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I want to build a tree structure like this:

 root  Id 1
   child id 2
     grandChild  id 3

Code sample below. If I use GetChildrenNodesCorrect(), I get the correct result. But when GetChildrenNodesWrong() is used, it returns below:

root  Id 1
   child id 2

I know that ToList() is not deferred execution, and returns result immediatelly. Could anyone explain this?

 public class ToListTest
       public static void Entry()
           var toListTest = new ToListTest();



       public void Test()
           List<Node> newsList = new List<Node>
                   new Node{Id = 1, ParentId = 0},
                   new Node{Id = 2, ParentId = 1},
                   new Node{Id = 3, ParentId = 2}

          var root = BuildUpTree(newsList);

        private TreeNode BuildUpTree(List<Node> newsList)
            var root = new TreeNode { currentNode = newsList.First(n => n.ParentId == 0) };

            BuildUpTreeChildrenNodes(newsList, root);

            return root;

        private void BuildUpTreeChildrenNodes(List<Node> newsList, TreeNode currentTreeNode)

            currentTreeNode.Children = GetChildrenNodesWrong(newsList, currentTreeNode);

            foreach (var node in currentTreeNode.Children)
                BuildUpTreeChildrenNodes(newsList, node);    


        private  IEnumerable<TreeNode> GetChildrenNodesWrong(List<Node> newsList, TreeNode cuurentNode)
            return newsList.Where(n => n.ParentId == cuurentNode.currentNode.Id)
                                .Select(n => new TreeNode
                                    currentNode = n

        private IEnumerable<TreeNode> GetChildrenNodesCorrect(List<Node> newsList, TreeNode cuurentNode)
            return GetChildrenNodesWrong(newsList, cuurentNode).ToList();

       public class TreeNode

           public Node currentNode { get; set; }
           public IEnumerable<TreeNode> Children { get; set; }


       public class Node

           public int Id { get; set; }
           public int ParentId { get; set; }



In debug, when using GetChildrenNodesWrong(), root has both child and grandchild before the method returns. After the method returns, root has only child, and grandchild is null.

Update 2

IMO, the problem might not be related to clean code. But anyone is welcome to show more intuitive code.

share|improve this question
The grandChild is null, please see my update. –  Pingpong May 10 '13 at 17:53
+1 good question. Consider an analogy. Imagine you're building a legos wall. It's important that you stack each lego on a lego that fits and is part of the wall. You are building a tree, so it's important that you build each child TreeNode on a TreeNode that is its parent and is part of the tree. GetChildrenNodesWrong ensures you build child TreeNodes on parent TreeNodes. @Ben explains that ToList in GetChildrenNodesCorrect ensures that you build child TreeNodes on` TreeNodes` that are part of the tree. –  Steven Wexler May 10 '13 at 22:57
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2 Answers

up vote 1 down vote accepted

Every time the IEnumerable is evaluated the Linq query is re-executed. So, when you're computing the tree, it is allocating space for nodes but not assigning them to any permanent variable. This means that in the foreach loop in BuildUpTreeChildrenNodes, you are not calling the recursive function on the instance of the node you want. Instead, you're calling it on a re-instantiated version of the node that has been created by the foreach loop (which enumerates the IEnumerable). When you call ToList on the IEnumerable instead, then the foreach loop will return the elements of the list, which is in memory.

If you make root public static, and then debug your code, you'll see that when you call BuildUpTreeChildrenNodes, the node argument is not the instance of the node that you want. Even though it has the same ID and represents the same node in the graph, it is not actually connected in any way to the root node. Check:

root.Children.Any(n => n.Id == node.Id) //true
root.Children.Contains(node) //false

The simplest way to see your problem is here:

//Create a singleton Node list:
var nodeSingleton= Enumerable.Range(0, 1).Select(x => new Node { Id = x });
Console.Write(nodeSingleton.Single() == nodeSingleton.Single());

You might expect this to return true, but in fact it will be false - both times the Single Linq method is called, the deferred execution of the singleton variable is re-evaluated, and returns a different instance of the Node class.

If you call ToList on the singleton, however, then you get the list in memory and the Single method will return the same instance of the Node.

More broadly, I think the problem with this code is that it mixes up imperative and functional code too much. It is strange that so many of the methods are void and then the GetChildrenNodesWrong method is not. I think you should pick a style and stick with it, since switching paradigms can be confusing.

share|improve this answer
Thank you for your advice. Regarding your last paragraph, could you elaborate on reasons of not mixing void methods and non void methods? and its practicality. –  Pingpong May 11 '13 at 0:18
I didn't mean to overstate that advice. It is often fine to mix different styles of programming. In fact, it is encouraged to take the best of different styles offered by C#. All I meant to say is that subtle mistakes like the one presented in your question can be avoided. For example, if every method here were functional and used deferred execution, this problem probably would not have manifested. –  Ben Reich May 11 '13 at 0:35
I know the deferred execution, but in this case, why only grandchild is null when using the wrong method. Also, why root.Children.Contains(node) is false when it is above BuildUpTreeChildrenNodes() in the BuildUpTreeChildrenNodes() method. My understanding on this is that currentTreeNode.Children is only executed upon foreach, which produces children. Immediately, root.Children.Contains(node) is executed. Thus, it should be true. –  Pingpong May 11 '13 at 1:15
When you call Contains on root.Children it evaluates the Children enumerable again. Similarly, this happens when we check the state of the tree after building the tree. –  Ben Reich May 11 '13 at 2:09
I think the culprit is that all initialized variables var deferred execution is not permanent, even they are referenced after the method returns. Is it a C# bug, or a C# improvement to do? –  Pingpong May 11 '13 at 8:29
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I'm not entirely sure what you're asking. All LINQ queries have deferred execution, when you call ToList() you're simply forcing the query to execute. I think the main problem is in your where clause. Only two objects satisfy the condition so the IEnumerable returned by your LINQ query should only have 2 objects.

It's not doing what you expect because the LINQ query in GetChildrenNodesWrong is producing an "off by one" error. Here is basically what happens;

1) we feed it root for n = root nothing happens. We move to the next node.

2) n.Id = 1, the where condition is met by node 2 as it's parentId is 1. We allocate a new node, point current to node 2

3) We get to the third node now. n.ParentId = 2 and current.Id = 2. We have a match so we allocated another node and point current to node 3.

4) we're at the end of the list. Grand child is never allocated because we're off by one.

Basically you iterate x time where x is the length of the list but because current = n on the first iteration you don't allocate a node so you end up with x -1 nodes when you're expecting x.

share|improve this answer
No, Second iteration when Id is 2, and it gets its child. What do mean by it doesn't make sense? –  Pingpong May 10 '13 at 17:59
Sorry my original assumption was wrong, updating with correct error info. –  evanmcdonnal May 10 '13 at 18:15
Please see my update! –  Pingpong May 10 '13 at 20:19
@evanmcdonnal I've often written unintuitive code that produced errors because of unexpected side effects. Even worse, I've sometimes refactored the my unintuitive code into more readable code that produced the same errors because of the exact same side effects. Therefore, I think it's really important to identify what the source of errors rather than to assume that refactoring unintuitive code into intuitive code will solve my problems. I've learned the hard way :) –  Steven Wexler May 10 '13 at 23:49
@pingpong "read and think before you answer any questions" -- too harsh IMO. He gave a thorough, logical and thought out answer. I think it was a good attempt faulted by a really difficult concept and that you should be thankful for his effort. Sure, he could have run your code on a machine to see it execute correctly...but that seems like a pretty high standard to ask of a stranger for free. –  Steven Wexler May 11 '13 at 0:06
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