An output stream specifies what to do with the characters produced by printing. Most print functions accept an output stream as an optional argument. Here are the possible types of output stream:
t
nil
nil
specified as an output stream means to use the value of
standard-output
instead; that value is the default output
stream, and must not be nil
.
Many of the valid output streams are also valid as input streams. The difference between input and output streams is therefore more a matter of how you use a Lisp object, than of different types of object.
Here is an example of a buffer used as an output stream. Point is initially located as shown immediately before the `h' in `the'. At the end, point is located directly before that same `h'.
---------- Buffer: foo ---------- This is t-!-he contents of foo. ---------- Buffer: foo ---------- (print "This is the output" (get-buffer "foo")) => "This is the output" ---------- Buffer: foo ---------- This is t "This is the output" -!-he contents of foo. ---------- Buffer: foo ----------
Now we show a use of a marker as an output stream. Initially, the
marker is in buffer foo
, between the `t' and the `h' in
the word `the'. At the end, the marker has advanced over the
inserted text so that it remains positioned before the same `h'.
Note that the location of point, shown in the usual fashion, has no
effect.
---------- Buffer: foo ---------- This is the -!-output ---------- Buffer: foo ---------- (setq m (copy-marker 10)) => #<marker at 10 in foo> (print "More output for foo." m) => "More output for foo." ---------- Buffer: foo ---------- This is t "More output for foo." he -!-output ---------- Buffer: foo ---------- m => #<marker at 34 in foo>
The following example shows output to the echo area:
(print "Echo Area output" t) => "Echo Area output" ---------- Echo Area ---------- "Echo Area output" ---------- Echo Area ----------
Finally, we show the use of a function as an output stream. The
function eat-output
takes each character that it is given and
conses it onto the front of the list last-output
(see section Building Cons Cells and Lists). At the end, the list contains all the characters output, but
in reverse order.
(setq last-output nil) => nil (defun eat-output (c) (setq last-output (cons c last-output))) => eat-output (print "This is the output" 'eat-output) => "This is the output" last-output => (10 34 116 117 112 116 117 111 32 101 104 116 32 115 105 32 115 105 104 84 34 10)
Now we can put the output in the proper order by reversing the list:
(concat (nreverse last-output)) => " \"This is the output\" "
Calling concat
converts the list to a string so you can see its
contents more clearly.
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