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// file : examples/cxx/hybrid/evolution/passthrough/unknown-type-pimpl.hxx
// author : Boris Kolpackov <boris@codesynthesis.com>
// copyright : not copyrighted - public domain
#ifndef UNKNOWN_TYPE_PIMPL_HXX
#define UNKNOWN_TYPE_PIMPL_HXX
namespace transform
{
// Customized unknown_type parser implementation.
//
class unknown_type_pimpl: public unknown_type_base_pimpl
{
public:
virtual void
_pre ();
// Wildcard content callbacks. All the unknown content is routed
// to these functions. We use them to construct the raw XML
// representation of the unknown transformation.
//
virtual void
_start_any_element (const xml_schema::ro_string& ns,
const xml_schema::ro_string& name,
const char* type);
virtual void
_end_any_element (const xml_schema::ro_string& ns,
const xml_schema::ro_string& name);
virtual void
_any_attribute (const xml_schema::ro_string& ns,
const xml_schema::ro_string& name,
const xml_schema::ro_string& value);
virtual void
_any_characters (const xml_schema::ro_string&);
// Low-level content callbacks. These are normally implemented by
// the generated parsers. However, we need to intercept them and
// re-route the known elements and attributes to the base parser
// and the unknown content to the wildcard callbacks above.
//
virtual void
_start_element (const xml_schema::ro_string& ns,
const xml_schema::ro_string& name,
const char* type);
virtual void
_end_element (const xml_schema::ro_string& ns,
const xml_schema::ro_string& name);
virtual void
_attribute (const xml_schema::ro_string& ns,
const xml_schema::ro_string& name,
const xml_schema::ro_string& value);
virtual void
_characters (const xml_schema::ro_string&);
private:
xml::element* cur_;
};
}
#endif // UNKNOWN_TYPE_PIMPL_HXX
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