9ccb006f61
- Fix clang-tidy warnings from Clang 15
299 lines
9.2 KiB
C++
299 lines
9.2 KiB
C++
#include "cpp-utils/data/DataFixture.h"
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#include "cpp-utils/data/Data.h"
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#include "cpp-utils/data/SerializationHelper.h"
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#include <gmock/gmock.h>
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#include "cpp-utils/tempfile/TempFile.h"
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#include <cstddef>
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#include <fstream>
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using ::testing::Test;
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using ::testing::WithParamInterface;
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using ::testing::Values;
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using ::testing::Return;
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using cpputils::TempFile;
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using std::ifstream;
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using std::ofstream;
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using std::string;
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namespace bf = boost::filesystem;
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using namespace cpputils;
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class DataTest: public Test {
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public:
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bool DataIsZeroes(const Data &data) {
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for (size_t i = 0; i != data.size(); ++ i) {
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if (deserialize<uint8_t>(data.dataOffset(i)) != 0) {
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return false;
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}
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}
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return true;
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}
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};
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class DataTestWithSizeParam: public DataTest, public WithParamInterface<size_t> {
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public:
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Data randomData;
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DataTestWithSizeParam(): randomData(DataFixture::generate(GetParam())) {}
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static void StoreData(const Data &data, const bf::path &filepath) {
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ofstream file(filepath.string().c_str(), std::ios::binary | std::ios::trunc);
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file.write(static_cast<const char*>(data.data()), data.size());
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}
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static void EXPECT_STORED_FILE_DATA_CORRECT(const Data &data, const bf::path &filepath) {
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EXPECT_EQ(data.size(), bf::file_size(filepath));
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ifstream file(filepath.string().c_str(), std::ios::binary);
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char *read_data = new char[data.size()];
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file.read(read_data, data.size());
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EXPECT_EQ(0, std::memcmp(data.data(), read_data, data.size()));
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delete[] read_data;
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}
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};
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INSTANTIATE_TEST_SUITE_P(DataTestWithSizeParam, DataTestWithSizeParam, Values(0, 1, 2, 1024, 4096, 10*1024*1024));
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TEST_P(DataTestWithSizeParam, ZeroInitializedDataIsDifferentToRandomData) {
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if (GetParam() != 0) {
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Data data(GetParam());
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data.FillWithZeroes();
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EXPECT_NE(randomData, data);
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}
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}
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// Working on a large data area without a crash is a good indicator that we
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// are actually working on memory that was validly allocated for us.
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TEST_P(DataTestWithSizeParam, WriteAndCheck) {
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const Data data = randomData.copy();
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EXPECT_EQ(randomData, data);
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}
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TEST_P(DataTestWithSizeParam, Size) {
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const Data data(GetParam());
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EXPECT_EQ(GetParam(), data.size());
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}
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TEST_P(DataTestWithSizeParam, CheckStoredFile) {
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const TempFile file;
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randomData.StoreToFile(file.path());
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EXPECT_STORED_FILE_DATA_CORRECT(randomData, file.path());
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}
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TEST_P(DataTestWithSizeParam, CheckLoadedData) {
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const TempFile file;
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StoreData(randomData, file.path());
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const Data data = Data::LoadFromFile(file.path()).value();
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EXPECT_EQ(randomData, data);
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}
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TEST_P(DataTestWithSizeParam, StoreDoesntChangeData) {
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const Data data = randomData.copy();
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const TempFile file;
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data.StoreToFile(file.path());
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EXPECT_EQ(randomData, data);
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}
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TEST_P(DataTestWithSizeParam, StoreAndLoad) {
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const TempFile file;
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randomData.StoreToFile(file.path());
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const Data loaded_data = Data::LoadFromFile(file.path()).value();
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EXPECT_EQ(randomData, loaded_data);
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}
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TEST_P(DataTestWithSizeParam, Copy) {
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const Data copy = randomData.copy();
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EXPECT_EQ(randomData, copy);
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}
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TEST_F(DataTest, ChangingCopyDoesntChangeOriginal) {
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const Data original = DataFixture::generate(1024);
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Data copy = original.copy();
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serialize<uint8_t>(copy.data(), deserialize<uint8_t>(copy.data()) + 1);
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EXPECT_EQ(DataFixture::generate(1024), original);
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EXPECT_NE(copy, original);
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}
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TEST_F(DataTest, InitializeWithZeroes) {
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Data data(10*1024);
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data.FillWithZeroes();
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EXPECT_TRUE(DataIsZeroes(data));
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}
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TEST_F(DataTest, FillModifiedDataWithZeroes) {
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Data data = DataFixture::generate(10*1024);
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EXPECT_FALSE(DataIsZeroes(data));
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data.FillWithZeroes();
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EXPECT_TRUE(DataIsZeroes(data));
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}
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TEST_F(DataTest, MoveConstructor) {
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Data original = DataFixture::generate(1024);
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const Data copy(std::move(original));
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EXPECT_EQ(DataFixture::generate(1024), copy);
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EXPECT_EQ(nullptr, original.data()); // NOLINT (intentional use-after-move)
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EXPECT_EQ(0u, original.size()); // NOLINT (intentional use-after-move)
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}
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TEST_F(DataTest, MoveAssignment) {
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Data original = DataFixture::generate(1024);
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Data copy(0);
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copy = std::move(original);
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EXPECT_EQ(DataFixture::generate(1024), copy);
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EXPECT_EQ(nullptr, original.data()); // NOLINT (intentional use-after-move)
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EXPECT_EQ(0u, original.size()); // NOLINT (intentional use-after-move)
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}
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TEST_F(DataTest, Equality) {
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const Data data1 = DataFixture::generate(1024);
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const Data data2 = DataFixture::generate(1024);
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EXPECT_TRUE(data1 == data2);
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EXPECT_FALSE(data1 != data2);
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}
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TEST_F(DataTest, Inequality_DifferentSize) {
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const Data data1 = DataFixture::generate(1024);
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const Data data2 = DataFixture::generate(1023);
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EXPECT_FALSE(data1 == data2);
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EXPECT_TRUE(data1 != data2);
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}
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TEST_F(DataTest, Inequality_DifferentFirstByte) {
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const Data data1 = DataFixture::generate(1024);
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Data data2 = DataFixture::generate(1024);
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serialize<uint8_t>(data2.data(), deserialize<uint8_t>(data2.data()) + 1);
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EXPECT_FALSE(data1 == data2);
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EXPECT_TRUE(data1 != data2);
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}
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TEST_F(DataTest, Inequality_DifferentMiddleByte) {
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const Data data1 = DataFixture::generate(1024);
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Data data2 = DataFixture::generate(1024);
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serialize<uint8_t>(data2.dataOffset(500), deserialize<uint8_t>(data2.dataOffset(500)) + 1);
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EXPECT_FALSE(data1 == data2);
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EXPECT_TRUE(data1 != data2);
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}
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TEST_F(DataTest, Inequality_DifferentLastByte) {
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const Data data1 = DataFixture::generate(1024);
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Data data2 = DataFixture::generate(1024);
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serialize<uint8_t>(data2.dataOffset(1023), deserialize<uint8_t>(data2.dataOffset(1023)) + 1);
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EXPECT_FALSE(data1 == data2);
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EXPECT_TRUE(data1 != data2);
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}
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#ifdef __x86_64__
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TEST_F(DataTest, LargesizeSize) {
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//Needs 64bit for representation. This value isn't in the size param list, because the list is also used for read/write checks.
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const uint64_t size = static_cast<uint64_t>(4.5L*1024*1024*1024);
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const Data data(size);
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EXPECT_EQ(size, data.size());
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}
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#else
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#if defined(_MSC_VER)
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#pragma message This is not a 64bit architecture. Large size data tests are disabled.
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#else
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#warning This is not a 64bit architecture. Large size data tests are disabled.
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#endif
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#endif
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TEST_F(DataTest, LoadingNonexistingFile) {
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const TempFile file(false); // Pass false to constructor, so the tempfile is not created
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EXPECT_FALSE(Data::LoadFromFile(file.path()));
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}
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class DataTestWithStringParam: public DataTest, public WithParamInterface<string> {};
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INSTANTIATE_TEST_SUITE_P(DataTestWithStringParam, DataTestWithStringParam, Values("", "2898B4B8A13C0F0278CCE465DB", "6FFEBAD90C0DAA2B79628F0627CE9841"));
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TEST_P(DataTestWithStringParam, FromAndToString) {
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const Data data = Data::FromString(GetParam());
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EXPECT_EQ(GetParam(), data.ToString());
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}
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TEST_P(DataTestWithStringParam, ToAndFromString) {
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const Data data = Data::FromString(GetParam());
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const Data data2 = Data::FromString(data.ToString());
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EXPECT_EQ(data, data2);
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}
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struct MockAllocator final : public Allocator {
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MOCK_METHOD(void* , allocate, (size_t), (override));
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MOCK_METHOD(void, free, (void*, size_t), (override));
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};
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class DataTestWithMockAllocator: public DataTest {
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public:
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char ptr_target{};
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unique_ref<MockAllocator> allocator = make_unique_ref<MockAllocator>();
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MockAllocator* allocator_ptr = allocator.get();
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};
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TEST_F(DataTestWithMockAllocator, whenCreatingNewData_thenTakesItFromAllocator) {
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EXPECT_CALL(*allocator, allocate(5)).Times(1).WillOnce(Return(&ptr_target));
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Data data(5, std::move(allocator));
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EXPECT_EQ(&ptr_target, data.data());
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}
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TEST_F(DataTestWithMockAllocator, whenDestructingData_thenFreesItInAllocator) {
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EXPECT_CALL(*allocator, allocate(5)).Times(1).WillOnce(Return(&ptr_target));
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const Data data(5, std::move(allocator));
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EXPECT_CALL(*allocator_ptr, free(&ptr_target, 5)).Times(1);
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}
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TEST_F(DataTestWithMockAllocator, whenMoveConstructing_thenOnlyFreesOnce) {
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EXPECT_CALL(*allocator, allocate(5)).Times(1).WillOnce(Return(&ptr_target));
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Data data(5, std::move(allocator));
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const Data data2 = std::move(data);
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EXPECT_CALL(*allocator_ptr, free(&ptr_target, 5)).Times(1);
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}
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TEST_F(DataTestWithMockAllocator, whenMoveAssigning_thenOnlyFreesOnce) {
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EXPECT_CALL(*allocator, allocate(5)).Times(1).WillOnce(Return(&ptr_target));
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Data data(5, std::move(allocator));
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Data data2(3);
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data2 = std::move(data);
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EXPECT_CALL(*allocator_ptr, free(&ptr_target, 5)).Times(1);
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}
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TEST_F(DataTestWithMockAllocator, whenMoveConstructing_thenOnlyFreesWhenSecondIsDestructed) {
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EXPECT_CALL(*allocator, allocate(5)).Times(1).WillOnce(Return(&ptr_target));
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EXPECT_CALL(*allocator_ptr, free(testing::_, testing::_)).Times(0);
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auto data = std::make_unique<Data>(5, std::move(allocator));
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const Data data2 = std::move(*data);
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data.reset();
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EXPECT_CALL(*allocator_ptr, free(&ptr_target, 5)).Times(1);
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}
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TEST_F(DataTestWithMockAllocator, whenMoveAssigning_thenOnlyFreesWhenSecondIsDestructed) {
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EXPECT_CALL(*allocator, allocate(5)).Times(1).WillOnce(Return(&ptr_target));
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EXPECT_CALL(*allocator_ptr, free(testing::_, testing::_)).Times(0);
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auto data = std::make_unique<Data>(5, std::move(allocator));
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Data data2(3);
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data2 = std::move(*data);
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data.reset();
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EXPECT_CALL(*allocator_ptr, free(&ptr_target, 5)).Times(1);
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}
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