mirror of
https://github.com/mozilla/gecko-dev.git
synced 2024-10-31 22:25:30 +00:00
576 lines
11 KiB
C++
576 lines
11 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this file,
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* You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "mozilla/Assertions.h"
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#include "mozilla/Compiler.h"
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#include "mozilla/Move.h"
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#include "mozilla/TypeTraits.h"
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#include "mozilla/UniquePtr.h"
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#include "mozilla/Vector.h"
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#include <stddef.h>
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using mozilla::DefaultDelete;
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using mozilla::IsSame;
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using mozilla::MakeUnique;
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using mozilla::Swap;
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using mozilla::UniquePtr;
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using mozilla::Vector;
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#define CHECK(c) \
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do { \
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bool cond = !!(c); \
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MOZ_ASSERT(cond, "Failed assertion: " #c); \
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if (!cond) { \
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return false; \
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} \
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} while (false)
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typedef UniquePtr<int> NewInt;
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static_assert(sizeof(NewInt) == sizeof(int*), "stored most efficiently");
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static size_t gADestructorCalls = 0;
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struct A
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{
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public:
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A() : mX(0) {}
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virtual ~A() { gADestructorCalls++; }
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int mX;
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};
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static size_t gBDestructorCalls = 0;
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struct B : public A
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{
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public:
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B() : mY(1) {}
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~B() { gBDestructorCalls++; }
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int mY;
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};
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typedef UniquePtr<A> UniqueA;
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typedef UniquePtr<B, UniqueA::DeleterType> UniqueB; // permit interconversion
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static_assert(sizeof(UniqueA) == sizeof(A*), "stored most efficiently");
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static_assert(sizeof(UniqueB) == sizeof(B*), "stored most efficiently");
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struct DeleterSubclass : UniqueA::DeleterType {};
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typedef UniquePtr<B, DeleterSubclass> UniqueC;
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static_assert(sizeof(UniqueC) == sizeof(B*), "stored most efficiently");
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static UniqueA
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ReturnUniqueA()
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{
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return UniqueA(new B);
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}
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static UniqueA
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ReturnLocalA()
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{
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UniqueA a(new A);
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return Move(a);
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}
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static bool
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TestDefaultFreeGuts()
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{
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static_assert(IsSame<NewInt::DeleterType, DefaultDelete<int> >::value,
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"weird deleter?");
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NewInt n1(new int);
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CHECK(n1);
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CHECK(n1.get() != nullptr);
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n1 = nullptr;
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CHECK(!n1);
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CHECK(n1.get() == nullptr);
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int* p1 = new int;
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n1.reset(p1);
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CHECK(n1);
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NewInt n2(Move(n1));
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CHECK(!n1);
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CHECK(n1.get() == nullptr);
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CHECK(n2.get() == p1);
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Swap(n1, n2);
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CHECK(n1.get() == p1);
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CHECK(n2.get() == nullptr);
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n1.swap(n2);
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CHECK(n1.get() == nullptr);
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CHECK(n2.get() == p1);
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delete n2.release();
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CHECK(n1.get() == nullptr);
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CHECK(n2 == nullptr);
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CHECK(nullptr == n2);
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int* p2 = new int;
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int* p3 = new int;
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n1.reset(p2);
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n2.reset(p3);
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CHECK(n1.get() == p2);
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CHECK(n2.get() == p3);
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n1.swap(n2);
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CHECK(n2 != nullptr);
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CHECK(nullptr != n2);
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CHECK(n2.get() == p2);
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CHECK(n1.get() == p3);
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UniqueA a1;
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CHECK(a1 == nullptr);
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a1.reset(new A);
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CHECK(gADestructorCalls == 0);
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CHECK(a1->mX == 0);
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B* bp1 = new B;
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bp1->mX = 5;
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CHECK(gBDestructorCalls == 0);
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a1.reset(bp1);
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CHECK(gADestructorCalls == 1);
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CHECK(a1->mX == 5);
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a1.reset(nullptr);
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CHECK(gADestructorCalls == 2);
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CHECK(gBDestructorCalls == 1);
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B* bp2 = new B;
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UniqueB b1(bp2);
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UniqueA a2(nullptr);
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a2 = Move(b1);
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CHECK(gADestructorCalls == 2);
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CHECK(gBDestructorCalls == 1);
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UniqueA a3(Move(a2));
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a3 = nullptr;
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CHECK(gADestructorCalls == 3);
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CHECK(gBDestructorCalls == 2);
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B* bp3 = new B;
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bp3->mX = 42;
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UniqueB b2(bp3);
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UniqueA a4(Move(b2));
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CHECK(b2.get() == nullptr);
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CHECK((*a4).mX == 42);
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CHECK(gADestructorCalls == 3);
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CHECK(gBDestructorCalls == 2);
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UniqueA a5(new A);
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UniqueB b3(new B);
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a5 = Move(b3);
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CHECK(gADestructorCalls == 4);
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CHECK(gBDestructorCalls == 2);
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ReturnUniqueA();
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CHECK(gADestructorCalls == 5);
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CHECK(gBDestructorCalls == 3);
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ReturnLocalA();
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CHECK(gADestructorCalls == 6);
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CHECK(gBDestructorCalls == 3);
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UniqueA a6(ReturnLocalA());
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a6 = nullptr;
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CHECK(gADestructorCalls == 7);
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CHECK(gBDestructorCalls == 3);
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UniqueC c1(new B);
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UniqueA a7(new B);
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a7 = Move(c1);
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CHECK(gADestructorCalls == 8);
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CHECK(gBDestructorCalls == 4);
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c1.reset(new B);
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UniqueA a8(Move(c1));
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CHECK(gADestructorCalls == 8);
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CHECK(gBDestructorCalls == 4);
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// These smart pointers still own B resources.
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CHECK(a4);
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CHECK(a5);
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CHECK(a7);
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CHECK(a8);
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return true;
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}
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static bool
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TestDefaultFree()
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{
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CHECK(TestDefaultFreeGuts());
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CHECK(gADestructorCalls == 12);
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CHECK(gBDestructorCalls == 8);
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return true;
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}
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static size_t FreeClassCounter = 0;
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struct FreeClass
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{
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public:
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FreeClass() {}
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void operator()(int* aPtr)
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{
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FreeClassCounter++;
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delete aPtr;
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}
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};
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typedef UniquePtr<int, FreeClass> NewIntCustom;
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static_assert(sizeof(NewIntCustom) == sizeof(int*),
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"stored most efficiently");
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static bool
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TestFreeClass()
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{
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CHECK(FreeClassCounter == 0);
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{
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NewIntCustom n1(new int);
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CHECK(FreeClassCounter == 0);
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}
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CHECK(FreeClassCounter == 1);
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NewIntCustom n2;
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{
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NewIntCustom n3(new int);
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CHECK(FreeClassCounter == 1);
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n2 = Move(n3);
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}
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CHECK(FreeClassCounter == 1);
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n2 = nullptr;
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CHECK(FreeClassCounter == 2);
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n2.reset(nullptr);
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CHECK(FreeClassCounter == 2);
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n2.reset(new int);
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n2.reset();
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CHECK(FreeClassCounter == 3);
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NewIntCustom n4(new int, FreeClass());
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CHECK(FreeClassCounter == 3);
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n4.reset(new int);
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CHECK(FreeClassCounter == 4);
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n4.reset();
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CHECK(FreeClassCounter == 5);
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FreeClass f;
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NewIntCustom n5(new int, f);
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CHECK(FreeClassCounter == 5);
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int* p = n5.release();
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CHECK(FreeClassCounter == 5);
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delete p;
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return true;
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}
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typedef UniquePtr<int, DefaultDelete<int>&> IntDeleterRef;
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typedef UniquePtr<A, DefaultDelete<A>&> ADeleterRef;
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typedef UniquePtr<B, DefaultDelete<A>&> BDeleterRef;
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static_assert(sizeof(IntDeleterRef) > sizeof(int*),
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"has to be heavier than an int* to store the reference");
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static_assert(sizeof(ADeleterRef) > sizeof(A*),
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"has to be heavier than an A* to store the reference");
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static_assert(sizeof(BDeleterRef) > sizeof(int*),
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"has to be heavier than a B* to store the reference");
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static bool
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TestReferenceDeleterGuts()
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{
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DefaultDelete<int> delInt;
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IntDeleterRef id1(new int, delInt);
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IntDeleterRef id2(Move(id1));
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CHECK(id1 == nullptr);
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CHECK(nullptr != id2);
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CHECK(&id1.getDeleter() == &id2.getDeleter());
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IntDeleterRef id3(Move(id2));
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DefaultDelete<A> delA;
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ADeleterRef a1(new A, delA);
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a1.reset(nullptr);
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a1.reset(new B);
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a1 = nullptr;
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BDeleterRef b1(new B, delA);
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a1 = Move(b1);
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BDeleterRef b2(new B, delA);
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ADeleterRef a2(Move(b2));
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return true;
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}
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static bool
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TestReferenceDeleter()
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{
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gADestructorCalls = 0;
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gBDestructorCalls = 0;
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CHECK(TestReferenceDeleterGuts());
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CHECK(gADestructorCalls == 4);
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CHECK(gBDestructorCalls == 3);
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gADestructorCalls = 0;
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gBDestructorCalls = 0;
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return true;
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}
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typedef void (&FreeSignature)(void*);
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static size_t DeleteIntFunctionCallCount = 0;
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static void
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DeleteIntFunction(void* aPtr)
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{
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DeleteIntFunctionCallCount++;
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delete static_cast<int*>(aPtr);
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}
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static void
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SetMallocedInt(UniquePtr<int, FreeSignature>& aPtr, int aI)
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{
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int* newPtr = static_cast<int*>(malloc(sizeof(int)));
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*newPtr = aI;
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aPtr.reset(newPtr);
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}
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static UniquePtr<int, FreeSignature>
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MallocedInt(int aI)
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{
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UniquePtr<int, FreeSignature>
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ptr(static_cast<int*>(malloc(sizeof(int))), free);
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*ptr = aI;
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return Move(ptr);
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}
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static bool
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TestFunctionReferenceDeleter()
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{
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// Look for allocator mismatches and leaks to verify these bits
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UniquePtr<int, FreeSignature> i1(MallocedInt(17));
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CHECK(*i1 == 17);
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SetMallocedInt(i1, 42);
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CHECK(*i1 == 42);
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// These bits use a custom deleter so we can instrument deletion.
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{
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UniquePtr<int, FreeSignature> i2 =
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UniquePtr<int, FreeSignature>(new int(42), DeleteIntFunction);
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CHECK(DeleteIntFunctionCallCount == 0);
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i2.reset(new int(76));
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CHECK(DeleteIntFunctionCallCount == 1);
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}
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CHECK(DeleteIntFunctionCallCount == 2);
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return true;
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}
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template<typename T>
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struct AppendNullptrTwice
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{
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AppendNullptrTwice() {}
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bool operator()(Vector<T>& vec)
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{
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CHECK(vec.append(nullptr));
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CHECK(vec.append(nullptr));
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return true;
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}
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};
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static size_t AAfter;
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static size_t BAfter;
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static bool
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TestVectorGuts()
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{
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Vector<UniqueA> vec;
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CHECK(vec.append(new B));
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CHECK(vec.append(new A));
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CHECK(AppendNullptrTwice<UniqueA>()(vec));
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CHECK(vec.append(new B));
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size_t initialLength = vec.length();
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UniqueA* begin = vec.begin();
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bool appendA = true;
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do {
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CHECK(appendA ? vec.append(new A) : vec.append(new B));
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appendA = !appendA;
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} while (begin == vec.begin());
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size_t numAppended = vec.length() - initialLength;
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BAfter = numAppended / 2;
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AAfter = numAppended - numAppended / 2;
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CHECK(gADestructorCalls == 0);
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CHECK(gBDestructorCalls == 0);
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return true;
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}
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static bool
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TestVector()
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{
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gADestructorCalls = 0;
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gBDestructorCalls = 0;
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CHECK(TestVectorGuts());
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CHECK(gADestructorCalls == 3 + AAfter + BAfter);
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CHECK(gBDestructorCalls == 2 + BAfter);
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return true;
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}
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typedef UniquePtr<int[]> IntArray;
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static_assert(sizeof(IntArray) == sizeof(int*),
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"stored most efficiently");
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static bool
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TestArray()
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{
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static_assert(IsSame<IntArray::DeleterType, DefaultDelete<int[]> >::value,
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"weird deleter?");
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IntArray n1(new int[5]);
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CHECK(n1);
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CHECK(n1.get() != nullptr);
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n1 = nullptr;
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CHECK(!n1);
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CHECK(n1.get() == nullptr);
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int* p1 = new int[42];
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n1.reset(p1);
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CHECK(n1);
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IntArray n2(Move(n1));
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CHECK(!n1);
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CHECK(n1.get() == nullptr);
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CHECK(n2.get() == p1);
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Swap(n1, n2);
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CHECK(n1.get() == p1);
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CHECK(n2.get() == nullptr);
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n1.swap(n2);
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CHECK(n1.get() == nullptr);
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CHECK(n2.get() == p1);
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delete[] n2.release();
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CHECK(n1.get() == nullptr);
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CHECK(n2.get() == nullptr);
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int* p2 = new int[7];
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int* p3 = new int[42];
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n1.reset(p2);
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n2.reset(p3);
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CHECK(n1.get() == p2);
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CHECK(n2.get() == p3);
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n1.swap(n2);
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CHECK(n2.get() == p2);
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CHECK(n1.get() == p3);
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n1 = Move(n2);
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CHECK(n1.get() == p2);
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n1 = Move(n2);
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CHECK(n1.get() == nullptr);
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UniquePtr<A[]> a1(new A[17]);
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static_assert(sizeof(a1) == sizeof(A*),
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"stored most efficiently");
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UniquePtr<A[]> a2(new A[5], DefaultDelete<A[]>());
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a2.reset(nullptr);
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a2.reset(new A[17]);
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a2 = nullptr;
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UniquePtr<A[]> a3(nullptr);
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a3.reset(new A[7]);
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return true;
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}
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struct Q
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{
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Q() {}
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Q(const Q&) {}
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Q(Q&, char) {}
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template<typename T>
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Q(Q, T&&, int) {}
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Q(int, long, double, void*) {}
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};
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static int randomInt() { return 4; }
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static bool
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TestMakeUnique()
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{
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UniquePtr<int> a1(MakeUnique<int>());
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UniquePtr<long> a2(MakeUnique<long>(4));
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// no args, easy
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UniquePtr<Q> q0(MakeUnique<Q>());
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// temporary bound to const lval ref
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UniquePtr<Q> q1(MakeUnique<Q>(Q()));
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// passing through a non-const lval ref
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UniquePtr<Q> q2(MakeUnique<Q>(*q1, 'c'));
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// pass by copying, forward a temporary, pass by value
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UniquePtr<Q> q3(MakeUnique<Q>(Q(), UniquePtr<int>(), randomInt()));
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// various type mismatching to test "fuzzy" forwarding
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UniquePtr<Q> q4(MakeUnique<Q>('s', 66LL, 3.141592654, &q3));
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UniquePtr<char[]> c1(MakeUnique<char[]>(5));
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return true;
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}
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int
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main()
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{
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if (!TestDefaultFree()) {
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return 1;
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}
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if (!TestFreeClass()) {
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return 1;
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}
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if (!TestReferenceDeleter()) {
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return 1;
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}
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if (!TestFunctionReferenceDeleter()) {
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return 1;
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}
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if (!TestVector()) {
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return 1;
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}
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if (!TestArray()) {
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return 1;
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}
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if (!TestMakeUnique()) {
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return 1;
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}
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return 0;
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}
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