# Efficiently converting an [Integer] to [Float] with Haskell

Here's a simplified example of the entries I have in the text files I'm reading --

``````Set1 1 2 3
Set2 6 7 8
``````

I'm trying to write a function that can convert the above strings into a list of tuples --

``````[("Set1", [1.0, 2.0, 3.0]), ("Set2", [6.0, 7.0, 8.0])]
``````

This is the function I've written --

``````parse_input :: String -> [(String, [Float])]
parse_input x = [ (head y, int2float (tail y)) | y <- splitinput ]
where
int2float x = [ read a::Float | a <- x ]
splitinput = [ words a | a <- lines x ]
``````

What bothers me most about this code is the int2float part. It combs through a list of integers and one-by-one converts each one into a float.

Is there a more efficient way to convert a list of integers into a list of floats?

-
Note that using `[Float]` is generally a bad idea, you might as well use `[Double]` then. If you want fast performance for simple operations use e.g. `Data.Vector.Unboxed`s. –  leftaroundabout Nov 10 '12 at 18:30
What you are trying to do is to convert `[String]` to `[Float]`. I think using `read` will do just fine. If you really have `[Int]` then you can use `fromIntegral` to get any instance of `Num` type. Just to point you should prefer `map` instead of list comprehension as it is more readable.