bool USAcquisition::getWriteColor() { PropertyPtr angio = this->getReconstructer()->getParam("Angio data"); bool writeColor = angio->getValueAsVariant().toBool() || !settings()->value("Ultrasound/8bitAcquisitionData").toBool(); return writeColor; }
void GroupTextureController::notifyChangeDataSelector(DataPtr _data, bool _changeOnlySelection) { mParentData = _data; if (mParentData != nullptr && mParentData->getType()->getName() != mParentTypeName) mParentData = nullptr; std::string texture; PropertyPtr property = PropertyUtility::getPropertyByName("Group", "Texture"); if (property != nullptr) { texture = property->getValue(); if (!property->eventChangeProperty.exist(this, &GroupTextureController::notifyChangeProperty)) property->eventChangeProperty.connect(this, &GroupTextureController::notifyChangeProperty); } std::string coord; property = PropertyUtility::getPropertyByName("Group", "Size"); if (property != nullptr) { coord = property->getValue(); if (!property->eventChangeProperty.exist(this, &GroupTextureController::notifyChangeProperty)) property->eventChangeProperty.connect(this, &GroupTextureController::notifyChangeProperty); } mControl->setTextureValue(texture); updateCoords(coord); }
void PropertyPanelControl::InitialiseProperty(PropertyPtr _property, int& _height) { std::string type = _property->getType()->getType(); PropertyControl* control = nullptr; for (VectorPairControl::iterator child = mPropertyControls.begin(); child != mPropertyControls.end(); child ++) { if ((*child).first == type && !(*child).second->getRoot()->getVisible()) { control = (*child).second; control->getRoot()->setVisible(true); break; } } if (control == nullptr) { control = components::FactoryManager::GetInstance().CreateItem<PropertyControl>(_property->getType()->getType()); if (control != nullptr) { control->Initialise(this, mScrollView, ""); mPropertyControls.push_back(std::make_pair(_property->getType()->getType(), control)); } } if (control != nullptr) { control->setProperty(_property); control->getRoot()->setPosition(0, _height); _height += control->getRoot()->getHeight() + mDistance; } }
void ImageSyncApp::populateGuiFromConfiguration() { PropertyPtr property = configurationFile_->value( "destinationDirectory", DESTINATION_DIRECTORY ); mainWindowContent_->textEditDestination->setText( !property ? "" : property->asString() ); property = configurationFile_->value( "sourceDirectory", SOURCE_DIRECTORY ); mainWindowContent_->textEditSource->setText( !property ? "" : property->asString() ); }
void UniqueNamePropertyInitialisator::initialise(PropertyPtr _property) { DataPtr parent = DataUtility::getSelectedParentDataByType(_property->getOwner()->getType()->getName()); if (parent == nullptr) return; std::string name = DataUtility::getUniqueName(parent, "unnamed_"); _property->setValue(name); }
void UsReconstructionImplService::onServiceAdded(ReconstructionMethodService* service) { QStringList range = mParams->getAlgorithmAdapter()->getValueRange(); range << service->getName(); mParams->getAlgorithmAdapter()->setValueRange(range); // select algo if none selected PropertyPtr algoName = mParams->getParameter("Algorithm"); if (algoName->getValueAsVariant().value<QString>().isEmpty()) algoName->setValueFromVariant(service->getName()); }
void FontTextureController::notifyChangeProperty(PropertyPtr _sender) { if (!mActivated || !PropertyUtility::isDataSelected(_sender->getOwner())) return; if (_sender->getOwner()->getType()->getName() == "Font") { if (_sender->getType()->getName() == "FontName") updateTexture(_sender->getValue()); } }
void ChangeSkinSizeAction::storeRegionValues(DataPtr _skinData, VectorPairProperty& _store) { const Data::VectorData& childs = _skinData->getChilds(); for (Data::VectorData::const_iterator child = childs.begin(); child != childs.end(); child++) { if ((*child)->getType()->getName() != "Region") continue; PropertyPtr property = (*child)->getProperty("Coord"); _store.push_back(std::make_pair(property, property->getValue())); } }
PageProgression Package::PageProgressionDirection() const { PropertyPtr prop = PropertyMatching("page-progression-direction"); if ( prop ) { if ( prop->Value() == "ltr" ) return PageProgression::LeftToRight; else if ( prop->Value() == "rtl" ) return PageProgression::RightToLeft; } return PageProgression::Default; }
void PropertyBoolControl::updateProperty() { PropertyPtr proper = getProperty(); if (proper != nullptr) { mComboBox->setEnabled(!proper->getType()->getReadOnly()); size_t index = getComboIndex(proper->getValue()); mComboBox->setIndexSelected(index); } else { mComboBox->setIndexSelected(MyGUI::ITEM_NONE); mComboBox->setEnabled(false); } }
void FontTextureController::notifyChangeDataSelector(DataPtr _data, bool _changeOnlySelection) { mParentData = _data; if (mParentData != nullptr && mParentData->getType()->getName() != mParentTypeName) mParentData = nullptr; std::string texture; PropertyPtr property = PropertyUtility::getPropertyByName("Font", "FontName"); if (property != nullptr) { texture = property->getValue(); } updateTexture(texture); }
void PropertyInt2ListControl::updateProperty() { PropertyPtr proper = getProperty(); if (proper != nullptr) { mList->setEnabled(!proper->getType()->getReadOnly()); std::string value = getValue(); if (value != proper->getValue()) setValue(proper->getValue()); } else { mList->removeAllItems(); mList->setEnabled(false); } }
void TexturePropertyInitialisator::initialise(PropertyPtr _property) { if (SettingsManager::getInstance().getValue<bool>("Settings/SaveLastTexture")) { std::string texture = SettingsManager::getInstance().getValue("Resources/LastTextureName"); _property->setValue(texture); } }
Statement::Statement(ResourcePtr subject, PropertyPtr predicate, NodePtr object) : d(new StatementPrivate) { d->model = subject->model().d; d->subjectID = subject->id(); d->predicateID = predicate->id(); d->objectID = object->id(); }
void Data::setType(DataTypePtr _value) { mType = _value; mProperties.clear(); if (mType != nullptr) { const DataType::VectorProperty& properties = mType->getProperties(); for (DataType::VectorProperty::const_iterator property = properties.begin(); property != properties.end(); property++) { PropertyPtr data = Property::CreateInstance(*property, mWeakThis.lock()); data->initialise(); mProperties[(*property)->getName()] = data; } } }
void PropertyIntControl::updateProperty() { PropertyPtr proper = getProperty(); if (proper != nullptr) { mEdit->setEnabled(!proper->getType()->getReadOnly()); if (mEdit->getOnlyText() != proper->getValue()) mEdit->setCaption(proper->getValue()); bool validate = isValidate(); setColour(validate); } else { mEdit->setCaption(""); mEdit->setEnabled(false); } }
void update(PropertyPtr prop) { auto prev = prop_; prop_ = prop; setData(QVariant::fromValue(prop_), static_cast<int>(ModelItemRoles::Data)); setData(QVariant::fromValue<int>(static_cast<int>(ModelItemDataType::Property)), static_cast<int>(ModelItemRoles::Type)); setData(prop->metadata().title().c_str(), Qt::DisplayRole); propertyValueItem_->update({ prop }); emit model_->modelItemPropertyMutated(prev, prop); }
void ListBoxDataControl::notifyChangeProperty(PropertyPtr _sender) { if (mParentData == nullptr) return; if (mParentData != _sender->getOwner()->getParent()) return; for (size_t index = 0; index < mListBox->getItemCount(); index ++) { DataPtr data = *mListBox->getItemDataAt<DataPtr>(index); if (data == _sender->getOwner()) { bool unique = isDataEnabled(data); if (unique) mListBox->setItemNameAt(index, data->getPropertyValue(mPropertyForName)); else mListBox->setItemNameAt(index, replaceTags(mColourName) + data->getPropertyValue(mPropertyForName)); } } }
bool SpineItem::ParseXML(SpineItemPtr& sharedMe, xmlNodePtr node) { SetXMLIdentifier(_getProp(node, "id")); _idref = _getProp(node, "idref"); if ( _getProp(node, "linear").tolower() == "false" ) _linear = false; auto holder = std::dynamic_pointer_cast<PropertyHolder>(sharedMe); string properties = _getProp(node, "properties"); if ( !properties.empty() ) { for ( auto& property : properties.split(REGEX_NS::regex(",?\\s+")) ) { PropertyPtr prop = std::make_shared<Property>(holder); prop->SetPropertyIdentifier(this->PropertyIRIFromString(property)); this->AddProperty(prop); } } return true; }
void IndexTextureController::notifyChangeDataSelector(DataPtr _data, bool _changeOnlySelection) { mParentData = _data; if (mParentData != nullptr && mParentData->getType()->getName() != mParentTypeName) mParentData = nullptr; std::string texture; PropertyPtr property = PropertyUtility::getPropertyByName("Group", "Texture"); if (property != nullptr) { texture = property->getValue(); if (!property->eventChangeProperty.exist(this, &IndexTextureController::notifyChangeProperty)) property->eventChangeProperty.connect(this, &IndexTextureController::notifyChangeProperty); } std::string coord; property = PropertyUtility::getPropertyByName("Group", "Size"); if (property != nullptr) { coord = property->getValue(); if (!property->eventChangeProperty.exist(this, &IndexTextureController::notifyChangeProperty)) property->eventChangeProperty.connect(this, &IndexTextureController::notifyChangeProperty); } if (mParentData != nullptr) { for (Data::VectorData::const_iterator child = mParentData->getChilds().begin(); child != mParentData->getChilds().end(); child ++) { property = (*child)->getProperty("Point"); if (!property->eventChangeProperty.exist(this, &IndexTextureController::notifyChangeProperty)) property->eventChangeProperty.connect(this, &IndexTextureController::notifyChangeProperty); } } mControl->setTextureValue(texture); updateCoords(coord); }
void IndexTextureController::notifyChangeProperty(PropertyPtr _sender) { if (!mActivated || !PropertyUtility::isDataSelected(_sender->getOwner())) return; if (_sender->getOwner()->getType()->getName() == "Group") { if (_sender->getType()->getName() == "Texture") mControl->setTextureValue(_sender->getValue()); else if (_sender->getType()->getName() == "Size") updateCoords(_sender->getValue()); } else if (_sender->getOwner()->getType()->getName() == "Frame") { if (_sender->getType()->getName() == "Point") updateFrames(); } }
void Component::setProperty(PropertyPtr property) { m_properties[property->getName()] = property; }
void MeshPropertyData::addProperty(PropertyPtr property) { mProperties.push_back(property); connect(property.get(), &Property::changed, this, &MeshPropertyData::changed); }
bool Package::Unpack() { PackagePtr sharedMe = shared_from_this(); // very basic sanity check xmlNodePtr root = xmlDocGetRootElement(_opf); string rootName(reinterpret_cast<const char*>(root->name)); rootName.tolower(); if ( rootName != "package" ) { HandleError(EPUBError::OPFInvalidPackageDocument); return false; // not an OPF file, innit? } if ( _getProp(root, "version").empty() ) { HandleError(EPUBError::OPFPackageHasNoVersion); } InstallPrefixesFromAttributeValue(_getProp(root, "prefix", ePub3NamespaceURI)); // go through children to determine the CFI index of the <spine> tag static const xmlChar* kSpineName = BAD_CAST "spine"; static const xmlChar* kManifestName = BAD_CAST "manifest"; static const xmlChar* kMetadataName = BAD_CAST "metadata"; _spineCFIIndex = 0; uint32_t idx = 0; xmlNodePtr child = xmlFirstElementChild(root); while ( child != nullptr ) { idx += 2; if ( xmlStrEqual(child->name, kSpineName) ) { _spineCFIIndex = idx; if ( _spineCFIIndex != 6 ) HandleError(EPUBError::OPFSpineOutOfOrder); } else if ( xmlStrEqual(child->name, kManifestName) && idx != 4 ) { HandleError(EPUBError::OPFManifestOutOfOrder); } else if ( xmlStrEqual(child->name, kMetadataName) && idx != 2 ) { HandleError(EPUBError::OPFMetadataOutOfOrder); } child = xmlNextElementSibling(child); } if ( _spineCFIIndex == 0 ) { HandleError(EPUBError::OPFNoSpine); return false; // spineless! } #if EPUB_COMPILER_SUPPORTS(CXX_INITIALIZER_LISTS) XPathWrangler xpath(_opf, {{"opf", OPFNamespace}, {"dc", DCNamespace}}); #else XPathWrangler::NamespaceList __m; __m["opf"] = OPFNamespace; __m["dc"] = DCNamespace; XPathWrangler xpath(_opf, __m); #endif // simple things: manifest and spine items xmlNodeSetPtr manifestNodes = nullptr; xmlNodeSetPtr spineNodes = nullptr; try { manifestNodes = xpath.Nodes("/opf:package/opf:manifest/opf:item"); spineNodes = xpath.Nodes("/opf:package/opf:spine/opf:itemref"); if ( manifestNodes == nullptr ) { HandleError(EPUBError::OPFNoManifestItems); } if ( spineNodes == nullptr ) { HandleError(EPUBError::OPFNoSpineItems); } for ( int i = 0; i < manifestNodes->nodeNr; i++ ) { auto p = std::make_shared<ManifestItem>(sharedMe); if ( p->ParseXML(p, manifestNodes->nodeTab[i]) ) { #if EPUB_HAVE(CXX_MAP_EMPLACE) _manifest.emplace(p->Identifier(), p); #else _manifest[p->Identifier()] = p; #endif StoreXMLIdentifiable(p); } else { // TODO: Need an error here } } // check fallback chains typedef std::map<string, bool> IdentSet; IdentSet idents; for ( auto &pair : _manifest ) { ManifestItemPtr item = pair.second; if ( item->FallbackID().empty() ) continue; idents[item->XMLIdentifier()] = true; while ( !item->FallbackID().empty() ) { if ( idents[item->FallbackID()] ) { HandleError(EPUBError::OPFFallbackChainCircularReference); break; } item = item->Fallback(); } idents.clear(); } SpineItemPtr cur; for ( int i = 0; i < spineNodes->nodeNr; i++ ) { auto next = std::make_shared<SpineItem>(sharedMe); if ( next->ParseXML(next, spineNodes->nodeTab[i]) == false ) { // TODO: need an error code here continue; } // validation of idref auto manifestFound = _manifest.find(next->Idref()); if ( manifestFound == _manifest.end() ) { HandleError(EPUBError::OPFInvalidSpineIdref, _Str(next->Idref(), " does not correspond to a manifest item")); continue; } // validation of spine resource type w/fallbacks ManifestItemPtr manifestItem = next->ManifestItem(); bool isContentDoc = false; do { if ( manifestItem->MediaType() == "application/xhtml+xml" || manifestItem->MediaType() == "image/svg" ) { isContentDoc = true; break; } } while ( (manifestItem = manifestItem->Fallback()) ); if ( !isContentDoc ) HandleError(EPUBError::OPFFallbackChainHasNoContentDocument); StoreXMLIdentifiable(next); if ( cur != nullptr ) { cur->SetNextItem(next); } else { _spine = next; } cur = next; } } catch (const std::system_error& exc) { if ( manifestNodes != nullptr ) xmlXPathFreeNodeSet(manifestNodes); if ( spineNodes != nullptr ) xmlXPathFreeNodeSet(spineNodes); if ( exc.code().category() == epub_spec_category() ) throw; return false; } catch (...) { if ( manifestNodes != nullptr ) xmlXPathFreeNodeSet(manifestNodes); if ( spineNodes != nullptr ) xmlXPathFreeNodeSet(spineNodes); return false; } xmlXPathFreeNodeSet(manifestNodes); xmlXPathFreeNodeSet(spineNodes); // now the metadata, which is slightly more involved due to extensions xmlNodeSetPtr metadataNodes = nullptr; xmlNodeSetPtr refineNodes = xmlXPathNodeSetCreate(nullptr); try { shared_ptr<PropertyHolder> holderPtr = std::dynamic_pointer_cast<PropertyHolder>(sharedMe); metadataNodes = xpath.Nodes("/opf:package/opf:metadata/*"); if ( metadataNodes == nullptr ) HandleError(EPUBError::OPFNoMetadata); bool foundIdentifier = false, foundTitle = false, foundLanguage = false, foundModDate = false; string uniqueIDRef = _getProp(root, "unique-identifier"); if ( uniqueIDRef.empty() ) HandleError(EPUBError::OPFPackageUniqueIDInvalid); for ( int i = 0; i < metadataNodes->nodeNr; i++ ) { xmlNodePtr node = metadataNodes->nodeTab[i]; PropertyPtr p; if ( node->ns != nullptr && xmlStrcmp(node->ns->href, BAD_CAST DCNamespace) == 0 ) { // definitely a main node p = std::make_shared<Property>(holderPtr); } else if ( _getProp(node, "name").size() > 0 ) { // it's an ePub2 item-- ignore it continue; } else if ( _getProp(node, "refines").empty() ) { // not refining anything, so it's a main node p = std::make_shared<Property>(holderPtr); } else { // by elimination it's refining something-- we'll process it later when we know we've got all the main nodes in there xmlXPathNodeSetAdd(refineNodes, node); } if ( p && p->ParseMetaElement(node) ) { switch ( p->Type() ) { case DCType::Identifier: { foundIdentifier = true; if ( !uniqueIDRef.empty() && uniqueIDRef != p->XMLIdentifier() ) HandleError(EPUBError::OPFPackageUniqueIDInvalid); break; } case DCType::Title: { foundTitle = true; break; } case DCType::Language: { foundLanguage = true; break; } case DCType::Custom: { if ( p->PropertyIdentifier() == MakePropertyIRI("modified", "dcterms") ) foundModDate = true; break; } default: break; } AddProperty(p); StoreXMLIdentifiable(p); } } if ( !foundIdentifier ) HandleError(EPUBError::OPFMissingIdentifierMetadata); if ( !foundTitle ) HandleError(EPUBError::OPFMissingTitleMetadata); if ( !foundLanguage ) HandleError(EPUBError::OPFMissingLanguageMetadata); if ( !foundModDate ) HandleError(EPUBError::OPFMissingModificationDateMetadata); for ( int i = 0; i < refineNodes->nodeNr; i++ ) { xmlNodePtr node = refineNodes->nodeTab[i]; string ident = _getProp(node, "refines"); if ( ident.empty() ) { HandleError(EPUBError::OPFInvalidRefinementAttribute, "Empty IRI for 'refines' attribute"); continue; } if ( ident[0] == '#' ) { ident = ident.substr(1); } else { // validation only right now IRI iri(ident); if ( iri.IsEmpty() ) { HandleError(EPUBError::OPFInvalidRefinementAttribute, _Str("#", ident, " is not a valid IRI")); } else if ( iri.IsRelative() == false ) { HandleError(EPUBError::OPFInvalidRefinementAttribute, _Str(iri.IRIString(), " is not a relative IRI")); } continue; } auto found = _xmlIDLookup.find(ident); if ( found == _xmlIDLookup.end() ) { HandleError(EPUBError::OPFInvalidRefinementTarget, _Str("#", ident, " does not reference an item in this document")); continue; } PropertyPtr prop = std::dynamic_pointer_cast<Property>(found->second); if ( prop ) { // it's a property, so this is an extension PropertyExtensionPtr extPtr = std::make_shared<PropertyExtension>(prop); if ( extPtr->ParseMetaElement(node) ) prop->AddExtension(extPtr); } else { // not a property, so treat this as a plain property shared_ptr<PropertyHolder> ptr = std::dynamic_pointer_cast<PropertyHolder>(found->second); if ( ptr ) { prop = std::make_shared<Property>(ptr); if ( prop->ParseMetaElement(node) ) ptr->AddProperty(prop); } } } // now look at the <spine> element for properties xmlNodePtr spineNode = xmlFirstElementChild(root); for ( uint32_t i = 2; i < _spineCFIIndex; i += 2 ) spineNode = xmlNextElementSibling(spineNode); string value = _getProp(spineNode, "page-progression-direction"); if ( !value.empty() ) { PropertyPtr prop = std::make_shared<Property>(holderPtr); prop->SetPropertyIdentifier(MakePropertyIRI("page-progression-direction")); prop->SetValue(value); AddProperty(prop); } } catch (std::system_error& exc) { if ( metadataNodes != nullptr ) xmlXPathFreeNodeSet(metadataNodes); if ( refineNodes != nullptr ) xmlXPathFreeNodeSet(refineNodes); if ( exc.code().category() == epub_spec_category() ) throw; return false; } catch (...) { if ( metadataNodes != nullptr ) xmlXPathFreeNodeSet(metadataNodes); if ( refineNodes != nullptr ) xmlXPathFreeNodeSet(refineNodes); return false; } xmlXPathFreeNodeSet(metadataNodes); xmlXPathFreeNodeSet(refineNodes); // now any content type bindings xmlNodeSetPtr bindingNodes = nullptr; try { bindingNodes = xpath.Nodes("/opf:package/opf:bindings/*"); if ( bindingNodes != nullptr ) { for ( int i = 0; i < bindingNodes->nodeNr; i++ ) { xmlNodePtr node = bindingNodes->nodeTab[i]; if ( xmlStrcasecmp(node->name, MediaTypeElementName) != 0 ) continue; //////////////////////////////////////////////////////////// // ePub Publications 3.0 ยง3.4.16: The `mediaType` Element // The media-type attribute is required. string mediaType = _getProp(node, "media-type"); if ( mediaType.empty() ) { HandleError(EPUBError::OPFBindingHandlerNoMediaType); throw false; } // Each child mediaType of a bindings element must define a unique // content type in its media-type attribute, and the media type // specified must not be a Core Media Type. if ( _contentHandlers[mediaType].empty() == false ) { // user shouldn't have added manual things yet, but for safety we'll look anyway for ( auto ptr : _contentHandlers[mediaType] ) { if ( typeid(*ptr) == typeid(MediaHandler) ) { HandleError(EPUBError::OPFMultipleBindingsForMediaType); } } } if ( CoreMediaTypes.find(mediaType) != CoreMediaTypes.end() ) { HandleError(EPUBError::OPFCoreMediaTypeBindingEncountered); } // The handler attribute is required string handlerID = _getProp(node, "handler"); if ( handlerID.empty() ) { HandleError(EPUBError::OPFBindingHandlerNotFound); } // The required handler attribute must reference the ID [XML] of an // item in the manifest of the default implementation for this media // type. The referenced item must be an XHTML Content Document. ManifestItemPtr handlerItem = ManifestItemWithID(handlerID); if ( !handlerItem ) { HandleError(EPUBError::OPFBindingHandlerNotFound); } if ( handlerItem->MediaType() != "application/xhtml+xml" ) { HandleError(EPUBError::OPFBindingHandlerInvalidType, _Str("Media handlers must be XHTML content documents, but referenced item has type '", handlerItem->MediaType(), "'.")); } // All XHTML Content Documents designated as handlers must have the // `scripted` property set in their manifest item's `properties` // attribute. if ( handlerItem->HasProperty(ItemProperties::HasScriptedContent) == false ) { HandleError(EPUBError::OPFBindingHandlerNotScripted); } // all good-- install it now _contentHandlers[mediaType].push_back(std::make_shared<MediaHandler>(sharedMe, mediaType, handlerItem->AbsolutePath())); } } } catch (std::exception& exc) { std::cerr << "Exception processing OPF file: " << exc.what() << std::endl; if ( bindingNodes != nullptr ) xmlXPathFreeNodeSet(bindingNodes); throw; } catch (...) { if ( bindingNodes != nullptr ) xmlXPathFreeNodeSet(bindingNodes); return false; } xmlXPathFreeNodeSet(bindingNodes); // now the navigation tables for ( auto item : _manifest ) { if ( !item.second->HasProperty(ItemProperties::Navigation) ) continue; NavigationList tables = NavTablesFromManifestItem(sharedMe, item.second); for ( auto table : tables ) { // have to dynamic_cast these guys to get the right pointer type shared_ptr<class NavigationTable> navTable = std::dynamic_pointer_cast<class NavigationTable>(table); #if EPUB_HAVE(CXX_MAP_EMPLACE) _navigation.emplace(navTable->Type(), navTable); #else _navigation[navTable->Type()] = navTable; #endif } } // lastly, let's set the media support information InitMediaSupport(); return true; }
void PropertyFontSourceControl::updateCaption() { PropertyPtr proper = getProperty(); if (proper != nullptr) mName->setCaption(proper->getType()->getName()); }
void Event::addProperty(PropertyPtr p_property) { m_properties[p_property->GetType()] = p_property; }