# F# vs C# performance for prime number generator

I have noticed that seemingly equivalent code in F# and C# do not perform the same. The F# is slower by the order of magnitude. As an example I am providing my code which generates prime numbers/gives nth prime number in F# and C#. My F# code is:

``````let rec isprime x =
primes
|> Seq.takeWhile (fun i -> i*i <= x)
|> Seq.forall (fun i -> x%i <> 0)

and primes =
seq {
yield 2
yield! (Seq.unfold (fun i -> Some(i, i+2)) 3)
|> Seq.filter isprime
}

let n = 1000
let start = System.DateTime.Now
printfn "%d" (primes |> Seq.nth n)
let duration = System.DateTime.Now - start
printfn "Elapsed Time: "
System.Console.WriteLine duration
``````

And C# looks like this:

``````class Program
{
static bool isprime(int n)
{
foreach (int p in primes())
{
if (p * p > n)
return true;
if (n % p == 0)
return false;
}
return true;
}

static IEnumerable<int> primes()
{
yield return 2;
for (int i=3; ; i+=2)
{
if (isprime(i))
yield return i;
}
}

static void Main(string[] args)
{
int n = 1000;
var pr = primes().GetEnumerator();
DateTime start = DateTime.Now;
for (int count=0; count<n; count++)
{
pr.MoveNext();
}
Console.WriteLine(pr.Current);
DateTime end = DateTime.Now;
Console.WriteLine("Duration " + (end - start));
}
}
``````

When I measure for different `n` I get advantage for C# of at least 7x as follows:

• n= 100: C#=5milsec F#=64milsec
• n= 1000: C#=22milsec F#=180milsec
• n= 5000: C#=280milsec F#=2.05sec
• n=10000: C#=960milsec F#=6.95sec

My questions:

• Are these two programs equivalent?
• If yes, why aren't they compiled into a same/equivalent CLI?
• If not, why not?
• How can I/Can I improve my F# prime numbers generator to perform more similar to the C# one?
• Generally, can I (or why can I not) always mimic C# code in F# so my F# code would perform equally fast?

Edit1: I've realized that the algorithm itself can be improved by traversing only through odd and not prime numbers in isprime, making it non-recursive, but this is kind of perpendicular fact to the questions asked :)

• One obvious difference is that takewhile and then forall might potentially involve two passes over the data which could be catastrophic particularly if the sequence doesn't get cached. – John Palmer Mar 14 '16 at 7:50
• That's a really good catch! I thought the compiler would optimize it away, but on the second thought I see it wouldn't. Then what is a good way of combining Seq.takeWhile and Seq.forall? – Огњен Шобајић Mar 14 '16 at 8:13
• If you want to go crazy, try stackoverflow.com/questions/12014224/… – John Palmer Mar 14 '16 at 8:17
• Also, don't use Datetime, use stopwatch – John Palmer Mar 14 '16 at 8:17
• @JohnPalmer - I'm curious what you mean about "two passes" - `primes` will only be iterated once per call to `isprime` (as can be seen by adding some `printf`s). – kvb Mar 14 '16 at 18:09

This:

Are these two programs equivalent?

is a bit of a philosophical question.

It looks to me like the output of the C# and F# implementations of `isprime` will always agree for any given `x`, so in that sense they're equivalent. However, there are many differences in terms of how you've implemented them (e.g. `Seq.unfold` will create an intermediate `IEnumerable<_>` value, then `Seq.filter` will create another one, so you're generating a lot more short-lived objects and using a lot more function calls in the F# code), so it's not at all surprising that they're not equivalent in terms of the low-level instructions that are generated by the respective compilers.

If you want to, you can create F# code that's much more similar to the C# code, at the expense of being much more imperative and less idiomatic:

``````let rec primes =
seq {
yield 2
let mutable x = 3
while true do
if isprime x then
yield x
x <- x + 2
}
and isprime x =
use e = primes.GetEnumerator()
let rec loop() =
if e.MoveNext() then
let p = e.Current
if p * p > x then true
elif x % p = 0 then false
else loop()
else true
loop()
``````

`primes |> Seq.item 5000` takes about 0.6s on my machine with this implementation, compared to about 2.7s with your implementation. I think in general the code generation for F# `seq` expressions is often slightly worse than that of C# iterators, so I wouldn't be surprised if the C# is still somewhat quicker to run. (But also note that some idioms end up being faster in F# than in C#, so it's not the case that F# is always slower - in my experience the two languages are pretty comparable overall, and I find writing F# code much more enjoyable).

In any case, rather than sweating the details of how to make the F# compiler's output more closely match the C# compiler's, I'd recommend looking for algorithmic improvements instead. For example, simply placing a call to `Seq.cache` at the end of your original definition of `primes` makes `primes |> Seq.item 5000` take only 0.062 seconds on my machine, which is dramatically faster than the original C#.