cxx/test/utilities/memory/default.allocator/allocator.members/construct.pass.cpp

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//===----------------------------------------------------------------------===// // // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // <memory> // allocator: // template <class... Args> void construct(pointer p, Args&&... args); #include <memory> #include <new> #include <cstdlib> #include <cassert> int new_called = 0; void* operator new(std::size_t s) throw(std::bad_alloc) { ++new_called; assert(s == 3 * sizeof(int)); return std::malloc(s); } void operator delete(void* p) throw() { --new_called; std::free(p); } int A_constructed = 0; struct A { int data; A() {++A_constructed;} A(const A&) {++A_constructed;} explicit A(int) {++A_constructed;} A(int, int*) {++A_constructed;} ~A() {--A_constructed;} }; int move_only_constructed = 0; class move_only { int data; #ifdef _LIBCPP_MOVE move_only(const move_only&); move_only& operator=(const move_only&); #else move_only(move_only&); move_only& operator=(move_only&); #endif public: #ifdef _LIBCPP_MOVE move_only(move_only&&) {++move_only_constructed;} move_only& operator=(move_only&&) {} #else operator std::__rv<move_only> () {return std::__rv<move_only>(*this);} move_only(std::__rv<move_only>) {++move_only_constructed;} #endif move_only() {++move_only_constructed;} ~move_only() {--move_only_constructed;} }; int main() { { std::allocator<A> a; assert(new_called == 0); assert(A_constructed == 0); A* ap = a.allocate(3); assert(new_called == 1); assert(A_constructed == 0); a.construct(ap); assert(new_called == 1); assert(A_constructed == 1); a.destroy(ap); assert(new_called == 1); assert(A_constructed == 0); a.construct(ap, A()); assert(new_called == 1); assert(A_constructed == 1); a.destroy(ap); assert(new_called == 1); assert(A_constructed == 0); a.construct(ap, 5); assert(new_called == 1); assert(A_constructed == 1); a.destroy(ap); assert(new_called == 1); assert(A_constructed == 0); a.construct(ap, 5, (int*)0); assert(new_called == 1); assert(A_constructed == 1); a.destroy(ap); assert(new_called == 1); assert(A_constructed == 0); a.deallocate(ap, 3); assert(new_called == 0); assert(A_constructed == 0); } { std::allocator<move_only> a; assert(new_called == 0); assert(move_only_constructed == 0); move_only* ap = a.allocate(3); assert(new_called == 1); assert(move_only_constructed == 0); a.construct(ap); assert(new_called == 1); assert(move_only_constructed == 1); a.destroy(ap); assert(new_called == 1); assert(move_only_constructed == 0); a.construct(ap, move_only()); assert(new_called == 1); assert(move_only_constructed == 1); a.destroy(ap); assert(new_called == 1); assert(move_only_constructed == 0); a.deallocate(ap, 3); assert(new_called == 0); assert(move_only_constructed == 0); } }