2

I told about that problem: https://www.hackerrank.com/contests/projecteuler/challenges/euler003

I am trying to solve this problem as follows:

open System


let isPrime n =
    match n with
    | _ when n > 3L && (n % 2L = 0L || n % 3L = 0L) -> false
    | _ ->
        let maxDiv = int64(System.Math.Sqrt(float n)) + 1L
        let rec f d i = 
            if d > maxDiv then 
                true
            else
                if n % d = 0L then 
                    false
                else
                    f (d + i) (6L - i)     
        f 5L 2L

let primeFactors n =
    let rec getFactor num proposed acc =
        match proposed with
        | _ when proposed = num -> proposed::acc
        | _ when num % proposed = 0L -> getFactor (num / proposed) proposed (proposed::acc)
        | _ when isPrime num -> num::acc
        | _ -> getFactor num (proposed + 1L) acc
    getFactor n 2L []


let pe3() =
    for i = 1 to Console.ReadLine()  |> int  do
        let num = Console.ReadLine() |> int64
        let start = DateTime.Now
        primeFactors num 
            |> List.max
            |> printfn "%i" 
        let elapsed = DateTime.Now - start
        printfn "elapsed: %A" elapsed

pe3()

There are results of my testing:

  • Input: 10 Output: 5 Elapsed time: 00:00:00.0562321

  • Input: 123456789 Output: 3803 Elapsed time: 00:00:00.0979232

  • Input: 12345678999 Output: 1371742111 Elapsed time: 00:00:00.0520280

  • Input: 987654321852 Output: 680202701 Elapsed time: 00:00:00.0564059

  • Input: 13652478965478 Output: 2275413160913 Elapsed time: 00:00:00.0593369

  • Input: 99999999999999 Output: 909091 Elapsed time: 00:00:00.1260673

But I anyway get Terminated due to timeout in Test Case 5. What can I do?

  • 2
    in primeFactors, replace | _ when proposed = num -> proposed::acc with | _ when proposed*proposed > num -> num::acc, and it'll work. – Will Ness Mar 5 at 13:07
  • @WillNess thank you for answer. unfortunately, I get the same error – Poppy Field Mar 5 at 15:05
  • @PoppyField can you share what the input is for test case 5? – Sven Grosen Mar 5 at 15:50
  • Here's a couple of hints. If k is the smallest factor of n (other than 1) then k is prime. If k is the smallest factor of n then the smallest factor of n/k is at least as great as k. If there is no factor of n less than or equal to sqrt(n), then n is prime. – rici Mar 5 at 16:05
  • All of those are easy to prove. The result is that isPrime will only be called with prime arguments and that acc will always be sorted (so it's not necessary to keep the list). Also, as mentioned in a comment above, you can terminate the search much earlier. – rici Mar 5 at 16:09
1

There is a solution:

open System

let primeFactors n =
    let rec getFactor num proposed acc =
       match proposed with
       | _ when proposed*proposed > num -> num::acc
       | _ when num % proposed = 0L -> getFactor (num / proposed) proposed (proposed::acc)
       | _ -> getFactor num (proposed + 1L) acc
    getFactor n 2L []

let pe3() =
    for i = 1 to Console.ReadLine()  |> int  do
        printfn "%i" (primeFactors (Console.ReadLine() |> int64)).Head
pe3()

Thanks Will Ness and rici.

  • the very first element in the list will actually be the biggest. – Will Ness Mar 6 at 12:35
  • @WillNess yea, thats right. thank you so much :) – Poppy Field Mar 6 at 13:24
  • you're welcome. :) – Will Ness Mar 6 at 13:25
0

There is no need to write super sophisticated code for this challenge. A simple algorithm to enumerate a number's prime factors will do the trick. My code creates a seq of the prime factors, then finds the maximum, and prints it. The rest of the code shows a nice functional way of handling processing of lines read from standard input.

module Auxiliaries =

    let isNull (x : 'a when 'a : not struct) =
        match box x with
        | null -> true
        | _ -> false

    let refAsOption x =
        if isNull x then None else Some x

    let readLinesFromTextReader r =
        let tryRdLn (r : System.IO.TextReader) =
            try refAsOption (r.ReadLine ()) with _ -> None
        let gen r =
            tryRdLn r |> Option.map (fun s -> (s, r))
        Seq.unfold gen r

module Contest =

    let factors num =
        let next n =
            if n = 2L then 3L
            elif n % 6L = 1L then n + 4L
            else n + 2L
        let rec loop nn ct lf =
            seq {
                if ct * ct > nn then
                    if nn > lf then yield nn
                elif nn % ct = 0L then
                    yield ct
                    yield! loop (nn / ct) ct ct
                else
                    yield! loop nn (next ct) lf
            }
        loop num 2L 0L

    let euler003 n = factors n |> Seq.max

    let () =
        Auxiliaries.readLinesFromTextReader stdin
        |> Seq.skip 1
        |> Seq.map (int64 >> euler003)
        |> Seq.iter stdout.WriteLine

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