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#pragma once
#include "../coding/read_write_utils.hpp"
#include "../base/assert.hpp"
#include "../std/utility.hpp"
#include "../std/algorithm.hpp"
namespace gen
{
template <class T> class Accumulator
{
protected:
vector<T> m_data;
public:
typedef T ValueT;
void Add(T const & t) { m_data.push_back(t); }
template <class TSink> void Flush(TSink & sink) const
{
rw::WriteVectorOfPOD(sink, m_data);
}
template <class TSource> void Read(TSource & src)
{
rw::ReadVectorOfPOD(src, m_data);
}
};
class OsmID2FeatureID : public Accumulator<pair<uint64_t, uint32_t>>
{
typedef Accumulator<ValueT> BaseT;
struct LessID
{
bool operator() (ValueT const & r1, ValueT const & r2) const { return r1.first < r2.first; }
bool operator() (uint64_t const & r1, ValueT const & r2) const { return r1 < r2.first; }
bool operator() (ValueT const & r1, uint64_t const & r2) const { return r1.first < r2; }
};
public:
template <class TSink> void Flush(TSink & sink)
{
sort(m_data.begin(), m_data.end());
for (size_t i = 1; i < m_data.size(); ++i)
CHECK_NOT_EQUAL(m_data[i-1].first, m_data[i].first, ());
BaseT::Flush(sink);
}
uint32_t GetFeatureID(uint64_t osmID) const
{
vector<ValueT>::const_iterator i = lower_bound(m_data.begin(), m_data.end(), osmID, LessID());
if (i != m_data.end() && i->first == osmID)
return i->second;
else
return 0;
}
};
}
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