File indexing completed on 2024-05-12 04:44:22 

0001 // SPDX-FileCopyrightText: Lukas Sommer <sommerluk@gmail.com>
0002 // SPDX-License-Identifier: BSD-2-Clause OR MIT
0003 
0004 // First included header is the public header of the class we are testing;
0005 // this forces the header to be self-contained.
0006 #include "chromalightnessimageparameters.h"
0007 
0008 #include "asyncimageprovider.h"
0009 #include "helper.h"
0010 #include "rgbcolorspacefactory.h"
0011 #include <qcolor.h>
0012 #include <qglobal.h>
0013 #include <qimage.h>
0014 #include <qobject.h>
0015 #include <qsharedpointer.h>
0016 #include <qsize.h>
0017 #include <qtest.h>
0018 #include <qtestcase.h>
0019 #include <qtestdata.h>
0020 
0021 #if (QT_VERSION >= QT_VERSION_CHECK(6, 0, 0))
0022 #include <qtmetamacros.h>
0023 #else
0024 #include <qobjectdefs.h>
0025 #include <qstring.h>
0026 #endif
0027 
0028 namespace PerceptualColor
0029 {
0030 class RgbColorSpace;
0031 
0032 class TestChromaLightnessImageParameters : public QObject
0033 {
0034     Q_OBJECT
0035 
0036 public:
0037     explicit TestChromaLightnessImageParameters(QObject *parent = nullptr)
0038         : QObject(parent)
0039     {
0040     }
0041 
0042 private:
0043     QSharedPointer<PerceptualColor::RgbColorSpace> m_rgbColorSpace = RgbColorSpaceFactory::createSrgb();
0044 
0045 private Q_SLOTS:
0046     void initTestCase()
0047     {
0048         // Called before the first test function is executed
0049     }
0050 
0051     void cleanupTestCase()
0052     {
0053         // Called after the last test function was executed
0054     }
0055 
0056     void init()
0057     {
0058         // Called before each test function is executed
0059     }
0060 
0061     void cleanup()
0062     {
0063         // Called after every test function
0064     }
0065 
0066     void testConstructorDestructor()
0067     {
0068         ChromaLightnessImageParameters test;
0069     }
0070 
0071 #ifndef MSVC_DLL
0072     // The automatic export of otherwise private symbols on MSVC
0073     // shared libraries via CMake's WINDOWS_EXPORT_ALL_SYMBOLS property
0074     // does not work well for Qt meta objects. AsyncImageProvider inherits
0075     // from AsyncImageProviderBase, which relies on Qt meta object
0076     // functionality and whose API is private. Therefore, instantiation of
0077     // AsyncImageProvider is not possible, so the following unit tests cannot
0078     // be built for MSVC shared libraries.
0079 
0080     void testGetImage0()
0081     {
0082         ChromaLightnessImageParameters m_imageParameters;
0083         m_imageParameters.rgbColorSpace = m_rgbColorSpace;
0084         m_imageParameters.hue = 0;
0085 
0086         // Testing extremely small images
0087 
0088         AsyncImageProvider<ChromaLightnessImageParameters> m_imageProvider;
0089         m_imageParameters.imageSizePhysical = QSize(0, 0);
0090         m_imageProvider.setImageParameters(m_imageParameters);
0091         m_imageProvider.refreshSync();
0092         delayedEventProcessing();
0093         const QImage m_image = m_imageProvider.getCache();
0094         QCOMPARE(m_image.size(), QSize(0, 0));
0095     }
0096 
0097     void testGetImage1()
0098     {
0099         ChromaLightnessImageParameters m_imageParameters;
0100         m_imageParameters.rgbColorSpace = m_rgbColorSpace;
0101         m_imageParameters.hue = 0;
0102 
0103         // Testing extremely small images
0104 
0105         AsyncImageProvider<ChromaLightnessImageParameters> m_imageProvider;
0106         m_imageParameters.imageSizePhysical = QSize(1, 1);
0107         m_imageProvider.setImageParameters(m_imageParameters);
0108         m_imageProvider.refreshSync();
0109         delayedEventProcessing();
0110         const QImage m_image = m_imageProvider.getCache();
0111         QCOMPARE(m_image.size(), QSize(1, 1));
0112     }
0113 
0114     void testGetImage2()
0115     {
0116         ChromaLightnessImageParameters m_imageParameters;
0117         m_imageParameters.rgbColorSpace = m_rgbColorSpace;
0118         m_imageParameters.hue = 0;
0119 
0120         // Testing extremely small images
0121 
0122         AsyncImageProvider<ChromaLightnessImageParameters> m_imageProvider;
0123         m_imageParameters.imageSizePhysical = QSize(2, 2);
0124         m_imageProvider.setImageParameters(m_imageParameters);
0125         m_imageProvider.refreshSync();
0126         delayedEventProcessing();
0127         const QImage m_image = m_imageProvider.getCache();
0128         QCOMPARE(m_image.size(), QSize(2, 2));
0129     }
0130 
0131     void testGetImageInvalid()
0132     {
0133         ChromaLightnessImageParameters m_imageParameters;
0134         m_imageParameters.rgbColorSpace = m_rgbColorSpace;
0135         m_imageParameters.hue = 0;
0136 
0137         // Testing extremely small images
0138 
0139         AsyncImageProvider<ChromaLightnessImageParameters> m_imageProvider;
0140         m_imageParameters.imageSizePhysical = QSize(-1, -1);
0141         m_imageProvider.setImageParameters(m_imageParameters);
0142         m_imageProvider.refreshSync();
0143         delayedEventProcessing();
0144         const QImage m_image = m_imageProvider.getCache();
0145         QCOMPARE(m_image.size(), QSize(0, 0));
0146     }
0147 
0148     void testGetImageNormalSize()
0149     {
0150         ChromaLightnessImageParameters m_imageParameters;
0151         m_imageParameters.rgbColorSpace = m_rgbColorSpace;
0152         m_imageParameters.hue = 0;
0153 
0154         AsyncImageProvider<ChromaLightnessImageParameters> m_imageProvider;
0155 
0156         // Start testing for a normal size image
0157         m_imageParameters.imageSizePhysical = QSize(201, 101);
0158         m_imageProvider.setImageParameters(m_imageParameters);
0159         m_imageProvider.refreshSync();
0160         delayedEventProcessing();
0161         const QImage m_image = m_imageProvider.getCache();
0162         QCOMPARE(m_image.height(), 101);
0163         QCOMPARE(m_image.width(), 201);
0164 
0165         // Test if position within the QImage is valid:
0166         QCOMPARE(m_image.pixelColor(0, 0).isValid(), true);
0167 
0168         // Test if position within the QImage is valid:
0169         QCOMPARE(m_image.pixelColor(0, 100).isValid(), true);
0170 
0171         // Test if position within the QImage is invalid:
0172         QTest::ignoreMessage( //
0173             QtWarningMsg, //
0174             "QImage::pixelColor: coordinate (0,101) out of range");
0175         QCOMPARE(m_image.pixelColor(0, 101).isValid(), false);
0176     }
0177 
0178     void testSetHue_data()
0179     {
0180         QTest::addColumn<qreal>("hue");
0181         QTest::newRow("0") << 0.;
0182         QTest::newRow("20") << 20.;
0183         QTest::newRow("30") << 30.;
0184         QTest::newRow("40") << 40.;
0185         QTest::newRow("50") << 50.;
0186         QTest::newRow("60") << 60.;
0187         QTest::newRow("70") << 70.;
0188         QTest::newRow("80") << 80.;
0189         QTest::newRow("290") << 290.;
0190     }
0191 
0192     void testSetHueInvalid()
0193     {
0194         // Make sure that setting an invalid values does not crash.
0195         ChromaLightnessImageParameters m_imageParameters;
0196         m_imageParameters.rgbColorSpace = m_rgbColorSpace;
0197 
0198         // Set a non-zero image size:
0199         m_imageParameters.imageSizePhysical = QSize(20, 10);
0200 
0201         AsyncImageProvider<ChromaLightnessImageParameters> m_imageProvider;
0202 
0203         m_imageParameters.hue = 0;
0204         m_imageProvider.setImageParameters(m_imageParameters);
0205         m_imageProvider.refreshSync();
0206         Q_UNUSED(m_imageProvider.getCache())
0207 
0208         m_imageParameters.hue = 1;
0209         m_imageProvider.setImageParameters(m_imageParameters);
0210         m_imageProvider.refreshSync();
0211         Q_UNUSED(m_imageProvider.getCache())
0212 
0213         m_imageParameters.hue = 2;
0214         m_imageProvider.setImageParameters(m_imageParameters);
0215         m_imageProvider.refreshSync();
0216         Q_UNUSED(m_imageProvider.getCache())
0217 
0218         m_imageParameters.hue = -10;
0219         m_imageProvider.setImageParameters(m_imageParameters);
0220         m_imageProvider.refreshSync();
0221         Q_UNUSED(m_imageProvider.getCache())
0222 
0223         m_imageParameters.hue = -1000;
0224         m_imageProvider.setImageParameters(m_imageParameters);
0225         m_imageProvider.refreshSync();
0226         Q_UNUSED(m_imageProvider.getCache())
0227 
0228         m_imageParameters.hue = 100;
0229         m_imageProvider.setImageParameters(m_imageParameters);
0230         m_imageProvider.refreshSync();
0231         Q_UNUSED(m_imageProvider.getCache())
0232 
0233         m_imageParameters.hue = 110;
0234         m_imageProvider.setImageParameters(m_imageParameters);
0235         m_imageProvider.refreshSync();
0236         Q_UNUSED(m_imageProvider.getCache())
0237 
0238         m_imageParameters.hue = 250;
0239         m_imageProvider.setImageParameters(m_imageParameters);
0240         m_imageProvider.refreshSync();
0241         Q_UNUSED(m_imageProvider.getCache())
0242 
0243         m_imageParameters.hue = 360;
0244         m_imageProvider.setImageParameters(m_imageParameters);
0245         m_imageProvider.refreshSync();
0246         Q_UNUSED(m_imageProvider.getCache())
0247 
0248         m_imageParameters.hue = 361;
0249         m_imageProvider.setImageParameters(m_imageParameters);
0250         m_imageProvider.refreshSync();
0251         Q_UNUSED(m_imageProvider.getCache())
0252 
0253         m_imageParameters.hue = 721;
0254         m_imageProvider.setImageParameters(m_imageParameters);
0255         m_imageProvider.refreshSync();
0256         Q_UNUSED(m_imageProvider.getCache())
0257     }
0258 
0259 #endif
0260 };
0261 
0262 } // namespace PerceptualColor
0263 
0264 QTEST_MAIN(PerceptualColor::TestChromaLightnessImageParameters)
0265 
0266 // The following “include” is necessary because we do not use a header file:
0267 #include "testchromalightnessimageparameters.moc"