I'm working in a language that translates to JavaScript. In order to avoid some stack overflows, I'm applying tail call optimization by converting certain functions to for loops. What is surprising is that the conversion is **not** faster than the recursive version.

http://jsperf.com/sldjf-lajf-lkajf-lkfadsj-f/5

Recursive version:

```
(function recur(a0,s0){
return a0==0 ? s0 : recur(a0-1, a0+s0)
})(10000,0)
```

After tail call optimization:

```
ret3 = void 0;
a1 = 10000;
s2 = 0;
(function(){
while (!ret3) {
a1 == 0
? ret3 = s2
: (a1_tmp$ = a1 - 1 ,
s2_tmp$ = a1 + s2,
a1 = a1_tmp$,
s2 = s2_tmp$);
}
})();
ret3;
```

After some cleanup using Google Closure Compiler:

```
ret3 = 0;
a1 = 1E4;
for(s2 = 0; ret3 == 0;)
0 == a1
? ret3 = s2
: (a1_tmp$ = a1 - 1 ,
s2_tmp$ = a1 + s2,
a1 = a1_tmp$,
s2 = s2_tmp$);
c=ret3;
```

The recursive version is faster than the "optimized" ones! How can this be possible, if the recursive version has to handle thousands of context changes?