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I am working on a parser combinator library and found some behavior I couldn't explain. The first time I run the combinator it runs significantly slower than the second time that I run it. I repo'd the behavior with this small app (running Release with optimizations on)

let (>>=) first callback state = 
    let reply = first state
    callback reply state

let time f = 
    let start = System.DateTime.Now
    f()
    printfn "%s" ((System.DateTime.Now - start).ToString())

[<EntryPoint>]
let main args = 

    let x1 state = "foo"

    let compound = 
        x1 >>= fun i ->
        x1 >>= fun j ->
        x1 >>= fun a ->
        x1 >>= fun b ->
        x1 >>= fun c ->
        x1 >>= fun d ->
        x1 >>= fun e ->
        x1 >>= fun f ->
        x1 >>= fun j ->                
               fun _ -> [i;j;a;b;c;d;e;f]


    time (fun () -> compound "a" |> ignore)
    time (fun () -> compound "b" |> ignore)
    time (fun () -> compound "c" |> ignore)


    0

Running this output I get

00:00:00.0090009
00:00:00.0010001
00:00:00

Why is the first iteration so much slower than the second or third?


Edit, so I tried this out in C# as well. It runs faster, but the results are similar.

using System;

namespace fssharp
{
    public delegate string Parser(string state);

    public delegate Parser Callback(string result);

    public class Combinator
    {
        public static Parser Combine(Parser p, Callback callback)
        {
            Parser r = state =>
            {
                var result = p(state);
                return callback(result)(state);
            };

            return r;
        }

        public static string X1(string state)
        {
            return "foo";
        } 
    }
    class Program
    {
        static void Main(string[] args)
        {
            Parser comb = state => 
                                Combinator.Combine(Combinator.X1, result  =>
                                Combinator.Combine(Combinator.X1, result2 =>
                                Combinator.Combine(Combinator.X1, result3 =>
                                Combinator.Combine(Combinator.X1, result4 =>
                                Combinator.Combine(Combinator.X1, result5 =>
                                Combinator.Combine(Combinator.X1, result6 =>
                                Combinator.Combine(Combinator.X1, result7 =>
                                Combinator.Combine(Combinator.X1, result8 =>
                                Combinator.Combine(Combinator.X1, result9 => s => result + result2 + result3 +result4 +result5 +result6 +result7+result8+result9)))
                                ))))))(state);

            var now = DateTime.Now;

            comb("foo");

            Console.WriteLine(DateTime.Now - now);

            now = DateTime.Now;

            comb("foo2");

            Console.WriteLine(DateTime.Now - now);
        }
    }
}

This prints out

00:00:00.0030003
00:00:00

I'm now curious why C# is faster here

share|improve this question
1  
Is it faster the first time or the second? You state both in the original question. –  Vincent Hubert Sep 6 '13 at 21:03
    
My apologies, the first is slower. I will update the question –  devshorts Sep 6 '13 at 21:03
1  
Probably something to do with the compiler pre-loading bytecode? Does the third time run the same as the second? –  mydogisbox Sep 6 '13 at 21:06
    
@mydogisbox, yeah, all subsequent times run as fast as the second time. –  devshorts Sep 6 '13 at 21:07

1 Answer 1

up vote 5 down vote accepted

Even tough I can't tell for sure, it is either:

  1. JIT: The function is JIT'ed the first time it runs, and then it uses the already compiled version

  2. It detects that the same function is called with the same parameters and cache the result.

Try to call it with a different parameter. If the time stays the same it's 2, if time is different it's 1

share|improve this answer
    
Updated the sample to use different input arguments. Sounds like its A. Is there any way to force a JIT beforehand to validate the hypothesis? –  devshorts Sep 6 '13 at 21:11
    
There is no way to do that to my knowledge. It has to do with how the VM loads bytecode. –  mydogisbox Sep 6 '13 at 21:13
    
    
@VincentHubert I've tried ngen installing the app and it didn't make a difference. I got the same result –  devshorts Sep 6 '13 at 21:41
1  
Also, could be hardware related. If the code runs fast enough, maybe it stays in the CPU cache long enough to be present when running the second time. If you sleep() for a minute between calls, do you have the same result? –  Vincent Hubert Sep 6 '13 at 21:59

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