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I'm wondering how to permanently alter the value of a global variable from inside a function, without using the variable's name inside the function, i.e.:

(defvar *test1* 5)
(defun inctest (x) (incf x))
(inctest *test1*) ;after it runs, *test1* is still 5, not 6

According to this:

if the object passed to a function is mutable and you change it in the function, the changes will be visible to the caller since both the caller and the callee will be referencing the same object.

Is that not what I'm doing above?

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Some objects are passed by value (actually, only numbers iirc). So what you quote is generally true, except for numbers. If you want to pass numbers by reference, you'd need some container, a cons cell would be the most basic container. You'd probably also want to cache some commonly used numbers if you are going to use this often. Another way to pass numbers by reference would be to use CFFI with pointers. From another perspective numbers are never mutable, so this quote wouldn't apply here. –  user797257 Oct 24 '13 at 8:13
1  
Everything is passed by value. There is no case where this: (defun foo (x) (setf x 'foo)) would change a variable that it was called with. @OpenLearner's confusion is about the difference between mutating a variable and mutating an object. –  Rörd Oct 24 '13 at 8:45
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I see that you've already accepted an answer, but an almost identical question was asked on Oct 21 (just three days ago), and it's already the first Google hit for "globally change value lisp". The three hits after that are also about a similar topic. –  Joshua Taylor Oct 24 '13 at 12:44
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@Rörd "There is no case where this: (defun foo (x) (setf x 'foo)) would change a variable that it was called with." The point that you're making is right, but I disagree with this phrasing, only because the function named by foo is never called with a variable; it's called with an object. In (foo a), because foo is a function`, a is _evaluated and its value is passed to foo. setf, on the other hand, because it is a macro can be called with variables (and, in general, places), and so can modify a variable (i.e., the value of the binding). –  Joshua Taylor Oct 24 '13 at 12:54
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@Rörd All that said, I understand the point you're making, and don't have any impression that you misunderstand the concept; I just wanted to clarify for the sake of others who might come across this. I discussed places and generalized reference in more detail in [my answer to the other question]( I discussed places and generalized reference in my answer to the other question of which this one, in my opinion, is a duplicate. –  Joshua Taylor Oct 24 '13 at 12:56
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4 Answers

up vote 1 down vote accepted

If you want inctest to be a function, pass it the name of the global variable.

(defun inctest (x) (incf (symbol-value x)))
(inctest '*test1*)
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An interesting coincidence, while doing some research for the comment thread to @6502's answer, I came across this implementation of locatives which nicely references you (I believe): "Lars Brinkhof [sic] and Paul Foley have told me how to implement locatives - things that can point to any kind of place, just like a C-style pointer. Their code made me run away and hide under the bed. This is my attempt to sneak up on the code, and overcome my fear of get-setf-expansion." :) –  Joshua Taylor Oct 24 '13 at 16:33
    
Right. I wasn't going to toot my own horn, but here's my code: permalink.gmane.org/gmane.lisp.sources.code/17 –  Lars Brinkhoff Oct 24 '13 at 16:50
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In portable Common Lisp there is no explicit concept of "pointer" and all parameters are passed by value. To be able pass a function the ability to modify a variable you need to provide a way to reach the variable.

If the variable is a global then you can use the name of the variable (a symbol) and then use symbol-value to read/write the variable:

(defvar *test1* 42)

(defun inctest (varname)
  (incf (symbol-value varname)))

(inctest '*test1*) ;; Note we're passing the NAME of the variable

if instead the variable is local you could for example provide a closure that when called without parameters returns the current value and that when called with a parameter instead it will set the new value of the variable:

(defun inctest (accessor)
  (funcall accessor (1+ (funcall accessor))))

(let ((x 42))
  (inctest (lambda (&optional (value nil value-passed))
             (if value-passed
                 (setf x value)
                 x)))
  (print x))

You can also write a small helper for building an accessor:

(defmacro accessor (name)
  (let ((value (gensym))
        (value-passed (gensym)))
  `(lambda (&optional (,value nil ,value-passed))
     (if ,value-passed
         (setf ,name ,value)
         ,name))))

after which the code becomes

 (let ((x 42))
   (inctest (accessor x))
   (print x))
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I think this question is a dupe, but I do like this answer. One thing I'd point out is that while Lisp doesn't have a concept of a pointer, it does have a concept of a place, and setf modifies the values stored in places. The real issue here is that that the place that (incf x ...) modifies is the binding of the lexical variable x. From the symbol *test* one can get an appropriate place, viz., (symbol-name '*test*). I discussed places and Generalized References in my answer to the other question. –  Joshua Taylor Oct 24 '13 at 12:49
    
@JoshuaTaylor: places are however compile-time concepts, while pointers are run-time concepts. You can only pass a place to a macro, not to a function. –  6502 Oct 24 '13 at 12:52
    
Yes and no, I'd say. For instance, the fact that you can do (let ((varname '*test*)) (setf (symbol-name varname) new-value)) or even (setf (aref a i j k) new-value) shows that the underlying task of figuring out where to put the new value is will happen at runtime, not compile time. –  Joshua Taylor Oct 24 '13 at 12:58
    
@JoshuaTaylor: How can you store places in a list? Both Lisp and Python lack the ability to pass/store the address of an object and you can olnly pass/store names or pathnames to the objects. The only way I know is to store addresses is using closures. In C++ instead you can have std::map<std::string, int*> that is map from names to addresses of integers and you can for example increment those integers without knowing if they're local variables, global variables or elements of an array. –  6502 Oct 24 '13 at 13:32
    
Exactly right on that count: there are no first class values corresponding to places, so you can't have, as you say, a list of them. (Although, I think there may have been some (non-Common) Lisps that had similar features. I'm thinking, perhaps, of an essay by Kent Pitman. if I find it, I'll post a link.) –  Joshua Taylor Oct 24 '13 at 13:40
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You are not doing what the quote says, i.e. mutating the object passed to your function. You are mutating the parameter x, i.e. a local variable of your function that holds a copy of the object.

To do what the quote says, you need an object that is actually mutable which is not the case for a number. If you use a mutable object like e.g. a list, it works:

(defvar *test2* (list 5))
(defun inctest2 (x) (incf (car x)))
(inctest2 *test2*)
*test2* ; => (6)
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Nice, thanks. I dig it. –  OpenLearner Oct 24 '13 at 9:11
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No, it changes a copy that you have provided.

To change the variable itself, change it in the body of the function using its name: (incf *test1*)

EDIT: in case you'd accept the macro, here it is, piping hot from my slime:

(defmacro my-incf (variable-name)  
  `(incf ,variable-name))
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No, the idea here is to pass an object to a function, as per the quote I've provided, and then have the function mutate it. What you propose is to directly name a global variable inside the function, and that is not the same thing as passing it to the function. –  OpenLearner Oct 24 '13 at 8:14
    
Then one should use the macro in this case. But it depends on your needs. Syntactically it looks as a function and maybe it would meet your requirements. –  avp Oct 24 '13 at 8:17
    
Thanks but a macro shouldn't be necessary for such a simple task. And indeed the answer by Lars shows the easy way to do this. –  OpenLearner Oct 24 '13 at 8:27
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