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344 lines
11 KiB
C++
344 lines
11 KiB
C++
//===----------------------------------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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// <map>
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// class map
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// map& operator=(const map& m);
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#include <map>
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#include <cassert>
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#include <vector>
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#include <algorithm>
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#include <iterator>
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#include <iostream>
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#include "test_macros.h"
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#include "../../../test_compare.h"
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#include "test_allocator.h"
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#include "min_allocator.h"
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#if TEST_STD_VER >= 11
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std::vector<int> ca_allocs;
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std::vector<int> ca_deallocs;
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template <class T>
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class counting_allocatorT {
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public:
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typedef T value_type;
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int foo{0};
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counting_allocatorT(int f) noexcept : foo(f) {}
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using propagate_on_container_copy_assignment = std::true_type;
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template <class U> counting_allocatorT(const counting_allocatorT<U>& other) noexcept {foo = other.foo;}
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template <class U> bool operator==(const counting_allocatorT<U>& other) const noexcept { return foo == other.foo; }
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template <class U> bool operator!=(const counting_allocatorT<U>& other) const noexcept { return foo != other.foo; }
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T * allocate(const size_t n) const {
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ca_allocs.push_back(foo);
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void * const pv = ::malloc(n * sizeof(T));
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return static_cast<T *>(pv);
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}
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void deallocate(T * const p, size_t) const noexcept {
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ca_deallocs.push_back(foo);
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free(p);
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}
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};
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template <class T>
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class counting_allocatorF {
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public:
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typedef T value_type;
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int foo{0};
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counting_allocatorF(int f) noexcept : foo(f) {}
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using propagate_on_container_copy_assignment = std::false_type;
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template <class U> counting_allocatorF(const counting_allocatorF<U>& other) noexcept {foo = other.foo;}
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template <class U> bool operator==(const counting_allocatorF<U>& other) const noexcept { return foo == other.foo; }
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template <class U> bool operator!=(const counting_allocatorF<U>& other) const noexcept { return foo != other.foo; }
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T * allocate(const size_t n) const {
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ca_allocs.push_back(foo);
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void * const pv = ::malloc(n * sizeof(T));
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return static_cast<T *>(pv);
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}
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void deallocate(T * const p, size_t) const noexcept {
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ca_deallocs.push_back(foo);
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free(p);
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}
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};
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bool balanced_allocs() {
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std::vector<int> temp1, temp2;
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std::cout << "Allocations = " << ca_allocs.size() << ", deallocatons = " << ca_deallocs.size() << std::endl;
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if (ca_allocs.size() != ca_deallocs.size())
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return false;
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temp1 = ca_allocs;
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std::sort(temp1.begin(), temp1.end());
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temp2.clear();
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std::unique_copy(temp1.begin(), temp1.end(), std::back_inserter<std::vector<int>>(temp2));
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std::cout << "There were " << temp2.size() << " different allocators\n";
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for (std::vector<int>::const_iterator it = temp2.begin(); it != temp2.end(); ++it ) {
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std::cout << *it << ": " << std::count(ca_allocs.begin(), ca_allocs.end(), *it) << " vs " << std::count(ca_deallocs.begin(), ca_deallocs.end(), *it) << std::endl;
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if ( std::count(ca_allocs.begin(), ca_allocs.end(), *it) != std::count(ca_deallocs.begin(), ca_deallocs.end(), *it))
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return false;
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}
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temp1 = ca_allocs;
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std::sort(temp1.begin(), temp1.end());
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temp2.clear();
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std::unique_copy(temp1.begin(), temp1.end(), std::back_inserter<std::vector<int>>(temp2));
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std::cout << "There were " << temp2.size() << " different (de)allocators\n";
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for (std::vector<int>::const_iterator it = ca_deallocs.begin(); it != ca_deallocs.end(); ++it ) {
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std::cout << *it << ": " << std::count(ca_allocs.begin(), ca_allocs.end(), *it) << " vs " << std::count(ca_deallocs.begin(), ca_deallocs.end(), *it) << std::endl;
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if ( std::count(ca_allocs.begin(), ca_allocs.end(), *it) != std::count(ca_deallocs.begin(), ca_deallocs.end(), *it))
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return false;
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}
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return true;
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}
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#endif
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int main(int, char**)
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{
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{
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typedef std::pair<const int, double> V;
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V ar[] =
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{
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V(1, 1),
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V(1, 1.5),
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V(1, 2),
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V(2, 1),
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V(2, 1.5),
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V(2, 2),
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V(3, 1),
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V(3, 1.5),
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V(3, 2)
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};
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typedef test_compare<std::less<int> > C;
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typedef test_allocator<V> A;
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std::map<int, double, C, A> mo(ar, ar+sizeof(ar)/sizeof(ar[0]), C(5), A(2));
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std::map<int, double, C, A> m(ar, ar+sizeof(ar)/sizeof(ar[0])/2, C(3), A(7));
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m = mo;
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assert(m.get_allocator() == A(7));
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assert(m.key_comp() == C(5));
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assert(m.size() == 3);
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assert(distance(m.begin(), m.end()) == 3);
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assert(*m.begin() == V(1, 1));
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assert(*next(m.begin()) == V(2, 1));
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assert(*next(m.begin(), 2) == V(3, 1));
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assert(mo.get_allocator() == A(2));
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assert(mo.key_comp() == C(5));
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assert(mo.size() == 3);
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assert(distance(mo.begin(), mo.end()) == 3);
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assert(*mo.begin() == V(1, 1));
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assert(*next(mo.begin()) == V(2, 1));
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assert(*next(mo.begin(), 2) == V(3, 1));
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}
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{
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typedef std::pair<const int, double> V;
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const V ar[] =
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{
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V(1, 1),
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V(2, 1),
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V(3, 1),
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};
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std::map<int, double> m(ar, ar+sizeof(ar)/sizeof(ar[0]));
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std::map<int, double> *p = &m;
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m = *p;
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assert(m.size() == 3);
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assert(std::equal(m.begin(), m.end(), ar));
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}
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{
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typedef std::pair<const int, double> V;
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V ar[] =
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{
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V(1, 1),
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V(1, 1.5),
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V(1, 2),
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V(2, 1),
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V(2, 1.5),
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V(2, 2),
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V(3, 1),
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V(3, 1.5),
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V(3, 2)
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};
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typedef test_compare<std::less<int> > C;
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typedef other_allocator<V> A;
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std::map<int, double, C, A> mo(ar, ar+sizeof(ar)/sizeof(ar[0]), C(5), A(2));
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std::map<int, double, C, A> m(ar, ar+sizeof(ar)/sizeof(ar[0])/2, C(3), A(7));
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m = mo;
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assert(m.get_allocator() == A(2));
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assert(m.key_comp() == C(5));
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assert(m.size() == 3);
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assert(distance(m.begin(), m.end()) == 3);
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assert(*m.begin() == V(1, 1));
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assert(*next(m.begin()) == V(2, 1));
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assert(*next(m.begin(), 2) == V(3, 1));
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assert(mo.get_allocator() == A(2));
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assert(mo.key_comp() == C(5));
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assert(mo.size() == 3);
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assert(distance(mo.begin(), mo.end()) == 3);
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assert(*mo.begin() == V(1, 1));
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assert(*next(mo.begin()) == V(2, 1));
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assert(*next(mo.begin(), 2) == V(3, 1));
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}
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#if TEST_STD_VER >= 11
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{
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typedef std::pair<const int, double> V;
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V ar[] =
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{
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V(1, 1),
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V(1, 1.5),
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V(1, 2),
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V(2, 1),
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V(2, 1.5),
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V(2, 2),
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V(3, 1),
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V(3, 1.5),
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V(3, 2)
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};
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typedef test_compare<std::less<int> > C;
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typedef min_allocator<V> A;
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std::map<int, double, C, A> mo(ar, ar+sizeof(ar)/sizeof(ar[0]), C(5), A());
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std::map<int, double, C, A> m(ar, ar+sizeof(ar)/sizeof(ar[0])/2, C(3), A());
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m = mo;
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assert(m.get_allocator() == A());
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assert(m.key_comp() == C(5));
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assert(m.size() == 3);
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assert(distance(m.begin(), m.end()) == 3);
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assert(*m.begin() == V(1, 1));
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assert(*next(m.begin()) == V(2, 1));
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assert(*next(m.begin(), 2) == V(3, 1));
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assert(mo.get_allocator() == A());
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assert(mo.key_comp() == C(5));
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assert(mo.size() == 3);
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assert(distance(mo.begin(), mo.end()) == 3);
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assert(*mo.begin() == V(1, 1));
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assert(*next(mo.begin()) == V(2, 1));
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assert(*next(mo.begin(), 2) == V(3, 1));
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}
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{
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typedef std::pair<const int, double> V;
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V ar[] =
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{
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V(1, 1),
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V(1, 1.5),
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V(1, 2),
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V(2, 1),
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V(2, 1.5),
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V(2, 2),
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V(3, 1),
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V(3, 1.5),
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V(3, 2)
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};
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typedef test_compare<std::less<int> > C;
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typedef min_allocator<V> A;
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std::map<int, double, C, A> mo(ar, ar+sizeof(ar)/sizeof(ar[0]), C(5), A());
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std::map<int, double, C, A> m(ar, ar+sizeof(ar)/sizeof(ar[0])/2, C(3), A());
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m = mo;
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assert(m.get_allocator() == A());
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assert(m.key_comp() == C(5));
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assert(m.size() == 3);
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assert(distance(m.begin(), m.end()) == 3);
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assert(*m.begin() == V(1, 1));
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assert(*next(m.begin()) == V(2, 1));
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assert(*next(m.begin(), 2) == V(3, 1));
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assert(mo.get_allocator() == A());
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assert(mo.key_comp() == C(5));
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assert(mo.size() == 3);
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assert(distance(mo.begin(), mo.end()) == 3);
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assert(*mo.begin() == V(1, 1));
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assert(*next(mo.begin()) == V(2, 1));
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assert(*next(mo.begin(), 2) == V(3, 1));
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}
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assert(balanced_allocs());
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{
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typedef std::pair<const int, double> V;
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V ar[] =
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{
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V(1, 1),
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V(1, 1.5),
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V(1, 2),
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V(2, 1),
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V(2, 1.5),
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V(2, 2),
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V(3, 1),
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V(3, 1.5),
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V(3, 2)
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};
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typedef test_compare<std::less<int> > C;
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typedef counting_allocatorT<V> A;
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std::map<int, double, C, A> mo(ar, ar+sizeof(ar)/sizeof(ar[0]), C(5), A(1));
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std::map<int, double, C, A> m(ar, ar+sizeof(ar)/sizeof(ar[0])/2, C(3), A(2));
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m = mo;
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assert(m.key_comp() == C(5));
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assert(m.size() == 3);
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assert(distance(m.begin(), m.end()) == 3);
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assert(*m.begin() == V(1, 1));
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assert(*next(m.begin()) == V(2, 1));
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assert(*next(m.begin(), 2) == V(3, 1));
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assert(mo.key_comp() == C(5));
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assert(mo.size() == 3);
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assert(distance(mo.begin(), mo.end()) == 3);
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assert(*mo.begin() == V(1, 1));
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assert(*next(mo.begin()) == V(2, 1));
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assert(*next(mo.begin(), 2) == V(3, 1));
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}
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assert(balanced_allocs());
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{
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typedef std::pair<const int, double> V;
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V ar[] =
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{
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V(1, 1),
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V(1, 1.5),
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V(1, 2),
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V(2, 1),
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V(2, 1.5),
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V(2, 2),
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V(3, 1),
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V(3, 1.5),
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V(3, 2)
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};
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typedef test_compare<std::less<int> > C;
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typedef counting_allocatorF<V> A;
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std::map<int, double, C, A> mo(ar, ar+sizeof(ar)/sizeof(ar[0]), C(5), A(100));
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std::map<int, double, C, A> m(ar, ar+sizeof(ar)/sizeof(ar[0])/2, C(3), A(200));
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m = mo;
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assert(m.key_comp() == C(5));
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assert(m.size() == 3);
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assert(distance(m.begin(), m.end()) == 3);
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assert(*m.begin() == V(1, 1));
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assert(*next(m.begin()) == V(2, 1));
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assert(*next(m.begin(), 2) == V(3, 1));
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assert(mo.key_comp() == C(5));
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assert(mo.size() == 3);
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assert(distance(mo.begin(), mo.end()) == 3);
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assert(*mo.begin() == V(1, 1));
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assert(*next(mo.begin()) == V(2, 1));
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assert(*next(mo.begin(), 2) == V(3, 1));
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}
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assert(balanced_allocs());
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#endif
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return 0;
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}
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