When I'm developing an understanding of some concept, I find it very unsatisfactory not to be able to see how the apparent etymology of the concept name relates to what I think I'm understanding about the concept. If I can't see the connection, I'm left with the feeling that there's some significant insight the name is trying to convey that I haven't yet discovered.

Monad: From Greek for unity. Mon = one; ad = a group or unit comprising a certain number. This composes to "A group or unit composed of one thing".

http://www.haskell.org/haskellwiki/All_About_Monads says:

"A monad is a way to structure computations in terms of values and sequences of computations using those values. Monads allow the programmer to build up computations using sequential building blocks, which can themselves be sequences of computations." ... "Other monads exist for building computations that perform I/O, have state, may return multiple results, etc"

Nothing much there about one-ness.

http://www.haskell.org/haskellwiki/Monad claims that the one-ness in term monad refers to the one output that a monad will produce. But given that any function produces one output, (and the above reference says "may return multiple results", not to mention out-of-band/error results), and there's nothing about the "group or unit", that explanation seems unconvincing.

Is there some better explanation?

[Edit: Responding to the "off topic" flag. My question is not about the etymology of the word "monad" per se. It is about the Haskell concept of monad, and how the roots of the word monad do or do not inform us about that concept, or perhaps actually misdirect us from understanding the topic. Given that monad is a famously hard-to-communicate concept in Haskell, this is certainly a question about programming.

That this is a salient issue is reinforced by the variation in respondent suggestions regarding how the roots in "monad" might relate to the topic at hand, including the observation that the explanation in Haskell's own documentation is highly suspect.

That said, I'm pretty satisfied with the answers given (thanks all!), so no need to reopen the topic. But I'd advocate not moving it elsewhere, so that others with the same confusion about an important Haskell concept can find it here.]

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    Haskell monad is named so after the category theory monad. So you should be asking about the etymology of that. But then I doubt this question belongs to SO. – Roman Cheplyaka Dec 30 '12 at 11:14
  • Monad is a word-play on "monoid" (a mathematical concept, of which monad is a generalization) and "triple" (the old term for monad, called so because it comes in three parts). – n. 'pronouns' m. Dec 30 '12 at 11:17
  • @Roman Thanks for your comment, and yes I was aware that the term comes from abstract algebra. That said, etymology includes the study of the changes of meaning, and in the current question, how the constituent roots might relate to the programming concept of monads, the better to understand the nature and intent of Haskell monads. (I'm spelling this out here in the hopes that this question doesn't suffer the fate of the great answer developed by C A McCann, referenced below). – gwideman Dec 30 '12 at 12:04
  • The fact that a Haskell monad is both a group of computations and a single computation simultaneously is perfectly in line with the definition given. – user1891025 Dec 30 '12 at 17:20
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    This is actually an interesting question. The Haskell monad comes from the category theory monad, which comes from Leibnitz's monadology, which ultimately draws upon Platonic and Egyptian realism. A monad is a "completed totality" made up of adjoint functors. In such a way, it is a generalization of a closure operator. Etc. – nomen Sep 27 '13 at 15:05

Is there some better explanation?

Short answer: No, there really isn't.

Slightly less short answer: It's almost certainly related to "monoid", and not related to any other use of "monad" (there are at least two), and the term was coined at a gathering of mathematicians so there's likely not even a written source that's the first use of the term.

Longer answer with quotes and citations: The one I wrote here.

That claim on the wiki about the alleged meaning seems very dubious to me, incidentally.

  • +1. But it's a pity that the questions was migrated to english from programmers – Raffaele Dec 30 '12 at 11:20
  • @Raffaele: It's a question about etymology, having nothing to do with programming as such. Where else would it go? Math.SE? – C. A. McCann Dec 30 '12 at 11:22
  • I don't think english has the audience of stackoverflow, neither quantitatively (and so this is a pity because yours is a very well-written answer) nor qualitatively (in the sense of the interests of the users). math would be the most in-topic place, except that likely mathemeticians already know the concept, whereas it sounds completely new to developers approaching functional programming, and they can't know where to look for. So I think it should belong to stackoverflow because, even if slightly offtopic, there's the greatest number of users who can benefit from it. Just my opinion, btw – Raffaele Dec 30 '12 at 11:39
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    @Raffaele: Yes, it does seem odd that CA's great answer is sidelined over in "english". I agree that the term is unlikely to mystify mathematicians, wouldn't be sought by ordinary mortals, and is most puzzling to software folks. But maybe the current post will enable programmers to find it. – gwideman Dec 30 '12 at 11:49
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    @gwideman: The closest equivalent Monoid instance would be Endo a, the monoid of endomorphisms a -> a and function composition, where the identity value is (of course) id. Monad is a monoid of endofunctors on the category of Haskell types, with functor composition as the operation and the identity functor as the identity value. For a monad m, we can get m a from Id a--that is, just a--using return, and from m composed with itself m (m a) we can get just m a using join. The monoid structure is still very relevant, it's just at a different level. – C. A. McCann Dec 30 '12 at 12:13

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