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I've been looking at some interesting programming benchmarks to see how well node.js might perform compared to other languages: http://shootout.alioth.debian.org/u32/benchmark.php?test=all&lang=v8&lang2=php

While the results deal primarily with algorithmic problems that you would normally prefer to solve with a variant of C or Fortran, one test stands out as incredibly bad for V8:

pidigits - 52x slower than PHP

Since v8 performs better across the board than PHP in all the other tests I presume there is either something wrong with the code or some specific to the implementation of V8/Javascript that makes it perform so badly. What is it?

Code 1: V8

// The Computer Language Benchmarks Game
//  http://shootout.alioth.debian.org
//
//  Contributed by Matthew Wilson 
//  biginteger derived from Tom Wu's jsbn.js


var compareTo, multiply, divide, addTo, add, intValue, shiftLeft, nbv;

function main($n) {
  var $i=1, $s="", $d, neg10=nbv(-10), three=nbv(3), ten=nbv(10), g = 1, $g,
  digits=Array(10), $z0=nbv(1), $z1=nbv(0), $z2=nbv(1), negdigits=Array(10),
  k = 0, $k, l = 2, $l, a;

  for(var i=0; i<10; ++i) { negdigits[i] = multiply(digits[i] = nbv(i),neg10) }

  do {
    while ( compareTo($z0,$z2) > 0
         || ($d = intValue(divide(add(multiply($z0,three),$z1),$z2))) != 
             intValue(divide(add(shiftLeft($z0,2),$z1),$z2))
    ) {
      $z1 = multiply($z1,$g = nbv(g+=2));
      $z2 = multiply($z2,$g);
      addTo($z1, multiply($z0,$l = nbv(l+=4)), $z1);
      $z0 = multiply($z0,$k = nbv(++k));
    }
    $z0 = multiply($z0,ten);
    $z1 = multiply($z1,ten);
    addTo($z1, multiply($z2,negdigits[$d]), $z1);
    $s += $d;

    if ($i % 10 == 0) { print($s+"\t:"+$i); $s="" }
  } while (++$i <= $n)

  if (($i = $n % 10) != 0) { $s += Array(11-$i).join(' ') }
  if ($s.length > 0) { print($s+"\t:"+$n) }
}

var functions;
load('/home/dunham/shootout/bench/Include/javascript/biginteger.js');

compareTo=functions[0];
multiply=functions[1];
divide=functions[2];
addTo=functions[3];
add=functions[4];
nbv=functions[5];
shiftLeft=functions[6];
intValue=functions[7];

main.call(this, 1*arguments[0]*1)

Code 2: PHP

<?php /* The Great Computer Language Shootout 
   http://shootout.alioth.debian.org/
   contributed by Isaac Gouy 
   php -q pidigits.php 27
*/

class Transformation {
   var $q, $r, $s, $t, $k;

   function Transformation($q, $r, $s, $t){
      $this->q = $q;
      $this->r = $r;      
      $this->s = $s;
      $this->t = $t;               
   }

   function Unity(){
      return new Transformation("1", "0", "0", "1");              
   }   

   function Zero(){
      return new Transformation("0", "0", "0", "0");              
   }      

   function Compose($a){
      $qq = bcmul($this->q, $a->q);
      $qrrt = bcadd(bcmul($this->q, $a->r), bcmul($this->r, $a->t));
      $sqts = bcadd(bcmul($this->s, $a->q), bcmul($this->t, $a->s));
      $srtt = bcadd(bcmul($this->s, $a->r), bcmul($this->t, $a->t));   
      return new Transformation($qq, $qrrt, $sqts, $srtt);
   }

   function Extract($j){
      $bigj = strval($j);
      $qjr = bcadd(bcmul($this->q, $bigj), $this->r);
      $sjt = bcadd(bcmul($this->s, $bigj), $this->t);
      $d = bcdiv($qjr, $sjt);
      return floor($d);
   }

   function Next(){ 
      $this->k = $this->k + 1;
      $this->q = strval($this->k);
      $this->r = strval(4*$this->k + 2);
      $this->s = "0";
      $this->t = strval(2*$this->k + 1);
      return $this;      
   }                
}

class PiDigitStream {
   var $z, $x, $inverse;

   function PiDigitStream(){
      $this->z = Transformation::Unity();
      $this->x = Transformation::Zero();      
      $this->inverse = Transformation::Zero();   
   }

   function Produce($j){
      $i = $this->inverse;
      $i->q = "10";
      $i->r = strval(-10*$j);
      $i->s = "0";
      $i->t = "1";
      return $i->Compose($this->z);
   }   

   function Consume($a){
      return $this->z ->Compose($a);  
   }

   function Digit(){
      return $this->z ->Extract(3);  
   }  

   function IsSafe($j){
      return $j == ($this->z ->Extract(4));  
   }    

   function Next(){
      $y = $this->Digit();
      if ($this->IsSafe($y)){
         $this->z = $this->Produce($y);
         return $y;
      } else {
         $this->z = $this->Consume($this->x ->Next());
         return $this->Next();      
      }
   } 
}


$n = $argv[1];
$i = 0;
$length = 10;
$pidigit = new PiDigitStream;

while ($n > 0){
   if ($n < $length){
      for ($j=0; $j<$n; $j++) printf("%d",$pidigit->Next());
      for ($j=$n; $j<$length; $j++)  print " ";
      $i += $n;
   } else {
      for ($j=0; $j<$length; $j++) printf("%d",$pidigit->Next());
      $i += $length;   
   }
   print "\t:$i\n";
   $n -= $length;
}
?>
share|improve this question
    
I'd guess the javascript code is passing the actual (bigint?) values being computed, and the PHP version is only passing references. –  Ira Baxter Aug 11 '11 at 13:23
5  
PHP uses BC Math extension which implements arbitrary precision arithmetic in C or C++ while JavaScript code relies on some biginteger.js which I suppose implements arbitrary precision arithmetic in pure JavaScript. Unfortunately I could not find biginteger.js anywhere, so I wrote to Isaac asking for source. –  Vyacheslav Egorov Aug 11 '11 at 13:36

3 Answers 3

up vote 6 down vote accepted

PHP is using the BC Math library highly optimized GMP library for its calculations, which is written in C (and assembly in some places), where the V8 version uses a big integer class written in JavaScript (it says "based on" Tom Wu's jsbn.js). It's probably more accurate to say that the benchmark is comparing V8 and C big integer performance than V8 and PHP.

The PHP code in the question is a different version of the PHP entry that uses the BC Math library, and is actually slower than V8 (thanks igouy). The BC library is also written in C, but it works with base 10 numbers (it's a PHP wrapper for the library used by the GNU versions of dc and bc) and isn't as heavily optimized as GMP.

share|improve this answer
1  
Thanks Matthew. Someone has also written gmp bindings for node.js. While it would be interesting to see how optimized versions of PHP and node.js perform, I think this highlights the futility of judging languages by performance benchmarks - it's not impossible to glue different languages together thereby benefiting from the best of both worlds. –  jond3k Aug 12 '11 at 9:39
1  
The PHP program that's 52x faster already does use GMP. shootout.alioth.debian.org/u32/… –  igouy Aug 12 '11 at 14:36
1  
@jond3k - What it highlights is that performance measurements measure the performance of programs. –  igouy Aug 12 '11 at 18:22
    
@jond3k I decided to see how well the gmp bindings for node would perform, so I rewrote the javascript version using node-bigint. It does as well as you'd expect (see my answer for details). –  zeekay May 29 '12 at 19:40

Out of curiosity, I wrote an alternate version using node-bigint (which wraps libgmp). I compared the fastest C implementation to my version of the benchmark. Performance is as you'd expect, around that of the other language implementations using libgmp.

Results

C (compiled with gcc -pipe -Wall -O3 -fomit-frame-pointer pidigits.c -o pidigits -lgmp)

./pidigits-c 10000  1.11s user 0.00s system 99% cpu 1.116 total

node (0.6.18)

node pidigits-gmp.js 10000  3.61s user 3.15s system 100% cpu 6.712 total

Source

var bigint = require('bigint');

function calculatePi(N) {
  var i = 0,
      k = 0,
      k1 = 1,
      ns = 0,

      a = bigint(0),
      d = bigint(1),
      m = bigint(0),
      n = bigint(1),
      t = bigint(0),
      u = bigint(0);

  while (1) {
    k += 1;
    k1 += 2;
    t = n.shiftLeft(1);
    n = n.mul(k);
    a = a.add(t).mul(k1);
    d = d.mul(k1);

    if (a.cmp(n) >= 0) {
      m = n.mul(3).add(a);
      t = m.div(d);
      u = m.mod(d).add(n);

      if (d.cmp(u) > 0) {
        ns = ns * 10 + t.toNumber();
        i += 1;

        if (i % 10 === 0) {
          console.log(ns + '\t:' + i);
          ns = 0;
        }

        if (i >= N) break;

        a = a.sub(d.mul(t)).mul(10);
        n = n.mul(10);
      }
    }
  }
}

calculatePi(process.argv[2] || 10);
share|improve this answer
    
Please contribute your program to the benchmarks game (with explicit step-by-step instructions on how to build and use the libgmp wrapper). See shootout.alioth.debian.org/more.php#contribute and shootout.alioth.debian.org/u64/… –  igouy Oct 20 '12 at 21:29
    
@igouy Feel free to use my benchmark. Assuming you have Node.js and GMP building the wrapper is as simple as npm install bigint. –  zeekay Oct 26 '12 at 17:28

pidigits - 52x slower than PHP

You've posted the wrong PHP program source code.

That JavaScript program is 2x faster than that PHP program !

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