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# New to Haskell - Trying to create associative xor chart

I'm trying to create a associate xor chart on Haskell, which to my understanding, should come out true in every instance. Though, when i call my function I get: [True, True, True, False, True, False, True, True]. Can anyone see the mistake I made?

``````bools = [True, False]

xor_assoc = [   ((r || (p || q)) && not (r || (p && q)))
== ((p || (r || q)) && not (p || (r && q)))
| r <- bools,
p <- bools,
q <- bools]
``````
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`(p,q,r) = (False,False,True)`, lhs = False, rhs = True. Similar is the case for `(True, False, False)`. – Satvik Sep 14 '13 at 6:10

Your principle is wrong: `(r || (p && q)) /= (p || (r && q))`. Counter-example is `(p, q, r) = (T, F, F)` where we have

``````(F || (T && F)) /= (T || (F && F))
(F || F       ) /= (T || F       )
F               /= T
``````

Notably, both `(||)` and `(&&)` are individually associative, but do not associate around one another.

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I dont know what you are doing exactly. But the way you are doing list comprehension, it will generate all possible `2^3` cases. And your predicate returns `False` in two of them.

When `(p,q,r) = (False,False,True)` then `(r || (p && q))` becomes `True` hence lhs is `False`, whereas `(p || (r && q))` is `False` and hence rhs is `True`.

Similar is the case with `(True,False,False)` in which lhs is `True` and rhs is `False`.

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Are you trying to implement `r xor p xor q`? That should have 4 True and 4 False.

``````[r /= (p /= q) | let bools = [True, False], r <- bools, p <- bools, q <- bools]
``````

Or if you are proving xor is associative, then:

``````[(r /= (p /= q)) == ((r /= p) /= q) |
let bools = [True, False], r <- bools, p <- bools, q <- bools]
``````

This one does have all 8 True

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