# Why does array concatenation lead to (infinitely?) nested array?

If the following code is run in an IRB console:

``````arr = [[], 1]
arr[0]<<arr
``````

The result is `[[[...], 1]]`.

Thereafter `arr[0]`, `arr[0][0]`, `arr[0][0][0]`, etc. produce the same output.

This sort of makes sense, because I can't display arbitrary amounts of nesting right?

However, `arr[0][1]` produces nil (rather then `1`) what? But `arr[0][0][1]` prints `1`.

``````arr[0][0][0][1] => nil
``````

then:

``````arr[0][0][0][0][1] => 1
``````

etc.

What is going on? What is the structure that is actually created? How deep does this structure recurse? Where are the nils coming from?

-

Just see what is inside

``````arr[0]
# => [[[...], 1]]
``````

`arr[0]` is an array that has only one element. So `[1]` will be out of this array and return nil.

``````arr[0][0]
# => [[[...]], 1]
``````

`arr[0][0]` will get into the only one element of the top array and this element contains two values so `[1]` will found a value.

It behaves so because you did `arr[0] << arr` and not `arr[0] = arr`.
By doing `arr = [[], 1]; arr[0] << arr` you did not set `arr` as `arr[0]` but your added `arr` as an element of arr[0] which is an array itself.

``````arr = ["whatever", 1]
# => ["whatever", 1]
arr[0] = arr
# => [[...], 1]
arr[0][1]
# => 1
arr[0][0][1]
``````

Edit

Back to your question, why does it become a recursive array. You are not passing `arr`'s value to `arr[0]` but its reference.

``````arr = ["whatever", 1]
# => ["whatever", 1]
arr.object_id
# => 69999412942060
arr[0] = arr
# => [[...], 1]
arr[0].object_id
# => 69999412942060
arr[0].object_id == arr.object_id
# => true
``````

You have Ouroboros right there since `arr` and `arr[0]` refers the same object.
If you wanted to only insert its value you should have deep_copied it first.

``````arr = ["whatever", 1]
arr_copy = Marshal.load(Marshal.dump(arr)) # copy the value,
# delete the object reference dependence
arr[0] = arr_copy
puts arr.inspect
# [["whatever", 1], 1] # no infinit recurrence.
``````
-
right brainfart. Actually writing it out does explain the nils and the sizes. However, why doesn't it simply set arr to [[[],1],1]. Why does it recurse at all, and just how deep does it recurse? –  Abraham P Jun 19 '13 at 5:19
@AbrahamP I edited my answer with explanations. –  oldergod Jun 19 '13 at 5:22
I'm really sorry, I feel like I'm missing something really fundamental. However, arr = [[],1] arr[0] << [[],1] Does NOT produce the same, seemingly infinite, nesting, but rather just a single level of nesting. Is it some sort of pass by reference thing that's going on? –  Abraham P Jun 19 '13 at 5:42
@AbrahamP do you mean you don't see the difference between `<<` and `=` ? –  oldergod Jun 19 '13 at 5:43
Modified above comment, accidentally hit enter halfway through, sorry for spam. And yeah I do understand the difference between << and []. << pushes a new item onto the tail of an existing array, while = sets the equality of an object to a new object (in this case an array). I also do understand why the length fluctuates. Worth noting however, is that when assigning arr[0] = arr, this "infinite"(for lack of better word) nesting still seems to occur just with a consistent length. –  Abraham P Jun 19 '13 at 5:46

`Array#size` is the essential too to demonstrate why sometimes you are seeing `nil` or `1` as the output:

``````arr = [[], 1]
arr[0]<< arr
arr.size # => 2
arr # => [[[...]], 1]

arr[0] # => [[[...], 1]]
arr[0].size # => 1
arr[0][1] # => nil

arr[0][0] # => [[[...]], 1]
arr[0][0].size # => 2
arr[0][0][1] # => 1

arr[0][0][0] # => [[[...], 1]]
arr[0][0][0].size # => 1
arr[0][0][0][1] # => nil

arr[0][0][0][0] # => [[[...]], 1]
arr[0][0][0][0].size # => 2
arr[0][0][0][0][1] # => 1
``````
-
right brainfart. Actually writing it out does explain the nils and the sizes. However, why doesn't it simply set arr to [[[],1],1]. Why does it recurse at all, and just how deep does it recurse? –  Abraham P Jun 19 '13 at 5:18