15a83710eSEric Fiselier //===----------------------------------------------------------------------===//
25a83710eSEric Fiselier //
357b08b09SChandler Carruth // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
457b08b09SChandler Carruth // See https://llvm.org/LICENSE.txt for license information.
557b08b09SChandler Carruth // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
65a83710eSEric Fiselier //
75a83710eSEric Fiselier //===----------------------------------------------------------------------===//
85a83710eSEric Fiselier 
95a83710eSEric Fiselier // <string>
105a83710eSEric Fiselier 
11*425620ccSNikolas Klauser // basic_string(const basic_string& str, const Allocator& alloc); // constexpr since C++20
125a83710eSEric Fiselier 
135a83710eSEric Fiselier #include <string>
145a83710eSEric Fiselier #include <cassert>
155a83710eSEric Fiselier 
161f4231f8SEric Fiselier #include "test_macros.h"
175a83710eSEric Fiselier #include "test_allocator.h"
185a83710eSEric Fiselier #include "min_allocator.h"
195a83710eSEric Fiselier 
206f033f0cSMarshall Clow #ifndef TEST_HAS_NO_EXCEPTIONS
21d107be84SMarshall Clow struct alloc_imp {
22d107be84SMarshall Clow     bool active;
23d107be84SMarshall Clow 
alloc_impalloc_imp2485e9b268SNikolas Klauser     TEST_CONSTEXPR alloc_imp() : active(true) {}
25d107be84SMarshall Clow 
267b9e4ebbSBilly Robert O'Neal III     template <class T>
allocatealloc_imp27d107be84SMarshall Clow     T* allocate(std::size_t n)
28d107be84SMarshall Clow     {
29d107be84SMarshall Clow         if (active)
30d107be84SMarshall Clow             return static_cast<T*>(std::malloc(n * sizeof(T)));
31d107be84SMarshall Clow         else
32d107be84SMarshall Clow             throw std::bad_alloc();
33d107be84SMarshall Clow     }
34d107be84SMarshall Clow 
357b9e4ebbSBilly Robert O'Neal III     template <class T>
deallocatealloc_imp36d107be84SMarshall Clow     void deallocate(T* p, std::size_t) { std::free(p); }
activatealloc_imp37d107be84SMarshall Clow     void activate  ()                  { active = true; }
deactivatealloc_imp38d107be84SMarshall Clow     void deactivate()                  { active = false; }
39d107be84SMarshall Clow };
40d107be84SMarshall Clow 
41d107be84SMarshall Clow template <class T>
42d107be84SMarshall Clow struct poca_alloc {
43d107be84SMarshall Clow     typedef T value_type;
44d107be84SMarshall Clow     typedef std::true_type propagate_on_container_copy_assignment;
45d107be84SMarshall Clow 
467b9e4ebbSBilly Robert O'Neal III     alloc_imp *imp;
47d107be84SMarshall Clow 
poca_allocpoca_alloc4885e9b268SNikolas Klauser     TEST_CONSTEXPR poca_alloc(alloc_imp *imp_) : imp (imp_) {}
49d107be84SMarshall Clow 
50d107be84SMarshall Clow     template <class U>
poca_allocpoca_alloc5185e9b268SNikolas Klauser     TEST_CONSTEXPR poca_alloc(const poca_alloc<U>& other) : imp(other.imp) {}
52d107be84SMarshall Clow 
allocatepoca_alloc537b9e4ebbSBilly Robert O'Neal III     T*   allocate  (std::size_t n)       { return imp->allocate<T>(n);}
deallocatepoca_alloc54d107be84SMarshall Clow     void deallocate(T* p, std::size_t n) { imp->deallocate(p, n); }
55d107be84SMarshall Clow };
56d107be84SMarshall Clow 
57d107be84SMarshall Clow template <typename T, typename U>
operator ==(const poca_alloc<T> & lhs,const poca_alloc<U> & rhs)58d107be84SMarshall Clow bool operator==(const poca_alloc<T>& lhs, const poca_alloc<U>& rhs)
59d107be84SMarshall Clow {
60d107be84SMarshall Clow     return lhs.imp == rhs.imp;
61d107be84SMarshall Clow }
62d107be84SMarshall Clow 
63d107be84SMarshall Clow template <typename T, typename U>
operator !=(const poca_alloc<T> & lhs,const poca_alloc<U> & rhs)64d107be84SMarshall Clow bool operator!=(const poca_alloc<T>& lhs, const poca_alloc<U>& rhs)
65d107be84SMarshall Clow {
66d107be84SMarshall Clow     return lhs.imp != rhs.imp;
67d107be84SMarshall Clow }
68d107be84SMarshall Clow 
696f033f0cSMarshall Clow template <class S>
test_assign(S & s1,const S & s2)7085e9b268SNikolas Klauser TEST_CONSTEXPR_CXX20 void test_assign(S &s1, const S& s2)
716f033f0cSMarshall Clow {
726f033f0cSMarshall Clow     try { s1 = s2; }
736f033f0cSMarshall Clow     catch ( std::bad_alloc &) { return; }
746f033f0cSMarshall Clow     assert(false);
756f033f0cSMarshall Clow }
766f033f0cSMarshall Clow #endif
776f033f0cSMarshall Clow 
78d107be84SMarshall Clow 
79d107be84SMarshall Clow 
805a83710eSEric Fiselier template <class S>
8185e9b268SNikolas Klauser TEST_CONSTEXPR_CXX20 void
test(S s1,const typename S::allocator_type & a)825a83710eSEric Fiselier test(S s1, const typename S::allocator_type& a)
835a83710eSEric Fiselier {
845a83710eSEric Fiselier     S s2(s1, a);
851f4231f8SEric Fiselier     LIBCPP_ASSERT(s2.__invariants());
865a83710eSEric Fiselier     assert(s2 == s1);
875a83710eSEric Fiselier     assert(s2.capacity() >= s2.size());
885a83710eSEric Fiselier     assert(s2.get_allocator() == a);
895a83710eSEric Fiselier }
905a83710eSEric Fiselier 
test()91*425620ccSNikolas Klauser TEST_CONSTEXPR_CXX20 bool test() {
925a83710eSEric Fiselier   {
935a83710eSEric Fiselier     typedef test_allocator<char> A;
945a83710eSEric Fiselier     typedef std::basic_string<char, std::char_traits<char>, A> S;
955a83710eSEric Fiselier     test(S(), A(3));
965a83710eSEric Fiselier     test(S("1"), A(5));
975a83710eSEric Fiselier     test(S("1234567890123456789012345678901234567890123456789012345678901234567890"), A(7));
985a83710eSEric Fiselier   }
991f4231f8SEric Fiselier #if TEST_STD_VER >= 11
1005a83710eSEric Fiselier   {
1015a83710eSEric Fiselier     typedef min_allocator<char> A;
1025a83710eSEric Fiselier     typedef std::basic_string<char, std::char_traits<char>, A> S;
1035a83710eSEric Fiselier     test(S(), A());
1045a83710eSEric Fiselier     test(S("1"), A());
1055a83710eSEric Fiselier     test(S("1234567890123456789012345678901234567890123456789012345678901234567890"), A());
1065a83710eSEric Fiselier   }
107d107be84SMarshall Clow 
108d107be84SMarshall Clow #ifndef TEST_HAS_NO_EXCEPTIONS
10985e9b268SNikolas Klauser   if (!TEST_IS_CONSTANT_EVALUATED) {
110d107be84SMarshall Clow     typedef poca_alloc<char> A;
111d107be84SMarshall Clow     typedef std::basic_string<char, std::char_traits<char>, A> S;
112d107be84SMarshall Clow     const char * p1 = "This is my first string";
113d107be84SMarshall Clow     const char * p2 = "This is my second string";
114d107be84SMarshall Clow 
1157b9e4ebbSBilly Robert O'Neal III     alloc_imp imp1;
1167b9e4ebbSBilly Robert O'Neal III     alloc_imp imp2;
117d107be84SMarshall Clow     S s1(p1, A(&imp1));
118d107be84SMarshall Clow     S s2(p2, A(&imp2));
119d107be84SMarshall Clow 
120d107be84SMarshall Clow     assert(s1 == p1);
121d107be84SMarshall Clow     assert(s2 == p2);
122d107be84SMarshall Clow 
123d107be84SMarshall Clow     imp2.deactivate();
124d107be84SMarshall Clow     test_assign(s1, s2);
125d107be84SMarshall Clow     assert(s1 == p1);
126d107be84SMarshall Clow     assert(s2 == p2);
127d107be84SMarshall Clow   }
128d107be84SMarshall Clow #endif
1295a83710eSEric Fiselier #endif
1302df59c50SJF Bastien 
131e85018b7SNikolas Klauser   return true;
132e85018b7SNikolas Klauser }
133e85018b7SNikolas Klauser 
main(int,char **)134e85018b7SNikolas Klauser int main(int, char**)
135e85018b7SNikolas Klauser {
136e85018b7SNikolas Klauser   test();
137e85018b7SNikolas Klauser #if TEST_STD_VER > 17
138*425620ccSNikolas Klauser   static_assert(test());
139e85018b7SNikolas Klauser #endif
140e85018b7SNikolas Klauser 
1412df59c50SJF Bastien   return 0;
1425a83710eSEric Fiselier }
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