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How good is the performance of binary I/O libraries in these two languages> I am contemplating about re-writing an ugly (yet very fast) C++ code that processes binary files of around 5-10GB using standard fread and fwrite functions. What slow-down factor should I expect for an optimized implementation in F# and Haskell?

EDIT: here is the C implementation of counting zero-bytes (buffer allocated on heap).

#include <stdio.h>
#include <stdlib.h>

#define SIZE 32*1024
int main(int argc, char* argv[])
{
    FILE *fp;
    char *buf;
    long i = 0, s = 0, l = 0;
    fp = fopen(argv[1], "rb");
    if (!fp) {
        printf("Openning %s failed\n", argv[1]);
        return -1;
    }
    buf = (char *) malloc(SIZE);
    while (!feof(fp)) {
        l = fread(buf, 1, SIZE, fp);
        for (i = 0; i &lt l; ++i) {
            if (buf[i] == 0) {
                ++s;
            }
        }
    }
    printf("%d\n", s);
    fclose(fp);
    free(buf);
    return 0;
}

The results:


$ gcc -O3 -o ioc io.c
$ ghc --make -O3 -o iohs io.hs
Linking iohs ...
$ time ./ioc 2.bin
462741044

real    0m16.171s
user    0m11.755s
sys     0m4.413s
$ time ./iohs 2.bin
4757708340

real    0m16.879s
user    0m14.093s
sys     0m2.783s
$ ls -lh 2.bin
-rw-r--r-- 1  14G Jan  4 10:05 2.bin
share|improve this question
    
I'd like to see the rest of the code you tried to add in your edit. :-) –  Jon Harrop Jan 4 '11 at 17:50
    
done. the C code prints the wrong result due to %d in printf (should be %qd I guess). –  user394460 Jan 4 '11 at 18:44
    
Thanks. Are you using the B.count function in the Haskell or a fold? –  Jon Harrop Jan 5 '11 at 4:04
    
@user394460: "the C code prints the wrong result due to %d in printf (should be %qd I guess)". I think you'll need both to make s a long long and to print it using the format specified %lld. –  Jon Harrop Jan 5 '11 at 4:22
    
I used the B.count version, which I think is chunk based. –  user394460 Jan 5 '11 at 13:48
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3 Answers

up vote 2 down vote accepted

I blogged about this here.

share|improve this answer
2  
@Jon Harrop: [citation needed] –  Daniel Pratt Jan 3 '11 at 23:19
3  
Sorry, but after reading the comments, I couldn't resist. :) –  Mehrdad Jan 4 '11 at 0:18
3  
@Jon: Please try to be reasonable. It makes no difference in what language the underlying function was written. The performance is the performance. The ReadByte function you're calling in your F# code was most likely written in C#. Does that mean your example is not representative of F# performance? –  Daniel Pratt Jan 4 '11 at 16:25
2  
@Daniel: I am being very reasonable. The OP wants to rewrite code that is processing large files using fread from C++ to Haskell or F#. That means the data processing must be done in Haskell/F# for the benchmark to be representative but it can call low-level IO as the C++ already does. Therefore, you can use ByteString to do the IO but you must do the processing in Haskell/F#. If you also do the processing in C by choosing a task for which there happens to be a standard library function then your results are not representative of general IO throughput but, rather, of that special case. –  Jon Harrop Jan 4 '11 at 17:44
2  
@mokus: "It does not break the abstraction in any way... I don't know how that's not a good thing.". Having that function at your disposal is a good thing. Pretending that it is representative of Haskell's IO throughput for the general purpose processing of large files is a bad thing. –  Jon Harrop Jan 4 '11 at 17:49
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Haskell using lazy ByteString-based IO, with a "binary" parser should be around the same performance as C code doing the same job, on the same data types.

The key packages to be aware of:

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2  
@Jon, according to your current results (0:47 GMT) it looks like lazy ByteString and .NET are pretty much equivalent. That is, if your timings are from a single run of each program. –  John L Jan 4 '11 at 0:49
1  
my initial testing shows that C (fread/fwrite) and lazy ByteString perform indeed similarly. –  user394460 Jan 4 '11 at 15:13
    
user394460: On what platform(s)? –  Jon Harrop Jan 4 '11 at 16:09
    
on rhel-x86_64-5.2/gcc 4.3.2, I tested the zero byte-count example that Daniel provided against a simple C code I wrote. I believe ByteString uses 32K defaultChunkSize, so that's what I used in C as well. –  user394460 Jan 4 '11 at 16:24
2  
This is really the best answer. Any modern language with a decent FFI and decent libraries should be able to do straightforward IO with a bound imposed by hardware limitations. This was one of the results fairly demonstrated by Tim Bray's widefinder benchmark. –  sclv Jan 4 '11 at 19:22
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Considering that this post entails:

  • Haskell
  • code optimizations
  • performance benchmarks

...it's safe to say that I'm in way over my head. Nevertheless, I always learn something when I get in over my head, so here goes.

I went spelunking around the Data.ByteString.Lazy.* Haskell modules via Hoogle and found the length function for measuring the length of a lazy ByteString. It is implemented thus:

length :: ByteString -> Int64
length cs = foldlChunks (\n c -> n + fromIntegral (S.length c)) 0 cs

Hmm. Jon did say that "...Folding over chunks of file in the F# is a major part of why it is fast..." (my emphasis). And this length function appears to be implemented using a chunky fold as well. So it appears that this function is much more of an 'apples to apples' comparison to Jon's F# code.

Does it make a difference in practice? I compared Jon's example to the following:

import System
import Data.List
import Data.ByteString.Lazy as B

main =
    getArgs
    >>= B.readFile . Data.List.head
    >>= print . B.length

Jon's Haskell example on my machine for a 1.2 GB file: 10.5s

The 'chunky' version: 1.1s

The 'chunky' version of the Haskell code is nearly ten times faster. Which suggests that it is probably multiple times faster than Jon's optimized F# code.

EDIT

While I don't necessarily completely agree with Jon's criticisms of my example, I would like to make it as impeachable as possible. As such, I have profiled the following code:

import System
import Data.List
import Data.ByteString.Lazy as B

main =
    getArgs
    >>= B.readFile . Data.List.head
    >>= print . B.count 0

This code loads the contents of the target file into a ByteString and then 'counts' each occurence of a 0-value byte. Unless I'm missing something, this program must load and evaluate each byte of the target file.

The above program runs consistently about 4x faster than the latest fastest Haskell program submitted by Jon, copied here for reference (in case it is updated):

import System
import Data.Int
import Data.List
import Data.ByteString.Lazy as B

main =
    getArgs
    >>= B.readFile . Data.List.head
    >>= print . B.foldl (\n c -> n + 1) (0 :: Data.Int.Int64)
share|improve this answer
1  
Good job comparing apples to apples -- not necessarily jdh's strength :-) –  sclv Jan 4 '11 at 0:17
1  
@Daniel: My programs all consider the input byte-by-byte. Yours does not. –  Jon Harrop Jan 4 '11 at 0:26
2  
@Jon: at this point I would suggest that the variance is due more to the vagaries of I/O than any significant difference between generated code (particularly if you're only using one run for a data point). I doubt the difference between Char8 and plain ByteString is that significant. –  John L Jan 4 '11 at 1:07
2  
@Jon: not quite. The function you pass to foldl is \n c -> n+1. This function may build up a large thunk of the form (((n+1)+1)+1) ... which would be evaluated when you print the fold result. The strict foldl' reduces its output at each step, preventing this thunk from accumulating. GHC notices not to build the thunk in this case so it doesn't make a difference; this expression would certainly blow the stack otherwise. The c is never used, which is what I meant (it doesn't need to be evaluated as a Char, but it's probably loaded anyway, check core to be sure). –  John L Jan 4 '11 at 17:57
6  
@JonH there are multiple flags on this post, FYI -- I strongly advise you to moderate your rhetoric on these topics because I'm getting tired of the trail of mod flags you're leaving behind. –  Jeff Atwood Jan 5 '11 at 7:36
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