/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** 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 either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** 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 1.0, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at http://www.qtsoftware.com/contact. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #ifdef QTEST_XMLPATTERNS #include #include #include #include #include #include #include "TestNodeModel.h" #include "LoadingModel.h" #include "../qxmlquery/TestFundament.h" /*! \class tst_QAbstractXmlNodeModel \internal \since 4.4 \brief Tests the QAbstractXmlNodeModel class. */ class tst_QAbstractXmlNodeModel : public QObject , private TestFundament { Q_OBJECT private Q_SLOTS: // TODO lots of tests missing void initTestCase(); void constructor() const; void objectSize() const; void nextFromSimpleAxis(); void nextFromSimpleAxis_data() const; void constCorrectness() const; void createData() const; void createPointerAdditionalData() const; void createDataAdditionalData() const; void id() const; void idref() const; void typedValue() const; void sourceLocation() const; private: QAbstractXmlNodeModel::Ptr m_nodeModel; QXmlNamePool m_namePool; QXmlNodeModelIndex m_rootNode; }; void tst_QAbstractXmlNodeModel::initTestCase() { m_nodeModel = LoadingModel::create(m_namePool); QVERIFY(m_nodeModel); m_rootNode = m_nodeModel->root(QXmlNodeModelIndex()); QVERIFY(!m_rootNode.isNull()); } void tst_QAbstractXmlNodeModel::constructor() const { /* Allocate instance. */ { TestNodeModel instance; } { TestNodeModel instance1; TestNodeModel instance2; } { TestNodeModel instance1; TestNodeModel instance2; TestNodeModel instance3; } } void tst_QAbstractXmlNodeModel::objectSize() const { /* We can't currently test this in portable way, * so disable it. */ return; const int pointerSize = sizeof(void *); // adjust for pointer alignment const int sharedDataSize = ((sizeof(QSharedData) + pointerSize) / pointerSize) * pointerSize; const int modelSize = sizeof(QAbstractXmlNodeModel); /* A d pointer plus a vtable pointer. */ QCOMPARE(modelSize, sharedDataSize + pointerSize * 2); } /*! Tests nextFromSimpleAxis(). More exactly that all the logic in QAbstractXmlNodeModel::iterate() is as we expect to. Subsequently, a lot of testing code is in LoadingModel(.cpp). Approach: 1. In initTestCase() we loaded tree.xml into LoadingModel and stored the root node in m_rootNode. 2. We execute a query that navigates from m_rootNode and write out the result using QXmlFormatter. 3. We execute the exact same query, but this time use the built in node backend, and write out the result in the same way. This is our baseline. 4. Compare the two. Hence we check QAbstractXmlNodeModel::iterate() and friends against our XQuery code, which in turn is (mainly) checked by the XQTS. This means safer testing since we don't create baselines manually, and it also means that we can modify the input file, tree.xml, without having to update static baselines. */ void tst_QAbstractXmlNodeModel::nextFromSimpleAxis() { QFETCH(QString, queryString); QBuffer out; /* Fill out, using LoadingModel. */ { QXmlQuery query(m_namePool); query.bindVariable(QLatin1String("node"), m_rootNode); query.setQuery(queryString); QVERIFY(query.isValid()); QVERIFY(out.open(QIODevice::WriteOnly)); QXmlFormatter formatter(query, &out); QVERIFY(query.evaluateTo(&formatter)); } QBuffer baseline; /* Create the baseline. */ { QXmlQuery openDoc(m_namePool); openDoc.bindVariable(QLatin1String("docURI"), QVariant(inputFile(QLatin1String("tree.xml")))); openDoc.setQuery(QLatin1String("doc($docURI)")); QXmlResultItems doc; QVERIFY(openDoc.isValid()); openDoc.evaluateTo(&doc); QXmlQuery produceBaseline(m_namePool); produceBaseline.bindVariable(QLatin1String("node"), doc.next()); produceBaseline.setQuery(queryString); QVERIFY(produceBaseline.isValid()); QVERIFY(baseline.open(QIODevice::WriteOnly)); QXmlFormatter baselineFormatter(produceBaseline, &baseline); QVERIFY(produceBaseline.evaluateTo(&baselineFormatter)); } if(out.data() != baseline.data()) { QTextStream(stderr) << "ACTUAL:" << QString::fromUtf8(out.data().constData()) << "EXPECTED:" << QString::fromUtf8(baseline.data().constData()); } QCOMPARE(out.data(), baseline.data()); } void tst_QAbstractXmlNodeModel::nextFromSimpleAxis_data() const { QTest::addColumn("queryString"); QTest::newRow("The whole tree") << "$node"; QTest::newRow("::descendant-or-self from $node, all nodes.") << "$node/descendant-or-self::node()"; QTest::newRow("::descendant from $node, all nodes.") << "$node/descendant::node()"; QTest::newRow("::descendant from node with no descendants.") << "$node/descendant::node()"; QTest::newRow("following-sibling on $root.") << "$node/text()[1]/following-sibling::node()"; QTest::newRow("following-sibling from section1.") << "$node//section1/following-sibling::node()"; QTest::newRow("preceding-sibling-sibling from section1.") << "$node//section1/preceding-sibling::node()"; QTest::newRow("following-sibling from oneTextChild.") << "$node//oneTextChild/following-sibling::node()"; QTest::newRow("preceding-sibling-sibling from oneTextChild.") << "$node//oneTextChild/preceding-sibling::node()"; QTest::newRow("preceding-sibling on $root.") << "$node/preceding-sibling::node()"; QTest::newRow("::ancestor from node at the end") << "$node//node()/ancestor::node()"; QTest::newRow("::ancestor-or-self from node at the end") << "$node//node()/ancestor-or-self::node()"; QTest::newRow("Copy attributes from all nodes.") << "{for $i in $node//node()/@* order by $i return $i}"; QTest::newRow("::preceding from node at the end") << "($node//node())[last()]/preceding::node()"; QTest::newRow("::preceding from $node") << "$node/preceding::node()"; QTest::newRow("::following from node at the end") << "($node//node())[last()]/following::node()"; QTest::newRow("::following from $node") << "$node//following::node()"; QTest::newRow("::following from $node") << "$node/following::node()"; QTest::newRow("::descendant from text() nodes.") << "$node/descendant-or-self::text()/descendant::node()"; QTest::newRow("::descendant-or-self from text() nodes.") << "$node/descendant-or-self::text()/descendant-or-self::node()"; QTest::newRow("descendant-or-self::node() from section1.") << "$node//section1/descendant-or-self::node()"; QTest::newRow("descendant::node() from section1.") << "$node//section1/descendant::node()"; /* Checks for axis order. */ QTest::newRow("::descendant from text() nodes with last(), checking axis order.") << "$node/descendant-or-self::text()/(descendant::node()[last()])"; QTest::newRow("::descendant-or-self from text() nodes with last(), checking axis order.") << "$node/descendant-or-self::text()/(descendant-or-self::node()[last()])"; QTest::newRow("::descendant from text() nodes with predicate, checking axis order.") << "$node/descendant-or-self::text()/(descendant::node()[2])"; QTest::newRow("::descendant-or-self from text() nodes with predicate, checking axis order.") << "$node/descendant-or-self::text()/(descendant-or-self::node()[2])"; QTest::newRow("::following from node at the end with predicate, checking axis order.") << "($node//node())[last()]/(following::node()[2])"; QTest::newRow("::following from node at the end with last(), checking axis order.") << "($node//node())[last()]/(following::node()[last()])"; QTest::newRow("ancestor:: from node at the end with predicate, checking axis order.") << "($node//node())[last()]/(ancestor::node()[2])"; QTest::newRow("ancestor:: from node at the end with last(), checking axis order.") << "($node//node())[last()]/(ancestor::node()[last()])"; QTest::newRow("ancestor-or-self:: from node at the end with predicate, checking axis order.") << "($node//node())[last()]/(ancestor::node()[2])"; QTest::newRow("ancestor-or-self:: from node at the end with last(), checking axis order.") << "($node//node())[last()]/(ancestor::node()[last()])"; QTest::newRow("::preceding from node at the end with predicate, checking axis order.") << "($node//node())[last()]/(preceding::node()[2])"; QTest::newRow("descendant-or-self in two levels, with last()") << "$node/descendant-or-self::text()/(descendant-or-self::node()[last()])"; QTest::newRow("descendant-or-self with last()") << "$node/descendant-or-self::node()[last()]"; QTest::newRow("::preceding from node at the end with last(), checking axis order.") << "$node/preceding::node()[last()]"; QTest::newRow("::preceding combined with descendant-or-self, from node at the end with last(), checking axis order.") << "$node//preceding::node()[last()]"; QTest::newRow("::preceding combined with descendant-or-self, from node at the end with last(), checking axis order.") << "($node//node())[last()]/(preceding::node()[last()])"; } void tst_QAbstractXmlNodeModel::constCorrectness() const { // TODO } void tst_QAbstractXmlNodeModel::createData() const { // TODO // Verify that the argument is qint64 } void tst_QAbstractXmlNodeModel::createPointerAdditionalData() const { // TODO // Verify that the second argument is qint64 } void tst_QAbstractXmlNodeModel::createDataAdditionalData() const { // TODO } void tst_QAbstractXmlNodeModel::id() const { // TODO verify that invalid NCNames are not sent to the model. } void tst_QAbstractXmlNodeModel::idref() const { // TODO verify that invalid NCNames are not sent to the model. } /*! Verify that if QAbstractXmlNodeModel::typedValue() return a null QVariant, it is treated as that the node has no typed value. */ void tst_QAbstractXmlNodeModel::typedValue() const { class TypedModel : public TestNodeModel { public: virtual QVariant typedValue(const QXmlNodeModelIndex &) const { return QVariant(); } QXmlNodeModelIndex root() const { return createIndex(qint64(1)); } }; TypedModel model; QXmlQuery query; query.bindVariable(QLatin1String("node"), model.root()); query.setQuery(QLatin1String("declare variable $node external;" "string($node), data($node)")); QByteArray output; QBuffer buffer(&output); QVERIFY(buffer.open(QIODevice::WriteOnly)); QVERIFY(query.isValid()); QXmlSerializer serializer(query, &buffer); QVERIFY(query.evaluateTo(&serializer)); QVERIFY(output.isEmpty()); } void tst_QAbstractXmlNodeModel::sourceLocation() const { const QAbstractXmlNodeModel* const constModel = m_nodeModel.data(); const QSourceLocation location = constModel->sourceLocation(m_rootNode); } QTEST_MAIN(tst_QAbstractXmlNodeModel) #include "tst_qabstractxmlnodemodel.moc" #else QTEST_NOOP_MAIN #endif // vim: et:ts=4:sw=4:sts=4