = rowsAboutToBeRemovedSpy.first(); rowsRemovedArgs = rowsRemovedSpy.first(); QCOMPARE(rowsAboutToBeRemovedArgs, rowsRemovedArgs); QCOMPARE(rowsAboutToBeRemovedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeRemovedArgs.at(1).toInt(), 0); QCOMPARE(rowsAboutToBeRemovedArgs.at(2).toInt(), 0); } void tst_QQuickTreeModelAdaptor::removeChildrenMoveParent() { TestModel model(ModelRowCount, 1); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); // Expand the first node const QModelIndex &parent = model.index(0, 0); tma.expand(parent); QVERIFY(tma.isExpanded(parent)); // Remove the first node children QSignalSpy rowsAboutToBeRemovedSpy(&tma, SIGNAL(rowsAboutToBeRemoved(const QModelIndex&, int, int))); QSignalSpy rowsRemovedSpy(&tma, SIGNAL(rowsRemoved(const QModelIndex&, int, int))); int expectedRemovedCount = model.rowCount(parent); int tmaItemIdx = tma.itemIndex(model.index(0, 0, parent)); QCOMPARE(tmaItemIdx, tma.itemIndex(parent) + 1); model.removeRows(0, expectedRemovedCount, parent); QCOMPARE(rowsAboutToBeRemovedSpy.count(), 1); QCOMPARE(rowsRemovedSpy.count(), 1); QVariantList rowsAboutToBeRemovedArgs = rowsAboutToBeRemovedSpy.first(); QVariantList rowsRemovedArgs = rowsRemovedSpy.first(); QCOMPARE(rowsAboutToBeRemovedArgs, rowsRemovedArgs); QCOMPARE(rowsAboutToBeRemovedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeRemovedArgs.at(1).toInt(), tmaItemIdx); QCOMPARE(rowsAboutToBeRemovedArgs.at(2).toInt(), tmaItemIdx + expectedRemovedCount - 1); // Move the first node QSignalSpy rowsAboutToBeMovedSpy(&tma, SIGNAL(rowsAboutToBeMoved(QModelIndex,int,int,QModelIndex,int))); QSignalSpy rowsMovedSpy(&tma, SIGNAL(rowsMoved(QModelIndex,int,int,QModelIndex,int))); model.moveRows(QModelIndex(), 0, 1, QModelIndex(), 3); QCOMPARE(rowsAboutToBeMovedSpy.count(), 1); QCOMPARE(rowsRemovedSpy.count(), 1); QVariantList rowsAboutToBeMovedArgs = rowsAboutToBeMovedSpy.first(); QVariantList rowsMovedArgs = rowsMovedSpy.first(); QCOMPARE(rowsAboutToBeMovedArgs, rowsMovedArgs); QCOMPARE(rowsAboutToBeMovedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeMovedArgs.at(1).toInt(), 0); QCOMPARE(rowsAboutToBeMovedArgs.at(2).toInt(), 0); QCOMPARE(rowsAboutToBeMovedArgs.at(3).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeMovedArgs.at(4).toInt(), 3); } void tst_QQuickTreeModelAdaptor::removeChildrenRelayoutParent() { TestModel model(ModelRowCount, 1); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); // Expand the first node const QModelIndex &parent = model.index(0, 0); tma.expand(parent); QVERIFY(tma.isExpanded(parent)); QSignalSpy rowsAboutToBeRemovedSpy(&tma, SIGNAL(rowsAboutToBeRemoved(const QModelIndex&, int, int))); QSignalSpy rowsRemovedSpy(&tma, SIGNAL(rowsRemoved(const QModelIndex&, int, int))); // Remove the first node children int expectedRemovedCount = model.rowCount(parent); int tmaItemIdx = tma.itemIndex(model.index(0, 0, parent)); QCOMPARE(tmaItemIdx, tma.itemIndex(parent) + 1); model.removeRows(0, expectedRemovedCount, parent); QCOMPARE(rowsAboutToBeRemovedSpy.count(), 1); QCOMPARE(rowsRemovedSpy.count(), 1); QVariantList rowsAboutToBeRemovedArgs = rowsAboutToBeRemovedSpy.first(); QVariantList rowsRemovedArgs = rowsRemovedSpy.first(); QCOMPARE(rowsAboutToBeRemovedArgs, rowsRemovedArgs); QCOMPARE(rowsAboutToBeRemovedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeRemovedArgs.at(1).toInt(), tmaItemIdx); QCOMPARE(rowsAboutToBeRemovedArgs.at(2).toInt(), tmaItemIdx + expectedRemovedCount - 1); // Relayout the first node QSignalSpy dataChanged(&tma, SIGNAL(dataChanged(QModelIndex,QModelIndex,QVector))); QList parents; parents << parent; model.changeLayout(parents); QCOMPARE(dataChanged.count(), 0); } void tst_QQuickTreeModelAdaptor::insertRows_data() { QTest::addColumn("insertFromRow"); QTest::addColumn("insertCount"); QTest::addColumn("insertParentRow"); QTest::addColumn("expandRow"); QTest::addColumn("expandParentRow"); QTest::addColumn("expectedInsertedCount"); QTest::newRow("Nothing expanded, insert 1st row") << 0 << 1 << -1 << -1 << -1 << 1; QTest::newRow("Expand 1st row, insert 1st row") << 0 << 1 << -1 << 0 << -1 << 1; QTest::newRow("Expand last row, insert 1st row") << 0 << 1 << -1 << ModelRowCount - 1 << -1 << 1; QTest::newRow("Nothing expanded, insert before the last row") << ModelRowCount - 1 << 1 << -1 << -1 << -1 << 1; QTest::newRow("Nothing expanded, insert after the last row") << ModelRowCount << 1 << -1 << -1 << -1 << 1; QTest::newRow("Expand 1st row, insert before the last row") << ModelRowCount - 1 << 1 << -1 << 0 << -1 << 1; QTest::newRow("Expand 1st row, insert after the last row") << ModelRowCount << 1 << -1 << 0 << -1 << 1; QTest::newRow("Expand last row, insert before the last row") << ModelRowCount - 1 << 1 << -1 << ModelRowCount - 1 << -1 << 1; QTest::newRow("Expand last row, insert after the last row") << ModelRowCount << 1 << -1 << ModelRowCount - 1 << -1 << 1; QTest::newRow("Insert child row, parent collapsed") << 2 << 1 << 0 << -1 << -1 << 0; QTest::newRow("Insert child row, parent expanded") << 2 << 1 << 0 << 0 << -1 << 1; QTest::newRow("Insert several rows, nothing expanded") << 2 << 5 << -1 << -1 << -1 << 5; QTest::newRow("Insert several rows, 1st row expanded") << 2 << 5 << -1 << 0 << -1 << 5; QTest::newRow("Insert several rows, last row expanded") << 2 << 5 << -1 << ModelRowCount - 1 << -1 << 5; } void tst_QQuickTreeModelAdaptor::insertRows() { QFETCH(int, insertFromRow); QFETCH(int, insertCount); QFETCH(int, insertParentRow); QFETCH(int, expandRow); QFETCH(int, expandParentRow); QFETCH(int, expectedInsertedCount); TestModel model(ModelRowCount, 1); QQuickTreeModelAdaptor1 tma; tma.setModel(&model); const QModelIndex &expandParentIdx = expandParentRow == -1 ? QModelIndex() : model.index(expandParentRow, 0); if (expandParentIdx.isValid()) { tma.expand(expandParentIdx); QVERIFY(tma.isExpanded(expandParentIdx)); } const QModelIndex &expandIdx = model.index(expandRow, 0, expandParentIdx); if (expandIdx.isValid()) { tma.expand(expandIdx); QVERIFY(tma.isExpanded(expandIdx)); } const QModelIndex &insertParentIdx = insertParentRow == -1 ? QModelIndex() : model.index(insertParentRow, 0); const QModelIndex &insertIdx = model.index(insertFromRow, 0, insertParentIdx); int tmaItemIdx = insertFromRow == model.rowCount(insertParentIdx) ? tma.rowCount() : tma.itemIndex(insertIdx); QSignalSpy rowsAboutToBeInsertedSpy(&tma, SIGNAL(rowsAboutToBeInserted(const QModelIndex&, int, int))); QSignalSpy rowsInsertedSpy(&tma, SIGNAL(rowsInserted(const QModelIndex&, int, int))); model.insertRows(insertFromRow, insertCount, insertParentIdx); if (expectedInsertedCount == 0) { QCOMPARE(rowsAboutToBeInsertedSpy.count(), 0); QCOMPARE(rowsInsertedSpy.count(), 0); } else { QCOMPARE(rowsAboutToBeInsertedSpy.count(), 1); QCOMPARE(rowsInsertedSpy.count(), 1); QVariantList rowsAboutToBeInsertedArgs = rowsAboutToBeInsertedSpy.first(); QVariantList rowsInsertedArgs = rowsInsertedSpy.first(); QCOMPARE(rowsAboutToBeInsertedArgs, rowsInsertedArgs); QCOMPARE(rowsAboutToBeInsertedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeInsertedArgs.at(1).toInt(), tmaItemIdx); QCOMPARE(rowsAboutToBeInsertedArgs.at(2).toInt(), tmaItemIdx + expectedInsertedCount - 1); QCOMPARE(tma.itemIndex(model.index(insertFromRow, 0, insertParentIdx)), tmaItemIdx); } } enum MoveSignalType { RowsMoved = 0, RowsInserted, RowsRemoved }; void tst_QQuickTreeModelAdaptor::moveRows_data() { QTest::addColumn("sourceRow"); QTest::addColumn("expandSource"); QTest::addColumn("moveCount"); QTest::addColumn("sourceParentRow"); QTest::addColumn("expandSourceParent"); QTest::addColumn("destRow"); QTest::addColumn("expandDest"); QTest::addColumn("destParentRow"); QTest::addColumn("expandDestParent"); QTest::addColumn("expandRow"); QTest::addColumn("expandParentRow"); QTest::addColumn("signalType"); QTest::addColumn("expectedMovedCount"); QTest::newRow("From and to top-level parent") << 0 << false << 1 << -1 << false << 3 << false << -1 << false << -1 << -1 << (int)RowsMoved << 1; QTest::newRow("From and to top-level parent, expanded") << 0 << true << 1 << -1 << false << 3 << false << -1 << false << -1 << -1 << (int)RowsMoved << ModelRowCount + 1; QTest::newRow("From and to top-level parent, backwards") << 4 << false << 1 << -1 << false << 0 << false << -1 << false << -1 << -1 << (int)RowsMoved << 1; QTest::newRow("From and to top-level parent, expanded, backwards") << 4 << true << 1 << -1 << false << 0 << false << -1 << false << -1 << -1 << (int)RowsMoved << ModelRowCount + 1; QTest::newRow("Moving between collapsed parents") << 0 << false << 1 << 0 << false << 0 << false << 2 << false << -1 << -1 << (int)RowsMoved << 0; QTest::newRow("From expanded parent to collapsed parent") << 0 << false << 1 << 0 << true << 0 << false << 2 << false << -1 << -1 << (int)RowsRemoved << 1; QTest::newRow("From collapsed parent to expanded parent") << 0 << false << 1 << 0 << false << 0 << false << 2 << true << -1 << -1 << (int)RowsInserted << 1; QTest::newRow("From and to same expanded parent") << 0 << false << 1 << 0 << true << 2 << false << 0 << false << -1 << -1 << (int)RowsMoved << 1; QTest::newRow("From expanded parent to collapsed parent, expanded row") << 0 << true << 1 << 0 << true << 0 << false << 2 << false << -1 << -1 << (int)RowsRemoved << ModelRowCount + 1; QTest::newRow("From collapsed parent to expanded parent, expanded row") << 0 << true << 1 << 0 << false << 0 << false << 2 << true << -1 << -1 << (int)RowsInserted << ModelRowCount + 1; QTest::newRow("From and to same expanded parent, expanded row, forward") << 0 << true << 1 << 0 << true << 5 << false << 0 << false << -1 << -1 << (int)RowsMoved << ModelRowCount + 1; QTest::newRow("From and to same expanded parent, expanded row, last row") << 0 << true << 1 << 0 << true << ModelRowCount << false << 0 << false << -1 << -1 << (int)RowsMoved << ModelRowCount + 1; QTest::newRow("From and to same expanded parent, expanded row, several") << 0 << true << 3 << 0 << true << 5 << false << 0 << false << -1 << -1 << (int)RowsMoved << ModelRowCount + 3; QTest::newRow("From and to same expanded parent, expanded row, backward") << 6 << true << 1 << 0 << true << 0 << false << 0 << false << -1 << -1 << (int)RowsMoved << ModelRowCount + 1; QTest::newRow("From and to same expanded parent, expanded row, several, backward") << 6 << true << 2 << 0 << true << 0 << false << 0 << false << -1 << -1 << (int)RowsMoved << ModelRowCount + 2; QTest::newRow("From and to different expanded parents") << 0 << false << 1 << 0 << true << 1 << false << 4 << true << -1 << -1 << (int)RowsMoved << 1; QTest::newRow("From and to different expanded parents, backward") << 0 << false << 1 << 4 << true << 2 << false << 0 << true << -1 << -1 << (int)RowsMoved << 1; QTest::newRow("From and to different expanded parents, up in level") << 0 << false << 1 << 0 << true << 5 << true << -1 << true << -1 << -1 << (int)RowsMoved << 1; QTest::newRow("From and to different expanded parents, up in level, backwards") << 0 << false << 1 << 4 << true << 1 << false << -1 << true << -1 << -1 << (int)RowsMoved << 1; QTest::newRow("From and to different expanded parents, up in level, as 1st item") << 0 << false << 1 << 0 << true << 0 << false << -1 << true << -1 << -1 << (int)RowsMoved << 1; QTest::newRow("From and to different expanded parents, backward, up in level") << 0 << false << 1 << 4 << true << 2 << false << 0 << true << -1 << -1 << (int)RowsMoved << 1; } void tst_QQuickTreeModelAdaptor::moveRows() { QFETCH(int, sourceRow); QFETCH(bool, expandSource); QFETCH(int, moveCount); QFETCH(int, sourceParentRow); QFETCH(bool, expandSourceParent); QFETCH(int, destRow); QFETCH(bool, expandDest); QFETCH(int, destParentRow); QFETCH(bool, expandDestParent); QFETCH(int, expandRow); QFETCH(int, expandParentRow); QFETCH(int, signalType); QFETCH(int, expectedMovedCount); TestModel model(ModelRowCount, 1); model.alternateChildlessRows = false; QQuickTreeModelAdaptor1 tma; tma.setModel(&model); const QModelIndex &expandParentIdx = expandParentRow == -1 ? QModelIndex() : model.index(expandParentRow, 0); if (expandParentIdx.isValid()) { tma.expand(expandParentIdx); QVERIFY(tma.isExpanded(expandParentIdx)); } const QModelIndex &expandIdx = model.index(expandRow, 0, expandParentIdx); if (expandIdx.isValid()) { tma.expand(expandIdx); QVERIFY(tma.isExpanded(expandIdx)); } const QModelIndex &sourceParentIdx = sourceParentRow == -1 ? QModelIndex() : model.index(sourceParentRow, 0); if (expandSourceParent && sourceParentIdx.isValid()) { tma.expand(sourceParentIdx); QVERIFY(tma.isExpanded(sourceParentIdx)); } const QModelIndex &sourceIdx = model.index(sourceRow, 0, sourceParentIdx); if (expandSource) { tma.expand(sourceIdx); QVERIFY(tma.isExpanded(sourceIdx)); } const QModelIndex &destParentIdx = destParentRow == -1 ? QModelIndex() : model.index(destParentRow, 0); if (expandDestParent && destParentIdx.isValid()) { tma.expand(destParentIdx); QVERIFY(tma.isExpanded(destParentIdx)); } const QModelIndex &destIdx = model.index(destRow, 0, destParentIdx); if (expandDest) { tma.expand(destIdx); QVERIFY(tma.isExpanded(destIdx)); } int tmaSourceItemIdx = signalType == RowsInserted ? -1 // Not tested if RowsInserted : tma.itemIndex(sourceIdx); int tmaDestItemIdx = signalType == RowsRemoved ? -1 : // Not tested if RowsRemoved destRow == model.rowCount(destParentIdx) ? -1 /* FIXME */ : tma.itemIndex(destIdx); QSignalSpy rowsAboutToBeMovedSpy(&tma, SIGNAL(rowsAboutToBeMoved(QModelIndex,int,int,QModelIndex,int))); QSignalSpy rowsMovedSpy(&tma, SIGNAL(rowsMoved(QModelIndex,int,int,QModelIndex,int))); QSignalSpy rowsAboutToBeInsertedSpy(&tma, SIGNAL(rowsAboutToBeInserted(const QModelIndex&, int, int))); QSignalSpy rowsInsertedSpy(&tma, SIGNAL(rowsInserted(const QModelIndex&, int, int))); QSignalSpy rowsAboutToBeRemovedSpy(&tma, SIGNAL(rowsAboutToBeRemoved(const QModelIndex&, int, int))); QSignalSpy rowsRemovedSpy(&tma, SIGNAL(rowsRemoved(const QModelIndex&, int, int))); QVERIFY(model.moveRows(sourceParentIdx, sourceRow, moveCount, destParentIdx, destRow)); if (signalType != RowsMoved || expectedMovedCount == 0) { QCOMPARE(rowsAboutToBeMovedSpy.count(), 0); QCOMPARE(rowsMovedSpy.count(), 0); } if (signalType != RowsInserted || expectedMovedCount == 0) { QCOMPARE(rowsAboutToBeInsertedSpy.count(), 0); QCOMPARE(rowsInsertedSpy.count(), 0); } if (signalType != RowsRemoved || expectedMovedCount == 0) { QCOMPARE(rowsAboutToBeRemovedSpy.count(), 0); QCOMPARE(rowsRemovedSpy.count(), 0); } if (expectedMovedCount != 0) { if (signalType == RowsMoved) { QCOMPARE(rowsAboutToBeMovedSpy.count(), 1); QCOMPARE(rowsMovedSpy.count(), 1); QVariantList rowsAboutToBeMovedArgs = rowsAboutToBeMovedSpy.first(); QVariantList rowsMovedArgs = rowsMovedSpy.first(); QCOMPARE(rowsAboutToBeMovedArgs, rowsMovedArgs); QCOMPARE(rowsAboutToBeMovedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeMovedArgs.at(1).toInt(), tmaSourceItemIdx); QCOMPARE(rowsAboutToBeMovedArgs.at(2).toInt(), tmaSourceItemIdx + expectedMovedCount - 1); QCOMPARE(rowsAboutToBeMovedArgs.at(3).toModelIndex(), QModelIndex()); if (tmaDestItemIdx != -1) QCOMPARE(rowsAboutToBeMovedArgs.at(4).toInt(), tmaDestItemIdx); } else if (signalType == RowsInserted) { // We only test with one level of expanded children here, so we can do // exhaustive testing depending on whether the moved row is expanded. int signalCount = expandSource ? 2 : 1; QCOMPARE(rowsAboutToBeInsertedSpy.count(), signalCount); QCOMPARE(rowsInsertedSpy.count(), signalCount); QVariantList rowsAboutToBeInsertedArgs = rowsAboutToBeInsertedSpy.takeFirst(); QVariantList rowsInsertedArgs = rowsInsertedSpy.takeFirst(); QCOMPARE(rowsAboutToBeInsertedArgs, rowsInsertedArgs); QCOMPARE(rowsAboutToBeInsertedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeInsertedArgs.at(1).toInt(), tmaDestItemIdx); if (expandSource) { QCOMPARE(rowsAboutToBeInsertedArgs.at(2).toInt(), tmaDestItemIdx); rowsAboutToBeInsertedArgs = rowsAboutToBeInsertedSpy.first(); rowsInsertedArgs = rowsInsertedSpy.first(); QCOMPARE(rowsAboutToBeInsertedArgs, rowsInsertedArgs); QCOMPARE(rowsAboutToBeInsertedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeInsertedArgs.at(1).toInt(), tmaDestItemIdx + 1); } QCOMPARE(rowsAboutToBeInsertedArgs.at(2).toInt(), tmaDestItemIdx + expectedMovedCount - 1); QCOMPARE(tma.itemIndex(model.index(destRow, 0, destParentIdx)), tmaDestItemIdx); } else if (signalType == RowsRemoved) { QCOMPARE(rowsAboutToBeRemovedSpy.count(), 1); QCOMPARE(rowsRemovedSpy.count(), 1); QVariantList rowsAboutToBeRemovedArgs = rowsAboutToBeRemovedSpy.first(); QVariantList rowsRemovedArgs = rowsRemovedSpy.first(); QCOMPARE(rowsAboutToBeRemovedArgs, rowsRemovedArgs); QCOMPARE(rowsAboutToBeRemovedArgs.at(0).toModelIndex(), QModelIndex()); QCOMPARE(rowsAboutToBeRemovedArgs.at(1).toInt(), tmaSourceItemIdx); QCOMPARE(rowsAboutToBeRemovedArgs.at(2).toInt(), tmaSourceItemIdx + expectedMovedCount - 1); } } QVERIFY(tma.testConsistency()); compareModels(tma, model); } void tst_QQuickTreeModelAdaptor::reparentOnSameRow() { TestModel model(2, 1); model.alternateChildlessRows = false; QQuickTreeModelAdaptor1 tma; tma.setModel(&model); const QModelIndex &destParent = model.index(0, 0); const QModelIndex &sourceParent = QModelIndex(); QVERIFY(destParent.isValid()); tma.expand(destParent); QVERIFY(tma.isExpanded(destParent)); QSignalSpy dataChangedSpy(&tma, SIGNAL(dataChanged(QModelIndex,QModelIndex,QVector))); QSignalSpy rowsMovedSpy(&tma, SIGNAL(rowsMoved(QModelIndex,int,int,QModelIndex,int))); QVERIFY(rowsMovedSpy.isValid()); QVERIFY(dataChangedSpy.isValid()); QVERIFY(model.moveRows(sourceParent, 1, 1, destParent, 2)); QModelIndex movedIndex = tma.index(3, 0, QModelIndex()); QVERIFY(movedIndex.isValid()); QCOMPARE(movedIndex.data(QQuickTreeModelAdaptor1::DepthRole).toInt(), 1); QCOMPARE(tma.data(movedIndex, QQuickTreeModelAdaptor1::ModelIndexRole).toModelIndex(), model.index(2, 0, destParent)); // at least DepthRole and ModeIndexRole changes should have happened for the affected row bool depthChanged = false; bool modelIndexChanged = false; QList > &changes = dataChangedSpy; foreach (QList change, changes) { if (change.at(0) == movedIndex) { if (change.at(2).value >().contains(QQuickTreeModelAdaptor1::DepthRole)) depthChanged = true; if (change.at(2).value >().contains(QQuickTreeModelAdaptor1::ModelIndexRole)) modelIndexChanged = true; } } QCOMPARE(depthChanged, true); QCOMPARE(modelIndexChanged, true); QCOMPARE(rowsMovedSpy.count(), 0); model.moveRow(destParent, 2, QModelIndex(), 1); QCOMPARE(rowsMovedSpy.count(), 0); QVERIFY(tma.testConsistency()); compareModels(tma, model); } void tst_QQuickTreeModelAdaptor::selectionForRowRange() { const int ModelRowCount = 9; const int ModelRowCountLoopStep = 4; TestModel model(ModelRowCount, 1); model.alternateChildlessRows = false; QQuickTreeModelAdaptor1 tma; tma.setModel(&model); // NOTE: Some selections may look a bit cryptic. Insert a call to // tma.dump() before each block if you need to see what's going on. for (int i = 0; i < ModelRowCount; i += ModelRowCountLoopStep) { // Single row selection const QModelIndex &idx = model.index(i, 0); const QItemSelection &sel = tma.selectionForRowRange(idx, idx); QCOMPARE(sel.count(), 1); const QItemSelectionRange &range = sel.first(); QCOMPARE(QModelIndex(range.topLeft()), model.index(i, 0)); QCOMPARE(QModelIndex(range.bottomRight()), model.index(i, 0)); } for (int i = 0; i < ModelRowCount - ModelRowCountLoopStep; i += ModelRowCountLoopStep) { // Single range selection const QModelIndex &from = model.index(i, 0); const QModelIndex &to = model.index(i + ModelRowCountLoopStep, 0); const QItemSelection &sel = tma.selectionForRowRange(from, to); QCOMPARE(sel.count(), 1); const QItemSelectionRange &range = sel.first(); QCOMPARE(QModelIndex(range.topLeft()), model.index(i, 0)); QCOMPARE(QModelIndex(range.bottomRight()), model.index(i + ModelRowCountLoopStep, 0)); } { // Select all, no branch expanded const QModelIndex &from = model.index(0, 0); const QModelIndex &to = model.index(ModelRowCount - 1, 0); const QItemSelection &sel = tma.selectionForRowRange(from, to); QCOMPARE(sel.count(), 1); const QItemSelectionRange &range = sel.first(); QCOMPARE(QModelIndex(range.topLeft()), model.index(0, 0)); QCOMPARE(QModelIndex(range.bottomRight()), model.index(ModelRowCount - 1, 0)); } // Expand 1st top-level item const QModelIndex &parent = model.index(0, 0); tma.expand(parent); { // 1st item expanded, select first 5 rows const QModelIndex &from = tma.mapRowToModelIndex(0); const QModelIndex &to = tma.mapRowToModelIndex(4); const QItemSelection &sel = tma.selectionForRowRange(from, to); QCOMPARE(sel.count(), 2); // We don't know in which order the selection ranges are // being added, so we iterate and try to find what we expect. foreach (const QItemSelectionRange &range, sel) { if (range.topLeft() == model.index(0, 0)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(0, 0)); else if (range.topLeft() == model.index(0, 0, parent)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(3, 0, parent)); else QFAIL("Unexpected selection range"); } } { // 1st item expanded, select first 5 top-level items const QModelIndex &from = tma.mapRowToModelIndex(0); const QModelIndex &to = tma.mapRowToModelIndex(4 + ModelRowCount); const QItemSelection &sel = tma.selectionForRowRange(from, to); QCOMPARE(sel.count(), 2); // We don't know in which order the selection ranges are // being added, so we iterate and try to find what we expect. foreach (const QItemSelectionRange &range, sel) { if (range.topLeft() == model.index(0, 0)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(4, 0)); else if (range.topLeft() == model.index(0, 0, parent)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(ModelRowCount - 1, 0, parent)); else QFAIL("Unexpected selection range"); } } // Expand 2nd top-level item const QModelIndex &parent2 = model.index(1, 0); tma.expand(parent2); { // 1st two items expanded, select first 5 top-level items const QModelIndex &from = tma.mapRowToModelIndex(0); const QModelIndex &to = tma.mapRowToModelIndex(4 + 2 * ModelRowCount); const QItemSelection &sel = tma.selectionForRowRange(from, to); QCOMPARE(sel.count(), 3); // We don't know in which order the selection ranges are // being added, so we iterate and try to find what we expect. foreach (const QItemSelectionRange &range, sel) { if (range.topLeft() == model.index(0, 0)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(4, 0)); else if (range.topLeft() == model.index(0, 0, parent)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(ModelRowCount - 1, 0, parent)); else if (range.topLeft() == model.index(0, 0, parent2)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(ModelRowCount - 1, 0, parent2)); else QFAIL("Unexpected selection range"); } } // Expand 1st child of 1st top-level item const QModelIndex &parent3 = model.index(0, 0, parent); tma.expand(parent3); { // 1st two items, and 1st child of 1st item expanded, select first 5 rows const QModelIndex &from = tma.mapRowToModelIndex(0); const QModelIndex &to = tma.mapRowToModelIndex(4); const QItemSelection &sel = tma.selectionForRowRange(from, to); QCOMPARE(sel.count(), 3); // We don't know in which order the selection ranges are // being added, so we iterate and try to find what we expect. foreach (const QItemSelectionRange &range, sel) { if (range.topLeft() == model.index(0, 0)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(0, 0)); else if (range.topLeft() == model.index(0, 0, parent)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(0, 0, parent)); else if (range.topLeft() == model.index(0, 0, parent3)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(2, 0, parent3)); else QFAIL("Unexpected selection range"); } } { // 1st two items, and 1st child of 1st item expanded, select all const QModelIndex &from = tma.mapRowToModelIndex(0); const QModelIndex &to = tma.mapRowToModelIndex(4 * ModelRowCount - 1); const QItemSelection &sel = tma.selectionForRowRange(from, to); QCOMPARE(sel.count(), 4); // We don't know in which order the selection ranges are // being added, so we iterate and try to find what we expect. foreach (const QItemSelectionRange &range, sel) { if (range.topLeft() == model.index(0, 0)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(ModelRowCount - 1, 0)); else if (range.topLeft() == model.index(0, 0, parent)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(ModelRowCount - 1, 0, parent)); else if (range.topLeft() == model.index(0, 0, parent2)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(ModelRowCount - 1, 0, parent2)); else if (range.topLeft() == model.index(0, 0, parent3)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(ModelRowCount - 1, 0, parent3)); else QFAIL("Unexpected selection range"); } } { // 1st two items, and 1st child of 1st item expanded, select rows across branches const QModelIndex &from = tma.mapRowToModelIndex(8); const QModelIndex &to = tma.mapRowToModelIndex(23); const QItemSelection &sel = tma.selectionForRowRange(from, to); QCOMPARE(sel.count(), 4); // We don't know in which order the selection ranges are // being added, so we iterate and try to find what we expect. foreach (const QItemSelectionRange &range, sel) { if (range.topLeft() == model.index(1, 0)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(1, 0)); else if (range.topLeft() == model.index(1, 0, parent)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(ModelRowCount - 1, 0, parent)); else if (range.topLeft() == model.index(0, 0, parent2)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(3, 0, parent2)); else if (range.topLeft() == model.index(6, 0, parent3)) QCOMPARE(QModelIndex(range.bottomRight()), model.index(ModelRowCount - 1, 0, parent3)); else QFAIL("Unexpected selection range"); } } } void tst_QQuickTreeModelAdaptor::hasChildrenEmit() { TestModel model(1, 1); model.alternateChildlessRows = false; QQuickTreeModelAdaptor1 tma; tma.setModel(&model); QModelIndex root = model.index(0,0); QVERIFY(root.isValid()); QModelIndex child = root.child(0,0); QVERIFY(child.isValid()); // Root not expanded , child not expanded, insert in child, expect no datachanged { QVERIFY(!tma.isExpanded(root)); QVERIFY(!tma.isExpanded(child)); QSignalSpy dataChangedSpy(&tma, SIGNAL(dataChanged(QModelIndex,QModelIndex,QVector))); QCOMPARE(dataChangedSpy.count(), 0); QCOMPARE(model.rowCount(child), 1); model.insertRow(1, child); QCOMPARE(model.rowCount(child), 2); QCOMPARE(dataChangedSpy.count(), 0); } // Root not expanded, insert in root, expect datachanged { QVERIFY(!tma.isExpanded(root)); QSignalSpy dataChangedSpy(&tma, SIGNAL(dataChanged(QModelIndex,QModelIndex,QVector))); QCOMPARE(dataChangedSpy.count(), 0); QCOMPARE(model.rowCount(root), 1); model.insertRow(1, root); QCOMPARE(model.rowCount(root), 2); QCOMPARE(dataChangedSpy.count(), 1); } // Root not expanded, child not expanded, remove in child, expect no datachanged { QVERIFY(!tma.isExpanded(root)); QVERIFY(!tma.isExpanded(child)); QSignalSpy dataChangedSpy(&tma, SIGNAL(dataChanged(QModelIndex,QModelIndex,QVector))); QCOMPARE(dataChangedSpy.count(), 0); QCOMPARE(model.rowCount(child), 2); model.removeRow(1, child); QCOMPARE(model.rowCount(child), 1); QCOMPARE(dataChangedSpy.count(), 0); } // Root not expanded, remove in root, expected datachanged on hasChildren { QVERIFY(!tma.isExpanded(root)); QSignalSpy dataChangedSpy(&tma, SIGNAL(dataChanged(QModelIndex,QModelIndex,QVector))); QCOMPARE(dataChangedSpy.count(), 0); QCOMPARE(model.rowCount(root), 2); model.removeRow(1, root); QCOMPARE(model.rowCount(root), 1); QCOMPARE(dataChangedSpy.count(), 1); } } QTEST_MAIN(tst_QQuickTreeModelAdaptor) #include "tst_qquicktreemodeladaptor.moc"