public static int RemoveTimeSubset <T>(this AvlTree <MappedInterval <T> > tree, long from, long to)
{
var removedNodesCount = 0;
INode <MappedInterval <T> > first = null;
INode <MappedInterval <T> > last = null;
// TODO Remove .ToArray()
foreach (var node in tree.FirstOrderedSubsequence(node => AcceptNode(node.Key, from, to)).ToArray())
{
if (first == null)
{
first = node;
}
last = node;
tree.Delete(node.Key);
removedNodesCount++;
}
if (first != null && first.Key.IntervalStart < from)
{
tree.Insert(new MappedInterval <T>(first.Key.IntervalStart, from, first.Key.Payload));
}
if (last != null && to < last.Key.IntervalEnd)
{
tree.Insert(new MappedInterval <T>(to, last.Key.IntervalEnd, last.Key.Payload));
}
return(removedNodesCount);
}
public void BatchDelete()
{
// The constructed AVL Tree would be
// 30
// / \
// 20 40
// / \ \
// 10 25 50
var tree = new AvlTree <int>();
tree.Insert(10);
tree.Insert(20);
tree.Insert(25);
tree.Insert(30);
tree.Insert(40);
tree.Insert(50);
tree.Insert(60);
tree.Insert(70);
tree.Insert(80);
tree.Insert(90);
tree.Insert(100);
var toRemove = tree.FirstOrderedSubsequence(node => node.Key >= 20 && node.Key < 35);
var removedCount = tree.BatchDelete(toRemove.Select(node => node.Key));
Assert.That(removedCount, Is.EqualTo(3));
tree.TraversalMode = TraversalMode.InOrder;
var actual = tree;
CollectionAssert.AreEqual(new[] { 10, 40, 50, 60, 70, 80, 90, 100 }, actual);
AssertTreeIsBalanced(tree);
}
public static IEnumerable <MappedInterval <T> > TimeSubset <T>(this AvlTree <MappedInterval <T> > tree, long from, long to)
{
var subsequence = tree.FirstOrderedSubsequence(node => AcceptNode(node.Key, from, to));
return(subsequence.Select(node => node.Key));
}
