void KisAsyncMergerTest::debugObligeChild() { const KoColorSpace * colorSpace = KoColorSpaceRegistry::instance()->rgb8(); KisImageSP image = new KisImage(0, 640, 441, colorSpace, "merger test"); QImage sourceImage1(QString(FILES_DATA_DIR) + QDir::separator() + "hakonepa.png"); KisPaintDeviceSP device1 = new KisPaintDevice(colorSpace); device1->convertFromQImage(sourceImage1, 0, 0, 0); KisLayerSP paintLayer1 = new KisPaintLayer(image, "paint1", OPACITY_OPAQUE_U8, device1); KisLayerSP groupLayer = new KisGroupLayer(image, "group", OPACITY_OPAQUE_U8); image->addNode(groupLayer, image->rootLayer()); image->addNode(paintLayer1, groupLayer); QRect testRect1(0,0,640,441); QRect cropRect(image->bounds()); KisMergeWalker walker(cropRect); KisAsyncMerger merger; walker.collectRects(paintLayer1, testRect1); merger.startMerge(walker); KisLayerSP rootLayer = image->rootLayer(); QVERIFY(rootLayer->original() == groupLayer->projection()); QVERIFY(groupLayer->original() == paintLayer1->projection()); }
void KisTransparencyMaskTest::testMoveMaskItself() { KisImageSP image; KisPaintLayerSP layer; KisPaintDeviceSP dev; KisTransparencyMaskSP mask; initImage(image, layer, dev, mask); mask->initSelection(layer); mask->selection()->pixelSelection()->invert(); mask->select(QRect(50, 50, 100, 100)); KisFullRefreshWalker walker(image->bounds()); KisAsyncMerger merger; walker.collectRects(layer, image->bounds()); merger.startMerge(walker); // image->projection()->convertToQImage(0, 0,0,300,300).save("proj_before.png"); QRect initialRect(0,0,200,100); QCOMPARE(layer->exactBounds(), initialRect); QCOMPARE(image->projection()->exactBounds(), QRect(50,50,100,50)); //layer->setX(100); //layer->setY(100); dbgKrita << "Sel. rect before:" << mask->selection()->selectedExactRect(); mask->setX(50); mask->setY(25); dbgKrita << "Sel. rect after:" << mask->selection()->selectedExactRect(); QCOMPARE(mask->selection()->selectedExactRect(), QRect(100, 75, 100, 100)); QCOMPARE(layer->paintDevice()->exactBounds(), initialRect); QCOMPARE(layer->projection()->exactBounds(), QRect(50, 50, 100, 50)); dbgKrita << ""; QRect updateRect(0,0,300,300); walker.collectRects(mask, updateRect); merger.startMerge(walker); // image->projection()->convertToQImage(0, 0,0,300,300).save("proj_after.png"); QCOMPARE(layer->paintDevice()->exactBounds(), initialRect); QCOMPARE(layer->projection()->exactBounds(), QRect(100, 75, 100, 25)); }
void KisAsyncMergerTest::testSubgraphingWithoutUpdatingParent() { const KoColorSpace *colorSpace = KoColorSpaceRegistry::instance()->rgb8(); KisImageSP image = new KisImage(0, 128, 128, colorSpace, "clones test"); KisPaintDeviceSP device1 = new KisPaintDevice(colorSpace); device1->fill(image->bounds(), KoColor(Qt::white, colorSpace)); KisLayerSP paintLayer1 = new KisPaintLayer(image, "paint1", OPACITY_OPAQUE_U8, device1); KisPaintDeviceSP device2 = new KisPaintDevice(colorSpace); device2->fill(image->bounds(), KoColor(Qt::black, colorSpace)); KisLayerSP paintLayer2 = new KisPaintLayer(image, "paint2", 128, device2); image->addNode(paintLayer1, image->rootLayer()); image->addNode(paintLayer2, image->rootLayer()); image->initialRefreshGraph(); QImage refImage(QString(FILES_DATA_DIR) + QDir::separator() + "subgraphing_without_updating.png"); { QImage resultImage = image->projection()->convertToQImage(0); QCOMPARE(resultImage, refImage); } QRect cropRect(image->bounds()); KisRefreshSubtreeWalker walker(cropRect); KisAsyncMerger merger; walker.collectRects(paintLayer2, image->bounds()); merger.startMerge(walker); { QImage resultImage = image->projection()->convertToQImage(0); QCOMPARE(resultImage, refImage); } }
void KisAsyncMergerTest::testMerger() { const KoColorSpace * colorSpace = KoColorSpaceRegistry::instance()->rgb8(); KisImageSP image = new KisImage(0, 640, 441, colorSpace, "merger test"); QImage sourceImage1(QString(FILES_DATA_DIR) + QDir::separator() + "hakonepa.png"); QImage sourceImage2(QString(FILES_DATA_DIR) + QDir::separator() + "inverted_hakonepa.png"); QImage referenceProjection(QString(FILES_DATA_DIR) + QDir::separator() + "merged_hakonepa.png"); KisPaintDeviceSP device1 = new KisPaintDevice(colorSpace); KisPaintDeviceSP device2 = new KisPaintDevice(colorSpace); device1->convertFromQImage(sourceImage1, 0, 0, 0); device2->convertFromQImage(sourceImage2, 0, 0, 0); KisFilterSP filter = KisFilterRegistry::instance()->value("blur"); Q_ASSERT(filter); KisFilterConfiguration *configuration = filter->defaultConfiguration(0); Q_ASSERT(configuration); KisLayerSP paintLayer1 = new KisPaintLayer(image, "paint1", OPACITY_OPAQUE_U8, device1); KisLayerSP paintLayer2 = new KisPaintLayer(image, "paint2", OPACITY_OPAQUE_U8, device2); KisLayerSP groupLayer = new KisGroupLayer(image, "group", 200/*OPACITY_OPAQUE*/); KisLayerSP blur1 = new KisAdjustmentLayer(image, "blur1", configuration, 0); image->addNode(paintLayer1, image->rootLayer()); image->addNode(groupLayer, image->rootLayer()); image->addNode(paintLayer2, groupLayer); image->addNode(blur1, groupLayer); QRect testRect1(0,0,100,441); QRect testRect2(100,0,400,441); QRect testRect3(500,0,140,441); QRect testRect4(580,381,40,40); QRect cropRect(image->bounds()); KisMergeWalker walker(cropRect); KisAsyncMerger merger; walker.collectRects(paintLayer2, testRect1); merger.startMerge(walker); walker.collectRects(paintLayer2, testRect2); merger.startMerge(walker); walker.collectRects(paintLayer2, testRect3); merger.startMerge(walker); walker.collectRects(paintLayer2, testRect4); merger.startMerge(walker); // Old style merging: has artefacts at x=100 and x=500 // And should be turned on inside KisLayer /* paintLayer2->setDirty(testRect1); QTest::qSleep(3000); paintLayer2->setDirty(testRect2); QTest::qSleep(3000); paintLayer2->setDirty(testRect3); QTest::qSleep(3000); paintLayer2->setDirty(testRect4); QTest::qSleep(3000); */ KisLayerSP rootLayer = image->rootLayer(); QVERIFY(rootLayer->exactBounds() == image->bounds()); QImage resultProjection = rootLayer->projection()->convertToQImage(0); resultProjection.save(QString(FILES_OUTPUT_DIR) + QDir::separator() + "actual_merge_result.png"); QPoint pt; QVERIFY(TestUtil::compareQImages(pt, resultProjection, referenceProjection, 1)); }
void KisAsyncMergerTest::testFullRefreshWithClones() { const KoColorSpace *colorSpace = KoColorSpaceRegistry::instance()->rgb8(); KisImageSP image = new KisImage(0, 128, 128, colorSpace, "clones test"); KisPaintDeviceSP device1 = new KisPaintDevice(colorSpace); device1->fill(image->bounds(), KoColor( Qt::white, colorSpace)); KisFilterSP filter = KisFilterRegistry::instance()->value("invert"); Q_ASSERT(filter); KisFilterConfiguration *configuration = filter->defaultConfiguration(0); Q_ASSERT(configuration); KisLayerSP paintLayer1 = new KisPaintLayer(image, "paint1", OPACITY_OPAQUE_U8, device1); KisFilterMaskSP invertMask1 = new KisFilterMask(); invertMask1->initSelection(0, paintLayer1); invertMask1->setFilter(configuration); KisLayerSP cloneLayer1 = new KisCloneLayer(paintLayer1, image, "clone_of_1", OPACITY_OPAQUE_U8); /** * The clone layer must have a projection to allow us * to read what it got from its source. Just shift it. */ cloneLayer1->setX(10); cloneLayer1->setY(10); image->addNode(cloneLayer1, image->rootLayer()); image->addNode(paintLayer1, image->rootLayer()); image->addNode(invertMask1, paintLayer1); QRect cropRect(image->bounds()); KisFullRefreshWalker walker(cropRect); KisAsyncMerger merger; walker.collectRects(image->rootLayer(), image->bounds()); merger.startMerge(walker); // Wait for additional jobs generated by the clone are finished image->waitForDone(); QRect filledRect(10, 10, image->width() - cloneLayer1->x(), image->height() - cloneLayer1->y()); const int pixelSize = device1->pixelSize(); const int numPixels = filledRect.width() * filledRect.height(); QByteArray bytes(numPixels * pixelSize, 13); cloneLayer1->projection()->readBytes((quint8*)bytes.data(), filledRect); KoColor desiredPixel(Qt::black, colorSpace); quint8 *srcPtr = (quint8*)bytes.data(); quint8 *dstPtr = desiredPixel.data(); for(int i = 0; i < numPixels; i++) { if(memcmp(srcPtr, dstPtr, pixelSize)) { qDebug() << "expected:" << dstPtr[0] << dstPtr[1] << dstPtr[2] << dstPtr[3]; qDebug() << "result: " << srcPtr[0] << srcPtr[1] << srcPtr[2] << srcPtr[3]; QFAIL("Failed to compare pixels"); } srcPtr += pixelSize; } }