# Why lists created with cons() and list() are shown differently?

Why lists created with cons() and list() are shown differently despite the lists are equal? The first one shows items separated by dot, but second one do w/o.

``````> (cons 1 2)
(1 . 2)

> '(1 2)
(1 2)
``````

I know that `cons` constructs dotted pair, but in this case the lists are same but shown differently.

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``````(1 2)
``````

is a proper list of length two. That is, it contains two cons cells:

``````#1=(1 . #2#)
#2=(2 . ())
``````

On the other hand,

``````(1 . 2)
``````

is an improper list of length one. That is, it contains one cons cell:

``````#1=(1 . 2)
``````

A non-empty proper list is a list where the last cons cell's `cdr` that contains the empty list, `()`. A non-empty improper list is a list where the last cons cell's `cdr` contains anything else.

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It is not the same list; a list such as

``````  (1 2)
``````

which is returned by your quoted (i.e. 2nd) expression is the same as the result of

`````` (cons 1 (cons 2 ())
``````

A proper list like above is always a single-linked list of pairs whose last pair has a nil tail.

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Let me expand previous answers still further

Although we are talking about Lisp language here, I notice that a line from Page 8 and 9 of a famous Book named "The Little Schemer (4th edition)" help me understand the 2 puzzling facts altogether:

``````    Why is (cons 1    2) does not look like '(1 2)?
Why is (cons 1 '(2)) does     look like '(1 2)?
----
> (cons 1 2)
(1 . 2)
> (cons 1 '(2))
(1 2)
> '(1 2)
(1 2)
``````

Just read the "The Laws of Cons":

The primitive `cons` takes 2 arguments.

The 2nd argument to `cons` must be a list.

The result is a list.

In practice: (cons A B) works for all values A and B, And

(car (cons A B)) = A

(cdr (cons A B)) = B

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