/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** 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, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include //TESTED_CLASS=QAbstractListModel QAbstractTableModel //TESTED_FILES= #include "dynamictreemodel.h" Q_DECLARE_METATYPE(QModelIndex) /*! Note that this doesn't test models, but any functionality that QAbstractItemModel shoudl provide */ class tst_QAbstractItemModel : public QObject { Q_OBJECT public: tst_QAbstractItemModel(); virtual ~tst_QAbstractItemModel(); public slots: void initTestCase(); void cleanupTestCase(); void init(); void cleanup(); private slots: void index(); void parent(); void hasChildren(); void _data(); void headerData(); void itemData(); void itemFlags(); void match(); void dropMimeData_data(); void dropMimeData(); void changePersistentIndex(); void movePersistentIndex(); void insertRows(); void insertColumns(); void removeRows(); void removeColumns(); void reset(); void complexChangesWithPersistent(); void testMoveSameParentUp_data(); void testMoveSameParentUp(); void testMoveSameParentDown_data(); void testMoveSameParentDown(); void testMoveToGrandParent_data(); void testMoveToGrandParent(); void testMoveToSibling_data(); void testMoveToSibling(); void testMoveToUncle_data(); void testMoveToUncle(); void testMoveToDescendants(); void testMoveWithinOwnRange_data(); void testMoveWithinOwnRange(); void testMoveThroughProxy(); void testReset(); private: DynamicTreeModel *m_model; }; /*! Test model that impliments the pure vitual functions and anything else that is needed. It is a table implimented as a vector of vectors of strings. */ class QtTestModel: public QAbstractItemModel { public: QtTestModel(int rows, int columns, QObject *parent = 0); QtTestModel(const QVector > tbl, QObject *parent = 0); QModelIndex index(int row, int column, const QModelIndex &parent = QModelIndex()) const; QModelIndex parent(const QModelIndex &) const; int rowCount(const QModelIndex &parent) const; int columnCount(const QModelIndex &parent) const; bool hasChildren(const QModelIndex &) const; QVariant data(const QModelIndex &idx, int) const; bool setData(const QModelIndex &idx, const QVariant &value, int); bool insertRows(int row, int count, const QModelIndex &parent= QModelIndex()); bool insertColumns(int column, int count, const QModelIndex &parent= QModelIndex()); void setPersistent(const QModelIndex &from, const QModelIndex &to); bool removeRows ( int row, int count, const QModelIndex & parent = QModelIndex() ); bool removeColumns( int column, int count, const QModelIndex & parent = QModelIndex()); void reset(); int cCount, rCount; mutable bool wrongIndex; QVector > table; }; QtTestModel::QtTestModel(int rows, int columns, QObject *parent) : QAbstractItemModel(parent), cCount(columns), rCount(rows), wrongIndex(false) { table.resize(rows); for (int r = 0; r < rows; ++r) { table[r].resize(columns); for (int c = 0; c < columns; ++c) table[r][c] = QString("%1/%2").arg(r).arg(c); } } QtTestModel::QtTestModel(const QVector > tbl, QObject *parent) : QAbstractItemModel(parent), wrongIndex(false) { table = tbl; rCount = tbl.count(); cCount = tbl.at(0).count(); } QModelIndex QtTestModel::index(int row, int column, const QModelIndex &parent) const { return hasIndex(row, column, parent) ? createIndex(row, column, 0) : QModelIndex(); } QModelIndex QtTestModel::parent(const QModelIndex &) const { return QModelIndex(); } int QtTestModel::rowCount(const QModelIndex &parent) const { return parent.isValid() ? 0 : rCount; } int QtTestModel::columnCount(const QModelIndex &parent) const { return parent.isValid() ? 0 : cCount; } bool QtTestModel::hasChildren(const QModelIndex &) const { return false; } QVariant QtTestModel::data(const QModelIndex &idx, int) const { if (idx.row() < 0 || idx.column() < 0 || idx.column() > cCount || idx.row() > rCount) { wrongIndex = true; qWarning("got invalid modelIndex %d/%d", idx.row(), idx.column()); return QVariant(); } return table.at(idx.row()).at(idx.column()); } bool QtTestModel::setData(const QModelIndex &idx, const QVariant &value, int) { table[idx.row()][idx.column()] = value.toString(); return true; } bool QtTestModel::insertRows(int row, int count, const QModelIndex &parent) { QAbstractItemModel::beginInsertRows(parent, row, row + count - 1); int cc = columnCount(parent); table.insert(row, count, QVector(cc)); rCount = table.count(); QAbstractItemModel::endInsertRows(); return true; } bool QtTestModel::insertColumns(int column, int count, const QModelIndex &parent) { QAbstractItemModel::beginInsertColumns(parent, column, column + count - 1); int rc = rowCount(parent); for (int i = 0; i < rc; ++i) table[i].insert(column, 1, ""); cCount = table.at(0).count(); QAbstractItemModel::endInsertColumns(); return true; } void QtTestModel::setPersistent(const QModelIndex &from, const QModelIndex &to) { changePersistentIndex(from, to); } bool QtTestModel::removeRows( int row, int count, const QModelIndex & parent) { QAbstractItemModel::beginRemoveRows(parent, row, row + count - 1); for (int r = row+count-1; r >= row; --r) table.remove(r); rCount = table.count(); QAbstractItemModel::endRemoveRows(); return true; } bool QtTestModel::removeColumns(int column, int count, const QModelIndex & parent) { QAbstractItemModel::beginRemoveColumns(parent, column, column + count - 1); for (int c = column+count-1; c > column; --c) for (int r = 0; r < rCount; ++r) table[r].remove(c); cCount = table.at(0).count(); QAbstractItemModel::endRemoveColumns(); return true; } void QtTestModel::reset() { QAbstractItemModel::reset(); } tst_QAbstractItemModel::tst_QAbstractItemModel() { } tst_QAbstractItemModel::~tst_QAbstractItemModel() { } /** * The source Model *must* be initialized before the _data function, since the _data function uses QModelIndexes to reference the items in the tables. * Therefore, we must initialize it globally. */ void tst_QAbstractItemModel::initTestCase() { qRegisterMetaType("QModelIndex"); } void tst_QAbstractItemModel::cleanupTestCase() { } void tst_QAbstractItemModel::init() { m_model = new DynamicTreeModel(this); ModelInsertCommand *insertCommand = new ModelInsertCommand(m_model, this); insertCommand->setNumCols(4); insertCommand->setStartRow(0); insertCommand->setEndRow(9); insertCommand->doCommand(); insertCommand = new ModelInsertCommand(m_model, this); insertCommand->setAncestorRowNumbers(QList() << 5); insertCommand->setNumCols(4); insertCommand->setStartRow(0); insertCommand->setEndRow(9); insertCommand->doCommand(); } void tst_QAbstractItemModel::cleanup() { } /* tests */ void tst_QAbstractItemModel::index() { QtTestModel model(1, 1); QModelIndex idx = model.index(0, 0, QModelIndex()); QVERIFY(idx.isValid()); } void tst_QAbstractItemModel::parent() { QtTestModel model(1, 1); QModelIndex idx = model.index(0, 0, QModelIndex()); QModelIndex par = model.parent(idx); QVERIFY(!par.isValid()); } void tst_QAbstractItemModel::hasChildren() { QtTestModel model(1, 1); QModelIndex idx = model.index(0, 0, QModelIndex()); QVERIFY(model.hasChildren(idx) == false); } void tst_QAbstractItemModel::_data() { QtTestModel model(1, 1); QModelIndex idx = model.index(0, 0, QModelIndex()); QVERIFY(idx.isValid()); QCOMPARE(model.data(idx, Qt::DisplayRole).toString(), QString("0/0")); // Default does nothing QCOMPARE(model.setHeaderData(0, Qt::Horizontal, QVariant(0), 0), false); } void tst_QAbstractItemModel::headerData() { QtTestModel model(1, 1); QCOMPARE(model.headerData(0, Qt::Horizontal, Qt::DisplayRole).toString(), QString("1")); // Default text alignment for header must be invalid QVERIFY( !model.headerData(0, Qt::Horizontal, Qt::TextAlignmentRole).isValid() ); } void tst_QAbstractItemModel::itemData() { QtTestModel model(1, 1); QModelIndex idx = model.index(0, 0, QModelIndex()); QVERIFY(idx.isValid()); QMap dat = model.itemData(idx); QCOMPARE(dat.count(Qt::DisplayRole), 1); QCOMPARE(dat.value(Qt::DisplayRole).toString(), QString("0/0")); } void tst_QAbstractItemModel::itemFlags() { QtTestModel model(1, 1); QModelIndex idx = model.index(0, 0, QModelIndex()); QVERIFY(idx.isValid()); Qt::ItemFlags flags = model.flags(idx); QCOMPARE(Qt::ItemIsSelectable|Qt::ItemIsEnabled, flags); } void tst_QAbstractItemModel::match() { QtTestModel model(4, 1); QModelIndex start = model.index(0, 0, QModelIndex()); QVERIFY(start.isValid()); QModelIndexList res = model.match(start, Qt::DisplayRole, QVariant("1"), 3); QCOMPARE(res.count(), 1); QModelIndex idx = model.index(1, 0, QModelIndex()); bool areEqual = (idx == res.first()); QVERIFY(areEqual); model.setData(model.index(0, 0, QModelIndex()), "bat", Qt::DisplayRole); model.setData(model.index(1, 0, QModelIndex()), "cat", Qt::DisplayRole); model.setData(model.index(2, 0, QModelIndex()), "dog", Qt::DisplayRole); model.setData(model.index(3, 0, QModelIndex()), "boar", Qt::DisplayRole); res = model.match(start, Qt::DisplayRole, QVariant("dog"), -1, Qt::MatchExactly); QCOMPARE(res.count(), 1); res = model.match(start, Qt::DisplayRole, QVariant("a"), -1, Qt::MatchContains); QCOMPARE(res.count(), 3); res = model.match(start, Qt::DisplayRole, QVariant("b"), -1, Qt::MatchStartsWith); QCOMPARE(res.count(), 2); res = model.match(start, Qt::DisplayRole, QVariant("t"), -1, Qt::MatchEndsWith); QCOMPARE(res.count(), 2); res = model.match(start, Qt::DisplayRole, QVariant("*a*"), -1, Qt::MatchWildcard); QCOMPARE(res.count(), 3); res = model.match(start, Qt::DisplayRole, QVariant(".*O.*"), -1, Qt::MatchRegExp); QCOMPARE(res.count(), 2); res = model.match(start, Qt::DisplayRole, QVariant(".*O.*"), -1, Qt::MatchRegExp | Qt::MatchCaseSensitive); QCOMPARE(res.count(), 0); res = model.match(start, Qt::DisplayRole, QVariant("BOAR"), -1, Qt::MatchFixedString); QCOMPARE(res.count(), 1); res = model.match(start, Qt::DisplayRole, QVariant("bat"), -1, Qt::MatchFixedString | Qt::MatchCaseSensitive); QCOMPARE(res.count(), 1); } typedef QPair Position; typedef QVector > Selection; typedef QVector > StringTable; typedef QVector StringTableRow; Q_DECLARE_METATYPE(Position) Q_DECLARE_METATYPE(Selection) Q_DECLARE_METATYPE(StringTable) static StringTableRow qStringTableRow(const QString &s1, const QString &s2, const QString &s3) { StringTableRow row; row << s1 << s2 << s3; return row; } #ifdef Q_CC_MSVC # define STRINGTABLE (StringTable()) #else # define STRINGTABLE StringTable() #endif void tst_QAbstractItemModel::dropMimeData_data() { QTest::addColumn("src_table"); // drag source QTest::addColumn("dst_table"); // drop target QTest::addColumn("selection"); // dragged items QTest::addColumn("dst_position"); // drop position QTest::addColumn("res_table"); // expected result { QTest::newRow("2x2 dropped at [0, 0]") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection << Position(0, 0) << Position(0, 1) << Position(1, 0) << Position(1, 1)) << Position(0, 0) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("A", "B", "" )) << (qStringTableRow("D", "E", "" )) << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))); } { QTest::newRow("2x2 dropped at [1, 0]") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection << Position(0, 0) << Position(0, 1) << Position(1, 0) << Position(1, 1)) << Position(1, 0) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("A", "B", "" )) << (qStringTableRow("D", "E", "" )) << (qStringTableRow("3", "4", "5"))); } { QTest::newRow("2x2 dropped at [3, 0]") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection << Position(0, 0) << Position(0, 1) << Position(1, 0) << Position(1, 1)) << Position(3, 0) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5")) << (qStringTableRow("A", "B", "" )) << (qStringTableRow("D", "E", "" ))); } { QTest::newRow("2x2 dropped at [0, 1]") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection << Position(0, 0) << Position(0, 1) << Position(1, 0) << Position(1, 1)) << Position(0, 1) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("" , "A", "B")) << (qStringTableRow("" , "D", "E")) << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))); } { QTest::newRow("2x2 dropped at [0, 2] (line break)") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection << Position(0, 0) << Position(0, 1) << Position(1, 0) << Position(1, 1)) << Position(0, 2) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("" , "" , "A")) << (qStringTableRow("" , "" , "D")) << (qStringTableRow("" , "" , "B")) << (qStringTableRow("" , "" , "E")) << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))); } { QTest::newRow("2x2 dropped at [3, 2] (line break)") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection << Position(0, 0) << Position(0, 1) << Position(1, 0) << Position(1, 1)) << Position(3, 2) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5")) << (qStringTableRow("" , "" , "A")) << (qStringTableRow("" , "" , "D")) << (qStringTableRow("" , "" , "B")) << (qStringTableRow("" , "" , "E"))); } { QTest::newRow("non-square dropped at [0, 0]") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection << Position(0, 0) << Position(0, 1) << Position(1, 0)) << Position(0, 0) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("A", "B", "" )) << (qStringTableRow("D", "" , "" )) << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))); } { QTest::newRow("non-square dropped at [0, 2]") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection << Position(0, 0) << Position(0, 1) << Position(1, 0)) << Position(0, 2) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("" , "" , "A")) << (qStringTableRow("" , "" , "D")) << (qStringTableRow("" , "" , "B")) << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))); } { QTest::newRow("2x 1x2 dropped at [0, 0] (duplicates)") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection; 2x the same row (to simulate selections in hierarchy) << Position(0, 0) << Position(0, 1) << Position(0, 0) << Position(0, 1)) << Position(0, 0) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("A", "B", "" )) << (qStringTableRow("A", "" , "" )) << (qStringTableRow("" , "B", "" )) // ### FIXME: strange behavior, but rare case << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))); } { QTest::newRow("2x 1x2 dropped at [3, 2] (duplicates)") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection; 2x the same row (to simulate selections in hierarchy) << Position(0, 0) << Position(0, 1) << Position(0, 0) << Position(0, 1)) << Position(3, 2) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5")) << (qStringTableRow("" , "" , "A")) << (qStringTableRow("" , "" , "B")) << (qStringTableRow("" , "" , "A")) << (qStringTableRow("" , "" , "B"))); } { QTest::newRow("2x 1x2 dropped at [3, 2] (different rows)") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F")) << (qStringTableRow("G", "H", "I"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection; 2x the same row (to simulate selections in hierarchy) << Position(0, 0) << Position(0, 1) << Position(2, 0) << Position(2, 1)) << Position(2, 1) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5")) << (qStringTableRow("" , "A" , "B")) << (qStringTableRow("" , "G" , "H"))); } { QTest::newRow("2x 1x2 dropped at [3, 2] (different rows, over the edge)") << (STRINGTABLE // source table << (qStringTableRow("A", "B", "C")) << (qStringTableRow("D", "E", "F")) << (qStringTableRow("G", "H", "I"))) << (STRINGTABLE // destination table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5"))) << (Selection() // selection; 2x the same row (to simulate selections in hierarchy) << Position(0, 0) << Position(0, 1) << Position(2, 0) << Position(2, 1)) << Position(3, 2) // drop position << (STRINGTABLE // resulting table << (qStringTableRow("0", "1", "2")) << (qStringTableRow("3", "4", "5")) << (qStringTableRow("" , "" , "A")) << (qStringTableRow("" , "" , "G")) << (qStringTableRow("" , "" , "B")) << (qStringTableRow("" , "" , "H"))); } } void tst_QAbstractItemModel::dropMimeData() { QFETCH(StringTable, src_table); QFETCH(StringTable, dst_table); QFETCH(Selection, selection); QFETCH(Position, dst_position); QFETCH(StringTable, res_table); QtTestModel src(src_table); QtTestModel dst(dst_table); QtTestModel res(res_table); // qDebug() << "src" << src.rowCount(QModelIndex()) << src.columnCount(QModelIndex()); // qDebug() << "dst" << dst.rowCount(QModelIndex()) << dst.columnCount(QModelIndex()); // qDebug() << "res" << res.rowCount(QModelIndex()) << res.columnCount(QModelIndex()); // get the mimeData from the "selected" indexes QModelIndexList selectedIndexes; for (int i = 0; i < selection.count(); ++i) selectedIndexes << src.index(selection.at(i).first, selection.at(i).second, QModelIndex()); QMimeData *md = src.mimeData(selectedIndexes); // do the drop dst.dropMimeData(md, Qt::CopyAction, dst_position.first, dst_position.second, QModelIndex()); delete md; // compare to the expected results QCOMPARE(dst.rowCount(QModelIndex()), res.rowCount(QModelIndex())); QCOMPARE(dst.columnCount(QModelIndex()), res.columnCount(QModelIndex())); for (int r = 0; r < dst.rowCount(QModelIndex()); ++r) { for (int c = 0; c < dst.columnCount(QModelIndex()); ++c) { QModelIndex dst_idx = dst.index(r, c, QModelIndex()); QModelIndex res_idx = res.index(r, c, QModelIndex()); QMap dst_data = dst.itemData(dst_idx); QMap res_data = res.itemData(res_idx); //if(dst_data != res_data) // qDebug() << r << c << dst_data.value(0).toString() << res_data.value(0).toString(); QCOMPARE(dst_data , res_data); } } } void tst_QAbstractItemModel::changePersistentIndex() { QtTestModel model(3, 3); QModelIndex a = model.index(1, 2, QModelIndex()); QModelIndex b = model.index(2, 1, QModelIndex()); QPersistentModelIndex p(a); QVERIFY(p == a); model.setPersistent(a, b); QVERIFY(p == b); } void tst_QAbstractItemModel::movePersistentIndex() { QtTestModel model(3, 3); QPersistentModelIndex a = model.index(1, 1); QVERIFY(a.isValid()); QCOMPARE(a.row(), 1); QCOMPARE(a.column(), 1); model.insertRow(0); QCOMPARE(a.row(), 2); model.insertRow(1); QCOMPARE(a.row(), 3); model.insertColumn(0); QCOMPARE(a.column(), 2); } void tst_QAbstractItemModel::removeRows() { QtTestModel model(10, 10); QSignalSpy rowsAboutToBeRemovedSpy(&model, SIGNAL(rowsAboutToBeRemoved( const QModelIndex &, int , int ))); QSignalSpy rowsRemovedSpy(&model, SIGNAL(rowsRemoved( const QModelIndex &, int, int ))); QCOMPARE(model.removeRows(6, 4), true); QCOMPARE(rowsAboutToBeRemovedSpy.count(), 1); QCOMPARE(rowsRemovedSpy.count(), 1); } void tst_QAbstractItemModel::removeColumns() { QtTestModel model(10, 10); QSignalSpy columnsAboutToBeRemovedSpy(&model, SIGNAL(columnsAboutToBeRemoved( const QModelIndex &, int , int ))); QSignalSpy columnsRemovedSpy(&model, SIGNAL(columnsRemoved( const QModelIndex &, int, int ))); QCOMPARE(model.removeColumns(6, 4), true); QCOMPARE(columnsAboutToBeRemovedSpy.count(), 1); QCOMPARE(columnsRemovedSpy.count(), 1); } void tst_QAbstractItemModel::insertRows() { QtTestModel model(10, 10); QSignalSpy rowsAboutToBeInsertedSpy(&model, SIGNAL(rowsAboutToBeInserted( const QModelIndex &, int , int ))); QSignalSpy rowsInsertedSpy(&model, SIGNAL(rowsInserted( const QModelIndex &, int, int ))); QCOMPARE(model.insertRows(6, 4), true); QCOMPARE(rowsAboutToBeInsertedSpy.count(), 1); QCOMPARE(rowsInsertedSpy.count(), 1); } void tst_QAbstractItemModel::insertColumns() { QtTestModel model(10, 10); QSignalSpy columnsAboutToBeInsertedSpy(&model, SIGNAL(columnsAboutToBeInserted( const QModelIndex &, int , int ))); QSignalSpy columnsInsertedSpy(&model, SIGNAL(columnsInserted( const QModelIndex &, int, int ))); QCOMPARE(model.insertColumns(6, 4), true); QCOMPARE(columnsAboutToBeInsertedSpy.count(), 1); QCOMPARE(columnsInsertedSpy.count(), 1); } void tst_QAbstractItemModel::reset() { QtTestModel model(10, 10); QSignalSpy resetSpy(&model, SIGNAL(modelReset())); model.reset(); QCOMPARE(resetSpy.count(), 1); } void tst_QAbstractItemModel::complexChangesWithPersistent() { QtTestModel model(10, 10); QPersistentModelIndex a = model.index(1, 1, QModelIndex()); QPersistentModelIndex b = model.index(9, 7, QModelIndex()); QPersistentModelIndex c = model.index(5, 6, QModelIndex()); QPersistentModelIndex d = model.index(3, 9, QModelIndex()); QPersistentModelIndex e[10]; for (int i=0; i <10 ; i++) { e[i] = model.index(2, i , QModelIndex()); } QVERIFY(a == model.index(1, 1, QModelIndex())); QVERIFY(b == model.index(9, 7, QModelIndex())); QVERIFY(c == model.index(5, 6, QModelIndex())); QVERIFY(d == model.index(3, 9, QModelIndex())); for (int i=0; i <8 ; i++) QVERIFY(e[i] == model.index(2, i , QModelIndex())); //remove a bunch of columns model.removeColumns(2, 4); QVERIFY(a == model.index(1, 1, QModelIndex())); QVERIFY(b == model.index(9, 3, QModelIndex())); QVERIFY(c == model.index(5, 2, QModelIndex())); QVERIFY(d == model.index(3, 5, QModelIndex())); for (int i=0; i <2 ; i++) QVERIFY(e[i] == model.index(2, i , QModelIndex())); for (int i=2; i <6 ; i++) QVERIFY(!e[i].isValid()); for (int i=6; i <10 ; i++) QVERIFY(e[i] == model.index(2, i-4 , QModelIndex())); //move some indexes around model.setPersistent(model.index(1, 1 , QModelIndex()), model.index(9, 3 , QModelIndex())); model.setPersistent(model.index(9, 3 , QModelIndex()), model.index(8, 4 , QModelIndex())); QVERIFY(a == model.index(9, 3, QModelIndex())); QVERIFY(b == model.index(8, 4, QModelIndex())); QVERIFY(c == model.index(5, 2, QModelIndex())); QVERIFY(d == model.index(3, 5, QModelIndex())); for (int i=0; i <2 ; i++) QVERIFY(e[i] == model.index(2, i , QModelIndex())); for (int i=2; i <6 ; i++) QVERIFY(!e[i].isValid()); for (int i=6; i <10 ; i++) QVERIFY(e[i] == model.index(2, i-4 , QModelIndex())); //inserting a bunch of columns model.insertColumns(2, 2); QVERIFY(a == model.index(9, 5, QModelIndex())); QVERIFY(b == model.index(8, 6, QModelIndex())); QVERIFY(c == model.index(5, 4, QModelIndex())); QVERIFY(d == model.index(3, 7, QModelIndex())); for (int i=0; i <2 ; i++) QVERIFY(e[i] == model.index(2, i , QModelIndex())); for (int i=2; i <6 ; i++) QVERIFY(!e[i].isValid()); for (int i=6; i <10 ; i++) QVERIFY(e[i] == model.index(2, i-2 , QModelIndex())); } void tst_QAbstractItemModel::testMoveSameParentDown_data() { QTest::addColumn("startRow"); QTest::addColumn("endRow"); QTest::addColumn("destRow"); // We can't put the actual parent index for the move in here because m_model is not defined until init() is run. QTest::addColumn("topLevel"); // Move from the start to the middle QTest::newRow("move01") << 0 << 2 << 8 << true; // Move from the start to the end QTest::newRow("move02") << 0 << 2 << 10 << true; // Move from the middle to the middle QTest::newRow("move03") << 3 << 5 << 8 << true; // Move from the middle to the end QTest::newRow("move04") << 3 << 5 << 10 << true; QTest::newRow("move05") << 0 << 2 << 8 << false; QTest::newRow("move06") << 0 << 2 << 10 << false; QTest::newRow("move07") << 3 << 5 << 8 << false; QTest::newRow("move08") << 3 << 5 << 10 << false; } void tst_QAbstractItemModel::testMoveSameParentDown() { QFETCH( int, startRow); QFETCH( int, endRow); QFETCH( int, destRow); QFETCH( bool, topLevel); QModelIndex moveParent = topLevel ? QModelIndex() : m_model->index(5, 0); QList persistentList; QModelIndexList indexList; for (int column = 0; column < m_model->columnCount(); ++column) { for (int row= 0; row < m_model->rowCount(); ++row) { QModelIndex idx = m_model->index(row, column); QVERIFY(idx.isValid()); indexList << idx; persistentList << QPersistentModelIndex(idx); } } QModelIndex parent = m_model->index(5, 0); for (int column = 0; column < m_model->columnCount(); ++column) { for (int row= 0; row < m_model->rowCount(parent); ++row) { QModelIndex idx = m_model->index(row, column, parent); QVERIFY(idx.isValid()); indexList << idx; persistentList << QPersistentModelIndex(idx); } } QSignalSpy beforeSpy(m_model, SIGNAL(rowsAboutToBeMoved(const QModelIndex &, int, int, const QModelIndex &, int))); QSignalSpy afterSpy(m_model, SIGNAL(rowsMoved(const QModelIndex &, int, int, const QModelIndex &, int))); ModelMoveCommand *moveCommand = new ModelMoveCommand(m_model, this); moveCommand->setNumCols(4); if (!topLevel) moveCommand->setAncestorRowNumbers(QList() << 5); moveCommand->setStartRow(startRow); moveCommand->setEndRow(endRow); moveCommand->setDestRow(destRow); if (!topLevel) moveCommand->setDestAncestors(QList() << 5); moveCommand->doCommand(); QVariantList beforeSignal = beforeSpy.takeAt(0); QVariantList afterSignal = afterSpy.takeAt(0); QCOMPARE(beforeSignal.size(), 5); QCOMPARE(beforeSignal.at(0).value(), moveParent); QCOMPARE(beforeSignal.at(1).toInt(), startRow); QCOMPARE(beforeSignal.at(2).toInt(), endRow); QCOMPARE(beforeSignal.at(3).value(), moveParent); QCOMPARE(beforeSignal.at(4).toInt(), destRow); QCOMPARE(afterSignal.size(), 5); QCOMPARE(afterSignal.at(0).value(), moveParent); QCOMPARE(afterSignal.at(1).toInt(), startRow); QCOMPARE(afterSignal.at(2).toInt(), endRow); QCOMPARE(afterSignal.at(3).value(), moveParent); QCOMPARE(afterSignal.at(4).toInt(), destRow); for (int i = 0; i < indexList.size(); i++) { QModelIndex idx = indexList.at(i); QModelIndex persistentIndex = persistentList.at(i); if (idx.parent() == moveParent) { int row = idx.row(); if ( row >= startRow) { if (row <= endRow) { QCOMPARE(row + destRow - endRow - 1, persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); QCOMPARE(idx.parent(), persistentIndex.parent()); QCOMPARE(idx.model(), persistentIndex.model()); } else if ( row < destRow) { QCOMPARE(row - (endRow - startRow + 1), persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); QCOMPARE(idx.parent(), persistentIndex.parent()); QCOMPARE(idx.model(), persistentIndex.model()); } else { QCOMPARE(idx, persistentIndex); } } else { QCOMPARE(idx, persistentIndex); } } else { QCOMPARE(idx, persistentIndex); } } } void tst_QAbstractItemModel::testMoveSameParentUp_data() { QTest::addColumn("startRow"); QTest::addColumn("endRow"); QTest::addColumn("destRow"); QTest::addColumn("topLevel"); // Move from the middle to the start QTest::newRow("move01") << 5 << 7 << 0 << true; // Move from the end to the start QTest::newRow("move02") << 8 << 9 << 0 << true; // Move from the middle to the middle QTest::newRow("move03") << 5 << 7 << 2 << true; // Move from the end to the middle QTest::newRow("move04") << 8 << 9 << 5 << true; QTest::newRow("move05") << 5 << 7 << 0 << false; QTest::newRow("move06") << 8 << 9 << 0 << false; QTest::newRow("move07") << 5 << 7 << 2 << false; QTest::newRow("move08") << 8 << 9 << 5 << false; } void tst_QAbstractItemModel::testMoveSameParentUp() { QFETCH( int, startRow); QFETCH( int, endRow); QFETCH( int, destRow); QFETCH( bool, topLevel); QModelIndex moveParent = topLevel ? QModelIndex() : m_model->index(5, 0); QList persistentList; QModelIndexList indexList; for (int column = 0; column < m_model->columnCount(); ++column) { for (int row= 0; row < m_model->rowCount(); ++row) { QModelIndex idx = m_model->index(row, column); QVERIFY(idx.isValid()); indexList << idx; persistentList << QPersistentModelIndex(idx); } } QModelIndex parent = m_model->index(2, 0); for (int column = 0; column < m_model->columnCount(); ++column) { for (int row= 0; row < m_model->rowCount(parent); ++row) { QModelIndex idx = m_model->index(row, column, parent); QVERIFY(idx.isValid()); indexList << idx; persistentList << QPersistentModelIndex(idx); } } QSignalSpy beforeSpy(m_model, SIGNAL(rowsAboutToBeMoved(const QModelIndex &, int, int, const QModelIndex &, int))); QSignalSpy afterSpy(m_model, SIGNAL(rowsMoved(const QModelIndex &, int, int, const QModelIndex &, int))); ModelMoveCommand *moveCommand = new ModelMoveCommand(m_model, this); moveCommand->setNumCols(4); if (!topLevel) moveCommand->setAncestorRowNumbers(QList() << 5); moveCommand->setStartRow(startRow); moveCommand->setEndRow(endRow); moveCommand->setDestRow(destRow); if (!topLevel) moveCommand->setDestAncestors(QList() << 5); moveCommand->doCommand(); QVariantList beforeSignal = beforeSpy.takeAt(0); QVariantList afterSignal = afterSpy.takeAt(0); QCOMPARE(beforeSignal.size(), 5); QCOMPARE(beforeSignal.at(0).value(), moveParent); QCOMPARE(beforeSignal.at(1).toInt(), startRow); QCOMPARE(beforeSignal.at(2).toInt(), endRow); QCOMPARE(beforeSignal.at(3).value(), moveParent); QCOMPARE(beforeSignal.at(4).toInt(), destRow); QCOMPARE(afterSignal.size(), 5); QCOMPARE(afterSignal.at(0).value(), moveParent); QCOMPARE(afterSignal.at(1).toInt(), startRow); QCOMPARE(afterSignal.at(2).toInt(), endRow); QCOMPARE(afterSignal.at(3).value(), moveParent); QCOMPARE(afterSignal.at(4).toInt(), destRow); for (int i = 0; i < indexList.size(); i++) { QModelIndex idx = indexList.at(i); QModelIndex persistentIndex = persistentList.at(i); if (idx.parent() == moveParent) { int row = idx.row(); if ( row >= destRow) { if (row < startRow) { QCOMPARE(row + endRow - startRow + 1, persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); QCOMPARE(idx.parent(), persistentIndex.parent()); QCOMPARE(idx.model(), persistentIndex.model()); } else if ( row <= endRow) { QCOMPARE(row + destRow - startRow, persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); QCOMPARE(idx.parent(), persistentIndex.parent()); QCOMPARE(idx.model(), persistentIndex.model()); } else { QCOMPARE(idx, persistentIndex); } } else { QCOMPARE(idx, persistentIndex); } } else { QCOMPARE(idx, persistentIndex); } } } void tst_QAbstractItemModel::testMoveThroughProxy() { QSortFilterProxyModel *proxy = new QSortFilterProxyModel(this); proxy->setSourceModel(m_model); QList persistentList; persistentList.append(proxy->index(0, 0)); persistentList.append(proxy->index(0, 0, proxy->mapFromSource(m_model->index(5, 0)))); ModelMoveCommand *moveCommand = new ModelMoveCommand(m_model, this); moveCommand->setNumCols(4); moveCommand->setAncestorRowNumbers(QList() << 5); moveCommand->setStartRow(0); moveCommand->setEndRow(0); moveCommand->setDestRow(0); moveCommand->doCommand(); } void tst_QAbstractItemModel::testMoveToGrandParent_data() { QTest::addColumn("startRow"); QTest::addColumn("endRow"); QTest::addColumn("destRow"); // Move from the start to the middle QTest::newRow("move01") << 0 << 2 << 8; // Move from the start to the end QTest::newRow("move02") << 0 << 2 << 10; // Move from the middle to the middle QTest::newRow("move03") << 3 << 5 << 8; // Move from the middle to the end QTest::newRow("move04") << 3 << 5 << 10; // Move from the middle to the start QTest::newRow("move05") << 5 << 7 << 0; // Move from the end to the start QTest::newRow("move06") << 8 << 9 << 0; // Move from the middle to the middle QTest::newRow("move07") << 5 << 7 << 2; // Move from the end to the middle QTest::newRow("move08") << 8 << 9 << 5; // Moving to the same row in a different parent doesn't confuse things. QTest::newRow("move09") << 8 << 8 << 8; // Moving to the row of my parent and its neighbours doesn't confuse things QTest::newRow("move09") << 8 << 8 << 4; QTest::newRow("move10") << 8 << 8 << 5; QTest::newRow("move11") << 8 << 8 << 6; // Moving everything from one parent to another QTest::newRow("move12") << 0 << 9 << 10; } void tst_QAbstractItemModel::testMoveToGrandParent() { QFETCH( int, startRow); QFETCH( int, endRow); QFETCH( int, destRow); QList persistentList; QModelIndexList indexList; QModelIndexList parentsList; for (int column = 0; column < m_model->columnCount(); ++column) { for (int row= 0; row < m_model->rowCount(); ++row) { QModelIndex idx = m_model->index(row, column); QVERIFY(idx.isValid()); indexList << idx; parentsList << idx.parent(); persistentList << QPersistentModelIndex(idx); } } QModelIndex sourceIndex = m_model->index(5, 0); for (int column = 0; column < m_model->columnCount(); ++column) { for (int row= 0; row < m_model->rowCount(sourceIndex); ++row) { QModelIndex idx = m_model->index(row, column, sourceIndex); QVERIFY(idx.isValid()); indexList << idx; parentsList << idx.parent(); persistentList << QPersistentModelIndex(idx); } } QSignalSpy beforeSpy(m_model, SIGNAL(rowsAboutToBeMoved(const QModelIndex &, int, int, const QModelIndex &, int))); QSignalSpy afterSpy(m_model, SIGNAL(rowsMoved(const QModelIndex &, int, int, const QModelIndex &, int))); ModelMoveCommand *moveCommand = new ModelMoveCommand(m_model, this); moveCommand->setAncestorRowNumbers(QList() << 5); moveCommand->setNumCols(4); moveCommand->setStartRow(startRow); moveCommand->setEndRow(endRow); moveCommand->setDestRow(destRow); moveCommand->doCommand(); QVariantList beforeSignal = beforeSpy.takeAt(0); QVariantList afterSignal = afterSpy.takeAt(0); QCOMPARE(beforeSignal.size(), 5); QCOMPARE(beforeSignal.at(0).value(), sourceIndex); QCOMPARE(beforeSignal.at(1).toInt(), startRow); QCOMPARE(beforeSignal.at(2).toInt(), endRow); QCOMPARE(beforeSignal.at(3).value(), QModelIndex()); QCOMPARE(beforeSignal.at(4).toInt(), destRow); QCOMPARE(afterSignal.size(), 5); QCOMPARE(afterSignal.at(0).value(), sourceIndex); QCOMPARE(afterSignal.at(1).toInt(), startRow); QCOMPARE(afterSignal.at(2).toInt(), endRow); QCOMPARE(afterSignal.at(3).value(), QModelIndex()); QCOMPARE(afterSignal.at(4).toInt(), destRow); for (int i = 0; i < indexList.size(); i++) { QModelIndex idx = indexList.at(i); QModelIndex idxParent = parentsList.at(i); QModelIndex persistentIndex = persistentList.at(i); int row = idx.row(); if (idxParent == QModelIndex()) { if ( row >= destRow) { QCOMPARE(row + endRow - startRow + 1, persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); QCOMPARE(idxParent, persistentIndex.parent()); QCOMPARE(idx.model(), persistentIndex.model()); } else { QCOMPARE(idx, persistentIndex); } } else { if (row < startRow) { QCOMPARE(idx, persistentIndex); } else if (row <= endRow) { QCOMPARE(row + destRow - startRow, persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); QCOMPARE(QModelIndex(), persistentIndex.parent()); QCOMPARE(idx.model(), persistentIndex.model()); } else { QCOMPARE(row - (endRow - startRow + 1), persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); if (idxParent.row() >= destRow) { QModelIndex adjustedParent; adjustedParent = idxParent.sibling( idxParent.row() + endRow - startRow + 1, idxParent.column()); QCOMPARE(adjustedParent, persistentIndex.parent()); } else { QCOMPARE(idxParent, persistentIndex.parent()); } QCOMPARE(idx.model(), persistentIndex.model()); } } } } void tst_QAbstractItemModel::testMoveToSibling_data() { QTest::addColumn("startRow"); QTest::addColumn("endRow"); QTest::addColumn("destRow"); // Move from the start to the middle QTest::newRow("move01") << 0 << 2 << 8; // Move from the start to the end QTest::newRow("move02") << 0 << 2 << 10; // Move from the middle to the middle QTest::newRow("move03") << 2 << 4 << 8; // Move from the middle to the end QTest::newRow("move04") << 2 << 4 << 10; // Move from the middle to the start QTest::newRow("move05") << 8 << 8 << 0; // Move from the end to the start QTest::newRow("move06") << 8 << 9 << 0; // Move from the middle to the middle QTest::newRow("move07") << 6 << 8 << 2; // Move from the end to the middle QTest::newRow("move08") << 8 << 9 << 5; // Moving to the same row in a different parent doesn't confuse things. QTest::newRow("move09") << 8 << 8 << 8; // Moving to the row of my target and its neighbours doesn't confuse things QTest::newRow("move09") << 8 << 8 << 4; QTest::newRow("move10") << 8 << 8 << 5; QTest::newRow("move11") << 8 << 8 << 6; } void tst_QAbstractItemModel::testMoveToSibling() { QFETCH( int, startRow); QFETCH( int, endRow); QFETCH( int, destRow); QList persistentList; QModelIndexList indexList; QModelIndexList parentsList; const int column = 0; for (int i= 0; i < m_model->rowCount(); ++i) { QModelIndex idx = m_model->index(i, column); QVERIFY(idx.isValid()); indexList << idx; parentsList << idx.parent(); persistentList << QPersistentModelIndex(idx); } QModelIndex destIndex = m_model->index(5, 0); QModelIndex sourceIndex; for (int i= 0; i < m_model->rowCount(destIndex); ++i) { QModelIndex idx = m_model->index(i, column, destIndex); QVERIFY(idx.isValid()); indexList << idx; parentsList << idx.parent(); persistentList << QPersistentModelIndex(idx); } QSignalSpy beforeSpy(m_model, SIGNAL(rowsAboutToBeMoved(const QModelIndex &, int, int, const QModelIndex &, int))); QSignalSpy afterSpy(m_model, SIGNAL(rowsMoved(const QModelIndex &, int, int, const QModelIndex &, int))); ModelMoveCommand *moveCommand = new ModelMoveCommand(m_model, this); moveCommand->setNumCols(4); moveCommand->setStartRow(startRow); moveCommand->setEndRow(endRow); moveCommand->setDestAncestors(QList() << 5); moveCommand->setDestRow(destRow); moveCommand->doCommand(); QVariantList beforeSignal = beforeSpy.takeAt(0); QVariantList afterSignal = afterSpy.takeAt(0); QCOMPARE(beforeSignal.size(), 5); QCOMPARE(beforeSignal.at(0).value(), sourceIndex); QCOMPARE(beforeSignal.at(1).toInt(), startRow); QCOMPARE(beforeSignal.at(2).toInt(), endRow); QCOMPARE(beforeSignal.at(3).value(), destIndex); QCOMPARE(beforeSignal.at(4).toInt(), destRow); QCOMPARE(afterSignal.size(), 5); QCOMPARE(afterSignal.at(0).value(), sourceIndex); QCOMPARE(afterSignal.at(1).toInt(), startRow); QCOMPARE(afterSignal.at(2).toInt(), endRow); QCOMPARE(afterSignal.at(3).value(), destIndex); QCOMPARE(afterSignal.at(4).toInt(), destRow); for (int i = 0; i < indexList.size(); i++) { QModelIndex idx = indexList.at(i); QModelIndex idxParent = parentsList.at(i); QModelIndex persistentIndex = persistentList.at(i); QModelIndex adjustedDestination = destIndex.sibling(destIndex.row() - (endRow - startRow + 1), destIndex.column()); int row = idx.row(); if (idxParent == destIndex) { if ( row >= destRow) { QCOMPARE(row + endRow - startRow + 1, persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); if (idxParent.row() > startRow) { QCOMPARE(adjustedDestination, persistentIndex.parent()); } else { QCOMPARE(destIndex, persistentIndex.parent()); } QCOMPARE(idx.model(), persistentIndex.model()); } else { QCOMPARE(idx, persistentIndex); } } else { if (row < startRow) { QCOMPARE(idx, persistentIndex); } else if (row <= endRow) { QCOMPARE(row + destRow - startRow, persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); if (destIndex.row() > startRow) { QCOMPARE(adjustedDestination, persistentIndex.parent()); } else { QCOMPARE(destIndex, persistentIndex.parent()); } QCOMPARE(idx.model(), persistentIndex.model()); } else { QCOMPARE(row - (endRow - startRow + 1), persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); QCOMPARE(idxParent, persistentIndex.parent()); QCOMPARE(idx.model(), persistentIndex.model()); } } } } void tst_QAbstractItemModel::testMoveToUncle_data() { QTest::addColumn("startRow"); QTest::addColumn("endRow"); QTest::addColumn("destRow"); // Move from the start to the middle QTest::newRow("move01") << 0 << 2 << 8; // Move from the start to the end QTest::newRow("move02") << 0 << 2 << 10; // Move from the middle to the middle QTest::newRow("move03") << 3 << 5 << 8; // Move from the middle to the end QTest::newRow("move04") << 3 << 5 << 10; // Move from the middle to the start QTest::newRow("move05") << 5 << 7 << 0; // Move from the end to the start QTest::newRow("move06") << 8 << 9 << 0; // Move from the middle to the middle QTest::newRow("move07") << 5 << 7 << 2; // Move from the end to the middle QTest::newRow("move08") << 8 << 9 << 5; // Moving to the same row in a different parent doesn't confuse things. QTest::newRow("move09") << 8 << 8 << 8; // Moving to the row of my parent and its neighbours doesn't confuse things QTest::newRow("move09") << 8 << 8 << 4; QTest::newRow("move10") << 8 << 8 << 5; QTest::newRow("move11") << 8 << 8 << 6; // Moving everything from one parent to another QTest::newRow("move12") << 0 << 9 << 10; } void tst_QAbstractItemModel::testMoveToUncle() { // Need to have some extra rows available. ModelInsertCommand *insertCommand = new ModelInsertCommand(m_model, this); insertCommand->setAncestorRowNumbers(QList() << 9); insertCommand->setNumCols(4); insertCommand->setStartRow(0); insertCommand->setEndRow(9); insertCommand->doCommand(); QFETCH( int, startRow); QFETCH( int, endRow); QFETCH( int, destRow); QList persistentList; QModelIndexList indexList; QModelIndexList parentsList; const int column = 0; QModelIndex sourceIndex = m_model->index(9, 0); for (int i= 0; i < m_model->rowCount(sourceIndex); ++i) { QModelIndex idx = m_model->index(i, column, sourceIndex); QVERIFY(idx.isValid()); indexList << idx; parentsList << idx.parent(); persistentList << QPersistentModelIndex(idx); } QModelIndex destIndex = m_model->index(5, 0); for (int i= 0; i < m_model->rowCount(destIndex); ++i) { QModelIndex idx = m_model->index(i, column, destIndex); QVERIFY(idx.isValid()); indexList << idx; parentsList << idx.parent(); persistentList << QPersistentModelIndex(idx); } QSignalSpy beforeSpy(m_model, SIGNAL(rowsAboutToBeMoved(const QModelIndex &, int, int, const QModelIndex &, int))); QSignalSpy afterSpy(m_model, SIGNAL(rowsMoved(const QModelIndex &, int, int, const QModelIndex &, int))); ModelMoveCommand *moveCommand = new ModelMoveCommand(m_model, this); moveCommand->setAncestorRowNumbers(QList() << 9); moveCommand->setNumCols(4); moveCommand->setStartRow(startRow); moveCommand->setEndRow(endRow); moveCommand->setDestAncestors(QList() << 5); moveCommand->setDestRow(destRow); moveCommand->doCommand(); QVariantList beforeSignal = beforeSpy.takeAt(0); QVariantList afterSignal = afterSpy.takeAt(0); QCOMPARE(beforeSignal.size(), 5); QCOMPARE(beforeSignal.at(0).value(), sourceIndex); QCOMPARE(beforeSignal.at(1).toInt(), startRow); QCOMPARE(beforeSignal.at(2).toInt(), endRow); QCOMPARE(beforeSignal.at(3).value(), destIndex); QCOMPARE(beforeSignal.at(4).toInt(), destRow); QCOMPARE(afterSignal.size(), 5); QCOMPARE(afterSignal.at(0).value(), sourceIndex); QCOMPARE(afterSignal.at(1).toInt(), startRow); QCOMPARE(afterSignal.at(2).toInt(), endRow); QCOMPARE(afterSignal.at(3).value(), destIndex); QCOMPARE(afterSignal.at(4).toInt(), destRow); for (int i = 0; i < indexList.size(); i++) { QModelIndex idx = indexList.at(i); QModelIndex idxParent = parentsList.at(i); QModelIndex persistentIndex = persistentList.at(i); int row = idx.row(); if (idxParent == destIndex) { if ( row >= destRow) { QCOMPARE(row + endRow - startRow + 1, persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); QCOMPARE(destIndex, persistentIndex.parent()); QCOMPARE(idx.model(), persistentIndex.model()); } else { QCOMPARE(idx, persistentIndex); } } else { if (row < startRow) { QCOMPARE(idx, persistentIndex); } else if (row <= endRow) { QCOMPARE(row + destRow - startRow, persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); QCOMPARE(destIndex, persistentIndex.parent()); QCOMPARE(idx.model(), persistentIndex.model()); } else { QCOMPARE(row - (endRow - startRow + 1), persistentIndex.row() ); QCOMPARE(idx.column(), persistentIndex.column()); QCOMPARE(idxParent, persistentIndex.parent()); QCOMPARE(idx.model(), persistentIndex.model()); } } } } void tst_QAbstractItemModel::testMoveToDescendants() { // Attempt to move a row to its ancestors depth rows deep. const int depth = 6; // Need to have some extra rows available in a tree. QList rows; ModelInsertCommand *insertCommand; for (int i = 0; i < depth; i++) { insertCommand = new ModelInsertCommand(m_model, this); insertCommand->setAncestorRowNumbers(rows); insertCommand->setNumCols(4); insertCommand->setStartRow(0); insertCommand->setEndRow(9); insertCommand->doCommand(); rows << 9; } QList persistentList; QModelIndexList indexList; QModelIndexList parentsList; const int column = 0; QModelIndex sourceIndex = m_model->index(9, 0); for (int i= 0; i < m_model->rowCount(sourceIndex); ++i) { QModelIndex idx = m_model->index(i, column, sourceIndex); QVERIFY(idx.isValid()); indexList << idx; parentsList << idx.parent(); persistentList << QPersistentModelIndex(idx); } QModelIndex destIndex = m_model->index(5, 0); for (int i= 0; i < m_model->rowCount(destIndex); ++i) { QModelIndex idx = m_model->index(i, column, destIndex); QVERIFY(idx.isValid()); indexList << idx; parentsList << idx.parent(); persistentList << QPersistentModelIndex(idx); } QSignalSpy beforeSpy(m_model, SIGNAL(rowsAboutToBeMoved(const QModelIndex &, int, int, const QModelIndex &, int))); QSignalSpy afterSpy(m_model, SIGNAL(rowsMoved(const QModelIndex &, int, int, const QModelIndex &, int))); ModelMoveCommand *moveCommand; QList ancestors; while (ancestors.size() < depth) { ancestors << 9; for (int row = 0; row <= 9; row++) { moveCommand = new ModelMoveCommand(m_model, this); moveCommand->setNumCols(4); moveCommand->setStartRow(9); moveCommand->setEndRow(9); moveCommand->setDestAncestors(ancestors); moveCommand->setDestRow(row); moveCommand->doCommand(); QVERIFY(beforeSpy.size() == 0); QVERIFY(afterSpy.size() == 0); } } } void tst_QAbstractItemModel::testMoveWithinOwnRange_data() { QTest::addColumn("startRow"); QTest::addColumn("endRow"); QTest::addColumn("destRow"); QTest::newRow("move01") << 0 << 0 << 0; QTest::newRow("move02") << 0 << 0 << 1; QTest::newRow("move03") << 0 << 5 << 0; QTest::newRow("move04") << 0 << 5 << 1; QTest::newRow("move05") << 0 << 5 << 2; QTest::newRow("move06") << 0 << 5 << 3; QTest::newRow("move07") << 0 << 5 << 4; QTest::newRow("move08") << 0 << 5 << 5; QTest::newRow("move09") << 0 << 5 << 6; QTest::newRow("move08") << 3 << 5 << 5; QTest::newRow("move08") << 3 << 5 << 6; QTest::newRow("move09") << 4 << 5 << 5; QTest::newRow("move10") << 4 << 5 << 6; QTest::newRow("move11") << 5 << 5 << 5; QTest::newRow("move12") << 5 << 5 << 6; QTest::newRow("move13") << 5 << 9 << 9; QTest::newRow("move14") << 5 << 9 << 10; QTest::newRow("move15") << 6 << 9 << 9; QTest::newRow("move16") << 6 << 9 << 10; QTest::newRow("move17") << 7 << 9 << 9; QTest::newRow("move18") << 7 << 9 << 10; QTest::newRow("move19") << 8 << 9 << 9; QTest::newRow("move20") << 8 << 9 << 10; QTest::newRow("move21") << 9 << 9 << 9; QTest::newRow("move22") << 0 << 9 << 10; } void tst_QAbstractItemModel::testMoveWithinOwnRange() { QFETCH( int, startRow); QFETCH( int, endRow); QFETCH( int, destRow); QSignalSpy beforeSpy(m_model, SIGNAL(rowsAboutToBeMoved(const QModelIndex &, int, int, const QModelIndex &, int))); QSignalSpy afterSpy(m_model, SIGNAL(rowsMoved(const QModelIndex &, int, int, const QModelIndex &, int))); ModelMoveCommand *moveCommand = new ModelMoveCommand(m_model, this); moveCommand->setNumCols(4); moveCommand->setStartRow(startRow); moveCommand->setEndRow(endRow); moveCommand->setDestRow(destRow); moveCommand->doCommand(); QVERIFY(beforeSpy.size() == 0); QVERIFY(afterSpy.size() == 0); } class ListenerObject : public QObject { Q_OBJECT public: ListenerObject(QAbstractProxyModel *parent); protected: void fillIndexStores(const QModelIndex &parent); public slots: void slotAboutToBeReset(); void slotReset(); private: QAbstractProxyModel *m_model; QList m_persistentIndexes; QModelIndexList m_nonPersistentIndexes; }; ListenerObject::ListenerObject(QAbstractProxyModel *parent) : QObject(parent), m_model(parent) { connect(m_model, SIGNAL(modelAboutToBeReset()), SLOT(slotAboutToBeReset())); connect(m_model, SIGNAL(modelReset()), SLOT(slotReset())); fillIndexStores(QModelIndex()); } void ListenerObject::fillIndexStores(const QModelIndex &parent) { const int column = 0; int row = 0; QModelIndex idx = m_model->index(row, column, parent); while (idx.isValid()) { m_persistentIndexes << QPersistentModelIndex(idx); m_nonPersistentIndexes << idx; if (m_model->hasChildren(idx)) { fillIndexStores(idx); } ++row; idx = m_model->index(row, column, parent); } } void ListenerObject::slotAboutToBeReset() { // Nothing has been changed yet. All indexes should be the same. for (int i = 0; i < m_persistentIndexes.size(); ++i) { QModelIndex idx = m_persistentIndexes.at(i); QVERIFY(idx == m_nonPersistentIndexes.at(i)); QVERIFY(m_model->mapToSource(idx).isValid()); } } void ListenerObject::slotReset() { foreach(const QModelIndex &idx, m_persistentIndexes) { QVERIFY(!idx.isValid()); } } void tst_QAbstractItemModel::testReset() { QSignalSpy beforeResetSpy(m_model, SIGNAL(modelAboutToBeReset())); QSignalSpy afterResetSpy(m_model, SIGNAL(modelReset())); QSortFilterProxyModel *nullProxy = new QSortFilterProxyModel(this); nullProxy->setSourceModel(m_model); // Makes sure the model and proxy are in a consistent state. before and after reset. new ListenerObject(nullProxy); ModelResetCommandFixed *resetCommand = new ModelResetCommandFixed(m_model, this); resetCommand->setNumCols(4); resetCommand->setStartRow(0); resetCommand->setEndRow(0); resetCommand->setDestRow(0); resetCommand->setDestAncestors(QList() << 5); resetCommand->doCommand(); // Verify that the correct signals were emitted QVERIFY(beforeResetSpy.size() == 1); QVERIFY(afterResetSpy.size() == 1); // Verify that the move actually happened. QVERIFY(m_model->rowCount() == 9); QModelIndex destIndex = m_model->index(4, 0); QVERIFY(m_model->rowCount(destIndex) == 11); } QTEST_MAIN(tst_QAbstractItemModel) #include "tst_qabstractitemmodel.moc"