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It strikes me that every monad comprehension ends in a return. Does that not effectively make them isomorphic to applicative programming? Why do we have monad comprehensions with a Monad constraint instead of applicative comprehensions with an Applicative constraint?

This do-like notation for Applicative similarly strikes me as very similar to monad comprehensions.

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I may be wrong (no compiler at hand), but I think [y|x<-[1], y<-[x]] is a counterexample which can't be desugared using <$> and <*>. –  phg Sep 22 '12 at 17:56
    
Interesting historical note: MonadComprehensions was proposed as the notation for Monads before the do notation was invented. (Which also predates Applicative) –  AndrewC Jun 28 at 16:19

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No. You can write bind with monad comprehensions:

m >>= f == [ b | a <- m, b <- f a ]
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No it isn't, that's fmap. –  Taneb Sep 22 '12 at 17:55
    
@Taneb Oops, you're right. Fixed it. –  Sjoerd Visscher Sep 22 '12 at 18:00
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Ah, I see, thanks. Would it be possible/sensible to translate comprehensions and perhaps do notation to applicative when no "bound" names are used on the RHS? I guess similar to arrow notation without ArrowApply? –  Dag Sep 22 '12 at 18:09
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@Dag "when no 'bound' names are used on the RHS?" - this is an interesting observation, and yes, it is possible: The linked quasiquoter in your question does almost exactly this. Whether it is sensible is another question entirely... unfortunately Applicative is not defined a superclass of Monad (though in theory it should be) so things could get ugly. –  Dan Burton Sep 22 '12 at 18:33
    
@DanBurton In deed. –  Dag Sep 22 '12 at 19:44

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