A list can represent an unordered mathematical set--simply consider a
value an element of a set if it appears in the list, and ignore the
order of the list. To form the union of two sets, use append
(as
long as you don't mind having duplicate elements). Other useful
functions for sets include memq
and delq
, and their
equal
versions, member
and delete
.
Common Lisp note: Common Lisp has functions
union
(which avoids duplicate elements) andintersection
for set operations, but GNU Emacs Lisp does not have them. You can write them in Lisp if you wish.
memq
returns a list starting with the
first occurrence of object. Otherwise, it returns nil
.
The letter `q' in memq
says that it uses eq
to
compare object against the elements of the list. For example:
(memq 'b '(a b c b a)) => (b c b a) (memq '(2) '((1) (2))) ;(2)
and(2)
are noteq
. => nil
eq
to
object from list. The letter `q' in delq
says
that it uses eq
to compare object against the elements of
the list, like memq
.
When delq
deletes elements from the front of the list, it does so
simply by advancing down the list and returning a sublist that starts
after those elements:
(delq 'a '(a b c)) == (cdr '(a b c))
When an element to be deleted appears in the middle of the list, removing it involves changing the CDRs (see section Altering the CDR of a List).
(setq sample-list '(a b c (4))) => (a b c (4)) (delq 'a sample-list) => (b c (4)) sample-list => (a b c (4)) (delq 'c sample-list) => (a b (4)) sample-list => (a b (4))
Note that (delq 'c sample-list)
modifies sample-list
to
splice out the third element, but (delq 'a sample-list)
does not
splice anything--it just returns a shorter list. Don't assume that a
variable which formerly held the argument list now has fewer
elements, or that it still holds the original list! Instead, save the
result of delq
and use that. Most often we store the result back
into the variable that held the original list:
(setq flowers (delq 'rose flowers))
In the following example, the (4)
that delq
attempts to match
and the (4)
in the sample-list
are not eq
:
(delq '(4) sample-list) => (a c (4))
The following two functions are like memq
and delq
but use
equal
rather than eq
to compare elements. See section Equality Predicates.
member
tests to see whether object is a member
of list, comparing members with object using equal
.
If object is a member, member
returns a list starting with
its first occurrence in list. Otherwise, it returns nil
.
Compare this with memq
:
(member '(2) '((1) (2))) ;(2)
and(2)
areequal
. => ((2)) (memq '(2) '((1) (2))) ;(2)
and(2)
are noteq
. => nil ;; Two strings with the same contents areequal
. (member "foo" '("foo" "bar")) => ("foo" "bar")
equal
to
object from list. It is to delq
as member
is
to memq
: it uses equal
to compare elements with
object, like member
; when it finds an element that matches,
it removes the element just as delq
would. For example:
(delete '(2) '((2) (1) (2))) => ((1))
Common Lisp note: The functions
member
anddelete
in GNU Emacs Lisp are derived from Maclisp, not Common Lisp. The Common Lisp versions do not useequal
to compare elements.
See also the function add-to-list
, in section How to Alter a Variable Value,
for another way to add an element to a list stored in a variable.
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