# Lists and Member Implementation in Common Lisp

I'm just starting to learn Common Lisp and the text I'm reading uses an example with the `member` function.

I'm unsure of the distinction between these two blocks of code:

``````(if (member nil '(1 nil 2 3))
'contains-nil
'does-not-contain-nil)
``````

returns CONTAINS_NIL

``````(if (member nil '(1 2 3))
'contains-nil
'does-not-contain-nil)
``````

returns DOES-NOT-CONTAIN-NIL

From what I understand, lists are equivalent to nested `cons` cells, so I would think `(member nil (cons 1 (cons 2 (cons 3 nil)))` would return `(nil)`, but it just returns `nil`. I'm not sure how a compiler or interpreter would make that distinction, and if someone could give me some insight on how I could implement the `member` function, I'd appreciate it.

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A cons cell holds two values, typically called its `car` and its `cdr`. The expression `(cons x y)` returns a cons cell whose `car` is `x`, and whose `cdr` is `y`. In Lisp, a list is either the empty list (typically the symbol `nil`), or a cons cell. When a list is a cons cell, the first element of the list is the cons cell's `car`, and the rest of the list is the cons cell's `cdr`. Consider the list `(1 2 3)`. It is a cons cell, and the first element of the list is `1`. The rest of the list is not empty, so it must be another list whose first element is `2`. The rest of that list is not empty, so it must be another list whose first element is `3`. The rest of that list is empty, i.e., `nil`. Based on that analysis, we can see why the list is formed by

``````(cons 1 (cons 2 (cons 3 nil)))
== (1 2 3)
``````

In a chain of cons cells that make up a list, the elements of the list are the car values of each cons cell in the chain. Lists can be elements of lists, as in

``````(cons 1 (cons nil (cons 2 (cons 3 nil))))
== (1 nil 2 3)
``````

or

``````(cons 1 (cons (cons 2 (cons 3 nil)) nil))
== (1 (2 3))
``````

but just because we see `nil` in the longer expression doesn't mean that `nil` is an element of the list.

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So to implement this in an interpreter, you would have some thing similar to `(if (equal (cdr list) nil) 'list-over 'list-not-over))` –  fvrghl May 22 '13 at 2:44
If `list-over` means "the rest of this list is empty," then yes. Common Lisp provides the function endp for this purpose, of course: `(endp nil) => t`, and `(endp nil) => nil`. –  Joshua Taylor May 22 '13 at 11:56
@JoshuaTaylor There's a typo in that last comment. The second code example should be, e.g., `(endp '(1 . 2)) => nil`. –  Joshua Taylor Aug 5 '13 at 12:21

`MEMBER` looks only at the elements of the list, not the list itself. An empty list is something different than an empty list with another empty list as an element.

`()` is not the same as `(())`. `()` is not the same as `(nil)`.

Since a list is made of cons cells, the elements are the `cars` of the cons cells.

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A list is defined to be either the empty list NIL or to be a cons cell whose CAR is an element of the list and whose CDR is another list. The list that is produced by

``````(cons 1 nil)
``````

is a list that has the element 1 and also all the elements of the empty list. The empty list has no elements, so NIL is not an element of the list. It is similar with sets: Although the empty set is a subset of any set it is not an element of every set (while it isn't generally prohibited from being an element of a set).

One way o implement MEMBER is like this:

``````(defun member (item list)
(if list
(if (eql item (car list))
list
(member item (cdr list)))))
``````

So if LIST is NIL the whole function will return NIL.

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There is no reason for the empty set to be an element of another set, just like the empty list `nil` may be an element of another list. It should rather read: Although the empty set is a subset of every set, it is not an element of every set (but might be of some). –  Philipp Matthias Schäfer Aug 5 '13 at 11:01
Thank you for pointing that out. I have no idea why I wrote it the way I did. –  Thomas Bartscher Aug 7 '13 at 19:50