# A list of random doubles within defined range in Haskell?

How can I make a list of random numbers of type 'Double', that fit within a defined range? Info on this matter for a newbie like me is a little bit confusing. Trying something like:

``````randomlist :: Int -> Int -> [IO Double]
randomlist a b = do
g <- newStdGen
return (randomRs (a,b) g)
``````

fails, with error:

``````Couldn't match expected type `[t0]' with actual type `IO StdGen'
``````

Could you point to mistakes in my code?

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You almost have it. You have two problems. The main problem is the `[IO Double]` part of your type signature; this says you'll be returning a list of IO actions, each of which can produce a double. Instead, you want to return an `IO [Double]`—an IO action which, when run, produces an infinite list of doubles. If you just change that, you're almost done; the remaining issue is that you have `a` and `b` as `Int`s, but return `Double`s. If you want to return doubles, your bounds need to be doubles, and similarly for integers. (To convert `Int`s to `Double`s, you can use `fromIntegral`; to go the other way, you can use `round`.) Thus, to get your code working, all you need to change is the type signature:

``````randomlist :: Double -> Double -> IO [Double]
randomlist a b = do
g <- newStdGen
return (randomRs (a,b) g)
``````

And in fact, if you'd left off the type signature, everything would have been fine; GHC would have inferred the more general type signature `Random a => a -> a -> IO [a]`. In other words, your function works with any data type you can generate random members of.

You can also simplify your code slightly. The following, for instance, is equivalent:

``````randomlist :: Random a => a -> a -> IO [a]
randomlist a b = fmap (randomRs (a,b)) newStdGen
``````

The `fmap :: Functor f => (a -> b) -> f a -> f b` function allows you to apply an ordinary function inside a functor. What's a functor? Roughly speaking, it's some sort of container; type functions such as `[]`, `(r ->)`, and `IO` are examples.1 This is exactly what you want; `randomRs (a,b)` has type `(Random a, RandomGen g) => g -> [a]`, and you instead need to give it something of type `IO StdGen`, getting a `Random a => IO [a]` back.

There's one more way you can make this nicer (and this is the way I'd write it). If you import `Control.Applicative`, you end up with

``````import Control.Applicative
randomlist :: Random a => a -> a -> IO [a]
randomlist a b = randomRs (a,b) <\$> newStdGen
``````

`<\$>` is a synonym for `fmap`; it looks like `\$`, ordinary application, because they're almost the same. `<\$>` just lifts you into a functor (here, `IO`).

1: Don't worry if this isn't perfectly clear; you can get away with using this stuff without understanding it in full detail, which will eventually lead to understanding.

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Or: `randomlist a b = newStdGen >>= randomRs (a, b)` –  alternative Jul 14 '11 at 20:51
@monadic No, that doesn't typecheck. –  dave4420 Jul 14 '11 at 21:44
@dave4420 It typechecks if you write `randomlist a b = newStdGen >>= return . randomRs (a, b)` instead. –  FUZxxl Jul 14 '11 at 22:32
@dave4420 Add a `return`. You can also write - quite pointless - `randomlist = (((<\$> newStdGen) . randomRs) .) . (,)`. –  FUZxxl Jul 14 '11 at 22:34
@FUZxxl Ahh sorry, didn't know the type of randomRs. Although I should have noticed since its being used applicatively... –  alternative Jul 14 '11 at 23:37

The main mistake is in your type signature. Removing it and asking `ghci` what the inferred type is gives this:

``````*Main> :t randomlist
randomlist :: Random a => a -> a -> IO [a]
``````

Of course, you may constrain this to the type `Double -> Double -> IO [Double]` if you wish, and you can add some calls to `fromIntegral` if you want to restrict further to integer bounds:

``````randomlist :: Int -> Int -> IO [Double]
randomlist a b = do
g <- newStdGen
return (randomRs (fromIntegral a, fromIntegral b) g)
``````

Note the difference between the type `[IO Double]` and `IO [Double]`. The former is a list of computations returning `Double`, while the latter is a single computation returning a list of `Double`, which is what you want in this case.

The error message may be a bit cryptic, but it's basically telling you that because `newStdGen` has the type `IO StdGen`, the bind `<-` is only allowed when the type of the `do`-expression is an `IO something`, whereas your type signature says the type should be `[something]`.

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