/**************************************************************************** ** ** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: http://www.qt-project.org/ ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** 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. ** ** 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. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include "../shared/particlestestsshared.h" #include #include const double CONV_FACTOR = 0.017453292519943295;//Degrees to radians class tst_qquickimageparticle : public QObject { Q_OBJECT public: tst_qquickimageparticle(); ~tst_qquickimageparticle(); private slots: void test_basic(); void test_colored(); void test_colorVariance(); void test_deformed(); void test_tabled(); void test_sprite(); }; tst_qquickimageparticle::tst_qquickimageparticle() { QUnifiedTimer::instance()->setConsistentTiming(true); setenv("QML_PARTICLES_DEBUG","please",0);//QQuickImageParticle has several debug statements, with possible pointer dereferences } tst_qquickimageparticle::~tst_qquickimageparticle() { unsetenv("QML_PARTICLES_DEBUG"); } void tst_qquickimageparticle::test_basic() { QQuickView* view = createView(QCoreApplication::applicationDirPath() + "/data/basic.qml", 600); QQuickParticleSystem* system = view->rootObject()->findChild("system"); ensureAnimTime(600, system->m_animation); QVERIFY(extremelyFuzzyCompare(system->groupData[0]->size(), 500, 10)); foreach (QQuickParticleData *d, system->groupData[0]->data) { if (d->t == -1) continue; //Particle data unused QCOMPARE(d->x, 0.f); QCOMPARE(d->y, 0.f); QCOMPARE(d->vx, 0.f); QCOMPARE(d->vy, 0.f); QCOMPARE(d->ax, 0.f); QCOMPARE(d->ay, 0.f); QCOMPARE(d->lifeSpan, 0.5f); QCOMPARE(d->size, 32.f); QCOMPARE(d->endSize, 32.f); QVERIFY(myFuzzyLEQ(d->t, ((qreal)system->timeInt/1000.0))); QCOMPARE(d->color.r, (uchar)255); QCOMPARE(d->color.g, (uchar)255); QCOMPARE(d->color.b, (uchar)255); QCOMPARE(d->color.a, (uchar)255); QCOMPARE(d->xx, 1.0f); QCOMPARE(d->xy, 0.0f); QCOMPARE(d->yy, 1.0f); QCOMPARE(d->yx, 0.0f); QCOMPARE(d->rotation, 0.0f); QCOMPARE(d->rotationSpeed, 0.0f); QCOMPARE(d->autoRotate, 0.0f); QCOMPARE(d->animX, 0.0f); QCOMPARE(d->animY, 0.0f); QCOMPARE(d->animWidth, 1.0f); QCOMPARE(d->animHeight, 1.0f); QCOMPARE(d->frameDuration, 1.0f); QCOMPARE(d->frameCount, 1.0f); QCOMPARE(d->animT, -1.0f); } delete view; } void tst_qquickimageparticle::test_colored() { QQuickView* view = createView(QCoreApplication::applicationDirPath() + "/data/colored.qml", 600); QQuickParticleSystem* system = view->rootObject()->findChild("system"); ensureAnimTime(600, system->m_animation); QVERIFY(extremelyFuzzyCompare(system->groupData[0]->size(), 500, 10)); foreach (QQuickParticleData *d, system->groupData[0]->data) { if (d->t == -1) continue; //Particle data unused QCOMPARE(d->x, 0.f); QCOMPARE(d->y, 0.f); QCOMPARE(d->vx, 0.f); QCOMPARE(d->vy, 0.f); QCOMPARE(d->ax, 0.f); QCOMPARE(d->ay, 0.f); QCOMPARE(d->lifeSpan, 0.5f); QCOMPARE(d->size, 32.f); QCOMPARE(d->endSize, 32.f); QVERIFY(myFuzzyLEQ(d->t, ((qreal)system->timeInt/1000.0))); QCOMPARE(d->color.r, (uchar)003); QCOMPARE(d->color.g, (uchar)002); QCOMPARE(d->color.b, (uchar)001); QCOMPARE(d->color.a, (uchar)127); QCOMPARE(d->xx, 1.0f); QCOMPARE(d->xy, 0.0f); QCOMPARE(d->yy, 1.0f); QCOMPARE(d->yx, 0.0f); QCOMPARE(d->rotation, 0.0f); QCOMPARE(d->rotationSpeed, 0.0f); QCOMPARE(d->autoRotate, 0.0f); QCOMPARE(d->animX, 0.0f); QCOMPARE(d->animY, 0.0f); QCOMPARE(d->animWidth, 1.0f); QCOMPARE(d->animHeight, 1.0f); QCOMPARE(d->frameDuration, 1.0f); QCOMPARE(d->frameCount, 1.0f); QCOMPARE(d->animT, -1.0f); } delete view; } void tst_qquickimageparticle::test_colorVariance() { QQuickView* view = createView(QCoreApplication::applicationDirPath() + "/data/colorVariance.qml", 600); QQuickParticleSystem* system = view->rootObject()->findChild("system"); ensureAnimTime(600, system->m_animation); QVERIFY(extremelyFuzzyCompare(system->groupData[0]->size(), 500, 10)); foreach (QQuickParticleData *d, system->groupData[0]->data) { if (d->t == -1) continue; //Particle data unused QCOMPARE(d->x, 0.f); QCOMPARE(d->y, 0.f); QCOMPARE(d->vx, 0.f); QCOMPARE(d->vy, 0.f); QCOMPARE(d->ax, 0.f); QCOMPARE(d->ay, 0.f); QCOMPARE(d->lifeSpan, 0.5f); QCOMPARE(d->size, 32.f); QCOMPARE(d->endSize, 32.f); QVERIFY(myFuzzyLEQ(d->t, ((qreal)system->timeInt/1000.0))); QVERIFY(d->color.r < 128); QVERIFY(d->color.g < 64); QVERIFY(d->color.b < 32); QVERIFY(d->color.a >= 64); QVERIFY(d->color.a < 192); QCOMPARE(d->xx, 1.0f); QCOMPARE(d->xy, 0.0f); QCOMPARE(d->yy, 1.0f); QCOMPARE(d->yx, 0.0f); QCOMPARE(d->rotation, 0.0f); QCOMPARE(d->rotationSpeed, 0.0f); QCOMPARE(d->autoRotate, 0.0f); QCOMPARE(d->animX, 0.0f); QCOMPARE(d->animY, 0.0f); QCOMPARE(d->animWidth, 1.0f); QCOMPARE(d->animHeight, 1.0f); QCOMPARE(d->frameDuration, 1.0f); QCOMPARE(d->frameCount, 1.0f); QCOMPARE(d->animT, -1.0f); } delete view; } void tst_qquickimageparticle::test_deformed() { QQuickView* view = createView(QCoreApplication::applicationDirPath() + "/data/deformed.qml", 600); QQuickParticleSystem* system = view->rootObject()->findChild("system"); ensureAnimTime(600, system->m_animation); QVERIFY(extremelyFuzzyCompare(system->groupData[0]->size(), 500, 10)); foreach (QQuickParticleData *d, system->groupData[0]->data) { if (d->t == -1) continue; //Particle data unused QCOMPARE(d->x, 0.f); QCOMPARE(d->y, 0.f); QCOMPARE(d->vx, 0.f); QCOMPARE(d->vy, 0.f); QCOMPARE(d->ax, 0.f); QCOMPARE(d->ay, 0.f); QCOMPARE(d->lifeSpan, 0.5f); QCOMPARE(d->size, 32.f); QCOMPARE(d->endSize, 32.f); QVERIFY(myFuzzyLEQ(d->t, ((qreal)system->timeInt/1000.0))); QCOMPARE(d->color.r, (uchar)255); QCOMPARE(d->color.g, (uchar)255); QCOMPARE(d->color.b, (uchar)255); QCOMPARE(d->color.a, (uchar)255); QCOMPARE(d->xx, 0.5f); QCOMPARE(d->xy, 0.5f); QCOMPARE(d->yy, 0.5f); QCOMPARE(d->yx, 0.5f); QCOMPARE(d->rotation, 90.0f * (float)CONV_FACTOR); QCOMPARE(d->rotationSpeed, 90.0f * (float)CONV_FACTOR); QCOMPARE(d->autoRotate, 1.0f); QCOMPARE(d->animX, 0.0f); QCOMPARE(d->animY, 0.0f); QCOMPARE(d->animWidth, 1.0f); QCOMPARE(d->animHeight, 1.0f); QCOMPARE(d->frameDuration, 1.0f); QCOMPARE(d->frameCount, 1.0f); QCOMPARE(d->animT, -1.0f); } delete view; } void tst_qquickimageparticle::test_tabled() { QQuickView* view = createView(QCoreApplication::applicationDirPath() + "/data/tabled.qml", 600); QQuickParticleSystem* system = view->rootObject()->findChild("system"); ensureAnimTime(600, system->m_animation); QVERIFY(extremelyFuzzyCompare(system->groupData[0]->size(), 500, 10)); foreach (QQuickParticleData *d, system->groupData[0]->data) { if (d->t == -1) continue; //Particle data unused QCOMPARE(d->x, 0.f); QCOMPARE(d->y, 0.f); QCOMPARE(d->vx, 0.f); QCOMPARE(d->vy, 0.f); QCOMPARE(d->ax, 0.f); QCOMPARE(d->ay, 0.f); QCOMPARE(d->lifeSpan, 0.5f); QCOMPARE(d->size, 32.f); QCOMPARE(d->endSize, 32.f); QVERIFY(myFuzzyLEQ(d->t, ((qreal)system->timeInt/1000.0))); QCOMPARE(d->color.r, (uchar)255); QCOMPARE(d->color.g, (uchar)255); QCOMPARE(d->color.b, (uchar)255); QCOMPARE(d->color.a, (uchar)255); QCOMPARE(d->xx, 1.0f); QCOMPARE(d->xy, 0.0f); QCOMPARE(d->yy, 1.0f); QCOMPARE(d->yx, 0.0f); QCOMPARE(d->rotation, 0.0f); QCOMPARE(d->rotationSpeed, 0.0f); QCOMPARE(d->autoRotate, 0.0f); QCOMPARE(d->animX, 0.0f); QCOMPARE(d->animY, 0.0f); QCOMPARE(d->animWidth, 1.0f); QCOMPARE(d->animHeight, 1.0f); QCOMPARE(d->frameDuration, 1.0f); QCOMPARE(d->frameCount, 1.0f); QCOMPARE(d->animT, -1.0f); //TODO: This performance level doesn't alter particleData, but goes straight to shaders. Find something to test } delete view; } void tst_qquickimageparticle::test_sprite() { QQuickView* view = createView(QCoreApplication::applicationDirPath() + "/data/sprite.qml", 600); QQuickParticleSystem* system = view->rootObject()->findChild("system"); ensureAnimTime(600, system->m_animation); QVERIFY(extremelyFuzzyCompare(system->groupData[0]->size(), 500, 10)); foreach (QQuickParticleData *d, system->groupData[0]->data) { if (d->t == -1) continue; //Particle data unused QCOMPARE(d->x, 0.f); QCOMPARE(d->y, 0.f); QCOMPARE(d->vx, 0.f); QCOMPARE(d->vy, 0.f); QCOMPARE(d->ax, 0.f); QCOMPARE(d->ay, 0.f); QCOMPARE(d->lifeSpan, 0.5f); QCOMPARE(d->size, 32.f); QCOMPARE(d->endSize, 32.f); QVERIFY(myFuzzyLEQ(d->t, ((qreal)system->timeInt/1000.0))); QCOMPARE(d->color.r, (uchar)255); QCOMPARE(d->color.g, (uchar)255); QCOMPARE(d->color.b, (uchar)255); QCOMPARE(d->color.a, (uchar)255); QCOMPARE(d->xx, 1.0f); QCOMPARE(d->xy, 0.0f); QCOMPARE(d->yy, 1.0f); QCOMPARE(d->yx, 0.0f); QCOMPARE(d->rotation, 0.0f); QCOMPARE(d->rotationSpeed, 0.0f); QCOMPARE(d->autoRotate, 0.0f); QVERIFY(myFuzzyCompare(d->frameDuration, 120.f)); QCOMPARE(d->frameCount, 6.0f); QVERIFY(d->animT > 0.0f); QCOMPARE(d->animX, 0.0f); QCOMPARE(d->animY, 0.0f); QCOMPARE(d->animWidth, 31.0f); QCOMPARE(d->animHeight, 30.0f); } delete view; } QTEST_MAIN(tst_qquickimageparticle); #include "tst_qquickimageparticle.moc"