arabica/include/DOM/SAX2DOM/SAX2DOM.hpp

406 lines
13 KiB
C++

#ifndef JEZUK_SAX2DOM_PARSER_H
#define JEZUK_SAX2DOM_PARSER_H
#include <SAX/XMLReader.hpp>
#include <SAX/helpers/DefaultHandler.hpp>
#include <SAX/helpers/AttributeTypes.hpp>
#include <SAX/filter/TextCoalescer.hpp>
#include <DOM/Simple/DOMImplementation.hpp>
#include <DOM/Simple/NotationImpl.hpp>
#include <DOM/Simple/EntityImpl.hpp>
#include <DOM/Document.hpp>
#include <DOM/DOMException.hpp>
#include <DOM/SAX2DOM/DocumentTypeImpl.hpp>
#include <map>
#include <SAX/helpers/FeatureNames.hpp>
#include <SAX/helpers/PropertyNames.hpp>
#include <SAX/SAXParseException.hpp>
namespace Arabica
{
namespace SAX2DOM
{
template<class string_type, class T0, class T1>
struct ParserTypes
{
typedef typename Arabica::get_param<Arabica::string_adaptor_tag,
Arabica::default_string_adaptor<string_type>,
T0,
T1>::type string_adaptor;
typedef typename Arabica::get_param<Arabica::SAX::XMLReaderInterface_tag,
Arabica::SAX::XMLReader<string_type, string_adaptor>,
T1,
T0>::type SAX_parser_type;
};
template<class stringT,
class T0 = Arabica::nil_t,
class T1 = Arabica::nil_t>
class Parser : protected Arabica::SAX::DefaultHandler<stringT, typename ParserTypes<stringT, T0, T1>::string_adaptor>
{
typedef typename ParserTypes<stringT, T0, T1>::string_adaptor string_adaptorT;
typedef typename ParserTypes<stringT, T0, T1>::SAX_parser_type SAX_parser_type;
typedef Arabica::SAX::XMLReaderInterface<stringT, string_adaptorT> XMLReaderInterfaceT;
typedef Arabica::SAX::TextCoalescer<stringT, string_adaptorT> TextCoalescerT;
typedef Arabica::SAX::Attributes<stringT, string_adaptorT> AttributesT;
typedef Arabica::SAX::EntityResolver<stringT, string_adaptorT> EntityResolverT;
typedef Arabica::SAX::ErrorHandler<stringT, string_adaptorT> ErrorHandlerT;
typedef Arabica::SAX::LexicalHandler<stringT, string_adaptorT> LexicalHandlerT;
typedef Arabica::SAX::DeclHandler<stringT, string_adaptorT> DeclHandlerT;
typedef Arabica::SAX::InputSource<stringT, string_adaptorT> InputSourceT;
typedef Arabica::SimpleDOM::EntityImpl<stringT, string_adaptorT> EntityT;
typedef Arabica::SimpleDOM::NotationImpl<stringT, string_adaptorT> NotationT;
typedef Arabica::SimpleDOM::ElementImpl<stringT, string_adaptorT> ElementT;
typedef typename ErrorHandlerT::SAXParseExceptionT SAXParseExceptionT;
public:
Parser() :
documentType_(0),
entityResolver_(0),
errorHandler_(0)
{
Arabica::SAX::FeatureNames<stringT, string_adaptorT> fNames;
features_.insert(std::make_pair(fNames.namespaces, true));
features_.insert(std::make_pair(fNames.namespace_prefixes, true));
features_.insert(std::make_pair(fNames.validation, false));
} // Parser
void setEntityResolver(EntityResolverT& resolver) { entityResolver_ = &resolver; }
EntityResolverT* getEntityResolver() const { return entityResolver_; }
void setErrorHandler(ErrorHandlerT& handler) { errorHandler_ = &handler; }
ErrorHandlerT* getErrorHandler() const { return errorHandler_; }
void setFeature(const stringT& name, bool value)
{
typename Features::iterator f = features_.find(name);
if(f == features_.end())
features_.insert(std::make_pair(name, value));
else
f->second = value;
} // setFeature
bool getFeature(const stringT& name) const
{
typename Features::const_iterator f = features_.find(name);
if(f == features_.end())
throw Arabica::SAX::SAXNotRecognizedException(std::string("Feature not recognized ") + string_adaptorT::asStdString(name));
return f->second;
} // getFeature
bool parse(const stringT& systemId)
{
InputSourceT is(systemId);
return parse(is);
} // loadDOM
bool parse(InputSourceT& source)
{
Arabica::SAX::PropertyNames<stringT, string_adaptorT> pNames;
DOM::DOMImplementation<stringT, string_adaptorT> di = Arabica::SimpleDOM::DOMImplementation<stringT, string_adaptorT>::getDOMImplementation();
document_ = di.createDocument(string_adaptorT::construct_from_utf8(""), string_adaptorT::construct_from_utf8(""), 0);
currentNode_ = document_;
inCDATA_ = false;
inDTD_ = false;
inEntity_ = 0;
SAX_parser_type base_parser;
TextCoalescerT parser(base_parser);
parser.setContentHandler(*this);
parser.setErrorHandler(*this);
if(entityResolver_)
parser.setEntityResolver(*entityResolver_);
parser.setLexicalHandler(*this);
parser.setDeclHandler(*this);
setParserFeatures(parser);
try
{
parser.parse(source);
}
catch(const DOM::DOMException& de)
{
document_ = 0;
if(errorHandler_)
{
SAXParseExceptionT pe(de.what());
errorHandler_->fatalError(pe);
} // if ...
} // catch
return (document_ != 0);
} // loadDOM
DOM::Document<stringT, string_adaptorT> getDocument() const
{
return document_;
} // getDocument
void reset()
{
currentNode_ = 0;
document_ = 0;
} // reset
protected:
DOM::Node<stringT, string_adaptorT>& currentNode() { return currentNode_; }
private:
// no implementations
Parser(const Parser&);
bool operator==(const Parser&) const;
Parser& operator=(const Parser&);
// instance variables
DOM::Document<stringT, string_adaptorT> document_;
DocumentType<stringT, string_adaptorT >* documentType_;
DOM::Node<stringT, string_adaptorT> currentNode_;
DOM::Node<stringT, string_adaptorT> cachedCurrent_;
typedef std::map<stringT, bool> Features;
Features features_;
bool inCDATA_;
bool inDTD_;
int inEntity_;
std::map<stringT, EntityT*> declaredEntities_;
EntityResolverT* entityResolver_;
ErrorHandlerT* errorHandler_;
Arabica::SAX::AttributeTypes<stringT, string_adaptorT> attributeTypes_;
protected:
void setParserFeatures(XMLReaderInterfaceT& parser) const
{
for(typename Features::const_iterator f = features_.begin(), e = features_.end(); f != e; ++f)
try {
parser.setFeature(f->first, f->second);
}
catch(const Arabica::SAX::SAXException&) { }
} // setParserFeatures
///////////////////////////////////////////////////////////
// ContentHandler
virtual void endDocument()
{
currentNode_ = 0;
} // endDocument
virtual void startElement(const stringT& namespaceURI, const stringT& localName,
const stringT& qName, const AttributesT& atts)
{
if(currentNode_ == 0)
return;
try
{
DOM::Element<stringT, string_adaptorT> elem = document_.createElementNS(namespaceURI, qName);
currentNode_.appendChild(elem);
// attributes here
for(int i = 0; i < atts.getLength(); ++i)
{
stringT qName = atts.getQName(i);
if(string_adaptorT::empty(qName))
qName = atts.getLocalName(i);
elem.setAttributeNS(atts.getURI(i), qName, atts.getValue(i));
}
currentNode_ = elem;
}
catch(const DOM::DOMException& de)
{
reset();
if(errorHandler_)
{
SAXParseExceptionT pe(de.what());
errorHandler_->fatalError(pe);
} // if ...
} // catch
} // startElement
virtual void endElement(const stringT& namespaceURI, const stringT& localName,
const stringT& qName)
{
if(currentNode_ == 0)
return;
currentNode_ = currentNode_.getParentNode();
} // endElement
virtual void characters(const stringT& ch)
{
if(currentNode_ == 0)
return;
if(!inCDATA_)
currentNode_.appendChild(document_.createTextNode(ch));
else
currentNode_.appendChild(document_.createCDATASection(ch));
} // characters
virtual void processingInstruction(const stringT& target, const stringT& data)
{
if(currentNode_ == 0)
return;
currentNode_.appendChild(document_.createProcessingInstruction(target, data));
} // processingInstruction
virtual void skippedEntity(const stringT& name)
{
if(currentNode_ == 0 || inDTD_ == true)
return;
currentNode_.appendChild(document_.createEntityReference(name));
} // skippedEntity
////////////////////////////////////////////////////
// ErrorHandler
virtual void warning(const SAXParseExceptionT& e)
{
if(errorHandler_)
errorHandler_->warning(e);
} // warning
virtual void error(const SAXParseExceptionT& e)
{
if(errorHandler_)
errorHandler_->error(e);
reset();
} // error
virtual void fatalError(const SAXParseExceptionT& e)
{
if(errorHandler_)
errorHandler_->fatalError(e);
reset();
} // fatalError
/////////////////////////////////////////////////////
// LexicalHandler
virtual void startDTD(const stringT& name, const stringT& publicId, const stringT& systemId)
{
documentType_ = new DocumentType<stringT, string_adaptorT >(name, publicId, systemId);
document_.insertBefore(documentType_, 0);
inDTD_ = true;
} // startDTD
virtual void endDTD()
{
documentType_->setReadOnly(true);
inDTD_ = false;
} // endDTD
virtual void startEntity(const stringT& name)
{
if(currentNode_ == 0)
return;
if(++inEntity_ == 1)
{
cachedCurrent_ = currentNode_;
currentNode_ = declaredEntities_[name];
if(currentNode_ != 0 && currentNode_.hasChildNodes() == true) // already populated
currentNode_ = 0;
}
} // startEntity
virtual void endEntity(const stringT& name)
{
if(--inEntity_ == 0)
currentNode_ = cachedCurrent_;
currentNode_.appendChild(document_.createEntityReference(name));
} // endEntity
virtual void startCDATA()
{
inCDATA_ = true;
} // startCDATA
virtual void endCDATA()
{
inCDATA_ = false;
} // endCDATA
virtual void comment(const stringT& text)
{
if(currentNode_ == 0)
return;
currentNode_.appendChild(document_.createComment(text));
} // comment
//////////////////////////////////////////////////////////////////////
// DeclHandler
virtual void elementDecl(const stringT& name, const stringT& model)
{
if(!documentType_)
return;
documentType_->addElement(name);
} // elementDecl
virtual void attributeDecl(const stringT& elementName,
const stringT& attributeName,
const stringT& type,
const stringT& valueDefault,
const stringT& value)
{
if(!documentType_)
return;
if(!string_adaptorT::empty(value))
documentType_->addDefaultAttr(elementName, attributeName, value);
if(type == attributeTypes_.id)
documentType_->addElementId(attributeName);
} // attributeDecl
virtual void internalEntityDecl(const stringT& name, const stringT& value)
{
if(!documentType_)
return;
EntityT* entity = new EntityT(0, name, string_adaptorT::construct_from_utf8(""), string_adaptorT::construct_from_utf8(""), string_adaptorT::construct_from_utf8(""));
declaredEntities_.insert(std::make_pair(name, entity));
documentType_->addEntity(entity);
DOM::Node<stringT, string_adaptorT> n = entity;
n.appendChild(document_.createTextNode(value));
} // internalEntityDecl
virtual void externalEntityDecl(const stringT& name, const stringT& publicId, const stringT& systemId)
{
if(!documentType_)
return;
EntityT* entity = new EntityT(0, name, publicId, systemId, string_adaptorT::construct_from_utf8(""));
declaredEntities_.insert(std::make_pair(name, entity)); // we'll populate it later
documentType_->addEntity(entity);
} // externalEntityDecl
/////////////////////////////////////////////////////////////////////////
// DTDHandler
virtual void notationDecl(const stringT& name, const stringT& publicId, const stringT& systemId)
{
if(!documentType_)
return;
documentType_->addNotation(new NotationT(0, name, publicId, systemId));
} // notationDecl
virtual void unparsedEntityDecl(const stringT& name, const stringT& publicId, const stringT& systemId, const stringT& notationName)
{
if(!documentType_)
return;
documentType_->addEntity(new EntityT(0, name, publicId, systemId, notationName));
} // unparsedEntityDecl
}; // class Parser
} // namespace SAX2DOM
} // namespace Arabica
#endif