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;
}
?>
```