97 lines
5.6 KiB
C++
97 lines
5.6 KiB
C++
// This file is part of the uSTL library, an STL implementation.
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//
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// Copyright (c) 2005 by Mike Sharov <msharov@users.sourceforge.net>
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// This file is free software, distributed under the MIT License.
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#pragma once
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#include "umap.h"
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namespace ustl {
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/// \class multimap umultimap.h ustl.h
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/// \ingroup AssociativeContainers
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///
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/// \brief A sorted associative container that may container multiple entries for each key.
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///
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template <typename K, typename V, typename Comp = less<K> >
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class multimap : public vector<pair<K,V> > {
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public:
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typedef K key_type;
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typedef V data_type;
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typedef const K& const_key_ref;
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typedef const V& const_data_ref;
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typedef const multimap<K,V,Comp>& rcself_t;
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typedef vector<pair<K,V> > base_class;
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typedef typename base_class::value_type value_type;
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typedef typename base_class::size_type size_type;
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typedef typename base_class::pointer pointer;
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typedef typename base_class::const_pointer const_pointer;
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typedef typename base_class::reference reference;
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typedef typename base_class::const_reference const_reference;
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typedef typename base_class::const_iterator const_iterator;
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typedef typename base_class::iterator iterator;
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typedef typename base_class::reverse_iterator reverse_iterator;
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typedef typename base_class::const_reverse_iterator const_reverse_iterator;
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typedef pair<const_iterator,const_iterator> const_range_t;
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typedef pair<iterator,iterator> range_t;
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typedef Comp key_compare;
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typedef pair_compare_first<value_type,Comp> value_compare;
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typedef pair_compare_first_key<K,V,Comp> value_key_compare;
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public:
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inline multimap (void) : base_class() {}
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explicit inline multimap (size_type n) : base_class (n) {}
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inline multimap (rcself_t v) : base_class (v) {}
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inline multimap (const_iterator i1, const_iterator i2) : base_class() { insert (i1, i2); }
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inline rcself_t operator= (rcself_t v) { base_class::operator= (v); return *this; }
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inline key_compare key_comp (void) const { return key_compare(); }
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inline value_compare value_comp (void) const { return value_compare(); }
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inline size_type size (void) const { return base_class::size(); }
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inline iterator begin (void) { return base_class::begin(); }
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inline const_iterator begin (void) const { return base_class::begin(); }
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inline iterator end (void) { return base_class::end(); }
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inline const_iterator end (void) const { return base_class::end(); }
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inline const_iterator find (const_key_ref k) const;
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inline iterator find (const_key_ref k) { return const_cast<iterator> (const_cast<rcself_t>(*this).find (k)); }
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const_iterator lower_bound (const_key_ref k) const { return ::ustl::lower_bound (begin(), end(), k, value_key_compare()); }
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inline iterator lower_bound (const_key_ref k) { return const_cast<iterator>(const_cast<rcself_t>(*this).lower_bound (k)); }
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const_iterator upper_bound (const_key_ref k) const { return ::ustl::upper_bound (begin(), end(), k, value_key_compare()); }
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inline iterator upper_bound (const_key_ref k) { return const_cast<iterator>(const_cast<rcself_t>(*this).upper_bound (k)); }
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const_range_t equal_range (const_key_ref k) const { return ::ustl::equal_range (begin(), end(), k, value_key_compare()); }
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inline range_t equal_range (const_key_ref k) { return ::ustl::equal_range (begin(), end(), k, value_key_compare()); }
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inline size_type count (const_key_ref v) const { const_range_t r = equal_range(v); return distance(r.first,r.second); }
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inline void assign (const_iterator i1, const_iterator i2) { clear(); insert (i1, i2); }
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inline void push_back (const_reference v) { insert (v); }
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inline iterator insert (const_reference v) { return base_class::insert (upper_bound (v.first), v); }
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void insert (const_iterator i1, const_iterator i2) { for (; i1 != i2; ++i1) insert (*i1); }
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inline void clear (void) { base_class::clear(); }
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inline void erase (const_key_ref k) { erase (const_cast<iterator>(lower_bound(k)), const_cast<iterator>(upper_bound(k))); }
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inline iterator erase (const_iterator ep) { return base_class::erase (ep); }
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inline iterator erase (const_iterator ep1, const_iterator ep2) { return base_class::erase (ep1, ep2); }
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inline void swap (multimap& v) { base_class::swap (v); }
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#if HAVE_CPP11
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using initlist_t = std::initializer_list<value_type>;
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inline multimap (multimap&& v) : base_class (move(v)) {}
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inline multimap (initlist_t v) : base_class() { insert (v.begin(), v.end()); }
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inline multimap& operator= (multimap&& v) { base_class::operator= (move(v)); return *this; }
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iterator insert (value_type&& v) { return base_class::insert (upper_bound (v.first), move(v)); }
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inline iterator insert (const_iterator, value_type&& v) { return insert(move(v)); }
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inline void insert (initlist_t v) { insert (v.begin(), v.end()); }
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template <typename... Args>
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inline iterator emplace (Args&&... args) { return insert (value_type(forward<Args>(args)...)); }
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template <typename... Args>
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inline iterator emplace_hint (const_iterator h, Args&&... args) { return insert (h, value_type(forward<Args>(args)...)); }
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template <typename... Args>
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inline iterator emplace_back (Args&&... args) { return insert (value_type(forward<Args>(args)...)); }
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#endif
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};
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/// Returns the pair<K,V> where K = \p k.
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template <typename K, typename V, typename Comp>
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inline typename multimap<K,V,Comp>::const_iterator multimap<K,V,Comp>::find (const_key_ref k) const
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{
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const_iterator i = lower_bound (k);
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return (i < end() && Comp()(k, i->first)) ? end() : i;
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}
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} // namespace ustl
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