423 lines
13 KiB
C++
423 lines
13 KiB
C++
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/*
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* Copyright (C) 2017 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "android-base/result.h"
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#include "errno.h"
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#include <istream>
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#include <string>
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#include <gtest/gtest.h>
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using namespace std::string_literals;
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namespace android {
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namespace base {
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TEST(result, result_accessors) {
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Result<std::string> result = "success";
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ASSERT_RESULT_OK(result);
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ASSERT_TRUE(result.has_value());
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EXPECT_EQ("success", *result);
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EXPECT_EQ("success", result.value());
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EXPECT_EQ('s', result->data()[0]);
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}
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TEST(result, result_accessors_rvalue) {
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ASSERT_TRUE(Result<std::string>("success").ok());
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ASSERT_TRUE(Result<std::string>("success").has_value());
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EXPECT_EQ("success", *Result<std::string>("success"));
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EXPECT_EQ("success", Result<std::string>("success").value());
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EXPECT_EQ('s', Result<std::string>("success")->data()[0]);
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}
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TEST(result, result_void) {
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Result<void> ok = {};
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EXPECT_RESULT_OK(ok);
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ok.value(); // should not crash
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ASSERT_DEATH(ok.error(), "");
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Result<void> fail = Error() << "failure" << 1;
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EXPECT_FALSE(fail.ok());
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EXPECT_EQ("failure1", fail.error().message());
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EXPECT_EQ(0, fail.error().code());
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EXPECT_TRUE(ok != fail);
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ASSERT_DEATH(fail.value(), "");
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auto test = [](bool ok) -> Result<void> {
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if (ok) return {};
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else return Error() << "failure" << 1;
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};
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EXPECT_TRUE(test(true).ok());
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EXPECT_FALSE(test(false).ok());
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test(true).value(); // should not crash
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ASSERT_DEATH(test(true).error(), "");
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ASSERT_DEATH(test(false).value(), "");
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EXPECT_EQ("failure1", test(false).error().message());
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}
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TEST(result, result_error) {
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Result<void> result = Error() << "failure" << 1;
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ASSERT_FALSE(result.ok());
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(0, result.error().code());
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EXPECT_EQ("failure1", result.error().message());
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}
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TEST(result, result_error_empty) {
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Result<void> result = Error();
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ASSERT_FALSE(result.ok());
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(0, result.error().code());
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EXPECT_EQ("", result.error().message());
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}
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TEST(result, result_error_rvalue) {
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// Error() and ErrnoError() aren't actually used to create a Result<T> object.
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// Under the hood, they are an intermediate class that can be implicitly constructed into a
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// Result<T>. This is needed both to create the ostream and because Error() itself, by
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// definition will not know what the type, T, of the underlying Result<T> object that it would
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// create is.
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auto MakeRvalueErrorResult = []() -> Result<void> { return Error() << "failure" << 1; };
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ASSERT_FALSE(MakeRvalueErrorResult().ok());
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ASSERT_FALSE(MakeRvalueErrorResult().has_value());
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EXPECT_EQ(0, MakeRvalueErrorResult().error().code());
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EXPECT_EQ("failure1", MakeRvalueErrorResult().error().message());
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}
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TEST(result, result_errno_error) {
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constexpr int test_errno = 6;
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errno = test_errno;
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Result<void> result = ErrnoError() << "failure" << 1;
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ASSERT_FALSE(result.ok());
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(test_errno, result.error().code());
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EXPECT_EQ("failure1: "s + strerror(test_errno), result.error().message());
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}
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TEST(result, result_errno_error_no_text) {
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constexpr int test_errno = 6;
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errno = test_errno;
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Result<void> result = ErrnoError();
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ASSERT_FALSE(result.ok());
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(test_errno, result.error().code());
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EXPECT_EQ(strerror(test_errno), result.error().message());
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}
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TEST(result, result_error_from_other_result) {
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auto error_text = "test error"s;
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Result<void> result = Error() << error_text;
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ASSERT_FALSE(result.ok());
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ASSERT_FALSE(result.has_value());
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Result<std::string> result2 = result.error();
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ASSERT_FALSE(result2.ok());
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ASSERT_FALSE(result2.has_value());
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EXPECT_EQ(0, result2.error().code());
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EXPECT_EQ(error_text, result2.error().message());
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}
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TEST(result, result_error_through_ostream) {
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auto error_text = "test error"s;
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Result<void> result = Error() << error_text;
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ASSERT_FALSE(result.ok());
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ASSERT_FALSE(result.has_value());
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Result<std::string> result2 = Error() << result.error();
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ASSERT_FALSE(result2.ok());
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ASSERT_FALSE(result2.has_value());
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EXPECT_EQ(0, result2.error().code());
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EXPECT_EQ(error_text, result2.error().message());
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}
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TEST(result, result_errno_error_through_ostream) {
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auto error_text = "test error"s;
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constexpr int test_errno = 6;
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errno = 6;
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Result<void> result = ErrnoError() << error_text;
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errno = 0;
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ASSERT_FALSE(result.ok());
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ASSERT_FALSE(result.has_value());
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Result<std::string> result2 = Error() << result.error();
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ASSERT_FALSE(result2.ok());
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ASSERT_FALSE(result2.has_value());
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EXPECT_EQ(test_errno, result2.error().code());
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EXPECT_EQ(error_text + ": " + strerror(test_errno), result2.error().message());
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}
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TEST(result, constructor_forwarding) {
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auto result = Result<std::string>(std::in_place, 5, 'a');
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ASSERT_RESULT_OK(result);
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ASSERT_TRUE(result.has_value());
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EXPECT_EQ("aaaaa", *result);
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}
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struct ConstructorTracker {
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static size_t constructor_called;
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static size_t copy_constructor_called;
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static size_t move_constructor_called;
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static size_t copy_assignment_called;
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static size_t move_assignment_called;
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template <typename T>
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ConstructorTracker(T&& string) : string(string) {
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++constructor_called;
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}
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ConstructorTracker(const ConstructorTracker& ct) {
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++copy_constructor_called;
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string = ct.string;
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}
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ConstructorTracker(ConstructorTracker&& ct) noexcept {
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++move_constructor_called;
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string = std::move(ct.string);
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}
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ConstructorTracker& operator=(const ConstructorTracker& ct) {
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++copy_assignment_called;
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string = ct.string;
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return *this;
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}
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ConstructorTracker& operator=(ConstructorTracker&& ct) noexcept {
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++move_assignment_called;
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string = std::move(ct.string);
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return *this;
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}
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std::string string;
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};
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size_t ConstructorTracker::constructor_called = 0;
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size_t ConstructorTracker::copy_constructor_called = 0;
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size_t ConstructorTracker::move_constructor_called = 0;
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size_t ConstructorTracker::copy_assignment_called = 0;
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size_t ConstructorTracker::move_assignment_called = 0;
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Result<ConstructorTracker> ReturnConstructorTracker(const std::string& in) {
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if (in.empty()) {
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return "literal string";
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}
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if (in == "test2") {
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return ConstructorTracker(in + in + "2");
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}
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ConstructorTracker result(in + " " + in);
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return result;
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};
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TEST(result, no_copy_on_return) {
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// If returning parameters that may be used to implicitly construct the type T of Result<T>,
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// then those parameters are forwarded to the construction of Result<T>.
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// If returning an prvalue or xvalue, it will be move constructed during the construction of
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// Result<T>.
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// This check ensures that that is the case, and particularly that no copy constructors
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// are called.
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auto result1 = ReturnConstructorTracker("");
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ASSERT_RESULT_OK(result1);
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EXPECT_EQ("literal string", result1->string);
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EXPECT_EQ(1U, ConstructorTracker::constructor_called);
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EXPECT_EQ(0U, ConstructorTracker::copy_constructor_called);
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EXPECT_EQ(0U, ConstructorTracker::move_constructor_called);
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EXPECT_EQ(0U, ConstructorTracker::copy_assignment_called);
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EXPECT_EQ(0U, ConstructorTracker::move_assignment_called);
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auto result2 = ReturnConstructorTracker("test2");
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ASSERT_RESULT_OK(result2);
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EXPECT_EQ("test2test22", result2->string);
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EXPECT_EQ(2U, ConstructorTracker::constructor_called);
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EXPECT_EQ(0U, ConstructorTracker::copy_constructor_called);
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EXPECT_EQ(1U, ConstructorTracker::move_constructor_called);
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EXPECT_EQ(0U, ConstructorTracker::copy_assignment_called);
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EXPECT_EQ(0U, ConstructorTracker::move_assignment_called);
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auto result3 = ReturnConstructorTracker("test3");
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ASSERT_RESULT_OK(result3);
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EXPECT_EQ("test3 test3", result3->string);
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EXPECT_EQ(3U, ConstructorTracker::constructor_called);
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EXPECT_EQ(0U, ConstructorTracker::copy_constructor_called);
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EXPECT_EQ(2U, ConstructorTracker::move_constructor_called);
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EXPECT_EQ(0U, ConstructorTracker::copy_assignment_called);
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EXPECT_EQ(0U, ConstructorTracker::move_assignment_called);
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}
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// Below two tests require that we do not hide the move constructor with our forwarding reference
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// constructor. This is done with by disabling the forwarding reference constructor if its first
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// and only type is Result<T>.
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TEST(result, result_result_with_success) {
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auto return_result_result_with_success = []() -> Result<Result<void>> { return Result<void>(); };
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auto result = return_result_result_with_success();
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ASSERT_RESULT_OK(result);
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ASSERT_RESULT_OK(*result);
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auto inner_result = result.value();
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ASSERT_RESULT_OK(inner_result);
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}
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TEST(result, result_result_with_failure) {
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auto return_result_result_with_error = []() -> Result<Result<void>> {
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return Result<void>(ResultError("failure string", 6));
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};
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auto result = return_result_result_with_error();
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ASSERT_RESULT_OK(result);
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ASSERT_FALSE(result->ok());
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EXPECT_EQ("failure string", (*result).error().message());
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EXPECT_EQ(6, (*result).error().code());
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}
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// This test requires that we disable the forwarding reference constructor if Result<T> is the
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// *only* type that we are forwarding. In otherwords, if we are forwarding Result<T>, int to
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// construct a Result<T>, then we still need the constructor.
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TEST(result, result_two_parameter_constructor_same_type) {
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struct TestStruct {
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TestStruct(int value) : value_(value) {}
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TestStruct(Result<TestStruct> result, int value) : value_(result->value_ * value) {}
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int value_;
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};
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auto return_test_struct = []() -> Result<TestStruct> {
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return Result<TestStruct>(std::in_place, Result<TestStruct>(std::in_place, 6), 6);
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};
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auto result = return_test_struct();
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ASSERT_RESULT_OK(result);
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EXPECT_EQ(36, result->value_);
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}
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TEST(result, die_on_access_failed_result) {
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Result<std::string> result = Error();
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ASSERT_DEATH(*result, "");
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}
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TEST(result, die_on_get_error_succesful_result) {
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Result<std::string> result = "success";
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ASSERT_DEATH(result.error(), "");
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}
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template <class CharT>
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std::basic_ostream<CharT>& SetErrnoToTwo(std::basic_ostream<CharT>& ss) {
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errno = 2;
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return ss;
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}
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TEST(result, preserve_errno) {
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errno = 1;
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int old_errno = errno;
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Result<int> result = Error() << "Failed" << SetErrnoToTwo<char>;
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ASSERT_FALSE(result.ok());
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EXPECT_EQ(old_errno, errno);
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errno = 1;
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old_errno = errno;
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Result<int> result2 = ErrnoError() << "Failed" << SetErrnoToTwo<char>;
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ASSERT_FALSE(result2.ok());
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EXPECT_EQ(old_errno, errno);
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EXPECT_EQ(old_errno, result2.error().code());
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}
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TEST(result, error_with_fmt) {
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Result<int> result = Errorf("{} {}!", "hello", "world");
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EXPECT_EQ("hello world!", result.error().message());
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result = Errorf("{} {}!", std::string("hello"), std::string("world"));
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EXPECT_EQ("hello world!", result.error().message());
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result = Errorf("{1} {0}!", "world", "hello");
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EXPECT_EQ("hello world!", result.error().message());
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result = Errorf("hello world!");
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EXPECT_EQ("hello world!", result.error().message());
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Result<int> result2 = Errorf("error occurred with {}", result.error());
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EXPECT_EQ("error occurred with hello world!", result2.error().message());
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constexpr int test_errno = 6;
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errno = test_errno;
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result = ErrnoErrorf("{} {}!", "hello", "world");
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EXPECT_EQ(test_errno, result.error().code());
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EXPECT_EQ("hello world!: "s + strerror(test_errno), result.error().message());
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}
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TEST(result, error_with_fmt_carries_errno) {
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constexpr int inner_errno = 6;
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errno = inner_errno;
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Result<int> inner_result = ErrnoErrorf("inner failure");
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errno = 0;
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EXPECT_EQ(inner_errno, inner_result.error().code());
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// outer_result is created with Errorf, but its error code is got from inner_result.
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Result<int> outer_result = Errorf("outer failure caused by {}", inner_result.error());
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EXPECT_EQ(inner_errno, outer_result.error().code());
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EXPECT_EQ("outer failure caused by inner failure: "s + strerror(inner_errno),
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outer_result.error().message());
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// now both result objects are created with ErrnoErrorf. errno from the inner_result
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// is not passed to outer_result.
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constexpr int outer_errno = 10;
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errno = outer_errno;
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outer_result = ErrnoErrorf("outer failure caused by {}", inner_result.error());
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EXPECT_EQ(outer_errno, outer_result.error().code());
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EXPECT_EQ("outer failure caused by inner failure: "s + strerror(inner_errno) + ": "s +
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strerror(outer_errno),
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outer_result.error().message());
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}
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TEST(result, errno_chaining_multiple) {
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constexpr int errno1 = 6;
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errno = errno1;
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Result<int> inner1 = ErrnoErrorf("error1");
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constexpr int errno2 = 10;
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errno = errno2;
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Result<int> inner2 = ErrnoErrorf("error2");
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// takes the error code of inner2 since its the last one.
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Result<int> outer = Errorf("two errors: {}, {}", inner1.error(), inner2.error());
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EXPECT_EQ(errno2, outer.error().code());
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EXPECT_EQ("two errors: error1: "s + strerror(errno1) + ", error2: "s + strerror(errno2),
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outer.error().message());
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|
}
|
||
|
|
||
|
} // namespace base
|
||
|
} // namespace android
|