public void Archive()
{
const string archiveFileName = "archive.zip";
const string archiveRootFolder = "C:/io_testing";
const string archiveOutputPath = archiveRootFolder + "/" + archiveFileName;
const string archiveFolder = archiveRootFolder + "/files";
const string fileName1 = archiveFolder + "/file1.txt";
const string fileName2 = archiveFolder + "/file2.txt";
const string fileName3 = archiveFolder + "/subfolder/file3.txt";
var files = DataFactory.CreateFiles(fileName1,
fileName2,
fileName3).ToList();
var fileSystem = new FileSystem();
var directoryManager = new FileSystemHelper(fileSystem);
if (fileSystem.DirExists(archiveRootFolder))
fileSystem.DeleteDir(archiveRootFolder, true);
files.ForEach(directoryManager.AddFile);
var sut = new ZipFileCompressorMock(fileSystem);
sut.CreateFromDirectory(archiveFolder, archiveOutputPath);
Assert.IsTrue(fileSystem.FileExists(archiveOutputPath));
var file = directoryManager.GetFile(archiveOutputPath);
Assert.AreEqual(archiveFileName, file.Name);
Assert.AreEqual(archiveOutputPath, file.Path);
//Assert.IsInstanceOfType(file, typeof(ZipFileMock));
//var zipFile = (ZipFileMock)file;
//Assert.AreEqual(files.Count, zipFile.FileCount);
}
public ConfigDeserializationTests()
{
//FileSystem = new MemoryFileSystem();
FileSystem = new FileSystem();
Framework.ConfigurationManager = new LuxConfigurationManager(new ConfigurationManagerAdapter())
{
FileSystem = FileSystem,
};
}
public void GetStructure_WindowsUsersFolder()
{
const string dirPath = "C:/Users";
var fileSystem = new FileSystem();
var sut = new FileSystemHelper(fileSystem);
var structure = sut.GetStructure(dirPath);
Assert.IsNotNull(structure);
Assert.AreEqual(1, structure.Count);
Assert.IsTrue(structure.ContainsKey(dirPath));
}
public void ArchiveAndUnarchive()
{
const string archiveFileName = "archive.zip";
const string archiveRootFolder = "C:/io_testing";
const string archiveOutputPath = archiveRootFolder + "/" + archiveFileName;
const string archiveFolder = archiveRootFolder + "/files";
const string fileName1 = archiveFolder + "/file1.txt";
const string fileName2 = archiveFolder + "/file2.txt";
const string fileName3 = archiveFolder + "/subfolder/file3.txt";
var files = DataFactory.CreateFiles(fileName1,
fileName2,
fileName3).ToList();
var fileSystem = new FileSystem();
var directoryManager = new FileSystemHelper(fileSystem);
if (fileSystem.DirExists(archiveRootFolder))
fileSystem.DeleteDir(archiveRootFolder, true);
files.ForEach(directoryManager.AddFile);
var sut = new ZipFileCompressorMock(fileSystem);
var zipFile = sut.CreateFromDirectory(archiveFolder, archiveOutputPath);
Assert.IsTrue(fileSystem.FileExists(archiveOutputPath));
//var file = directoryManager.GetFile(archiveOutputPath);
//Assert.AreEqual(archiveFileName, file.Name);
//Assert.AreEqual(archiveOutputPath, file.Path);
//Assert.IsInstanceOfType(file, typeof(ZipFileMock));
//var zipFile = (ZipFileMock)file;
Assert.AreEqual(files.Count, zipFile.FileCount);
const string unarchiveOutputFolder = archiveRootFolder + "/output";
var i = 0;
//var extractedFiles = ZipFileMock.Unarchive(file.Bytes, unarchiveOutputFolder);
var extractedFiles = sut.ExtractToDirectory(archiveOutputPath, unarchiveOutputFolder);
foreach (var extractedFile in extractedFiles)
{
var f = files[i++];
var relativePath = PathHelper.Subtract(f.Path, archiveFolder);
var expectedPath = PathHelper.Combine(unarchiveOutputFolder, relativePath);
Assert.AreEqual(expectedPath, extractedFile.Path);
Assert.AreEqual(f.Name, extractedFile.Name);
Assert.AreEqual(f.Content, extractedFile.Content);
}
}