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I've written an ad hoc parser generator that creates code to convert an old and little known 7-bit character set into unicode. The call to the parser generator expands into a bunch of defuns enclosed in a progn, which then get compiled. I only want to expose one of the generated defuns--the top-level one--to the rest of the system; all the others are internal to the parser and only get called from within the dynamic scope of the top-level one. Therefore, the other defuns generated have uninterned names (created with gensym). This strategy works fine with SBCL, but I recently tested it for the first time with CLISP, and I get errors like:

*** - FUNCALL: undefined function #:G16985

It seems that CLISP can't handle functions with uninterned names. (Interestingly enough, the system compiled without a problem.) EDIT: It seems that it can handle functions with uninterned names in most cases. See the answer by Rörd below.

My questions is: Is this a problem with CLISP, or is it a limitation of Common Lisp that certain implementations (e.g. SBCL) happen to overcome?

EDIT:

For example, the macro expansion of the top-level generated function (called parse) has an expression like this:

(PRINC (#:G75735 #:G75731 #:G75733 #:G75734) #:G75732)

Evaluating this expression (by calling parse) causes an error like the one above, even though the function is definitely defined within the very same macro expansion:

(DEFUN #:G75735 (#:G75742 #:G75743 #:G75744) (DECLARE (OPTIMIZE (DEBUG 2)))
 (DECLARE (LEXER #:G75742) (CONS #:G75743 #:G75744))
 (MULTIPLE-VALUE-BIND (#:G75745 #:G75746) (POP-TOKEN #:G75742)
 ...

The two instances of #:G75735 are definitely the same symbol--not two different symbols with the same name. As I said, this works with SBCL, but not with CLISP.

EDIT:

SO user Joshua Taylor has pointed out that this is due to a long standing CLISP bug.

share|improve this question
    
The symbols in the printed representation are the same. However, when you write something like #:foo the reader creates a new symbol, so, e.g., typing in your REPL, you get (eq '#:foo '#:foo) ;=> nil. Did you try to call the function by typing its name in? –  Joshua Taylor Oct 3 '13 at 15:34
    
@JoshuaTaylor As I said in the post, the symbols are the same symbol. The macro calls gensym just once and places the result in several places in the expansion. Of course, reading the macro expansion would cause two different symbols to be created, but that's not what's happening. –  nbtrap Oct 3 '13 at 15:44
    
Can you produce some direct code that reproduces this problem. I can write a macro that defines some mutually recursive functions named by symbols that are uninterned, and it works fine in CLISP. See, e.g., pastebin.com/7MNGkgta . It's got two functions with uninterned names, and one with name that makes it easy to call, and it seems to work OK. –  Joshua Taylor Oct 3 '13 at 16:00
    
@JoshuaTaylor I really can't do that without simplifying it to the point where, so far as I know, it might begin to work. If you want to email me (nbtrap AT nbtrap DOT com), I can send you the actual project code, which, you'll see, runs fine with SBCL but not with CLISP. The problem is the macro that generates the parser is just too complex to simplify into an example here, though the code it generates is rather simple (a collection of huge case expressions). –  nbtrap Oct 3 '13 at 16:12
1  
Oh, some additional googling may have turned this up: take a look at this bug report #180 uninterned symbols not shared between forms in FAS file. I found it linked from this mailing list discussion. Is this relevant to your actual code? Also see, perhaps, #281 Lexical Binding in Toplevel PROGN (Clisp 2.35). –  Joshua Taylor Oct 3 '13 at 16:57

4 Answers 4

up vote 4 down vote accepted

You don't show one of the lines that give you the error, so I can only guess, but the only thing that could cause this problem as far as I can see is that you are referring to the name of the symbol instead of the symbol itself when trying to call it.

If you were referring to the symbol itself, all your lisp implementation would have to do is lookup that symbol's symbol-function. Whether it's interned or not couldn't possibly matter.

May I ask why you haven't considered another way to hide the functions, i.e. a labels statement or defining the functions within a new package that exports only the one external function?

EDIT: The following example is copied literally from an interaction with the CLISP prompt.

As you can see, calling the function named by a gensym is working as expected.

[1]> (defmacro test ()
(let ((name (gensym)))
`(progn
(defun ,name () (format t "Hello!"))
(,name))))
TEST
[2]> (test)
Hello!
NIL

Maybe your code that's trying to call the function gets evaluated before the defun? If there's any code in the macro expansion besides the various defuns, it may be implementation-dependent what gets evaluated first, and so the behaviour of SBCL and CLISP may differ without any of them violating the standard.

EDIT 2: Some further investigation shows that CLISP's behaviour varies depending upon whether the code is interpreted directly or whether it's first compiled and then interpreted. You can see the difference by either directly loading a Lisp file in CLISP or by first calling compile-file on it and then loading the FASL.

You can see what's going on by looking at the first restart that CLISP offers. It says something like "Input a value to be used instead of (FDEFINITION '#:G3219)." So for compiled code, CLISP quotes the symbol and refers to it by name.

It seems though that this behaviour is standard-conforming. The following definition can be found in the HyperSpec:

function designator n. a designator for a function; that is, an object that denotes a function and that is one of: a symbol (denoting the function named by that symbol in the global environment), or a function (denoting itself). The consequences are undefined if a symbol is used as a function designator but it does not have a global definition as a function, or it has a global definition as a macro or a special form. See also extended function designator.

I think an uninterned symbol matches the "a symbol is used as a function designator but it does not have a global definition as a function" case for unspecified consequences.

EDIT 3: (I can agree that I'm not sure whether CLISP's behaviour is a bug or not. Someone more experienced with details of the standard's terminology should judge this. It comes down to whether the function cell of an uninterned symbol - i.e. a symbol that cannot be referred to by name, only by having a direct hold on the symbol object - would be considered a "global definition" or not)

Anyway, here's an example solution that solves the problem in CLISP by interning the symbols in a throwaway package, avoiding the matter of uninterned symbols:

(defmacro test ()
  (let* ((pkg (make-package (gensym)))
         (name (intern (symbol-name (gensym)) pkg)))
    `(progn
       (defun ,name () (format t "Hello!"))
       (,name))))

(test)

EDIT 4: As Joshua Taylor notes in a comment to the question, this seems to be a case of the (10 year old) CLISP bug #180.

I've tested both workarounds suggested in that bug report and found that replacing the progn with locally actually doesn't help, but replacing it with let () does.

share|improve this answer
    
Good question. The reason I don't use labels or inline the functions (which is what I did originally) is that the single generated function in such a case is so large (> 30,000 lines) that the compiler runs out of memory and can't compile it. –  nbtrap Oct 3 '13 at 15:14
    
See my edit to the original question for an example. –  nbtrap Oct 3 '13 at 15:17
    
Thanks for the suggestion, but the defuns are definitely in the correct order. The calls happen after the definitions. –  nbtrap Oct 3 '13 at 15:40
    
One difference between the example you've given and what I'm dealing with is that I don't call the function with the uninterned name directly. Rather, I call the top-level function, which in turn calls one or more functions with uninterned names. Using your example, I tested a more analogous case from the REPL, and it still worked. Hmm... –  nbtrap Oct 3 '13 at 15:42
1  
@Rörd Looking at the compilation was a good track. I found some bug reports and mentioned them in this comment on the main question, but perhaps (since you've got the accepted answer), you can add the links into your answer. –  Joshua Taylor Oct 3 '13 at 17:33

I hope I get the issue right. For me it works in CLISP.

I tried it like this: using a macro for creating a function with a GENSYM-ed name.

(defmacro test ()  
  (let ((name (gensym)))  
    `(progn  
       (defun ,name (x) (* x x))  
       ',name)))

Now I can get the name (setf x (test)) and call it (funcall x 2).

share|improve this answer
    
It turns out this is a longstanding bug in CLISP. It looks like if you had, instead of ',name as the last form put, e.g., (,name 45), and put (test) in a file, and then compiled and loaded that file, you might have reproduced the error. –  Joshua Taylor Oct 4 '13 at 15:02
    
@JoshuaTaylor Actually it works. If I replace ',name with (,name 45) and save it in "test.lisp" I can call (load (compile-file "test.lisp")) and (test) gives 2025. I use GNU CLISP 2.49 under Mac OS X 10.5.8. –  Frank Zalkow Oct 4 '13 at 20:09
    
I hadn't tested it either, obviously. Maybe if rather than putting in a direct call, you were to define some other function that called it? And tried calling that after compiling and loading? The bug report makes it looks like it shouldn't take too much modification to break things. :) –  Joshua Taylor Oct 4 '13 at 20:13
    
Yeah, here's an example that shows the bug pastebin.com/ux40R8uE . Just put it in a file, compile and load, and then call (frob). –  Joshua Taylor Oct 4 '13 at 20:18
1  
Sorry, I miswrote. Don't call (frob), call (call-frob) which should call the pseudo-frob, and that has the error. I wrote too quickly. The code reproduces the bug, though. I just had a bug in my description. :) Here's a paste with better instructions: pastebin.com/pBTUJr5B . –  Joshua Taylor Oct 4 '13 at 20:32

You can most certainly define functions whose names are uninterned symbols. For instance:

CL-USER> (defun #:foo (x)
           (list x))
#:FOO
CL-USER> (defparameter *name-of-function* *)
*NAME-OF-FUNCTION*
CL-USER> *name-of-function*
#:FOO
CL-USER> (funcall *name-of-function* 3)
(3)

However, the sharpsign colon syntax introduces a new symbol each time such a form is read read:

#: introduces an uninterned symbol whose name is symbol-name. Every time this syntax is encountered, a distinct uninterned symbol is created. The symbol-name must have the syntax of a symbol with no package prefix.

This means that even though something like

CL-USER> (list '#:foo '#:foo)
;=> (#:FOO #:FOO) 

shows the same printed representation, you actually have two different symbols, as the following demonstrates:

CL-USER> (eq '#:foo '#:foo)
NIL

This means that if you try to call such a function by typing #: and then the name of the symbol naming the function, you're going to have trouble:

CL-USER> (#:foo 3)
; undefined function #:foo error

So, while you can call the function using something like the first example I gave, you can't do this last one. This can be kind of confusing, because the printed representation makes it look like this is what's happening. For instance, you could write such a factorial function like this:

(defun #1=#:fact (n &optional (acc 1))
  (if (zerop n) acc
      (#1# (1- n) (* acc n))))

using the special reader notation #1=#:fact and #1# to later refer to the same symbol. However, look what happens when you print that same form:

CL-USER> (pprint '(defun #1=#:fact (n &optional (acc 1))
                    (if (zerop n) acc
                        (#1# (1- n) (* acc n)))))

(DEFUN #:FACT (N &OPTIONAL (ACC 1))
  (IF (ZEROP N)
      ACC
      (#:FACT (1- N) (* ACC N))))

If you take that printed output, and try to copy and paste it as a definition, the reader creates two symbols named "FACT" when it comes to the two occurrences of #:FACT, and the function won't work (and you might even get undefined function warnings):

CL-USER> (DEFUN #:FACT (N &OPTIONAL (ACC 1))
           (IF (ZEROP N)
               ACC
               (#:FACT (1- N) (* ACC N))))

; in: DEFUN #:FACT
;     (#:FACT (1- N) (* ACC N))
; 
; caught STYLE-WARNING:
;   undefined function: #:FACT
; 
; compilation unit finished
;   Undefined function:
;     #:FACT
;   caught 1 STYLE-WARNING condition
share|improve this answer
    
In my original question, I tried to make it clear that I understood this and that this is not the problem. –  nbtrap Oct 3 '13 at 15:45
    
I did see "The two instances of #:G75735 are definitely the same symbol--not two different symbols with the same name." but I wasn't clear how you were trying to call the functions. Sorry for any confusion. The code that I've posted with functions with uninterned names works in CLISP, though. Can you come up with a minimal working example that we can try in CLISP as well? –  Joshua Taylor Oct 3 '13 at 15:51
    
Yeah, perhaps I wasn't clear enough. The code I give in the original post is from the macro expansion--it's not something the reader ever sees. –  nbtrap Oct 3 '13 at 15:53

Yes, it is perfectly fine defining functions that have names that are unintenred symbols. The problem is that you cannot then call them "by name", since you can't fetch the uninterned symbol by name (that is what "uninterned" means, essentially).

You would need to store the uninterned symbol in some sort of data structure, to then be able to fetch the symbol. Alternatively, store the defined function in some sort of data structure.

share|improve this answer
    
I am not trying to call them "by name". I am calling a different function by name which in turn calls the ones with uninterned names. –  nbtrap Oct 3 '13 at 15:46

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