/* Copyright (c) 2013 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #pragma once #include #include "util/lua.h" #include "util/pair.h" #include "util/splay_tree.h" namespace lean { /** \brief Wrapper for implementing maps using splay trees. */ template class splay_map : public CMP { public: typedef pair entry; private: struct entry_cmp : public CMP { entry_cmp(CMP const & c):CMP(c) {} int operator()(entry const & e1, entry const & e2) const { return CMP::operator()(e1.first, e2.first); } }; splay_tree m_map; public: splay_map(CMP const & cmp = CMP()):m_map(entry_cmp(cmp)) { // the return type of CMP()(k1, k2) should be int static_assert(std::is_same())(K const &, K const &)>::type, int>::value, "The return type of CMP()(k1, k2) is not int."); } friend void swap(splay_map & a, splay_map & b) { swap(a.m_map, b.m_map); } bool empty() const { return m_map.empty(); } void clear() { m_map.clear(); } bool is_eqp(splay_map const & m) const { return m_map.is_eqp(m); } unsigned size() const { return m_map.size(); } void insert(K const & k, T const & v) { m_map.insert(mk_pair(k, v)); } T const * find(K const & k) const { auto e = m_map.find(mk_pair(k, T())); return e ? &(e->second) : nullptr; } T * find(K const & k) { auto e = m_map.find(mk_pair(k, T())); return e ? &(const_cast(e->second)) : nullptr; } bool contains(K const & k) const { return m_map.contains(mk_pair(k, T())); } void erase(K const & k) { m_map.erase(mk_pair(k, T())); } class ref { splay_map & m_map; K const & m_key; public: ref(splay_map & m, K const & k):m_map(m), m_key(k) {} ref & operator=(T const & v) { m_map.insert(m_key, v); return *this; } operator T const &() const { T const * e = m_map.find(m_key); if (e) { return *e; } else { m_map.insert(m_key, T()); return *(m_map.find(m_key)); } } }; /** \brief Returns a reference to the value that is mapped to a key equivalent to key, performing an insertion if such key does not already exist. */ ref operator[](K const & k) { return ref(*this, k); } template void for_each(F f) const { static_assert(std::is_same::type, void>::value, "for_each: return type of f is not void"); auto f_prime = [&](entry const & e) { f(e.first, e.second); }; return m_map.for_each(f_prime); } /** \brief (For debugging) Display the content of this splay map. */ friend std::ostream & operator<<(std::ostream & out, splay_map const & m) { out << "{"; m.for_each([&out](K const & k, T const & v) { out << k << " |-> " << v << "; "; }); out << "}"; return out; } }; template splay_map insert(splay_map const & m, K const & k, T const & v) { auto r = m; r.insert(k, v); return r; } template splay_map erase(splay_map const & m, K const & k) { auto r = m; r.erase(k); return r; } template void for_each(splay_map const & m, F f) { static_assert(std::is_same::type, void>::value, "for_each: return type of f is not void"); return m.for_each(f); } void open_splay_map(lua_State * L); }