#include #include #include // for std::pair #include "MurmurHash2.h" #include "mphtable.h" #include "iterator_first.h" namespace __gnu_cxx { template <> struct hash { std::size_t operator()(std::string const& s) const { return MurmurHash2(s.c_str(), s.length(), 1 /* seed */); } }; template <> struct hash { std::size_t operator()(const long long int& s) const { return MurmurHash2(reinterpret_cast(&s), sizeof(long long int), 1 /* seed */); } }; } // namespace __gnu_cxx namespace cxxmph { // Save on repetitive typing. #define CMPH_TMPL_SPEC template #define CMPH_CLASS_SPEC cmph_hash_map #define CMPH_METHOD_DECL(r, m) CMPH_TMPL_SPEC typename CMPH_CLASS_SPEC::r CMPH_CLASS_SPEC::m template , class EqualKey = std::equal_to, class Alloc = std::allocator > class cmph_hash_map { public: typedef Key key_type; typedef Data data_type; typedef std::pair value_type; typedef HashFcn hasher; typedef EqualKey key_equal; typedef typename std::vector::pointer pointer; typedef typename std::vector::reference reference; typedef typename std::vector::const_reference const_reference; typedef typename std::vector::size_type size_type; typedef typename std::vector::difference_type difference_type; typedef typename std::vector::iterator iterator; typedef typename std::vector::const_iterator const_iterator; // For making macros simpler. typedef void void_type; typedef bool bool_type; typedef std::pair insert_return_type; cmph_hash_map(); ~cmph_hash_map(); iterator begin(); iterator end(); const_iterator begin() const; const_iterator end() const; size_type size() const; bool empty() const; void clear(); void erase(iterator pos); void erase(const key_type& k); std::pair insert(const value_type& x); iterator find(const key_type& k); const_iterator find(const key_type& k) const; data_type& operator[](const key_type &k); void pack() { rehash(); } private: template struct iterator_first : public iterator { iterator_first(iterator it) : iterator(it) { } const typename iterator::value_type::first_type& operator*() const { return this->iterator::operator*().first; } }; template iterator_first make_iterator_first(iterator it) { return iterator_first(it); } void rehash(); std::vector values_; SimpleMPHTable::hash_function> table_; typedef typename __gnu_cxx::hash_map slack_type; slack_type slack_; }; CMPH_TMPL_SPEC bool operator==(const CMPH_CLASS_SPEC& lhs, const CMPH_CLASS_SPEC& rhs) { return lhs.values_ == rhs.values_; } CMPH_TMPL_SPEC CMPH_CLASS_SPEC::cmph_hash_map() { rehash(); } CMPH_TMPL_SPEC CMPH_CLASS_SPEC::~cmph_hash_map() { } CMPH_METHOD_DECL(insert_return_type, insert)(const value_type& x) { iterator it = find(x.first); if (it != end()) return std::make_pair(it, false); values_.push_back(x); slack_.insert(std::make_pair(x.first, values_.size() - 1)); if ((slack_.size() > 10 && table_.size() == 0) || (table_.size() && slack_.size() > table_.size() * 2)) { rehash(); } it = find(x.first); return std::make_pair(it, true); } CMPH_METHOD_DECL(void_type, rehash)() { if (values_.empty()) return; slack_type().swap(slack_); table_.Reset(make_iterator_first(values_.begin()), make_iterator_first(values_.end())); std::vector new_values(values_.size()); for (unsigned int i = 0; i < values_.size(); ++i) { size_type id = table_.index(values_[i].first); new_values[id] = values_[i]; } values_.swap(new_values); } CMPH_METHOD_DECL(iterator, begin)() { return values_.begin(); } CMPH_METHOD_DECL(iterator, end)() { return values_.end(); } CMPH_METHOD_DECL(const_iterator, begin)() const { return values_.begin(); } CMPH_METHOD_DECL(const_iterator, end)() const { return values_.end(); } CMPH_METHOD_DECL(bool_type, empty)() const { return values_.empty(); } CMPH_METHOD_DECL(void_type, clear)() { values_.clear(); slack_.clear(); table_.clear(); } CMPH_METHOD_DECL(void_type, erase)(iterator pos) { values_.erase(pos); rehash(); } CMPH_METHOD_DECL(void_type, erase)(const key_type& k) { iterator it = find(k); if (it == end()) return; erase(it); } CMPH_METHOD_DECL(const_iterator, find)(const key_type& k) const { if (!slack_.empty()) { typename slack_type::const_iterator it = slack_.find(k); if (it != slack_.end()) return values_.begin() + it->second; } if (table_.size() == 0) return end(); size_type id = table_.index(k); if (key_equal()(values_[id].first, k)) { return values_.begin() + id; } return end(); } CMPH_METHOD_DECL(iterator, find)(const key_type& k) { if (!slack_.empty()) { typename slack_type::const_iterator it = slack_.find(k); if (it != slack_.end()) return values_.begin() + it->second; } if (table_.size() == 0) return end(); size_type id = table_.index(k); if (key_equal()(values_[id].first, k)) { return values_.begin() + id; } return end(); } CMPH_METHOD_DECL(data_type&, operator[])(const key_type& k) { return insert(std::make_pair(k, data_type())).first->second; } } // namespace cxxmph