What language feature can allow transition from visitor to sequence?

Question

I will use C# syntax since I am familiar with it, but it is not really language-specific.

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Let's say we want to provide an API to go over a Tree and do something with each Node.

Solution 1: void Visit(Tree tree, Action<Node> action)
It takes a tree, and calls action on each node in the tree.

Solution 2: IEnumerable<Node> ToEnumerable(Tree tree)
It converts tree to a flat lazy sequence so we can go over and call action on each node.

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Now, let's see how we can convert one API to another.

It is pretty trivial to provide Visit on top of ToEnumerable:

void Visit(Tree tree, Action<Node> action) {
    ToEnumerable(tree).ForEach(action);
}

However, is there a concept/feature in any language that will allow to provide ToEnumerable on top of Visit (as lazy sequence, so list is not created in advance)?

Answer 1

Not sure if I understand you correctly, but in Python, you can create iterable interface on any object. So you would just add special method __iter__ (which will yield nodes while traversing the tree). The visit procedure is then just about iterating through Tree object and calling action on each node.

Answer 2

If you are writing the code that will visit each node (as with a tree), it's possible to have an iterator call iterators for each branch, and perform a yield return on leaf nodes. This approach will work, and is very simple, but has the serious disadvantage that it's very easy to end up with code that will be very readable but execute very slowly. Some other questions and answers on this site will offer insight as to how to traverse trees efficiently within an iterator.

If the "tree" was just an example, and what you really have is a class which exposes a routine to call some delegate upon each node (similar to List.ForEach()), but does not expose an IEnumerable, you may be able to use the former to produce a List, which you could then iterate. Use something like var myList = new List<someThing>(); myCollection.ForEach( (x) => myList.Add(x) ); and then you may be able to enumerate myList.

If even that isn't sufficient, because the objects that were added to the list may not be valid by the time enumeration is complete, it may in rare cases be possible to use multiple threading to accomplish what's needed. For example, if you have two sorted collections whose ForEach method prepares each items for use, does the specified action, and then cleans up each item before proceeding to the next, and if you need to interleave the actions on items from two independent collections, one might be able to iterate the collections on separate threads, and use synchronization primitives so each thread will wait as necessary for the other.

Note that collections which only expose themselves via ForEach method are apt to restrict access during the execution of such a ForEach (if such restriction weren't necessary, they would probably implement IEnumerable). It may be possible for the "item action" called by one ForEach to perform another ForEach on the same collection on the same thread, since the latter ForEach would have to complete before the former one could resume. While one ForEach is running, however, an attempt to call a ForEach on a second thread would likely either malfunction or wait for the first operation to complete. If the first ForEach was waiting for some action by the second, deadlock would result. Because of this, scenarios where multi-threading will work better than simply building a List are rare. Nonetheless, there are a few cases where it may be helpful (e.g. the above-mentioned "zipper" operation on independent collections).

Answer 3

I think now I understand the idea. The concept that I need here is called first-class continuations or, specifically, call/cc. The confusing thing about it for me is that C# already provides a limited implementation of this concept in yield return, but it is not applicable to my scenario.

So if C# provided full implementation, the solution would look like:

IEnumerable<Node> ToEnumerable(Tree tree) {
    tree.Visit(node => magic yield return node);
}

where magic yield return instead of returning sequence from node => ... lambda returns next element from ToEnumerable.

However, this answer is still not complete as I do not see the exact correlation between yield return and call/cc. I will update the answer when I understand this.