# Global variables in pure functional languages [closed]

Does a pure functional language loses its purity if global variables are allowed? I mean does having global variables affect the referential transparency of the language?

I suppose not, because of value semantics but I'm not sure and would like to know what other people think.

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## closed as off-topic by Lance Roberts, Barmar, Bill Woodger, Michael Roland, Tom van der WoerdtApr 21 at 8:24

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This question appears to be off-topic because it is about computer science, not practical programming. Try cs.stackexchange.com. –  Barmar Dec 24 '13 at 6:12
Thanks Barmar. Didn't know about that page. –  Jim Goodall Dec 24 '13 at 6:26
In functional languages you can pass functions, thus + can be considered a global variable in Haskell. –  Sylwester Dec 24 '13 at 12:52

In a pure functional language, "variable" means something different than what it usually means in imperative languages. It is not variable in the sense that it can be reassigned within a given scope, but rather in the sense that each time it comes into scope, it may have a different value. But for the lifetime of that scope it remains constant. So for example, in the function

``````f x y = x + y
``````

`x` and `y` are variables which become bound when `f` is applied to them. Once bound, they never change within the scope of that invocation, they simply go out of scope at some point. Other invocations will bind `x` and `y` to different values. That is the sense in which functional variables "vary", which is closer (some might say identical) to the original mathematical meaning of a variable.

So, to your question: do global variables ruin purity? No, because global variables, since they never go out of scope, are effectively constants.

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Thanks, that makes sense! –  Jim Goodall Dec 24 '13 at 6:26

Mutable variables don't break referential transparency as long as reading/writing them happens in a scope that allows side effects. For example, in Haskell, the most basic type of mutable variables is `IORef`. Passing an `IORef` around doesn't break referential transparency. And reading or writing `IORef`s is only allowed within the `IO` monad.

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