# Why can't I map a function that multiplies by a Fractional onto a list of Nums?

I want to make a list of numbers every `0.1` from `-150` to `150`.

To do this, I created a list, and then tried to map a Fractional multiplication lambda onto it, like so:

``````let indices = [-1500,-1499..1500]
let grid = map (\x -> 0.1 *x) indices
``````

This makes ghci spit out an error.

On the other hand, both of these work fine:

``````let a = 0.1*2
``````

and

``````let grid = map (\x -> 2 *x) indices
``````

What's going on here? Why does multiplication of a Num by a Fractional only fail when applied to a list with map?

EDIT: The error I get is:

``````No instance for (Fractional Integer)
arising from the literal `0.1'
Possible fix: add an instance declaration for (Fractional Integer)
In the first argument of `(*)', namely `0.1'
In the expression: 0.1 * x
In the first argument of `map', namely `(\ x -> 0.1 * x)'
``````
• What is the error you're getting? – Sami N Apr 4 '13 at 5:48
• Ah, the monomorphism restriction, striking again. – Carl Apr 4 '13 at 5:50
• @SamiN: I added the error I get to the question. – Dan Apr 4 '13 at 5:55
• Yep, that's the monomorphism restriction. I'm too tired to give you a real answer, but search SO for that phrase. Questions about it have been answered probably hundreds of times. – Carl Apr 4 '13 at 5:56

You've discovered the "dreaded monomorphism restriction". Basically GHC will infer the type of `indices` to be a monotype like `[Integer]` instead of `Num a => a`. You can either provide an annotation like `indices :: [Float]`, or rework your definitions to avoid the restriction.

For example (not a suggestion), if you make `indices` a function: `let indices a = [-1500, -1499..1500]`, the inferred type is now `(Enum t, Num t) => a -> [t]`. The `a` parameter is unused but defeats the restriction. Then you can then do `map f (indices whatever)`. See much more information in the Haskell Wiki about the Monomorphism Restriction.

• Could you specify where exactly one would put the annotation `indices:: [Float]` in this code? All of the haskell examples I've found online just use type inference. – Dan Jan 2 '14 at 22:40
• Yes, you can write the type annotation separately from the declaration like `let indices :: [Float]; indices = [-1500,-1499..1500]` or you can annotate the right-hand side of the definition `let indices = [-1500,-1499..1500] :: [Float]`. – kputnam Nov 25 '15 at 9:30

This is defaulting.

Your `indices` variable, rather than being polymorphic over the `Num` typeclass as you might expect, is defaulting to Integer, at which point you can't multiply it by `0.1`, since `0.1` will resolve to some Fractional type.

You could force indices to be polymorphic with an explicit type signature:

``````let indices :: (Enum a, Num a) => [a]; indices = [-1500,-1499..1500]
``````

although in practice you don't often want explicitly polymorphic lists in that way.

• Don't forget you'll also need `Enum a` in the signature. – kputnam Apr 4 '13 at 6:38
• Note that if you put these definitions in a file together then even without type signatures everything's fine. The monomorphism restriction still applies, but with the entire context available GHC can pick a correct monomorphic type rather than `[Integer]`. The way the defaulting works is not that dumb, it's just that entering bindings into ghci one at a time forces GHC to "work blind". – Ben Apr 4 '13 at 8:07
• @Ben : I think that's not quite precise. You can't type `let indices` and `let grid` at the top level of a file. They're let bindings in the monadic style. And two separate `lets` in monadic style are not mutually recursive. If it was either plain `indices = ` and `grid = ` at the top level, or if it was a single `let` with two clauses as in `let indices = ... ; grid = .... ` then absolutely, you make an excellent point - defaulting is applied across entire groups of definitions. – drquicksilver Apr 4 '13 at 12:44
• @drquicksilver You don't need them to be mutually recursive, you just need them in the same compilation unit. The monomorphism restriction applies after type inference has figured out the most general type of every expression, so after it's already figured out that `indices` and `grid` have be `Fractional a => [a]` for the same `a`; it then won't default one to a type that's invalid for the other. Wrapping the OP's code in `main = do ... print grid` works fine. The problem in GHCi is purely that it has to compile the `let indices` binding before you've even typed `let grid`. – Ben Apr 4 '13 at 22:23
• @Ben ah yes. As you say, sorry. – drquicksilver Apr 4 '13 at 23:35
``````let grid = map (\x -> 0.1 * (fromInteger x)) indices
``````

-- grid [-150.0,-149.9,-149.8,-149.70000000000002,-149.6,-149.5 ...]

the Following code worked for me

``````let indices = [-1500,-1499..1500]

let grid = map ( \x -> x /10 ) indices
``````

it doesn't like the 0.1

For full explanation see section "Monomorphic trouble" on this link

• i am using The Glorious Glasgow Haskell Compilation System, version 7.0.3 and the file just contained those lines and it worked – Osama Javed Apr 4 '13 at 6:05
• @Dan This code 'map ( \x -> x /10 ) [-1500,-1499..1500]' works on tryhaskell.org – Osama Javed Apr 4 '13 at 6:07
• My original code also works on tryhaskell.org. It doesn't work for my version of ghc (Version 7.4.1). – Dan Apr 4 '13 at 6:16
• @Dan I thought your code was not working because of the numeric thing issue.. I checked on hugs interpreter. It did not accept the code above as is but when I added 'indices :: [Double]' before indices, the code ran fine – Osama Javed Apr 4 '13 at 6:25
• @Dan I am stumped. maybe update the question so some one else can shed some light on this. – Osama Javed Apr 4 '13 at 6:47