QImage utils::StrokeTester::doStroke(bool cancelled, bool indirectPainting, bool externalLayer, bool testUpdates, bool needQImage) { KisImageSP image = utils::createImage(0, m_imageSize); KoCanvasResourceManager *manager = utils::createResourceManager(image, 0, m_presetFilename); KisNodeSP currentNode; for (int i = 0; i < m_numIterations; i++) { modifyResourceManager(manager, image, i); KisPainter *painter = new KisPainter(); KisResourcesSnapshotSP resources = new KisResourcesSnapshot(image, image->rootLayer()->firstChild(), image->postExecutionUndoAdapter(), manager); if(externalLayer) { KisNodeSP externalNode = new KisPaintLayer(0, "extlyr", OPACITY_OPAQUE_U8, image->colorSpace()); resources->setCurrentNode(externalNode); Q_ASSERT(resources->currentNode() == externalNode); } initImage(image, resources->currentNode(), i); KisStrokeStrategy *stroke = createStroke(indirectPainting, resources, painter, image); m_strokeId = image->startStroke(stroke); addPaintingJobs(image, resources, painter, i); if(!cancelled) { image->endStroke(m_strokeId); } else { image->cancelStroke(m_strokeId); } image->waitForDone(); currentNode = resources->currentNode(); } QImage resultImage; if(needQImage) { KisPaintDeviceSP device = testUpdates ? image->projection() : currentNode->paintDevice(); resultImage = device->convertToQImage(0, 0, 0, image->width(), image->height()); } image = 0; delete manager; return resultImage; }
void KisFillActionFactory::run(const QString &fillSource, KisViewManager *view) { KisNodeSP node = view->activeNode(); if (!node || !node->hasEditablePaintDevice()) return; KisSelectionSP selection = view->selection(); QRect selectedRect = selection ? selection->selectedRect() : view->image()->bounds(); Q_UNUSED(selectedRect); KisPaintDeviceSP filled = node->paintDevice()->createCompositionSourceDevice(); Q_UNUSED(filled); bool usePattern = false; bool useBgColor = false; if (fillSource.contains("pattern")) { usePattern = true; } else if (fillSource.contains("bg")) { useBgColor = true; } KisProcessingApplicator applicator(view->image(), node, KisProcessingApplicator::NONE, KisImageSignalVector() << ModifiedSignal, kundo2_i18n("Flood Fill Layer")); KisResourcesSnapshotSP resources = new KisResourcesSnapshot(view->image(), node, 0, view->resourceProvider()->resourceManager()); if (!fillSource.contains("opacity")) { resources->setOpacity(1.0); } KisProcessingVisitorSP visitor = new FillProcessingVisitor(QPoint(0, 0), // start position selection, resources, false, // fast mode usePattern, true, // fill only selection, 0, // feathering radius 0, // sizemod 80, // threshold, false, // unmerged useBgColor); applicator.applyVisitor(visitor, KisStrokeJobData::SEQUENTIAL, KisStrokeJobData::EXCLUSIVE); applicator.end(); }
KisFilterStrokeStrategy::KisFilterStrokeStrategy(KisFilterSP filter, KisSafeFilterConfigurationSP filterConfig, KisResourcesSnapshotSP resources) : KisPainterBasedStrokeStrategy("FILTER_STROKE", filter->name(), resources, QVector<PainterInfo*>()), m_d(new Private()) { m_d->filter = filter; m_d->filterConfig = filterConfig; m_d->node = resources->currentNode(); m_d->updatesFacade = resources->image().data(); m_d->cancelSilently = false; m_d->secondaryTransaction = 0; enableJob(KisSimpleStrokeStrategy::JOB_DOSTROKE); }
void addPaintingJobs(KisImageWSP image, KisResourcesSnapshotSP resources, KisPainter *painter) { Q_ASSERT(painter == m_painterInfo->painter); Q_UNUSED(painter); KisPaintInformation pi1; KisPaintInformation pi2; pi1 = KisPaintInformation(QPointF(200, 200)); pi2 = KisPaintInformation(QPointF(300, 300)); image->addJob(strokeId(), new FreehandStrokeStrategy::Data(resources->currentNode(), m_painterInfo, pi1, pi2)); }
void test(bool mirrorX, bool mirrorY, qreal rotation, bool mirrorDabX, bool mirrorDabY, qreal dabRotation) { KisSurrogateUndoStore *undoStore = new KisSurrogateUndoStore(); KisImageSP image = createTrivialImage(undoStore); image->initialRefreshGraph(); KisNodeSP paint1 = findNode(image->root(), "paint1"); QVERIFY(paint1->extent().isEmpty()); KisPainter gc(paint1->paintDevice()); QScopedPointer<KoCanvasResourceManager> manager( utils::createResourceManager(image, 0, m_presetFileName)); KisPaintOpPresetSP preset = manager->resource(KisCanvasResourceProvider::CurrentPaintOpPreset).value<KisPaintOpPresetSP>(); preset->settings()->setCanvasRotation(rotation); preset->settings()->setCanvasMirroring(mirrorY, mirrorX); if (mirrorDabX || mirrorDabY) { KisPaintOpSettingsSP settings = preset->settings()->clone(); KisPressureMirrorOption mirrorOption; mirrorOption.readOptionSetting(settings); mirrorOption.setChecked(true); mirrorOption.setCurveUsed(false); mirrorOption.enableHorizontalMirror(mirrorDabX); mirrorOption.enableVerticalMirror(mirrorDabY); mirrorOption.writeOptionSetting(settings.data()); preset->setSettings(settings); } if (dabRotation != 0.0) { KisPaintOpSettingsSP settings = preset->settings()->clone(); KisPressureRotationOption rotationOption; rotationOption.readOptionSetting(settings); rotationOption.setChecked(true); rotationOption.setCurveUsed(false); rotationOption.setValue(dabRotation / 360.0); rotationOption.writeOptionSetting(settings.data()); preset->setSettings(settings); } QString testName = QString("%7_cmY_%1_cmX_%2_cR_%3_dmX_%4_dmY_%5_dR_%6") .arg(mirrorY) .arg(mirrorX) .arg(rotation) .arg(mirrorDabX) .arg(mirrorDabY) .arg(std::fmod(360.0 - dabRotation, 360.0)) .arg(m_prefix); KisResourcesSnapshotSP resources = new KisResourcesSnapshot(image, paint1, manager.data()); resources->setupPainter(&gc); doPaint(gc); checkOneLayer(image, paint1, testName); }