20

A quick question that has been bugging me lately. Does Haskell perform all the equivalence test in a function that returns a boolean, even if one returns a false value?

For example

f a b = ((a+b) == 2) && ((a*b) == 2)

If the first test returns false, will it perform the second test after the &&? Or is Haskell lazy enough to not do it and move on?

4 Answers 4

24

Should be short circuited just like other languages. It's defined like this in the Prelude:

(&&)                    :: Bool -> Bool -> Bool
True  && x              =  x
False && _              =  False

So if the first parameter is False the 2nd never needs to be evaluated.

5
  • Is this also the same in the case of list comprehensions?
    – Jonno_FTW
    Nov 22, 2009 at 15:11
  • 1
    Short circuit is not spoken correctly. You simply don't know whether the values are evaluated since you have no way to prove it without side effects, but it's unlikely that they will unless needed.
    – Dario
    Nov 22, 2009 at 15:14
  • 1
    I think it's the same as C++: the language says the right-hand side doesn't get evaluated. But of course if the compiler can tell there aren't any side effects, it may evaluate it anyway--and some C++ compilers do so, since conditional branches are expensive. Nov 22, 2009 at 15:28
  • 1
    Note that evaluating thunks in Haskell can have side effects: errors or infinite loops. So just like C++, the compiler has to check for possible side effects first, if it wants to evaluate something it's technically not supposed to. Nov 22, 2009 at 15:30
  • Yes it works the same way in list comprehensions. Haskell is a pure language. Since this function is not defined in a monad there cannot be side effects. A good test would be something like this: False && (length [1..]) < 0 So throw something that will never complete on the right hand side.
    – Caleb
    Nov 22, 2009 at 15:38
5

Like Martin said, languages with lazy evaluation never evaluate anything that's value is not immediately needed. In a lazy language like Haskell, you get short circuiting for free. In most languages, the || and && and similar operators must be built specially into the language in order for them to short circuit evaluation. However, in Haskell, lazy evaluation makes this unnecessary. You could define a function that short circuits yourself even:

scircuit fb sb = if fb then fb else sb

This function will behave just like the logical 'or' operator. Here is how || is defined in Haskell:

True  || _ = True
False || x = x

So, to give you the specific answer to your question, no. If the left hand side of the || is true, the right hand side is never evaluated. You can put two and two together for the other operators that 'short circuit'.

1

A simple test to "prove" that Haskell DO have short circuit, as Caleb said.

If you try to run summation on an infinite list, you will get stack overflow:

Prelude> foldr (+) 0 $ repeat 0
*** Exception: stack overflow

But if you run e.g. (||) (logical OR) on in infinite list, you will get a result, soon, because of short circuiting:

Prelude> foldr (||) False $ repeat True
True
1
  • Interesting. This is kinda hard to accept to me since foldr uses the second argument and the function in the last element of the list. As in this case this is a infinite list, it's a bit weird to think about the application of this function. Thanks for the clarification tho.
    – user15277323
    Feb 3, 2022 at 22:28
0

Lazy evaluation means, that nothing is evaluated till it is really needed.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.