public void TestPreventsDoubleAdd()
{
var index = new FileIndex();
var testFileInfo = FileSystemTestingHelpers.CreateFileInfo("/dir/foo.txt");
index.Add(testFileInfo);
Assert.IsNotNull(index.GetFileInfo(testFileInfo.Path));
// Attempt to re-add the same file. Should throw.
Assert.ThrowsException <AegisInternalErrorException>(() => index.Add(testFileInfo));
// Remove the file, then add it back. Should not throw.
index.Remove(testFileInfo.Path);
index.Add(testFileInfo);
// Attempt to add another file with the same virtual path. Should throw.
var fileInfoSamePath = FileSystemTestingHelpers.CreateFileInfo(testFileInfo.Path.ToString());
Assert.ThrowsException <AegisInternalErrorException>(() => index.Add(fileInfoSamePath));
// Attempt to add another file with the same ID, different virtual path. Should throw.
var fileInfoSameId = FileSystemTestingHelpers.CreateFileInfo("/dir/bar.txt", testFileInfo.FileId);
Assert.ThrowsException <AegisInternalErrorException>(() => index.Add(fileInfoSameId));
}
public void TestAddRemove_FileAtRoot()
{
VirtualFileTreeTestVisitor visitor;
var tree = new VirtualFileTree();
var rootFile1 = FileSystemTestingHelpers.CreateFileInfo("foo.txt");
var rootFile2 = FileSystemTestingHelpers.CreateFileInfo("bar.txt");
// Initial state -- empty tree.
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(0, visitor.PreOrderHits);
Assert.AreEqual(0, visitor.PreOrderVisitFiles.Count);
Assert.AreEqual(0, visitor.PostOrderHits);
Assert.AreEqual(0, visitor.PostOrderVisitFiles.Count);
// Add a file to the root, make sure visitor sees it.
tree.Add(rootFile1);
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(1, visitor.PreOrderHits);
CheckFileOrder(visitor.PreOrderVisitFiles, rootFile1);
Assert.AreEqual(1, visitor.PostOrderHits);
CheckFileOrder(visitor.PostOrderVisitFiles, rootFile1);
// Remove the file, make sure the tree is back in the empty state.
tree.Remove(rootFile1.Path);
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(0, visitor.PreOrderHits);
Assert.AreEqual(0, visitor.PreOrderVisitFiles.Count);
Assert.AreEqual(0, visitor.PostOrderHits);
Assert.AreEqual(0, visitor.PostOrderVisitFiles.Count);
// Add both files to the root, visitor should see them in alphabetical order.
tree.Add(rootFile1);
tree.Add(rootFile2);
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(1, visitor.PreOrderHits);
CheckFileOrder(visitor.PreOrderVisitFiles, rootFile2, rootFile1);
Assert.AreEqual(1, visitor.PostOrderHits);
CheckFileOrder(visitor.PostOrderVisitFiles, rootFile2, rootFile1);
// Remove one file, make sure the other remains unaffected.
tree.Remove(rootFile1.Path);
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(1, visitor.PreOrderHits);
CheckFileOrder(visitor.PreOrderVisitFiles, rootFile2);
Assert.AreEqual(1, visitor.PostOrderHits);
CheckFileOrder(visitor.PostOrderVisitFiles, rootFile2);
}
public void TestAddRemove_FilesInMultipleDirs()
{
VirtualFileTreeTestVisitor visitor;
var tree = new VirtualFileTree();
// The test files are spread into 4 directories:
// (/)
// `- root.txt
// `- (dir1)
// | `- d1.txt
// | `- (nested)
// | `- d1nest.txt
// `- (dir2)
// `- d2.txt
var rootFile = FileSystemTestingHelpers.CreateFileInfo("root.txt");
var dir1File = FileSystemTestingHelpers.CreateFileInfo("/dir1/d1.txt");
var nestedDir1File = FileSystemTestingHelpers.CreateFileInfo("/dir1/nested/d1nest.txt");
var dir2File = FileSystemTestingHelpers.CreateFileInfo("/dir2/d2.txt");
// Initial state -- empty tree.
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(0, visitor.PreOrderHits);
Assert.AreEqual(0, visitor.PreOrderVisitFiles.Count);
Assert.AreEqual(0, visitor.PostOrderHits);
Assert.AreEqual(0, visitor.PostOrderVisitFiles.Count);
// Add all the files -- check the pre/post order traversal
// across the 4 directories.
tree.Add(rootFile);
tree.Add(dir1File);
tree.Add(nestedDir1File);
tree.Add(dir2File);
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(4, visitor.PreOrderHits);
CheckFileOrder(visitor.PreOrderVisitFiles, rootFile, dir1File, nestedDir1File, dir2File);
Assert.AreEqual(4, visitor.PostOrderHits);
CheckFileOrder(visitor.PostOrderVisitFiles, nestedDir1File, dir1File, dir2File, rootFile);
// Collapse the "nested" directory by removing that file.
tree.Remove(nestedDir1File.Path);
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(3, visitor.PreOrderHits);
CheckFileOrder(visitor.PreOrderVisitFiles, rootFile, dir1File, dir2File);
Assert.AreEqual(3, visitor.PostOrderHits);
CheckFileOrder(visitor.PostOrderVisitFiles, dir1File, dir2File, rootFile);
// Collapse "dir1" altogether.
tree.Remove(dir1File.Path);
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(2, visitor.PreOrderHits);
CheckFileOrder(visitor.PreOrderVisitFiles, rootFile, dir2File);
Assert.AreEqual(2, visitor.PostOrderHits);
CheckFileOrder(visitor.PostOrderVisitFiles, dir2File, rootFile);
// Re-add the "nested dir1" file without creating the directory at dir1.
tree.Add(nestedDir1File);
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(3, visitor.PreOrderHits);
CheckFileOrder(visitor.PreOrderVisitFiles, rootFile, nestedDir1File, dir2File);
Assert.AreEqual(3, visitor.PostOrderHits);
CheckFileOrder(visitor.PostOrderVisitFiles, nestedDir1File, dir2File, rootFile);
// Add the file at dir1 back, we should be back to the fill tree again.
tree.Add(dir1File);
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(4, visitor.PreOrderHits);
CheckFileOrder(visitor.PreOrderVisitFiles, rootFile, dir1File, nestedDir1File, dir2File);
Assert.AreEqual(4, visitor.PostOrderHits);
CheckFileOrder(visitor.PostOrderVisitFiles, nestedDir1File, dir1File, dir2File, rootFile);
// Remove the file at dir1, the directory shouldn't fully collapse because
// of the file still in the nested directory.
tree.Remove(dir1File.Path);
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(3, visitor.PreOrderHits);
CheckFileOrder(visitor.PreOrderVisitFiles, rootFile, nestedDir1File, dir2File);
Assert.AreEqual(3, visitor.PostOrderHits);
CheckFileOrder(visitor.PostOrderVisitFiles, nestedDir1File, dir2File, rootFile);
// Removing "nested" should now collapse all of "dir1".
tree.Remove(nestedDir1File.Path);
visitor = new VirtualFileTreeTestVisitor();
tree.TraverseNodes(visitor);
Assert.AreEqual(2, visitor.PreOrderHits);
CheckFileOrder(visitor.PreOrderVisitFiles, rootFile, dir2File);
Assert.AreEqual(2, visitor.PostOrderHits);
CheckFileOrder(visitor.PostOrderVisitFiles, dir2File, rootFile);
}
