This is obviously to big for double. How it's working?

2^{1000} is within the range of numbers that can be represented by a double. So this number obviously is not too big for a double.

I suspect that what you mean by "too big" is that the number of digits printed is much greater than the 16 or so digits that can be stored in a double. There's nothing wrong with asking a computer to print more than 16 decimal digits. What's wrong is assuming that those extra digits have any meaning.

In this particular case, the printed number is exactly correct. That's because the computer treats `pow(2,some_int)`

specially. Powers of 2 can be represented exactly in a double. The algorithm used to compute the decimal representation of an exact integral value will give the exactly correct decimal representation.

Anything else, all bets are off. Change your program so it prints 3^{646} for example:

```
#include <math.h>
#include <stdio.h>
int main(){
double somenumber = pow(3, 646);
printf("%lf\n", somenumber);
return 0;
}
```

It will still print a big long number, but only the first 16 or so digits will be correct.

`.`

point floats (c.f. fixed point) For double the point can float by as much as 2^-1022 to 2^1023. However, the hint is in the name. – Peter Lawrey Sep 10 '11 at 13:43"This is obviously too big for double"- No, it isn't (especially notobviously;)) – Christian Rau Jan 28 '13 at 17:07