diff --git a/libs/libkis/Document.cpp b/libs/libkis/Document.cpp index 9bc1c567b2..d63b202036 100644 --- a/libs/libkis/Document.cpp +++ b/libs/libkis/Document.cpp @@ -1,994 +1,995 @@ /* * Copyright (c) 2016 Boudewijn Rempt * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "Document.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "kis_animation_importer.h" #include #include #include #include struct Document::Private { Private() {} QPointer document; }; Document::Document(KisDocument *document, QObject *parent) : QObject(parent) , d(new Private) { d->document = document; } Document::~Document() { delete d; } bool Document::operator==(const Document &other) const { return (d->document == other.d->document); } bool Document::operator!=(const Document &other) const { return !(operator==(other)); } bool Document::batchmode() const { if (!d->document) return false; return d->document->fileBatchMode(); } void Document::setBatchmode(bool value) { if (!d->document) return; d->document->setFileBatchMode(value); } Node *Document::activeNode() const { QList activeNodes; Q_FOREACH(QPointer view, KisPart::instance()->views()) { if (view && view->document() == d->document) { activeNodes << view->currentNode(); } } if (activeNodes.size() > 0) { QList nodes = LibKisUtils::createNodeList(activeNodes, d->document->image()); return nodes.first(); } return 0; } void Document::setActiveNode(Node* value) { if (!value->node()) return; KisMainWindow *mainWin = KisPart::instance()->currentMainwindow(); if (!mainWin) return; KisViewManager *viewManager = mainWin->viewManager(); if (!viewManager) return; if (viewManager->document() != d->document) return; KisNodeManager *nodeManager = viewManager->nodeManager(); if (!nodeManager) return; KisNodeSelectionAdapter *selectionAdapter = nodeManager->nodeSelectionAdapter(); if (!selectionAdapter) return; selectionAdapter->setActiveNode(value->node()); } QList Document::topLevelNodes() const { if (!d->document) return QList(); Node n(d->document->image(), d->document->image()->rootLayer()); return n.childNodes(); } Node *Document::nodeByName(const QString &name) const { if (!d->document) return 0; KisNodeSP node = d->document->image()->rootLayer()->findChildByName(name); - return new Node(d->document->image(), node); + if (node.isNull()) return 0; + return Node::createNode(d->document->image(), node); } QString Document::colorDepth() const { if (!d->document) return ""; return d->document->image()->colorSpace()->colorDepthId().id(); } QString Document::colorModel() const { if (!d->document) return ""; return d->document->image()->colorSpace()->colorModelId().id(); } QString Document::colorProfile() const { if (!d->document) return ""; return d->document->image()->colorSpace()->profile()->name(); } bool Document::setColorProfile(const QString &value) { if (!d->document) return false; if (!d->document->image()) return false; const KoColorProfile *profile = KoColorSpaceRegistry::instance()->profileByName(value); if (!profile) return false; bool retval = d->document->image()->assignImageProfile(profile); d->document->image()->setModified(); d->document->image()->initialRefreshGraph(); return retval; } bool Document::setColorSpace(const QString &colorModel, const QString &colorDepth, const QString &colorProfile) { if (!d->document) return false; if (!d->document->image()) return false; const KoColorSpace *colorSpace = KoColorSpaceRegistry::instance()->colorSpace(colorModel, colorDepth, colorProfile); if (!colorSpace) return false; d->document->image()->convertImageColorSpace(colorSpace, KoColorConversionTransformation::IntentPerceptual, KoColorConversionTransformation::HighQuality | KoColorConversionTransformation::NoOptimization); d->document->image()->setModified(); d->document->image()->initialRefreshGraph(); return true; } QColor Document::backgroundColor() { if (!d->document) return QColor(); if (!d->document->image()) return QColor(); const KoColor color = d->document->image()->defaultProjectionColor(); return color.toQColor(); } bool Document::setBackgroundColor(const QColor &color) { if (!d->document) return false; if (!d->document->image()) return false; KoColor background = KoColor(color, d->document->image()->colorSpace()); d->document->image()->setDefaultProjectionColor(background); d->document->image()->setModified(); d->document->image()->initialRefreshGraph(); return true; } QString Document::documentInfo() const { QDomDocument doc = KisDocument::createDomDocument("document-info" /*DTD name*/, "document-info" /*tag name*/, "1.1"); doc = d->document->documentInfo()->save(doc); return doc.toString(); } void Document::setDocumentInfo(const QString &document) { KoXmlDocument doc; QString errorMsg; int errorLine, errorColumn; doc.setContent(document, &errorMsg, &errorLine, &errorColumn); d->document->documentInfo()->load(doc); } QString Document::fileName() const { if (!d->document) return QString(); return d->document->url().toLocalFile(); } void Document::setFileName(QString value) { if (!d->document) return; QString mimeType = KisMimeDatabase::mimeTypeForFile(value, false); d->document->setMimeType(mimeType.toLatin1()); d->document->setUrl(QUrl::fromLocalFile(value)); } int Document::height() const { if (!d->document) return 0; KisImageSP image = d->document->image(); if (!image) return 0; return image->height(); } void Document::setHeight(int value) { if (!d->document) return; if (!d->document->image()) return; resizeImage(d->document->image()->bounds().x(), d->document->image()->bounds().y(), d->document->image()->width(), value); } QString Document::name() const { if (!d->document) return ""; return d->document->documentInfo()->aboutInfo("title"); } void Document::setName(QString value) { if (!d->document) return; d->document->documentInfo()->setAboutInfo("title", value); } int Document::resolution() const { if (!d->document) return 0; KisImageSP image = d->document->image(); if (!image) return 0; return qRound(d->document->image()->xRes() * 72); } void Document::setResolution(int value) { if (!d->document) return; KisImageSP image = d->document->image(); if (!image) return; d->document->image()->setResolution(value / 72.0, value / 72.0); } Node *Document::rootNode() const { if (!d->document) return 0; KisImageSP image = d->document->image(); if (!image) return 0; - return new Node(image, image->root()); + return Node::createNode(image, image->root()); } Selection *Document::selection() const { if (!d->document) return 0; if (!d->document->image()) return 0; if (!d->document->image()->globalSelection()) return 0; return new Selection(d->document->image()->globalSelection()); } void Document::setSelection(Selection* value) { if (!d->document) return; if (!d->document->image()) return; if (value) { d->document->image()->setGlobalSelection(value->selection()); } else { d->document->image()->setGlobalSelection(0); } } int Document::width() const { if (!d->document) return 0; KisImageSP image = d->document->image(); if (!image) return 0; return image->width(); } void Document::setWidth(int value) { if (!d->document) return; if (!d->document->image()) return; resizeImage(d->document->image()->bounds().x(), d->document->image()->bounds().y(), value, d->document->image()->height()); } int Document::xOffset() const { if (!d->document) return 0; KisImageSP image = d->document->image(); if (!image) return 0; return image->bounds().x(); } void Document::setXOffset(int x) { if (!d->document) return; if (!d->document->image()) return; resizeImage(x, d->document->image()->bounds().y(), d->document->image()->width(), d->document->image()->height()); } int Document::yOffset() const { if (!d->document) return 0; KisImageSP image = d->document->image(); if (!image) return 0; return image->bounds().y(); } void Document::setYOffset(int y) { if (!d->document) return; if (!d->document->image()) return; resizeImage(d->document->image()->bounds().x(), y, d->document->image()->width(), d->document->image()->height()); } double Document::xRes() const { if (!d->document) return 0.0; if (!d->document->image()) return 0.0; return d->document->image()->xRes()*72.0; } void Document::setXRes(double xRes) const { if (!d->document) return; if (!d->document->image()) return; d->document->image()->setResolution(xRes/72.0, d->document->image()->yRes()); } double Document::yRes() const { if (!d->document) return 0.0; if (!d->document->image()) return 0.0; return d->document->image()->yRes()*72.0; } void Document::setYRes(double yRes) const { if (!d->document) return; if (!d->document->image()) return; d->document->image()->setResolution(d->document->image()->xRes(), yRes/72.0); } QByteArray Document::pixelData(int x, int y, int w, int h) const { QByteArray ba; if (!d->document) return ba; KisImageSP image = d->document->image(); if (!image) return ba; KisPaintDeviceSP dev = image->projection(); ba.resize(w * h * dev->pixelSize()); dev->readBytes(reinterpret_cast(ba.data()), x, y, w, h); return ba; } bool Document::close() { bool retval = d->document->closeUrl(false); Q_FOREACH(KisView *view, KisPart::instance()->views()) { if (view->document() == d->document) { view->close(); view->closeView(); view->deleteLater(); } } KisPart::instance()->removeDocument(d->document); d->document = 0; return retval; } void Document::crop(int x, int y, int w, int h) { if (!d->document) return; KisImageSP image = d->document->image(); if (!image) return; QRect rc(x, y, w, h); image->cropImage(rc); } bool Document::exportImage(const QString &filename, const InfoObject &exportConfiguration) { if (!d->document) return false; const QString outputFormatString = KisMimeDatabase::mimeTypeForFile(filename, false); const QByteArray outputFormat = outputFormatString.toLatin1(); return d->document->exportDocumentSync(QUrl::fromLocalFile(filename), outputFormat, exportConfiguration.configuration()); } void Document::flatten() { if (!d->document) return; if (!d->document->image()) return; d->document->image()->flatten(0); } void Document::resizeImage(int x, int y, int w, int h) { if (!d->document) return; KisImageSP image = d->document->image(); if (!image) return; QRect rc; rc.setX(x); rc.setY(y); rc.setWidth(w); rc.setHeight(h); image->resizeImage(rc); } void Document::scaleImage(int w, int h, int xres, int yres, QString strategy) { if (!d->document) return; KisImageSP image = d->document->image(); if (!image) return; QRect rc = image->bounds(); rc.setWidth(w); rc.setHeight(h); KisFilterStrategy *actualStrategy = KisFilterStrategyRegistry::instance()->get(strategy); if (!actualStrategy) actualStrategy = KisFilterStrategyRegistry::instance()->get("Bicubic"); image->scaleImage(rc.size(), xres/72, yres/72, actualStrategy); } void Document::rotateImage(double radians) { if (!d->document) return; KisImageSP image = d->document->image(); if (!image) return; image->rotateImage(radians); } void Document::shearImage(double angleX, double angleY) { if (!d->document) return; KisImageSP image = d->document->image(); if (!image) return; image->shear(angleX, angleY); } bool Document::save() { if (!d->document) return false; if (d->document->url().isEmpty()) return false; bool retval = d->document->save(true, 0); d->document->waitForSavingToComplete(); return retval; } bool Document::saveAs(const QString &filename) { if (!d->document) return false; const QString outputFormatString = KisMimeDatabase::mimeTypeForFile(filename, false); const QByteArray outputFormat = outputFormatString.toLatin1(); QUrl oldUrl = d->document->url(); d->document->setUrl(QUrl::fromLocalFile(filename)); bool retval = d->document->saveAs(QUrl::fromLocalFile(filename), outputFormat, true); d->document->waitForSavingToComplete(); d->document->setUrl(oldUrl); return retval; } Node* Document::createNode(const QString &name, const QString &nodeType) { if (!d->document) return 0; if (!d->document->image()) return 0; KisImageSP image = d->document->image(); Node *node = 0; if (nodeType.toLower()== "paintlayer") { node = new Node(image, new KisPaintLayer(image, name, OPACITY_OPAQUE_U8)); } else if (nodeType.toLower() == "grouplayer") { node = new Node(image, new KisGroupLayer(image, name, OPACITY_OPAQUE_U8)); } else if (nodeType.toLower() == "filelayer") { node = new Node(image, new KisFileLayer(image, name, OPACITY_OPAQUE_U8)); } else if (nodeType.toLower() == "filterlayer") { node = new Node(image, new KisAdjustmentLayer(image, name, 0, 0)); } else if (nodeType.toLower() == "filllayer") { node = new Node(image, new KisGeneratorLayer(image, name, 0, 0)); } else if (nodeType.toLower() == "clonelayer") { node = new Node(image, new KisCloneLayer(0, image, name, OPACITY_OPAQUE_U8)); } else if (nodeType.toLower() == "vectorlayer") { node = new Node(image, new KisShapeLayer(d->document->shapeController(), image, name, OPACITY_OPAQUE_U8)); } else if (nodeType.toLower() == "transparencymask") { node = new Node(image, new KisTransparencyMask()); } else if (nodeType.toLower() == "filtermask") { node = new Node(image, new KisFilterMask()); } else if (nodeType.toLower() == "transformmask") { node = new Node(image, new KisTransformMask()); } else if (nodeType.toLower() == "selectionmask") { node = new Node(image, new KisSelectionMask(image)); } return node; } GroupLayer *Document::createGroupLayer(const QString &name) { if (!d->document) return 0; if (!d->document->image()) return 0; KisImageSP image = d->document->image(); return new GroupLayer(image, name); } FileLayer *Document::createFileLayer(const QString &name, const QString fileName, const QString scalingMethod) { if (!d->document) return 0; if (!d->document->image()) return 0; KisImageSP image = d->document->image(); return new FileLayer(image, name, this->fileName(), fileName, scalingMethod); } FilterLayer *Document::createFilterLayer(const QString &name, Filter &filter, Selection &selection) { if (!d->document) return 0; if (!d->document->image()) return 0; KisImageSP image = d->document->image(); return new FilterLayer(image, name, filter, selection); } FillLayer *Document::createFillLayer(const QString &name, const QString generatorName, InfoObject &configuration, Selection &selection) { if (!d->document) return 0; if (!d->document->image()) return 0; KisImageSP image = d->document->image(); KisGeneratorSP generator = KisGeneratorRegistry::instance()->value(generatorName); if (generator) { KisFilterConfigurationSP config = generator->defaultConfiguration(); Q_FOREACH(const QString property, configuration.properties().keys()) { config->setProperty(property, configuration.property(property)); } return new FillLayer(image, name, config, selection); } return 0; } CloneLayer *Document::createCloneLayer(const QString &name, const Node *source) { if (!d->document) return 0; if (!d->document->image()) return 0; KisImageSP image = d->document->image(); KisLayerSP layer = qobject_cast(source->node().data()); return new CloneLayer(image, name, layer); } VectorLayer *Document::createVectorLayer(const QString &name) { if (!d->document) return 0; if (!d->document->image()) return 0; KisImageSP image = d->document->image(); return new VectorLayer(d->document->shapeController(), image, name); } FilterMask *Document::createFilterMask(const QString &name, Filter &filter, const Node *selection_source) { if (!d->document) return 0; if (!d->document->image()) return 0; if(!selection_source) return 0; KisLayerSP layer = qobject_cast(selection_source->node().data()); if(layer.isNull()) return 0; KisImageSP image = d->document->image(); FilterMask* mask = new FilterMask(image, name, filter); qobject_cast(mask->node().data())->initSelection(layer); return mask; } FilterMask *Document::createFilterMask(const QString &name, Filter &filter, Selection &selection) { if (!d->document) return 0; if (!d->document->image()) return 0; KisImageSP image = d->document->image(); FilterMask* mask = new FilterMask(image, name, filter); qobject_cast(mask->node().data())->setSelection(selection.selection()); return mask; } SelectionMask *Document::createSelectionMask(const QString &name) { if (!d->document) return 0; if (!d->document->image()) return 0; KisImageSP image = d->document->image(); return new SelectionMask(image, name); } QImage Document::projection(int x, int y, int w, int h) const { if (!d->document || !d->document->image()) return QImage(); return d->document->image()->convertToQImage(x, y, w, h, 0); } QImage Document::thumbnail(int w, int h) const { if (!d->document || !d->document->image()) return QImage(); return d->document->generatePreview(QSize(w, h)).toImage(); } void Document::lock() { if (!d->document || !d->document->image()) return; d->document->image()->barrierLock(); } void Document::unlock() { if (!d->document || !d->document->image()) return; d->document->image()->unlock(); } void Document::waitForDone() { if (!d->document || !d->document->image()) return; d->document->image()->waitForDone(); } bool Document::tryBarrierLock() { if (!d->document || !d->document->image()) return false; return d->document->image()->tryBarrierLock(); } bool Document::isIdle() { if (!d->document || !d->document->image()) return false; return d->document->image()->isIdle(); } void Document::refreshProjection() { if (!d->document || !d->document->image()) return; d->document->image()->refreshGraph(); } QList Document::horizontalGuides() const { QList lines; if (!d->document || !d->document->image()) return lines; KisCoordinatesConverter converter; converter.setImage(d->document->image()); QTransform transform = converter.imageToDocumentTransform().inverted(); QList untransformedLines = d->document->guidesConfig().horizontalGuideLines(); for (int i = 0; i< untransformedLines.size(); i++) { qreal line = untransformedLines[i]; lines.append(transform.map(QPointF(line, line)).x()); } return lines; } QList Document::verticalGuides() const { QList lines; if (!d->document || !d->document->image()) return lines; KisCoordinatesConverter converter; converter.setImage(d->document->image()); QTransform transform = converter.imageToDocumentTransform().inverted(); QList untransformedLines = d->document->guidesConfig().verticalGuideLines(); for (int i = 0; i< untransformedLines.size(); i++) { qreal line = untransformedLines[i]; lines.append(transform.map(QPointF(line, line)).y()); } return lines; } bool Document::guidesVisible() const { return d->document->guidesConfig().showGuides(); } bool Document::guidesLocked() const { return d->document->guidesConfig().lockGuides(); } Document *Document::clone() const { if (!d->document) return 0; QPointer clone = d->document->clone(); Document * d = new Document(clone); clone->setParent(d); // It's owned by the document, not KisPart return d; } void Document::setHorizontalGuides(const QList &lines) { if (!d->document) return; KisGuidesConfig config = d->document->guidesConfig(); KisCoordinatesConverter converter; converter.setImage(d->document->image()); QTransform transform = converter.imageToDocumentTransform(); QList transformedLines; for (int i = 0; i< lines.size(); i++) { qreal line = lines[i]; transformedLines.append(transform.map(QPointF(line, line)).x()); } config.setHorizontalGuideLines(transformedLines); d->document->setGuidesConfig(config); } void Document::setVerticalGuides(const QList &lines) { if (!d->document) return; KisGuidesConfig config = d->document->guidesConfig(); KisCoordinatesConverter converter; converter.setImage(d->document->image()); QTransform transform = converter.imageToDocumentTransform(); QList transformedLines; for (int i = 0; i< lines.size(); i++) { qreal line = lines[i]; transformedLines.append(transform.map(QPointF(line, line)).y()); } config.setVerticalGuideLines(transformedLines); d->document->setGuidesConfig(config); } void Document::setGuidesVisible(bool visible) { if (!d->document) return; KisGuidesConfig config = d->document->guidesConfig(); config.setShowGuides(visible); d->document->setGuidesConfig(config); } void Document::setGuidesLocked(bool locked) { if (!d->document) return; KisGuidesConfig config = d->document->guidesConfig(); config.setLockGuides(locked); d->document->setGuidesConfig(config); } bool Document::modified() const { if (!d->document) return false; return d->document->isModified(); } QRect Document::bounds() const { if (!d->document) return QRect(); return d->document->image()->bounds(); } QPointer Document::document() const { return d->document; } /* Animation related function */ bool Document::importAnimation(const QList &files, int firstFrame, int step) { KisView *activeView = KisPart::instance()->currentMainwindow()->activeView(); KoUpdaterPtr updater = 0; if (activeView && d->document->fileBatchMode()) { updater = activeView->viewManager()->createUnthreadedUpdater(i18n("Import frames")); } KisAnimationImporter importer(d->document->image(), updater); KisImportExportErrorCode status = importer.import(files, firstFrame, step); return status.isOk(); } int Document::framesPerSecond() { if (!d->document) return false; if (!d->document->image()) return false; return d->document->image()->animationInterface()->framerate(); } void Document::setFramesPerSecond(int fps) { if (!d->document) return; if (!d->document->image()) return; d->document->image()->animationInterface()->setFramerate(fps); } void Document::setFullClipRangeStartTime(int startTime) { if (!d->document) return; if (!d->document->image()) return; d->document->image()->animationInterface()->setFullClipRangeStartTime(startTime); } int Document::fullClipRangeStartTime() { if (!d->document) return false; if (!d->document->image()) return false; return d->document->image()->animationInterface()->fullClipRange().start(); } void Document::setFullClipRangeEndTime(int endTime) { if (!d->document) return; if (!d->document->image()) return; d->document->image()->animationInterface()->setFullClipRangeEndTime(endTime); } int Document::fullClipRangeEndTime() { if (!d->document) return false; if (!d->document->image()) return false; return d->document->image()->animationInterface()->fullClipRange().end(); } int Document::animationLength() { if (!d->document) return false; if (!d->document->image()) return false; return d->document->image()->animationInterface()->totalLength(); } void Document::setPlayBackRange(int start, int stop) { if (!d->document) return; if (!d->document->image()) return; const KisTimeRange newTimeRange = KisTimeRange(start, (stop-start)); d->document->image()->animationInterface()->setPlaybackRange(newTimeRange); } int Document::playBackStartTime() { if (!d->document) return false; if (!d->document->image()) return false; return d->document->image()->animationInterface()->playbackRange().start(); } int Document::playBackEndTime() { if (!d->document) return false; if (!d->document->image()) return false; return d->document->image()->animationInterface()->playbackRange().end(); } int Document::currentTime() { if (!d->document) return false; if (!d->document->image()) return false; return d->document->image()->animationInterface()->currentTime(); } void Document::setCurrentTime(int time) { if (!d->document) return; if (!d->document->image()) return; return d->document->image()->animationInterface()->requestTimeSwitchWithUndo(time); } diff --git a/libs/libkis/Document.h b/libs/libkis/Document.h index f7cf3da6e6..e3785d6534 100644 --- a/libs/libkis/Document.h +++ b/libs/libkis/Document.h @@ -1,866 +1,871 @@ /* * Copyright (c) 2016 Boudewijn Rempt * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef LIBKIS_DOCUMENT_H #define LIBKIS_DOCUMENT_H #include #include "kritalibkis_export.h" #include "libkis.h" #include "GroupLayer.h" #include "CloneLayer.h" #include "FileLayer.h" #include "FilterLayer.h" #include "FillLayer.h" #include "VectorLayer.h" #include "FilterMask.h" #include "SelectionMask.h" class KisDocument; /** * The Document class encapsulates a Krita Document/Image. A Krita document is an Image with * a filename. Libkis does not differentiate between a document and an image, like Krita does * internally. */ class KRITALIBKIS_EXPORT Document : public QObject { Q_OBJECT Q_DISABLE_COPY(Document) public: explicit Document(KisDocument *document, QObject *parent = 0); ~Document() override; bool operator==(const Document &other) const; bool operator!=(const Document &other) const; /** * @brief horizontalGuides * The horizontal guides. * @return a list of the horizontal positions of guides. */ QList horizontalGuides() const; /** * @brief verticalGuides * The vertical guide lines. * @return a list of vertical guides. */ QList verticalGuides() const; /** * @brief guidesVisible * Returns guide visibility. * @return whether the guides are visible. */ bool guidesVisible() const; /** * @brief guidesLocked * Returns guide lockedness. * @return whether the guides are locked. */ bool guidesLocked() const; public Q_SLOTS: /** * @brief clone create a shallow clone of this document. * @return a new Document that should be identical to this one in every respect. */ Document *clone() const; /** * Batchmode means that no actions on the document should show dialogs or popups. * @return true if the document is in batchmode. */ bool batchmode() const; /** * Set batchmode to @p value. If batchmode is true, then there should be no popups * or dialogs shown to the user. */ void setBatchmode(bool value); /** * @brief activeNode retrieve the node that is currently active in the currently active window * @return the active node. If there is no active window, the first child node is returned. */ Node* activeNode() const; /** * @brief setActiveNode make the given node active in the currently active view and window * @param value the node to make active. */ void setActiveNode(Node* value); /** * @brief toplevelNodes return a list with all top level nodes in the image graph */ QList topLevelNodes() const; /** * @brief nodeByName searches the node tree for a node with the given name and returns it * @param name the name of the node * @return the first node with the given name or 0 if no node is found */ Node *nodeByName(const QString &name) const; /** * colorDepth A string describing the color depth of the image: *
    *
  • U8: unsigned 8 bits integer, the most common type
    • *
  • U16: unsigned 16 bits integer
    • *
  • F16: half, 16 bits floating point. Only available if Krita was built with OpenEXR
    • *
  • F32: 32 bits floating point
    • *
* @return the color depth. */ QString colorDepth() const; /** * @brief colorModel retrieve the current color model of this document: *
    *
  • A: Alpha mask
    • *
  • RGBA: RGB with alpha channel (The actual order of channels is most often BGR!)
    • *
  • XYZA: XYZ with alpha channel
    • *
  • LABA: LAB with alpha channel
    • *
  • CMYKA: CMYK with alpha channel
    • *
  • GRAYA: Gray with alpha channel
    • *
  • YCbCrA: YCbCr with alpha channel
    • *
* @return the internal color model string. */ QString colorModel() const; /** * @return the name of the current color profile */ QString colorProfile() const; /** * @brief setColorProfile set the color profile of the image to the given profile. The profile has to * be registered with krita and be compatible with the current color model and depth; the image data * is not converted. * @param colorProfile * @return false if the colorProfile name does not correspond to to a registered profile or if assigning * the profile failed. */ bool setColorProfile(const QString &colorProfile); /** * @brief setColorSpace convert the nodes and the image to the given colorspace. The conversion is * done with Perceptual as intent, High Quality and No LCMS Optimizations as flags and no blackpoint * compensation. * * @param colorModel A string describing the color model of the image: *
    *
  • A: Alpha mask
    • *
  • RGBA: RGB with alpha channel (The actual order of channels is most often BGR!)
    • *
  • XYZA: XYZ with alpha channel
    • *
  • LABA: LAB with alpha channel
    • *
  • CMYKA: CMYK with alpha channel
    • *
  • GRAYA: Gray with alpha channel
    • *
  • YCbCrA: YCbCr with alpha channel
    • *
* @param colorDepth A string describing the color depth of the image: *
    *
  • U8: unsigned 8 bits integer, the most common type
    • *
  • U16: unsigned 16 bits integer
    • *
  • F16: half, 16 bits floating point. Only available if Krita was built with OpenEXR
    • *
  • F32: 32 bits floating point
    • *
* @param colorProfile a valid color profile for this color model and color depth combination. * @return false the combination of these arguments does not correspond to a colorspace. */ bool setColorSpace(const QString &colorModel, const QString &colorDepth, const QString &colorProfile); /** * @brief backgroundColor returns the current background color of the document. The color will * also include the opacity. * * @return QColor */ QColor backgroundColor(); /** * @brief setBackgroundColor sets the background color of the document. It will trigger a projection * update. * * @param color A QColor. The color will be converted from sRGB. * @return bool */ bool setBackgroundColor(const QColor &color); /** * @brief documentInfo creates and XML document representing document and author information. * @return a string containing a valid XML document with the right information about the document * and author. The DTD can be found here: * * https://phabricator.kde.org/source/krita/browse/master/krita/dtd/ * * @code * * * * * My Document * * * * * Unknown * 1 * 35 * 2017-02-27T20:15:09 * 2017-02-27T20:14:33 * * * * Boudewijn Rempt * * * * * * * * * * * * * * * @endcode * */ QString documentInfo() const; /** * @brief setDocumentInfo set the Document information to the information contained in document * @param document A string containing a valid XML document that conforms to the document-info DTD * that can be found here: * * https://phabricator.kde.org/source/krita/browse/master/krita/dtd/ */ void setDocumentInfo(const QString &document); /** * @return the full path to the document, if it has been set. */ QString fileName() const; /** * @brief setFileName set the full path of the document to @param value */ void setFileName(QString value); /** * @return the height of the image in pixels */ int height() const; /** * @brief setHeight resize the document to @param value height. This is a canvas resize, not a scale. */ void setHeight(int value); /** * @return the name of the document. This is the title field in the @ref documentInfo */ QString name() const; /** * @brief setName sets the name of the document to @p value. This is the title field in the @ref documentInfo */ void setName(QString value); /** * @return the resolution in pixels per inch */ int resolution() const; /** * @brief setResolution set the resolution of the image; this does not scale the image * @param value the resolution in pixels per inch */ void setResolution(int value); /** * @brief rootNode the root node is the invisible group layer that contains the entire node * hierarchy. * @return the root of the image */ Node* rootNode() const; /** * @brief selection Create a Selection object around the global selection, if there is one. * @return the global selection or None if there is no global selection. */ Selection* selection() const; /** * @brief setSelection set or replace the global selection * @param value a valid selection object. */ void setSelection(Selection* value); /** * @return the width of the image in pixels. */ int width() const; /** * @brief setWidth resize the document to @param value width. This is a canvas resize, not a scale. */ void setWidth(int value); /** * @return the left edge of the canvas in pixels. */ int xOffset() const; /** * @brief setXOffset sets the left edge of the canvas to @p x. */ void setXOffset(int x); /** * @return the top edge of the canvas in pixels. */ int yOffset() const; /** * @brief setYOffset sets the top edge of the canvas to @p y. */ void setYOffset(int y); /** - * @return xRes the horizontal resolution of the image in pixels per pt (there are 72 pts to an inch) + * @return xRes the horizontal resolution of the image in pixels + * per inch */ double xRes() const; /** - * @brief setXRes set the horizontal resolution of the image to xRes in pixels per pt. (there are 72 pts to an inch) + * @brief setXRes set the horizontal resolution of the image to + * xRes in pixels per inch */ void setXRes(double xRes) const; /** - * @return yRes the vertical resolution of the image in pixels per pt (there are 72 pts to an inch) + * @return yRes the vertical resolution of the image in pixels per + * inch */ double yRes() const; /** - * @brief setYRes set the vertical resolution of the image to yRes in pixels per pt. (there are 72 pts to an inch) + * @brief setYRes set the vertical resolution of the image to yRes + * in pixels per inch */ void setYRes(double yRes) const; /** * @brief pixelData reads the given rectangle from the image projection and returns it as a byte * array. The pixel data starts top-left, and is ordered row-first. * * The byte array can be interpreted as follows: 8 bits images have one byte per channel, * and as many bytes as there are channels. 16 bits integer images have two bytes per channel, * representing an unsigned short. 16 bits float images have two bytes per channel, representing * a half, or 16 bits float. 32 bits float images have four bytes per channel, representing a * float. * * You can read outside the image boundaries; those pixels will be transparent black. * * The order of channels is: * *
    *
  • Integer RGBA: Blue, Green, Red, Alpha *
  • Float RGBA: Red, Green, Blue, Alpha *
  • LabA: L, a, b, Alpha *
  • CMYKA: Cyan, Magenta, Yellow, Key, Alpha *
  • XYZA: X, Y, Z, A *
  • YCbCrA: Y, Cb, Cr, Alpha *
* * The byte array is a copy of the original image data. In Python, you can use bytes, bytearray * and the struct module to interpret the data and construct, for instance, a Pillow Image object. * * @param x x position from where to start reading * @param y y position from where to start reading * @param w row length to read * @param h number of rows to read * @return a QByteArray with the pixel data. The byte array may be empty. */ QByteArray pixelData(int x, int y, int w, int h) const; /** * @brief close Close the document: remove it from Krita's internal list of documents and * close all views. If the document is modified, you should save it first. There will be * no prompt for saving. * * After closing the document it becomes invalid. * * @return true if the document is closed. */ bool close(); /** * @brief crop the image to rectangle described by @p x, @p y, * @p w and @p h * @param x x coordinate of the top left corner * @param y y coordinate of the top left corner * @param w width * @param h height */ void crop(int x, int y, int w, int h); /** * @brief exportImage export the image, without changing its URL to the given path. * @param filename the full path to which the image is to be saved * @param exportConfiguration a configuration object appropriate to the file format. * An InfoObject will used to that configuration. * * The supported formats have specific configurations that must be used when in * batchmode. They are described below: * *\b png *
    *
  • alpha: bool (True or False) *
  • compression: int (1 to 9) *
  • forceSRGB: bool (True or False) *
  • indexed: bool (True or False) *
  • interlaced: bool (True or False) *
  • saveSRGBProfile: bool (True or False) *
  • transparencyFillcolor: rgb (Ex:[255,255,255]) *
* *\b jpeg *
    *
  • baseline: bool (True or False) *
  • exif: bool (True or False) *
  • filters: bool (['ToolInfo', 'Anonymizer']) *
  • forceSRGB: bool (True or False) *
  • iptc: bool (True or False) *
  • is_sRGB: bool (True or False) *
  • optimize: bool (True or False) *
  • progressive: bool (True or False) *
  • quality: int (0 to 100) *
  • saveProfile: bool (True or False) *
  • smoothing: int (0 to 100) *
  • subsampling: int (0 to 3) *
  • transparencyFillcolor: rgb (Ex:[255,255,255]) *
  • xmp: bool (True or False) *
* @return true if the export succeeded, false if it failed. */ bool exportImage(const QString &filename, const InfoObject &exportConfiguration); /** * @brief flatten all layers in the image */ void flatten(); /** * @brief resizeImage resizes the canvas to the given left edge, top edge, width and height. * Note: This doesn't scale, use scale image for that. * @param x the new left edge * @param y the new top edge * @param w the new width * @param h the new height */ void resizeImage(int x, int y, int w, int h); /** * @brief scaleImage * @param w the new width * @param h the new height * @param xres the new xres * @param yres the new yres * @param strategy the scaling strategy. There's several ones amongst these that aren't available in the regular UI. * The list of filters is extensible and can be retrieved with Krita::filter *
    *
  • Hermite
    • *
  • Bicubic - Adds pixels using the color of surrounding pixels. Produces smoother tonal gradations than Bilinear.
    • *
  • Box - Replicate pixels in the image. Preserves all the original detail, but can produce jagged effects.
    • *
  • Bilinear - Adds pixels averaging the color values of surrounding pixels. Produces medium quality results when the image is scaled from half to two times the original size.
    • *
  • Bell
    • *
  • BSpline
    • *
  • Kanczos3 - Offers similar results than Bicubic, but maybe a little bit sharper. Can produce light and dark halos along strong edges.
    • *
  • Mitchell
    • *
*/ void scaleImage(int w, int h, int xres, int yres, QString strategy); /** * @brief rotateImage * Rotate the image by the given radians. * @param radians the amount you wish to rotate the image in radians */ void rotateImage(double radians); /** * @brief shearImage shear the whole image. * @param angleX the X-angle in degrees to shear by * @param angleY the Y-angle in degrees to shear by */ void shearImage(double angleX, double angleY); /** * @brief save the image to its currently set path. The modified flag of the * document will be reset * @return true if saving succeeded, false otherwise. */ bool save(); /** * @brief saveAs save the document under the @p filename. The document's * filename will be reset to @p filename. * @param filename the new filename (full path) for the document * @return true if saving succeeded, false otherwise. */ bool saveAs(const QString &filename); /** * @brief createNode create a new node of the given type. The node is not added * to the node hierarchy; you need to do that by finding the right parent node, * getting its list of child nodes and adding the node in the right place, then * calling Node::SetChildNodes * * @param name The name of the node * * @param nodeType The type of the node. Valid types are: *
    *
  • paintlayer *
  • grouplayer *
  • filelayer *
  • filterlayer *
  • filllayer *
  • clonelayer *
  • vectorlayer *
  • transparencymask *
  • filtermask *
  • transformmask *
  • selectionmask *
* * When relevant, the new Node will have the colorspace of the image by default; * that can be changed with Node::setColorSpace. * * The settings and selections for relevant layer and mask types can also be set * after the Node has been created. * @code d = Application.createDocument(1000, 1000, "Test", "RGBA", "U8", "", 120.0) root = d.rootNode(); print(root.childNodes()) l2 = d.createNode("layer2", "paintLayer") print(l2) root.addChildNode(l2, None) print(root.childNodes()) @endcode * * * @return the new Node. */ Node* createNode(const QString &name, const QString &nodeType); /** * @brief createGroupLayer * Returns a grouplayer object. Grouplayers are nodes that can have * other layers as children and have the passthrough mode. * @param name the name of the layer. * @return a GroupLayer object. */ GroupLayer* createGroupLayer(const QString &name); /** * @brief createFileLayer returns a layer that shows an external image. * @param name name of the file layer. * @param fileName the absolute filename of the file referenced. Symlinks will be resolved. * @param scalingMethod how the dimensions of the file are interpreted * can be either "None", "ImageToSize" or "ImageToPPI" * @return a FileLayer */ FileLayer* createFileLayer(const QString &name, const QString fileName, const QString scalingMethod); /** * @brief createFilterLayer creates a filter layer, which is a layer that represents a filter * applied non-destructively. * @param name name of the filterLayer * @param filter the filter that this filter layer will us. * @param selection the selection. * @return a filter layer object. */ FilterLayer* createFilterLayer(const QString &name, Filter &filter, Selection &selection); /** * @brief createFillLayer creates a fill layer object, which is a layer * @param name * @param generatorName - name of the generation filter. * @param configuration - the configuration for the generation filter. * @param selection - the selection. * @return a filllayer object. * * @code * from krita import * * d = Krita.instance().activeDocument() * i = InfoObject(); * i.setProperty("pattern", "Cross01.pat") * s = Selection(); * s.select(0, 0, d.width(), d.height(), 255) * n = d.createFillLayer("test", "pattern", i, s) * r = d.rootNode(); * c = r.childNodes(); * r.addChildNode(n, c[0]) * d.refreshProjection() * @endcode */ FillLayer* createFillLayer(const QString &name, const QString generatorName, InfoObject &configuration, Selection &selection); /** * @brief createCloneLayer * @param name * @param source * @return */ CloneLayer* createCloneLayer(const QString &name, const Node* source); /** * @brief createVectorLayer * Creates a vector layer that can contain vector shapes. * @param name the name of this layer. * @return a VectorLayer. */ VectorLayer* createVectorLayer(const QString &name); /** * @brief createFilterMask * Creates a filter mask object that much like a filterlayer can apply a filter non-destructively. * @param name the name of the layer. * @param filter the filter assigned. * @param selection the selection to be used by the filter mask * @return a FilterMask */ FilterMask* createFilterMask(const QString &name, Filter &filter, Selection &selection); /** * @brief createFilterMask * Creates a filter mask object that much like a filterlayer can apply a filter non-destructively. * @param name the name of the layer. * @param filter the filter assigned. * @param selection_source a node from which the selection should be initialized * @return a FilterMask */ FilterMask* createFilterMask(const QString &name, Filter &filter, const Node* selection_source); /** * @brief createSelectionMask * Creates a selection mask, which can be used to store selections. * @param name - the name of the layer. * @return a SelectionMask */ SelectionMask* createSelectionMask(const QString &name); /** * @brief projection creates a QImage from the rendered image or * a cutout rectangle. */ QImage projection(int x = 0, int y = 0, int w = 0, int h = 0) const; /** * @brief thumbnail create a thumbnail of the given dimensions. * * If the requested size is too big a null QImage is created. * * @return a QImage representing the layer contents. */ QImage thumbnail(int w, int h) const; /** * Why this should be used, When it should be used, How it should be used, * and warnings about when not. */ void lock(); /** * Why this should be used, When it should be used, How it should be used, * and warnings about when not. */ void unlock(); /** * Why this should be used, When it should be used, How it should be used, * and warnings about when not. */ void waitForDone(); /** * Why this should be used, When it should be used, How it should be used, * and warnings about when not. */ bool tryBarrierLock(); /** * Why this should be used, When it should be used, How it should be used, * and warnings about when not. */ bool isIdle(); /** * Starts a synchronous recomposition of the projection: everything will * wait until the image is fully recomputed. */ void refreshProjection(); /** * @brief setHorizontalGuides * replace all existing horizontal guides with the entries in the list. * @param lines a list of floats containing the new guides. */ void setHorizontalGuides(const QList &lines); /** * @brief setVerticalGuides * replace all existing horizontal guides with the entries in the list. * @param lines a list of floats containing the new guides. */ void setVerticalGuides(const QList &lines); /** * @brief setGuidesVisible * set guides visible on this document. * @param visible whether or not the guides are visible. */ void setGuidesVisible(bool visible); /** * @brief setGuidesLocked * set guides locked on this document * @param locked whether or not to lock the guides on this document. */ void setGuidesLocked(bool locked); /** * @brief modified returns true if the document has unsaved modifications. */ bool modified() const; /** * @brief bounds return the bounds of the image * @return the bounds */ QRect bounds() const; /**** * Animation Related API *****/ /** * @brief Import an image sequence of files from a directory. This will grab all * images from the directory and import them with a potential offset (firstFrame) * and step (images on 2s, 3s, etc) * @returns whether the animation import was successful */ bool importAnimation(const QList &files, int firstFrame, int step); /** * @brief frames per second of document * @return the fps of the document */ int framesPerSecond(); /** * @brief set frames per second of document */ void setFramesPerSecond(int fps); /** * @brief set start time of animation */ void setFullClipRangeStartTime(int startTime); /** * @brief get the full clip range start time * @return full clip range start time */ int fullClipRangeStartTime(); /** * @brief set full clip range end time */ void setFullClipRangeEndTime(int endTime); /** * @brief get the full clip range end time * @return full clip range end time */ int fullClipRangeEndTime(); /** * @brief get total frame range for animation * @return total frame range for animation */ int animationLength(); /** * @brief set temporary playback range of document */ void setPlayBackRange(int start, int stop); /** * @brief get start time of current playback * @return start time of current playback */ int playBackStartTime(); /** * @brief get end time of current playback * @return end time of current playback */ int playBackEndTime(); /** * @brief get current frame selected of animation * @return current frame selected of animation */ int currentTime(); /** * @brief set current time of document's animation */ void setCurrentTime(int time); private: friend class Krita; friend class Window; friend class Filter; + friend class View; QPointer document() const; private: struct Private; Private *const d; }; #endif // LIBKIS_DOCUMENT_H diff --git a/libs/libkis/LibKisUtils.cpp b/libs/libkis/LibKisUtils.cpp index 0e87f05c89..8b4751061a 100644 --- a/libs/libkis/LibKisUtils.cpp +++ b/libs/libkis/LibKisUtils.cpp @@ -1,81 +1,54 @@ /* * Copyright (C) 2018 Boudewijn Rempt * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "LibKisUtils.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "Node.h" #include "GroupLayer.h" #include "CloneLayer.h" #include "FilterLayer.h" #include "FillLayer.h" #include "FileLayer.h" #include "VectorLayer.h" #include "FilterMask.h" #include "SelectionMask.h" QList LibKisUtils::createNodeList(KisNodeList kisnodes, KisImageWSP image) { QList nodes; Q_FOREACH(KisNodeSP node, kisnodes) { - if (node->inherits("KisGroupLayer")) { - nodes << new GroupLayer(dynamic_cast(node.data())); - } - else if (node->inherits("KisCloneLayer")) { - nodes << new CloneLayer(dynamic_cast(node.data())); - } - else if (node->inherits("KisFileLayer")) { - nodes << new FileLayer(dynamic_cast(node.data())); - } - else if (node->inherits("KisAdjustmentLayer")) { - nodes << new FilterLayer(dynamic_cast(node.data())); - } - else if (node->inherits("KisGeneratorLayer")) { - nodes << new FillLayer(dynamic_cast(node.data())); - } - else if (node->inherits("KisShapeLayer")) { - nodes << new VectorLayer(dynamic_cast(node.data())); - } - else if (node->inherits("KisFilterMask")) { - nodes << new FilterMask(image, dynamic_cast(node.data())); - } - else if (node->inherits("KisSelectionMask")) { - nodes << new SelectionMask(image, dynamic_cast(node.data())); - } - else { - nodes << new Node(image, node); - } - + nodes << Node::createNode(image, node); } return nodes; } diff --git a/libs/libkis/Node.cpp b/libs/libkis/Node.cpp index 9eb64312f3..6b54bd3c53 100644 --- a/libs/libkis/Node.cpp +++ b/libs/libkis/Node.cpp @@ -1,651 +1,682 @@ /* * Copyright (c) 2016 Boudewijn Rempt * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "kis_selection.h" #include "InfoObject.h" #include "Krita.h" #include "Node.h" #include "Channel.h" #include "Filter.h" #include "Selection.h" #include "GroupLayer.h" #include "CloneLayer.h" #include "FilterLayer.h" #include "FillLayer.h" #include "FileLayer.h" #include "VectorLayer.h" #include "FilterMask.h" #include "SelectionMask.h" #include "LibKisUtils.h" struct Node::Private { Private() {} KisImageWSP image; KisNodeSP node; }; Node::Node(KisImageSP image, KisNodeSP node, QObject *parent) : QObject(parent) , d(new Private) { d->image = image; d->node = node; } +Node *Node::createNode(KisImageSP image, KisNodeSP node, QObject *parent) +{ + if (node->inherits("KisGroupLayer")) { + return new GroupLayer(dynamic_cast(node.data())); + } + else if (node->inherits("KisCloneLayer")) { + return new CloneLayer(dynamic_cast(node.data())); + } + else if (node->inherits("KisFileLayer")) { + return new FileLayer(dynamic_cast(node.data())); + } + else if (node->inherits("KisAdjustmentLayer")) { + return new FilterLayer(dynamic_cast(node.data())); + } + else if (node->inherits("KisGeneratorLayer")) { + return new FillLayer(dynamic_cast(node.data())); + } + else if (node->inherits("KisShapeLayer")) { + return new VectorLayer(dynamic_cast(node.data())); + } + else if (node->inherits("KisFilterMask")) { + return new FilterMask(image, dynamic_cast(node.data())); + } + else if (node->inherits("KisSelectionMask")) { + return new SelectionMask(image, dynamic_cast(node.data())); + } + else { + return new Node(image, node, parent); + } +} + Node::~Node() { delete d; } bool Node::operator==(const Node &other) const { return (d->node == other.d->node && d->image == other.d->image); } bool Node::operator!=(const Node &other) const { return !(operator==(other)); } Node *Node::clone() const { KisNodeSP clone = d->node->clone(); - Node *node = new Node(0, clone); + Node *node = Node::createNode(0, clone); return node; } bool Node::alphaLocked() const { if (!d->node) return false; KisPaintLayerSP paintLayer = qobject_cast(d->node.data()); if (paintLayer) { return paintLayer->alphaLocked(); } return false; } void Node::setAlphaLocked(bool value) { if (!d->node) return; KisPaintLayerSP paintLayer = qobject_cast(d->node.data()); if (paintLayer) { paintLayer->setAlphaLocked(value); } } QString Node::blendingMode() const { if (!d->node) return QString(); return d->node->compositeOpId(); } void Node::setBlendingMode(QString value) { if (!d->node) return; d->node->setCompositeOpId(value); } QList Node::channels() const { QList channels; if (!d->node) return channels; if (!d->node->inherits("KisLayer")) return channels; Q_FOREACH(KoChannelInfo *info, d->node->colorSpace()->channels()) { Channel *channel = new Channel(d->node, info); channels << channel; } return channels; } QList Node::childNodes() const { QList nodes; if (d->node) { KisNodeList nodeList; int childCount = d->node->childCount(); for (int i = 0; i < childCount; ++i) { nodeList << d->node->at(i); } nodes = LibKisUtils::createNodeList(nodeList, d->image); } return nodes; } bool Node::addChildNode(Node *child, Node *above) { if (!d->node) return false; if (above) { return d->image->addNode(child->node(), d->node, above->node()); } else { return d->image->addNode(child->node(), d->node, d->node->childCount()); } } bool Node::removeChildNode(Node *child) { if (!d->node) return false; return d->image->removeNode(child->node()); } void Node::setChildNodes(QList nodes) { if (!d->node) return; KisNodeSP node = d->node->firstChild(); while (node) { d->image->removeNode(node); node = node->nextSibling(); } Q_FOREACH(Node *node, nodes) { d->image->addNode(node->node(), d->node); } } int Node::colorLabel() const { if (!d->node) return 0; return d->node->colorLabelIndex(); } void Node::setColorLabel(int index) { if (!d->node) return; d->node->setColorLabelIndex(index); } QString Node::colorDepth() const { if (!d->node) return ""; if (!d->node->projection()) return d->node->colorSpace()->colorDepthId().id(); return d->node->projection()->colorSpace()->colorDepthId().id(); } QString Node::colorModel() const { if (!d->node) return ""; if (!d->node->projection()) return d->node->colorSpace()->colorModelId().id(); return d->node->projection()->colorSpace()->colorModelId().id(); } QString Node::colorProfile() const { if (!d->node) return ""; if (!d->node->projection()) return d->node->colorSpace()->profile()->name(); return d->node->projection()->colorSpace()->profile()->name(); } bool Node::setColorProfile(const QString &colorProfile) { if (!d->node) return false; if (!d->node->inherits("KisLayer")) return false; KisLayer *layer = qobject_cast(d->node.data()); const KoColorProfile *profile = KoColorSpaceRegistry::instance()->profileByName(colorProfile); const KoColorSpace *srcCS = layer->colorSpace(); const KoColorSpace *dstCs = KoColorSpaceRegistry::instance()->colorSpace(srcCS->colorModelId().id(), srcCS->colorDepthId().id(), profile); KisChangeProfileVisitor v(srcCS, dstCs); return layer->accept(v); } bool Node::setColorSpace(const QString &colorModel, const QString &colorDepth, const QString &colorProfile) { if (!d->node) return false; if (!d->node->inherits("KisLayer")) return false; KisLayer *layer = qobject_cast(d->node.data()); const KoColorProfile *profile = KoColorSpaceRegistry::instance()->profileByName(colorProfile); const KoColorSpace *srcCS = layer->colorSpace(); const KoColorSpace *dstCs = KoColorSpaceRegistry::instance()->colorSpace(colorModel, colorDepth, profile); KisColorSpaceConvertVisitor v(d->image, srcCS, dstCs, KoColorConversionTransformation::internalRenderingIntent(), KoColorConversionTransformation::internalConversionFlags()); return layer->accept(v); } bool Node::animated() const { if (!d->node) return false; return d->node->isAnimated(); } void Node::enableAnimation() const { if (!d->node) return; d->node->enableAnimation(); } void Node::setShowInTimeline(bool showInTimeline) const { if (!d->node) return; d->node->setUseInTimeline(showInTimeline); } bool Node::showInTimeline() const { if (!d->node) return false; return d->node->useInTimeline(); } bool Node::collapsed() const { if (!d->node) return false; return d->node->collapsed(); } void Node::setCollapsed(bool collapsed) { if (!d->node) return; d->node->setCollapsed(collapsed); } bool Node::inheritAlpha() const { if (!d->node) return false; if (!d->node->inherits("KisLayer")) return false; return qobject_cast(d->node)->alphaChannelDisabled(); } void Node::setInheritAlpha(bool value) { if (!d->node) return; if (!d->node->inherits("KisLayer")) return; const_cast(qobject_cast(d->node))->disableAlphaChannel(value); } bool Node::locked() const { if (!d->node) return false; return d->node->userLocked(); } void Node::setLocked(bool value) { if (!d->node) return; d->node->setUserLocked(value); } bool Node::hasExtents() { return !d->node->extent().isEmpty(); } QString Node::name() const { if (!d->node) return QString(); return d->node->name(); } void Node::setName(QString name) { if (!d->node) return; d->node->setName(name); } int Node::opacity() const { if (!d->node) return 0; return d->node->opacity(); } void Node::setOpacity(int value) { if (!d->node) return; if (value < 0) value = 0; if (value > 255) value = 255; d->node->setOpacity(value); } Node* Node::parentNode() const { if (!d->node) return 0; - return new Node(d->image, d->node->parent()); + return Node::createNode(d->image, d->node->parent()); } QString Node::type() const { if (!d->node) return QString(); if (qobject_cast(d->node)) { return "paintlayer"; } else if (qobject_cast(d->node)) { return "grouplayer"; } if (qobject_cast(d->node)) { return "filelayer"; } if (qobject_cast(d->node)) { return "filterlayer"; } if (qobject_cast(d->node)) { return "filllayer"; } if (qobject_cast(d->node)) { return "clonelayer"; } if (qobject_cast(d->node)) { return "referenceimageslayer"; } if (qobject_cast(d->node)) { return "vectorlayer"; } if (qobject_cast(d->node)) { return "transparencymask"; } if (qobject_cast(d->node)) { return "filtermask"; } if (qobject_cast(d->node)) { return "transformmask"; } if (qobject_cast(d->node)) { return "selectionmask"; } if (qobject_cast(d->node)) { return "colorizemask"; } return QString(); } QIcon Node::icon() const { QIcon icon; if (d->node) { icon = d->node->icon(); } return icon; } bool Node::visible() const { if (!d->node) return false; return d->node->visible(); } bool Node::hasKeyframeAtTime(int frameNumber) { if (!d->node || !d->node->isAnimated()) return false; KisRasterKeyframeChannel *rkc = dynamic_cast(d->node->getKeyframeChannel(KisKeyframeChannel::Content.id())); if (!rkc) return false; KisKeyframeSP timeOfCurrentKeyframe = rkc->keyframeAt(frameNumber); if (!timeOfCurrentKeyframe) { return false; } // do an assert just to be careful KIS_SAFE_ASSERT_RECOVER_RETURN_VALUE(timeOfCurrentKeyframe->time() == frameNumber, false); return true; } void Node::setVisible(bool visible) { if (!d->node) return; d->node->setVisible(visible); } QByteArray Node::pixelData(int x, int y, int w, int h) const { QByteArray ba; if (!d->node) return ba; KisPaintDeviceSP dev = d->node->paintDevice(); if (!dev) return ba; ba.resize(w * h * dev->pixelSize()); dev->readBytes(reinterpret_cast(ba.data()), x, y, w, h); return ba; } QByteArray Node::pixelDataAtTime(int x, int y, int w, int h, int time) const { QByteArray ba; if (!d->node || !d->node->isAnimated()) return ba; // KisRasterKeyframeChannel *rkc = dynamic_cast(d->node->getKeyframeChannel(KisKeyframeChannel::Content.id())); if (!rkc) return ba; KisKeyframeSP frame = rkc->keyframeAt(time); if (!frame) return ba; KisPaintDeviceSP dev = d->node->paintDevice(); if (!dev) return ba; rkc->fetchFrame(frame, dev); ba.resize(w * h * dev->pixelSize()); dev->readBytes(reinterpret_cast(ba.data()), x, y, w, h); return ba; } QByteArray Node::projectionPixelData(int x, int y, int w, int h) const { QByteArray ba; if (!d->node) return ba; KisPaintDeviceSP dev = d->node->projection(); if (!dev) return ba; ba.resize(w * h * dev->pixelSize()); dev->readBytes(reinterpret_cast(ba.data()), x, y, w, h); return ba; } void Node::setPixelData(QByteArray value, int x, int y, int w, int h) { if (!d->node) return; KisPaintDeviceSP dev = d->node->paintDevice(); if (!dev) return; dev->writeBytes((const quint8*)value.constData(), x, y, w, h); } QRect Node::bounds() const { if (!d->node) return QRect(); return d->node->exactBounds(); } void Node::move(int x, int y) { if (!d->node) return; d->node->setX(x); d->node->setY(y); } QPoint Node::position() const { if (!d->node) return QPoint(); return QPoint(d->node->x(), d->node->y()); } bool Node::remove() { if (!d->node) return false; if (!d->node->parent()) return false; return d->image->removeNode(d->node); } Node* Node::duplicate() { if (!d->node) return 0; - return new Node(d->image, d->node->clone()); + return Node::createNode(d->image, d->node->clone()); } bool Node::save(const QString &filename, double xRes, double yRes, const InfoObject &exportConfiguration, const QRect &exportRect) { if (!d->node) return false; if (filename.isEmpty()) return false; KisPaintDeviceSP projection = d->node->projection(); QRect bounds = (exportRect.isEmpty())? d->node->exactBounds() : exportRect; QString mimeType = KisMimeDatabase::mimeTypeForFile(filename, false); QScopedPointer doc(KisPart::instance()->createDocument()); KisImageSP dst = new KisImage(doc->createUndoStore(), bounds.right(), bounds.bottom(), projection->compositionSourceColorSpace(), d->node->name()); dst->setResolution(xRes, yRes); doc->setFileBatchMode(Krita::instance()->batchmode()); doc->setCurrentImage(dst); KisPaintLayer* paintLayer = new KisPaintLayer(dst, "paint device", d->node->opacity()); paintLayer->paintDevice()->makeCloneFrom(projection, bounds); dst->addNode(paintLayer, dst->rootLayer(), KisLayerSP(0)); dst->cropImage(bounds); dst->initialRefreshGraph(); bool r = doc->exportDocumentSync(QUrl::fromLocalFile(filename), mimeType.toLatin1(), exportConfiguration.configuration()); if (!r) { qWarning() << doc->errorMessage(); } return r; } Node* Node::mergeDown() { if (!d->node) return 0; if (!qobject_cast(d->node.data())) return 0; if (!d->node->prevSibling()) return 0; d->image->mergeDown(qobject_cast(d->node.data()), KisMetaData::MergeStrategyRegistry::instance()->get("Drop")); d->image->waitForDone(); - return new Node(d->image, d->node->prevSibling()); + return Node::createNode(d->image, d->node->prevSibling()); } void Node::scaleNode(QPointF origin, int width, int height, QString strategy) { if (!d->node) return; if (!qobject_cast(d->node.data())) return; if (!d->node->parent()) return; KisFilterStrategy *actualStrategy = KisFilterStrategyRegistry::instance()->get(strategy); if (!actualStrategy) actualStrategy = KisFilterStrategyRegistry::instance()->get("Bicubic"); const QRect bounds(d->node->exactBounds()); d->image->scaleNode(d->node, origin, qreal(width) / bounds.width(), qreal(height) / bounds.height(), actualStrategy, 0); } void Node::rotateNode(double radians) { if (!d->node) return; if (!qobject_cast(d->node.data())) return; if (!d->node->parent()) return; d->image->rotateNode(d->node, radians, 0); } void Node::cropNode(int x, int y, int w, int h) { if (!d->node) return; if (!qobject_cast(d->node.data())) return; if (!d->node->parent()) return; QRect rect = QRect(x, y, w, h); d->image->cropNode(d->node, rect); } void Node::shearNode(double angleX, double angleY) { if (!d->node) return; if (!qobject_cast(d->node.data())) return; if (!d->node->parent()) return; d->image->shearNode(d->node, angleX, angleY, 0); } QImage Node::thumbnail(int w, int h) { if (!d->node) return QImage(); return d->node->createThumbnail(w, h); } KisPaintDeviceSP Node::paintDevice() const { return d->node->paintDevice(); } KisImageSP Node::image() const { return d->image; } KisNodeSP Node::node() const { return d->node; } diff --git a/libs/libkis/Node.h b/libs/libkis/Node.h index 2857cdcacf..259d51e2f4 100644 --- a/libs/libkis/Node.h +++ b/libs/libkis/Node.h @@ -1,573 +1,579 @@ /* * Copyright (c) 2016 Boudewijn Rempt * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef LIBKIS_NODE_H #define LIBKIS_NODE_H #include #include #include "kritalibkis_export.h" #include "libkis.h" /** * Node represents a layer or mask in a Krita image's Node hierarchy. Group layers can contain * other layers and masks; layers can contain masks. * */ class KRITALIBKIS_EXPORT Node : public QObject { Q_OBJECT Q_DISABLE_COPY(Node) public: - explicit Node(KisImageSP image, KisNodeSP node, QObject *parent = 0); + static Node *createNode(KisImageSP image, KisNodeSP node, QObject *parent = 0); ~Node() override; bool operator==(const Node &other) const; bool operator!=(const Node &other) const; public Q_SLOTS: /** * @brief clone clone the current node. The node is not associated with any image. */ Node *clone() const; /** * @brief alphaLocked checks whether the node is a paint layer and returns whether it is alpha locked * @return whether the paint layer is alpha locked, or false if the node is not a paint layer */ bool alphaLocked() const; /** * @brief setAlphaLocked set the layer to value if the node is paint layer. */ void setAlphaLocked(bool value); /** * @return the blending mode of the layer. The values of the blending modes are defined in @see KoCompositeOpRegistry.h */ QString blendingMode() const; /** * @brief setBlendingMode set the blending mode of the node to the given value * @param value one of the string values from @see KoCompositeOpRegistry.h */ void setBlendingMode(QString value); /** * @brief channels creates a list of Channel objects that can be used individually to * show or hide certain channels, and to retrieve the contents of each channel in a * node separately. * * Only layers have channels, masks do not, and calling channels on a Node that is a mask * will return an empty list. * * @return the list of channels ordered in by position of the channels in pixel position */ QList channels() const; /** * Return a list of child nodes of the current node. The nodes are ordered from the bottommost up. * The function is not recursive. */ QList childNodes() const; /** * @brief addChildNode adds the given node in the list of children. * @param child the node to be added * @param above the node above which this node will be placed * @return false if adding the node failed */ bool addChildNode(Node *child, Node *above); /** * @brief removeChildNode removes the given node from the list of children. * @param child the node to be removed */ bool removeChildNode(Node *child); /** * @brief setChildNodes this replaces the existing set of child nodes with the new set. * @param nodes The list of nodes that will become children, bottom-up -- the first node, * is the bottom-most node in the stack. */ void setChildNodes(QList nodes); /** * colorDepth A string describing the color depth of the image: *
    *
  • U8: unsigned 8 bits integer, the most common type
    • *
  • U16: unsigned 16 bits integer
    • *
  • F16: half, 16 bits floating point. Only available if Krita was built with OpenEXR
    • *
  • F32: 32 bits floating point
    • *
* @return the color depth. */ QString colorDepth() const; /** * @brief colorModel retrieve the current color model of this document: *
    *
  • A: Alpha mask
    • *
  • RGBA: RGB with alpha channel (The actual order of channels is most often BGR!)
    • *
  • XYZA: XYZ with alpha channel
    • *
  • LABA: LAB with alpha channel
    • *
  • CMYKA: CMYK with alpha channel
    • *
  • GRAYA: Gray with alpha channel
    • *
  • YCbCrA: YCbCr with alpha channel
    • *
* @return the internal color model string. */ QString colorModel() const; /** * @return the name of the current color profile */ QString colorProfile() const; /** * @brief setColorProfile set the color profile of the image to the given profile. The profile has to * be registered with krita and be compatible with the current color model and depth; the image data * is not converted. * @param colorProfile * @return if assigning the color profile worked */ bool setColorProfile(const QString &colorProfile); /** * @brief setColorSpace convert the node to the given colorspace * @param colorModel A string describing the color model of the node: *
    *
  • A: Alpha mask
    • *
  • RGBA: RGB with alpha channel (The actual order of channels is most often BGR!)
    • *
  • XYZA: XYZ with alpha channel
    • *
  • LABA: LAB with alpha channel
    • *
  • CMYKA: CMYK with alpha channel
    • *
  • GRAYA: Gray with alpha channel
    • *
  • YCbCrA: YCbCr with alpha channel
    • *
* @param colorDepth A string describing the color depth of the image: *
    *
  • U8: unsigned 8 bits integer, the most common type
    • *
  • U16: unsigned 16 bits integer
    • *
  • F16: half, 16 bits floating point. Only available if Krita was built with OpenEXR
    • *
  • F32: 32 bits floating point
    • *
* @param colorProfile a valid color profile for this color model and color depth combination. */ bool setColorSpace(const QString &colorModel, const QString &colorDepth, const QString &colorProfile); /** * @brief Krita layers can be animated, i.e., have frames. * @return return true if the layer has frames. Currently, the scripting framework * does not give access to the animation features. */ bool animated() const; /** * @brief enableAnimation make the current layer animated, so it can have frames. */ void enableAnimation() const; /** * @brief Should the node be visible in the timeline. It defaults to false * with new layer */ void setShowInTimeline(bool showInTimeline) const; /** * @return is layer is shown in the timeline */ bool showInTimeline() const; /** * Sets the state of the node to the value of @param collapsed */ void setCollapsed(bool collapsed); /** * returns the collapsed state of this node */ bool collapsed() const; /** * Sets a color label index associated to the layer. The actual * color of the label and the number of available colors is * defined by Krita GUI configuration. */ int colorLabel() const; /** * @brief setColorLabel sets a color label index associated to the layer. The actual * color of the label and the number of available colors is * defined by Krita GUI configuration. * @param index an integer corresponding to the set of available color labels. */ void setColorLabel(int index); /** * @brief inheritAlpha checks whether this node has the inherits alpha flag set * @return true if the Inherit Alpha is set */ bool inheritAlpha() const; /** * set the Inherit Alpha flag to the given value */ void setInheritAlpha(bool value); /** * @brief locked checks whether the Node is locked. A locked node cannot be changed. * @return true if the Node is locked, false if it hasn't been locked. */ bool locked() const; /** * set the Locked flag to the give value */ void setLocked(bool value); /** * @brief does the node have any content in it? * @return if node has any content in it */ bool hasExtents(); /** * @return the user-visible name of this node. */ QString name() const; /** * rename the Node to the given name */ void setName(QString name); /** * return the opacity of the Node. The opacity is a value between 0 and 255. */ int opacity() const; /** * set the opacity of the Node to the given value. The opacity is a value between 0 and 255. */ void setOpacity(int value); /** * return the Node that is the parent of the current Node, or 0 if this is the root Node. */ Node* parentNode() const; /** * @brief type Krita has several types of nodes, split in layers and masks. Group * layers can contain other layers, any layer can contain masks. * * @return The type of the node. Valid types are: *
    *
  • paintlayer *
  • grouplayer *
  • filelayer *
  • filterlayer *
  • filllayer *
  • clonelayer *
  • vectorlayer *
  • transparencymask *
  • filtermask *
  • transformmask *
  • selectionmask *
  • colorizemask *
* * If the Node object isn't wrapping a valid Krita layer or mask object, and * empty string is returned. */ virtual QString type() const; /** * @brief icon * @return the icon associated with the layer. */ QIcon icon() const; /** * Check whether the current Node is visible in the layer stack */ bool visible() const; /** * Check to see if frame number on layer is a keyframe */ bool hasKeyframeAtTime(int frameNumber); /** * Set the visibility of the current node to @param visible */ void setVisible(bool visible); /** * @brief pixelData reads the given rectangle from the Node's paintable pixels, if those * exist, and returns it as a byte array. The pixel data starts top-left, and is ordered row-first. * * The byte array can be interpreted as follows: 8 bits images have one byte per channel, * and as many bytes as there are channels. 16 bits integer images have two bytes per channel, * representing an unsigned short. 16 bits float images have two bytes per channel, representing * a half, or 16 bits float. 32 bits float images have four bytes per channel, representing a * float. * * You can read outside the node boundaries; those pixels will be transparent black. * * The order of channels is: * *
    *
  • Integer RGBA: Blue, Green, Red, Alpha *
  • Float RGBA: Red, Green, Blue, Alpha *
  • GrayA: Gray, Alpha *
  • Selection: selectedness *
  • LabA: L, a, b, Alpha *
  • CMYKA: Cyan, Magenta, Yellow, Key, Alpha *
  • XYZA: X, Y, Z, A *
  • YCbCrA: Y, Cb, Cr, Alpha *
* * The byte array is a copy of the original node data. In Python, you can use bytes, bytearray * and the struct module to interpret the data and construct, for instance, a Pillow Image object. * * If you read the pixeldata of a mask, a filter or generator layer, you get the selection bytes, * which is one channel with values in the range from 0..255. * * If you want to change the pixels of a node you can write the pixels back after manipulation * with setPixelData(). This will only succeed on nodes with writable pixel data, e.g not on groups * or file layers. * * @param x x position from where to start reading * @param y y position from where to start reading * @param w row length to read * @param h number of rows to read * @return a QByteArray with the pixel data. The byte array may be empty. */ QByteArray pixelData(int x, int y, int w, int h) const; /** * @brief pixelDataAtTime a basic function to get pixeldata from an animated node at a given time. * @param x the position from the left to start reading. * @param y the position from the top to start reader * @param w the row length to read * @param h the number of rows to read * @param time the frame number * @return a QByteArray with the pixel data. The byte array may be empty. */ QByteArray pixelDataAtTime(int x, int y, int w, int h, int time) const; /** * @brief projectionPixelData reads the given rectangle from the Node's projection (that is, what the node * looks like after all sub-Nodes (like layers in a group or masks on a layer) have been applied, * and returns it as a byte array. The pixel data starts top-left, and is ordered row-first. * * The byte array can be interpreted as follows: 8 bits images have one byte per channel, * and as many bytes as there are channels. 16 bits integer images have two bytes per channel, * representing an unsigned short. 16 bits float images have two bytes per channel, representing * a half, or 16 bits float. 32 bits float images have four bytes per channel, representing a * float. * * You can read outside the node boundaries; those pixels will be transparent black. * * The order of channels is: * *
    *
  • Integer RGBA: Blue, Green, Red, Alpha *
  • Float RGBA: Red, Green, Blue, Alpha *
  • GrayA: Gray, Alpha *
  • Selection: selectedness *
  • LabA: L, a, b, Alpha *
  • CMYKA: Cyan, Magenta, Yellow, Key, Alpha *
  • XYZA: X, Y, Z, A *
  • YCbCrA: Y, Cb, Cr, Alpha *
* * The byte array is a copy of the original node data. In Python, you can use bytes, bytearray * and the struct module to interpret the data and construct, for instance, a Pillow Image object. * * If you read the projection of a mask, you get the selection bytes, which is one channel with * values in the range from 0..255. * * If you want to change the pixels of a node you can write the pixels back after manipulation * with setPixelData(). This will only succeed on nodes with writable pixel data, e.g not on groups * or file layers. * * @param x x position from where to start reading * @param y y position from where to start reading * @param w row length to read * @param h number of rows to read * @return a QByteArray with the pixel data. The byte array may be empty. */ QByteArray projectionPixelData(int x, int y, int w, int h) const; /** * @brief setPixelData writes the given bytes, of which there must be enough, into the * Node, if the Node has writable pixel data: * *
    *
  • paint layer: the layer's original pixels are overwritten *
  • filter layer, generator layer, any mask: the embedded selection's pixels are overwritten. * Note: for these *
* * File layers, Group layers, Clone layers cannot be written to. Calling setPixelData on * those layer types will silently do nothing. * * @param value the byte array representing the pixels. There must be enough bytes available. * Krita will take the raw pointer from the QByteArray and start reading, not stopping before * (number of channels * size of channel * w * h) bytes are read. * * @param x the x position to start writing from * @param y the y position to start writing from * @param w the width of each row * @param h the number of rows to write */ void setPixelData(QByteArray value, int x, int y, int w, int h); /** * @brief bounds return the exact bounds of the node's paint device * @return the bounds, or an empty QRect if the node has no paint device or is empty. */ QRect bounds() const; /** * move the pixels to the given x, y location in the image coordinate space. */ void move(int x, int y); /** * @brief position returns the position of the paint device of this node. The position is * always 0,0 unless the layer has been moved. If you want to know the topleft position of * the rectangle around the actual non-transparent pixels in the node, use bounds(). * @return the top-left position of the node */ QPoint position() const; /** * @brief remove removes this node from its parent image. */ bool remove(); /** * @brief duplicate returns a full copy of the current node. The node is not inserted in the graphic * @return a valid Node object or 0 if the node couldn't be duplicated. */ Node* duplicate(); /** * @brief save exports the given node with this filename. The extension of the filename determines the filetype. * @param filename the filename including extension * @param xRes the horizontal resolution in pixels per pt (there are 72 pts in an inch) * @param yRes the horizontal resolution in pixels per pt (there are 72 pts in an inch) * @param exportConfiguration a configuration object appropriate to the file format. * @param exportRect the export bounds for saving a node as a QRect * If \p exportRect is empty, then save exactBounds() of the node. If you'd like to save the image- * aligned area of the node, just pass image->bounds() there. * See Document->exportImage for InfoObject details. * @return true if saving succeeded, false if it failed. */ bool save(const QString &filename, double xRes, double yRes, const InfoObject &exportConfiguration, const QRect &exportRect = QRect()); /** * @brief mergeDown merges the given node with the first visible node underneath this node in the layerstack. * This will drop all per-layer metadata. */ Node *mergeDown(); /** * @brief scaleNode * @param origin the origin point * @param width the width * @param height the height * @param strategy the scaling strategy. There's several ones amongst these that aren't available in the regular UI. *
    *
  • Hermite
    • *
  • Bicubic - Adds pixels using the color of surrounding pixels. Produces smoother tonal gradations than Bilinear.
    • *
  • Box - Replicate pixels in the image. Preserves all the original detail, but can produce jagged effects.
    • *
  • Bilinear - Adds pixels averaging the color values of surrounding pixels. Produces medium quality results when the image is scaled from half to two times the original size.
    • *
  • Bell
    • *
  • BSpline
    • *
  • Lanczos3 - Offers similar results than Bicubic, but maybe a little bit sharper. Can produce light and dark halos along strong edges.
    • *
  • Mitchell
    • *
*/ void scaleNode(QPointF origin, int width, int height, QString strategy); /** * @brief rotateNode rotate this layer by the given radians. * @param radians amount the layer should be rotated in, in radians. */ void rotateNode(double radians); /** * @brief cropNode crop this layer. * @param x the left edge of the cropping rectangle. * @param y the top edge of the cropping rectangle * @param w the right edge of the cropping rectangle * @param h the bottom edge of the cropping rectangle */ void cropNode(int x, int y, int w, int h); /** * @brief shearNode perform a shear operation on this node. * @param angleX the X-angle in degrees to shear by * @param angleY the Y-angle in degrees to shear by */ void shearNode(double angleX, double angleY); /** * @brief thumbnail create a thumbnail of the given dimensions. The thumbnail is sized according * to the layer dimensions, not the image dimensions. If the requested size is too big a null * QImage is created. If the current node cannot generate a thumbnail, a transparent QImage of the * requested size is generated. * @return a QImage representing the layer contents. */ QImage thumbnail(int w, int h); private: friend class Filter; friend class Document; friend class Selection; friend class GroupLayer; friend class FileLayer; friend class FilterLayer; friend class FillLayer; friend class VectorLayer; friend class FilterMask; friend class SelectionMask; + friend class CloneLayer; + + explicit Node(KisImageSP image, KisNodeSP node, QObject *parent = 0); + /** * @brief paintDevice gives access to the internal paint device of this Node * @return the paintdevice or 0 if the node does not have an editable paint device. */ KisPaintDeviceSP paintDevice() const; KisImageSP image() const; KisNodeSP node() const; struct Private; Private *const d; }; +typedef QSharedPointer NodeSP; + #endif // LIBKIS_NODE_H diff --git a/libs/libkis/Selection.cpp b/libs/libkis/Selection.cpp index 3626391c29..7c17819288 100644 --- a/libs/libkis/Selection.cpp +++ b/libs/libkis/Selection.cpp @@ -1,328 +1,334 @@ /* * Copyright (c) 2016 Boudewijn Rempt * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "Selection.h" #include #include "kis_iterator_ng.h" #include #include #include #include #include #include #include #include struct Selection::Private { Private() {} KisSelectionSP selection; }; Selection::Selection(KisSelectionSP selection, QObject *parent) : QObject(parent) , d(new Private) { d->selection = selection; } Selection::Selection(QObject *parent) : QObject(parent) , d(new Private) { d->selection = new KisSelection(); } Selection::~Selection() { delete d; } bool Selection::operator==(const Selection &other) const { return (d->selection == other.d->selection); } bool Selection::operator!=(const Selection &other) const { return !(operator==(other)); } +Selection *Selection::duplicate() const +{ + return new Selection(d->selection ? new KisSelection(*d->selection) + : new KisSelection()); +} + int Selection::width() const { if (!d->selection) return 0; return d->selection->selectedExactRect().width(); } int Selection::height() const { if (!d->selection) return 0; return d->selection->selectedExactRect().height(); } int Selection::x() const { if (!d->selection) return 0; int xPos = d->selection->x(); if (d->selection->hasPixelSelection()) { xPos = d->selection->selectedExactRect().x(); } return xPos; } int Selection::y() const { if (!d->selection) return 0; int yPos = d->selection->y(); if (d->selection->hasPixelSelection()) { yPos = d->selection->selectedExactRect().y(); } return yPos; } void Selection::move(int x, int y) { if (!d->selection) return; d->selection->pixelSelection()->moveTo(QPoint(x, y)); } void Selection::clear() { if (!d->selection) return; d->selection->clear(); } void Selection::contract(int value) { if (!d->selection) return; d->selection->pixelSelection()->select(QRect(x(), y(), width() - value, height() - value)); } void Selection::copy(Node *node) { if (!node) return; if (!d->selection) return; if (node->node()->exactBounds().isEmpty()) return; if (!node->node()->hasEditablePaintDevice()) return; KisPaintDeviceSP dev = node->node()->paintDevice(); KisPaintDeviceSP clip = new KisPaintDevice(dev->colorSpace()); KisPaintDeviceSP selectionProjection = d->selection->projection(); const KoColorSpace *cs = clip->colorSpace(); const KoColorSpace *selCs = d->selection->projection()->colorSpace(); QRect rc = d->selection->selectedExactRect(); KisPainter::copyAreaOptimized(QPoint(), dev, clip, rc); KisHLineIteratorSP layerIt = clip->createHLineIteratorNG(0, 0, rc.width()); KisHLineConstIteratorSP selectionIt = selectionProjection->createHLineIteratorNG(rc.x(), rc.y(), rc.width()); for (qint32 y = 0; y < rc.height(); y++) { for (qint32 x = 0; x < rc.width(); x++) { qreal dstAlpha = cs->opacityF(layerIt->rawData()); qreal sel = selCs->opacityF(selectionIt->oldRawData()); qreal newAlpha = sel * dstAlpha / (1.0 - dstAlpha + sel * dstAlpha); float mask = newAlpha / dstAlpha; cs->applyAlphaNormedFloatMask(layerIt->rawData(), &mask, 1); layerIt->nextPixel(); selectionIt->nextPixel(); } layerIt->nextRow(); selectionIt->nextRow(); } KisClipboard::instance()->setClip(clip, rc.topLeft()); } void Selection::cut(Node* node) { if (!node) return; if (!d->selection) return; if (node->node()->exactBounds().isEmpty()) return; if (!node->node()->hasEditablePaintDevice()) return; KisPaintDeviceSP dev = node->node()->paintDevice(); copy(node); dev->clearSelection(d->selection); node->node()->setDirty(d->selection->selectedExactRect()); } void Selection::paste(Node *destination, int x, int y) { if (!destination) return; if (!d->selection) return; if (!KisClipboard::instance()->hasClip()) return; KisPaintDeviceSP src = KisClipboard::instance()->clip(QRect(), false); KisPaintDeviceSP dst = destination->node()->paintDevice(); if (!dst) return; KisPainter::copyAreaOptimized(QPoint(x, y), src, dst, src->exactBounds(), d->selection); destination->node()->setDirty(); } void Selection::erode() { if (!d->selection) return; KisErodeSelectionFilter esf; QRect rc = esf.changeRect(d->selection->selectedExactRect(), d->selection->pixelSelection()->defaultBounds()); esf.process(d->selection->pixelSelection(), rc); } void Selection::dilate() { if (!d->selection) return; KisDilateSelectionFilter dsf; QRect rc = dsf.changeRect(d->selection->selectedExactRect(), d->selection->pixelSelection()->defaultBounds()); dsf.process(d->selection->pixelSelection(), rc); } void Selection::border(int xRadius, int yRadius) { if (!d->selection) return; KisBorderSelectionFilter sf(xRadius, yRadius); QRect rc = sf.changeRect(d->selection->selectedExactRect(), d->selection->pixelSelection()->defaultBounds()); sf.process(d->selection->pixelSelection(), rc); } void Selection::feather(int radius) { if (!d->selection) return; KisFeatherSelectionFilter fsf(radius); QRect rc = fsf.changeRect(d->selection->selectedExactRect(), d->selection->pixelSelection()->defaultBounds()); fsf.process(d->selection->pixelSelection(), rc); } void Selection::grow(int xradius, int yradius) { if (!d->selection) return; KisGrowSelectionFilter gsf(xradius, yradius); QRect rc = gsf.changeRect(d->selection->selectedExactRect(), d->selection->pixelSelection()->defaultBounds()); gsf.process(d->selection->pixelSelection(), rc); } void Selection::shrink(int xRadius, int yRadius, bool edgeLock) { if (!d->selection) return; KisShrinkSelectionFilter sf(xRadius, yRadius, edgeLock); QRect rc = sf.changeRect(d->selection->selectedExactRect(), d->selection->pixelSelection()->defaultBounds()); sf.process(d->selection->pixelSelection(), rc); } void Selection::smooth() { if (!d->selection) return; KisSmoothSelectionFilter sf; QRect rc = sf.changeRect(d->selection->selectedExactRect(), d->selection->pixelSelection()->defaultBounds()); sf.process(d->selection->pixelSelection(), rc); } void Selection::invert() { if (!d->selection) return; KisInvertSelectionFilter sf; QRect rc = sf.changeRect(d->selection->selectedExactRect(), d->selection->pixelSelection()->defaultBounds()); sf.process(d->selection->pixelSelection(), rc); } void Selection::resize(int w, int h) { if (!d->selection) return; d->selection->pixelSelection()->select(QRect(x(), y(), w, h)); } void Selection::select(int x, int y, int w, int h, int value) { if (!d->selection) return; d->selection->pixelSelection()->select(QRect(x, y, w, h), value); } void Selection::selectAll(Node *node, int value) { if (!d->selection) return; d->selection->pixelSelection()->select(node->node()->exactBounds(), value); } void Selection::replace(Selection *selection) { if (!d->selection) return; d->selection->pixelSelection()->applySelection(selection->selection()->pixelSelection(), SELECTION_REPLACE); } void Selection::add(Selection *selection) { if (!d->selection) return; d->selection->pixelSelection()->applySelection(selection->selection()->pixelSelection(), SELECTION_ADD); } void Selection::subtract(Selection *selection) { if (!d->selection) return; d->selection->pixelSelection()->applySelection(selection->selection()->pixelSelection(), SELECTION_SUBTRACT); } void Selection::intersect(Selection *selection) { if (!d->selection) return; d->selection->pixelSelection()->applySelection(selection->selection()->pixelSelection(), SELECTION_INTERSECT); } void Selection::symmetricdifference(Selection *selection) { if (!d->selection) return; d->selection->pixelSelection()->applySelection(selection->selection()->pixelSelection(), SELECTION_SYMMETRICDIFFERENCE); } QByteArray Selection::pixelData(int x, int y, int w, int h) const { QByteArray ba; if (!d->selection) return ba; KisPaintDeviceSP dev = d->selection->projection(); quint8 *data = new quint8[w * h]; dev->readBytes(data, x, y, w, h); ba = QByteArray((const char*)data, (int)(w * h)); delete[] data; return ba; } void Selection::setPixelData(QByteArray value, int x, int y, int w, int h) { if (!d->selection) return; KisPixelSelectionSP dev = d->selection->pixelSelection(); if (!dev) return; dev->writeBytes((const quint8*)value.constData(), x, y, w, h); } KisSelectionSP Selection::selection() const { return d->selection; } diff --git a/libs/libkis/Selection.h b/libs/libkis/Selection.h index ffbf96e2a4..c5665ebe94 100644 --- a/libs/libkis/Selection.h +++ b/libs/libkis/Selection.h @@ -1,250 +1,255 @@ /* * Copyright (c) 2016 Boudewijn Rempt * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef LIBKIS_SELECTION_H #define LIBKIS_SELECTION_H #include #include "kritalibkis_export.h" #include "libkis.h" #include /** * Selection represents a selection on Krita. A selection is * not necessarily associated with a particular Node or Image. * * @code * from krita import * * * d = Application.activeDocument() * n = d.activeNode() * r = n.bounds() * s = Selection() * s.select(r.width() / 3, r.height() / 3, r.width() / 3, r.height() / 3, 255) * s.cut(n) * @endcode */ class KRITALIBKIS_EXPORT Selection : public QObject { Q_OBJECT public: /** * For internal use only. */ Selection(KisSelectionSP selection, QObject *parent = 0); /** * Create a new, empty selection object. */ explicit Selection(QObject *parent = 0); ~Selection() override; bool operator==(const Selection &other) const; bool operator!=(const Selection &other) const; public Q_SLOTS: + /** + * @return a duplicate of the seletion + */ + Selection *duplicate() const; + /** * @return the width of the selection */ int width() const; /** * @return the height of the selection */ int height() const; /** * @return the left-hand position of the selection. */ int x() const; /** * @return the top position of the selection. */ int y() const; /** * Move the selection's top-left corner to the given coordinates. */ void move(int x, int y); /** * Make the selection entirely unselected. */ void clear(); /** * Make the selection's width and height smaller by the given value. * This will not move the selection's top-left position. */ void contract(int value); /** * @brief copy copies the area defined by the selection from the node to the clipboard. * @param node the node from where the pixels will be copied. */ void copy(Node *node); /** * @brief cut erases the area defined by the selection from the node and puts a copy on the clipboard. * @param node the node from which the selection will be cut. */ void cut(Node *node); /** * @brief paste pastes the content of the clipboard to the given node, limited by the area of the current * selection. * @param destination the node where the pixels will be written * @param x: the x position at which the clip will be written * @param y: the y position at which the clip will be written */ void paste(Node *destination, int x, int y); /** * Erode the selection with a radius of 1 pixel. */ void erode(); /** * Dilate the selection with a radius of 1 pixel. */ void dilate(); /** * Border the selection with the given radius. */ void border(int xRadius, int yRadius); /** * Feather the selection with the given radius. */ void feather(int radius); /** * Grow the selection with the given radius. */ void grow(int xradius, int yradius); /** * Shrink the selection with the given radius. */ void shrink(int xRadius, int yRadius, bool edgeLock); /** * Smooth the selection. */ void smooth(); /** * Invert the selection. */ void invert(); /** * Resize the selection to the given width and height. The top-left position will not be moved. */ void resize(int w, int h); /** * Select the given area. The value can be between 0 and 255; 0 is * totally unselected, 255 is totally selected. */ void select(int x, int y, int w, int h, int value); /** * Select all pixels in the given node. The value can be between 0 and 255; 0 is * totally unselected, 255 is totally selected. */ void selectAll(Node *node, int value); /** * Replace the current selection's selection with the one of the given selection. */ void replace(Selection *selection); /** * Add the given selection's selected pixels to the current selection. */ void add(Selection *selection); /** * Subtract the given selection's selected pixels from the current selection. */ void subtract(Selection *selection); /** * Intersect the given selection with this selection. */ void intersect(Selection *selection); /** * Intersect with the inverse of the given selection with this selection. */ void symmetricdifference(Selection *selection); /** * @brief pixelData reads the given rectangle from the Selection's mask and returns it as a * byte array. The pixel data starts top-left, and is ordered row-first. * * The byte array will contain one byte for every pixel, representing the selectedness. 0 * is totally unselected, 255 is fully selected. * * You can read outside the Selection's boundaries; those pixels will be unselected. * * The byte array is a copy of the original selection data. * @param x x position from where to start reading * @param y y position from where to start reading * @param w row length to read * @param h number of rows to read * @return a QByteArray with the pixel data. The byte array may be empty. */ QByteArray pixelData(int x, int y, int w, int h) const; /** * @brief setPixelData writes the given bytes, of which there must be enough, into the * Selection. * * @param value the byte array representing the pixels. There must be enough bytes available. * Krita will take the raw pointer from the QByteArray and start reading, not stopping before * (w * h) bytes are read. * * @param x the x position to start writing from * @param y the y position to start writing from * @param w the width of each row * @param h the number of rows to write */ void setPixelData(QByteArray value, int x, int y, int w, int h); private: friend class Document; friend class FilterLayer; friend class FillLayer; friend class SelectionMask; KisSelectionSP selection() const; struct Private; Private *const d; }; #endif // LIBKIS_SELECTION_H diff --git a/libs/libkis/View.cpp b/libs/libkis/View.cpp index 1c3d136533..0dcab92234 100644 --- a/libs/libkis/View.cpp +++ b/libs/libkis/View.cpp @@ -1,273 +1,279 @@ /* * Copyright (c) 2016 Boudewijn Rempt * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "View.h" #include #include #include #include #include #include #include #include #include #include #include #include #include +#include #include "Document.h" #include "Canvas.h" #include "Window.h" #include "Resource.h" #include "ManagedColor.h" #include "LibKisUtils.h" struct View::Private { Private() {} QPointer view; }; View::View(KisView* view, QObject *parent) : QObject(parent) , d(new Private) { d->view = view; } View::~View() { delete d; } bool View::operator==(const View &other) const { return (d->view == other.d->view); } bool View::operator!=(const View &other) const { return !(operator==(other)); } Window* View::window() const { if (!d->view) return 0; KisMainWindow *mainwin = d->view->mainWindow(); Window *win = new Window(mainwin); return win; } Document* View::document() const { if (!d->view) return 0; Document *doc = new Document(d->view->document()); return doc; } +void View::setDocument(Document *document) +{ + if (!d->view || !document || !document->document()) return; + d->view = d->view->replaceBy(document->document()); +} + bool View::visible() const { if (!d->view) return false; return d->view->isVisible(); } void View::setVisible() { if (!d->view) return; KisMainWindow *mainwin = d->view->mainWindow(); mainwin->setActiveView(d->view); mainwin->subWindowActivated(); } Canvas* View::canvas() const { if (!d->view) return 0; Canvas *c = new Canvas(d->view->canvasBase()); return c; } KisView *View::view() { return d->view; } void View::activateResource(Resource *resource) { if (!d->view) return; if (!resource) return; KoResource *r= resource->resource(); if (!r) return; if (dynamic_cast(r)) { QVariant v; v.setValue(static_cast(r)); d->view->canvasBase()->resourceManager()->setResource(KisCanvasResourceProvider::CurrentPattern, v); } else if (dynamic_cast(r)) { QVariant v; v.setValue(static_cast(r)); d->view->canvasBase()->resourceManager()->setResource(KisCanvasResourceProvider::CurrentGradient, v); } else if (dynamic_cast(r)) { d->view->viewManager()->paintOpBox()->resourceSelected(r); } } ManagedColor *View::foregroundColor() const { if (!d->view) return 0; return new ManagedColor(d->view->resourceProvider()->fgColor()); } void View::setForeGroundColor(ManagedColor *color) { if (!d->view) return; d->view->resourceProvider()->setFGColor(color->color()); } ManagedColor *View::backgroundColor() const { if (!d->view) return 0; return new ManagedColor(d->view->resourceProvider()->bgColor()); } void View::setBackGroundColor(ManagedColor *color) { if (!d->view) return; d->view->resourceProvider()->setBGColor(color->color()); } Resource *View::currentBrushPreset() const { if (!d->view) return 0; return new Resource(d->view->resourceProvider()->currentPreset().data()); } void View::setCurrentBrushPreset(Resource *resource) { activateResource(resource); } Resource *View::currentPattern() const { if (!d->view) return 0; return new Resource(d->view->resourceProvider()->currentPattern()); } void View::setCurrentPattern(Resource *resource) { activateResource(resource); } Resource *View::currentGradient() const { if (!d->view) return 0; return new Resource(d->view->resourceProvider()->currentGradient()); } void View::setCurrentGradient(Resource *resource) { activateResource(resource); } QString View::currentBlendingMode() const { if (!d->view) return ""; return d->view->resourceProvider()->currentCompositeOp(); } void View::setCurrentBlendingMode(const QString &blendingMode) { if (!d->view) return; d->view->resourceProvider()->setCurrentCompositeOp(blendingMode); } float View::HDRExposure() const { if (!d->view) return 0.0; return d->view->resourceProvider()->HDRExposure(); } void View::setHDRExposure(float exposure) { if (!d->view) return; d->view->resourceProvider()->setHDRExposure(exposure); } float View::HDRGamma() const { if (!d->view) return 0.0; return d->view->resourceProvider()->HDRGamma(); } void View::setHDRGamma(float gamma) { if (!d->view) return; d->view->resourceProvider()->setHDRGamma(gamma); } qreal View::paintingOpacity() const { if (!d->view) return 0.0; return d->view->resourceProvider()->opacity(); } void View::setPaintingOpacity(qreal opacity) { if (!d->view) return; d->view->resourceProvider()->setOpacity(opacity); } qreal View::brushSize() const { if (!d->view) return 0.0; return d->view->resourceProvider()->size(); } void View::setBrushSize(qreal brushSize) { if (!d->view) return; d->view->resourceProvider()->setSize(brushSize); } qreal View::paintingFlow() const { if (!d->view) return 0.0; return d->view->resourceProvider()->flow(); } void View::setPaintingFlow(qreal flow) { if (!d->view) return; d->view->resourceProvider()->setFlow(flow); } QList View::selectedNodes() const { if (!d->view) return QList(); if (!d->view->viewManager()) return QList(); if (!d->view->viewManager()->nodeManager()) return QList(); KisNodeList selectedNodes = d->view->viewManager()->nodeManager()->selectedNodes(); return LibKisUtils::createNodeList(selectedNodes, d->view->image()); } - diff --git a/libs/libkis/View.h b/libs/libkis/View.h index a87fd88e6c..964aed2fee 100644 --- a/libs/libkis/View.h +++ b/libs/libkis/View.h @@ -1,154 +1,159 @@ /* * Copyright (c) 2016 Boudewijn Rempt * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef LIBKIS_VIEW_H #define LIBKIS_VIEW_H #include #include "kritalibkis_export.h" #include "libkis.h" class ManagedColor; class Resource; class Node; class KisView; /** * View represents one view on a document. A document can be * shown in more than one view at a time. */ class KRITALIBKIS_EXPORT View : public QObject { Q_OBJECT Q_DISABLE_COPY(View) public: explicit View(KisView *view, QObject *parent = 0); ~View() override; bool operator==(const View &other) const; bool operator!=(const View &other) const; public Q_SLOTS: /** * @return the window this view is shown in. */ Window* window() const; /** * @return the document this view is showing. */ Document* document() const; + /** + * Reset the view to show @p document. + */ + void setDocument(Document *document); + /** * @return true if the current view is visible, false if not. */ bool visible() const; /** * Make the current view visible. */ void setVisible(); /** * @return the canvas this view is showing. The canvas controls * things like zoom and rotation. */ Canvas* canvas() const; /** * @brief activateResource activates the given resource. * @param resource: a pattern, gradient or paintop preset */ void activateResource(Resource *resource); /** * @brief foregroundColor allows access to the currently active color. * This is nominally per canvas/view, but in practice per mainwindow. * @code color = Application.activeWindow().activeView().foregroundColor() components = color.components() components[0] = 1.0 components[1] = 0.6 components[2] = 0.7 color.setComponents(components) Application.activeWindow().activeView().setForeGroundColor(color) * @endcode */ ManagedColor *foregroundColor() const; void setForeGroundColor(ManagedColor *color); ManagedColor *backgroundColor() const; void setBackGroundColor(ManagedColor *color); Resource *currentBrushPreset() const; void setCurrentBrushPreset(Resource *resource); Resource *currentPattern() const; void setCurrentPattern(Resource *resource); Resource *currentGradient() const; void setCurrentGradient(Resource *resource); QString currentBlendingMode() const; void setCurrentBlendingMode(const QString &blendingMode); float HDRExposure() const; void setHDRExposure(float exposure); float HDRGamma() const; void setHDRGamma(float gamma); qreal paintingOpacity() const; void setPaintingOpacity(qreal opacity); qreal brushSize() const; void setBrushSize(qreal brushSize); qreal paintingFlow() const; void setPaintingFlow(qreal flow); /** * @brief selectedNodes returns a list of Nodes that are selected in this view. * * @code from krita import * w = Krita.instance().activeWindow() v = w.activeView() selected_nodes = v.selectedNodes() print(selected_nodes) @endcode * * * @return a list of Node objects which may be empty. */ QList selectedNodes() const; private: friend class Window; KisView *view(); struct Private; Private *const d; }; #endif // LIBKIS_VIEW_H diff --git a/libs/libkis/tests/TestChannel.cpp b/libs/libkis/tests/TestChannel.cpp index e8179a3da8..dd0d31779e 100644 --- a/libs/libkis/tests/TestChannel.cpp +++ b/libs/libkis/tests/TestChannel.cpp @@ -1,120 +1,120 @@ /* Copyright (C) 2017 Boudewijn Rempt This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "TestChannel.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sdk/tests/kistest.h" void TestChannel::testPixelDataU8() { KisImageSP image = new KisImage(0, 100, 100, KoColorSpaceRegistry::instance()->rgb8(), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); KisFillPainter gc(layer->paintDevice()); gc.fillRect(0, 0, 100, 100, KoColor(Qt::red, layer->colorSpace())); - Node node(image, layer); - QList channels = node.channels(); + NodeSP node = NodeSP(Node::createNode(image, layer)); + QList channels = node->channels(); Q_FOREACH(Channel *channel, channels) { QVERIFY(channel->channelSize() == 1); } } void TestChannel::testPixelDataU16() { KisImageSP image = new KisImage(0, 100, 100, KoColorSpaceRegistry::instance()->rgb16(), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); KisFillPainter gc(layer->paintDevice()); gc.fillRect(0, 0, 100, 100, KoColor(Qt::red, layer->colorSpace())); - Node node(image, layer); - QList channels = node.channels(); + NodeSP node = NodeSP(Node::createNode(image, layer)); + QList channels = node->channels(); Q_FOREACH(Channel *channel, channels) { QVERIFY(channel->channelSize() == 2); } } void TestChannel::testPixelDataF16() { #ifdef HAVE_OPENEXR const KoColorSpace * cs = KoColorSpaceRegistry::instance()->colorSpace("RGBA", "F16", ""); KisImageSP image = new KisImage(0, 100, 100, cs, "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); KisFillPainter gc(layer->paintDevice()); gc.fillRect(0, 0, 100, 100, KoColor(Qt::red, layer->colorSpace())); - Node node(image, layer); - QList channels = node.channels(); + NodeSP node = NodeSP(Node::createNode(image, layer)); + QList channels = node->channels(); Q_FOREACH(Channel *channel, channels) { qDebug() << "channelsize" << channel->channelSize(); QVERIFY(channel->channelSize() == 2); } #endif } void TestChannel::testPixelDataF32() { KisImageSP image = new KisImage(0, 100, 100, KoColorSpaceRegistry::instance()->colorSpace("RGBA", "F32", ""), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); KisFillPainter gc(layer->paintDevice()); gc.fillRect(0, 0, 100, 100, KoColor(Qt::red, layer->colorSpace())); - Node node(image, layer); - QList channels = node.channels(); + NodeSP node = NodeSP(Node::createNode(image, layer)); + QList channels = node->channels(); Q_FOREACH(Channel *channel, channels) { QVERIFY(channel->channelSize() == 4); } } void TestChannel::testReadWritePixelData() { KisImageSP image = new KisImage(0, 2, 2, KoColorSpaceRegistry::instance()->colorSpace("RGBA", "U8", ""), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); KisFillPainter gc(layer->paintDevice()); gc.fillRect(0, 0, 2, 2, KoColor(Qt::yellow, layer->colorSpace())); - Node node(image, layer); - QList channels = node.channels(); + NodeSP node = NodeSP(Node::createNode(image, layer)); + QList channels = node->channels(); Channel *greenChan = channels[1]; QVERIFY(greenChan->name() == "Green"); QRect rc = greenChan->bounds(); QVERIFY(rc == QRect(0, 0, 2, 2)); QByteArray ba = greenChan->pixelData(rc); ba.fill('\x80', 4); greenChan->setPixelData(ba, rc); image->refreshGraph(); QColor c; layer->paintDevice()->pixel(0, 0, &c); QVERIFY(c == QColor(255, 128, 0)); } KISTEST_MAIN(TestChannel) diff --git a/libs/libkis/tests/TestFilter.cpp b/libs/libkis/tests/TestFilter.cpp index 8a3b67c735..a01aa51fca 100644 --- a/libs/libkis/tests/TestFilter.cpp +++ b/libs/libkis/tests/TestFilter.cpp @@ -1,102 +1,102 @@ /* Copyright (C) 2017 Boudewijn Rempt This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "TestFilter.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include void TestFilter::testApply() { KisDocument *kisdoc = KisPart::instance()->createDocument(); KisImageSP image = new KisImage(0, 100, 100, KoColorSpaceRegistry::instance()->rgb8(), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); KisFillPainter gc(layer->paintDevice()); gc.fillRect(0, 0, 100, 100, KoColor(Qt::black, layer->colorSpace())); image->addNode(layer); kisdoc->setCurrentImage(image); Document d(kisdoc); - Node node(image, layer); + NodeSP node = NodeSP(Node::createNode(image, layer)); Filter f; f.setName("invert"); QVERIFY(f.configuration()); d.lock(); - f.apply(&node, 0, 0, 100, 100); + f.apply(node.data(), 0, 0, 100, 100); d.unlock(); d.refreshProjection(); for (int i = 0; i < 100 ; i++) { for (int j = 0; j < 100 ; j++) { QColor pixel; layer->paintDevice()->pixel(i, j, &pixel); QVERIFY(pixel == QColor(Qt::white)); } } } void TestFilter::testStartFilter() { KisDocument *kisdoc = KisPart::instance()->createDocument(); KisImageSP image = new KisImage(0, 100, 100, KoColorSpaceRegistry::instance()->rgb8(), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); KisFillPainter gc(layer->paintDevice()); gc.fillRect(0, 0, 100, 100, KoColor(Qt::black, layer->colorSpace())); image->addNode(layer); kisdoc->setCurrentImage(image); Document d(kisdoc); - Node node(image, layer); + NodeSP node = NodeSP(Node::createNode(image, layer)); Filter f; f.setName("invert"); QVERIFY(f.configuration()); - f.startFilter(&node, 0, 0, 100, 100); + f.startFilter(node.data(), 0, 0, 100, 100); image->waitForDone(); for (int i = 0; i < 100 ; i++) { for (int j = 0; j < 100 ; j++) { QColor pixel; layer->paintDevice()->pixel(i, j, &pixel); QVERIFY(pixel == QColor(Qt::white)); } } } KISTEST_MAIN(TestFilter) diff --git a/libs/libkis/tests/TestNode.cpp b/libs/libkis/tests/TestNode.cpp index 45d0d809ed..5b3cc06580 100644 --- a/libs/libkis/tests/TestNode.cpp +++ b/libs/libkis/tests/TestNode.cpp @@ -1,163 +1,163 @@ /* Copyright (C) 2017 Boudewijn Rempt This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "TestNode.h" #include #include #include #include #include #include #include #include #include #include #include #include void TestNode::testSetColorSpace() { KisImageSP image = new KisImage(0, 100, 100, KoColorSpaceRegistry::instance()->rgb8(), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); - Node node(image, layer); + NodeSP node = NodeSP(Node::createNode(image, layer)); QStringList profiles = Krita().profiles("GRAYA", "U16"); - node.setColorSpace("GRAYA", "U16", profiles.first()); + node->setColorSpace("GRAYA", "U16", profiles.first()); QVERIFY(layer->colorSpace()->colorModelId().id() == "GRAYA"); QVERIFY(layer->colorSpace()->colorDepthId().id() == "U16"); QVERIFY(layer->colorSpace()->profile()->name() == "gray built-in"); } void TestNode::testSetColorProfile() { KisImageSP image = new KisImage(0, 100, 100, KoColorSpaceRegistry::instance()->rgb8(), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); - Node node(image, layer); + NodeSP node = NodeSP(Node::createNode(image, layer)); QStringList profiles = Krita().profiles("RGBA", "U8"); Q_FOREACH(const QString &profile, profiles) { - node.setColorProfile(profile); + node->setColorProfile(profile); QVERIFY(layer->colorSpace()->profile()->name() == profile); } } void TestNode::testPixelData() { KisImageSP image = new KisImage(0, 100, 100, KoColorSpaceRegistry::instance()->rgb8(), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); KisFillPainter gc(layer->paintDevice()); gc.fillRect(0, 0, 100, 100, KoColor(Qt::red, layer->colorSpace())); - Node node(image, layer); - QByteArray ba = node.pixelData(0, 0, 100, 100); + NodeSP node = NodeSP(Node::createNode(image, layer)); + QByteArray ba = node->pixelData(0, 0, 100, 100); QDataStream ds(ba); do { quint8 channelvalue; ds >> channelvalue; QVERIFY(channelvalue == 0); ds >> channelvalue; QVERIFY(channelvalue == 0); ds >> channelvalue; QVERIFY(channelvalue == 255); ds >> channelvalue; QVERIFY(channelvalue == 255); } while (!ds.atEnd()); QDataStream ds2(&ba, QIODevice::WriteOnly); for (int i = 0; i < 100 * 100; i++) { ds2 << 255; ds2 << 255; ds2 << 255; ds2 << 255; } - node.setPixelData(ba, 0, 0, 100, 100); + node->setPixelData(ba, 0, 0, 100, 100); for (int i = 0; i < 100 ; i++) { for (int j = 0; j < 100 ; j++) { QColor pixel; layer->paintDevice()->pixel(i, j, &pixel); QVERIFY(pixel == QColor(Qt::black)); } } } void TestNode::testProjectionPixelData() { KisImageSP image = new KisImage(0, 100, 100, KoColorSpaceRegistry::instance()->rgb8(), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); KisFillPainter gc(layer->paintDevice()); gc.fillRect(0, 0, 100, 100, KoColor(Qt::gray, layer->colorSpace())); - Node node(image, layer); - QByteArray ba = node.projectionPixelData(0, 0, 100, 100); + NodeSP node = NodeSP(Node::createNode(image, layer)); + QByteArray ba = node->projectionPixelData(0, 0, 100, 100); QDataStream ds(ba); for (int i = 0; i < 100 * 100; i++) { quint8 channelvalue; ds >> channelvalue; QVERIFY(channelvalue == 0xA4); ds >> channelvalue; QVERIFY(channelvalue == 0xA0); ds >> channelvalue; QVERIFY(channelvalue == 0xA0); ds >> channelvalue; QVERIFY(channelvalue == 0xFF); } } void TestNode::testThumbnail() { KisImageSP image = new KisImage(0, 100, 100, KoColorSpaceRegistry::instance()->rgb8(), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); KisFillPainter gc(layer->paintDevice()); gc.fillRect(0, 0, 100, 100, KoColor(Qt::gray, layer->colorSpace())); - Node node(image, layer); - QImage thumb = node.thumbnail(10, 10); + NodeSP node = NodeSP(Node::createNode(image, layer)); + QImage thumb = node->thumbnail(10, 10); thumb.save("thumb.png"); QVERIFY(thumb.width() == 10); QVERIFY(thumb.height() == 10); // Our thumbnail calculator in KisPaintDevice cannot make a filled 10x10 thumbnail from a 100x100 device, // it makes it 10x10 empty, then puts 8x8 pixels in there... Not a bug in the Node class for (int i = 0; i < 8; ++i) { for (int j = 0; j < 8; ++j) { QVERIFY(thumb.pixelColor(i, j) == QColor(Qt::gray)); } } } void TestNode::testMergeDown() { KisImageSP image = new KisImage(0, 100, 100, KoColorSpaceRegistry::instance()->rgb8(), "test"); KisNodeSP layer = new KisPaintLayer(image, "test1", 255); { KisFillPainter gc(layer->paintDevice()); gc.fillRect(0, 0, 100, 100, KoColor(Qt::gray, layer->colorSpace())); } image->addNode(layer); KisNodeSP layer2 = new KisPaintLayer(image, "test2", 255); { KisFillPainter gc(layer2->paintDevice()); gc.fillRect(0, 0, 100, 100, KoColor(Qt::gray, layer2->colorSpace())); } image->addNode(layer2); - Node n1(image, layer); - Node *n2 = n1.mergeDown(); + NodeSP n1 = NodeSP(Node::createNode(image, layer)); + Node *n2 = n1->mergeDown(); delete n2; } QTEST_MAIN(TestNode) diff --git a/libs/ui/KisMainWindow.cpp b/libs/ui/KisMainWindow.cpp index 513a5cd800..d104e1bac8 100644 --- a/libs/ui/KisMainWindow.cpp +++ b/libs/ui/KisMainWindow.cpp @@ -1,2722 +1,2727 @@ /* This file is part of the KDE project Copyright (C) 1998, 1999 Torben Weis Copyright (C) 2000-2006 David Faure Copyright (C) 2007, 2009 Thomas zander Copyright (C) 2010 Benjamin Port This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "KisMainWindow.h" #include // qt includes #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "kis_selection_manager.h" #include "kis_icon_utils.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "KoDockFactoryBase.h" #include "KoDocumentInfoDlg.h" #include "KoDocumentInfo.h" #include "KoFileDialog.h" #include #include #include #include #include #include "KoToolDocker.h" #include "KoToolBoxDocker_p.h" #include #include #include #include #include #include #include #include "dialogs/kis_about_application.h" #include "dialogs/kis_delayed_save_dialog.h" #include "dialogs/kis_dlg_preferences.h" #include "kis_action_manager.h" #include "KisApplication.h" #include "kis_canvas2.h" #include "kis_canvas_controller.h" #include "kis_canvas_resource_provider.h" #include "kis_clipboard.h" #include "kis_config.h" #include "kis_config_notifier.h" #include "kis_custom_image_widget.h" #include #include "kis_group_layer.h" #include "kis_image_from_clipboard_widget.h" #include "kis_image.h" #include #include "KisImportExportManager.h" #include "kis_mainwindow_observer.h" #include "kis_memory_statistics_server.h" #include "kis_node.h" #include "KisOpenPane.h" #include "kis_paintop_box.h" #include "KisPart.h" #include "KisPrintJob.h" #include "KisResourceServerProvider.h" #include "kis_signal_compressor_with_param.h" #include "kis_statusbar.h" #include "KisView.h" #include "KisViewManager.h" #include "thememanager.h" #include "kis_animation_importer.h" #include "dialogs/kis_dlg_import_image_sequence.h" #include #include "KisWindowLayoutManager.h" #include #include "KisWelcomePageWidget.h" #include #include #include "KisCanvasWindow.h" #include "kis_action.h" #include class ToolDockerFactory : public KoDockFactoryBase { public: ToolDockerFactory() : KoDockFactoryBase() { } QString id() const override { return "sharedtooldocker"; } QDockWidget* createDockWidget() override { KoToolDocker* dockWidget = new KoToolDocker(); return dockWidget; } DockPosition defaultDockPosition() const override { return DockRight; } }; class Q_DECL_HIDDEN KisMainWindow::Private { public: Private(KisMainWindow *parent, QUuid id) : q(parent) , id(id) , dockWidgetMenu(new KActionMenu(i18nc("@action:inmenu", "&Dockers"), parent)) , windowMenu(new KActionMenu(i18nc("@action:inmenu", "&Window"), parent)) , documentMenu(new KActionMenu(i18nc("@action:inmenu", "New &View"), parent)) , workspaceMenu(new KActionMenu(i18nc("@action:inmenu", "Wor&kspace"), parent)) , welcomePage(new KisWelcomePageWidget(parent)) , widgetStack(new QStackedWidget(parent)) , mdiArea(new QMdiArea(parent)) , windowMapper(new QSignalMapper(parent)) , documentMapper(new QSignalMapper(parent)) { if (id.isNull()) this->id = QUuid::createUuid(); welcomeScroller = new QScrollArea(); welcomeScroller->setHorizontalScrollBarPolicy(Qt::ScrollBarAsNeeded); welcomeScroller->setVerticalScrollBarPolicy(Qt::ScrollBarAsNeeded); welcomeScroller->setWidget(welcomePage); welcomeScroller->setWidgetResizable(true); widgetStack->addWidget(welcomeScroller); widgetStack->addWidget(mdiArea); mdiArea->setTabsMovable(true); mdiArea->setActivationOrder(QMdiArea::ActivationHistoryOrder); } ~Private() { qDeleteAll(toolbarList); } KisMainWindow *q {0}; QUuid id; KisViewManager *viewManager {0}; QPointer activeView; QList toolbarList; bool firstTime {true}; bool windowSizeDirty {false}; bool readOnly {false}; KisAction *showDocumentInfo {0}; KisAction *saveAction {0}; KisAction *saveActionAs {0}; // KisAction *printAction; // KisAction *printActionPreview; // KisAction *exportPdf {0}; KisAction *importAnimation {0}; KisAction *closeAll {0}; // KisAction *reloadFile; KisAction *importFile {0}; KisAction *exportFile {0}; KisAction *undo {0}; KisAction *redo {0}; KisAction *newWindow {0}; KisAction *close {0}; KisAction *mdiCascade {0}; KisAction *mdiTile {0}; KisAction *mdiNextWindow {0}; KisAction *mdiPreviousWindow {0}; KisAction *toggleDockers {0}; KisAction *toggleDockerTitleBars {0}; KisAction *toggleDetachCanvas {0}; KisAction *fullScreenMode {0}; KisAction *showSessionManager {0}; KisAction *expandingSpacers[2]; KActionMenu *dockWidgetMenu; KActionMenu *windowMenu; KActionMenu *documentMenu; KActionMenu *workspaceMenu; KHelpMenu *helpMenu {0}; KRecentFilesAction *recentFiles {0}; KoResourceModel *workspacemodel {0}; QScopedPointer undoActionsUpdateManager; QString lastExportLocation; QMap dockWidgetsMap; QByteArray dockerStateBeforeHiding; KoToolDocker *toolOptionsDocker {0}; QCloseEvent *deferredClosingEvent {0}; Digikam::ThemeManager *themeManager {0}; QScrollArea *welcomeScroller {0}; KisWelcomePageWidget *welcomePage {0}; QStackedWidget *widgetStack {0}; QMdiArea *mdiArea; QMdiSubWindow *activeSubWindow {0}; QSignalMapper *windowMapper; QSignalMapper *documentMapper; KisCanvasWindow *canvasWindow {0}; QByteArray lastExportedFormat; QScopedPointer > tabSwitchCompressor; QMutex savingEntryMutex; KConfigGroup windowStateConfig; QUuid workspaceBorrowedBy; KisSignalAutoConnectionsStore screenConnectionsStore; KisActionManager * actionManager() { return viewManager->actionManager(); } QTabBar* findTabBarHACK() { QObjectList objects = mdiArea->children(); Q_FOREACH (QObject *object, objects) { QTabBar *bar = qobject_cast(object); if (bar) { return bar; } } return 0; } }; KisMainWindow::KisMainWindow(QUuid uuid) : KXmlGuiWindow() , d(new Private(this, uuid)) { auto rserver = KisResourceServerProvider::instance()->workspaceServer(); QSharedPointer adapter(new KoResourceServerAdapter(rserver)); d->workspacemodel = new KoResourceModel(adapter, this); connect(d->workspacemodel, &KoResourceModel::afterResourcesLayoutReset, this, [&]() { updateWindowMenu(); }); d->viewManager = new KisViewManager(this, actionCollection()); KConfigGroup group( KSharedConfig::openConfig(), "theme"); d->themeManager = new Digikam::ThemeManager(group.readEntry("Theme", "Krita dark"), this); d->windowStateConfig = KSharedConfig::openConfig()->group("MainWindow"); setStandardToolBarMenuEnabled(true); setTabPosition(Qt::AllDockWidgetAreas, QTabWidget::North); setDockNestingEnabled(true); qApp->setStartDragDistance(25); // 25 px is a distance that works well for Tablet and Mouse events #ifdef Q_OS_MACOS setUnifiedTitleAndToolBarOnMac(true); #endif connect(this, SIGNAL(restoringDone()), this, SLOT(forceDockTabFonts())); connect(this, SIGNAL(themeChanged()), d->viewManager, SLOT(updateIcons())); connect(KisPart::instance(), SIGNAL(documentClosed(QString)), SLOT(updateWindowMenu())); connect(KisPart::instance(), SIGNAL(documentOpened(QString)), SLOT(updateWindowMenu())); connect(KisConfigNotifier::instance(), SIGNAL(configChanged()), this, SLOT(configChanged())); actionCollection()->addAssociatedWidget(this); KoPluginLoader::instance()->load("Krita/ViewPlugin", "Type == 'Service' and ([X-Krita-Version] == 28)", KoPluginLoader::PluginsConfig(), d->viewManager, false); // Load the per-application plugins (Right now, only Python) We do this only once, when the first mainwindow is being created. KoPluginLoader::instance()->load("Krita/ApplicationPlugin", "Type == 'Service' and ([X-Krita-Version] == 28)", KoPluginLoader::PluginsConfig(), qApp, true); KoToolBoxFactory toolBoxFactory; QDockWidget *toolbox = createDockWidget(&toolBoxFactory); toolbox->setFeatures(QDockWidget::DockWidgetMovable | QDockWidget::DockWidgetFloatable | QDockWidget::DockWidgetClosable); KisConfig cfg(true); if (cfg.toolOptionsInDocker()) { ToolDockerFactory toolDockerFactory; d->toolOptionsDocker = qobject_cast(createDockWidget(&toolDockerFactory)); d->toolOptionsDocker->toggleViewAction()->setEnabled(true); } QMap dockwidgetActions; dockwidgetActions[toolbox->toggleViewAction()->text()] = toolbox->toggleViewAction(); Q_FOREACH (const QString & docker, KoDockRegistry::instance()->keys()) { KoDockFactoryBase *factory = KoDockRegistry::instance()->value(docker); QDockWidget *dw = createDockWidget(factory); dockwidgetActions[dw->toggleViewAction()->text()] = dw->toggleViewAction(); } if (d->toolOptionsDocker) { dockwidgetActions[d->toolOptionsDocker->toggleViewAction()->text()] = d->toolOptionsDocker->toggleViewAction(); } connect(KoToolManager::instance(), SIGNAL(toolOptionWidgetsChanged(KoCanvasController*,QList >)), this, SLOT(newOptionWidgets(KoCanvasController*,QList >))); Q_FOREACH (QString title, dockwidgetActions.keys()) { d->dockWidgetMenu->addAction(dockwidgetActions[title]); } Q_FOREACH (QDockWidget *wdg, dockWidgets()) { if ((wdg->features() & QDockWidget::DockWidgetClosable) == 0) { wdg->setVisible(true); } } Q_FOREACH (KoCanvasObserverBase* observer, canvasObservers()) { observer->setObservedCanvas(0); KisMainwindowObserver* mainwindowObserver = dynamic_cast(observer); if (mainwindowObserver) { mainwindowObserver->setViewManager(d->viewManager); } } // Load all the actions from the tool plugins Q_FOREACH(KoToolFactoryBase *toolFactory, KoToolRegistry::instance()->values()) { toolFactory->createActions(actionCollection()); } d->mdiArea->setHorizontalScrollBarPolicy(Qt::ScrollBarAsNeeded); d->mdiArea->setVerticalScrollBarPolicy(Qt::ScrollBarAsNeeded); d->mdiArea->setTabPosition(QTabWidget::North); d->mdiArea->setTabsClosable(true); // Tab close button override // Windows just has a black X, and Ubuntu has a dark x that is hard to read // just switch this icon out for all OSs so it is easier to see d->mdiArea->setStyleSheet("QTabBar::close-button { image: url(:/pics/broken-preset.png) }"); setCentralWidget(d->widgetStack); d->widgetStack->setCurrentIndex(0); connect(d->mdiArea, SIGNAL(subWindowActivated(QMdiSubWindow*)), this, SLOT(subWindowActivated())); connect(d->windowMapper, SIGNAL(mapped(QWidget*)), this, SLOT(setActiveSubWindow(QWidget*))); connect(d->documentMapper, SIGNAL(mapped(QObject*)), this, SLOT(newView(QObject*))); d->canvasWindow = new KisCanvasWindow(this); actionCollection()->addAssociatedWidget(d->canvasWindow); createActions(); // the welcome screen needs to grab actions...so make sure this line goes after the createAction() so they exist d->welcomePage->setMainWindow(this); setAutoSaveSettings(d->windowStateConfig, false); subWindowActivated(); updateWindowMenu(); if (isHelpMenuEnabled() && !d->helpMenu) { // workaround for KHelpMenu (or rather KAboutData::applicationData()) internally // not using the Q*Application metadata ATM, which results e.g. in the bugreport wizard // not having the app version preset // fixed hopefully in KF5 5.22.0, patch pending QGuiApplication *app = qApp; KAboutData aboutData(app->applicationName(), app->applicationDisplayName(), app->applicationVersion()); aboutData.setOrganizationDomain(app->organizationDomain().toUtf8()); d->helpMenu = new KHelpMenu(this, aboutData, false); // workaround-less version: // d->helpMenu = new KHelpMenu(this, QString()/*unused*/, false); // The difference between using KActionCollection->addAction() is that // these actions do not get tied to the MainWindow. What does this all do? KActionCollection *actions = d->viewManager->actionCollection(); QAction *helpContentsAction = d->helpMenu->action(KHelpMenu::menuHelpContents); QAction *whatsThisAction = d->helpMenu->action(KHelpMenu::menuWhatsThis); QAction *reportBugAction = d->helpMenu->action(KHelpMenu::menuReportBug); QAction *switchLanguageAction = d->helpMenu->action(KHelpMenu::menuSwitchLanguage); QAction *aboutAppAction = d->helpMenu->action(KHelpMenu::menuAboutApp); QAction *aboutKdeAction = d->helpMenu->action(KHelpMenu::menuAboutKDE); if (helpContentsAction) { actions->addAction(helpContentsAction->objectName(), helpContentsAction); } if (whatsThisAction) { actions->addAction(whatsThisAction->objectName(), whatsThisAction); } if (reportBugAction) { actions->addAction(reportBugAction->objectName(), reportBugAction); } if (switchLanguageAction) { actions->addAction(switchLanguageAction->objectName(), switchLanguageAction); } if (aboutAppAction) { actions->addAction(aboutAppAction->objectName(), aboutAppAction); } if (aboutKdeAction) { actions->addAction(aboutKdeAction->objectName(), aboutKdeAction); } connect(d->helpMenu, SIGNAL(showAboutApplication()), SLOT(showAboutApplication())); } // KDE' libs 4''s help contents action is broken outside kde, for some reason... We can handle it just as easily ourselves QAction *helpAction = actionCollection()->action("help_contents"); helpAction->disconnect(); connect(helpAction, SIGNAL(triggered()), this, SLOT(showManual())); #if 0 //check for colliding shortcuts QSet existingShortcuts; Q_FOREACH (QAction* action, actionCollection()->actions()) { if(action->shortcut() == QKeySequence(0)) { continue; } dbgKrita << "shortcut " << action->text() << " " << action->shortcut(); Q_ASSERT(!existingShortcuts.contains(action->shortcut())); existingShortcuts.insert(action->shortcut()); } #endif configChanged(); // If we have customized the toolbars, load that first setLocalXMLFile(KoResourcePaths::locateLocal("data", "krita4.xmlgui")); setXMLFile(":/kxmlgui5/krita4.xmlgui"); guiFactory()->addClient(this); connect(guiFactory(), SIGNAL(makingChanges(bool)), SLOT(slotXmlGuiMakingChanges(bool))); // Create and plug toolbar list for Settings menu QList toolbarList; Q_FOREACH (QWidget* it, guiFactory()->containers("ToolBar")) { KToolBar * toolBar = ::qobject_cast(it); toolBar->setMovable(KisConfig(true).readEntry("LockAllDockerPanels", false)); if (toolBar) { if (toolBar->objectName() == "BrushesAndStuff") { toolBar->setEnabled(false); } KToggleAction* act = new KToggleAction(i18n("Show %1 Toolbar", toolBar->windowTitle()), this); actionCollection()->addAction(toolBar->objectName().toUtf8(), act); act->setCheckedState(KGuiItem(i18n("Hide %1 Toolbar", toolBar->windowTitle()))); connect(act, SIGNAL(toggled(bool)), this, SLOT(slotToolbarToggled(bool))); act->setChecked(!toolBar->isHidden()); toolbarList.append(act); } else { warnUI << "Toolbar list contains a " << it->metaObject()->className() << " which is not a toolbar!"; } } KToolBar::setToolBarsLocked(KisConfig(true).readEntry("LockAllDockerPanels", false)); plugActionList("toolbarlist", toolbarList); d->toolbarList = toolbarList; applyToolBarLayout(); d->viewManager->updateGUI(); d->viewManager->updateIcons(); QTimer::singleShot(1000, this, SLOT(checkSanity())); { using namespace std::placeholders; // For _1 placeholder std::function callback( std::bind(&KisMainWindow::switchTab, this, _1)); d->tabSwitchCompressor.reset( new KisSignalCompressorWithParam(500, callback, KisSignalCompressor::FIRST_INACTIVE)); } if (cfg.readEntry("CanvasOnlyActive", false)) { QString currentWorkspace = cfg.readEntry("CurrentWorkspace", "Default"); KoResourceServer * rserver = KisResourceServerProvider::instance()->workspaceServer(); KisWorkspaceResource* workspace = rserver->resourceByName(currentWorkspace); if (workspace) { restoreWorkspace(workspace); } cfg.writeEntry("CanvasOnlyActive", false); menuBar()->setVisible(true); } this->winId(); // Ensures the native window has been created. QWindow *window = this->windowHandle(); connect(window, SIGNAL(screenChanged(QScreen *)), this, SLOT(windowScreenChanged(QScreen *))); } KisMainWindow::~KisMainWindow() { // Q_FOREACH (QAction *ac, actionCollection()->actions()) { // QAction *action = qobject_cast(ac); // if (action) { // qDebug() << "", "").replace("", "") // << "\n\ticonText=" << action->iconText().replace("&", "&") // << "\n\tshortcut=" << action->shortcut().toString() // << "\n\tisCheckable=" << QString((action->isChecked() ? "true" : "false")) // << "\n\tstatusTip=" << action->statusTip() // << "\n/>\n" ; // } // else { // dbgKrita << "Got a non-qaction:" << ac->objectName(); // } // } // The doc and view might still exist (this is the case when closing the window) KisPart::instance()->removeMainWindow(this); delete d->viewManager; delete d; } QUuid KisMainWindow::id() const { return d->id; } -void KisMainWindow::addView(KisView *view) +void KisMainWindow::addView(KisView *view, QMdiSubWindow *subWindow) { - if (d->activeView == view) return; + if (d->activeView == view && !subWindow) return; if (d->activeView) { d->activeView->disconnect(this); } // register the newly created view in the input manager viewManager()->inputManager()->addTrackedCanvas(view->canvasBase()); - showView(view); + showView(view, subWindow); updateCaption(); emit restoringDone(); if (d->activeView) { connect(d->activeView, SIGNAL(titleModified(QString,bool)), SLOT(slotDocumentTitleModified())); connect(d->viewManager->statusBar(), SIGNAL(memoryStatusUpdated()), this, SLOT(updateCaption())); } } void KisMainWindow::notifyChildViewDestroyed(KisView *view) { /** * If we are the last view of the window, Qt will not activate another tab * before destroying tab/window. In ths case we should clear oll the dangling * pointers manually by setting the current view to null */ viewManager()->inputManager()->removeTrackedCanvas(view->canvasBase()); if (view->canvasBase() == viewManager()->canvasBase()) { viewManager()->setCurrentView(0); } } -void KisMainWindow::showView(KisView *imageView) +void KisMainWindow::showView(KisView *imageView, QMdiSubWindow *subwin) { if (imageView && activeView() != imageView) { // XXX: find a better way to initialize this! imageView->setViewManager(d->viewManager); imageView->canvasBase()->setFavoriteResourceManager(d->viewManager->paintOpBox()->favoriteResourcesManager()); imageView->slotLoadingFinished(); - QMdiSubWindow *subwin = d->mdiArea->addSubWindow(imageView); + if (!subwin) { + subwin = d->mdiArea->addSubWindow(imageView); + } else { + subwin->setWidget(imageView); + } imageView->setSubWindow(subwin); subwin->setAttribute(Qt::WA_DeleteOnClose, true); connect(subwin, SIGNAL(destroyed()), SLOT(updateWindowMenu())); KisConfig cfg(true); subwin->setOption(QMdiSubWindow::RubberBandMove, cfg.readEntry("mdi_rubberband", cfg.useOpenGL())); subwin->setOption(QMdiSubWindow::RubberBandResize, cfg.readEntry("mdi_rubberband", cfg.useOpenGL())); subwin->setWindowIcon(qApp->windowIcon()); /** * Hack alert! * * Here we explicitly request KoToolManager to emit all the tool * activation signals, to reinitialize the tool options docker. * * That is needed due to a design flaw we have in the * initialization procedure. The tool in the KoToolManager is * initialized in KisView::setViewManager() calls, which * happens early enough. During this call the tool manager * requests KoCanvasControllerWidget to emit the signal to * update the widgets in the tool docker. *But* at that moment * of time the view is not yet connected to the main window, * because it happens in KisViewManager::setCurrentView a bit * later. This fact makes the widgets updating signals be lost * and never reach the tool docker. * * So here we just explicitly call the tool activation stub. */ KoToolManager::instance()->initializeCurrentToolForCanvas(); if (d->mdiArea->subWindowList().size() == 1) { imageView->showMaximized(); } else { imageView->show(); } // No, no, no: do not try to call this _before_ the show() has // been called on the view; only when that has happened is the // opengl context active, and very bad things happen if we tell // the dockers to update themselves with a view if the opengl // context is not active. setActiveView(imageView); updateWindowMenu(); updateCaption(); } } void KisMainWindow::slotPreferences() { if (KisDlgPreferences::editPreferences()) { KisConfigNotifier::instance()->notifyConfigChanged(); KisConfigNotifier::instance()->notifyPixelGridModeChanged(); KisImageConfigNotifier::instance()->notifyConfigChanged(); // XXX: should this be changed for the views in other windows as well? Q_FOREACH (QPointer koview, KisPart::instance()->views()) { KisViewManager *view = qobject_cast(koview); if (view) { // Update the settings for all nodes -- they don't query // KisConfig directly because they need the settings during // compositing, and they don't connect to the config notifier // because nodes are not QObjects (because only one base class // can be a QObject). KisNode* node = dynamic_cast(view->image()->rootLayer().data()); node->updateSettings(); } } updateWindowMenu(); d->viewManager->showHideScrollbars(); } } void KisMainWindow::slotThemeChanged() { // save theme changes instantly KConfigGroup group( KSharedConfig::openConfig(), "theme"); group.writeEntry("Theme", d->themeManager->currentThemeName()); // reload action icons! Q_FOREACH (QAction *action, actionCollection()->actions()) { KisIconUtils::updateIcon(action); } if (d->mdiArea) { d->mdiArea->setPalette(qApp->palette()); for (int i=0; imdiArea->subWindowList().size(); i++) { QMdiSubWindow *window = d->mdiArea->subWindowList().at(i); if (window) { window->setPalette(qApp->palette()); KisView *view = qobject_cast(window->widget()); if (view) { view->slotThemeChanged(qApp->palette()); } } } } emit themeChanged(); } bool KisMainWindow::canvasDetached() const { return centralWidget() != d->widgetStack; } void KisMainWindow::setCanvasDetached(bool detach) { if (detach == canvasDetached()) return; QWidget *outgoingWidget = centralWidget() ? takeCentralWidget() : nullptr; QWidget *incomingWidget = d->canvasWindow->swapMainWidget(outgoingWidget); if (incomingWidget) { setCentralWidget(incomingWidget); } if (detach) { d->canvasWindow->show(); } else { d->canvasWindow->hide(); } } QWidget * KisMainWindow::canvasWindow() const { return d->canvasWindow; } void KisMainWindow::updateReloadFileAction(KisDocument *doc) { Q_UNUSED(doc); // d->reloadFile->setEnabled(doc && !doc->url().isEmpty()); } void KisMainWindow::setReadWrite(bool readwrite) { d->saveAction->setEnabled(readwrite); d->importFile->setEnabled(readwrite); d->readOnly = !readwrite; updateCaption(); } void KisMainWindow::addRecentURL(const QUrl &url) { // Add entry to recent documents list // (call coming from KisDocument because it must work with cmd line, template dlg, file/open, etc.) if (!url.isEmpty()) { bool ok = true; if (url.isLocalFile()) { QString path = url.adjusted(QUrl::StripTrailingSlash).toLocalFile(); const QStringList tmpDirs = KoResourcePaths::resourceDirs("tmp"); for (QStringList::ConstIterator it = tmpDirs.begin() ; ok && it != tmpDirs.end() ; ++it) { if (path.contains(*it)) { ok = false; // it's in the tmp resource } } const QStringList templateDirs = KoResourcePaths::findDirs("templates"); for (QStringList::ConstIterator it = templateDirs.begin() ; ok && it != templateDirs.end() ; ++it) { if (path.contains(*it)) { ok = false; // it's in the templates directory. break; } } } if (ok) { d->recentFiles->addUrl(url); } saveRecentFiles(); } } void KisMainWindow::saveRecentFiles() { // Save list of recent files KSharedConfigPtr config = KSharedConfig::openConfig(); d->recentFiles->saveEntries(config->group("RecentFiles")); config->sync(); // Tell all windows to reload their list, after saving // Doesn't work multi-process, but it's a start Q_FOREACH (KisMainWindow *mw, KisPart::instance()->mainWindows()) { if (mw != this) { mw->reloadRecentFileList(); } } } QList KisMainWindow::recentFilesUrls() { return d->recentFiles->urls(); } void KisMainWindow::clearRecentFiles() { d->recentFiles->clear(); d->welcomePage->slotClearRecentFiles(); } void KisMainWindow::removeRecentUrl(const QUrl &url) { d->recentFiles->removeUrl(url); KSharedConfigPtr config = KSharedConfig::openConfig(); d->recentFiles->saveEntries(config->group("RecentFiles")); config->sync(); } void KisMainWindow::reloadRecentFileList() { d->recentFiles->loadEntries(KSharedConfig::openConfig()->group("RecentFiles")); } void KisMainWindow::updateCaption() { if (!d->mdiArea->activeSubWindow()) { updateCaption(QString(), false); } else if (d->activeView && d->activeView->document() && d->activeView->image()){ KisDocument *doc = d->activeView->document(); QString caption(doc->caption()); if (d->readOnly) { caption += " [" + i18n("Write Protected") + "] "; } if (doc->isRecovered()) { caption += " [" + i18n("Recovered") + "] "; } // show the file size for the document KisMemoryStatisticsServer::Statistics m_fileSizeStats = KisMemoryStatisticsServer::instance()->fetchMemoryStatistics(d->activeView ? d->activeView->image() : 0); if (m_fileSizeStats.imageSize) { caption += QString(" (").append( KFormat().formatByteSize(m_fileSizeStats.imageSize)).append( ")"); } updateCaption(caption, doc->isModified()); if (!doc->url().fileName().isEmpty()) { d->saveAction->setToolTip(i18n("Save as %1", doc->url().fileName())); } else { d->saveAction->setToolTip(i18n("Save")); } } } void KisMainWindow::updateCaption(const QString &caption, bool modified) { QString versionString = KritaVersionWrapper::versionString(true); QString title = caption; if (!title.contains(QStringLiteral("[*]"))) { // append the placeholder so that the modified mechanism works title.append(QStringLiteral(" [*]")); } if (d->mdiArea->activeSubWindow()) { #if defined(KRITA_ALPHA) || defined (KRITA_BETA) || defined (KRITA_RC) d->mdiArea->activeSubWindow()->setWindowTitle(QString("%1: %2").arg(versionString).arg(title)); #else d->mdiArea->activeSubWindow()->setWindowTitle(title); #endif d->mdiArea->activeSubWindow()->setWindowModified(modified); } else { #if defined(KRITA_ALPHA) || defined (KRITA_BETA) || defined (KRITA_RC) setWindowTitle(QString("%1: %2").arg(versionString).arg(title)); #else setWindowTitle(title); #endif } setWindowModified(modified); } KisView *KisMainWindow::activeView() const { if (d->activeView) { return d->activeView; } return 0; } bool KisMainWindow::openDocument(const QUrl &url, OpenFlags flags) { if (!QFile(url.toLocalFile()).exists()) { if (!(flags & BatchMode)) { QMessageBox::critical(0, i18nc("@title:window", "Krita"), i18n("The file %1 does not exist.", url.url())); } d->recentFiles->removeUrl(url); //remove the file from the recent-opened-file-list saveRecentFiles(); return false; } return openDocumentInternal(url, flags); } bool KisMainWindow::openDocumentInternal(const QUrl &url, OpenFlags flags) { if (!url.isLocalFile()) { qWarning() << "KisMainWindow::openDocumentInternal. Not a local file:" << url; return false; } KisDocument *newdoc = KisPart::instance()->createDocument(); if (flags & BatchMode) { newdoc->setFileBatchMode(true); } d->firstTime = true; connect(newdoc, SIGNAL(completed()), this, SLOT(slotLoadCompleted())); connect(newdoc, SIGNAL(canceled(QString)), this, SLOT(slotLoadCanceled(QString))); KisDocument::OpenFlags openFlags = KisDocument::None; if (flags & RecoveryFile) { openFlags |= KisDocument::RecoveryFile; } bool openRet = !(flags & Import) ? newdoc->openUrl(url, openFlags) : newdoc->importDocument(url); if (!openRet) { delete newdoc; return false; } KisPart::instance()->addDocument(newdoc); updateReloadFileAction(newdoc); if (!QFileInfo(url.toLocalFile()).isWritable()) { setReadWrite(false); } return true; } void KisMainWindow::showDocument(KisDocument *document) { Q_FOREACH(QMdiSubWindow *subwindow, d->mdiArea->subWindowList()) { KisView *view = qobject_cast(subwindow->widget()); KIS_SAFE_ASSERT_RECOVER_NOOP(view); if (view) { if (view->document() == document) { setActiveSubWindow(subwindow); return; } } } addViewAndNotifyLoadingCompleted(document); } -KisView* KisMainWindow::addViewAndNotifyLoadingCompleted(KisDocument *document) +KisView* KisMainWindow::addViewAndNotifyLoadingCompleted(KisDocument *document, + QMdiSubWindow *subWindow) { showWelcomeScreen(false); // see workaround in function header KisView *view = KisPart::instance()->createView(document, d->viewManager, this); - addView(view); + addView(view, subWindow); emit guiLoadingFinished(); return view; } QStringList KisMainWindow::showOpenFileDialog(bool isImporting) { KoFileDialog dialog(this, KoFileDialog::ImportFiles, "OpenDocument"); dialog.setDefaultDir(QStandardPaths::writableLocation(QStandardPaths::PicturesLocation)); dialog.setMimeTypeFilters(KisImportExportManager::supportedMimeTypes(KisImportExportManager::Import)); dialog.setCaption(isImporting ? i18n("Import Images") : i18n("Open Images")); return dialog.filenames(); } // Separate from openDocument to handle async loading (remote URLs) void KisMainWindow::slotLoadCompleted() { KisDocument *newdoc = qobject_cast(sender()); if (newdoc && newdoc->image()) { addViewAndNotifyLoadingCompleted(newdoc); disconnect(newdoc, SIGNAL(completed()), this, SLOT(slotLoadCompleted())); disconnect(newdoc, SIGNAL(canceled(QString)), this, SLOT(slotLoadCanceled(QString))); emit loadCompleted(); } } void KisMainWindow::slotLoadCanceled(const QString & errMsg) { dbgUI << "KisMainWindow::slotLoadCanceled"; if (!errMsg.isEmpty()) // empty when canceled by user QMessageBox::critical(this, i18nc("@title:window", "Krita"), errMsg); // ... can't delete the document, it's the one who emitted the signal... KisDocument* doc = qobject_cast(sender()); Q_ASSERT(doc); disconnect(doc, SIGNAL(completed()), this, SLOT(slotLoadCompleted())); disconnect(doc, SIGNAL(canceled(QString)), this, SLOT(slotLoadCanceled(QString))); } void KisMainWindow::slotSaveCanceled(const QString &errMsg) { dbgUI << "KisMainWindow::slotSaveCanceled"; if (!errMsg.isEmpty()) // empty when canceled by user QMessageBox::critical(this, i18nc("@title:window", "Krita"), errMsg); slotSaveCompleted(); } void KisMainWindow::slotSaveCompleted() { dbgUI << "KisMainWindow::slotSaveCompleted"; KisDocument* doc = qobject_cast(sender()); Q_ASSERT(doc); disconnect(doc, SIGNAL(completed()), this, SLOT(slotSaveCompleted())); disconnect(doc, SIGNAL(canceled(QString)), this, SLOT(slotSaveCanceled(QString))); if (d->deferredClosingEvent) { KXmlGuiWindow::closeEvent(d->deferredClosingEvent); } } bool KisMainWindow::hackIsSaving() const { StdLockableWrapper wrapper(&d->savingEntryMutex); std::unique_lock> l(wrapper, std::try_to_lock); return !l.owns_lock(); } bool KisMainWindow::installBundle(const QString &fileName) const { QFileInfo from(fileName); QFileInfo to(QStandardPaths::writableLocation(QStandardPaths::AppDataLocation) + "/bundles/" + from.fileName()); if (to.exists()) { QFile::remove(to.canonicalFilePath()); } return QFile::copy(fileName, QStandardPaths::writableLocation(QStandardPaths::AppDataLocation) + "/bundles/" + from.fileName()); } bool KisMainWindow::saveDocument(KisDocument *document, bool saveas, bool isExporting) { if (!document) { return true; } /** * Make sure that we cannot enter this method twice! * * The lower level functions may call processEvents() so * double-entry is quite possible to achieve. Here we try to lock * the mutex, and if it is failed, just cancel saving. */ StdLockableWrapper wrapper(&d->savingEntryMutex); std::unique_lock> l(wrapper, std::try_to_lock); if (!l.owns_lock()) return false; // no busy wait for saving because it is dangerous! KisDelayedSaveDialog dlg(document->image(), KisDelayedSaveDialog::SaveDialog, 0, this); dlg.blockIfImageIsBusy(); if (dlg.result() == KisDelayedSaveDialog::Rejected) { return false; } else if (dlg.result() == KisDelayedSaveDialog::Ignored) { QMessageBox::critical(0, i18nc("@title:window", "Krita"), i18n("You are saving a file while the image is " "still rendering. The saved file may be " "incomplete or corrupted.\n\n" "Please select a location where the original " "file will not be overridden!")); saveas = true; } if (document->isRecovered()) { saveas = true; } if (document->url().isEmpty()) { saveas = true; } connect(document, SIGNAL(completed()), this, SLOT(slotSaveCompleted())); connect(document, SIGNAL(canceled(QString)), this, SLOT(slotSaveCanceled(QString))); QByteArray nativeFormat = document->nativeFormatMimeType(); QByteArray oldMimeFormat = document->mimeType(); QUrl suggestedURL = document->url(); QStringList mimeFilter = KisImportExportManager::supportedMimeTypes(KisImportExportManager::Export); mimeFilter = KisImportExportManager::supportedMimeTypes(KisImportExportManager::Export); if (!mimeFilter.contains(oldMimeFormat)) { dbgUI << "KisMainWindow::saveDocument no export filter for" << oldMimeFormat; // --- don't setOutputMimeType in case the user cancels the Save As // dialog and then tries to just plain Save --- // suggest a different filename extension (yes, we fortunately don't all live in a world of magic :)) QString suggestedFilename = QFileInfo(suggestedURL.toLocalFile()).completeBaseName(); if (!suggestedFilename.isEmpty()) { // ".kra" looks strange for a name suggestedFilename = suggestedFilename + "." + KisMimeDatabase::suffixesForMimeType(KIS_MIME_TYPE).first(); suggestedURL = suggestedURL.adjusted(QUrl::RemoveFilename); suggestedURL.setPath(suggestedURL.path() + suggestedFilename); } // force the user to choose outputMimeType saveas = true; } bool ret = false; if (document->url().isEmpty() || isExporting || saveas) { // if you're just File/Save As'ing to change filter options you // don't want to be reminded about overwriting files etc. bool justChangingFilterOptions = false; KoFileDialog dialog(this, KoFileDialog::SaveFile, "SaveAs"); dialog.setCaption(isExporting ? i18n("Exporting") : i18n("Saving As")); //qDebug() << ">>>>>" << isExporting << d->lastExportLocation << d->lastExportedFormat << QString::fromLatin1(document->mimeType()); if (isExporting && !d->lastExportLocation.isEmpty() && !d->lastExportLocation.contains(QDir::tempPath())) { // Use the location where we last exported to, if it's set, as the opening location for the file dialog QString proposedPath = QFileInfo(d->lastExportLocation).absolutePath(); // If the document doesn't have a filename yet, use the title QString proposedFileName = suggestedURL.isEmpty() ? document->documentInfo()->aboutInfo("title") : QFileInfo(suggestedURL.toLocalFile()).completeBaseName(); // Use the last mimetype we exported to by default QString proposedMimeType = d->lastExportedFormat.isEmpty() ? "" : d->lastExportedFormat; QString proposedExtension = KisMimeDatabase::suffixesForMimeType(proposedMimeType).first().remove("*,"); // Set the default dir: this overrides the one loaded from the config file, since we're exporting and the lastExportLocation is not empty dialog.setDefaultDir(proposedPath + "/" + proposedFileName + "." + proposedExtension, true); dialog.setMimeTypeFilters(mimeFilter, proposedMimeType); } else { // Get the last used location for saving KConfigGroup group = KSharedConfig::openConfig()->group("File Dialogs"); QString proposedPath = group.readEntry("SaveAs", ""); // if that is empty, get the last used location for loading if (proposedPath.isEmpty()) { proposedPath = group.readEntry("OpenDocument", ""); } // If that is empty, too, use the Pictures location. if (proposedPath.isEmpty()) { proposedPath = QStandardPaths::writableLocation(QStandardPaths::PicturesLocation); } // But only use that if the suggestedUrl, that is, the document's own url is empty, otherwise // open the location where the document currently is. dialog.setDefaultDir(suggestedURL.isEmpty() ? proposedPath : suggestedURL.toLocalFile(), true); // If exporting, default to all supported file types if user is exporting QByteArray default_mime_type = ""; if (!isExporting) { // otherwise use the document's mimetype, or if that is empty, kra, which is the savest. default_mime_type = document->mimeType().isEmpty() ? nativeFormat : document->mimeType(); } dialog.setMimeTypeFilters(mimeFilter, QString::fromLatin1(default_mime_type)); } QUrl newURL = QUrl::fromUserInput(dialog.filename()); if (newURL.isLocalFile()) { QString fn = newURL.toLocalFile(); if (QFileInfo(fn).completeSuffix().isEmpty()) { fn.append(KisMimeDatabase::suffixesForMimeType(nativeFormat).first()); newURL = QUrl::fromLocalFile(fn); } } if (document->documentInfo()->aboutInfo("title") == i18n("Unnamed")) { QString fn = newURL.toLocalFile(); QFileInfo info(fn); document->documentInfo()->setAboutInfo("title", info.completeBaseName()); } QByteArray outputFormat = nativeFormat; QString outputFormatString = KisMimeDatabase::mimeTypeForFile(newURL.toLocalFile(), false); outputFormat = outputFormatString.toLatin1(); if (!isExporting) { justChangingFilterOptions = (newURL == document->url()) && (outputFormat == document->mimeType()); } else { QString path = QFileInfo(d->lastExportLocation).absolutePath(); QString filename = QFileInfo(document->url().toLocalFile()).completeBaseName(); justChangingFilterOptions = (QFileInfo(newURL.toLocalFile()).absolutePath() == path) && (QFileInfo(newURL.toLocalFile()).completeBaseName() == filename) && (outputFormat == d->lastExportedFormat); } bool bOk = true; if (newURL.isEmpty()) { bOk = false; } if (bOk) { bool wantToSave = true; // don't change this line unless you know what you're doing :) if (!justChangingFilterOptions) { if (!document->isNativeFormat(outputFormat)) wantToSave = true; } if (wantToSave) { if (!isExporting) { // Save As ret = document->saveAs(newURL, outputFormat, true); if (ret) { dbgUI << "Successful Save As!"; KisPart::instance()->addRecentURLToAllMainWindows(newURL); setReadWrite(true); } else { dbgUI << "Failed Save As!"; } } else { // Export ret = document->exportDocument(newURL, outputFormat); if (ret) { d->lastExportLocation = newURL.toLocalFile(); d->lastExportedFormat = outputFormat; } } } // if (wantToSave) { else ret = false; } // if (bOk) { else ret = false; } else { // saving // We cannot "export" into the currently // opened document. We are not Gimp. KIS_ASSERT_RECOVER_NOOP(!isExporting); // be sure document has the correct outputMimeType! if (document->isModified()) { ret = document->save(true, 0); } if (!ret) { dbgUI << "Failed Save!"; } } updateReloadFileAction(document); updateCaption(); return ret; } void KisMainWindow::undo() { if (activeView()) { activeView()->document()->undoStack()->undo(); } } void KisMainWindow::redo() { if (activeView()) { activeView()->document()->undoStack()->redo(); } } void KisMainWindow::closeEvent(QCloseEvent *e) { if (hackIsSaving()) { e->setAccepted(false); return; } if (!KisPart::instance()->closingSession()) { QAction *action= d->viewManager->actionCollection()->action("view_show_canvas_only"); if ((action) && (action->isChecked())) { action->setChecked(false); } // Save session when last window is closed if (KisPart::instance()->mainwindowCount() == 1) { bool closeAllowed = KisPart::instance()->closeSession(); if (!closeAllowed) { e->setAccepted(false); return; } } } d->mdiArea->closeAllSubWindows(); QList childrenList = d->mdiArea->subWindowList(); if (childrenList.isEmpty()) { d->deferredClosingEvent = e; saveWindowState(true); d->canvasWindow->close(); } else { e->setAccepted(false); } } void KisMainWindow::saveWindowSettings() { KSharedConfigPtr config = KSharedConfig::openConfig(); if (d->windowSizeDirty ) { dbgUI << "KisMainWindow::saveWindowSettings"; KConfigGroup group = d->windowStateConfig; KWindowConfig::saveWindowSize(windowHandle(), group); config->sync(); d->windowSizeDirty = false; } if (!d->activeView || d->activeView->document()) { // Save toolbar position into the config file of the app, under the doc's component name KConfigGroup group = d->windowStateConfig; saveMainWindowSettings(group); // Save collapsible state of dock widgets for (QMap::const_iterator i = d->dockWidgetsMap.constBegin(); i != d->dockWidgetsMap.constEnd(); ++i) { if (i.value()->widget()) { KConfigGroup dockGroup = group.group(QString("DockWidget ") + i.key()); dockGroup.writeEntry("Collapsed", i.value()->widget()->isHidden()); dockGroup.writeEntry("Locked", i.value()->property("Locked").toBool()); dockGroup.writeEntry("DockArea", (int) dockWidgetArea(i.value())); dockGroup.writeEntry("xPosition", (int) i.value()->widget()->x()); dockGroup.writeEntry("yPosition", (int) i.value()->widget()->y()); dockGroup.writeEntry("width", (int) i.value()->widget()->width()); dockGroup.writeEntry("height", (int) i.value()->widget()->height()); } } } KSharedConfig::openConfig()->sync(); resetAutoSaveSettings(); // Don't let KMainWindow override the good stuff we wrote down } void KisMainWindow::resizeEvent(QResizeEvent * e) { d->windowSizeDirty = true; KXmlGuiWindow::resizeEvent(e); } void KisMainWindow::setActiveView(KisView* view) { d->activeView = view; updateCaption(); if (d->undoActionsUpdateManager) { d->undoActionsUpdateManager->setCurrentDocument(view ? view->document() : 0); } d->viewManager->setCurrentView(view); KisWindowLayoutManager::instance()->activeDocumentChanged(view->document()); } void KisMainWindow::dragMove(QDragMoveEvent * event) { QTabBar *tabBar = d->findTabBarHACK(); if (!tabBar && d->mdiArea->viewMode() == QMdiArea::TabbedView) { qWarning() << "WARNING!!! Cannot find QTabBar in the main window! Looks like Qt has changed behavior. Drag & Drop between multiple tabs might not work properly (tabs will not switch automatically)!"; } if (tabBar && tabBar->isVisible()) { QPoint pos = tabBar->mapFromGlobal(mapToGlobal(event->pos())); if (tabBar->rect().contains(pos)) { const int tabIndex = tabBar->tabAt(pos); if (tabIndex >= 0 && tabBar->currentIndex() != tabIndex) { d->tabSwitchCompressor->start(tabIndex); } } else if (d->tabSwitchCompressor->isActive()) { d->tabSwitchCompressor->stop(); } } } void KisMainWindow::dragLeave() { if (d->tabSwitchCompressor->isActive()) { d->tabSwitchCompressor->stop(); } } void KisMainWindow::switchTab(int index) { QTabBar *tabBar = d->findTabBarHACK(); if (!tabBar) return; tabBar->setCurrentIndex(index); } void KisMainWindow::showWelcomeScreen(bool show) { d->widgetStack->setCurrentIndex(!show); } void KisMainWindow::slotFileNew() { const QStringList mimeFilter = KisImportExportManager::supportedMimeTypes(KisImportExportManager::Import); KisOpenPane *startupWidget = new KisOpenPane(this, mimeFilter, QStringLiteral("templates/")); startupWidget->setWindowModality(Qt::WindowModal); startupWidget->setWindowTitle(i18n("Create new document")); KisConfig cfg(true); int w = cfg.defImageWidth(); int h = cfg.defImageHeight(); const double resolution = cfg.defImageResolution(); const QString colorModel = cfg.defColorModel(); const QString colorDepth = cfg.defaultColorDepth(); const QString colorProfile = cfg.defColorProfile(); CustomDocumentWidgetItem item; item.widget = new KisCustomImageWidget(startupWidget, w, h, resolution, colorModel, colorDepth, colorProfile, i18n("Unnamed")); item.icon = "document-new"; item.title = i18n("Custom Document"); startupWidget->addCustomDocumentWidget(item.widget, item.title, "Custom Document", item.icon); QSize sz = KisClipboard::instance()->clipSize(); if (sz.isValid() && sz.width() != 0 && sz.height() != 0) { w = sz.width(); h = sz.height(); } item.widget = new KisImageFromClipboard(startupWidget, w, h, resolution, colorModel, colorDepth, colorProfile, i18n("Unnamed")); item.title = i18n("Create from Clipboard"); item.icon = "tab-new"; startupWidget->addCustomDocumentWidget(item.widget, item.title, "Create from ClipBoard", item.icon); // calls deleteLater connect(startupWidget, SIGNAL(documentSelected(KisDocument*)), KisPart::instance(), SLOT(startCustomDocument(KisDocument*))); // calls deleteLater connect(startupWidget, SIGNAL(openTemplate(QUrl)), KisPart::instance(), SLOT(openTemplate(QUrl))); startupWidget->exec(); // Cancel calls deleteLater... } void KisMainWindow::slotImportFile() { dbgUI << "slotImportFile()"; slotFileOpen(true); } void KisMainWindow::slotFileOpen(bool isImporting) { QStringList urls = showOpenFileDialog(isImporting); if (urls.isEmpty()) return; Q_FOREACH (const QString& url, urls) { if (!url.isEmpty()) { OpenFlags flags = isImporting ? Import : None; bool res = openDocument(QUrl::fromLocalFile(url), flags); if (!res) { warnKrita << "Loading" << url << "failed"; } } } } void KisMainWindow::slotFileOpenRecent(const QUrl &url) { (void) openDocument(QUrl::fromLocalFile(url.toLocalFile()), None); } void KisMainWindow::slotFileSave() { if (saveDocument(d->activeView->document(), false, false)) { emit documentSaved(); } } void KisMainWindow::slotFileSaveAs() { if (saveDocument(d->activeView->document(), true, false)) { emit documentSaved(); } } void KisMainWindow::slotExportFile() { if (saveDocument(d->activeView->document(), true, true)) { emit documentSaved(); } } void KisMainWindow::slotShowSessionManager() { KisPart::instance()->showSessionManager(); } KoCanvasResourceProvider *KisMainWindow::resourceManager() const { return d->viewManager->canvasResourceProvider()->resourceManager(); } int KisMainWindow::viewCount() const { return d->mdiArea->subWindowList().size(); } const KConfigGroup &KisMainWindow::windowStateConfig() const { return d->windowStateConfig; } void KisMainWindow::saveWindowState(bool restoreNormalState) { if (restoreNormalState) { QAction *showCanvasOnly = d->viewManager->actionCollection()->action("view_show_canvas_only"); if (showCanvasOnly && showCanvasOnly->isChecked()) { showCanvasOnly->setChecked(false); } d->windowStateConfig.writeEntry("ko_geometry", saveGeometry().toBase64()); d->windowStateConfig.writeEntry("State", saveState().toBase64()); if (!d->dockerStateBeforeHiding.isEmpty()) { restoreState(d->dockerStateBeforeHiding); } statusBar()->setVisible(true); menuBar()->setVisible(true); saveWindowSettings(); } else { saveMainWindowSettings(d->windowStateConfig); } } bool KisMainWindow::restoreWorkspaceState(const QByteArray &state) { QByteArray oldState = saveState(); // needed because otherwise the layout isn't correctly restored in some situations Q_FOREACH (QDockWidget *dock, dockWidgets()) { dock->toggleViewAction()->setEnabled(true); dock->hide(); } bool success = KXmlGuiWindow::restoreState(state); if (!success) { KXmlGuiWindow::restoreState(oldState); return false; } return success; } bool KisMainWindow::restoreWorkspace(KisWorkspaceResource *workspace) { bool success = restoreWorkspaceState(workspace->dockerState()); if (activeKisView()) { activeKisView()->resourceProvider()->notifyLoadingWorkspace(workspace); } return success; } QByteArray KisMainWindow::borrowWorkspace(KisMainWindow *other) { QByteArray currentWorkspace = saveState(); if (!d->workspaceBorrowedBy.isNull()) { if (other->id() == d->workspaceBorrowedBy) { // We're swapping our original workspace back d->workspaceBorrowedBy = QUuid(); return currentWorkspace; } else { // Get our original workspace back before swapping with a third window KisMainWindow *borrower = KisPart::instance()->windowById(d->workspaceBorrowedBy); if (borrower) { QByteArray originalLayout = borrower->borrowWorkspace(this); borrower->restoreWorkspaceState(currentWorkspace); d->workspaceBorrowedBy = other->id(); return originalLayout; } } } d->workspaceBorrowedBy = other->id(); return currentWorkspace; } void KisMainWindow::swapWorkspaces(KisMainWindow *a, KisMainWindow *b) { QByteArray workspaceA = a->borrowWorkspace(b); QByteArray workspaceB = b->borrowWorkspace(a); a->restoreWorkspaceState(workspaceB); b->restoreWorkspaceState(workspaceA); } KisViewManager *KisMainWindow::viewManager() const { return d->viewManager; } void KisMainWindow::slotDocumentInfo() { if (!d->activeView->document()) return; KoDocumentInfo *docInfo = d->activeView->document()->documentInfo(); if (!docInfo) return; KoDocumentInfoDlg *dlg = d->activeView->document()->createDocumentInfoDialog(this, docInfo); if (dlg->exec()) { if (dlg->isDocumentSaved()) { d->activeView->document()->setModified(false); } else { d->activeView->document()->setModified(true); } d->activeView->document()->setTitleModified(); } delete dlg; } bool KisMainWindow::slotFileCloseAll() { Q_FOREACH (QMdiSubWindow *subwin, d->mdiArea->subWindowList()) { if (subwin) { if(!subwin->close()) return false; } } updateCaption(); return true; } void KisMainWindow::slotFileQuit() { // Do not close while KisMainWindow has the savingEntryMutex locked, bug409395. // After the background saving job is initiated, KisDocument blocks closing // while it saves itself. if (hackIsSaving()) { return; } KisPart::instance()->closeSession(); } void KisMainWindow::slotFilePrint() { if (!activeView()) return; KisPrintJob *printJob = activeView()->createPrintJob(); if (printJob == 0) return; applyDefaultSettings(printJob->printer()); QPrintDialog *printDialog = activeView()->createPrintDialog( printJob, this ); if (printDialog && printDialog->exec() == QDialog::Accepted) { printJob->printer().setPageMargins(0.0, 0.0, 0.0, 0.0, QPrinter::Point); printJob->printer().setPaperSize(QSizeF(activeView()->image()->width() / (72.0 * activeView()->image()->xRes()), activeView()->image()->height()/ (72.0 * activeView()->image()->yRes())), QPrinter::Inch); printJob->startPrinting(KisPrintJob::DeleteWhenDone); } else { delete printJob; } delete printDialog; } void KisMainWindow::slotFilePrintPreview() { if (!activeView()) return; KisPrintJob *printJob = activeView()->createPrintJob(); if (printJob == 0) return; /* Sets the startPrinting() slot to be blocking. The Qt print-preview dialog requires the printing to be completely blocking and only return when the full document has been printed. By default the KisPrintingDialog is non-blocking and multithreading, setting blocking to true will allow it to be used in the preview dialog */ printJob->setProperty("blocking", true); QPrintPreviewDialog *preview = new QPrintPreviewDialog(&printJob->printer(), this); printJob->setParent(preview); // will take care of deleting the job connect(preview, SIGNAL(paintRequested(QPrinter*)), printJob, SLOT(startPrinting())); preview->exec(); delete preview; } KisPrintJob* KisMainWindow::exportToPdf(QString pdfFileName) { if (!activeView()) return 0; if (!activeView()->document()) return 0; KoPageLayout pageLayout; pageLayout.width = 0; pageLayout.height = 0; pageLayout.topMargin = 0; pageLayout.bottomMargin = 0; pageLayout.leftMargin = 0; pageLayout.rightMargin = 0; if (pdfFileName.isEmpty()) { KConfigGroup group = KSharedConfig::openConfig()->group("File Dialogs"); QString defaultDir = group.readEntry("SavePdfDialog"); if (defaultDir.isEmpty()) defaultDir = QStandardPaths::writableLocation(QStandardPaths::DocumentsLocation); QUrl startUrl = QUrl::fromLocalFile(defaultDir); KisDocument* pDoc = d->activeView->document(); /** if document has a file name, take file name and replace extension with .pdf */ if (pDoc && pDoc->url().isValid()) { startUrl = pDoc->url(); QString fileName = startUrl.toLocalFile(); fileName = fileName.replace( QRegExp( "\\.\\w{2,5}$", Qt::CaseInsensitive ), ".pdf" ); startUrl = startUrl.adjusted(QUrl::RemoveFilename); startUrl.setPath(startUrl.path() + fileName ); } QPointer layoutDlg(new KoPageLayoutDialog(this, pageLayout)); layoutDlg->setWindowModality(Qt::WindowModal); if (layoutDlg->exec() != QDialog::Accepted || !layoutDlg) { delete layoutDlg; return 0; } pageLayout = layoutDlg->pageLayout(); delete layoutDlg; KoFileDialog dialog(this, KoFileDialog::SaveFile, "OpenDocument"); dialog.setCaption(i18n("Export as PDF")); dialog.setDefaultDir(startUrl.toLocalFile()); dialog.setMimeTypeFilters(QStringList() << "application/pdf"); QUrl url = QUrl::fromUserInput(dialog.filename()); pdfFileName = url.toLocalFile(); if (pdfFileName.isEmpty()) return 0; } KisPrintJob *printJob = activeView()->createPrintJob(); if (printJob == 0) return 0; if (isHidden()) { printJob->setProperty("noprogressdialog", true); } applyDefaultSettings(printJob->printer()); // TODO for remote files we have to first save locally and then upload. printJob->printer().setOutputFileName(pdfFileName); printJob->printer().setDocName(pdfFileName); printJob->printer().setColorMode(QPrinter::Color); if (pageLayout.format == KoPageFormat::CustomSize) { printJob->printer().setPaperSize(QSizeF(pageLayout.width, pageLayout.height), QPrinter::Millimeter); } else { printJob->printer().setPaperSize(KoPageFormat::printerPageSize(pageLayout.format)); } printJob->printer().setPageMargins(pageLayout.leftMargin, pageLayout.topMargin, pageLayout.rightMargin, pageLayout.bottomMargin, QPrinter::Millimeter); switch (pageLayout.orientation) { case KoPageFormat::Portrait: printJob->printer().setOrientation(QPrinter::Portrait); break; case KoPageFormat::Landscape: printJob->printer().setOrientation(QPrinter::Landscape); break; } //before printing check if the printer can handle printing if (!printJob->canPrint()) { QMessageBox::critical(this, i18nc("@title:window", "Krita"), i18n("Cannot export to the specified file")); } printJob->startPrinting(KisPrintJob::DeleteWhenDone); return printJob; } void KisMainWindow::importAnimation() { if (!activeView()) return; KisDocument *document = activeView()->document(); if (!document) return; KisDlgImportImageSequence dlg(this, document); if (dlg.exec() == QDialog::Accepted) { QStringList files = dlg.files(); int firstFrame = dlg.firstFrame(); int step = dlg.step(); KoUpdaterPtr updater = !document->fileBatchMode() ? viewManager()->createUnthreadedUpdater(i18n("Import frames")) : 0; KisAnimationImporter importer(document->image(), updater); KisImportExportErrorCode status = importer.import(files, firstFrame, step); if (!status.isOk() && !status.isInternalError()) { QString msg = status.errorMessage(); if (!msg.isEmpty()) QMessageBox::critical(0, i18nc("@title:window", "Krita"), i18n("Could not finish import animation:\n%1", msg)); } activeView()->canvasBase()->refetchDataFromImage(); } } void KisMainWindow::slotConfigureToolbars() { saveWindowState(); KEditToolBar edit(factory(), this); connect(&edit, SIGNAL(newToolBarConfig()), this, SLOT(slotNewToolbarConfig())); (void) edit.exec(); applyToolBarLayout(); } void KisMainWindow::slotNewToolbarConfig() { applyMainWindowSettings(d->windowStateConfig); KXMLGUIFactory *factory = guiFactory(); Q_UNUSED(factory); // Check if there's an active view if (!d->activeView) return; plugActionList("toolbarlist", d->toolbarList); applyToolBarLayout(); } void KisMainWindow::slotToolbarToggled(bool toggle) { //dbgUI <<"KisMainWindow::slotToolbarToggled" << sender()->name() <<" toggle=" << true; // The action (sender) and the toolbar have the same name KToolBar * bar = toolBar(sender()->objectName()); if (bar) { if (toggle) { bar->show(); } else { bar->hide(); } if (d->activeView && d->activeView->document()) { saveWindowState(); } } else warnUI << "slotToolbarToggled : Toolbar " << sender()->objectName() << " not found!"; } void KisMainWindow::viewFullscreen(bool fullScreen) { KisConfig cfg(false); cfg.setFullscreenMode(fullScreen); if (fullScreen) { setWindowState(windowState() | Qt::WindowFullScreen); // set } else { setWindowState(windowState() & ~Qt::WindowFullScreen); // reset } } void KisMainWindow::setMaxRecentItems(uint _number) { d->recentFiles->setMaxItems(_number); } void KisMainWindow::slotReloadFile() { KisDocument* document = d->activeView->document(); if (!document || document->url().isEmpty()) return; if (document->isModified()) { bool ok = QMessageBox::question(this, i18nc("@title:window", "Krita"), i18n("You will lose all changes made since your last save\n" "Do you want to continue?"), QMessageBox::Yes | QMessageBox::No, QMessageBox::Yes) == QMessageBox::Yes; if (!ok) return; } QUrl url = document->url(); saveWindowSettings(); if (!document->reload()) { QMessageBox::critical(this, i18nc("@title:window", "Krita"), i18n("Error: Could not reload this document")); } return; } QDockWidget* KisMainWindow::createDockWidget(KoDockFactoryBase* factory) { QDockWidget* dockWidget = 0; bool lockAllDockers = KisConfig(true).readEntry("LockAllDockerPanels", false); if (!d->dockWidgetsMap.contains(factory->id())) { dockWidget = factory->createDockWidget(); // It is quite possible that a dock factory cannot create the dock; don't // do anything in that case. if (!dockWidget) { warnKrita << "Could not create docker for" << factory->id(); return 0; } dockWidget->setFont(KoDockRegistry::dockFont()); dockWidget->setObjectName(factory->id()); dockWidget->setParent(this); if (lockAllDockers) { if (dockWidget->titleBarWidget()) { dockWidget->titleBarWidget()->setVisible(false); } dockWidget->setFeatures(QDockWidget::NoDockWidgetFeatures); } if (dockWidget->widget() && dockWidget->widget()->layout()) dockWidget->widget()->layout()->setContentsMargins(1, 1, 1, 1); Qt::DockWidgetArea side = Qt::RightDockWidgetArea; bool visible = true; switch (factory->defaultDockPosition()) { case KoDockFactoryBase::DockTornOff: dockWidget->setFloating(true); // position nicely? break; case KoDockFactoryBase::DockTop: side = Qt::TopDockWidgetArea; break; case KoDockFactoryBase::DockLeft: side = Qt::LeftDockWidgetArea; break; case KoDockFactoryBase::DockBottom: side = Qt::BottomDockWidgetArea; break; case KoDockFactoryBase::DockRight: side = Qt::RightDockWidgetArea; break; case KoDockFactoryBase::DockMinimized: default: side = Qt::RightDockWidgetArea; visible = false; } KConfigGroup group = d->windowStateConfig.group("DockWidget " + factory->id()); side = static_cast(group.readEntry("DockArea", static_cast(side))); if (side == Qt::NoDockWidgetArea) side = Qt::RightDockWidgetArea; addDockWidget(side, dockWidget); if (!visible) { dockWidget->hide(); } d->dockWidgetsMap.insert(factory->id(), dockWidget); } else { dockWidget = d->dockWidgetsMap[factory->id()]; } #ifdef Q_OS_MACOS dockWidget->setAttribute(Qt::WA_MacSmallSize, true); #endif dockWidget->setFont(KoDockRegistry::dockFont()); connect(dockWidget, SIGNAL(dockLocationChanged(Qt::DockWidgetArea)), this, SLOT(forceDockTabFonts())); return dockWidget; } void KisMainWindow::forceDockTabFonts() { Q_FOREACH (QObject *child, children()) { if (child->inherits("QTabBar")) { ((QTabBar *)child)->setFont(KoDockRegistry::dockFont()); } } } QList KisMainWindow::dockWidgets() const { return d->dockWidgetsMap.values(); } QDockWidget* KisMainWindow::dockWidget(const QString &id) { if (!d->dockWidgetsMap.contains(id)) return 0; return d->dockWidgetsMap[id]; } QList KisMainWindow::canvasObservers() const { QList observers; Q_FOREACH (QDockWidget *docker, dockWidgets()) { KoCanvasObserverBase *observer = dynamic_cast(docker); if (observer) { observers << observer; } else { warnKrita << docker << "is not a canvas observer"; } } return observers; } void KisMainWindow::toggleDockersVisibility(bool visible) { if (!visible) { d->dockerStateBeforeHiding = saveState(); Q_FOREACH (QObject* widget, children()) { if (widget->inherits("QDockWidget")) { QDockWidget* dw = static_cast(widget); if (dw->isVisible()) { dw->hide(); } } } } else { restoreState(d->dockerStateBeforeHiding); } } void KisMainWindow::slotDocumentTitleModified() { updateCaption(); updateReloadFileAction(d->activeView ? d->activeView->document() : 0); } void KisMainWindow::subWindowActivated() { bool enabled = (activeKisView() != 0); d->mdiCascade->setEnabled(enabled); d->mdiNextWindow->setEnabled(enabled); d->mdiPreviousWindow->setEnabled(enabled); d->mdiTile->setEnabled(enabled); d->close->setEnabled(enabled); d->closeAll->setEnabled(enabled); setActiveSubWindow(d->mdiArea->activeSubWindow()); Q_FOREACH (QToolBar *tb, toolBars()) { if (tb->objectName() == "BrushesAndStuff") { tb->setEnabled(enabled); } } /** * Qt has a weirdness, it has hardcoded shortcuts added to an action * in the window menu. We need to reset the shortcuts for that menu * to nothing, otherwise the shortcuts cannot be made configurable. * * See: https://bugs.kde.org/show_bug.cgi?id=352205 * https://bugs.kde.org/show_bug.cgi?id=375524 * https://bugs.kde.org/show_bug.cgi?id=398729 */ QMdiSubWindow *subWindow = d->mdiArea->currentSubWindow(); if (subWindow) { QMenu *menu = subWindow->systemMenu(); if (menu && menu->actions().size() == 8) { Q_FOREACH (QAction *action, menu->actions()) { action->setShortcut(QKeySequence()); } menu->actions().last()->deleteLater(); } } updateCaption(); d->actionManager()->updateGUI(); } void KisMainWindow::windowFocused() { /** * Notify selection manager so that it could update selection mask overlay */ if (viewManager() && viewManager()->selectionManager()) { viewManager()->selectionManager()->selectionChanged(); } KisPart *kisPart = KisPart::instance(); KisWindowLayoutManager *layoutManager = KisWindowLayoutManager::instance(); if (!layoutManager->primaryWorkspaceFollowsFocus()) return; QUuid primary = layoutManager->primaryWindowId(); if (primary.isNull()) return; if (d->id == primary) { if (!d->workspaceBorrowedBy.isNull()) { KisMainWindow *borrower = kisPart->windowById(d->workspaceBorrowedBy); if (!borrower) return; swapWorkspaces(this, borrower); } } else { if (d->workspaceBorrowedBy == primary) return; KisMainWindow *primaryWindow = kisPart->windowById(primary); if (!primaryWindow) return; swapWorkspaces(this, primaryWindow); } } void KisMainWindow::updateWindowMenu() { QMenu *menu = d->windowMenu->menu(); menu->clear(); menu->addAction(d->newWindow); menu->addAction(d->documentMenu); QMenu *docMenu = d->documentMenu->menu(); docMenu->clear(); QFontMetrics fontMetrics = docMenu->fontMetrics(); int fileStringWidth = int(QApplication::desktop()->screenGeometry(this).width() * .40f); Q_FOREACH (QPointer doc, KisPart::instance()->documents()) { if (doc) { QString title = fontMetrics.elidedText(doc->url().toDisplayString(QUrl::PreferLocalFile), Qt::ElideMiddle, fileStringWidth); if (title.isEmpty() && doc->image()) { title = doc->image()->objectName(); } QAction *action = docMenu->addAction(title); action->setIcon(qApp->windowIcon()); connect(action, SIGNAL(triggered()), d->documentMapper, SLOT(map())); d->documentMapper->setMapping(action, doc); } } menu->addAction(d->workspaceMenu); QMenu *workspaceMenu = d->workspaceMenu->menu(); workspaceMenu->clear(); auto workspaces = KisResourceServerProvider::instance()->workspaceServer()->resources(); auto m_this = this; for (auto &w : workspaces) { auto action = workspaceMenu->addAction(w->name()); connect(action, &QAction::triggered, this, [=]() { m_this->restoreWorkspace(w); }); } workspaceMenu->addSeparator(); connect(workspaceMenu->addAction(i18nc("@action:inmenu", "&Import Workspace...")), &QAction::triggered, this, [&]() { QString extensions = d->workspacemodel->extensions(); QStringList mimeTypes; for(const QString &suffix : extensions.split(":")) { mimeTypes << KisMimeDatabase::mimeTypeForSuffix(suffix); } KoFileDialog dialog(0, KoFileDialog::OpenFile, "OpenDocument"); dialog.setMimeTypeFilters(mimeTypes); dialog.setCaption(i18nc("@title:window", "Choose File to Add")); QString filename = dialog.filename(); d->workspacemodel->importResourceFile(filename); }); connect(workspaceMenu->addAction(i18nc("@action:inmenu", "&New Workspace...")), &QAction::triggered, [=]() { QString name = QInputDialog::getText(this, i18nc("@title:window", "New Workspace..."), i18nc("@label:textbox", "Name:")); if (name.isEmpty()) return; auto rserver = KisResourceServerProvider::instance()->workspaceServer(); KisWorkspaceResource* workspace = new KisWorkspaceResource(""); workspace->setDockerState(m_this->saveState()); d->viewManager->canvasResourceProvider()->notifySavingWorkspace(workspace); workspace->setValid(true); QString saveLocation = rserver->saveLocation(); bool newName = false; if(name.isEmpty()) { newName = true; name = i18n("Workspace"); } QFileInfo fileInfo(saveLocation + name + workspace->defaultFileExtension()); int i = 1; while (fileInfo.exists()) { fileInfo.setFile(saveLocation + name + QString("%1").arg(i) + workspace->defaultFileExtension()); i++; } workspace->setFilename(fileInfo.filePath()); if(newName) { name = i18n("Workspace %1", i); } workspace->setName(name); rserver->addResource(workspace); }); // TODO: What to do about delete? // workspaceMenu->addAction(i18nc("@action:inmenu", "&Delete Workspace...")); menu->addSeparator(); menu->addAction(d->close); menu->addAction(d->closeAll); if (d->mdiArea->viewMode() == QMdiArea::SubWindowView) { menu->addSeparator(); menu->addAction(d->mdiTile); menu->addAction(d->mdiCascade); } menu->addSeparator(); menu->addAction(d->mdiNextWindow); menu->addAction(d->mdiPreviousWindow); menu->addSeparator(); QList windows = d->mdiArea->subWindowList(); for (int i = 0; i < windows.size(); ++i) { QPointerchild = qobject_cast(windows.at(i)->widget()); if (child && child->document()) { QString text; if (i < 9) { text = i18n("&%1 %2", i + 1, fontMetrics.elidedText(child->document()->url().toDisplayString(QUrl::PreferLocalFile), Qt::ElideMiddle, fileStringWidth)); } else { text = i18n("%1 %2", i + 1, fontMetrics.elidedText(child->document()->url().toDisplayString(QUrl::PreferLocalFile), Qt::ElideMiddle, fileStringWidth)); } QAction *action = menu->addAction(text); action->setIcon(qApp->windowIcon()); action->setCheckable(true); action->setChecked(child == activeKisView()); connect(action, SIGNAL(triggered()), d->windowMapper, SLOT(map())); d->windowMapper->setMapping(action, windows.at(i)); } } bool showMdiArea = windows.count( ) > 0; if (!showMdiArea) { showWelcomeScreen(true); // see workaround in function in header // keep the recent file list updated when going back to welcome screen reloadRecentFileList(); d->welcomePage->populateRecentDocuments(); } // enable/disable the toolbox docker if there are no documents open Q_FOREACH (QObject* widget, children()) { if (widget->inherits("QDockWidget")) { QDockWidget* dw = static_cast(widget); if ( dw->objectName() == "ToolBox") { dw->setEnabled(showMdiArea); } } } updateCaption(); } void KisMainWindow::setActiveSubWindow(QWidget *window) { if (!window) return; QMdiSubWindow *subwin = qobject_cast(window); //dbgKrita << "setActiveSubWindow();" << subwin << d->activeSubWindow; if (subwin && subwin != d->activeSubWindow) { KisView *view = qobject_cast(subwin->widget()); //dbgKrita << "\t" << view << activeView(); if (view && view != activeView()) { d->mdiArea->setActiveSubWindow(subwin); setActiveView(view); } d->activeSubWindow = subwin; } updateWindowMenu(); d->actionManager()->updateGUI(); } void KisMainWindow::configChanged() { KisConfig cfg(true); QMdiArea::ViewMode viewMode = (QMdiArea::ViewMode)cfg.readEntry("mdi_viewmode", (int)QMdiArea::TabbedView); d->mdiArea->setViewMode(viewMode); Q_FOREACH (QMdiSubWindow *subwin, d->mdiArea->subWindowList()) { subwin->setOption(QMdiSubWindow::RubberBandMove, cfg.readEntry("mdi_rubberband", cfg.useOpenGL())); subwin->setOption(QMdiSubWindow::RubberBandResize, cfg.readEntry("mdi_rubberband", cfg.useOpenGL())); /** * Dirty workaround for a bug in Qt (checked on Qt 5.6.1): * * If you make a window "Show on top" and then switch to the tabbed mode * the window will contiue to be painted in its initial "mid-screen" * position. It will persist here until you explicitly switch to its tab. */ if (viewMode == QMdiArea::TabbedView) { Qt::WindowFlags oldFlags = subwin->windowFlags(); Qt::WindowFlags flags = oldFlags; flags &= ~Qt::WindowStaysOnTopHint; flags &= ~Qt::WindowStaysOnBottomHint; if (flags != oldFlags) { subwin->setWindowFlags(flags); subwin->showMaximized(); } } } KConfigGroup group( KSharedConfig::openConfig(), "theme"); d->themeManager->setCurrentTheme(group.readEntry("Theme", "Krita dark")); d->actionManager()->updateGUI(); QString s = cfg.getMDIBackgroundColor(); KoColor c = KoColor::fromXML(s); QBrush brush(c.toQColor()); d->mdiArea->setBackground(brush); QString backgroundImage = cfg.getMDIBackgroundImage(); if (backgroundImage != "") { QImage image(backgroundImage); QBrush brush(image); d->mdiArea->setBackground(brush); } d->mdiArea->update(); } -KisView* KisMainWindow::newView(QObject *document) +KisView* KisMainWindow::newView(QObject *document, QMdiSubWindow *subWindow) { KisDocument *doc = qobject_cast(document); - KisView *view = addViewAndNotifyLoadingCompleted(doc); + KisView *view = addViewAndNotifyLoadingCompleted(doc, subWindow); d->actionManager()->updateGUI(); return view; } void KisMainWindow::newWindow() { KisMainWindow *mainWindow = KisPart::instance()->createMainWindow(); mainWindow->initializeGeometry(); mainWindow->show(); } void KisMainWindow::closeCurrentWindow() { if (d->mdiArea->currentSubWindow()) { d->mdiArea->currentSubWindow()->close(); d->actionManager()->updateGUI(); } } void KisMainWindow::checkSanity() { // print error if the lcms engine is not available if (!KoColorSpaceEngineRegistry::instance()->contains("icc")) { // need to wait 1 event since exiting here would not work. m_errorMessage = i18n("The Krita LittleCMS color management plugin is not installed. Krita will quit now."); m_dieOnError = true; QTimer::singleShot(0, this, SLOT(showErrorAndDie())); return; } KisPaintOpPresetResourceServer * rserver = KisResourceServerProvider::instance()->paintOpPresetServer(); if (rserver->resources().isEmpty()) { m_errorMessage = i18n("Krita cannot find any brush presets! Krita will quit now."); m_dieOnError = true; QTimer::singleShot(0, this, SLOT(showErrorAndDie())); return; } } void KisMainWindow::showErrorAndDie() { QMessageBox::critical(0, i18nc("@title:window", "Installation error"), m_errorMessage); if (m_dieOnError) { exit(10); } } void KisMainWindow::showAboutApplication() { KisAboutApplication dlg(this); dlg.exec(); } QPointer KisMainWindow::activeKisView() { if (!d->mdiArea) return 0; QMdiSubWindow *activeSubWindow = d->mdiArea->activeSubWindow(); //dbgKrita << "activeKisView" << activeSubWindow; if (!activeSubWindow) return 0; return qobject_cast(activeSubWindow->widget()); } void KisMainWindow::newOptionWidgets(KoCanvasController *controller, const QList > &optionWidgetList) { KIS_ASSERT_RECOVER_NOOP(controller == KoToolManager::instance()->activeCanvasController()); bool isOurOwnView = false; Q_FOREACH (QPointer view, KisPart::instance()->views()) { if (view && view->canvasController() == controller) { isOurOwnView = view->mainWindow() == this; } } if (!isOurOwnView) return; Q_FOREACH (QWidget *w, optionWidgetList) { #ifdef Q_OS_MACOS w->setAttribute(Qt::WA_MacSmallSize, true); #endif w->setFont(KoDockRegistry::dockFont()); } if (d->toolOptionsDocker) { d->toolOptionsDocker->setOptionWidgets(optionWidgetList); } else { d->viewManager->paintOpBox()->newOptionWidgets(optionWidgetList); } } void KisMainWindow::applyDefaultSettings(QPrinter &printer) { if (!d->activeView) return; QString title = d->activeView->document()->documentInfo()->aboutInfo("title"); if (title.isEmpty()) { QFileInfo info(d->activeView->document()->url().fileName()); title = info.completeBaseName(); } if (title.isEmpty()) { // #139905 title = i18n("%1 unsaved document (%2)", qApp->applicationDisplayName(), QLocale().toString(QDate::currentDate(), QLocale::ShortFormat)); } printer.setDocName(title); } void KisMainWindow::createActions() { KisActionManager *actionManager = d->actionManager(); actionManager->createStandardAction(KStandardAction::New, this, SLOT(slotFileNew())); actionManager->createStandardAction(KStandardAction::Open, this, SLOT(slotFileOpen())); actionManager->createStandardAction(KStandardAction::Quit, this, SLOT(slotFileQuit())); actionManager->createStandardAction(KStandardAction::ConfigureToolbars, this, SLOT(slotConfigureToolbars())); d->fullScreenMode = actionManager->createStandardAction(KStandardAction::FullScreen, this, SLOT(viewFullscreen(bool))); d->recentFiles = KStandardAction::openRecent(this, SLOT(slotFileOpenRecent(QUrl)), actionCollection()); connect(d->recentFiles, SIGNAL(recentListCleared()), this, SLOT(saveRecentFiles())); KSharedConfigPtr configPtr = KSharedConfig::openConfig(); d->recentFiles->loadEntries(configPtr->group("RecentFiles")); d->saveAction = actionManager->createStandardAction(KStandardAction::Save, this, SLOT(slotFileSave())); d->saveAction->setActivationFlags(KisAction::ACTIVE_IMAGE); d->saveActionAs = actionManager->createStandardAction(KStandardAction::SaveAs, this, SLOT(slotFileSaveAs())); d->saveActionAs->setActivationFlags(KisAction::ACTIVE_IMAGE); // d->printAction = actionManager->createStandardAction(KStandardAction::Print, this, SLOT(slotFilePrint())); // d->printAction->setActivationFlags(KisAction::ACTIVE_IMAGE); // d->printActionPreview = actionManager->createStandardAction(KStandardAction::PrintPreview, this, SLOT(slotFilePrintPreview())); // d->printActionPreview->setActivationFlags(KisAction::ACTIVE_IMAGE); d->undo = actionManager->createStandardAction(KStandardAction::Undo, this, SLOT(undo())); d->undo->setActivationFlags(KisAction::ACTIVE_IMAGE); d->redo = actionManager->createStandardAction(KStandardAction::Redo, this, SLOT(redo())); d->redo->setActivationFlags(KisAction::ACTIVE_IMAGE); d->undoActionsUpdateManager.reset(new KisUndoActionsUpdateManager(d->undo, d->redo)); d->undoActionsUpdateManager->setCurrentDocument(d->activeView ? d->activeView->document() : 0); // d->exportPdf = actionManager->createAction("file_export_pdf"); // connect(d->exportPdf, SIGNAL(triggered()), this, SLOT(exportToPdf())); d->importAnimation = actionManager->createAction("file_import_animation"); connect(d->importAnimation, SIGNAL(triggered()), this, SLOT(importAnimation())); d->closeAll = actionManager->createAction("file_close_all"); connect(d->closeAll, SIGNAL(triggered()), this, SLOT(slotFileCloseAll())); // d->reloadFile = actionManager->createAction("file_reload_file"); // d->reloadFile->setActivationFlags(KisAction::CURRENT_IMAGE_MODIFIED); // connect(d->reloadFile, SIGNAL(triggered(bool)), this, SLOT(slotReloadFile())); d->importFile = actionManager->createAction("file_import_file"); connect(d->importFile, SIGNAL(triggered(bool)), this, SLOT(slotImportFile())); d->exportFile = actionManager->createAction("file_export_file"); connect(d->exportFile, SIGNAL(triggered(bool)), this, SLOT(slotExportFile())); /* The following entry opens the document information dialog. Since the action is named so it intends to show data this entry should not have a trailing ellipses (...). */ d->showDocumentInfo = actionManager->createAction("file_documentinfo"); connect(d->showDocumentInfo, SIGNAL(triggered(bool)), this, SLOT(slotDocumentInfo())); d->themeManager->setThemeMenuAction(new KActionMenu(i18nc("@action:inmenu", "&Themes"), this)); d->themeManager->registerThemeActions(actionCollection()); connect(d->themeManager, SIGNAL(signalThemeChanged()), this, SLOT(slotThemeChanged())); connect(d->themeManager, SIGNAL(signalThemeChanged()), d->welcomePage, SLOT(slotUpdateThemeColors())); d->toggleDockers = actionManager->createAction("view_toggledockers"); KisConfig(true).showDockers(true); d->toggleDockers->setChecked(true); connect(d->toggleDockers, SIGNAL(toggled(bool)), SLOT(toggleDockersVisibility(bool))); d->toggleDetachCanvas = actionManager->createAction("view_detached_canvas"); d->toggleDetachCanvas->setChecked(false); connect(d->toggleDetachCanvas, SIGNAL(toggled(bool)), SLOT(setCanvasDetached(bool))); setCanvasDetached(false); actionCollection()->addAction("settings_dockers_menu", d->dockWidgetMenu); actionCollection()->addAction("window", d->windowMenu); d->mdiCascade = actionManager->createAction("windows_cascade"); connect(d->mdiCascade, SIGNAL(triggered()), d->mdiArea, SLOT(cascadeSubWindows())); d->mdiTile = actionManager->createAction("windows_tile"); connect(d->mdiTile, SIGNAL(triggered()), d->mdiArea, SLOT(tileSubWindows())); d->mdiNextWindow = actionManager->createAction("windows_next"); connect(d->mdiNextWindow, SIGNAL(triggered()), d->mdiArea, SLOT(activateNextSubWindow())); d->mdiPreviousWindow = actionManager->createAction("windows_previous"); connect(d->mdiPreviousWindow, SIGNAL(triggered()), d->mdiArea, SLOT(activatePreviousSubWindow())); d->newWindow = actionManager->createAction("view_newwindow"); connect(d->newWindow, SIGNAL(triggered(bool)), this, SLOT(newWindow())); d->close = actionManager->createStandardAction(KStandardAction::Close, this, SLOT(closeCurrentWindow())); d->showSessionManager = actionManager->createAction("file_sessions"); connect(d->showSessionManager, SIGNAL(triggered(bool)), this, SLOT(slotShowSessionManager())); actionManager->createStandardAction(KStandardAction::Preferences, this, SLOT(slotPreferences())); for (int i = 0; i < 2; i++) { d->expandingSpacers[i] = new KisAction(i18n("Expanding Spacer")); d->expandingSpacers[i]->setDefaultWidget(new QWidget(this)); d->expandingSpacers[i]->defaultWidget()->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); actionManager->addAction(QString("expanding_spacer_%1").arg(i), d->expandingSpacers[i]); } } void KisMainWindow::applyToolBarLayout() { const bool isPlastiqueStyle = style()->objectName() == "plastique"; Q_FOREACH (KToolBar *toolBar, toolBars()) { toolBar->layout()->setSpacing(4); if (isPlastiqueStyle) { toolBar->setContentsMargins(0, 0, 0, 2); } //Hide text for buttons with an icon in the toolbar Q_FOREACH (QAction *ac, toolBar->actions()){ if (ac->icon().pixmap(QSize(1,1)).isNull() == false){ ac->setPriority(QAction::LowPriority); }else { ac->setIcon(QIcon()); } } } } void KisMainWindow::initializeGeometry() { // if the user didn's specify the geometry on the command line (does anyone do that still?), // we first figure out some good default size and restore the x,y position. See bug 285804Z. KConfigGroup cfg = d->windowStateConfig; QByteArray geom = QByteArray::fromBase64(cfg.readEntry("ko_geometry", QByteArray())); if (!restoreGeometry(geom)) { const int scnum = QApplication::desktop()->screenNumber(parentWidget()); QRect desk = QGuiApplication::screens().at(scnum)->availableVirtualGeometry(); quint32 x = desk.x(); quint32 y = desk.y(); quint32 w = 0; quint32 h = 0; // Default size -- maximize on small screens, something useful on big screens const int deskWidth = desk.width(); if (deskWidth > 1024) { // a nice width, and slightly less than total available // height to compensate for the window decs w = (deskWidth / 3) * 2; h = (desk.height() / 3) * 2; } else { w = desk.width(); h = desk.height(); } x += (desk.width() - w) / 2; y += (desk.height() - h) / 2; move(x,y); setGeometry(geometry().x(), geometry().y(), w, h); } d->fullScreenMode->setChecked(isFullScreen()); } void KisMainWindow::showManual() { QDesktopServices::openUrl(QUrl("https://docs.krita.org")); } void KisMainWindow::windowScreenChanged(QScreen *screen) { emit screenChanged(); d->screenConnectionsStore.clear(); d->screenConnectionsStore.addConnection(screen, SIGNAL(physicalDotsPerInchChanged(qreal)), this, SIGNAL(screenChanged())); } void KisMainWindow::slotXmlGuiMakingChanges(bool finished) { if (finished) { subWindowActivated(); } } #include diff --git a/libs/ui/KisMainWindow.h b/libs/ui/KisMainWindow.h index 0c426893e2..7729d3871f 100644 --- a/libs/ui/KisMainWindow.h +++ b/libs/ui/KisMainWindow.h @@ -1,518 +1,518 @@ /* This file is part of the KDE project Copyright (C) 1998, 1999 Torben Weis Copyright (C) 2000-2004 David Faure This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef KIS_MAIN_WINDOW_H #define KIS_MAIN_WINDOW_H #include "kritaui_export.h" #include #include #include #include #include #include #include #include "KisView.h" class QCloseEvent; class QMoveEvent; struct KoPageLayout; class KoCanvasResourceProvider; class KisDocument; class KisPrintJob; class KoDockFactoryBase; class QDockWidget; class KisView; class KisViewManager; class KoCanvasController; class KisWorkspaceResource; /** * @brief Main window for Krita * * This class is used to represent a main window within a Krita session. Each * main window contains a menubar and some toolbars, and potentially several * views of several canvases. * */ class KRITAUI_EXPORT KisMainWindow : public KXmlGuiWindow, public KoCanvasSupervisor { Q_OBJECT public: enum OpenFlag { None = 0, Import = 0x1, BatchMode = 0x2, RecoveryFile = 0x4 }; Q_DECLARE_FLAGS(OpenFlags, OpenFlag) public: /** * Constructor. * * Initializes a Calligra main window (with its basic GUI etc.). */ explicit KisMainWindow(QUuid id = QUuid()); /** * Destructor. */ ~KisMainWindow() override; QUuid id() const; /** - * @brief showView shows the given view. Override this if you want to show - * the view in a different way than by making it the central widget, for instance - * as an QMdiSubWindow + * @brief showView shows the given view, in @p subWindow if not + * null, in a new tab otherwise. */ - virtual void showView(KisView *view); + virtual void showView(KisView *view, QMdiSubWindow *subWindow = 0); /** * @returns the currently active view */ KisView *activeView() const; /** * Sets the maximum number of recent documents entries. */ void setMaxRecentItems(uint _number); /** * The document opened a URL -> store into recent documents list. */ void addRecentURL(const QUrl &url); /** * get list of URL strings for recent files */ QList recentFilesUrls(); /** * clears the list of the recent files */ void clearRecentFiles(); /** * removes the given url from the list of recent files */ void removeRecentUrl(const QUrl &url); /** * Load the desired document and show it. * @param url the URL to open * * @return TRUE on success. */ bool openDocument(const QUrl &url, OpenFlags flags); /** * Activate a view containing the document in this window, creating one if needed. */ void showDocument(KisDocument *document); /** * Toggles between showing the welcome screen and the MDI area * * hack: There seems to be a bug that prevents events happening to the MDI area if it * isn't actively displayed (set in the widgetStack). This can cause things like the title bar * not to update correctly Before doing any actions related to opening or creating documents, * make sure to switch this first to make sure everything can communicate to the MDI area correctly */ void showWelcomeScreen(bool show); /** * Saves the document, asking for a filename if necessary. * * @param saveas if set to TRUE the user is always prompted for a filename * @param silent if set to TRUE rootDocument()->setTitleModified will not be called. * * @return TRUE on success, false on error or cancel * (don't display anything in this case, the error dialog box is also implemented here * but restore the original URL in slotFileSaveAs) */ bool saveDocument(KisDocument *document, bool saveas, bool isExporting); void setReadWrite(bool readwrite); /// Return the list of dock widgets belonging to this main window. QList dockWidgets() const; QDockWidget* dockWidget(const QString &id); QList canvasObservers() const override; KoCanvasResourceProvider *resourceManager() const; int viewCount() const; void saveWindowState(bool restoreNormalState =false); const KConfigGroup &windowStateConfig() const; /** * A wrapper around restoreState * @param state the saved state * @return TRUE on success */ bool restoreWorkspace(KisWorkspaceResource *workspace); bool restoreWorkspaceState(const QByteArray &state); static void swapWorkspaces(KisMainWindow *a, KisMainWindow *b); KisViewManager *viewManager() const; - KisView *addViewAndNotifyLoadingCompleted(KisDocument *document); + KisView *addViewAndNotifyLoadingCompleted(KisDocument *document, + QMdiSubWindow *subWindow = 0); QStringList showOpenFileDialog(bool isImporting); /** * The top-level window used for a detached canvas. */ QWidget *canvasWindow() const; bool canvasDetached() const; /** * Shows if the main window is saving anything right now. If the * user presses Ctrl+W too fast, then the document can be close * before the saving is completed. I'm not sure if it is fixable * in any way without avoiding using porcessEvents() * everywhere (DK) * * Don't use it unless you have no option. */ bool hackIsSaving() const; /// Copy the given file into the bundle directory. bool installBundle(const QString &fileName) const; Q_SIGNALS: /** * This signal is emitted if the document has been saved successfully. */ void documentSaved(); /// This signal is emitted when this windows has finished loading of a /// document. The document may be opened in another window in the end. /// In this case, the signal means there is no link between the window /// and the document anymore. void loadCompleted(); /// This signal is emitted right after the docker states have been succefully restored from config void restoringDone(); /// This signal is emitted when the color theme changes void themeChanged(); /// This signal is emitted when the shortcut key configuration has changed void keyBindingsChanged(); void guiLoadingFinished(); /// emitted when the window is migrated among different screens void screenChanged(); public Q_SLOTS: /** * Slot for opening a new document. * * If the current document is empty, the new document replaces it. * If not, a new mainwindow will be opened for showing the document. */ void slotFileNew(); /** * Slot for opening a saved file. * * If the current document is empty, the opened document replaces it. * If not a new mainwindow will be opened for showing the opened file. */ void slotFileOpen(bool isImporting = false); /** * Slot for opening a file among the recently opened files. * * If the current document is empty, the opened document replaces it. * If not a new mainwindow will be opened for showing the opened file. */ void slotFileOpenRecent(const QUrl &); /** * @brief slotPreferences open the preferences dialog */ void slotPreferences(); /** * Update caption from document info - call when document info * (title in the about page) changes. */ void updateCaption(); /** * Saves the current document with the current name. */ void slotFileSave(); void slotShowSessionManager(); // XXX: disabled KisPrintJob* exportToPdf(QString pdfFileName = QString()); /** * Update the option widgets to the argument ones, removing the currently set widgets. */ void newOptionWidgets(KoCanvasController *controller, const QList > & optionWidgetList); - KisView *newView(QObject *document); + KisView *newView(QObject *document, QMdiSubWindow *subWindow = 0); void notifyChildViewDestroyed(KisView *view); /// Set the active view, this will update the undo/redo actions void setActiveView(KisView *view); void subWindowActivated(); void windowFocused(); /** * Reloads the recent documents list. */ void reloadRecentFileList(); /** * Detach canvas onto a separate window, or restore it back to to main window. */ void setCanvasDetached(bool detached); private Q_SLOTS: /** * Save the list of recent files. */ void saveRecentFiles(); void slotLoadCompleted(); void slotLoadCanceled(const QString &); void slotSaveCompleted(); void slotSaveCanceled(const QString &); void forceDockTabFonts(); /** * @internal */ void slotDocumentTitleModified(); /** * Prints the actual document. */ void slotFilePrint(); /** * Saves the current document with a new name. */ void slotFileSaveAs(); void slotFilePrintPreview(); void importAnimation(); /** * Show a dialog with author and document information. */ void slotDocumentInfo(); /** * Closes all open documents. */ bool slotFileCloseAll(); /** * @brief showAboutApplication show the about box */ virtual void showAboutApplication(); /** * Closes the mainwindow. */ void slotFileQuit(); /** * Configure toolbars. */ void slotConfigureToolbars(); /** * Post toolbar config. * (Plug action lists back in, etc.) */ void slotNewToolbarConfig(); /** * Shows or hides a toolbar */ void slotToolbarToggled(bool toggle); /** * Toggle full screen on/off. */ void viewFullscreen(bool fullScreen); /** * Reload file */ void slotReloadFile(); /** * File --> Import * * This will call slotFileOpen(). */ void slotImportFile(); /** * File --> Export * * This will call slotFileSaveAs(). */ void slotExportFile(); /** * Hide the dockers */ void toggleDockersVisibility(bool visible); /** * Handle theme changes from theme manager */ void slotThemeChanged(); void undo(); void redo(); void updateWindowMenu(); void setActiveSubWindow(QWidget *window); void configChanged(); void newWindow(); void closeCurrentWindow(); void checkSanity(); /// Quits Krita with error message from m_errorMessage. void showErrorAndDie(); void initializeGeometry(); void showManual(); void switchTab(int index); void windowScreenChanged(QScreen *screen); void slotXmlGuiMakingChanges(bool finished); protected: void closeEvent(QCloseEvent * e) override; void resizeEvent(QResizeEvent * e) override; // QWidget overrides private: friend class KisWelcomePageWidget; void dragMove(QDragMoveEvent *event); void dragLeave(); private: /** * Add a the given view to the list of views of this mainwindow. * This is a private implementation. For public usage please use * newView() and addViewAndNotifyLoadingCompleted(). */ - void addView(KisView *view); + void addView(KisView *view, QMdiSubWindow *subWindow = 0); friend class KisPart; /** * Returns the dockwidget specified by the @p factory. If the dock widget doesn't exist yet it's created. * Add a "view_palette_action_menu" action to your view menu if you want to use closable dock widgets. * @param factory the factory used to create the dock widget if needed * @return the dock widget specified by @p factory (may be 0) */ QDockWidget* createDockWidget(KoDockFactoryBase* factory); bool openDocumentInternal(const QUrl &url, KisMainWindow::OpenFlags flags = 0); /** * Updates the window caption based on the document info and path. */ void updateCaption(const QString & caption, bool modified); void updateReloadFileAction(KisDocument *doc); void saveWindowSettings(); QPointer activeKisView(); void applyDefaultSettings(QPrinter &printer); void createActions(); void applyToolBarLayout(); QByteArray borrowWorkspace(KisMainWindow *borrower); private: /** * Struct used in the list created by createCustomDocumentWidgets() */ struct CustomDocumentWidgetItem { /// Pointer to the custom document widget QWidget *widget; /// title used in the sidebar. If left empty it will be displayed as "Custom Document" QString title; /// icon used in the sidebar. If left empty it will use the unknown icon QString icon; }; class Private; Private * const d; QString m_errorMessage; bool m_dieOnError; }; Q_DECLARE_OPERATORS_FOR_FLAGS(KisMainWindow::OpenFlags) #endif diff --git a/libs/ui/KisView.cpp b/libs/ui/KisView.cpp index 0c63032972..4009be2dbf 100644 --- a/libs/ui/KisView.cpp +++ b/libs/ui/KisView.cpp @@ -1,1062 +1,1044 @@ /* * Copyright (C) 2014 Boudewijn Rempt * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "KisView.h" #include "KisView_p.h" #include #include #include #include "KoPageLayout.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "kis_canvas2.h" #include "kis_canvas_controller.h" #include "kis_canvas_resource_provider.h" #include "kis_config.h" #include "KisDocument.h" #include "kis_image_manager.h" #include "KisMainWindow.h" #include "kis_mimedata.h" #include "kis_mirror_axis.h" #include "kis_node_commands_adapter.h" #include "kis_node_manager.h" #include "KisPart.h" #include "KisPrintJob.h" #include "kis_shape_controller.h" #include "kis_tool_freehand.h" #include "KisViewManager.h" #include "kis_zoom_manager.h" #include "kis_statusbar.h" #include "kis_painting_assistants_decoration.h" #include "KisReferenceImagesDecoration.h" #include "kis_progress_widget.h" #include "kis_signal_compressor.h" #include "kis_filter_manager.h" #include "kis_file_layer.h" #include "krita_utils.h" #include "input/kis_input_manager.h" #include "KisRemoteFileFetcher.h" #include "kis_selection_manager.h" //static QString KisView::newObjectName() { static int s_viewIFNumber = 0; QString name; name.setNum(s_viewIFNumber++); name.prepend("view_"); return name; } bool KisView::s_firstView = true; class Q_DECL_HIDDEN KisView::Private { public: Private(KisView *_q, KisDocument *document, KisViewManager *viewManager) : actionCollection(viewManager->actionCollection()) , viewConverter() , canvasController(_q, viewManager->mainWindow(), viewManager->actionCollection()) , canvas(&viewConverter, viewManager->canvasResourceProvider()->resourceManager(), viewManager->mainWindow(), _q, document->shapeController()) , zoomManager(_q, &this->viewConverter, &this->canvasController) , viewManager(viewManager) , paintingAssistantsDecoration(new KisPaintingAssistantsDecoration(_q)) , referenceImagesDecoration(new KisReferenceImagesDecoration(_q, document)) , floatingMessageCompressor(100, KisSignalCompressor::POSTPONE) { } bool inOperation; //in the middle of an operation (no screen refreshing)? QPointer document; // our KisDocument QWidget *tempActiveWidget = 0; - /** - * Signals the document has been deleted. Can't use document==0 since this - * only happens in ~QObject, and views get deleted by ~KisDocument. - * XXX: either provide a better justification to do things this way, or - * rework the mechanism. - */ - bool documentDeleted = false; - KActionCollection* actionCollection; KisCoordinatesConverter viewConverter; KisCanvasController canvasController; KisCanvas2 canvas; KisZoomManager zoomManager; KisViewManager *viewManager = 0; KisNodeSP currentNode; KisPaintingAssistantsDecorationSP paintingAssistantsDecoration; KisReferenceImagesDecorationSP referenceImagesDecoration; bool isCurrent = false; bool showFloatingMessage = false; QPointer savedFloatingMessage; KisSignalCompressor floatingMessageCompressor; QMdiSubWindow *subWindow{nullptr}; bool softProofing = false; bool gamutCheck = false; // Hmm sorry for polluting the private class with such a big inner class. // At the beginning it was a little struct :) class StatusBarItem { public: StatusBarItem(QWidget * widget, int stretch, bool permanent) : m_widget(widget), m_stretch(stretch), m_permanent(permanent), m_connected(false), m_hidden(false) {} bool operator==(const StatusBarItem& rhs) { return m_widget == rhs.m_widget; } bool operator!=(const StatusBarItem& rhs) { return m_widget != rhs.m_widget; } QWidget * widget() const { return m_widget; } void ensureItemShown(QStatusBar * sb) { Q_ASSERT(m_widget); if (!m_connected) { if (m_permanent) sb->addPermanentWidget(m_widget, m_stretch); else sb->addWidget(m_widget, m_stretch); if(!m_hidden) m_widget->show(); m_connected = true; } } void ensureItemHidden(QStatusBar * sb) { if (m_connected) { m_hidden = m_widget->isHidden(); sb->removeWidget(m_widget); m_widget->hide(); m_connected = false; } } private: QWidget * m_widget = 0; int m_stretch; bool m_permanent; bool m_connected = false; bool m_hidden = false; }; }; KisView::KisView(KisDocument *document, KisViewManager *viewManager, QWidget *parent) : QWidget(parent) , d(new Private(this, document, viewManager)) { Q_ASSERT(document); connect(document, SIGNAL(titleModified(QString,bool)), this, SIGNAL(titleModified(QString,bool))); setObjectName(newObjectName()); d->document = document; setFocusPolicy(Qt::StrongFocus); QStatusBar * sb = statusBar(); if (sb) { // No statusbar in e.g. konqueror connect(d->document, SIGNAL(statusBarMessage(QString,int)), this, SLOT(slotSavingStatusMessage(QString,int))); connect(d->document, SIGNAL(clearStatusBarMessage()), this, SLOT(slotClearStatusText())); } d->canvas.setup(); KisConfig cfg(false); d->canvasController.setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOn); d->canvasController.setVerticalScrollBarPolicy(Qt::ScrollBarAlwaysOn); d->canvasController.setVastScrolling(cfg.vastScrolling()); d->canvasController.setCanvas(&d->canvas); d->zoomManager.setup(d->actionCollection); connect(&d->canvasController, SIGNAL(documentSizeChanged()), &d->zoomManager, SLOT(slotScrollAreaSizeChanged())); setAcceptDrops(true); connect(d->document, SIGNAL(sigLoadingFinished()), this, SLOT(slotLoadingFinished())); connect(d->document, SIGNAL(sigSavingFinished()), this, SLOT(slotSavingFinished())); d->canvas.addDecoration(d->referenceImagesDecoration); d->referenceImagesDecoration->setVisible(true); d->canvas.addDecoration(d->paintingAssistantsDecoration); d->paintingAssistantsDecoration->setVisible(true); d->showFloatingMessage = cfg.showCanvasMessages(); d->zoomManager.updateScreenResolution(this); } KisView::~KisView() { if (d->viewManager) { if (d->viewManager->filterManager()->isStrokeRunning()) { d->viewManager->filterManager()->cancel(); } d->viewManager->mainWindow()->notifyChildViewDestroyed(this); } KoToolManager::instance()->removeCanvasController(&d->canvasController); d->canvasController.setCanvas(0); KisPart::instance()->removeView(this); delete d; } void KisView::notifyCurrentStateChanged(bool isCurrent) { d->isCurrent = isCurrent; if (!d->isCurrent && d->savedFloatingMessage) { d->savedFloatingMessage->removeMessage(); } KisInputManager *inputManager = globalInputManager(); if (d->isCurrent) { inputManager->attachPriorityEventFilter(&d->canvasController); } else { inputManager->detachPriorityEventFilter(&d->canvasController); } /** * When current view is changed, currently selected node is also changed, * therefore we should update selection overlay mask */ viewManager()->selectionManager()->selectionChanged(); } bool KisView::isCurrent() const { return d->isCurrent; } void KisView::setShowFloatingMessage(bool show) { d->showFloatingMessage = show; } void KisView::showFloatingMessage(const QString &message, const QIcon& icon, int timeout, KisFloatingMessage::Priority priority, int alignment) { if (!d->viewManager) return; if(d->isCurrent && d->showFloatingMessage && d->viewManager->qtMainWindow()) { if (d->savedFloatingMessage) { d->savedFloatingMessage->tryOverrideMessage(message, icon, timeout, priority, alignment); } else { d->savedFloatingMessage = new KisFloatingMessage(message, this->canvasBase()->canvasWidget(), false, timeout, priority, alignment); d->savedFloatingMessage->setShowOverParent(true); d->savedFloatingMessage->setIcon(icon); connect(&d->floatingMessageCompressor, SIGNAL(timeout()), d->savedFloatingMessage, SLOT(showMessage())); d->floatingMessageCompressor.start(); } } } bool KisView::canvasIsMirrored() const { return d->canvas.xAxisMirrored() || d->canvas.yAxisMirrored(); } void KisView::setViewManager(KisViewManager *view) { d->viewManager = view; KoToolManager::instance()->addController(&d->canvasController); KoToolManager::instance()->registerToolActions(d->actionCollection, &d->canvasController); dynamic_cast(d->document->shapeController())->setInitialShapeForCanvas(&d->canvas); if (resourceProvider()) { resourceProvider()->slotImageSizeChanged(); } if (d->viewManager && d->viewManager->nodeManager()) { d->viewManager->nodeManager()->nodesUpdated(); } connect(image(), SIGNAL(sigSizeChanged(QPointF,QPointF)), this, SLOT(slotImageSizeChanged(QPointF,QPointF))); connect(image(), SIGNAL(sigResolutionChanged(double,double)), this, SLOT(slotImageResolutionChanged())); // executed in a context of an image thread connect(image(), SIGNAL(sigNodeAddedAsync(KisNodeSP)), SLOT(slotImageNodeAdded(KisNodeSP)), Qt::DirectConnection); // executed in a context of the gui thread connect(this, SIGNAL(sigContinueAddNode(KisNodeSP)), SLOT(slotContinueAddNode(KisNodeSP)), Qt::AutoConnection); // executed in a context of an image thread connect(image(), SIGNAL(sigRemoveNodeAsync(KisNodeSP)), SLOT(slotImageNodeRemoved(KisNodeSP)), Qt::DirectConnection); // executed in a context of the gui thread connect(this, SIGNAL(sigContinueRemoveNode(KisNodeSP)), SLOT(slotContinueRemoveNode(KisNodeSP)), Qt::AutoConnection); d->viewManager->updateGUI(); KoToolManager::instance()->switchToolRequested("KritaShape/KisToolBrush"); } KisViewManager* KisView::viewManager() const { return d->viewManager; } void KisView::slotImageNodeAdded(KisNodeSP node) { emit sigContinueAddNode(node); } void KisView::slotContinueAddNode(KisNodeSP newActiveNode) { /** * When deleting the last layer, root node got selected. We should * fix it when the first layer is added back. * * Here we basically reimplement what Qt's view/model do. But * since they are not connected, we should do it manually. */ if (!d->isCurrent && (!d->currentNode || !d->currentNode->parent())) { d->currentNode = newActiveNode; } } void KisView::slotImageNodeRemoved(KisNodeSP node) { emit sigContinueRemoveNode(KritaUtils::nearestNodeAfterRemoval(node)); } void KisView::slotContinueRemoveNode(KisNodeSP newActiveNode) { if (!d->isCurrent) { d->currentNode = newActiveNode; } } KoZoomController *KisView::zoomController() const { return d->zoomManager.zoomController(); } KisZoomManager *KisView::zoomManager() const { return &d->zoomManager; } KisCanvasController *KisView::canvasController() const { return &d->canvasController; } KisCanvasResourceProvider *KisView::resourceProvider() const { if (d->viewManager) { return d->viewManager->canvasResourceProvider(); } return 0; } KisInputManager* KisView::globalInputManager() const { return d->viewManager ? d->viewManager->inputManager() : 0; } KisCanvas2 *KisView::canvasBase() const { return &d->canvas; } KisImageWSP KisView::image() const { if (d->document) { return d->document->image(); } return 0; } KisCoordinatesConverter *KisView::viewConverter() const { return &d->viewConverter; } void KisView::dragEnterEvent(QDragEnterEvent *event) { //qDebug() << "KisView::dragEnterEvent formats" << event->mimeData()->formats() << "urls" << event->mimeData()->urls() << "has images" << event->mimeData()->hasImage(); if (event->mimeData()->hasImage() || event->mimeData()->hasUrls() || event->mimeData()->hasFormat("application/x-krita-node")) { event->accept(); // activate view if it should accept the drop this->setFocus(); } else { event->ignore(); } } void KisView::dropEvent(QDropEvent *event) { KisImageWSP kisimage = image(); Q_ASSERT(kisimage); QPoint cursorPos = canvasBase()->coordinatesConverter()->widgetToImage(event->pos()).toPoint(); QRect imageBounds = kisimage->bounds(); QPoint pasteCenter; bool forceRecenter; if (event->keyboardModifiers() & Qt::ShiftModifier && imageBounds.contains(cursorPos)) { pasteCenter = cursorPos; forceRecenter = true; } else { pasteCenter = imageBounds.center(); forceRecenter = false; } //qDebug() << "KisView::dropEvent() formats" << event->mimeData()->formats() << "urls" << event->mimeData()->urls() << "has images" << event->mimeData()->hasImage(); if (event->mimeData()->hasFormat("application/x-krita-node") || event->mimeData()->hasImage()) { KisShapeController *kritaShapeController = dynamic_cast(d->document->shapeController()); QList nodes = KisMimeData::loadNodes(event->mimeData(), imageBounds, pasteCenter, forceRecenter, kisimage, kritaShapeController); Q_FOREACH (KisNodeSP node, nodes) { if (node) { KisNodeCommandsAdapter adapter(viewManager()); if (!viewManager()->nodeManager()->activeLayer()) { adapter.addNode(node, kisimage->rootLayer() , 0); } else { adapter.addNode(node, viewManager()->nodeManager()->activeLayer()->parent(), viewManager()->nodeManager()->activeLayer()); } } } } else if (event->mimeData()->hasUrls()) { QList urls = event->mimeData()->urls(); if (urls.length() > 0) { QMenu popup; popup.setObjectName("drop_popup"); QAction *insertAsNewLayer = new QAction(i18n("Insert as New Layer"), &popup); QAction *insertManyLayers = new QAction(i18n("Insert Many Layers"), &popup); QAction *insertAsNewFileLayer = new QAction(i18n("Insert as New File Layer"), &popup); QAction *insertManyFileLayers = new QAction(i18n("Insert Many File Layers"), &popup); QAction *openInNewDocument = new QAction(i18n("Open in New Document"), &popup); QAction *openManyDocuments = new QAction(i18n("Open Many Documents"), &popup); QAction *insertAsReferenceImage = new QAction(i18n("Insert as Reference Image"), &popup); QAction *insertAsReferenceImages = new QAction(i18n("Insert as Reference Images"), &popup); QAction *cancel = new QAction(i18n("Cancel"), &popup); popup.addAction(insertAsNewLayer); popup.addAction(insertAsNewFileLayer); popup.addAction(openInNewDocument); popup.addAction(insertAsReferenceImage); popup.addAction(insertManyLayers); popup.addAction(insertManyFileLayers); popup.addAction(openManyDocuments); popup.addAction(insertAsReferenceImages); insertAsNewLayer->setEnabled(image() && urls.count() == 1); insertAsNewFileLayer->setEnabled(image() && urls.count() == 1); openInNewDocument->setEnabled(urls.count() == 1); insertAsReferenceImage->setEnabled(image() && urls.count() == 1); insertManyLayers->setEnabled(image() && urls.count() > 1); insertManyFileLayers->setEnabled(image() && urls.count() > 1); openManyDocuments->setEnabled(urls.count() > 1); insertAsReferenceImages->setEnabled(image() && urls.count() > 1); popup.addSeparator(); popup.addAction(cancel); QAction *action = popup.exec(QCursor::pos()); if (action != 0 && action != cancel) { QTemporaryFile *tmp = 0; for (QUrl url : urls) { if (!url.isLocalFile()) { // download the file and substitute the url KisRemoteFileFetcher fetcher; tmp = new QTemporaryFile(); tmp->setAutoRemove(true); if (!fetcher.fetchFile(url, tmp)) { qWarning() << "Fetching" << url << "failed"; continue; } url = url.fromLocalFile(tmp->fileName()); } if (url.isLocalFile()) { if (action == insertAsNewLayer || action == insertManyLayers) { d->viewManager->imageManager()->importImage(url); activateWindow(); } else if (action == insertAsNewFileLayer || action == insertManyFileLayers) { KisNodeCommandsAdapter adapter(viewManager()); KisFileLayer *fileLayer = new KisFileLayer(image(), "", url.toLocalFile(), KisFileLayer::None, image()->nextLayerName(), OPACITY_OPAQUE_U8); adapter.addNode(fileLayer, viewManager()->activeNode()->parent(), viewManager()->activeNode()); } else if (action == openInNewDocument || action == openManyDocuments) { if (mainWindow()) { mainWindow()->openDocument(url, KisMainWindow::None); } } else if (action == insertAsReferenceImage || action == insertAsReferenceImages) { auto *reference = KisReferenceImage::fromFile(url.toLocalFile(), d->viewConverter, this); if (reference) { reference->setPosition(d->viewConverter.imageToDocument(cursorPos)); d->referenceImagesDecoration->addReferenceImage(reference); KoToolManager::instance()->switchToolRequested("ToolReferenceImages"); } } } delete tmp; tmp = 0; } } } } } void KisView::dragMoveEvent(QDragMoveEvent *event) { //qDebug() << "KisView::dragMoveEvent"; if (event->mimeData()->hasUrls() || event->mimeData()->hasFormat("application/x-krita-node") || event->mimeData()->hasFormat("application/x-qt-image")) { event->accept(); } } KisDocument *KisView::document() const { return d->document; } -void KisView::setDocument(KisDocument *document) -{ - d->document->disconnect(this); - d->document = document; - QStatusBar *sb = statusBar(); - if (sb) { // No statusbar in e.g. konqueror - connect(d->document, SIGNAL(statusBarMessage(QString,int)), - this, SLOT(slotSavingStatusMessage(QString,int))); - connect(d->document, SIGNAL(clearStatusBarMessage()), - this, SLOT(slotClearStatusText())); - } -} - -void KisView::setDocumentDeleted() +KisView *KisView::replaceBy(KisDocument *document) { - d->documentDeleted = true; + KisMainWindow *window = mainWindow(); + QMdiSubWindow *subWindow = d->subWindow; + delete this; + return window->newView(document, subWindow); } QPrintDialog *KisView::createPrintDialog(KisPrintJob *printJob, QWidget *parent) { Q_UNUSED(parent); QPrintDialog *printDialog = new QPrintDialog(&printJob->printer(), this); printDialog->setMinMax(printJob->printer().fromPage(), printJob->printer().toPage()); printDialog->setEnabledOptions(printJob->printDialogOptions()); return printDialog; } KisMainWindow * KisView::mainWindow() const { return d->viewManager->mainWindow(); } void KisView::setSubWindow(QMdiSubWindow *subWindow) { d->subWindow = subWindow; } QStatusBar * KisView::statusBar() const { KisMainWindow *mw = mainWindow(); return mw ? mw->statusBar() : 0; } void KisView::slotSavingStatusMessage(const QString &text, int timeout, bool isAutoSaving) { QStatusBar *sb = statusBar(); if (sb) { sb->showMessage(text, timeout); } KisConfig cfg(true); if (!sb || sb->isHidden() || (!isAutoSaving && cfg.forceShowSaveMessages()) || (cfg.forceShowAutosaveMessages() && isAutoSaving)) { viewManager()->showFloatingMessage(text, QIcon()); } } void KisView::slotClearStatusText() { QStatusBar *sb = statusBar(); if (sb) { sb->clearMessage(); } } QList KisView::createChangeUnitActions(bool addPixelUnit) { UnitActionGroup* unitActions = new UnitActionGroup(d->document, addPixelUnit, this); return unitActions->actions(); } void KisView::closeEvent(QCloseEvent *event) { // Check whether we're the last (user visible) view int viewCount = KisPart::instance()->viewCount(document()); if (viewCount > 1 || !isVisible()) { // there are others still, so don't bother the user event->accept(); return; } if (queryClose()) { event->accept(); return; } event->ignore(); } bool KisView::queryClose() { if (!document()) return true; document()->waitForSavingToComplete(); if (document()->isModified()) { QString name; if (document()->documentInfo()) { name = document()->documentInfo()->aboutInfo("title"); } if (name.isEmpty()) name = document()->url().fileName(); if (name.isEmpty()) name = i18n("Untitled"); int res = QMessageBox::warning(this, i18nc("@title:window", "Krita"), i18n("

The document '%1' has been modified.

Do you want to save it?

", name), QMessageBox::Yes | QMessageBox::No | QMessageBox::Cancel, QMessageBox::Yes); switch (res) { case QMessageBox::Yes : { bool isNative = (document()->mimeType() == document()->nativeFormatMimeType()); if (!viewManager()->mainWindow()->saveDocument(document(), !isNative, false)) return false; break; } case QMessageBox::No : { KisImageSP image = document()->image(); image->requestStrokeCancellation(); viewManager()->blockUntilOperationsFinishedForced(image); document()->removeAutoSaveFiles(document()->localFilePath(), document()->isRecovered()); document()->setModified(false); // Now when queryClose() is called by closeEvent it won't do anything. break; } default : // case QMessageBox::Cancel : return false; } } return true; } void KisView::slotScreenChanged() { d->zoomManager.updateScreenResolution(this); } void KisView::slotThemeChanged(QPalette pal) { this->setPalette(pal); for (int i=0; ichildren().size();i++) { QWidget *w = qobject_cast ( this->children().at(i)); if (w) { w->setPalette(pal); } } if (canvasBase()) { canvasBase()->canvasWidget()->setPalette(pal); } if (canvasController()) { canvasController()->setPalette(pal); } } void KisView::resetImageSizeAndScroll(bool changeCentering, const QPointF &oldImageStillPoint, const QPointF &newImageStillPoint) { const KisCoordinatesConverter *converter = d->canvas.coordinatesConverter(); QPointF oldPreferredCenter = d->canvasController.preferredCenter(); /** * Calculating the still point in old coordinates depending on the * parameters given */ QPointF oldStillPoint; if (changeCentering) { oldStillPoint = converter->imageToWidget(oldImageStillPoint) + converter->documentOffset(); } else { QSizeF oldDocumentSize = d->canvasController.documentSize(); oldStillPoint = QPointF(0.5 * oldDocumentSize.width(), 0.5 * oldDocumentSize.height()); } /** * Updating the document size */ QSizeF size(image()->width() / image()->xRes(), image()->height() / image()->yRes()); KoZoomController *zc = d->zoomManager.zoomController(); zc->setZoom(KoZoomMode::ZOOM_CONSTANT, zc->zoomAction()->effectiveZoom()); zc->setPageSize(size); zc->setDocumentSize(size, true); /** * Calculating the still point in new coordinates depending on the * parameters given */ QPointF newStillPoint; if (changeCentering) { newStillPoint = converter->imageToWidget(newImageStillPoint) + converter->documentOffset(); } else { QSizeF newDocumentSize = d->canvasController.documentSize(); newStillPoint = QPointF(0.5 * newDocumentSize.width(), 0.5 * newDocumentSize.height()); } d->canvasController.setPreferredCenter(oldPreferredCenter - oldStillPoint + newStillPoint); } void KisView::syncLastActiveNodeToDocument() { KisDocument *doc = document(); if (doc) { doc->setPreActivatedNode(d->currentNode); } } void KisView::saveViewState(KisPropertiesConfiguration &config) const { config.setProperty("file", d->document->url()); config.setProperty("window", mainWindow()->windowStateConfig().name()); if (d->subWindow) { config.setProperty("geometry", d->subWindow->saveGeometry().toBase64()); } config.setProperty("zoomMode", (int)zoomController()->zoomMode()); config.setProperty("zoom", d->canvas.coordinatesConverter()->zoom()); d->canvasController.saveCanvasState(config); } void KisView::restoreViewState(const KisPropertiesConfiguration &config) { if (d->subWindow) { QByteArray geometry = QByteArray::fromBase64(config.getString("geometry", "").toLatin1()); d->subWindow->restoreGeometry(QByteArray::fromBase64(geometry)); } qreal zoom = config.getFloat("zoom", 1.0f); int zoomMode = config.getInt("zoomMode", (int)KoZoomMode::ZOOM_PAGE); d->zoomManager.zoomController()->setZoom((KoZoomMode::Mode)zoomMode, zoom); d->canvasController.restoreCanvasState(config); } void KisView::setCurrentNode(KisNodeSP node) { d->currentNode = node; d->canvas.slotTrySwitchShapeManager(); syncLastActiveNodeToDocument(); } KisNodeSP KisView::currentNode() const { return d->currentNode; } KisLayerSP KisView::currentLayer() const { KisNodeSP node; KisMaskSP mask = currentMask(); if (mask) { node = mask->parent(); } else { node = d->currentNode; } return qobject_cast(node.data()); } KisMaskSP KisView::currentMask() const { return dynamic_cast(d->currentNode.data()); } KisSelectionSP KisView::selection() { KisLayerSP layer = currentLayer(); if (layer) return layer->selection(); // falls through to the global // selection, or 0 in the end if (image()) { return image()->globalSelection(); } return 0; } void KisView::slotSoftProofing(bool softProofing) { d->softProofing = softProofing; QString message; if (canvasBase()->image()->colorSpace()->colorDepthId().id().contains("F")) { message = i18n("Soft Proofing doesn't work in floating point."); viewManager()->showFloatingMessage(message,QIcon()); return; } if (softProofing){ message = i18n("Soft Proofing turned on."); } else { message = i18n("Soft Proofing turned off."); } viewManager()->showFloatingMessage(message,QIcon()); canvasBase()->slotSoftProofing(softProofing); } void KisView::slotGamutCheck(bool gamutCheck) { d->gamutCheck = gamutCheck; QString message; if (canvasBase()->image()->colorSpace()->colorDepthId().id().contains("F")) { message = i18n("Gamut Warnings don't work in floating point."); viewManager()->showFloatingMessage(message,QIcon()); return; } if (gamutCheck){ message = i18n("Gamut Warnings turned on."); if (!d->softProofing){ message += "\n "+i18n("But Soft Proofing is still off."); } } else { message = i18n("Gamut Warnings turned off."); } viewManager()->showFloatingMessage(message,QIcon()); canvasBase()->slotGamutCheck(gamutCheck); } bool KisView::softProofing() { return d->softProofing; } bool KisView::gamutCheck() { return d->gamutCheck; } void KisView::slotLoadingFinished() { if (!document()) return; /** * Cold-start of image size/resolution signals */ slotImageResolutionChanged(); if (image()->locked()) { // If this is the first view on the image, the image will have been locked // so unlock it. image()->blockSignals(false); image()->unlock(); } canvasBase()->initializeImage(); /** * Dirty hack alert */ d->zoomManager.zoomController()->setAspectMode(true); if (viewConverter()) { viewConverter()->setZoomMode(KoZoomMode::ZOOM_PAGE); } connect(image(), SIGNAL(sigColorSpaceChanged(const KoColorSpace*)), this, SIGNAL(sigColorSpaceChanged(const KoColorSpace*))); connect(image(), SIGNAL(sigProfileChanged(const KoColorProfile*)), this, SIGNAL(sigProfileChanged(const KoColorProfile*))); connect(image(), SIGNAL(sigSizeChanged(QPointF,QPointF)), this, SIGNAL(sigSizeChanged(QPointF,QPointF))); KisNodeSP activeNode = document()->preActivatedNode(); if (!activeNode) { activeNode = image()->rootLayer()->lastChild(); } while (activeNode && !activeNode->inherits("KisLayer")) { activeNode = activeNode->prevSibling(); } setCurrentNode(activeNode); connect(d->viewManager->mainWindow(), SIGNAL(screenChanged()), SLOT(slotScreenChanged())); zoomManager()->updateImageBoundsSnapping(); } void KisView::slotSavingFinished() { if (d->viewManager && d->viewManager->mainWindow()) { d->viewManager->mainWindow()->updateCaption(); } } KisPrintJob * KisView::createPrintJob() { return new KisPrintJob(image()); } void KisView::slotImageResolutionChanged() { resetImageSizeAndScroll(false); zoomManager()->updateImageBoundsSnapping(); zoomManager()->updateGUI(); // update KoUnit value for the document if (resourceProvider()) { resourceProvider()->resourceManager()-> setResource(KoCanvasResourceProvider::Unit, d->canvas.unit()); } } void KisView::slotImageSizeChanged(const QPointF &oldStillPoint, const QPointF &newStillPoint) { resetImageSizeAndScroll(true, oldStillPoint, newStillPoint); zoomManager()->updateImageBoundsSnapping(); zoomManager()->updateGUI(); } void KisView::closeView() { d->subWindow->close(); } diff --git a/libs/ui/KisView.h b/libs/ui/KisView.h index 378b82108f..383771b109 100644 --- a/libs/ui/KisView.h +++ b/libs/ui/KisView.h @@ -1,302 +1,300 @@ /* This file is part of the KDE project Copyright (C) 1998, 1999 Torben Weis Copyright (C) 2007 Thomas Zander Copyright (C) 2010 Benjamin Port This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef KIS_VIEW_H #define KIS_VIEW_H #include #include #include #include #include "kritaui_export.h" #include "widgets/kis_floating_message.h" class KisDocument; class KisMainWindow; class KisPrintJob; class KisCanvasController; class KisZoomManager; class KisCanvas2; class KisViewManager; class KisDocument; class KisCanvasResourceProvider; class KisCoordinatesConverter; class KisInputManager; class KoZoomController; class KoZoomController; struct KoPageLayout; class KoCanvasResourceProvider; // KDE classes class QAction; class KActionCollection; class KConfigGroup; // Qt classes class QDragEnterEvent; class QDragMoveEvent; class QDropEvent; class QPrintDialog; class QCloseEvent; class QStatusBar; class QMdiSubWindow; /** * This class is used to display a @ref KisDocument. * * Multiple views can be attached to one document at a time. */ class KRITAUI_EXPORT KisView : public QWidget { Q_OBJECT public: /** * Creates a new view for the document. */ KisView(KisDocument *document, KisViewManager *viewManager, QWidget *parent = 0); ~KisView() override; // Temporary while teasing apart view and mainwindow void setViewManager(KisViewManager *view); KisViewManager *viewManager() const; public: /** * Retrieves the document object of this view. */ KisDocument *document() const; /** - * Reset the view to show the given document. - */ - void setDocument(KisDocument *document); - - /** - * Tells this view that its document has got deleted (called internally) + * Deletes the view and creates a new one, displaying @p document, + * in the same sub-window. + * + * @return the new view */ - void setDocumentDeleted(); + KisView *replaceBy(KisDocument *document); /** * In order to print the document represented by this view a new print job should * be constructed that is capable of doing the printing. * The default implementation returns 0, which silently cancels printing. */ KisPrintJob * createPrintJob(); /** * Create a QPrintDialog based on the @p printJob */ QPrintDialog *createPrintDialog(KisPrintJob *printJob, QWidget *parent); /** * @return the KisMainWindow in which this view is currently. */ KisMainWindow *mainWindow() const; /** * Tells this view which subwindow it is part of. */ void setSubWindow(QMdiSubWindow *subWindow); /** * @return the statusbar of the KisMainWindow in which this view is currently. */ QStatusBar *statusBar() const; /** * This adds a widget to the statusbar for this view. * If you use this method instead of using statusBar() directly, * KisView will take care of removing the items when the view GUI is deactivated * and readding them when it is reactivated. * The parameters are the same as QStatusBar::addWidget(). */ void addStatusBarItem(QWidget * widget, int stretch = 0, bool permanent = false); /** * Remove a widget from the statusbar for this view. */ void removeStatusBarItem(QWidget * widget); /** * Return the zoomController for this view. */ KoZoomController *zoomController() const; /// create a list of actions that when activated will change the unit on the document. QList createChangeUnitActions(bool addPixelUnit = false); void closeView(); public: /** * The zoommanager handles everything action-related to zooming */ KisZoomManager *zoomManager() const; /** * The CanvasController decorates the canvas with scrollbars * and knows where to start painting on the canvas widget, i.e., * the document offset. */ KisCanvasController *canvasController() const; KisCanvasResourceProvider *resourceProvider() const; /** * Filters events and sends them to canvas actions. Shared * among all the views/canvases * * NOTE: May be null while initialization! */ KisInputManager* globalInputManager() const; /** * @return the canvas object */ KisCanvas2 *canvasBase() const; /// @return the image this view is displaying KisImageWSP image() const; KisCoordinatesConverter *viewConverter() const; void resetImageSizeAndScroll(bool changeCentering, const QPointF &oldImageStillPoint = QPointF(), const QPointF &newImageStillPoint = QPointF()); void setCurrentNode(KisNodeSP node); KisNodeSP currentNode() const; KisLayerSP currentLayer() const; KisMaskSP currentMask() const; /** * @brief softProofing * @return whether or not we're softproofing in this view. */ bool softProofing(); /** * @brief gamutCheck * @return whether or not we're using gamut warnings in this view. */ bool gamutCheck(); /// Convenience method to get at the active selection (the /// selection of the current layer, or, if that does not exist, /// the global selection. KisSelectionSP selection(); void notifyCurrentStateChanged(bool isCurrent); bool isCurrent() const; void setShowFloatingMessage(bool show); void showFloatingMessage(const QString &message, const QIcon& icon, int timeout = 4500, KisFloatingMessage::Priority priority = KisFloatingMessage::Medium, int alignment = Qt::AlignCenter | Qt::TextWordWrap); bool canvasIsMirrored() const; void syncLastActiveNodeToDocument(); void saveViewState(KisPropertiesConfiguration &config) const; void restoreViewState(const KisPropertiesConfiguration &config); public Q_SLOTS: /** * Display a message in the status bar (calls QStatusBar::message()) * @todo rename to something more generic * @param value determines autosaving */ void slotSavingStatusMessage(const QString &text, int timeout, bool isAutoSaving = false); /** * End of the message in the status bar (calls QStatusBar::clear()) * @todo rename to something more generic */ void slotClearStatusText(); /** * @brief slotSoftProofing set whether or not we're softproofing in this view. * Will be setting the same in the canvas belonging to the view. */ void slotSoftProofing(bool softProofing); /** * @brief slotGamutCheck set whether or not we're gamutchecking in this view. * Will be setting the same in the vans belonging to the view. */ void slotGamutCheck(bool gamutCheck); bool queryClose(); void slotScreenChanged(); void slotThemeChanged(QPalette pal); private Q_SLOTS: void slotImageNodeAdded(KisNodeSP node); void slotContinueAddNode(KisNodeSP newActiveNode); void slotImageNodeRemoved(KisNodeSP node); void slotContinueRemoveNode(KisNodeSP newActiveNode); Q_SIGNALS: // From KisImage void sigSizeChanged(const QPointF &oldStillPoint, const QPointF &newStillPoint); void sigProfileChanged(const KoColorProfile * profile); void sigColorSpaceChanged(const KoColorSpace* cs); void titleModified(QString,bool); void sigContinueAddNode(KisNodeSP newActiveNode); void sigContinueRemoveNode(KisNodeSP newActiveNode); protected: // QWidget overrides void dragEnterEvent(QDragEnterEvent *event) override; void dropEvent(QDropEvent *event) override; void dragMoveEvent(QDragMoveEvent *event) override; void closeEvent(QCloseEvent *event) override; /** * Generate a name for this view. */ QString newObjectName(); public Q_SLOTS: void slotLoadingFinished(); void slotSavingFinished(); void slotImageResolutionChanged(); void slotImageSizeChanged(const QPointF &oldStillPoint, const QPointF &newStillPoint); private: class Private; Private * const d; static bool s_firstView; }; #endif diff --git a/libs/widgetutils/tests/KisDialogStateSaverTest.cpp b/libs/widgetutils/tests/KisDialogStateSaverTest.cpp index 2e49cf5fc0..9da83871a2 100644 --- a/libs/widgetutils/tests/KisDialogStateSaverTest.cpp +++ b/libs/widgetutils/tests/KisDialogStateSaverTest.cpp @@ -1,67 +1,67 @@ /* * Copyright (c) 2019 Boudewijn Rempt * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "KisDialogStateSaverTest.h" #include #include #include #include #include void KisDialogStateSaverTest::testSave() { QWidget w; Ui::DialogSaverTestWidget page; page.setupUi(&w); page.lineEdit->setText("test"); page.spinBox->setValue(5); page.doubleSpinBox->setValue(3.0); page.verticalSlider->setValue(10); page.checkBox->setChecked(true); KisDialogStateSaver::saveState(&w, "StateSaverTest"); KConfigGroup group(KSharedConfig::openConfig(), "StateSaverTest"); - QCOMPARE(group.readEntry("lineEdit", QString()), "test"); + QCOMPARE(group.readEntry("lineEdit", QString()), QString("test")); QCOMPARE(group.readEntry("spinBox", 0), 5); QCOMPARE(group.readEntry("doubleSpinBox", 0.0), 3.0); QCOMPARE(group.readEntry("verticalSlider", 0), 10); QCOMPARE(group.readEntry("checkBox", false), true); } void KisDialogStateSaverTest::testRestore() { QWidget w; Ui::DialogSaverTestWidget page; page.setupUi(&w); QMap overrideMap; overrideMap["spinBox"] = QVariant::fromValue(10); KisDialogStateSaver::restoreState(&w, "StateSaverTest", overrideMap); - QCOMPARE(page.lineEdit->text(), "test"); + QCOMPARE(page.lineEdit->text(), QString("test")); QCOMPARE(page.spinBox->value(), 10); QCOMPARE(page.doubleSpinBox->value(), 3.0); QCOMPARE(page.verticalSlider->value(), 10); QCOMPARE(page.checkBox->isChecked(), true); } QTEST_MAIN(KisDialogStateSaverTest) diff --git a/plugins/extensions/pykrita/sip/krita/Selection.sip b/plugins/extensions/pykrita/sip/krita/Selection.sip index 7ea9cbca44..f4562edefa 100644 --- a/plugins/extensions/pykrita/sip/krita/Selection.sip +++ b/plugins/extensions/pykrita/sip/krita/Selection.sip @@ -1,42 +1,43 @@ class Selection : QObject { %TypeHeaderCode #include "Selection.h" %End Selection(const Selection & __0); public: Selection(QObject* parent /TransferThis/ = 0); virtual ~Selection(); bool operator==(const Selection &other) const; bool operator!=(const Selection &other) const; public Q_SLOTS: + Selection *duplicate() /Factory/; int width() const; int height() const; int x() const; int y() const; void move(int x, int y); void clear(); void contract(int value); void copy(Node *node); void cut(Node *node); void paste(Node *destination, int x, int y); void erode(); void dilate(); void border(int xRadius, int yRadius); void feather(int radius); void grow(int xradius, int yradius); void shrink(int xRadius, int yRadius, bool edgeLock); void smooth(); void invert(); void resize(int w, int h); void select(int x, int y, int w, int h, int value); void selectAll(Node* node, int value); void replace(Selection *selection); void add(Selection *selection); void subtract(Selection *selection); void intersect(Selection *selection); void symmetricdifference(Selection *selection); QByteArray pixelData(int x, int y, int w, int h) const; void setPixelData(QByteArray value, int x, int y, int w, int h); private: }; diff --git a/plugins/extensions/pykrita/sip/krita/View.sip b/plugins/extensions/pykrita/sip/krita/View.sip index 7e5ee85a7c..a9fe06554e 100644 --- a/plugins/extensions/pykrita/sip/krita/View.sip +++ b/plugins/extensions/pykrita/sip/krita/View.sip @@ -1,54 +1,55 @@ class View : QObject { %TypeHeaderCode #include "View.h" %End View(const View & __0); public: bool operator==(const View &other) const; bool operator!=(const View &other) const; public Q_SLOTS: Window * window() const /Factory/; Document * document() const /Factory/; + void setDocument(Document *document); bool visible() const; void setVisible(); Canvas * canvas() const /Factory/; void activateResource(Resource *resource); ManagedColor *foregroundColor() const /Factory/; void setForeGroundColor(ManagedColor *color); ManagedColor *backgroundColor() const /Factory/; void setBackGroundColor(ManagedColor *color); Resource *currentBrushPreset() const /Factory/; void setCurrentBrushPreset(Resource *resource); Resource *currentPattern() const /Factory/; void setCurrentPattern(Resource *resournce); Resource *currentGradient() const /Factory/; void setCurrentGradient(Resource *resource); QString currentBlendingMode() const; void setCurrentBlendingMode(const QString &blendingMode); float HDRExposure() const; void setHDRExposure(float exposure); float HDRGamma() const; void setHDRGamma(float gamma); qreal paintingOpacity() const; void setPaintingOpacity(qreal opacity); qreal brushSize() const; void setBrushSize(qreal brushSize); qreal paintingFlow() const; void setPaintingFlow(qreal flow); QList selectedNodes() const /Factory/; private: };