void KisSimpleUpdateQueueTest::testMixingTypes() { QRect imageRect(0,0,1024,1024); const KoColorSpace * cs = KoColorSpaceRegistry::instance()->rgb8(); KisImageSP image = new KisImage(0, imageRect.width(), imageRect.height(), cs, "merge test"); KisPaintLayerSP paintLayer = new KisPaintLayer(image, "test", OPACITY_OPAQUE_U8); image->lock(); image->addNode(paintLayer); image->unlock(); QRect dirtyRect1(0,0,200,200); QRect dirtyRect2(0,0,200,200); QRect dirtyRect3(20,20,200,200); KisTestableSimpleUpdateQueue queue; KisWalkersList& walkersList = queue.getWalkersList(); queue.addUpdateJob(paintLayer, dirtyRect1, imageRect, 0); queue.addFullRefreshJob(paintLayer, dirtyRect2, imageRect, 0); queue.addFullRefreshJob(paintLayer, dirtyRect3, imageRect, 0); queue.addUpdateNoFilthyJob(paintLayer, dirtyRect1, imageRect, 0); QCOMPARE(walkersList.size(), 3); QVERIFY(checkWalker(walkersList[0], QRect(0,0,200,200))); QVERIFY(checkWalker(walkersList[1], QRect(0,0,220,220))); QVERIFY(checkWalker(walkersList[2], QRect(0,0,200,200))); QCOMPARE(walkersList[0]->type(), KisBaseRectsWalker::UPDATE); QCOMPARE(walkersList[1]->type(), KisBaseRectsWalker::FULL_REFRESH); QCOMPARE(walkersList[2]->type(), KisBaseRectsWalker::UPDATE_NO_FILTHY); }
void KisKraLoaderTest::testLoading() { KisDocument *doc = KisPart::instance()->createDocument(); doc->loadNativeFormat(QString(FILES_DATA_DIR) + QDir::separator() + "load_test.kra"); KisImageSP image = doc->image(); image->lock(); QCOMPARE(image->nlayers(), 12); QCOMPARE(doc->documentInfo()->aboutInfo("title"), QString("test image for loading")); QCOMPARE(image->height(), 753); QCOMPARE(image->width(), 1000); QCOMPARE(image->colorSpace()->id(), KoColorSpaceRegistry::instance()->rgb8()->id()); KisNodeSP node = image->root()->firstChild(); QVERIFY(node); QCOMPARE(node->name(), QString("Background")); QVERIFY(node->inherits("KisPaintLayer")); node = node->nextSibling(); QVERIFY(node); QCOMPARE(node->name(), QString("Group 1")); QVERIFY(node->inherits("KisGroupLayer")); QCOMPARE((int) node->childCount(), 2); delete doc; }
void KisSimpleUpdateQueueTest::testJobProcessing() { KisTestableUpdaterContext context(2); QRect imageRect(0,0,200,200); const KoColorSpace * cs = KoColorSpaceRegistry::instance()->rgb8(); KisImageSP image = new KisImage(0, imageRect.width(), imageRect.height(), cs, "merge test"); KisPaintLayerSP paintLayer = new KisPaintLayer(image, "test", OPACITY_OPAQUE_U8); image->lock(); image->addNode(paintLayer); image->unlock(); QRect dirtyRect1(0,0,50,100); QRect dirtyRect2(0,0,100,100); QRect dirtyRect3(50,0,50,100); QRect dirtyRect4(150,150,50,50); QRect dirtyRect5(dirtyRect4); // theoretically, should be merged with 4 QVector<KisUpdateJobItem*> jobs; KisWalkersList walkersList; /** * Process the queue and look what has been added into * the updater context */ KisTestableSimpleUpdateQueue queue; queue.addUpdateJob(paintLayer, dirtyRect1, imageRect, 0); queue.addUpdateJob(paintLayer, dirtyRect2, imageRect, 0); queue.addUpdateJob(paintLayer, dirtyRect3, imageRect, 0); queue.addUpdateJob(paintLayer, dirtyRect4, imageRect, 0); { TestUtil::LodOverride l(1, image); queue.addUpdateJob(paintLayer, dirtyRect5, imageRect, 1); } queue.processQueue(context); jobs = context.getJobs(); QVERIFY(checkWalker(jobs[0]->walker(), dirtyRect2)); QVERIFY(checkWalker(jobs[1]->walker(), dirtyRect4)); QCOMPARE(jobs.size(), 2); QCOMPARE(context.currentLevelOfDetail(), 0); walkersList = queue.getWalkersList(); QCOMPARE(walkersList.size(), 1); QVERIFY(checkWalker(walkersList[0], dirtyRect5, 1)); }
void KisSimpleUpdateQueueTest::testChecksum() { QRect imageRect(0,0,512,512); QRect dirtyRect(100,100,100,100); const KoColorSpace * colorSpace = KoColorSpaceRegistry::instance()->rgb8(); KisImageSP image = new KisImage(0, imageRect.width(), imageRect.height(), colorSpace, "test"); KisLayerSP paintLayer1 = new KisPaintLayer(image, "paint1", OPACITY_OPAQUE_U8); KisAdjustmentLayerSP adjustmentLayer = new KisAdjustmentLayer(image, "adj", 0, 0); image->lock(); image->addNode(paintLayer1, image->rootLayer()); image->addNode(adjustmentLayer, image->rootLayer()); image->unlock(); KisFilterSP filter = KisFilterRegistry::instance()->value("blur"); Q_ASSERT(filter); KisFilterConfiguration *configuration = filter->defaultConfiguration(0); KisTestableSimpleUpdateQueue queue; KisWalkersList& walkersList = queue.getWalkersList(); { TestUtil::LodOverride l(1, image); queue.addUpdateJob(adjustmentLayer, dirtyRect, imageRect, 1); QCOMPARE(walkersList[0]->checksumValid(), true); QCOMPARE(walkersList[0]->levelOfDetail(), 1); } adjustmentLayer->setFilter(configuration); { TestUtil::LodOverride l(1, image); QCOMPARE(walkersList[0]->checksumValid(), false); } QVector<KisUpdateJobItem*> jobs; KisTestableUpdaterContext context(2); { TestUtil::LodOverride l(1, image); queue.processQueue(context); } jobs = context.getJobs(); { TestUtil::LodOverride l(1, image); QCOMPARE(jobs[0]->walker()->checksumValid(), true); } }
void KisSimpleUpdateQueueTest::testSplit(bool useFullRefresh) { QRect imageRect(0,0,1024,1024); const KoColorSpace * cs = KoColorSpaceRegistry::instance()->rgb8(); KisImageSP image = new KisImage(0, imageRect.width(), imageRect.height(), cs, "merge test"); KisPaintLayerSP paintLayer = new KisPaintLayer(image, "test", OPACITY_OPAQUE_U8); image->lock(); image->addNode(paintLayer); image->unlock(); QRect dirtyRect1(0,0,1000,1000); KisTestableSimpleUpdateQueue queue; KisWalkersList& walkersList = queue.getWalkersList(); if(!useFullRefresh) { queue.addUpdateJob(paintLayer, dirtyRect1, imageRect, 0); } else { queue.addFullRefreshJob(paintLayer, dirtyRect1, imageRect, 0); } QCOMPARE(walkersList.size(), 4); QVERIFY(checkWalker(walkersList[0], QRect(0,0,512,512))); QVERIFY(checkWalker(walkersList[1], QRect(512,0,488,512))); QVERIFY(checkWalker(walkersList[2], QRect(0,512,512,488))); QVERIFY(checkWalker(walkersList[3], QRect(512,512,488,488))); queue.optimize(); //must change nothing QCOMPARE(walkersList.size(), 4); QVERIFY(checkWalker(walkersList[0], QRect(0,0,512,512))); QVERIFY(checkWalker(walkersList[1], QRect(512,0,488,512))); QVERIFY(checkWalker(walkersList[2], QRect(0,512,512,488))); QVERIFY(checkWalker(walkersList[3], QRect(512,512,488,488))); }
KisImageSP utils::createImage(KisUndoStore *undoStore, const QSize &imageSize) { QRect imageRect(0,0,imageSize.width(),imageSize.height()); const KoColorSpace * cs = KoColorSpaceRegistry::instance()->rgb8(); KisImageSP image = new KisImage(undoStore, imageRect.width(), imageRect.height(), cs, "stroke test"); KisPaintLayerSP paintLayer1 = new KisPaintLayer(image, "paint1", OPACITY_OPAQUE_U8); KisPaintLayerSP paintLayer2 = new KisPaintLayer(image, "paint2", OPACITY_OPAQUE_U8); KisPaintLayerSP paintLayer3 = new KisPaintLayer(image, "paint3", OPACITY_OPAQUE_U8); KisPaintLayerSP paintLayer4 = new KisPaintLayer(image, "paint4", OPACITY_OPAQUE_U8); KisPaintLayerSP paintLayer5 = new KisPaintLayer(image, "paint5", OPACITY_OPAQUE_U8); image->lock(); image->addNode(paintLayer1); image->addNode(paintLayer2); image->addNode(paintLayer3); image->addNode(paintLayer4); image->addNode(paintLayer5); image->unlock(); return image; }
void KisImageTest::testConvertImageColorSpace() { const KoColorSpace *cs8 = KoColorSpaceRegistry::instance()->rgb8(); KisImageSP image = new KisImage(0, 1000, 1000, cs8, "stest"); KisPaintDeviceSP device1 = new KisPaintDevice(cs8); KisLayerSP paint1 = new KisPaintLayer(image, "paint1", OPACITY_OPAQUE_U8, device1); KisFilterSP filter = KisFilterRegistry::instance()->value("blur"); Q_ASSERT(filter); KisFilterConfiguration *configuration = filter->defaultConfiguration(0); Q_ASSERT(configuration); KisLayerSP blur1 = new KisAdjustmentLayer(image, "blur1", configuration, 0); image->addNode(paint1, image->root()); image->addNode(blur1, image->root()); image->refreshGraph(); const KoColorSpace *cs16 = KoColorSpaceRegistry::instance()->rgb16(); image->lock(); image->convertImageColorSpace(cs16, KoColorConversionTransformation::InternalRenderingIntent, KoColorConversionTransformation::InternalConversionFlags); image->unlock(); QVERIFY(*cs16 == *image->colorSpace()); QVERIFY(*cs16 == *image->root()->colorSpace()); QVERIFY(*cs16 == *paint1->colorSpace()); QVERIFY(*cs16 == *blur1->colorSpace()); QVERIFY(!image->root()->compositeOp()); QVERIFY(*cs16 == *paint1->compositeOp()->colorSpace()); QVERIFY(*cs16 == *blur1->compositeOp()->colorSpace()); image->refreshGraph(); }
void KisSimpleUpdateQueueTest::testJobProcessing() { KisTestableUpdaterContext context(2); QRect imageRect(0,0,200,200); const KoColorSpace * cs = KoColorSpaceRegistry::instance()->rgb8(); KisImageSP image = new KisImage(0, imageRect.width(), imageRect.height(), cs, "merge test"); KisPaintLayerSP paintLayer = new KisPaintLayer(image, "test", OPACITY_OPAQUE_U8); image->lock(); image->addNode(paintLayer); image->unlock(); QRect dirtyRect1(0,0,50,100); QRect dirtyRect2(0,0,100,100); QRect dirtyRect3(50,0,50,100); QRect dirtyRect4(150,150,50,50); QVector<KisUpdateJobItem*> jobs; KisWalkersList walkersList; /** * Process the queue and look what has been added into * the updater context */ KisTestableSimpleUpdateQueue queue; queue.addJob(paintLayer, dirtyRect1, imageRect); queue.addJob(paintLayer, dirtyRect2, imageRect); queue.addJob(paintLayer, dirtyRect3, imageRect); queue.addJob(paintLayer, dirtyRect4, imageRect); queue.processQueue(context); jobs = context.getJobs(); QVERIFY(checkWalker(jobs[0]->walker(), dirtyRect2)); QVERIFY(checkWalker(jobs[1]->walker(), dirtyRect4)); QCOMPARE(jobs.size(), 2); walkersList = queue.getWalkersList(); QCOMPARE(walkersList.size(), 0); /** * Test blocking the process */ context.clear(); queue.blockProcessing(context); queue.addJob(paintLayer, dirtyRect1, imageRect); queue.addJob(paintLayer, dirtyRect2, imageRect); queue.addJob(paintLayer, dirtyRect3, imageRect); queue.addJob(paintLayer, dirtyRect4, imageRect); jobs = context.getJobs(); QCOMPARE(jobs[0]->walker(), KisBaseRectsWalkerSP(0)); QCOMPARE(jobs[1]->walker(), KisBaseRectsWalkerSP(0)); queue.startProcessing(context); jobs = context.getJobs(); QVERIFY(checkWalker(jobs[0]->walker(), dirtyRect2)); QVERIFY(checkWalker(jobs[1]->walker(), dirtyRect4)); }
KoFilter::ConversionStatus KisOpenEXRImport::convert(const QByteArray& from, const QByteArray& to) { if (from != "image/x-exr" || to != "application/x-krita") { return KoFilter::NotImplemented; } dbgFile << "\n\n\nKrita importing from OpenEXR"; KisDoc2 * doc = dynamic_cast<KisDoc2*>(m_chain -> outputDocument()); if (!doc) { return KoFilter::CreationError; } doc -> prepareForImport(); QString filename = m_chain -> inputFile(); if (filename.isEmpty()) { return KoFilter::FileNotFound; } RgbaInputFile file(QFile::encodeName(filename)); Box2i dataWindow = file.dataWindow(); Box2i displayWindow = file.displayWindow(); dbgFile << "Data window:" << QRect(dataWindow.min.x, dataWindow.min.y, dataWindow.max.x - dataWindow.min.x + 1, dataWindow.max.y - dataWindow.min.y + 1); dbgFile << "Display window:" << QRect(displayWindow.min.x, displayWindow.min.y, displayWindow.max.x - displayWindow.min.x + 1, displayWindow.max.y - displayWindow.min.y + 1); int imageWidth = displayWindow.max.x - displayWindow.min.x + 1; int imageHeight = displayWindow.max.y - displayWindow.min.y + 1; QString imageName = "Imported from OpenEXR"; int dataWidth = dataWindow.max.x - dataWindow.min.x + 1; int dataHeight = dataWindow.max.y - dataWindow.min.y + 1; const KoColorSpace *cs = static_cast<const KoColorSpace *>((KoColorSpaceRegistry::instance()->colorSpace(KoID("RgbAF16", ""), ""))); if (cs == 0) { return KoFilter::InternalError; } doc -> undoAdapter() -> setUndo(false); KisImageSP image = new KisImage(doc->undoAdapter(), imageWidth, imageHeight, cs, imageName); if (!image) { return KoFilter::CreationError; } image->lock(); KisPaintLayerSP layer = new KisPaintLayer(image, image->nextLayerName(), OPACITY_OPAQUE, cs); layer->setCompositeOp(COMPOSITE_OVER); if (!layer) { return KoFilter::CreationError; } Q3MemArray<Rgba> pixels(dataWidth); for (int y = 0; y < dataHeight; ++y) { file.setFrameBuffer(pixels.data() - dataWindow.min.x - (dataWindow.min.y + y) * dataWidth, 1, dataWidth); file.readPixels(dataWindow.min.y + y); KisHLineIterator it = layer->paintDevice()->createHLineIterator(dataWindow.min.x, dataWindow.min.y + y, dataWidth); Rgba *rgba = pixels.data(); while (!it.isDone()) { // XXX: For now unmultiply the alpha, though compositing will be faster if we // keep it premultiplied. half unmultipliedRed = rgba -> r; half unmultipliedGreen = rgba -> g; half unmultipliedBlue = rgba -> b; if (rgba -> a >= HALF_EPSILON) { unmultipliedRed /= rgba -> a; unmultipliedGreen /= rgba -> a; unmultipliedBlue /= rgba -> a; } setPixel(it.rawData(), unmultipliedRed, unmultipliedGreen, unmultipliedBlue, rgba -> a); ++it; ++rgba; } } image->addNode(layer.data(), image->rootLayer().data()); layer->setDirty(); doc -> setCurrentImage(image); doc -> undoAdapter() -> setUndo(true); doc -> setModified(false); image->unlock(); return KoFilter::OK; }