/* * Author: Patrick-Christopher Mattulat * Company: Lynar Studios * E-Mail: webmaster@lynarstudios.com * Created: 2020-08-15 * Changed: 2021-09-26 * * */ #include #include #include namespace { class FileTest : public ::testing::Test { protected: FileTest() = default; ~FileTest() override = default; std::string fileLocation = TestHelper::getResourcesFolderLocation() + "simple.txt"; void SetUp() override {} void TearDown() override {} }; // comparison operators TEST_F(FileTest, operator_equals) { ls_std::File file{this->fileLocation}; ls_std::File file2{this->fileLocation}; ls_std::File file3{"/home/bla/text.txt"}; ls_std::File file4{"\\home/bla\\text.txt"}; ASSERT_TRUE(file == file2); ASSERT_TRUE(file2 == file); ASSERT_TRUE(file3 == file4); ASSERT_TRUE(file4 == file3); } TEST_F(FileTest, operator_not_equals) { ls_std::File file{this->fileLocation}; ls_std::File file2{TestHelper::getResourcesFolderLocation() + "app.exe"}; ASSERT_TRUE(file != file2); ASSERT_TRUE(file2 != file); } // additional functionality TEST_F(FileTest, canExecute) { #ifdef _WIN32 ls_std::File executableFile{TestHelper::getResourcesFolderLocation() + "app.exe"}; #endif #if defined(unix) || defined(__APPLE__) ls_std::File executableFile{TestHelper::getResourcesFolderLocation() + "app"}; #endif ASSERT_TRUE(executableFile.canExecute()); } TEST_F(FileTest, canExecute_not_executable) { ls_std::File file{this->fileLocation}; ASSERT_FALSE(file.canExecute()); } TEST_F(FileTest, canRead) { ls_std::File readableFile{this->fileLocation}; ASSERT_TRUE(readableFile.canRead()); } TEST_F(FileTest, canRead_file_does_not_exist) { ls_std::File file{""}; EXPECT_THROW({ try { file.canRead(); } catch (const ls_std::FileOperationException &_exception) { throw; } }, ls_std::FileOperationException); } TEST_F(FileTest, canWrite) { ls_std::File readableFile{this->fileLocation}; ASSERT_TRUE(readableFile.canWrite()); } TEST_F(FileTest, canWrite_not_writable) { #if defined(unix) || defined(__APPLE__) ls_std::File noWritableFile{TestHelper::getResourcesFolderLocation() + "no_writable.txt"}; ASSERT_FALSE(noWritableFile.canWrite()); #endif #ifdef _WIN32 ls_std::File noWritableFile{TestHelper::getResourcesFolderLocation() + "no_writable_windows.txt"}; ASSERT_FALSE(noWritableFile.canWrite()); #endif } TEST_F(FileTest, createNewFile) { ls_std::File file{TestHelper::getResourcesFolderLocation() + "tmp.txt"}; ASSERT_FALSE(file.exists()); file.createNewFile(); ASSERT_TRUE(file.exists()); file.remove(); ASSERT_FALSE(file.exists()); } TEST_F(FileTest, createNewFile_file_does_already_exist) { ls_std::File file{TestHelper::getResourcesFolderLocation() + "simple.txt"}; EXPECT_THROW({ try { file.createNewFile(); } catch (const ls_std::FileOperationException &_exception) { throw; } }, ls_std::FileOperationException); } TEST_F(FileTest, exists) { ls_std::File file{this->fileLocation}; ls_std::File directory{TestHelper::getResourcesFolderLocation()}; ASSERT_TRUE(file.exists()); ASSERT_TRUE(directory.exists()); } TEST_F(FileTest, exists_does_not_exist) { ls_std::File file{TestHelper::getResourcesFolderLocation() + "bla.txt"}; ASSERT_FALSE(file.exists()); } TEST_F(FileTest, getAbsoluteFilePath) { ls_std::File file{this->fileLocation}; ASSERT_STREQ(this->fileLocation.c_str(), file.getAbsoluteFilePath().c_str()); std::string s = {ls_std::FilePathSeparator::get()}; std::string wrongFilePath = "home" + s + s + s + "user" + s + "bla" + s + s + "sub_folder"; std::string expectedFilePath = "home" + s + "user" + s + "bla" + s + "sub_folder"; ls_std::File anotherFile{wrongFilePath}; ASSERT_STREQ(expectedFilePath.c_str(), anotherFile.getAbsoluteFilePath().c_str()); } TEST_F(FileTest, getName) { ls_std::File file{this->fileLocation}; ls_std::File executableFile{TestHelper::getResourcesFolderLocation() + "app.exe"}; ls_std::File anotherFile{"bla.txt"}; ls_std::File directory{TestHelper::getResourcesFolderLocation()}; ASSERT_STREQ("simple.txt", file.getName().c_str()); ASSERT_STREQ("app.exe", executableFile.getName().c_str()); ASSERT_STREQ("bla.txt", anotherFile.getName().c_str()); ASSERT_STREQ("resources", directory.getName().c_str()); } TEST_F(FileTest, getParent) { ls_std::File file{this->fileLocation}; ASSERT_STREQ(TestHelper::getResourcesFolderLocation().c_str(), file.getParent().c_str()); } TEST_F(FileTest, getWorkingDirectory) { std::string workingDirectory = ls_std::File::getWorkingDirectory(); ASSERT_FALSE(workingDirectory.empty()); } TEST_F(FileTest, getSize) { ls_std::File file{this->fileLocation}; size_t size = file.getSize(); ASSERT_TRUE(size == 7 || size == 8); // different OS specific new lines } TEST_F(FileTest, isDirectory) { ls_std::File directory{TestHelper::getResourcesFolderLocation()}; ASSERT_TRUE(directory.isDirectory()); } TEST_F(FileTest, isDirectory_is_a_file) { ls_std::File file{this->fileLocation}; ASSERT_FALSE(file.isDirectory()); } TEST_F(FileTest, isFile) { const char separator = ls_std::FilePathSeparator::get(); ls_std::File file{this->fileLocation}; ASSERT_TRUE(file.isFile()); ls_std::File file2{TestHelper::getResourcesFolderLocation() + "list_test" + separator + "bla.txt"}; ASSERT_TRUE(file2.isFile()); } TEST_F(FileTest, isFile_is_a_directory) { ls_std::File directory{TestHelper::getResourcesFolderLocation()}; ASSERT_FALSE(directory.isFile()); } TEST_F(FileTest, lastModified) { ls_std::File file{this->fileLocation}; ASSERT_TRUE(file.lastModified() > 1590000000); } TEST_F(FileTest, list) { ls_std::File file{TestHelper::getResourcesFolderLocation() + "list_test"}; std::list filesInDirectory = file.list(); std::string expectedFile{}; const char separator = ls_std::FilePathSeparator::get(); auto filesIterator = filesInDirectory.begin(); ASSERT_FALSE(filesInDirectory.empty()); ASSERT_EQ(7, filesInDirectory.size()); expectedFile = file.getAbsoluteFilePath() + separator + "."; ASSERT_TRUE((ls_std::STLUtils::contains(filesInDirectory, expectedFile))); expectedFile = file.getAbsoluteFilePath() + separator + ".."; ASSERT_TRUE((ls_std::STLUtils::contains(filesInDirectory, expectedFile))); expectedFile = file.getAbsoluteFilePath() + separator + "another_file.txt"; ASSERT_TRUE((ls_std::STLUtils::contains(filesInDirectory, expectedFile))); expectedFile = file.getAbsoluteFilePath() + separator + "bla.txt"; ASSERT_TRUE((ls_std::STLUtils::contains(filesInDirectory, expectedFile))); expectedFile = file.getAbsoluteFilePath() + separator + "hello.txt"; ASSERT_TRUE((ls_std::STLUtils::contains(filesInDirectory, expectedFile))); expectedFile = file.getAbsoluteFilePath() + separator + "list_test_sub"; ASSERT_TRUE((ls_std::STLUtils::contains(filesInDirectory, expectedFile))); expectedFile = file.getAbsoluteFilePath() + separator + ".hidden_file.txt"; ASSERT_TRUE((ls_std::STLUtils::contains(filesInDirectory, expectedFile))); } TEST_F(FileTest, listFiles) { ls_std::File file{TestHelper::getResourcesFolderLocation() + "list_test"}; std::list filesInDirectory = file.listFiles(); std::string expectedFile{}; const char separator = ls_std::FilePathSeparator::get(); ASSERT_FALSE(filesInDirectory.empty()); ASSERT_EQ(4, filesInDirectory.size()); expectedFile = file.getAbsoluteFilePath() + separator + "another_file.txt"; ASSERT_TRUE((ls_std::STLUtils::contains(filesInDirectory, expectedFile))); expectedFile = file.getAbsoluteFilePath() + separator + "bla.txt"; ASSERT_TRUE((ls_std::STLUtils::contains(filesInDirectory, expectedFile))); expectedFile = file.getAbsoluteFilePath() + separator + "hello.txt"; ASSERT_TRUE((ls_std::STLUtils::contains(filesInDirectory, expectedFile))); expectedFile = file.getAbsoluteFilePath() + separator + ".hidden_file.txt"; ASSERT_TRUE((ls_std::STLUtils::contains(filesInDirectory, expectedFile))); } TEST_F(FileTest, makeDirectory) { ls_std::File directory{TestHelper::getResourcesFolderLocation() + "testDir"}; ASSERT_FALSE(directory.exists()); directory.makeDirectory(); ASSERT_TRUE(directory.exists()); directory.remove(); ASSERT_FALSE(directory.exists()); } TEST_F(FileTest, makeDirectory_directory_already_exists) { ls_std::File directory{TestHelper::getResourcesFolderLocation() + "list_test"}; EXPECT_THROW({ try { directory.makeDirectory(); } catch (const ls_std::FileOperationException &_exception) { throw; } }, ls_std::FileOperationException); } TEST_F(FileTest, makeDirectories) { ls_std::File directory{TestHelper::getResourcesFolderLocation() + "testDir/sub/tmp/bla"}; ASSERT_FALSE(directory.exists()); directory.makeDirectories(); ASSERT_TRUE(directory.exists()); // clean up directory.remove(); directory = ls_std::File(TestHelper::getResourcesFolderLocation() + "testDir/sub/tmp"); directory.remove(); directory = ls_std::File(TestHelper::getResourcesFolderLocation() + "testDir/sub"); directory.remove(); directory = ls_std::File(TestHelper::getResourcesFolderLocation() + "testDir"); directory.remove(); } TEST_F(FileTest, remove) { std::string fileName = TestHelper::getResourcesFolderLocation() + "removable_file.txt"; ls_std::File file{fileName}; file.createNewFile(); ASSERT_TRUE(file.exists()); file.remove(); ASSERT_FALSE(file.exists()); } TEST_F(FileTest, renameTo) { std::string currentName = TestHelper::getResourcesFolderLocation() + "tmp_rename_to.txt"; std::string newName = TestHelper::getResourcesFolderLocation() + "tmp_rename_to_better_name.txt"; ls_std::File file{currentName}; file.createNewFile(); ASSERT_TRUE(file.exists()); ASSERT_STREQ(currentName.c_str(), file.getAbsoluteFilePath().c_str()); file.renameTo(newName); ASSERT_TRUE(file.exists()); ASSERT_STREQ(newName.c_str(), file.getAbsoluteFilePath().c_str()); file.remove(); } TEST_F(FileTest, reset) { ls_std::File file{this->fileLocation}; ASSERT_TRUE(file.exists()); file.reset(TestHelper::getResourcesFolderLocation() + "list_test/hello.txt"); ASSERT_TRUE(file.exists()); } }