#include <boost/lexical_cast.hpp>
#include <boost/tokenizer.hpp>
#include <xercesc/util/XMLStringTokenizer.hpp>
+#include <xercesc/util/XMLUniDefs.hpp>
using namespace xmltooling;
using namespace xercesc;
}
m_langRangeIter = m_langRange.rbegin();
- return (m_langRangeIter != m_langRange.rend());
+ return (m_langRangeIter != const_cast<const langrange_t&>(m_langRange).rend());
}
bool GenericRequest::continueLangMatching() const
{
- return (++m_langRangeIter != m_langRange.rend());
+ return (++m_langRangeIter != const_cast<const langrange_t&>(m_langRange).rend());
}
bool GenericRequest::matchLang(const XMLCh* tag) const
{
- if (m_langRangeIter == m_langRange.rend())
+ if (m_langRangeIter == const_cast<const langrange_t&>(m_langRange).rend())
return false;
// To match against a given range, the range has to be built up and then
}
}
-const char* HTTPRequest::getCookie(const char* name) const
+const map<string,string>& HTTPRequest::getCookies() const
{
if (m_cookieMap.empty()) {
string cookies=getHeader("Cookie");
tokenizer< char_separator<char> > nvpairs(cookies, char_separator<char>(";"));
for_each(nvpairs.begin(), nvpairs.end(), boost::bind(handle_cookie_fn, boost::ref(m_cookieMap), boost::ref(nvpair), _1));
}
- map<string,string>::const_iterator lookup=m_cookieMap.find(name);
+ return m_cookieMap;
+}
+
+const char* HTTPRequest::getCookie(const char* name) const
+{
+ map<string,string>::const_iterator lookup = getCookies().find(name);
return (lookup==m_cookieMap.end()) ? nullptr : lookup->second.c_str();
}