Are both functions equivalent if we choose them at `monadPlusSDif`, `Maybe` as the data type for `MonadPlus`?

``````tdif :: Int -> Int -> Maybe Int
tdif x y
| y == 0 = Nothing
| otherwise = Just (div x y)

monadPlusSDif :: MonadPlus m => Int -> Int -> m Int
monadPlusSDif x y = guard (y /= 0) >> return (div x y)
``````
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In the future please take the time to type your code into the Stackoverflow editor, images of code are not considerate to others who want to help. –  bheklilr Jan 24 at 17:19

These functions will have equivalent behavior if `m ~ Maybe`, but their compiled byte-code representation will likely be different. You could also implement it with actual guards for general `MonadPlus` monads as

``````monadPlusSDif :: MonadPlus m => Int -> Int -> m Int
| y == 0 = mzero
| otherwise = return \$ x `div` y
``````

Then you could use it as

``````bigEquation :: Int -> Int -> Maybe Int
bigEquation x y = do
z1 <- monadPlusSDif x y
z2 <- monadPlusSDif (x + y) (x - y)
z3 <- monadPlusSDif y x
return \$ z1 + z2 * z3
``````

and the compiler would be able to figure out that in that context, it should use `Maybe` for `m`.

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Well, for `Maybe` the `MonadPlus` instance is

``````instance MonadPlus Maybe where
mempty = Nothing
``````

and `guard` is implemented as

``````guard b = if b then return () else mempty
--      = if b then Just   () else Nothing
``````

With that knowledge, you can use equational reasoning to deduce that, when `m` is `Maybe`, you can replace the original code

``````monadPlusSDif x y = guard (y /= 0) >> return (div x y)
``````

with

``````monadPlusSDif x y = (if y /= 0
then Just ()
else Nothing) >> Just (div x y)
``````

or

``````monadPlusSDif x y
| y /= 0    = Just () >>= \_ -> Just (div x y)
| otherwise = Nothing >>= \_ -> Just (div x y)
``````

or

``````monadPlusSDif x y
| y /= 0    = Just (div x y)
| otherwise = Nothing
``````

or

``````monadPlusSDif x y
| y == 0    = Nothing
| otherwise = Just (div x y)
``````

so you see that the functions are identical.

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