# returning an element extracted from a monad; redundant?

Are the following two implementations of flatten equivalent for all well-behaved Monads?

``````flatten1 xss = do
xs <- xss
x <- xs
return x

flatten2 xss = do
xs <- xss
xs
``````
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Yup, 100% identical. You could just import `Control.Monad` and write `join`, or use `xss >>= id`. –  Daniel Fischer Jun 20 '13 at 15:36
Yes. `do { ...; x <- m; return x }` is always equal to `do { ...; m }`. –  Gabriel Gonzalez Jun 20 '13 at 16:16

Yes, they're identical. They're desugared as

``````flatten1 xss =
xss >>= \xs -> xs >>= \x -> return x

flatten2 xss = do
xss >>= \xs -> xs
``````

The first one is equivalent to

``````xss >>= \xs -> xs >>= return
``````

and by the Right identity monad law equivalent to

``````xss >>= \xs -> xs
``````
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In short, yes. To prove it:

You've written:

``````xss >>= (\xs -> xs >>= \x -> return x)
xss >>= (\xs -> xs >>= return) -- eta
``````

in the first and

``````xss >>= (\xs -> xs)
xss >>= id
``````

according to the monad laws, `return` is a right identity so that

``````m >>= return === m
``````

so we can do

``````xss >>= (\ xs -> xs >>= return )
xss >>= (\ xs -> xs )
xss >>= id
``````
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