How to falsify commutativity of function composition with QuickCheck

Question

1. What is ex that should be pass to CoArbitrary of the following code?

2. How to use Function in Test.QuickCheck.Function to represent f and g in proposition?

3. is it correct to write , if not, how?

   where types = [f, g] :: [Function]

4. Can variant accept Function ? as i know generate function often use >< or variant which stated in the source code of QuickCheck

The error:

<interactive>:1:12:
    No instance for (Eq (b0 -> b0))
      arising from a use of `prop_commutative'
    Possible fix: add an instance declaration for (Eq (b0 -> b0))
    In the first argument of `quickCheck', namely `prop_commutative'
    In the expression: quickCheck prop_commutative
    In an equation for `it': it = quickCheck prop_commutative

[Updated]

but it is not implemented CoArbitrary http://www.google.com.hk/url?sa=t&rct=j&q=QuickCheck+meiser.pdf&source=web&cd=1&ved=0CBwQFjAA&url=http%3A%2F%2Fwww.st.cs.uni-saarland.de%2Fedu%2Fseminare%2F2005%2Fadvanced-fp%2Fslides%2Fmeiser.pdf&ei=hhfHTo_ZDdCciAethMjqDw&usg=AFQjCNFF467CXacWGMkN8jvgqatkcLcVcg

Another writing mimic the example in Function, parse error at '=' in ghci let prop_commutative (Fun _ f) (Fun _ g) = (f.g) == (g.f) can run

The code:

import Test.QuickCheck.Function
import Test.QuickCheck.Gen
import Test.QuickCheck

let prop_commutative (Fun _ f) (Fun _ g) = (f.g) == (g.f)

main = quickCheck prop_commutative

Answer 1

QuickCheck looks for counterexamples. So you need to provide a negation of the property you seek:

prop1 f g x = not $ (f . g) x == (g . f) x

This particular property don't specify function type - any function of a -> a could work. So you need to specify types for f and g, or for whole function prop1.

1. You cannot compare f . g and g . f for equality because they are both functions and you cannot have a sensible definition of Eq for functions with infinite domains in Haskell. You need to randomly generate the argument too and compare the f . g and g . f functions by comparing their results by passing a random argument to both.

2. Read the documentation on the type of Fun _ f. f there is a monomorphic function. QuickCheck cannot generate random functions of different types - it can only generate functions of some particular type. But . is polymorphic, so the particular type of f cannot be inferred from the context. So you need to choose some arbitrary types for f and g and specify it in the type signature for your property.

Also, you don't need let for top-level definitions. Let can be only used inside of expressions in the form of let..in and inside do blocks without in.

Answer 2

Taking a note from nponeccop, I'd suggest this template:

import Test.QuickCheck

prop_commutative f g x = ...

main = quickCheck $ prop_commutative f g
  where f x = ...
        g x = ...

This approach requires you to come up with a counterexample. It's simple: think of two functions that, when composed both ways, do not produce the same result. This approach also makes use of partial application. I've handed two functions to prop_commutative, leaving it with just the x for quickCheck to generate and test.

This might be too simple, though. If you can do this, then the next step is to remove the specific counterexamples and figure out how to make quickCheck generate functions for you.