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I need a function which will choose a non-empty monoid. For a list this will mean the following behaviour:

> [1] `mor` []
> [1] `mor` [2]
> [] `mor` [2]

Now, I've actually implemented it but am wondering wether there exists some standard alternative, because it seems to be a kind of a common case. Unfortunately Hoogle doesn't help.

Here's my implementation:

mor :: (Eq a, Monoid a) => a -> a -> a
mor a b = if a /= mempty then a else b
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A standard implementation won't exist because "monoidal things" have no notion of introspection (FWIW, lots of things with a Monoid instance won't support equality anyway). –  stephen tetley Nov 28 '12 at 23:25
@stephentetley Thanks! Why don't you post it as an answer with an explanation of what you imply under introspection. –  Nikita Volkov Nov 28 '12 at 23:32

2 Answers 2

up vote 2 down vote accepted

[This is really a long comment rather than an answer]

In my comment, when I said "monoidal things have no notion of introspection" - I meant that you can't perform analysis (pattern matching, equality, <, >, etc.) on monoids. This is obvious of course - the API of Monoids is only unit (mempty) and an operation mappend (more abstractly <>) that takes two monodial things and returns one. The definition of mappend for a type is free to use case analysis, but afterwards all you can do with monoidal things is use the Monoid API.

It's something of a folklore in the Haskell community to avoid inventing things, prefering instead to use objects from mathematics and computer science (including functional programming history). Combining Eq (which needs analysis of is arguments) and Monoid introduces a new class of things - monoids that support enough introspection to allow equality; and at this point there is a reasonable argument that an Eq-Monoid thing goes against the spirit of its Monoid superclass (Monoids are opaque). As this is both a new class of objects and potentially contentious - a standard implementation won't exist.

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If your lists contain at most one element, they're isomorphic to Maybe, and for that there's the "first non empty" monoid: First from Data.Monoid. It's a wrapper around Maybe a values, and mappend returns the first Just value:

import Data.Monoid
main = do
    print $ (First $ Just 'a') <> (First $ Just 'b')
    print $ (First $ Just 'a') <> (First Nothing)
    print $ (First Nothing)    <> (First $ Just 'b')
    print $ (First Nothing)    <> (First Nothing :: First Char)

==> Output:
First {getFirst = Just 'a'}
First {getFirst = Just 'a'}
First {getFirst = Just 'b'}
First {getFirst = Nothing}

Conversion [a] -> Maybe a is achieved using Data.Maybe.listToMaybe.

On a side note: this one does not constrain the typeclass of the wrapped type; in your question, you need an Eq instance to compare for equality with mempty. This comes at the cost of having the Maybe type, of course.

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Sorry, but too specific. The question was about Monoids, not Lists and especially not one-item Lists. –  Nikita Volkov Nov 28 '12 at 23:13
What you're asking for is a monoid that requires Eq in its instance definition (as you can't define mappend mempty b = ..., because 'mempty' will simply be a pattern variable name). I highly doubt that exists, especially in the standard libraries. –  David Nov 28 '12 at 23:18
I know about Eq, that's why it is declared in my question. The mappend solution would have been wrong, since in case of lists it would have concatenated them. –  Nikita Volkov Nov 28 '12 at 23:25

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