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Consider this F# code to sum the numbers below i that are multiples of 3 and 5:

let isMultipleOfThreeOrFive n = 
    (n % 3 = 0) || (n % 5 = 0)

let sequenceOfMultiples i =
    seq {1 .. i - 1} |> Seq.filter isMultipleOfThreeOrFive

Since i is an int, you'll overflow if i is large. This version with BigInteger takes care of that:

let isMultipleOfThreeOrFive n = 
    (n % 3I = 0I) || (n % 5I = 0I)

let sequenceOfMultiples (i : System.Numerics.BigInteger) =
    seq {1I .. i - 1I} |> Seq.filter isMultipleOfThreeOrFive

To convert the int version to the BigInteger version, I had to add lots of Is after the numbers. This is because F# doesn't do implicit conversions.

Is there an easy way to get around this, or was adding Is in 6 places the best thing to do?

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6  
it's not a bug, it's a feature ;-) –  Mauricio Scheffer Nov 2 '10 at 12:52

2 Answers 2

up vote 5 down vote accepted

You did the best thing.

(There is not an easier way to "get around" it than by adding the six characters you added. Even without implicit conversions, the F# is shorter than the C#, and the delta change-from-int-to-BigInteger is also smaller in F# than C#. So don't be sad about the loss of implicit conversion - be happy about all the other succinctness wins. :) )

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Speed loses big time however. –  leppie Nov 2 '10 at 6:31
3  
Huh? The F# BigInteger and C# BigInteger code do the same work? –  Brian Nov 2 '10 at 6:34
    
Thanks, Brian. Always a pleasure reading your stuff here and on reddit. –  user392226 Nov 2 '10 at 7:02
    
going 'generic' statically would have made the trick though I think, as F# can specialize the code to the specific type at hand at compile time –  nicolas Feb 22 '13 at 8:15

This doesn't exactly answer your question, but note that it's also possible to make sequenceOfMultiples generic by defining your own numeric literal:

module NumericLiteralG =
  let inline FromZero() = LanguagePrimitives.GenericZero
  let inline FromOne() = LanguagePrimitives.GenericOne
  let inline FromInt32 (i:int) =
    let zero : ^a = FromZero()
    let one : ^a = FromOne()
    let rec compute : int -> ^a = function
    | 0 -> zero
    | n -> 
        let half = compute (n/2)
        let whole = half + half
        if (n%2 = 0) then whole
        else whole + one
    compute i

let inline isMultipleOfThreeOrFive n = 
    (n % 3G = 0G) || (n % 5G = 0G)

let inline sequenceOfMultiples i =
    seq {1G .. i - 1G} |> Seq.filter isMultipleOfThreeOrFive

let bigintSeq = sequenceOfMultiples 100I
let intSeq = sequenceOfMultiples 100

// doesn't compile
let stringSeq = sequenceOfMultiples "100"
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