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I've written a function and I have started to refactor it, but I'm having some problems with a "A unique overload for method 'Round' could not be determined based on type information prior to this program point." error, but I don't understand why.

let CheckValuesLin (lowValue, highValue) multiplier (sigFigs:int) =
    let arithmean (lowValue, highValue) =
        (lowValue + highValue) / 2.0
    let createRangeValue numberModifier meanfunction= 
        let mean = meanfunction (lowValue, highValue)
        let rangeValue = mean + (numberModifier mean) * multiplier
        Math.Round(rangeValue, sigFigs)
    let createRangeValues valueCreatingFunction=
        (createRangeValue makeNegative arithmean, createRangeValue keepPositive arithmean)
    let greatestMinValue, lowestMaxValue = createRangeValues createRangeValue
    (greatestMinValue, lowestMaxValue)

The line that fails is the Math.Round line, which vanishes when I set range to range: float. This confuses me, as everything I hover over seems to have the correct type inferred already, including range and mean.

I don't mind putting the type hinting in, I would just like to know why it fails.

share|improve this question
up vote 2 down vote accepted

The problem is that F# type inference is strictly left to right, top to bottom.

In the createRangeValue function, the compiler can only infer that all the values are numeric, there is nothing to force the types to be float.

Whilst the call to arithmean later on would seem to give some of the values float types, this occurs after the call to Round, so the compiler cannot infer types.

EDIT Some more detail: Essentially the compiler sees this:

let lowValue = 0.0 //I am being genrous by making this have a type
let highValue = 0.0
let sigFigs = 0 //this type is known
let createRangeValue (numberModifier) (meanfunction) multiplier= 
    let mean = meanfunction (lowValue, highValue)    
    let rangeValue = mean + (numberModifier mean) * multiplier
    Math.Round(rangeValue, sigFigs)

In this case, rangeValue could be either float or Decimal as both would satisfy all the constraints present.

For me, this works fine

open System
let makeNegative a = -a
let keepPositive a = a
let CheckValuesLin (lowValue, highValue) multiplier (sigFigs:int) =
    let arithmean (lowValue, highValue) =
        (lowValue + highValue) / 2.0
    let createRangeValue numberModifier (meanfunction: float * float -> float)= 
        let mean = meanfunction (lowValue, highValue)
        let rangeValue = mean + (numberModifier mean) * multiplier
        Math.Round(rangeValue, sigFigs)
    let createRangeValues valueCreatingFunction=
        (createRangeValue makeNegative arithmean, createRangeValue keepPositive arithmean)
    let greatestMinValue, lowestMaxValue = createRangeValues createRangeValue
    (greatestMinValue, lowestMaxValue)
share|improve this answer
    
If that were the case, wouldn't a type hint on "meanFunction" of type float*float->float fix the problem? It doesn't, so maybe I've misunderstood your answer? – Sean Jun 28 '13 at 10:35
    
@Sean - there is still an undertimed type in numberModifier - although I think it should be infered to be float -> float this is not done for some reason. Adding this type annotation fixes the problem, though I am not sure why – John Palmer Jun 28 '13 at 10:52
    
@Sean - I initially got the same error as you, but resetting my fsi made it go away, I added code with an annotation only on meanfunction that works for me – John Palmer Jun 28 '13 at 11:07
    
Works fine. Thanks. – Sean Jun 28 '13 at 11:31

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