gctf2023/pwn/flipper/dist/common/include/ustl/umultimap.h

// This file is part of the uSTL library, an STL implementation.
//
// Copyright (c) 2005 by Mike Sharov <msharov@users.sourceforge.net>
// This file is free software, distributed under the MIT License.

#pragma once
#include "umap.h"

namespace ustl {

/// \class multimap umultimap.h ustl.h
/// \ingroup AssociativeContainers
///
/// \brief A sorted associative container that may container multiple entries for each key.
///
template <typename K, typename V, typename Comp = less<K> >
class multimap : public vector<pair<K,V> > {
public:
    typedef K						key_type;
    typedef V						data_type;
    typedef const K&					const_key_ref;
    typedef const V&					const_data_ref;
    typedef const multimap<K,V,Comp>&			rcself_t;
    typedef vector<pair<K,V> >				base_class;
    typedef typename base_class::value_type		value_type;
    typedef typename base_class::size_type		size_type;
    typedef typename base_class::pointer		pointer;
    typedef typename base_class::const_pointer		const_pointer;
    typedef typename base_class::reference		reference;
    typedef typename base_class::const_reference	const_reference;
    typedef typename base_class::const_iterator		const_iterator;
    typedef typename base_class::iterator		iterator;
    typedef typename base_class::reverse_iterator	reverse_iterator;
    typedef typename base_class::const_reverse_iterator	const_reverse_iterator;
    typedef pair<const_iterator,const_iterator>		const_range_t;
    typedef pair<iterator,iterator>			range_t;
    typedef Comp					key_compare;
    typedef pair_compare_first<value_type,Comp>		value_compare;
    typedef pair_compare_first_key<K,V,Comp>		value_key_compare;
public:
    inline			multimap (void)		: base_class() {}
    explicit inline		multimap (size_type n)	: base_class (n) {}
    inline			multimap (rcself_t v)	: base_class (v) {}
    inline			multimap (const_iterator i1, const_iterator i2)	: base_class() { insert (i1, i2); }
    inline rcself_t		operator= (rcself_t v)	{ base_class::operator= (v); return *this; }
    inline key_compare		key_comp (void) const	{ return key_compare(); }
    inline value_compare	value_comp (void) const	{ return value_compare(); }
    inline size_type		size (void) const	{ return base_class::size(); }
    inline iterator		begin (void)		{ return base_class::begin(); }
    inline const_iterator	begin (void) const	{ return base_class::begin(); }
    inline iterator		end (void)		{ return base_class::end(); }
    inline const_iterator	end (void) const	{ return base_class::end(); }
    inline const_iterator	find (const_key_ref k) const;
    inline iterator		find (const_key_ref k)			{ return const_cast<iterator> (const_cast<rcself_t>(*this).find (k)); }
    const_iterator		lower_bound (const_key_ref k) const	{ return ::ustl::lower_bound (begin(), end(), k, value_key_compare()); }
    inline iterator		lower_bound (const_key_ref k)		{ return const_cast<iterator>(const_cast<rcself_t>(*this).lower_bound (k)); }
    const_iterator		upper_bound (const_key_ref k) const	{ return ::ustl::upper_bound (begin(), end(), k, value_key_compare()); }
    inline iterator		upper_bound (const_key_ref k)		{ return const_cast<iterator>(const_cast<rcself_t>(*this).upper_bound (k)); }
    const_range_t		equal_range (const_key_ref k) const	{ return ::ustl::equal_range (begin(), end(), k, value_key_compare()); }
    inline range_t		equal_range (const_key_ref k)		{ return ::ustl::equal_range (begin(), end(), k, value_key_compare()); }
    inline size_type		count (const_key_ref v) const		{ const_range_t r = equal_range(v); return distance(r.first,r.second); }
    inline void			assign (const_iterator i1, const_iterator i2) { clear(); insert (i1, i2); }
    inline void			push_back (const_reference v)		{ insert (v); }
    inline iterator		insert (const_reference v)		{ return base_class::insert (upper_bound (v.first), v); }
    void			insert (const_iterator i1, const_iterator i2)	{ for (; i1 != i2; ++i1) insert (*i1); }
    inline void			clear (void)				{ base_class::clear(); }
    inline void			erase (const_key_ref k)			{ erase (const_cast<iterator>(lower_bound(k)), const_cast<iterator>(upper_bound(k))); }
    inline iterator		erase (const_iterator ep)			{ return base_class::erase (ep); }
    inline iterator		erase (const_iterator ep1, const_iterator ep2)	{ return base_class::erase (ep1, ep2); }
    inline void			swap (multimap& v)			{ base_class::swap (v); }
#if HAVE_CPP11
    using initlist_t = std::initializer_list<value_type>;
    inline			multimap (multimap&& v)			: base_class (move(v)) {}
    inline			multimap (initlist_t v)			: base_class() { insert (v.begin(), v.end()); }
    inline multimap&		operator= (multimap&& v)		{ base_class::operator= (move(v)); return *this; }
    iterator			insert (value_type&& v)			{ return base_class::insert (upper_bound (v.first), move(v)); }
    inline iterator		insert (const_iterator, value_type&& v)	{ return insert(move(v)); }
    inline void			insert (initlist_t v)			{ insert (v.begin(), v.end()); }
    template <typename... Args>
    inline iterator		emplace (Args&&... args)		{ return insert (value_type(forward<Args>(args)...)); }
    template <typename... Args>
    inline iterator		emplace_hint (const_iterator h, Args&&... args)	{ return insert (h, value_type(forward<Args>(args)...)); }
    template <typename... Args>
    inline iterator		emplace_back (Args&&... args)		{ return insert (value_type(forward<Args>(args)...)); }
#endif
};

/// Returns the pair<K,V> where K = \p k.
template <typename K, typename V, typename Comp>
inline typename multimap<K,V,Comp>::const_iterator multimap<K,V,Comp>::find (const_key_ref k) const
{
    const_iterator i = lower_bound (k);
    return (i < end() && Comp()(k, i->first)) ? end() : i;
}

} // namespace ustl
Add pwn challenges 2023-11-24 18:11:34 +00:00			`// This file is part of the uSTL library, an STL implementation.`
			`//`
			`// Copyright (c) 2005 by Mike Sharov <msharov@users.sourceforge.net>`
			`// This file is free software, distributed under the MIT License.`

			`#pragma once`
			`#include "umap.h"`

			`namespace ustl {`

			`/// \class multimap umultimap.h ustl.h`
			`/// \ingroup AssociativeContainers`
			`///`
			`/// \brief A sorted associative container that may container multiple entries for each key.`
			`///`
			`template <typename K, typename V, typename Comp = less<K> >`
			`class multimap : public vector<pair<K,V> > {`
			`public:`
			`typedef K key_type;`
			`typedef V data_type;`
			`typedef const K& const_key_ref;`
			`typedef const V& const_data_ref;`
			`typedef const multimap<K,V,Comp>& rcself_t;`
			`typedef vector<pair<K,V> > base_class;`
			`typedef typename base_class::value_type value_type;`
			`typedef typename base_class::size_type size_type;`
			`typedef typename base_class::pointer pointer;`
			`typedef typename base_class::const_pointer const_pointer;`
			`typedef typename base_class::reference reference;`
			`typedef typename base_class::const_reference const_reference;`
			`typedef typename base_class::const_iterator const_iterator;`
			`typedef typename base_class::iterator iterator;`
			`typedef typename base_class::reverse_iterator reverse_iterator;`
			`typedef typename base_class::const_reverse_iterator const_reverse_iterator;`
			`typedef pair<const_iterator,const_iterator> const_range_t;`
			`typedef pair<iterator,iterator> range_t;`
			`typedef Comp key_compare;`
			`typedef pair_compare_first<value_type,Comp> value_compare;`
			`typedef pair_compare_first_key<K,V,Comp> value_key_compare;`
			`public:`
			`inline multimap (void) : base_class() {}`
			`explicit inline multimap (size_type n) : base_class (n) {}`
			`inline multimap (rcself_t v) : base_class (v) {}`
			`inline multimap (const_iterator i1, const_iterator i2) : base_class() { insert (i1, i2); }`
			`inline rcself_t operator= (rcself_t v) { base_class::operator= (v); return *this; }`
			`inline key_compare key_comp (void) const { return key_compare(); }`
			`inline value_compare value_comp (void) const { return value_compare(); }`
			`inline size_type size (void) const { return base_class::size(); }`
			`inline iterator begin (void) { return base_class::begin(); }`
			`inline const_iterator begin (void) const { return base_class::begin(); }`
			`inline iterator end (void) { return base_class::end(); }`
			`inline const_iterator end (void) const { return base_class::end(); }`
			`inline const_iterator find (const_key_ref k) const;`
			`inline iterator find (const_key_ref k) { return const_cast<iterator> (const_cast<rcself_t>(*this).find (k)); }`
			`const_iterator lower_bound (const_key_ref k) const { return ::ustl::lower_bound (begin(), end(), k, value_key_compare()); }`
			`inline iterator lower_bound (const_key_ref k) { return const_cast<iterator>(const_cast<rcself_t>(*this).lower_bound (k)); }`
			`const_iterator upper_bound (const_key_ref k) const { return ::ustl::upper_bound (begin(), end(), k, value_key_compare()); }`
			`inline iterator upper_bound (const_key_ref k) { return const_cast<iterator>(const_cast<rcself_t>(*this).upper_bound (k)); }`
			`const_range_t equal_range (const_key_ref k) const { return ::ustl::equal_range (begin(), end(), k, value_key_compare()); }`
			`inline range_t equal_range (const_key_ref k) { return ::ustl::equal_range (begin(), end(), k, value_key_compare()); }`
			`inline size_type count (const_key_ref v) const { const_range_t r = equal_range(v); return distance(r.first,r.second); }`
			`inline void assign (const_iterator i1, const_iterator i2) { clear(); insert (i1, i2); }`
			`inline void push_back (const_reference v) { insert (v); }`
			`inline iterator insert (const_reference v) { return base_class::insert (upper_bound (v.first), v); }`
			`void insert (const_iterator i1, const_iterator i2) { for (; i1 != i2; ++i1) insert (*i1); }`
			`inline void clear (void) { base_class::clear(); }`
			`inline void erase (const_key_ref k) { erase (const_cast<iterator>(lower_bound(k)), const_cast<iterator>(upper_bound(k))); }`
			`inline iterator erase (const_iterator ep) { return base_class::erase (ep); }`
			`inline iterator erase (const_iterator ep1, const_iterator ep2) { return base_class::erase (ep1, ep2); }`
			`inline void swap (multimap& v) { base_class::swap (v); }`
			`#if HAVE_CPP11`
			`using initlist_t = std::initializer_list<value_type>;`
			`inline multimap (multimap&& v) : base_class (move(v)) {}`
			`inline multimap (initlist_t v) : base_class() { insert (v.begin(), v.end()); }`
			`inline multimap& operator= (multimap&& v) { base_class::operator= (move(v)); return *this; }`
			`iterator insert (value_type&& v) { return base_class::insert (upper_bound (v.first), move(v)); }`
			`inline iterator insert (const_iterator, value_type&& v) { return insert(move(v)); }`
			`inline void insert (initlist_t v) { insert (v.begin(), v.end()); }`
			`template <typename... Args>`
			`inline iterator emplace (Args&&... args) { return insert (value_type(forward<Args>(args)...)); }`
			`template <typename... Args>`
			`inline iterator emplace_hint (const_iterator h, Args&&... args) { return insert (h, value_type(forward<Args>(args)...)); }`
			`template <typename... Args>`
			`inline iterator emplace_back (Args&&... args) { return insert (value_type(forward<Args>(args)...)); }`
			`#endif`
			`};`

			`/// Returns the pair<K,V> where K = \p k.`
			`template <typename K, typename V, typename Comp>`
			`inline typename multimap<K,V,Comp>::const_iterator multimap<K,V,Comp>::find (const_key_ref k) const`
			`{`
			`const_iterator i = lower_bound (k);`
			`return (i < end() && Comp()(k, i->first)) ? end() : i;`
			`}`

			`} // namespace ustl`