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My friends and I are working on some basic Ruby exercises to get a feel for the language, and we've run into an interesting behavior that we're yet unable to understand. Basically, we're creating a tree data type where there's just one class, node, which contains exactly one value and an array of zero or more nodes. We're using rspec's autospec test runner. At one point we started writing tests to disallow infinite recursion (a circular tree structure).

Here's our test:

it "breaks on a circular reference, which we will fix later" do
  tree1 = 1
  tree2 = 1
  tree2.add_child tree1
  tree1.add_child tree2
  (tree1 == tree2).should be_false

Here's the Node class:

class Node
  attr_accessor :value
  attr_reader :nodes

  def initialize initial_value = nil
    @value = initial_value
    @nodes = []

  def add_child child
    @nodes.push child
    @nodes.sort! { |node1, node2| node1.value <=> node2.value }

  def == node
    return (@value == node.value) && (@nodes == node.nodes)

We expect the last line of the test to result in an infinite recursion until the stack overflows, because it should continually compare the child nodes with each other and never find a leaf node. (We're under the impression that the == operator on an array will iterate over the array and call == on each child, based on the array page of RubyDoc.) But if we throw a puts into the == method to see how often it's called, we discover that it's called exactly three times and then the test passes.

What are we missing?

Edit: Note that if we replace be_false in the test with be_true then the test fails. So it definitely thinks the arrays are not equal, it's just not recursing over them (aside from the three distinct calls to ==).

share|improve this question
@beavis: "==" should be recursive in this implementation, because it's trying to compare the children of two nodes which reference each other as children by comparing their children, and so on. It's a "tree" because it's a node with child nodes, which can in turn have child nodes, etc. See – David Sep 12 '10 at 20:56
It is a pretty messy tree. A node should not know how to arrange itself inside of whatever data structure it lives in. – user370731 Sep 12 '10 at 21:01
@beavis: Are you referring to the sort? That was something we felt like adding to test out array sorting and will probably be removed as the code matures. It's an early prototype, not actually going to be used for anything. As I said, we're just getting a feel for the language at this point. – David Sep 12 '10 at 21:06
up vote 7 down vote accepted

If you click on the method name of the RubyDoc you linked to, you will see the source (in C) of the Array#== method:

    // [...]
    if (RARRAY(ary1)->len != RARRAY(ary2)->len) return Qfalse;
    if (rb_inspecting_p(ary1)) return Qfalse;
    return rb_protect_inspect(recursive_equal, ary1, ary2);

This implementation (specifically the "recursive_equal") suggests that Array#== already implements the infinite recursion protection you're after.

share|improve this answer
Ah, so it does. Technically the protection we're after is to ultimately prevent it from even being allowed on our data type, but that's something for the add_child method. I guess it never occurred to us that it would just silently return and not throw some kind of error. It's all part of getting used to the language, I guess. Out of curiosity, do you know the reason for the silent return? (Admittedly, I'm not well versed in C, so I'm only vaguely following this implementation.) – David Sep 12 '10 at 20:53
My C isn't great either, but it seems that the previous line if (rb_inspecting_p(ary1)) return Qfalse; is what actually triggers the "silent" false return. Basically it seems to return false if we encounter ary1 at any point inside ary1. – Gareth Sep 12 '10 at 21:22
@Gareth: Makes sense. I didn't even notice those implementations were linked on that site. That alone is going to help us in our efforts (as well as brush us up a little bit on reading C). Knowing that check is there implies to me that it's easy to check for, which will come in handy in the add_child method. – David Sep 12 '10 at 21:33
Well, be aware that not everything in the C API is available in the Ruby API - the Array object is implemented in C rather than as a pure Ruby object. The Ruby calls are all you have to go on unless you're writing your own code as a C extension. – Gareth Sep 12 '10 at 21:43
I'm new to Ruby but it is my understanding that the original reference implementation was written in C but did not (and still does not?) follow a specification. Thus, is it possible that running this code on another implementation of Ruby (JRuby, for instance) could yield different results (specifically, infinite recursion)? Or am I misunderstanding the whole "different implementations of Ruby" situation? – Matt Briançon Sep 21 '10 at 22:04

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