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I have a sequence of prime number divisors that I want to iterate over for each prime candidate. I use GetEnumerator() MoveNext() and Current. I can't reinitialize the enumerator to start from the beginning. I tried Reset(), which compiled, but gives a runtime error of not implemented.

I am using F# 2.0 Interactive build 4.0.40219.1

Any suggestions?

Regards, Doug


To clarify the problem: For each prime candidate N I want to iterate thru the prime divisors sequence (up to approx sqrt N) and completely factor N or determine if it is prime. Using the GetEnumerator, MoveNext, Current approach works for the first prime candidate, but on the second prime candidate I want to iterate on my divisors sequence from the beginning. It appears that the only way to do this is to create a new iterator (which is awkward for a large number of prime candidates) or create a new prime sequence (which I don't want to do).

The suggestion of using something like "divisors in seqPrimes" appears to exhaust all divisors before stopping, but I want to stop as soon as a prime divisor divides the prime candidate.

If there is an error in my logic in the above statements, please let me know.

I investigated Seq.cache, and this worked for me. The resulting code follows:


// Recursive isprime function (modified from MSDN)
let isPrime n =
    let rec check i =
        i > n/2 || (n % i <> 0 && check (i + 2))
    if n = 2 then true
    elif (n%2) = 0 then false
    else check 3

let seqPrimes = seq { for n in 2 .. 100000 do if isPrime n then yield n }

// Cache the sequence to avoid recomputing the sequence elements.
let cachedSeq = Seq.cache seqPrimes


// find the divisors of n (or determine prime) using the seqEnum enumerator 
let rec testPrime n (seqEnum:System.Collections.Generic.IEnumerator<int>) =
  if n = 1 then printfn "completely factored"
  else
    let nref = ref n
    if seqEnum.MoveNext() then
      let divisor = seqEnum.Current
      //printfn "trial divisor %A" divisor
      if divisor*divisor > n then printfn "prime %A" !nref
      else
        while ((!nref % divisor) = 0) do
          printfn "divisor %A" divisor
          nref := !nref / divisor
        testPrime !nref seqEnum

// test
for x = 1000000 to 1000010 do
  printfn "\ndivisors of %d = " x
  let seqEnum = cachedSeq.GetEnumerator()
  testPrime x seqEnum
  seqEnum.Dispose()   // not needed
share|improve this question
2  
I would find it to be extremely rare to actually need to explicitly call members on an IEnumerator when you could just use the for x in y syntax. If you need to; just create a new enumerator. Posting your code would be helpful because I think we can find a better alternative. –  vcsjones Jan 16 '12 at 14:00
1  
Can you give a concrete example demonstrating the error? –  pad Jan 16 '12 at 14:00
    
Have you tried to use Seq.cache ? –  Huusom Jan 16 '12 at 14:26

1 Answer 1

If you mean that the cause of your attempt to reset the Enumerator is the high cost of regenerating your sequence of primes you may consider caching your sequence. This manner of using your sequence would be idiomatic to F#. To show you how to do this I refer you to the following snippet taken from this context:

let rec primes = 
    Seq.cache <| seq { yield 2; yield! Seq.unfold nextPrime 3 }
and nextPrime n =
    if isPrime n then Some(n, n + 2) else nextPrime(n + 2)
and isPrime n =
    if n >= 2 then
        primes 
        |> Seq.tryFind (fun x -> n % x = 0 || x * x > n)
        |> fun x -> x.Value * x.Value > n
    else false

You may play with this snippet to see that the penalty of re-enumeration here gets negligible.

Talking of Reset() method of IEnumerator, I recall that it is not implemented in current F#, i.e. throws System.NotSupportedException. See MSDN reference for justification.

ADDITION: In order to test it with the test you've suggested below:

for x in [1000000..1000010] do
    printfn "\ndivisors of %d" x
    primes
    |> Seq.takeWhile ((>) (int(sqrt(float x))))
    |> Seq.iter (fun n -> if x%n = 0 then printf "%d " n)

On my laptop test execution takes mere 3ms.

share|improve this answer
    
Thanks for all of the comments. It appears that to reset the enumerator (so it starts from the beginning of a sequence) you have to create a new enumerator (which seems awkward for testing a large number of prime number candidates) or create a new sequence (which I don't want to do). –  DougT Jan 16 '12 at 20:58
    
I used the "Answer Your Question" and sent it, but it has not appeared yet. –  DougT Jan 16 '12 at 21:12
1  
@DougT: That is right, resetting an enumerator is equivalent to creating a new enumerator; the latter is normal and idiomatic in F#. Using a cashed sequence would allow you to pay no performance penalty for this course of actions. You may play with the code above in fsi to see for yourself. –  Gene Belitski Jan 16 '12 at 21:20
    
Gene: Thanks for your help. -- Doug –  DougT Jan 16 '12 at 23:45

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