arabica/include/XML/QName.hpp
2010-01-02 22:20:13 +00:00

157 lines
4.5 KiB
C++

#ifndef ARABICA_XML_QNAME_HPP
#define ARABICA_XML_QNAME_HPP
#include <SAX/ArabicaConfig.hpp>
#include <Arabica/StringAdaptor.hpp>
#include <XML/strings.hpp>
#include <stdexcept>
template<class string_type, class string_adaptor> class QualifiedNameTest;
namespace Arabica
{
namespace XML
{
template<class string_type, class string_adaptor = Arabica::default_string_adaptor<string_type> >
class QualifiedName
{
typedef string_adaptor SA;
public:
/**
* <p>This function processes a raw XML 1.0 name in the current
* context by removing the prefix and looking it up among the
* prefixes currently declared.
*
* <p>If the raw name has a prefix that has not been declared,
* then the return value will be empty.</p>
*
* <p>Note that attribute names are processed differently than
* element names: an unprefixed element name will received the
* default Namespace (if any), while an unprefixed attribute name
* will not.</p>
*/
template<typename UriMapper>
static QualifiedName parseQName(const string_type& rawname,
bool is_attribute,
const UriMapper& mapper)
{
if(!Arabica::XML::is_qname<string_adaptor>(rawname))
throw std::runtime_error("Bad qname : '" + SA::asStdString(rawname) +"'");
static string_type COLON = SA::construct_from_utf8(":");
typename string_adaptor::size_type index = string_adaptor::find(rawname, COLON);
if(index == string_adaptor::npos())
return QualifiedName(rawname,
is_attribute ? SA::empty_string() : mapper(SA::empty_string()));
// prefix
string_type prefix = string_adaptor::substr(rawname, 0, index);
string_type localName = string_adaptor::substr(rawname, index + 1);
string_type uri = mapper(prefix);
return QualifiedName(prefix, localName, uri, rawname);
} // parseQName
QualifiedName(const QualifiedName& rhs) :
prefix_(rhs.prefix_),
localName_(rhs.localName_),
namespaceUri_(rhs.namespaceUri_),
rawName_(rhs.rawName_)
{
} // QualifiedName
QualifiedName& operator=(const QualifiedName& rhs)
{
QualifiedName qn(rhs);
std::swap(prefix_, qn.prefix_);
std::swap(localName_, qn.localName_);
std::swap(namespaceUri_, qn.namespaceUri_);
std::swap(rawName_, qn.rawName_);
return *this;
} // operator=
bool operator==(const QualifiedName& rhs) const
{
return (localName_ == rhs.localName_) &&
(namespaceUri_ == rhs.namespaceUri_);
} // operator==
bool operator!=(const QualifiedName& rhs) const
{
return !(operator==(rhs));
} // operator!=
string_type clarkName() const
{
if(SA::empty(namespaceUri_))
return localName_;
string_type cn;
SA::append(cn, SA::construct_from_utf8("{"));
SA::append(cn, namespaceUri_);
SA::append(cn, SA::construct_from_utf8("}"));
SA::append(cn, localName_);
return cn;
} // clarkName
bool has_prefix() const { return !SA::empty(prefix_); }
void set_prefix(const string_type& prefix) { prefix_ = prefix; }
bool has_namespaceUri() const { return !SA::empty(namespaceUri_); }
const string_type& prefix() const { return prefix_; }
const string_type& localName() const { return localName_; }
const string_type& namespaceUri() const { return namespaceUri_; }
bool has_rawName() const { return !SA::empty(rawName_); }
const string_type& rawName() const { return rawName_; }
private:
string_type prefix_;
string_type localName_;
string_type namespaceUri_;
string_type rawName_;
QualifiedName(const string_type& localName,
const string_type& namespaceUri) :
prefix_(),
localName_(localName),
namespaceUri_(namespaceUri),
rawName_(localName)
{
} // QualifiedName
QualifiedName(const string_type& prefix,
const string_type& localName,
const string_type& namespaceUri) :
prefix_(prefix),
localName_(localName),
namespaceUri_(namespaceUri),
rawName_()
{
} // QualifiedName
QualifiedName(const string_type& prefix,
const string_type& localName,
const string_type& namespaceUri,
const string_type& rawName) :
prefix_(prefix),
localName_(localName),
namespaceUri_(namespaceUri),
rawName_(rawName)
{
} // QualifiedName
QualifiedName();
friend class QualifiedNameTest<string_type, string_adaptor>;
}; // class QualifiedName
} // namespace XML
} // namespace Arabica
#endif