/**************************************************************************** ** ** Copyright (C) 2015 Klaralvdalens Datakonsult AB (KDAB). ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the Qt3D module 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 #include #include #include #include #include #include #include #include #include "testpostmanarbiter.h" class tst_QRenderPassFilter: public QObject { Q_OBJECT private Q_SLOTS: void checkSaneDefaults() { QScopedPointer defaultRenderPassFilter(new Qt3DRender::QRenderPassFilter); QCOMPARE(defaultRenderPassFilter->matchAny().count(), 0); QCOMPARE(defaultRenderPassFilter->parameters().count(), 0); } void checkCloning_data() { QTest::addColumn("renderPassFilter"); QTest::addColumn >("parameters"); QTest::addColumn >("filterKeys"); Qt3DRender::QRenderPassFilter *defaultConstructed = new Qt3DRender::QRenderPassFilter(); QTest::newRow("defaultConstructed") << defaultConstructed << QVector() << QVector(); Qt3DRender::QRenderPassFilter *renderPassFilterWithParams = new Qt3DRender::QRenderPassFilter(); Qt3DRender::QParameter *parameter1 = new Qt3DRender::QParameter(QStringLiteral("displacement"), 454.0f); Qt3DRender::QParameter *parameter2 = new Qt3DRender::QParameter(QStringLiteral("torque"), 650); QVector params1 = QVector() << parameter1 << parameter2; renderPassFilterWithParams->addParameter(parameter1); renderPassFilterWithParams->addParameter(parameter2); QTest::newRow("renderPassFilterWithParams") << renderPassFilterWithParams << params1 << QVector(); Qt3DRender::QRenderPassFilter *renderPassFilterWithAnnotations = new Qt3DRender::QRenderPassFilter(); Qt3DRender::QFilterKey *filterKey1 = new Qt3DRender::QFilterKey(); Qt3DRender::QFilterKey *filterKey2 = new Qt3DRender::QFilterKey(); filterKey1->setName(QStringLiteral("hasSuperCharger")); filterKey1->setValue(true); filterKey1->setName(QStringLiteral("hasNitroKit")); filterKey1->setValue(false); QVector filterKeys1 = QVector() << filterKey1 << filterKey2; renderPassFilterWithAnnotations->addMatch(filterKey1); renderPassFilterWithAnnotations->addMatch(filterKey2); QTest::newRow("renderPassFilterWithAnnotations") << renderPassFilterWithAnnotations << QVector() << filterKeys1; Qt3DRender::QRenderPassFilter *renderPassFilterWithParamsAndAnnotations = new Qt3DRender::QRenderPassFilter(); Qt3DRender::QParameter *parameter3 = new Qt3DRender::QParameter(QStringLiteral("displacement"), 383.0f); Qt3DRender::QParameter *parameter4 = new Qt3DRender::QParameter(QStringLiteral("torque"), 555); Qt3DRender::QFilterKey *filterKey3 = new Qt3DRender::QFilterKey(); Qt3DRender::QFilterKey *filterKey4 = new Qt3DRender::QFilterKey(); filterKey3->setName(QStringLiteral("hasSuperCharger")); filterKey3->setValue(false); filterKey4->setName(QStringLiteral("hasNitroKit")); filterKey4->setValue(true); QVector params2 = QVector() << parameter3 << parameter4; QVector filterKeys2 = QVector() << filterKey3 << filterKey4; renderPassFilterWithParamsAndAnnotations->addParameter(parameter3); renderPassFilterWithParamsAndAnnotations->addParameter(parameter4); renderPassFilterWithParamsAndAnnotations->addMatch(filterKey3); renderPassFilterWithParamsAndAnnotations->addMatch(filterKey4); QTest::newRow("renderPassFilterWithParamsAndAnnotations") << renderPassFilterWithParamsAndAnnotations << params2 << filterKeys2 ; } // TODO: Avoid cloning here void checkCloning() { // GIVEN QFETCH(Qt3DRender::QRenderPassFilter*, renderPassFilter); QFETCH(QVector, parameters); QFETCH(QVector, filterKeys); // THEN QCOMPARE(renderPassFilter->parameters(), parameters); QCOMPARE(renderPassFilter->matchAny(), filterKeys); // WHEN // WHEN Qt3DCore::QNodeCreatedChangeGenerator creationChangeGenerator(renderPassFilter); QVector creationChanges = creationChangeGenerator.creationChanges(); // THEN QCOMPARE(creationChanges.size(), 1 + renderPassFilter->parameters().size() + renderPassFilter->matchAny().size()); const Qt3DCore::QNodeCreatedChangePtr creationChangeData = qSharedPointerCast>(creationChanges.first()); const Qt3DRender::QRenderPassFilterData &cloneData = creationChangeData->data; // THEN QCOMPARE(renderPassFilter->id(), creationChangeData->subjectId()); QCOMPARE(renderPassFilter->isEnabled(), creationChangeData->isNodeEnabled()); QCOMPARE(renderPassFilter->metaObject(), creationChangeData->metaObject()); QCOMPARE(renderPassFilter->matchAny().count(), cloneData.matchIds.count()); QCOMPARE(renderPassFilter->parameters().count(), cloneData.parameterIds.count()); // TO DO: Add unit tests for QParameter / QFilterKey delete renderPassFilter; } void checkPropertyUpdates() { // GIVEN TestArbiter arbiter; QScopedPointer renderPassFilter(new Qt3DRender::QRenderPassFilter()); arbiter.setArbiterOnNode(renderPassFilter.data()); // WHEN Qt3DRender::QParameter *param1 = new Qt3DRender::QParameter(); renderPassFilter->addParameter(param1); QCoreApplication::processEvents(); // THEN QCOMPARE(arbiter.events.size(), 1); Qt3DCore::QPropertyNodeAddedChangePtr change = arbiter.events.first().staticCast(); QCOMPARE(change->propertyName(), "parameter"); QCOMPARE(change->subjectId(),renderPassFilter->id()); QCOMPARE(change->addedNodeId(), param1->id()); QCOMPARE(change->type(), Qt3DCore::PropertyValueAdded); arbiter.events.clear(); // WHEN renderPassFilter->addParameter(param1); QCoreApplication::processEvents(); // THEN QCOMPARE(arbiter.events.size(), 0); // WHEN renderPassFilter->removeParameter(param1); QCoreApplication::processEvents(); // THEN QCOMPARE(arbiter.events.size(), 1); Qt3DCore::QPropertyNodeRemovedChangePtr nodeRemovedChange = arbiter.events.first().staticCast(); QCOMPARE(nodeRemovedChange->propertyName(), "parameter"); QCOMPARE(nodeRemovedChange->subjectId(), renderPassFilter->id()); QCOMPARE(nodeRemovedChange->removedNodeId(), param1->id()); QCOMPARE(nodeRemovedChange->type(), Qt3DCore::PropertyValueRemoved); arbiter.events.clear(); // WHEN Qt3DRender::QFilterKey *filterKey1 = new Qt3DRender::QFilterKey(); renderPassFilter->addMatch(filterKey1); QCoreApplication::processEvents(); // THEN QCOMPARE(arbiter.events.size(), 1); change = arbiter.events.first().staticCast(); QCOMPARE(change->propertyName(), "match"); QCOMPARE(change->subjectId(),renderPassFilter->id()); QCOMPARE(change->addedNodeId(), filterKey1->id()); QCOMPARE(change->type(), Qt3DCore::PropertyValueAdded); arbiter.events.clear(); // WHEN renderPassFilter->addMatch(filterKey1); QCoreApplication::processEvents(); // THEN QCOMPARE(arbiter.events.size(), 0); // WHEN renderPassFilter->removeMatch(filterKey1); QCoreApplication::processEvents(); // THEN QCOMPARE(arbiter.events.size(), 1); nodeRemovedChange = arbiter.events.first().staticCast(); QCOMPARE(nodeRemovedChange->propertyName(), "match"); QCOMPARE(nodeRemovedChange->subjectId(), renderPassFilter->id()); QCOMPARE(nodeRemovedChange->removedNodeId(), filterKey1->id()); QCOMPARE(nodeRemovedChange->type(), Qt3DCore::PropertyValueRemoved); arbiter.events.clear(); } void checkParameterBookkeeping() { // GIVEN QScopedPointer passFilter(new Qt3DRender::QRenderPassFilter); { // WHEN Qt3DRender::QParameter param; passFilter->addParameter(¶m); // THEN QCOMPARE(param.parent(), passFilter.data()); QCOMPARE(passFilter->parameters().size(), 1); } // THEN (Should not crash and parameter be unset) QVERIFY(passFilter->parameters().empty()); { // WHEN Qt3DRender::QRenderPassFilter someOtherPassFilter; QScopedPointer param(new Qt3DRender::QParameter(&someOtherPassFilter)); passFilter->addParameter(param.data()); // THEN QCOMPARE(param->parent(), &someOtherPassFilter); QCOMPARE(passFilter->parameters().size(), 1); // WHEN passFilter.reset(); param.reset(); // THEN Should not crash when the parameter is destroyed (tests for failed removal of destruction helper) } } void checkFilterKeyBookkeeping() { // GIVEN QScopedPointer passFilter(new Qt3DRender::QRenderPassFilter); { // WHEN Qt3DRender::QFilterKey filterKey; passFilter->addMatch(&filterKey); // THEN QCOMPARE(filterKey.parent(), passFilter.data()); QCOMPARE(passFilter->matchAny().size(), 1); } // THEN (Should not crash and parameter be unset) QVERIFY(passFilter->matchAny().empty()); { // WHEN Qt3DRender::QRenderPassFilter someOtherPassFilter; QScopedPointer filterKey(new Qt3DRender::QFilterKey(&someOtherPassFilter)); passFilter->addMatch(filterKey.data()); // THEN QCOMPARE(filterKey->parent(), &someOtherPassFilter); QCOMPARE(passFilter->matchAny().size(), 1); // WHEN passFilter.reset(); filterKey.reset(); // THEN Should not crash when the parameter is destroyed (tests for failed removal of destruction helper) } } }; QTEST_MAIN(tst_QRenderPassFilter) #include "tst_qrenderpassfilter.moc"