# Integer to float

This code works:

``````posToXY :: Float -> Float -> Integer
posToXY a b = do
let y = a / b
round y
``````

But this doesn't work:

``````posToXY :: Integer -> Integer -> Integer
posToXY a b = do
let y = a / b
round y
``````

I understand that operation '/' doesn't define for Integer type, but I don't know how to fix code to work with Integer parameters.

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–  Don Stewart May 2 '11 at 20:35
–  Don Stewart May 2 '11 at 20:36

If you want to perform fractional division, you can convert from any `Integral` type using `fromIntegral`, or `fromInteger` to convert only from `Integer` specifically.

There are similar functions relating to other numeric type classes: `toRational`, `fromRational`, `realToFrac`, etc. And of course you can convert fractional types back to integral types using `round`, `floor`, `ceiling`, or such.

And finally, on the off chance that you actually wanted integer division, instead of fractional division with rounding afterwards, there's the `div` and `quot` functions (depending on what truncation behavior you want).

Also, you probably should write your function as something like `posToXY a b = round \$ a / b`. The unnecessary `do` and multiple lines makes it harder to read.

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`posToXY a b = round \$ a / b` -- in this case, I personally prefer parentheses for readability - it saves having to think (even for just a split second) about operator precedence, and it just looks more like the mathematical expression it represents. –  mokus Oct 19 '10 at 14:34
@mokus: Yeah, I agree. I only used `(\$)` here out of habit, I likely would've used parentheses in actual code. –  C. A. McCann Oct 19 '10 at 17:04

You can use `fromIntegral` to convert any Integral type into any Num type. So:

``````let y = fromIntegral a / fromIntegral b
``````
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Your code could easily be simplified to

``````posToXY :: Float -> Float -> Integer
posToXY a b = round (a / b)
``````

Then

``````posToXY :: Integer -> Integer -> Integer
posToXY a b = round (fromIntegral a / fromIntegral b)
``````
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If you want integer division, you can use `div`.

``````posToXY :: Integer -> Integer -> Integer
posToXY = div
``````

Note this isn't quite the same as rounding a floating-point division, because `div` always rounds down.

For a more general type signature, you can do this instead

``````p :: (Real a, Real a1, Integral b) => a -> a1 -> b
posToXY a b = round (realToFrac a / realToFrac b)
``````
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