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# How do you do exponentiation in C?

I tried "x = y ** e", but that didn't work.

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use the `pow` function (it takes `float`s/`double`s though).

`man pow`:

``````   #include <math.h>

double pow(double x, double y);
float powf(float x, float y);
long double powl(long double x, long double y);
``````

EDIT: BTW, for the special case of positive integer powers of `2`, you can use bit shifting: `(1 << x)` will equal `2` to the power `x`. There are some potential gotchas with this, but generally it would be correct.

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I'm not sure if this is still true with compiler optimizations, but bit shifting is one of the fastest operations on the CPU. I would take that approach if possible. – BlueMeanie Jun 24 '14 at 18:40

To add to what Evan said: C does not have a built-in operator for exponentiation, because it is not a primitive operation for most CPUs. Thus, it's implemented as a library function.

Also, for computing the function e^x, you can use the `exp(double)`, `expf(float)`, and `expl(long double)` functions.

Note that you do not want to use the `^` operator, which is the bitwise exclusive OR operator.

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I'm just learning C, and that ^ threw me for a major loop at first. I'm beginning to "get it" now, but your reminder is very valuable for me and (I'm sure) hundreds more like me. +1! – John Rudy Oct 17 '08 at 18:40

`pow` only works on floating-point numbers (`double`s, actually). If you want to take powers of integers, and the base isn't known to be an exponent of `2`, you'll have to roll your own.

Usually the dumb way is good enough.

``````int power(int base, unsigned int exp) {
int i, result = 1;
for (i = 0; i < exp; i++)
result *= base;
return result;
}
``````

Here's a recursive solution which takes `O(log n)` space and time instead of the easy `O(1)` space `O(n)` time:

``````int power(int base, int exp) {
if (exp == 0)
return 1;
else if (exp % 2)
return base * power(base, exp - 1);
else {
int temp = power(base, exp / 2);
return temp * temp;
}
}
``````
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it'll work fine if you cast you int to a double/float and then back to int. – Evan Teran Oct 17 '08 at 18:55
Inefficient, though, and rounding error will make a difference when the result gets near INT_MAX. – ephemient Oct 17 '08 at 20:36

Similar to an earlier answer, this will handle positive and negative integer powers of a double nicely.

``````double intpow(double a, int b)
{
double r = 1.0;
if (b < 0)
{
a = 1.0 / a;
b = -b;
}
while (b)
{
if (b & 1)
r *= a;
a *= a;
b >>= 1;
}
return r;
}
``````
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The non-recursive version of the function is not too hard - here it is for integers:

``````long powi(long x, unsigned n)
{
long  p;
long  r;

p = x;
r = 1.0;
while (n > 0)
{
if (n % 2 == 1)
r *= p;
p *= p;
n /= 2;
}

return(r);
}
``````

(Hacked out of code for raising a double value to an integer power - had to remove the code to deal with reciprocals, for example.)

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Yes, O(1) space O(log n) time makes this better than the recursive solution, but a little less obvious. – ephemient Oct 18 '08 at 18:31
``````int power(int x,int y){
int r=1;
do{
r*=r;
if(y%2)
r*=x;
}while(y>>=1);
return r;
};
``````

(iterative)

``````int power(int x,int y){
return y?(y%2?x:1)*power(x*x,y>>1):1;
};
``````

(if it has to be recursive)

imo, the algorithm should definitely be O(logn)

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or you could just write the power function, with recursion as a added bonus

``````int power(int x, int y){
if(y == 0)
return 1;
return (x * power(x,y-1) );
}
``````

yes,yes i know this is less effecient space and time complexity but recursion is just more fun!!

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its a divide and conquer algorithm..break the input into smaller parts until it becomes chewable and solve it and then use that result of the smaller problem to incrementally build up the solution for larger problems until you have solved the problem for the given input

its straightforward..let me know if you have questions

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