newton raphson in C

I have implemented the newton raphson algorithm for finding roots in C. I want to print out the most accurate approximation of the root as possible without going into nan land. My strategy for this is while (!(isnan(x0)) { dostuff(); } But this continues to print out the result multiple times. Ideally I would like to setup a range so that the difference between each computed x intercept approximation would stop when the previous - current is less than some range .000001 in my case. I have a possible implementation below. When I input 2.999 It takes only one step, but when I input 3.0 it takes 20 steps, this seems incorrect to me.

(When I input 3.0)

λ newton_raphson 3
2.500000
2.250000
2.125000
2.062500
2.031250
2.015625
2.007812
2.003906
2.001953
2.000977
2.000488
2.000244
2.000122
2.000061
2.000031
2.000015
2.000008
2.000004
2.000002
2.000001
Took 20 operation(s) to approximate a proper root of 2.000002
within a range of 0.000001

(When I input 2.999)

λ newton_raphson 2.999
Took 1 operation(s) to approximate a proper root of 2.000000
within a range of 0.000001

My code:

#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#define RANGE 0.000001

double absolute(double number)
{
if (number < 0) return -number;
else return number;
}

double newton_raphson(double (*func)(double), double (*derivative)(double), double x0){
int count;
double temp;
count = 0;
while (!isnan(x0)) {
temp = x0;
x0 = (x0 - (func(x0)/derivative(x0)));
if (!isnan(x0))
printf("%f\n", x0);
count++;
if (absolute(temp - x0) < RANGE && count > 1)
break;
}
printf("Took %d operation(s) to approximate a proper root of %6f\nwithin a range of 0.000001\n", count, temp);
return x0;
}

/* (x-2)^2 */
double func(double x){ return pow(x-2.0, 2.0); }
/* 2x-4 */
double derivative(double x){ return 2.0*x - 4.0; }

int main(int argc, char ** argv)
{
double x0 = atof(argv[1]);
double (*funcPtr)(double) = &func; /* this is a user defined function */
double (*derivativePtr)(double) = &derivative; /* this is the derivative of that function */

double result = newton_raphson(funcPtr, derivativePtr, x0);
return 0;
}
-
I know this is probably not production code, but please use check arguments before you use them, e.g. if (NULL == argv[1]) { ... print help ... ; return 0; }. Otherwise your programs segfault without arguments. –  peterph Nov 13 '12 at 16:36
You are using double precision in the calculations but not showing all the digits in your printf(). change your format string to "%.15f\n" to get more digits. –  phkahler Nov 13 '12 at 16:43
@phkahler Thanks –  The Internet Nov 13 '12 at 16:46

You call trunc(x0) which turns 2.999 into 2.0. Naturally, when you start at the right answer, no iteration is needed! In other words, although you intended to use 2.999 as your starting value, you actually used 2.0.

Simply remove the call to trunc().

-
Thank you! Dumb mistake. –  The Internet Nov 13 '12 at 16:31
You're welcome. Took me a surprising amount of time to spot it myself! –  David Heffernan Nov 13 '12 at 16:34
I think that sums it up (no pun intended), Thanks a lot. –  The Internet Nov 13 '12 at 16:49