// Copyright (C) 2016 Paul Lemire // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only #include #include #include #include #include #include "testarbiter.h" class tst_QCameraLens : public QObject { Q_OBJECT private Q_SLOTS: void initTestCase() { qRegisterMetaType("QCameraLens::ProjectionType"); } void checkDefaultConstruction() { // GIVEN Qt3DRender::QCameraLens cameraLens; // THEN QCOMPARE(cameraLens.projectionType(), Qt3DRender::QCameraLens::PerspectiveProjection); QCOMPARE(cameraLens.nearPlane(), 0.1f); QCOMPARE(cameraLens.farPlane(), 1024.0f); QCOMPARE(cameraLens.fieldOfView(), 25.0f); QCOMPARE(cameraLens.aspectRatio(), 1.0f); QCOMPARE(cameraLens.left(), -0.5f); QCOMPARE(cameraLens.right(), 0.5f); QCOMPARE(cameraLens.bottom(), -0.5f); QCOMPARE(cameraLens.top(), 0.5f); QCOMPARE(cameraLens.exposure(), 0.0f); } void checkPropertyChanges() { // GIVEN Qt3DRender::QCameraLens cameraLens; { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(projectionTypeChanged(QCameraLens::ProjectionType))); const Qt3DRender::QCameraLens::ProjectionType newValue = Qt3DRender::QCameraLens::OrthographicProjection; cameraLens.setProjectionType(newValue); // THEN QVERIFY(spy.isValid()); QCOMPARE(cameraLens.projectionType(), newValue); QCOMPARE(spy.size(), 1); // WHEN spy.clear(); cameraLens.setProjectionType(newValue); // THEN QCOMPARE(cameraLens.projectionType(), newValue); QCOMPARE(spy.size(), 0); } { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(nearPlaneChanged(float))); const float newValue = 10.0f; cameraLens.setNearPlane(newValue); // THEN QVERIFY(spy.isValid()); QCOMPARE(cameraLens.nearPlane(), newValue); QCOMPARE(spy.size(), 1); // WHEN spy.clear(); cameraLens.setNearPlane(newValue); // THEN QCOMPARE(cameraLens.nearPlane(), newValue); QCOMPARE(spy.size(), 0); } { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(farPlaneChanged(float))); const float newValue = 1.0f; cameraLens.setFarPlane(newValue); // THEN QVERIFY(spy.isValid()); QCOMPARE(cameraLens.farPlane(), newValue); QCOMPARE(spy.size(), 1); // WHEN spy.clear(); cameraLens.setFarPlane(newValue); // THEN QCOMPARE(cameraLens.farPlane(), newValue); QCOMPARE(spy.size(), 0); } { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(fieldOfViewChanged(float))); const float newValue = 5.0f; cameraLens.setFieldOfView(newValue); // THEN QVERIFY(spy.isValid()); QCOMPARE(cameraLens.fieldOfView(), newValue); QCOMPARE(spy.size(), 1); // WHEN spy.clear(); cameraLens.setFieldOfView(newValue); // THEN QCOMPARE(cameraLens.fieldOfView(), newValue); QCOMPARE(spy.size(), 0); } { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(aspectRatioChanged(float))); const float newValue = 4.0f / 3.0f; cameraLens.setAspectRatio(newValue); // THEN QVERIFY(spy.isValid()); QCOMPARE(cameraLens.aspectRatio(), newValue); QCOMPARE(spy.size(), 1); // WHEN spy.clear(); cameraLens.setAspectRatio(newValue); // THEN QCOMPARE(cameraLens.aspectRatio(), newValue); QCOMPARE(spy.size(), 0); } { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(leftChanged(float))); const float newValue = 0.0f; cameraLens.setLeft(newValue); // THEN QVERIFY(spy.isValid()); QCOMPARE(cameraLens.left(), newValue); QCOMPARE(spy.size(), 1); // WHEN spy.clear(); cameraLens.setLeft(newValue); // THEN QCOMPARE(cameraLens.left(), newValue); QCOMPARE(spy.size(), 0); } { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(rightChanged(float))); const float newValue = 1.0f; cameraLens.setRight(newValue); // THEN QVERIFY(spy.isValid()); QCOMPARE(cameraLens.right(), newValue); QCOMPARE(spy.size(), 1); // WHEN spy.clear(); cameraLens.setRight(newValue); // THEN QCOMPARE(cameraLens.right(), newValue); QCOMPARE(spy.size(), 0); } { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(bottomChanged(float))); const float newValue = 2.0f; cameraLens.setBottom(newValue); // THEN QVERIFY(spy.isValid()); QCOMPARE(cameraLens.bottom(), newValue); QCOMPARE(spy.size(), 1); // WHEN spy.clear(); cameraLens.setBottom(newValue); // THEN QCOMPARE(cameraLens.bottom(), newValue); QCOMPARE(spy.size(), 0); } { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(topChanged(float))); const float newValue = -2.0f; cameraLens.setTop(newValue); // THEN QVERIFY(spy.isValid()); QCOMPARE(cameraLens.top(), newValue); QCOMPARE(spy.size(), 1); // WHEN spy.clear(); cameraLens.setTop(newValue); // THEN QCOMPARE(cameraLens.top(), newValue); QCOMPARE(spy.size(), 0); } { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(exposureChanged(float))); const float newValue = -2.0f; cameraLens.setExposure(newValue); // THEN QVERIFY(spy.isValid()); QCOMPARE(cameraLens.exposure(), newValue); QCOMPARE(spy.size(), 1); QCOMPARE(spy.takeFirst().first().toFloat(), -2.0f); // WHEN spy.clear(); cameraLens.setExposure(newValue); // THEN QCOMPARE(cameraLens.exposure(), newValue); QCOMPARE(spy.size(), 0); } { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(projectionMatrixChanged(QMatrix4x4))); QMatrix4x4 newValue; newValue.translate(5.0f, 2.0f, 4.3f); cameraLens.setProjectionMatrix(newValue); // THEN QVERIFY(spy.isValid()); QCOMPARE(cameraLens.projectionMatrix(), newValue); QCOMPARE(cameraLens.projectionType(), Qt3DRender::QCameraLens::CustomProjection); QCOMPARE(spy.size(), 1); // WHEN spy.clear(); cameraLens.setProjectionMatrix(newValue); // THEN QCOMPARE(cameraLens.projectionMatrix(), newValue); QCOMPARE(spy.size(), 0); } } void checkSetOrthographicProjection() { // GIVEN Qt3DRender::QCameraLens cameraLens; { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(projectionMatrixChanged(QMatrix4x4))); cameraLens.setOrthographicProjection(-1.0f, 1.0f, -1.0f, 1.0f, 0.5f, 50.0f); // THEN QVERIFY(spy.isValid()); QCOMPARE(spy.size(), 8); // Triggered for each property being set + 1 QCOMPARE(cameraLens.projectionType(), Qt3DRender::QCameraLens::OrthographicProjection); QCOMPARE(cameraLens.nearPlane(), 0.5f); QCOMPARE(cameraLens.farPlane(), 50.0f); QCOMPARE(cameraLens.left(), -1.0f); QCOMPARE(cameraLens.right(), 1.0f); QCOMPARE(cameraLens.bottom(), -1.0f); QCOMPARE(cameraLens.top(), 1.0f); } } void checkSetPerspectiveProjection() { // GIVEN Qt3DRender::QCameraLens cameraLens; { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(projectionMatrixChanged(QMatrix4x4))); cameraLens.setPerspectiveProjection(20.0f, 16.0f / 9.0f, 0.5f, 50.0f); // THEN QVERIFY(spy.isValid()); QCOMPARE(spy.size(), 5); // Triggered for each property being set (- projectionTye which is the default value) + 1 QCOMPARE(cameraLens.projectionType(), Qt3DRender::QCameraLens::PerspectiveProjection); QCOMPARE(cameraLens.nearPlane(), 0.5f); QCOMPARE(cameraLens.farPlane(), 50.0f); QCOMPARE(cameraLens.fieldOfView(), 20.0f); QCOMPARE(cameraLens.aspectRatio(), 16.0f / 9.0f); } } void checkSetFrustumProjection() { // GIVEN Qt3DRender::QCameraLens cameraLens; { // WHEN QSignalSpy spy(&cameraLens, SIGNAL(projectionMatrixChanged(QMatrix4x4))); cameraLens.setFrustumProjection(-1.0f, 1.0f, -1.0f, 1.0f, 0.5f, 50.0f); // THEN QVERIFY(spy.isValid()); QCOMPARE(spy.size(), 8); // Triggered for each property being set + 1 QCOMPARE(cameraLens.projectionType(), Qt3DRender::QCameraLens::FrustumProjection); QCOMPARE(cameraLens.nearPlane(), 0.5f); QCOMPARE(cameraLens.farPlane(), 50.0f); QCOMPARE(cameraLens.left(), -1.0f); QCOMPARE(cameraLens.right(), 1.0f); QCOMPARE(cameraLens.bottom(), -1.0f); QCOMPARE(cameraLens.top(), 1.0f); } } void checkProjectionTypeUpdate() { // GIVEN TestArbiter arbiter; Qt3DRender::QCameraLens cameraLens; arbiter.setArbiterOnNode(&cameraLens); { // WHEN cameraLens.setProjectionType(Qt3DRender::QCameraLens::FrustumProjection); QCoreApplication::processEvents(); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 1); QCOMPARE(arbiter.dirtyNodes().front(), &cameraLens); arbiter.clear(); } { // WHEN cameraLens.setProjectionType(Qt3DRender::QCameraLens::FrustumProjection); QCoreApplication::processEvents(); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 0); } } void checkNearPlaneUpdate() { // GIVEN TestArbiter arbiter; Qt3DRender::QCameraLens cameraLens; arbiter.setArbiterOnNode(&cameraLens); { // WHEN cameraLens.setNearPlane(5.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 1); QCOMPARE(arbiter.dirtyNodes().front(), &cameraLens); arbiter.clear(); } { // WHEN cameraLens.setNearPlane(5.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 0); } } void checkFarPlaneUpdate() { // GIVEN TestArbiter arbiter; Qt3DRender::QCameraLens cameraLens; arbiter.setArbiterOnNode(&cameraLens); { // WHEN cameraLens.setFarPlane(5.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 1); QCOMPARE(arbiter.dirtyNodes().front(), &cameraLens); arbiter.clear(); } { // WHEN cameraLens.setFarPlane(5.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 0); } } void checkFieldOfViewUpdate() { // GIVEN TestArbiter arbiter; Qt3DRender::QCameraLens cameraLens; arbiter.setArbiterOnNode(&cameraLens); { // WHEN cameraLens.setFieldOfView(5.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 1); QCOMPARE(arbiter.dirtyNodes().front(), &cameraLens); arbiter.clear(); } { // WHEN cameraLens.setFieldOfView(5.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 0); } } void checkAspectRatioUpdate() { // GIVEN TestArbiter arbiter; Qt3DRender::QCameraLens cameraLens; arbiter.setArbiterOnNode(&cameraLens); { // WHEN cameraLens.setAspectRatio(9.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 1); QCOMPARE(arbiter.dirtyNodes().front(), &cameraLens); arbiter.clear(); } { // WHEN cameraLens.setAspectRatio(9.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 0); } } void checkLeftUpdate() { // GIVEN TestArbiter arbiter; Qt3DRender::QCameraLens cameraLens; arbiter.setArbiterOnNode(&cameraLens); { // WHEN cameraLens.setLeft(0.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 1); QCOMPARE(arbiter.dirtyNodes().front(), &cameraLens); arbiter.clear(); } { // WHEN cameraLens.setLeft(0.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 0); } } void checkRightUpdate() { // GIVEN TestArbiter arbiter; Qt3DRender::QCameraLens cameraLens; arbiter.setArbiterOnNode(&cameraLens); { // WHEN cameraLens.setRight(24.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 1); QCOMPARE(arbiter.dirtyNodes().front(), &cameraLens); arbiter.clear(); } { // WHEN cameraLens.setRight(24.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 0); } } void checkBottomUpdate() { // GIVEN TestArbiter arbiter; Qt3DRender::QCameraLens cameraLens; arbiter.setArbiterOnNode(&cameraLens); { // WHEN cameraLens.setBottom(-12.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 1); QCOMPARE(arbiter.dirtyNodes().front(), &cameraLens); arbiter.clear(); } { // WHEN cameraLens.setBottom(-12.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 0); } } void checkTopUpdate() { // GIVEN TestArbiter arbiter; Qt3DRender::QCameraLens cameraLens; arbiter.setArbiterOnNode(&cameraLens); { // WHEN cameraLens.setTop(12.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 1); QCOMPARE(arbiter.dirtyNodes().front(), &cameraLens); arbiter.clear(); } { // WHEN cameraLens.setTop(12.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 0); } } void checkExposureUpdate() { // GIVEN TestArbiter arbiter; Qt3DRender::QCameraLens cameraLens; arbiter.setArbiterOnNode(&cameraLens); { // WHEN cameraLens.setExposure(2.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 1); QCOMPARE(arbiter.dirtyNodes().front(), &cameraLens); arbiter.clear(); } { // WHEN cameraLens.setExposure(2.0f); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 0); } } void checkProjectionMatrixUpdate() { // GIVEN TestArbiter arbiter; Qt3DRender::QCameraLens cameraLens; arbiter.setArbiterOnNode(&cameraLens); QMatrix4x4 m; m.translate(-5.0f, 5.0f, 25.0f); { // WHEN cameraLens.setProjectionMatrix(m); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 1); QCOMPARE(arbiter.dirtyNodes().front(), &cameraLens); arbiter.clear(); } { // WHEN cameraLens.setProjectionMatrix(m); // THEN QCOMPARE(arbiter.dirtyNodes().size(), 0); } } }; QTEST_MAIN(tst_QCameraLens) #include "tst_qcameralens.moc"