# Why does using cons to create a pair of two lists produce a list and two elements?

I've started learning Scheme, for fun mostly, and because I've never used a functional language before. I chose Scheme because I wanted to read SICP for a long time.

Anyway, I'm currently learning about lists, and before that I learned about cons, car and cdr. And there's an example that creates a list of lists with cons, like this :

``````(cons (list 1 2) (list 3 4))
``````

The resulting list is ((1 2) 3 4), which doesn't make sense to me, I would expect ((1 2)(3 4)) to be the result (a list made out of two lists). Why does it behave like that? I realize that if I were to use car, I would get (1 2), and cdr I'd get (3 4) becaue cdr always returns "the rest", but I don't understand why the list isn't made of two lists?

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This question is slightly different, but the answers precisely answer your question: stackoverflow.com/questions/2921912/… –  Nathan Sanders Jun 11 '10 at 12:11
why would you make a list with CONS when you earlier made a list with LIST? Why not stick with using LIST for making lists? CONS does not do the same as LIST - that's also why they are different functions. –  Rainer Joswig Jun 11 '10 at 12:16
It was an exercise in SICP –  fingerprint211b Jun 11 '10 at 12:17

You get a list with `(1 2)` as the first element (the car) and `(3 4)` as the rest (the cdr) because the first argument to cons is the first element of the list and the second argument is a list containing the remaining items.

This closely resembles the structure of a list: each node of a (proper) list contains an element and a list containing all other element. `cons` creates one such node.

If the second argument to `cons` would become the second element of the list, how would you create a list with three arguments? You'd have to make `cons` variardic at which point, it'd just be another name for `list`.

If you want to create a list of lists use `(list (list 1 2) (list 3 4))`.

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Thanks, that helped. –  fingerprint211b Jun 11 '10 at 12:25
`(1 2)` is the car, not the cdr, and `(3 4)` is the cdr. –  Zorf Jun 16 '10 at 3:40
@Lajla: Bah, of course. Fixed. –  sepp2k Jun 16 '10 at 8:53
``````(list (list 1 2)
(list 3 4))
``````

is the same as

``````(cons (list 1 2)
(cons (list 3 4)
'()))
``````

Which results in

``````((1 2) (3 4))
``````

which can also be written as

``````((1 . (2 . ()))
.
((3 . (4 . ()))
.
()))
``````
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``````list A:  [  |      ]
1   [ | ]
2 /

list B:  [  |      ]
3   [ | ]
4 /

======================

(cons A B)

[           |           ]
[  |     ]   [  |     ]
1  [ | ]     3  [ | ]
2 /          4 /
``````

A graphic representation of the inner structures can help us to visualize the problem.

And this will help some more:

``````[           |           ]
X        [  |     ]
3  [ | ]
4 /
``````

Do you see the pattern? The above is the list `(X 3 4)`. That's the reason `(cons A B)` draws only the `car` part as a separate list and not the `cdr`.

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Because a cons-cell is not a list of two elements, the two are often confused. If `(a . b)` is a cons cell, then `(a . (b . ()))` is a list of two elements. Any list safe the empty list specifically is a cons cell whose car field contains the first element and whose cdr field contains the list which contains the remaining elements. A list is thus simply a binary tree whose right-most leaf is the special constant `()` or `nil` depending on your dialect.

Which is why `(cons 0 '(1 2 3))` evaluates to `(0 1 2 3)` and not `(0 (1 2 3))` we create a cons cell whose car is `0`, and whose cdr is `(1 2 3)`, so a list `(0 1 2 3)`.

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