Most of the Lisp functions for reading text take an input stream as an argument. The input stream specifies where or how to get the characters of the text to be read. Here are the possible types of input stream:
The input characters are read from buffer, starting with the character directly after point. Point advances as characters are read.
The input characters are read from the buffer that marker is in, starting with the character directly after the marker. The marker position advances as characters are read. The value of point in the buffer has no effect when the stream is a marker.
The input characters are taken from string, starting at the first character in the string and using as many characters as required.
The input characters are generated by function, which must support two kinds of calls:
t used as a stream means that the input is read from the
minibuffer. In fact, the minibuffer is invoked once and the text
given by the user is made into a string that is then used as the
input stream. If Emacs is running in batch mode (see Batch Mode),
standard input is used instead of the minibuffer. For example,
(message "%s" (read t))
will in batch mode read a Lisp expression from standard input and print the result to standard output.
nil supplied as an input stream means to use the value of
standard-input instead; that value is the default input
stream, and must be a non-
nil input stream.
A symbol as input stream is equivalent to the symbol’s function definition (if any).
Here is an example of reading from a stream that is a buffer, showing where point is located before and after:
---------- Buffer: foo ---------- This∗ is the contents of foo. ---------- Buffer: foo ----------
(read (get-buffer "foo")) ⇒ is
(read (get-buffer "foo")) ⇒ the
---------- Buffer: foo ---------- This is the∗ contents of foo. ---------- Buffer: foo ----------
Note that the first read skips a space. Reading skips any amount of whitespace preceding the significant text.
Here is an example of reading from a stream that is a marker,
initially positioned at the beginning of the buffer shown. The value
read is the symbol
---------- Buffer: foo ---------- This is the contents of foo. ---------- Buffer: foo ----------
(setq m (set-marker (make-marker) 1 (get-buffer "foo"))) ⇒ #<marker at 1 in foo>
(read m) ⇒ This
m ⇒ #<marker at 5 in foo> ;; Before the first space.
Here we read from the contents of a string:
(read "(When in) the course") ⇒ (When in)
The following example reads from the minibuffer. The
prompt is: ‘Lisp expression: ’. (That is always the prompt
used when you read from the stream
t.) The user’s input is shown
following the prompt.
(read t) ⇒ 23 ---------- Buffer: Minibuffer ---------- Lisp expression: 23 RET ---------- Buffer: Minibuffer ----------
Finally, here is an example of a stream that is a function, named
useless-stream. Before we use the stream, we initialize the
useless-list to a list of characters. Then each call to
useless-stream obtains the next character in the list
or unreads a character by adding it to the front of the list.
(setq useless-list (append "XY()" nil)) ⇒ (88 89 40 41)
(defun useless-stream (&optional unread) (if unread (setq useless-list (cons unread useless-list)) (prog1 (car useless-list) (setq useless-list (cdr useless-list))))) ⇒ useless-stream
Now we read using the stream thus constructed:
(read 'useless-stream) ⇒ XY
useless-list ⇒ (40 41)
Note that the open and close parentheses remain in the list. The Lisp
reader encountered the open parenthesis, decided that it ended the
input, and unread it. Another attempt to read from the stream at this
point would read ‘()’ and return