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If I have a class like:

class Node
    string id;
    const Node next;

How do I find, say, the id of the last Node in the linked list?

string lastID(const Node node)
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2 Answers 2

up vote 3 down vote accepted

I assume that your problem is that you need to loop but can't reset your variable, because it's const? If you want to have an object which refers to a const object but is re-assignable itself (i.e. it's tail-const), then use std.typecons.Rebindable. In this case, that gives you:

string lastID(const Node node)
    import std.typecons;
    Rebindable!(const Node) curr = node;

        curr = curr.next;

    return curr.id;

I must say that I find it a bit odd though that you don't just ask about how to have a reference to a const object where the reference isn't const itself, since that's all I can see that you're really asking here, given how straightforward the loop itself is. As it stands, your question is a bit too much along the lines of asking someone to write your code for you rather than asking a question.

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Yes, that was the exact problem -- I couldn't loop because it was const, and I couldn't break const because that would've been undefined behavior. Seems like Rebindable is the answer, I completely forgot about that struct; thanks. –  Mehrdad Sep 20 '12 at 5:59
@Mehrdad, Casting away const is not undefind. –  he_the_great Sep 20 '12 at 10:54
It's casting away const and then mutating which is undefined. –  Jonathan M Davis Sep 20 '12 at 10:59

You can also go fancy and use recursion:

string lastID(const Node node)
        return lastID(node.next);
    return node.id;

Do take in mind that it might cause a stack overflow if the list is very long(as far as I know D does not support tail call recursion optimization)

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Yeah that's exactly why I didn't use recursion, it's not practical without a guarantee of tail recursion. –  Mehrdad Sep 20 '12 at 7:31
dmd currently optimizes tail recursion but not tail calls. Tail recursion == function calls itself as the last expression. Tail call == function issues a call to another function as the last expression. Without tail call optimization, mutual recursion will consume stack as you noted. digitalmars.com/pnews/… –  jpf Sep 22 '12 at 9:25

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