# When does operator associativity matter?

Most programming languages have a table of precedence and associativity for binary operators. Associativity matters in some cases e.g. `(a - b) - c` != `a - (b - c)`.

However, for an associative operator like `&&` it would seem not to matter, yet most languages list this as left associative.

Are there any situations where there is actually a difference between `(a && b) && c` and `a && (b && c)`?

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Think of what happens when `a`, `b` and `c` are functions that have side-effects. –  Juhana Nov 17 '13 at 10:59
@Juhana: What happens? As far as I can tell, nothing different. –  Mehrdad Nov 17 '13 at 11:06
@kviiri: Example C code please? –  Mehrdad Nov 17 '13 at 11:11
–  Mehrdad Nov 17 '13 at 11:19
@Juhana: That's an entirely different argument, let's not mix them up. You're right that it's not useful to define them differently for `&&`... but there's nothing technically wrong with that. My point was only that they don't make a difference in the evaluation order. –  Mehrdad Nov 17 '13 at 11:32

I can't believe there are so many wrong (deleted) answers... maybe I should answer this.

First of all, precedence != associativity != evaluation order.

Now that we have that out of the way: associativity matters in some cases.
For `a + b + c`, it matters when `a`, `b`, and `c` are floating-point numbers instead of integers, because rounding errors will accumulate differently depending on how the terms are grouped.

For the particular case of `&&` and `||`, it doesn't matter as long as they aren't overloaded (which is possible only in C++, not C), but the language still defines one just for consistency -- and so that the "tree" representation of the code (based on the grammar) is unique. That also works out to the benefit of C++ since now the meaning of overloaded `&&` and `||` isn't ambiguous.

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If you ever constructed a parser, you'll notice that your operators have to have an associativity, otherwise

``````a && b && c
``````

would be simply a syntax error. Assuming that the above should not be a syntax error, you must decide if it should mean:

``````(a && b) && c
``````

or

``````a && (b && c)
``````

You can't just say: I don't care.

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Right. Most parsers go with the former. I noticed that it would make the parser slightly simpler if I went with the latter, hence my question, to make sure it wouldn't break anything. –  rwallace Nov 18 '13 at 11:53
It really depends on the operator, @rwallace. Isn't exponentiation right associative in many languages? In Haskell, also there are many right associative operators. But surely, nobody wants `a/b/2` mean `2a/b` –  Ingo Nov 18 '13 at 16:32