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This section describes three constructs that are often used together
with if and cond to express complicated conditions. The
constructs and and or can also be used individually as
kinds of multiple conditional constructs.
t if condition is nil, and nil otherwise.
The function not is identical to null, and we recommend
using the name null if you are testing for an empty list.
and special form tests whether all the conditions are
true. It works by evaluating the conditions one by one in the
order written.
If any of the conditions evaluates to nil, then the result
of the and must be nil regardless of the remaining
conditions; so and returns nil right away, ignoring
the remaining conditions.
If all the conditions turn out non-nil, then the value of
the last of them becomes the value of the and form. Just
(and), with no conditions, returns t, appropriate
because all the conditions turned out non-nil. (Think
about it; which one did not?)
Here is an example. The first condition returns the integer 1, which is
not nil. Similarly, the second condition returns the integer 2,
which is not nil. The third condition is nil, so the
remaining condition is never evaluated.
(and (print 1) (print 2) nil (print 3))
-| 1
-| 2
=> nil
|
Here is a more realistic example of using and:
(if (and (consp foo) (eq (car foo) 'x))
(message "foo is a list starting with x"))
|
Note that (car foo) is not executed if (consp foo) returns
nil, thus avoiding an error.
and can be expressed in terms of either if or cond.
For example:
(and arg1 arg2 arg3) == (if arg1 (if arg2 arg3)) == (cond (arg1 (cond (arg2 arg3)))) |
or special form tests whether at least one of the
conditions is true. It works by evaluating all the
conditions one by one in the order written.
If any of the conditions evaluates to a non-nil value, then
the result of the or must be non-nil; so or returns
right away, ignoring the remaining conditions. The value it
returns is the non-nil value of the condition just evaluated.
If all the conditions turn out nil, then the or
expression returns nil. Just (or), with no
conditions, returns nil, appropriate because all the
conditions turned out nil. (Think about it; which one
did not?)
For example, this expression tests whether x is either
nil or the integer zero:
(or (eq x nil) (eq x 0)) |
Like the and construct, or can be written in terms of
cond. For example:
(or arg1 arg2 arg3)
==
(cond (arg1)
(arg2)
(arg3))
|
You could almost write or in terms of if, but not quite:
(if arg1 arg1
(if arg2 arg2
arg3))
|
This is not completely equivalent because it can evaluate arg1 or
arg2 twice. By contrast, (or arg1 arg2
arg3) never evaluates any argument more than once.
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