boost_1_45_0/libs/tr1/test/unordered_concepts.hpp - nest-learning-thermostat/5.0/boost - Git at Google

 //  (C) Copyright John Maddock 2008.
 //  Use, modification and distribution are subject to the
 //  Boost Software License, Version 1.0. (See accompanying file
 //  LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)

 #include "boost/concept_check.hpp"
 #include "boost/concept_archetype.hpp"
 #include "verify_return.hpp"

 namespace boost{

 template <class Arg, class Return>
 class default_constructible_unary_function_archetype {
 public:
    const Return& operator()(const Arg&) const {
       return static_object<Return>::get();
    }
 };

 template <class Arg1, class Arg2, class Base = null_archetype<> >
 class default_constructible_binary_predicate_archetype {
    typedef boolean_archetype Return;
 public:
    const Return& operator()(const Arg1&, const Arg2&) const {
       return static_object<Return>::get();
    }
 };

 template <class Unordered>
 struct UnorderedContainer
 {
    void constraints()
    {
       function_requires<Container<Unordered> >();

       typedef typename Unordered::key_type key_type;
       typedef typename Unordered::hasher hasher;
       typedef typename Unordered::key_equal key_equal;
       typedef typename Unordered::local_iterator local_iterator;
       typedef typename Unordered::const_local_iterator const_local_iterator;
       typedef typename Unordered::value_type value_type;
       typedef typename Unordered::iterator iterator;
       typedef typename Unordered::const_iterator const_iterator;
       typedef typename Unordered::size_type size_type;

       function_requires<Assignable<key_type> >();
       function_requires<CopyConstructible<key_type> >();
       function_requires<UnaryFunction<hasher, std::size_t, key_type> >();
       function_requires<BinaryPredicate<key_equal, key_type, key_type> >();
       function_requires<ForwardIterator<local_iterator> >();
       function_requires<ForwardIterator<const_local_iterator> >();

       size_type n = 1;
       const hasher& hf = static_object<hasher>::get();
       const key_equal& eq = static_object<key_equal>::get();
       value_type const& t = static_object<value_type>::get();
       key_type const& k = static_object<key_type>::get();
       Unordered x1(n, hf, eq);
       Unordered x2(n, hf);
       Unordered x3(n);
       Unordered x4;

       typedef input_iterator_archetype<typename Unordered::value_type> input_iterator;
       input_iterator i = static_object<input_iterator>::get();
       input_iterator j = i;
       x1 = Unordered(i, j, n, hf, eq);
       x2 = Unordered(i, j, n, hf);
       x3 = Unordered(i, j, n);
       x4 = Unordered(i, j);
       x1 = x2;
       Unordered x5(x1);
       iterator q = x1.begin();
       const_iterator r = x1.begin();

       verify_return_type(x1.hash_function(), hf);
       verify_return_type(x1.key_eq(), eq);
       verify_return_type(x1.insert(q, t), q);
       x1.insert(i, j);
       verify_return_type(x1.erase(k), n);
       verify_return_type(x1.erase(q), q);
       verify_return_type(x1.erase(q, q), q);
       x1.clear();

       const Unordered& b = x1;
       verify_return_type(x1.find(k), q);
       verify_return_type(b.find(k), r);
       verify_return_type(b.count(k), n);
       verify_return_type(x1.equal_range(k), std::make_pair(q, q));
       verify_return_type(b.equal_range(k), std::make_pair(r, r));
       verify_return_type(b.bucket_count(), n);
       verify_return_type(b.max_bucket_count(), n);
       verify_return_type(b.bucket(k), n);
       verify_return_type(b.bucket_size(n), n);

       local_iterator li = x1.begin(n);
       const_local_iterator cli = b.begin(n);
       verify_return_type(x1.begin(n), li);
       verify_return_type(b.begin(n), cli);
       verify_return_type(x1.end(n), li);
       verify_return_type(b.end(n), cli);
       verify_return_type(b.load_factor(), 1.0f);
       verify_return_type(b.max_load_factor(), 1.0f);
       x1.max_load_factor(1.0f);
       x1.rehash(n);
    }
 };

 template <class Unordered>
 struct UniqueUnorderedContainer
 {
    void constraints()
    {
       typedef typename Unordered::key_type key_type;
       typedef typename Unordered::hasher hasher;
       typedef typename Unordered::key_equal key_equal;
       typedef typename Unordered::local_iterator local_iterator;
       typedef typename Unordered::const_local_iterator const_local_iterator;
       typedef typename Unordered::value_type value_type;

       Unordered x;
       value_type const& t = static_object<value_type>::get();
       function_requires<UnorderedContainer<Unordered> >();
       verify_return_type(x.insert(t), static_object<std::pair<typename Unordered::iterator, bool> >::get());
    }
 };

 template <class Unordered>
 struct MultiUnorderedContainer
 {
    void constraints()
    {
       typedef typename Unordered::key_type key_type;
       typedef typename Unordered::hasher hasher;
       typedef typename Unordered::key_equal key_equal;
       typedef typename Unordered::local_iterator local_iterator;
       typedef typename Unordered::const_local_iterator const_local_iterator;
       typedef typename Unordered::value_type value_type;

       Unordered x;
       value_type const& t = static_object<value_type>::get();
       function_requires<UnorderedContainer<Unordered> >();
       verify_return_type(x.insert(t), static_object<typename Unordered::iterator>::get());
    }
 };

 }
	// (C) Copyright John Maddock 2008.
	// Use, modification and distribution are subject to the
	// Boost Software License, Version 1.0. (See accompanying file
	// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)

	#include "boost/concept_check.hpp"
	#include "boost/concept_archetype.hpp"
	#include "verify_return.hpp"

	namespace boost{

	template <class Arg, class Return>
	class default_constructible_unary_function_archetype {
	public:
	const Return& operator()(const Arg&) const {
	return static_object<Return>::get();
	}
	};

	template <class Arg1, class Arg2, class Base = null_archetype<> >
	class default_constructible_binary_predicate_archetype {
	typedef boolean_archetype Return;
	public:
	const Return& operator()(const Arg1&, const Arg2&) const {
	return static_object<Return>::get();
	}
	};

	template <class Unordered>
	struct UnorderedContainer
	{
	void constraints()
	{
	function_requires<Container<Unordered> >();

	typedef typename Unordered::key_type key_type;
	typedef typename Unordered::hasher hasher;
	typedef typename Unordered::key_equal key_equal;
	typedef typename Unordered::local_iterator local_iterator;
	typedef typename Unordered::const_local_iterator const_local_iterator;
	typedef typename Unordered::value_type value_type;
	typedef typename Unordered::iterator iterator;
	typedef typename Unordered::const_iterator const_iterator;
	typedef typename Unordered::size_type size_type;

	function_requires<Assignable<key_type> >();
	function_requires<CopyConstructible<key_type> >();
	function_requires<UnaryFunction<hasher, std::size_t, key_type> >();
	function_requires<BinaryPredicate<key_equal, key_type, key_type> >();
	function_requires<ForwardIterator<local_iterator> >();
	function_requires<ForwardIterator<const_local_iterator> >();

	size_type n = 1;
	const hasher& hf = static_object<hasher>::get();
	const key_equal& eq = static_object<key_equal>::get();
	value_type const& t = static_object<value_type>::get();
	key_type const& k = static_object<key_type>::get();
	Unordered x1(n, hf, eq);
	Unordered x2(n, hf);
	Unordered x3(n);
	Unordered x4;

	typedef input_iterator_archetype<typename Unordered::value_type> input_iterator;
	input_iterator i = static_object<input_iterator>::get();
	input_iterator j = i;
	x1 = Unordered(i, j, n, hf, eq);
	x2 = Unordered(i, j, n, hf);
	x3 = Unordered(i, j, n);
	x4 = Unordered(i, j);
	x1 = x2;
	Unordered x5(x1);
	iterator q = x1.begin();
	const_iterator r = x1.begin();

	verify_return_type(x1.hash_function(), hf);
	verify_return_type(x1.key_eq(), eq);
	verify_return_type(x1.insert(q, t), q);
	x1.insert(i, j);
	verify_return_type(x1.erase(k), n);
	verify_return_type(x1.erase(q), q);
	verify_return_type(x1.erase(q, q), q);
	x1.clear();

	const Unordered& b = x1;
	verify_return_type(x1.find(k), q);
	verify_return_type(b.find(k), r);
	verify_return_type(b.count(k), n);
	verify_return_type(x1.equal_range(k), std::make_pair(q, q));
	verify_return_type(b.equal_range(k), std::make_pair(r, r));
	verify_return_type(b.bucket_count(), n);
	verify_return_type(b.max_bucket_count(), n);
	verify_return_type(b.bucket(k), n);
	verify_return_type(b.bucket_size(n), n);

	local_iterator li = x1.begin(n);
	const_local_iterator cli = b.begin(n);
	verify_return_type(x1.begin(n), li);
	verify_return_type(b.begin(n), cli);
	verify_return_type(x1.end(n), li);
	verify_return_type(b.end(n), cli);
	verify_return_type(b.load_factor(), 1.0f);
	verify_return_type(b.max_load_factor(), 1.0f);
	x1.max_load_factor(1.0f);
	x1.rehash(n);
	}
	};

	template <class Unordered>
	struct UniqueUnorderedContainer
	{
	void constraints()
	{
	typedef typename Unordered::key_type key_type;
	typedef typename Unordered::hasher hasher;
	typedef typename Unordered::key_equal key_equal;
	typedef typename Unordered::local_iterator local_iterator;
	typedef typename Unordered::const_local_iterator const_local_iterator;
	typedef typename Unordered::value_type value_type;

	Unordered x;
	value_type const& t = static_object<value_type>::get();
	function_requires<UnorderedContainer<Unordered> >();
	verify_return_type(x.insert(t), static_object<std::pair<typename Unordered::iterator, bool> >::get());
	}
	};

	template <class Unordered>
	struct MultiUnorderedContainer
	{
	void constraints()
	{
	typedef typename Unordered::key_type key_type;
	typedef typename Unordered::hasher hasher;
	typedef typename Unordered::key_equal key_equal;
	typedef typename Unordered::local_iterator local_iterator;
	typedef typename Unordered::const_local_iterator const_local_iterator;
	typedef typename Unordered::value_type value_type;

	Unordered x;
	value_type const& t = static_object<value_type>::get();
	function_requires<UnorderedContainer<Unordered> >();
	verify_return_type(x.insert(t), static_object<typename Unordered::iterator>::get());
	}
	};

	}