The core idea is that
mapM maps an "action" (ie function of type
a -> m b) over a list and gives you all the results as a
mapM_ does the same thing, but never collects the results, returning a
If you care about the results of your
a -> m b function (ie the
mapM. If you only care about the effect, whatever it is, but not the resulting value, use
mapM_ because it can be more efficient and, more importantly, makes your intentions clear.
You would always use
mapM_ with functions of the type
a -> m (), like
putStrLn. These functions return
() to signify that only the effect matters. If you used
mapM, you'd get a list of
[(), (), ()]), which would be completely useless but waste some memory. If you use
mapM_, you would just get a
(), but it would still print everything.
On the other hand, if you do care about the returned values, use
mapM. As a hypothetical example, imagine a function
fetchUrl :: Url -> IO Response—chances are, you care about the response you get for each URL. So for this, you'd use
mapM to get a lists of responses out that you can then use in the rest of your code.
mapM if you care about the results and
mapM_ if you don't.
map is something different: it takes a normal function (
a -> b) instead of one using a monad (
a -> m b). This means that it cannot have any sort of effect besides returning the changed list. You would use it if you want to transform a list using a normal function.
map_ doesn't exist because, since you don't have any effects, you always care about the results of using