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llvm / libcxx / b6e011b18b06025f990d22b4e7ae620f978d82c4 / . / test / std / containers / unord / unord.set / unord.set.cnstr / move_alloc.pass.cpp
blob: 0201adcaa94eca5dd88699ab9b93dd3889b8ba3e [file] [log] [blame]
//===----------------------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
// UNSUPPORTED: c++98, c++03
// <unordered_set>
// template <class Value, class Hash = hash<Value>, class Pred = equal_to<Value>,
// class Alloc = allocator<Value>>
// class unordered_set
// unordered_set(unordered_set&& u, const allocator_type& a);
#include <unordered_set>
#include <cassert>
#include <cfloat>
#include <cmath>
#include <cstddef>
#include "test_macros.h"
#include "../../../test_compare.h"
#include "../../../test_hash.h"
#include "test_allocator.h"
#include "min_allocator.h"
int main(int, char**)
{
{
typedef int P;
typedef test_allocator<int> A;
typedef std::unordered_set<int,
test_hash<std::hash<int> >,
test_compare<std::equal_to<int> >,
A
> C;
P a[] =
{
P(1),
P(2),
P(3),
P(4),
P(1),
P(2)
};
C c0(a, a + sizeof(a)/sizeof(a[0]),
7,
test_hash<std::hash<int> >(8),
test_compare<std::equal_to<int> >(9),
A(10)
);
C c(std::move(c0), A(12));
assert(c.bucket_count() >= 5);
assert(c.size() == 4);
assert(c.count(1) == 1);
assert(c.count(2) == 1);
assert(c.count(3) == 1);
assert(c.count(4) == 1);
assert(c.hash_function() == test_hash<std::hash<int> >(8));
assert(c.key_eq() == test_compare<std::equal_to<int> >(9));
assert(c.get_allocator() == A(12));
assert(!c.empty());
assert(static_cast<std::size_t>(std::distance(c.begin(), c.end())) == c.size());
assert(static_cast<std::size_t>(std::distance(c.cbegin(), c.cend())) == c.size());
assert(std::fabs(c.load_factor() - (float)c.size()/c.bucket_count()) < FLT_EPSILON);
assert(c.max_load_factor() == 1);
assert(c0.empty());
}
{
typedef int P;
typedef test_allocator<int> A;
typedef std::unordered_set<int,
test_hash<std::hash<int> >,
test_compare<std::equal_to<int> >,
A
> C;
P a[] =
{
P(1),
P(2),
P(3),
P(4),
P(1),
P(2)
};
C c0(a, a + sizeof(a)/sizeof(a[0]),
7,
test_hash<std::hash<int> >(8),
test_compare<std::equal_to<int> >(9),
A(10)
);
C c(std::move(c0), A(10));
assert(c.bucket_count() >= 5);
assert(c.size() == 4);
assert(c.count(1) == 1);
assert(c.count(2) == 1);
assert(c.count(3) == 1);
assert(c.count(4) == 1);
assert(c.hash_function() == test_hash<std::hash<int> >(8));
assert(c.key_eq() == test_compare<std::equal_to<int> >(9));
assert(c.get_allocator() == A(10));
assert(!c.empty());
assert(static_cast<std::size_t>(std::distance(c.begin(), c.end())) == c.size());
assert(static_cast<std::size_t>(std::distance(c.cbegin(), c.cend())) == c.size());
assert(std::fabs(c.load_factor() - (float)c.size()/c.bucket_count()) < FLT_EPSILON);
assert(c.max_load_factor() == 1);
assert(c0.empty());
}
{
typedef int P;
typedef min_allocator<int> A;
typedef std::unordered_set<int,
test_hash<std::hash<int> >,
test_compare<std::equal_to<int> >,
A
> C;
P a[] =
{
P(1),
P(2),
P(3),
P(4),
P(1),
P(2)
};
C c0(a, a + sizeof(a)/sizeof(a[0]),
7,
test_hash<std::hash<int> >(8),
test_compare<std::equal_to<int> >(9),
A()
);
C c(std::move(c0), A());
assert(c.bucket_count() >= 5);
assert(c.size() == 4);
assert(c.count(1) == 1);
assert(c.count(2) == 1);
assert(c.count(3) == 1);
assert(c.count(4) == 1);
assert(c.hash_function() == test_hash<std::hash<int> >(8));
assert(c.key_eq() == test_compare<std::equal_to<int> >(9));
assert(c.get_allocator() == A());
assert(!c.empty());
assert(static_cast<std::size_t>(std::distance(c.begin(), c.end())) == c.size());
assert(static_cast<std::size_t>(std::distance(c.cbegin(), c.cend())) == c.size());
assert(std::fabs(c.load_factor() - (float)c.size()/c.bucket_count()) < FLT_EPSILON);
assert(c.max_load_factor() == 1);
assert(c0.empty());
}
return 0;
}