214 lines
6.6 KiB
C#
214 lines
6.6 KiB
C#
namespace InnovEnergy.Lib.Utils;
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public static class TreeTraversal
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{
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// public static IEnumerable<T> TraverseDepthFirstPreOrder<T>(this T root, Func<T, IEnumerable<T>> getChildren)
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// {
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// var stack = new Stack<IEnumerator<T>>();
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//
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// var iterator = root.AsSingleEnumerator();
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//
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// while (true)
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// {
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// while (iterator.MoveNext())
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// {
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// yield return iterator.Current;
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//
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// iterator = getChildren(iterator.Current).GetEnumerator();
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// stack.Push(iterator);
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// }
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//
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// iterator.Dispose();
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// if (stack.Count == 0)
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// yield break;
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//
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// iterator = stack.Pop();
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// }
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// }
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public static IEnumerable<T> TraverseDepthFirstPreOrder<T>(this T root, Func<T, IEnumerable<T>> getChildren)
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{
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return Traverse(root,
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getChildren,
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branchOpen: true,
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branchClose: false,
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leaf: true);
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}
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public static IEnumerable<T> TraverseDepthFirstPostOrder<T>(this T root, Func<T, IEnumerable<T>> getChildren)
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{
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return Traverse(root,
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getChildren,
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branchOpen: false,
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branchClose: true,
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leaf: true);
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}
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public static IEnumerable<T> TraverseLeaves<T>(this T root, Func<T, IEnumerable<T>> getChildren)
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{
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return Traverse(root,
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getChildren,
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branchOpen: false,
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branchClose: false,
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leaf: true);
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}
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public static IEnumerable<(T node, IEnumerable<T> path)> TraverseLeavesWithPath<T>(this T root, Func<T, IEnumerable<T>> getChildren)
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{
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return TraverseWithPath(root,
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getChildren,
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branchOpen: false,
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branchClose: false,
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leaf: true);
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}
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public static IEnumerable<T> Traverse<T>(T root,
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Func<T, IEnumerable<T>> getChildren,
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Boolean branchOpen,
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Boolean branchClose,
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Boolean leaf)
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{
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// the if-checks on the constant booleans are
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// almost free because of modern branch predictors
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var stack = new Stack<IEnumerator<T>>();
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var it = root.AsSingleEnumerator();
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it.MoveNext();
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while (true)
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{
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//////// going down ////////
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while (true)
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{
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var cit = getChildren(it.Current).GetEnumerator();
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if (cit.MoveNext()) // node has children, must be a branch (and not a leaf)
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{
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if (branchOpen)
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yield return it.Current;
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stack.Push(it);
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it = cit;
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}
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else // no children, hence a leaf
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{
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var node = it.Current;
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if (leaf)
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yield return node;
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if (!it.MoveNext())
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break; // no more siblings: goto parent
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}
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}
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//////// going up ////////
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while (true)
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{
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it.Dispose();
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if (stack.Count == 0) yield break; // we got to the bottom of the stack, we're done
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it = stack.Pop();
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var node = it.Current;
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if (branchClose)
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yield return node; // we've seen all its children: close the branch
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if (it.MoveNext())
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break;
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}
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}
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}
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public static IEnumerable<(T node, IEnumerable<T> path)> TraverseWithPath<T>(T root,
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Func<T, IEnumerable<T>> getChildren,
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Boolean branchOpen,
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Boolean branchClose,
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Boolean leaf)
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{
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// the if-checks on the constant booleans are
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// almost free because of modern branch predictors
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var stack = new Stack<IEnumerator<T>>();
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var it = root.AsSingleEnumerator();
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it.MoveNext();
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while (true)
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{
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//////// going down ////////
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while (true)
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{
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var cit = getChildren(it.Current).GetEnumerator();
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if (cit.MoveNext()) // node has children, must be a branch (and not a leaf)
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{
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if (branchOpen)
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yield return (node: it.Current, path: stack.Select(e => e.Current));
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stack.Push(it);
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it = cit;
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}
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else // no children, hence a leaf
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{
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if (leaf)
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yield return (node: it.Current, path: stack.Select(e => e.Current));
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if (!it.MoveNext())
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break; // no more siblings: goto parent
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}
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}
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//////// going up ////////
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while (true)
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{
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it.Dispose();
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if (stack.Count == 0) yield break; // we got to the bottom of the stack, we're done
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it = stack.Pop();
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if (branchClose)
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yield return (node: it.Current, path: stack.Select(e => e.Current)); // we've seen all its children: close the branch
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if (it.MoveNext())
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break;
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}
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}
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}
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public static IEnumerable<T> TraverseBreadthFirst<T>(this T node, Func<T, IEnumerable<T>> getChildren)
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{
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var queue = new Queue<IEnumerator<T>>();
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var iterator = node.AsSingleEnumerator();
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while(true)
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{
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while (iterator.MoveNext())
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{
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yield return iterator.Current;
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iterator.Current
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.Apply(getChildren)
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.GetEnumerator()
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.Apply(queue.Enqueue);
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}
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iterator.Dispose();
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if (queue.Count == 0)
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yield break;
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iterator = queue.Dequeue();
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}
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}
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} |