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Let us consider the following haskell program :

g = 300

func arg = arg + g

main = do
  print (func 4)

I don't particularly like this program because "func" is using the global variable g in its computation, and I would like to aim that all functions written in my program specify as arguments all the elements needed to perform the necessary computations (i.e. nothing outside the function is used).

My question is this : is there any way to get ghc to reject functions which use variables not defined in the argument list? (rather than having to rely on pure discipline)...

[EDIT] : Also consider the following :

main.hs :

import MyMod

func arg = arg + g

main = do
  print (func 4)


module MyMod where

g = 300

[EDIT2] : I guess that if functions could only use variables defined in the argument list then one would have to make exceptions (?) for things like :

g = 300

h = 400

i = g + h

[EDIT3] : For n.m. in response to "Try writing a complete program with these restrictions that has more than one function" (the restriction being that functions can only use variables declared in their argument list). Ofcourse there has to be exceptions and in this case the main is the exception. This example was adapted from Comparing speed of Haskell and C for the computation of primes

divisibleRec :: Int -> Int -> Bool
divisibleRec i j 
  | j == 1         = False 
  | i `rem` j == 0 = True 
  | otherwise      = divisibleRec i (j-1)

divisible::Int->(Int -> Int -> Bool)-> Bool
divisible i fn= (fn i (i-1))

main :: IO()
main = print(length([ x | x <- [2..1000], (divisible x divisibleRec) == False]))

[EDIT 4] : In regards to the program in EDIT3, recursive usage as in divisibleRec would also have to be an exception, since the inside "divisibleRec" is not fed as an argument to the function.

Also this rule becomes unmaintainable when we chain many functions together. In the program above it was not too bad, we just had "divisible x divisibleRec", but as we have bigger programs the scheme above become unmaintainable since we effectively have to chain all the functions in one place....

[EDIT 5] : When I originally posted this question, I was viewing functions and variables on a different level. However when you treat functions on the same level as variables, so that the restriction "all functions written in my program specify as arguments all the elements needed to perform the necessary computations (i.e. nothing outside the function is used)" means that functions which use other functions must be passed these other functions as arguments, then the whole approach becomes unmaintainable for the reasons mentioned in Edit4.

share|improve this question
func is also a global variable. So is main. – n.m. Oct 29 '12 at 20:55
foo is a variable that happens to have a functional type. main does not even have a functional type. It's of type IO (). See, no arrow there. It's just a variable, not different from g in any way. How do you propose to distinguish between them? – n.m. Oct 29 '12 at 21:04
@artella And any sense you have that globals are bad style almost certainly comes from languages with global mutable values. With immutable values, it really doesn't matter. – Carl Oct 29 '12 at 21:09
Note that + is a global variable too! So to avoid use of globals, func would have to be defined as func op g arg = op arg g. But then whatever calls it would be calling func (+) 300 4, so that function would have to be modified to take op as an argument so it can do func op arg g. It is technically possible to program completely without any global variables in the lambda calculus, by writing your entire function as a nested-lambda applied to all the values you need "global" access to, but given that you can't define many built-ins within Haskell itself, you can't use them. – Ben Oct 29 '12 at 23:24
Ignoring the point about functions being variables (and often global in scope), I think we could all help you better if you gave some motivation for your question. From an engineering perspective there doesn't seem to be any benefit to not using globals with low arity. – Thomas M. DuBuisson Oct 30 '12 at 2:58
up vote 1 down vote accepted

Theoretically, you could use combinatory logic without free variables (lambda-terms captured from the outside of function) whatsoever (that's how your request is expressed in terms of lambda calculus), but it must be very unpractical and cumbersome, like an esoteric programming language.

As pointed out in the comments, any "value" is a function (even without arguments). The main obstacle I see in no using free variables is that any input/output functions are external to your functions, so the pure combinatory program can't do any IO and is even more useless than Haskell itself (according to SPJ saying that Haskell is useless:) ). Moreover, you are left without any library functions, which only may be useful for some mathematical exercises, not for programming.

Another question is whether it is possible locally, in some subset of functions, but I doubt GHC or any other Haskell implementation allows this.

There are some implementations of combinatory logic interpreters, but I see no efforts to make Haskell pure combinatory.

Conclusion: this question rather belongs to area of language design and choice of underlying mathematical formalism. Haskell (based on lambda calculus with free variables) is definitely distinct from what you want. Introducing such constraints to Haskell would make it another language, though you can observe discipline in code to make it partly combinatory. Introducing restriction on free "values" (no-argument functions) is mathematically meaningless, so it's very unlikely that there are built-in Haskell mechanisms for doing this.

share|improve this answer
when I originally posted the question I was making the distinction between values and functions. However as n.m. pointed out "Functions are first-class values". Following his suggestion I rewrote a program, this time implementing the rule "all functions specify as arguments all the elements needed to perform the necessary computations" (see Edit 3). However the problem (see Edit 5) is that all the functions have to be declared in main and this becomes unmanageable. – artella Oct 30 '12 at 16:40
@artella Yes, that's just the first limitation of pure combinatory style, and there is a lot of others. The only useful application of CL I've encountered is writing libraries in combinatory style at large scale. – EarlGray Oct 30 '12 at 16:44
sorry what do you mean by "is writing libraries in combinatory style at large scale"? Can you give an example? Thanks – artella Oct 30 '12 at 22:00

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