# Are there tricks for doing implicit conversions in F#?

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 `I`s after the numbers. This is because F# doesn't do implicit conversions.

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

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

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
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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