ImplicitFunctionParameterParser* ImplicitFunctionParameterParserFactoryImpl::createImplicitFunctionParameterParserFromXML(Poco::XML::Element* parametersElement) const { if(parametersElement->localName() != "ParameterList") { throw std::runtime_error("Expected passed element to be ParameterList."); } Poco::XML::NodeList* parameters = parametersElement->getElementsByTagName("Parameter"); ImplicitFunctionParameterParser* paramParser = NULL; ImplicitFunctionParameterParser* nextParser = NULL; for(unsigned long i = 0 ; i < parameters->length(); i++) { Poco::XML::Element* parameter = dynamic_cast<Poco::XML::Element*>(parameters->item(i)); std::string paramParserName = parameter->getChildElement("Type")->innerText() + "Parser"; //Append parser to the name. Fixed convention ImplicitFunctionParameterParser* childParamParser = this->createUnwrapped(paramParserName); if(paramParser != NULL) { nextParser->setSuccessorParser(childParamParser); } else { paramParser = childParamParser; } nextParser = childParamParser; } return paramParser; }
bool ofXml::setToChild(int index) { if(!element) { if((Poco::XML::Element*) document->documentElement()->firstChild()) { element = (Poco::XML::Element*) document->documentElement()->firstChild(); } else { ofLogWarning("ofXml") << "setToChild(): no element created yet"; return false; } } unsigned long numberOfChildren = 0; Poco::XML::NodeList *list = element->childNodes(); for(unsigned long i=0; i < list->length() && numberOfChildren < index + 1; i++) { if(list->item(i) && list->item(i)->nodeType() == Poco::XML::Node::ELEMENT_NODE) { if(numberOfChildren == index) { element = (Poco::XML::Element*) list->item(i); return true; } numberOfChildren++; } } return false; }
int ofXml::getNumChildren() const { if(!element) return 0; int numberOfChildren = 0; Poco::XML::NodeList *list = element->childNodes(); for(unsigned long i=0; i < list->length(); i++) { if(list->item(i) && list->item(i)->nodeType() == Poco::XML::Node::ELEMENT_NODE) { numberOfChildren++; } } return numberOfChildren; }
ImplicitFunctionParser* ImplicitFunctionParserFactoryImpl::createImplicitFunctionParserFromXML(Poco::XML::Element* functionElement) const { std::string name = functionElement->localName(); if(name != "Function") { throw std::runtime_error("Root node must be a Funtion element. Unable to determine parsers."); } Poco::XML::Element* typeElement = functionElement->getChildElement("Type"); std::string functionParserName = typeElement->innerText() + "Parser"; ImplicitFunctionParser* functionParser = this->createUnwrapped(functionParserName); Poco::XML::Element* parametersElement = functionElement->getChildElement("ParameterList"); //Get the parameter parser for the current function parser and append that to the function parser. ImplicitFunctionParameterParser* paramParser = Mantid::API::ImplicitFunctionParameterParserFactory::Instance().createImplicitFunctionParameterParserFromXML(parametersElement); functionParser->setParameterParser(paramParser); Poco::XML::NodeList* childFunctions = functionElement->getElementsByTagName("Function"); ImplicitFunctionParser* childParser = NULL; for(unsigned long i = 0; i < childFunctions->length(); i++) { Poco::XML::Node* childFunctionNode = childFunctions->item(i); //Recursive call to handle nested parameters. Poco::XML::Element* childFunctionElement =( Poco::XML::Element*)childFunctionNode; ImplicitFunctionParser* tempParser = createImplicitFunctionParserFromXML(childFunctionElement); if(i==0) { childParser = tempParser; //Add the first child function parser to the parent (composite) directly. functionParser->setSuccessorParser(childParser); } else { //Add all other function parsers are added as successors to those before them in the loop. childParser->setSuccessorParser(tempParser); childParser = tempParser; } } return functionParser; }
int ofXml::getNumChildren(const string& path) const { if(!element) return 0; int numberOfChildren = 0; Poco::XML::NodeList *list = element->childNodes(); for(unsigned long i=0; i < list->length(); i++) { if(list->item(i) && list->item(i)->nodeType() == Poco::XML::Node::ELEMENT_NODE) { string nodeName = list->item(i)->localName(); if(path.compare(nodeName) == 0) { numberOfChildren++; } } } return numberOfChildren; }
bool ofXml::removeContents(const string& path) { Poco::XML::Element *e; if(element) { e = (Poco::XML::Element*) element->getNodeByPath(path); } else { ofLogWarning("ofXml") << "clearContents(): no element set yet"; return false; } if(e) { Poco::XML::NodeList *list = e->childNodes(); for(unsigned long i = 0; i < list->length(); i++) { element->removeChild(list->item(i)); } list->release(); return true; } return false; }
/** * Reads detctor ids for groups from an XML grouping file, such as one created by the SpatialGrouping algorithm. * @param filename :: path and name of input file * @throw FileError is there is a problem with the XML file */ void ReadGroupsFromFile::readXMLGroupingFile(const std::string& filename) { Poco::XML::DOMParser xmlParser; Poco::XML::Document* file; try { file = xmlParser.parse(filename); } catch ( ... ) { throw Kernel::Exception::FileError("Unable to parse file: ", filename); } Poco::XML::Element* root = file->documentElement(); if ( ! root->hasChildNodes() ) { throw Kernel::Exception::FileError("No root element in XML grouping file: ", filename); } Poco::XML::NodeList* groups = root->getElementsByTagName("group"); if ( groups->length() == 0 ) { throw Kernel::Exception::FileError("XML group file contains no group elements:", filename); } unsigned int nGroups = static_cast<unsigned int>(groups->length()); for ( unsigned int i = 0; i < nGroups; i++ ) { // Get the "detids" element from the grouping file Poco::XML::Element* elem = static_cast<Poco::XML::Element*>(groups->item(i)); Poco::XML::Element* group = elem->getChildElement("detids"); if ( ! group ) { throw Mantid::Kernel::Exception::FileError("XML Group File, group contains no <detids> element:", filename); } std::string ids = group->getAttribute("val"); Poco::StringTokenizer data(ids, ",", Poco::StringTokenizer::TOK_TRIM); if ( data.begin() != data.end() ) { for ( Poco::StringTokenizer::Iterator it = data.begin(); it != data.end(); ++it ) { // cast the string to an int int detID; try { detID = boost::lexical_cast<int>(*it); } catch ( boost::bad_lexical_cast & ) { throw Mantid::Kernel::Exception::FileError("Could cast string to integer in input XML file", filename); } if ( calibration.find(detID) == calibration.end() ) { // add detector to a group calibration[detID] = std::pair<int,int>(i+1, 1); } } } } progress(0.7); }
void DebugBreakpointManager::RestoreState(const Poco::Path& path) { try { Poco::XML::DOMParser parser; Poco::FileInputStream reader(path.toString()); Poco::XML::InputSource source(reader); //source.setSystemId(baseDir); Poco::XML::Document* doc = parser.parse(&source); Poco::XML::Element* breakpoints = doc->documentElement(); if (breakpoints) { // restore object breakpoints Poco::XML::NodeList* elementList = breakpoints->getElementsByTagName( OBJECT_TAG); for (std::size_t i = 0; i < elementList->length(); i++) { Poco::XML::Element* elem = dynamic_cast<Poco::XML::Element*> (elementList->item(i)); if (!elem->hasAttribute(ID_ATTR)) continue; const std::string& attr = elem->getAttribute(ID_ATTR); int traceId = 0; try { traceId = Poco::NumberParser::parse(attr); } catch (const Poco::SyntaxException& e) { BERRY_WARN << e.displayText(); } DebugUtil::GetBreakpointManager()->AddObjectBreakpoint(traceId); } elementList->release(); // restore smartpointer breakpoints elementList = breakpoints->getElementsByTagName(SMARTPOINTER_TAG); for (std::size_t i = 0; i < elementList->length(); i++) { Poco::XML::Element* elem = dynamic_cast<Poco::XML::Element*> (elementList->item(i)); if (!elem->hasAttribute(ID_ATTR)) continue; const std::string& attr = elem->getAttribute(ID_ATTR); int spId = 0; try { spId = Poco::NumberParser::parse(attr); } catch (const Poco::SyntaxException& e) { BERRY_WARN << e.displayText(); } DebugUtil::GetBreakpointManager()->AddSmartpointerBreakpoint(spId); } elementList->release(); } doc->release(); } catch (Poco::XML::SAXParseException& e) { BERRY_WARN << e.displayText(); } catch (Poco::FileNotFoundException& /*e*/) { } catch (Poco::FileException& e) { BERRY_WARN << e.displayText(); } }
void DebugUtil::RestoreState() { Poco::Path path; if (!GetPersistencePath(path)) return; path.setFileName(DEBUG_UTIL_XML); try { Poco::XML::DOMParser parser; Poco::FileInputStream reader(path.toString()); Poco::XML::InputSource source(reader); //source.setSystemId(baseDir); Poco::XML::Document* doc = parser.parse(&source); Poco::XML::Element* debugutil = doc->documentElement(); if (debugutil) { // restore traced objects Poco::XML::NodeList* elementList = debugutil->getElementsByTagName(TRACEOBJECT_TAG); for (std::size_t i = 0; i < elementList->length(); i++) { Poco::XML::Element* elem = dynamic_cast<Poco::XML::Element*> (elementList->item(static_cast<unsigned long>(i))); if (!elem->hasAttribute(ID_ATTR)) continue; const std::string& attr = elem->getAttribute(ID_ATTR); int traceId = 0; try { traceId = Poco::NumberParser::parse(attr); } catch (const Poco::SyntaxException& e) { BERRY_WARN << e.displayText(); } DebugUtil::TraceObject(traceId); } elementList->release(); // restore traced classes elementList = debugutil->getElementsByTagName(TRACECLASS_TAG); for (std::size_t i = 0; i < elementList->length(); i++) { Poco::XML::Element* elem = dynamic_cast<Poco::XML::Element*> (elementList->item(static_cast<unsigned long>(i))); if (!elem->hasAttribute(NAME_ATTR)) continue; const std::string& traceClass = elem->getAttribute(NAME_ATTR); if (!traceClass.empty()) DebugUtil::TraceClass(traceClass); } elementList->release(); } doc->release(); } catch (Poco::XML::SAXParseException& e) { BERRY_WARN << e.displayText(); } catch (Poco::FileNotFoundException&) { } catch (Poco::FileException& e) { BERRY_WARN << e.displayText(); } // restore BreakpointManager path.setFileName(DebugBreakpointManager::BREAKPOINTS_XML); GetBreakpointManager()->RestoreState(path); }