Purity vs Referential transparency

The terms do appear to be defined differently, but I've always thought of one implying the other; I can't think of any case when an expression is referentially transparent but not pure, or vice-versa.

Wikipedia maintains separate articles for these concepts and says:

If all functions involved in the expression are pure functions, then the expression is referentially transparent. Also, some impure functions can be included in the expression if their values are discarded and their side effects are insignificant.

From Pure expressions:

Pure functions are required to construct pure expressions. [...] Pure expressions are often referred to as being referentially transparent.

I find these statements confusing. If the side effects from a so-called "impure function" are insignificant enough to allow not performing them (i.e. replace a call to such a function with its value) without materially changing the program, it's the same as if it were pure in the first place, isn't it?

Is there a simpler way to understand the differences between a pure expression and a referentially transparent one, if any? If there is a difference, an example expression that clearly demonstrates it would be appreciated.

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If I gather in one place any three theorists of my acquaintance, at least two of them disagree on the meaning of the term "referential transparency." And when I was a young student, a mentor of mine gave me a paper explaining that even if you consider only the professional literature, the phrase "referentially transparent" is used to mean at least three different things. (Unfortunately that paper is somewhere in a box of reprints that have yet to be scanned. I searched Google Scholar for it but I had no success.)

I cannot inform you, but I can advise you to give up: Because even the tiny cadre of pointy-headed language theorists can't agree on what it means, the term "referentially transparent" is not useful. So don't use it.

P.S. On any topic to do with the semantics of programming languages, Wikipedia is unreliable. I have given up trying to fix it; the Wikipedian process seems to regard change and popular voting over stability and accuracy.

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Thanks. Can I infer that one of those three definitions is synonymous with "pure"? –  Ani Feb 11 '11 at 9:59
Well said! I might in fact note that Wikipedia itself labels both the articles cited as unreliable since they don't cite their sources. Debating the content of these articles is an exercise in futility. –  Uday Reddy Mar 23 '12 at 21:23

All pure functions are necessarily referentially transparent. Since, by definition, they cannot access anything other than what they are passed, their result must be fully determined by their arguments.

However, it is possible to have referentially transparent functions which are not pure. I can write a function which is given an int `i`, then generates a random number `r`, subtracts `r` from itself and places it in `s`, then returns `i - s`. Clearly this function is impure, because it is generating random numbers. However, it is referentially transparent. In this case, the example is silly and contrived. However, in, e.g., Haskell, the `id` function is of type `a - > a` whereas my `stupidId` function would be of type `a -> IO a` indicating that it makes use of side effects. When a programmer can guarantee through means of an external proof that their function is actually referentially transparent, then they can use `unsafePerformIO` to strip the `IO` back away from the type.

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So you're saying `int func(int i) { int r = rand(); int s = r - r; return i - s; }` is referentially transparent but not pure, because it "it is generating random numbers"? Why is it nor pure? It always returns the same result for the same argument, and does cause any observable side effects. On the other hand, if the call to `rand()` did have side-effects (let's say it changed the state of a global random number generator), it is neither pure nor referentially transparent. (Apologies if I completely misunderstood your post.) –  Ani Feb 2 '11 at 15:11
@Ani The issue isn't "observable" side effects -- it is side effects full stop. If I want to provide a mathematical model for my `stupidId` function, I need some notion of a global random generator -- i.e. I can't represent it without having a model that includes things outside of its arguments. Given that model, I can then demonstrate that it is referentially transparent -- which is a property of determined by the behavior of a function, rather than by the nature of its definition. –  sclv Feb 2 '11 at 15:38
But it's not referentially transparent if it changes the state of a global random generator - replacing the function-call (at a call-site) with its value gives you a different program. No? –  Ani Feb 2 '11 at 15:43
@Ani -- In this case, arguably yes. But the example could also just read a byte out of a memory location accessible to other programs, off a port, out of a file, etc. –  sclv Feb 2 '11 at 16:01

I'm somewhat unsure of the answer I give here, but surely somebody will point us in some direction. :-)

"Purity" is generally considered to mean "lack of side-effects". An expression is said to be pure if its evaluation lacks side-effects. What's a side-effect then? In a purely functional language, side-effect is anything that doesn't go by the simple beta-rule (the rule that to evaluate function application is the same as to substitute actual parameter for all free occurrences of the formal parameter).

For example, in a functional language with linear (or uniqueness, this distinction shouldn't bother at this moment) types some (controlled) mutation is allowed.

So I guess we have sorted out what "purity" and "side-effects" might be.

Referential transparency (according to the Wikipedia article you cited) means that variable can be replaced by the expression it denotes (abbreviates, stands for) without changing the meaning of the program at hand (btw, this is also a hard question to tackle, and I won't attempt to do so here). So, "purity" and "referential transparency" are indeed different things: "purity" is a property of some expression roughly means "doesn't produce side-effects when executed" whereas "referential transparency" is a property relating variable and expression that it stands for and means "variable can be replaced with what it denotes".

Hopefully this helps.

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I realised that I've covered the "purity vs referential transparency" part of your question but utterly failed to find examples (say, a referentially transparent expression that is not pure). Sorry. But, I'm now in doubt whether it's technically correct to say that an expression is "referentially transparent". –  Artyom Shalkhakov Feb 2 '11 at 4:58
This was one of my first thoughts, but I don't think it is correct. Wiki says "An expression is said to be referentially transparent if it can be replaced with its value." en.wikipedia.org/wiki/… Any thoughts? I do agree that I normally hear "pure function" and "r.t. expression". –  Ani Feb 2 '11 at 5:22
Yes, that (and foldoc.org/referential+transparency) addresses my doubt, thank you. So it seems that referentially transparent expression is the one that is also pure and is about substituting equals for equals (if A is equivalent to B and both are referentially transparent, then you can substitute some, but not all occurrences of A with B in some other expression and still the results will be the same). –  Artyom Shalkhakov Feb 2 '11 at 6:04