Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I've seen this used once, but couldn't understand what it does. The reference says that it is

#n=object reads as whatever object has object as its printed representation. However, that object is labeled by n, a required unsigned decimal integer, for possible reference by the syntax #n#. The scope of the label is the expression being read by the outermost call to read; within this expression, the same label may not appear twice.

Which to me reads as just 56 randomly selected words of English language... Can you, please, show an example of when this may be used?

share|improve this question

1 Answer 1

up vote 6 down vote accepted

In Common Lisp it is used by the reader and the printer.

This way you can label an object in some s-expression and refer to it in a different place in the s-expression.

The label is #someinteger= followed by an s-expression. The integer must be unique. You can't use the label twice within a single s-expression.

The reference to a label is #someinteger#. The integer identifies the s-expression to reference. The label must be introduced, before it can be referenced. The reference can be used multiple times within an s-expression.

This is for example used in reading and printing circular lists or data structures with shared data objects.

Here a simple example:

? '(#1=(1 . 2) (#1#))

reads as

((1 . 2) ((1 . 2)))

Note also this:

? (eq (first *) (first (second *)))
T

It is one identical cons cell.

Let's try a circular list.

Make sure that the printer deals with circular lists and does not print them forever...

? (setf *print-circle* t)
T

Now we are constructing a list:

? (setf l1 (list 1 2 3))
(1 2 3)

We are setting the last cdr to the first cons:

? (setf (cdr (last l1)) l1)
#1=(1 2 3 . #1#)

As you can see above, the printed list gets a label and the last cdr is a reference to that label.

We can also enter a circular list directly by using the same notation. The reader understands it:

? '#1=(1 2 3 . #1#)
#1=(1 2 3 . #1#)

Since we have told the printer to deal with such constructs, we can try the expression from the first example:

? '(#1=(1 . 2) (#1#))
(#1=(1 . 2) (#1#))

Now the printer detects that there are two references to the same cons object.

share|improve this answer
1  
read is a recursive operation. In the case of lists, ( is a macro character that reads recursively until ). What the last sentence means is that you can't use the same label within a read, i.e. '(#1=1 #1=2 #1#) is invalid, the label 1 is used twice in the same outermost call to read. When loading or compiling file, every top-level form will be read in a separate outermost read call, so there's no problem in using the same label in different top-level forms, as they don't relate at all. –  Paulo Madeira Sep 29 '12 at 15:53
    
There's also a section on cyclic expressions in Let Over Lambda: letoverlambda.com/index.cl/guest/chap4.html#sec_5 –  Clayton Stanley Sep 30 '12 at 3:38
    
I think you got it by now, but the text you've quoted is enough to understand what's the label. In #n=, n is the label, an unsigned integer. The number after the hash (sharp-sign in CLHS) is typically an argument to dispatch macro characters. So, it's a number between # and = for labelling, # and # for referring. In a file that is loaded or compiled, every top-level expression is read separately, so each will be an outermost read. In a REPL, typically each prompt starts an outermost read. –  Paulo Madeira Sep 30 '12 at 12:55

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.