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pdfium / pdfium / refs/heads/chromium/2539 / . / third_party / base / nonstd_unique_ptr_unittest.cpp
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// Copyright 2015 PDFium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include <sstream>
#include "testing/gtest/include/gtest/gtest.h"
#include "macros.h"
#include "nonstd_unique_ptr.h"
using nonstd::unique_ptr;
namespace {
// Used to test depth subtyping.
class CtorDtorLoggerParent {
public:
virtual ~CtorDtorLoggerParent() {}
virtual void SetPtr(int* ptr) = 0;
virtual int SomeMeth(int x) const = 0;
};
class CtorDtorLogger : public CtorDtorLoggerParent {
public:
CtorDtorLogger() : ptr_(nullptr) {}
explicit CtorDtorLogger(int* ptr) { SetPtr(ptr); }
~CtorDtorLogger() override { --*ptr_; }
void SetPtr(int* ptr) override {
ptr_ = ptr;
++*ptr_;
}
int SomeMeth(int x) const override { return x; }
private:
int* ptr_;
// Disallow evil constructors.
CtorDtorLogger(const CtorDtorLogger&) = delete;
void operator=(const CtorDtorLogger&) = delete;
};
struct CountingDeleter {
explicit CountingDeleter(int* count) : count_(count) {}
inline void operator()(double* ptr) const { (*count_)++; }
int* count_;
};
// Do not delete this function! It's existence is to test that you can
// return a temporarily constructed version of the scoper.
unique_ptr<CtorDtorLogger> TestReturnOfType(int* constructed) {
return unique_ptr<CtorDtorLogger>(new CtorDtorLogger(constructed));
}
} // namespace
TEST(UniquePtrTest, MoveTest) {
int constructed = 0;
int constructed4 = 0;
{
unique_ptr<CtorDtorLogger> ptr1(new CtorDtorLogger(&constructed));
EXPECT_EQ(1, constructed);
EXPECT_TRUE(ptr1);
unique_ptr<CtorDtorLogger> ptr2(nonstd::move(ptr1));
EXPECT_EQ(1, constructed);
EXPECT_FALSE(ptr1);
EXPECT_TRUE(ptr2);
unique_ptr<CtorDtorLogger> ptr3;
ptr3 = nonstd::move(ptr2);
EXPECT_EQ(1, constructed);
EXPECT_FALSE(ptr2);
EXPECT_TRUE(ptr3);
unique_ptr<CtorDtorLogger> ptr4(new CtorDtorLogger(&constructed4));
EXPECT_EQ(1, constructed4);
ptr4 = nonstd::move(ptr3);
EXPECT_EQ(0, constructed4);
EXPECT_FALSE(ptr3);
EXPECT_TRUE(ptr4);
}
EXPECT_EQ(0, constructed);
}
TEST(UniquePtrTest, UniquePtr) {
int constructed = 0;
// Ensure size of unique_ptr<> doesn't increase unexpectedly.
static_assert(sizeof(int*) >= sizeof(unique_ptr<int>),
"unique_ptr_larger_than_raw_ptr");
{
unique_ptr<CtorDtorLogger> scoper(new CtorDtorLogger(&constructed));
EXPECT_EQ(1, constructed);
EXPECT_TRUE(scoper.get());
EXPECT_EQ(10, scoper->SomeMeth(10));
EXPECT_EQ(10, scoper.get()->SomeMeth(10));
EXPECT_EQ(10, (*scoper).SomeMeth(10));
}
EXPECT_EQ(0, constructed);
// Test reset() and release()
{
unique_ptr<CtorDtorLogger> scoper(new CtorDtorLogger(&constructed));
EXPECT_EQ(1, constructed);
EXPECT_TRUE(scoper.get());
scoper.reset(new CtorDtorLogger(&constructed));
EXPECT_EQ(1, constructed);
EXPECT_TRUE(scoper.get());
scoper.reset();
EXPECT_EQ(0, constructed);
EXPECT_FALSE(scoper.get());
scoper.reset(new CtorDtorLogger(&constructed));
EXPECT_EQ(1, constructed);
EXPECT_TRUE(scoper.get());
CtorDtorLogger* take = scoper.release();
EXPECT_EQ(1, constructed);
EXPECT_FALSE(scoper.get());
delete take;
EXPECT_EQ(0, constructed);
scoper.reset(new CtorDtorLogger(&constructed));
EXPECT_EQ(1, constructed);
EXPECT_TRUE(scoper.get());
}
EXPECT_EQ(0, constructed);
// Test swap(), == and !=
{
unique_ptr<CtorDtorLogger> scoper1;
unique_ptr<CtorDtorLogger> scoper2;
EXPECT_TRUE(scoper1 == scoper2.get());
EXPECT_FALSE(scoper1 != scoper2.get());
CtorDtorLogger* logger = new CtorDtorLogger(&constructed);
scoper1.reset(logger);
EXPECT_EQ(logger, scoper1.get());
EXPECT_FALSE(scoper2.get());
EXPECT_FALSE(scoper1 == scoper2.get());
EXPECT_TRUE(scoper1 != scoper2.get());
scoper2.swap(scoper1);
EXPECT_EQ(logger, scoper2.get());
EXPECT_FALSE(scoper1.get());
EXPECT_FALSE(scoper1 == scoper2.get());
EXPECT_TRUE(scoper1 != scoper2.get());
}
EXPECT_EQ(0, constructed);
}
TEST(UniquePtrTest, UniquePtrWithArray) {
static const int kNumLoggers = 12;
int constructed = 0;
{
unique_ptr<CtorDtorLogger[]> scoper(new CtorDtorLogger[kNumLoggers]);
EXPECT_TRUE(scoper);
EXPECT_EQ(&scoper[0], scoper.get());
for (int i = 0; i < kNumLoggers; ++i) {
scoper[i].SetPtr(&constructed);
}
EXPECT_EQ(12, constructed);
EXPECT_EQ(10, scoper.get()->SomeMeth(10));
EXPECT_EQ(10, scoper[2].SomeMeth(10));
}
EXPECT_EQ(0, constructed);
// Test reset() and release()
{
unique_ptr<CtorDtorLogger[]> scoper;
EXPECT_FALSE(scoper.get());
EXPECT_FALSE(scoper.release());
EXPECT_FALSE(scoper.get());
scoper.reset();
EXPECT_FALSE(scoper.get());
scoper.reset(new CtorDtorLogger[kNumLoggers]);
for (int i = 0; i < kNumLoggers; ++i) {
scoper[i].SetPtr(&constructed);
}
EXPECT_EQ(12, constructed);
scoper.reset();
EXPECT_EQ(0, constructed);
scoper.reset(new CtorDtorLogger[kNumLoggers]);
for (int i = 0; i < kNumLoggers; ++i) {
scoper[i].SetPtr(&constructed);
}
EXPECT_EQ(12, constructed);
CtorDtorLogger* ptr = scoper.release();
EXPECT_EQ(12, constructed);
delete[] ptr;
EXPECT_EQ(0, constructed);
}
EXPECT_EQ(0, constructed);
// Test swap(), ==, !=, and type-safe Boolean.
{
unique_ptr<CtorDtorLogger[]> scoper1;
unique_ptr<CtorDtorLogger[]> scoper2;
EXPECT_TRUE(scoper1 == scoper2.get());
EXPECT_FALSE(scoper1 != scoper2.get());
CtorDtorLogger* loggers = new CtorDtorLogger[kNumLoggers];
for (int i = 0; i < kNumLoggers; ++i) {
loggers[i].SetPtr(&constructed);
}
scoper1.reset(loggers);
EXPECT_TRUE(scoper1);
EXPECT_EQ(loggers, scoper1.get());
EXPECT_FALSE(scoper2);
EXPECT_FALSE(scoper2.get());
EXPECT_FALSE(scoper1 == scoper2.get());
EXPECT_TRUE(scoper1 != scoper2.get());
scoper2.swap(scoper1);
EXPECT_EQ(loggers, scoper2.get());
EXPECT_FALSE(scoper1.get());
EXPECT_FALSE(scoper1 == scoper2.get());
EXPECT_TRUE(scoper1 != scoper2.get());
}
EXPECT_EQ(0, constructed);
}
TEST(UniquePtrTest, ReturnTypeBehavior) {
int constructed = 0;
// Test that we can return a unique_ptr.
{
CtorDtorLogger* logger = new CtorDtorLogger(&constructed);
unique_ptr<CtorDtorLogger> scoper(logger);
EXPECT_EQ(1, constructed);
}
EXPECT_EQ(0, constructed);
// Test uncaught return type not leak.
{
CtorDtorLogger* logger = new CtorDtorLogger(&constructed);
unique_ptr<CtorDtorLogger> scoper(logger);
EXPECT_EQ(1, constructed);
}
EXPECT_EQ(0, constructed);
// Call TestReturnOfType() so the compiler doesn't warn for an unused
// function.
{ TestReturnOfType(&constructed); }
EXPECT_EQ(0, constructed);
}
TEST(UniquePtrTest, CustomDeleter) {
double dummy_value; // Custom deleter never touches this value.
int deletes = 0;
int alternate_deletes = 0;
// Normal delete support.
{
deletes = 0;
unique_ptr<double, CountingDeleter> scoper(&dummy_value,
CountingDeleter(&deletes));
EXPECT_EQ(0, deletes);
EXPECT_TRUE(scoper.get());
}
EXPECT_EQ(1, deletes);
// Test reset() and release().
deletes = 0;
{
unique_ptr<double, CountingDeleter> scoper(nullptr,
CountingDeleter(&deletes));
EXPECT_FALSE(scoper.get());
EXPECT_FALSE(scoper.release());
EXPECT_FALSE(scoper.get());
scoper.reset();
EXPECT_FALSE(scoper.get());
EXPECT_EQ(0, deletes);
scoper.reset(&dummy_value);
scoper.reset();
EXPECT_EQ(1, deletes);
scoper.reset(&dummy_value);
EXPECT_EQ(&dummy_value, scoper.release());
}
EXPECT_EQ(1, deletes);
// Test get_deleter().
deletes = 0;
alternate_deletes = 0;
{
unique_ptr<double, CountingDeleter> scoper(&dummy_value,
CountingDeleter(&deletes));
// Call deleter manually.
EXPECT_EQ(0, deletes);
scoper.get_deleter()(&dummy_value);
EXPECT_EQ(1, deletes);
// Deleter is still there after reset.
scoper.reset();
EXPECT_EQ(2, deletes);
scoper.get_deleter()(&dummy_value);
EXPECT_EQ(3, deletes);
// Deleter can be assigned into (matches C++11 unique_ptr<> spec).
scoper.get_deleter() = CountingDeleter(&alternate_deletes);
scoper.reset(&dummy_value);
EXPECT_EQ(0, alternate_deletes);
}
EXPECT_EQ(3, deletes);
EXPECT_EQ(1, alternate_deletes);
// Test swap(), ==, !=, and type-safe Boolean.
{
unique_ptr<double, CountingDeleter> scoper1(nullptr,
CountingDeleter(&deletes));
unique_ptr<double, CountingDeleter> scoper2(nullptr,
CountingDeleter(&deletes));
EXPECT_TRUE(scoper1 == scoper2.get());
EXPECT_FALSE(scoper1 != scoper2.get());
scoper1.reset(&dummy_value);
EXPECT_TRUE(scoper1);
EXPECT_EQ(&dummy_value, scoper1.get());
EXPECT_FALSE(scoper2);
EXPECT_FALSE(scoper2.get());
EXPECT_FALSE(scoper1 == scoper2.get());
EXPECT_TRUE(scoper1 != scoper2.get());
scoper2.swap(scoper1);
EXPECT_EQ(&dummy_value, scoper2.get());
EXPECT_FALSE(scoper1.get());
EXPECT_FALSE(scoper1 == scoper2.get());
EXPECT_TRUE(scoper1 != scoper2.get());
}
}
unique_ptr<int> NullIntReturn() {
return nullptr;
}
TEST(UniquePtrTest, Nullptr) {
unique_ptr<int> scoper1(nullptr);
unique_ptr<int> scoper2(new int);
scoper2 = nullptr;
unique_ptr<int> scoper3(NullIntReturn());
unique_ptr<int> scoper4 = NullIntReturn();
EXPECT_EQ(nullptr, scoper1.get());
EXPECT_EQ(nullptr, scoper2.get());
EXPECT_EQ(nullptr, scoper3.get());
EXPECT_EQ(nullptr, scoper4.get());
}
unique_ptr<int[]> NullIntArrayReturn() {
return nullptr;
}
TEST(UniquePtrTest, NullptrArray) {
unique_ptr<int[]> scoper1(nullptr);
unique_ptr<int[]> scoper2(new int[3]);
scoper2 = nullptr;
unique_ptr<int[]> scoper3(NullIntArrayReturn());
unique_ptr<int[]> scoper4 = NullIntArrayReturn();
EXPECT_EQ(nullptr, scoper1.get());
EXPECT_EQ(nullptr, scoper2.get());
EXPECT_EQ(nullptr, scoper3.get());
EXPECT_EQ(nullptr, scoper4.get());
}
// Logging a unique_ptr<T> to an ostream shouldn't convert it to a boolean
// value first.
TEST(ScopedPtrTest, LoggingDoesntConvertToBoolean) {
unique_ptr<int> x(new int);
std::stringstream s1;
s1 << x;
std::stringstream s2;
s2 << x.get();
EXPECT_EQ(s2.str(), s1.str());
}