# Method to find 2^x quickly

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It's called a bit-shift. –  Mysticial Sep 7 '12 at 3:42
Hint, represent in binary `2^n` for a couple of small values of n and you will get the algorithm... –  David Rodríguez - dribeas Sep 7 '12 at 3:43

Bitshift to the left, this multiplies numbers by 2 for every place shift, in the same way that shifting decimal numbers to the left multiplies them by 10.

Use the `<<` operator, like so:

``````int twoPowZero = 1; // any number^0 is 1
int twoPowOne  = 1 << 1; // this sets the '2' bit to '1'
int twoPowTwo  = 1 << 2;
int twoPowFive = 1 << 5;
int twoPowTen  = 1 << 10;
``````

and so on until you get to `1 << 30`. If you're using a signed 32-bit integer then `1 << 31` will give you -2147483648 because of two's complement. If you want to go higher than use `long long unsigned int` (64-bit integer).

If you want to go even higher, you'll need to roll your own "big integer" code. Note that some platforms and compilers come with a 128-bit integer type, but I don't know if they require some obscure 128-bit-compatible processor or if they break down into two 64-bit instructions for x86/x64 ISAs.

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"1 << 31 will give you -1" Probably, but not guaranteed in either C or C++. Overflow of signed integers is undefined. –  MSalters Sep 7 '12 at 8:20
1 << 31 is unlikely to give you -1. It will probably give you MININT (a very very big negative number). The effects of 1 << (more than 31) in my experience can give you 0 or 1, but the actual behaviour is (IIRC) undefined, and could give you anything it feels like. –  Tom Tanner Sep 7 '12 at 8:25
Sorry, yes, you're both right. –  Dai Sep 7 '12 at 12:18

Is it int or float? For int, use left shift. For float, pow() function

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Recall that in a binary system a bit in a position `N` represents `2^N`. Therefore, the formula for positive `int` is

``````1 << x
``````
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``````#include <stdio.h>
#include <math.h>

int main ()
{
printf ("7.0 ^ 3 = %lf\n", pow (7.0,3));
printf ("4.73 ^ 12 = %lf\n", pow (4.73,12));
printf ("32.01 ^ 1.54 = %lf\n", pow (32.01,1.54));
return 0;
}
``````

output:

``````7.0 ^ 3 = 343.000000
4.73 ^ 12 = 125410439.217423
32.01 ^ 1.54 = 208.036691
``````
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`````` #include <math.h>
float powf(float x, float y); /* C99 */
double pow(double x, double y);
long double powl(long double x, long double y); /* C99 */
``````
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Set a `1` in the `x`th bit position: `1 << x`.

In this case `x` should be less than the width of integer type, and `x` should be positive.

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