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#include "coding/uri.hpp"
#include "coding/url_encode.hpp"
#include "base/assert.hpp"
namespace url_scheme
{
void Uri::Init()
{
if (!Parse())
{
ASSERT(m_scheme.empty() && m_path.empty() && !IsValid(), ());
m_queryStart = m_url.size();
}
}
bool Uri::Parse()
{
// get url scheme
size_t pathStart = m_url.find(':');
if (pathStart == string::npos || pathStart == 0)
return false;
m_scheme.assign(m_url, 0, pathStart);
// skip slashes
while (++pathStart < m_url.size() && m_url[pathStart] == '/') {}
// Find query starting point for (key, value) parsing.
m_queryStart = m_url.find('?', pathStart);
size_t pathLength;
if (m_queryStart == string::npos)
{
m_queryStart = m_url.size();
pathLength = m_queryStart - pathStart;
}
else
{
pathLength = m_queryStart - pathStart;
++m_queryStart;
}
// Get path (url without query).
m_path.assign(m_url, pathStart, pathLength);
return true;
}
void Uri::ForEachKeyValue(CallbackT const & callback) const
{
// parse query for keys and values
size_t const count = m_url.size();
for (size_t start = m_queryStart; start < count; )
{
size_t end = m_url.find('&', start);
if (end == string::npos)
end = count;
// Skip empty keys.
if (end != start)
{
size_t const eq = m_url.find('=', start);
string key, value;
if (eq != string::npos && eq < end)
{
key = UrlDecode(m_url.substr(start, eq - start));
value = UrlDecode(m_url.substr(eq + 1, end - eq - 1));
}
else
key = UrlDecode(m_url.substr(start, end - start));
callback(key, value);
}
start = end + 1;
}
}
}
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