# Getting y from x co-ord for cubic bezier curve, fast Newton-Raphson method

Given the points of a Bezier curve (P0, P1, P2, P3) in 2D, I would like to find the y co-ordinate for a given x co-ordinate. The problem is well defined because of the following restrictions:

• P0 = (0,0), P3 = (1,1)
• P1 = (t, 1-t) for t between 0, 1
• P2 = 1 - P1 (x and y)

I have the following function to calculate the answer, having put in all the restrictions above into the Bezier curve formula here CubicBezier.html. I am using Newton-Raphson to work out the parameter of the point I want, and I know this works as I don't let the loop finish until it has (within defined tolerance).

I am using this function to apply a contrast filter to an image. For this 0.5 gives the same image back, 0.0 does max reduction in contrast and 1.0 does max increase.

EDIT The following function has been corrected and now works perfectly.

``````/*
* Parameters: p - x co-ord of P1,
*             x - x we want to find y for
*
* This method is unstable for p ~= 0.5, maybe needs refinement.
*/

#include <iostream>
#include <math.h>

#define ITER_TOL  0.00001

float maths::bezier(float p, float x)
{
if(p < 0.f || p > 1.f || x < 0.f || x > 1.f)
{
std::cerr << "Both parameters must be between 0 and 1, returning dummy value" << std::endl;
return 0.f;
}
//First guess for u
float u = x;
//Coefficients of curve (for x and y co-ord)
float x3 = 6 * p - 2;
float x2 = 3 - 9 * p;
float x1 = 3 * p;
float x0 = -x;

float y3 = 6 * (1-p) - 2;
float y2 = 3 - 9 * (1-p);
float y1 = 3 * (1-p);

//Newton-Raphson refinement
for(int i=0; fabs(x3*u*u*u + x2*u*u + x1*u + x0) > ITER_TOL && i<1000; i++)
{
u = u - (x3*u*u*u + x2*u*u + x1*u + x0) /
(3*x3*u*u + 2*x2*u + x1);
//std::cout << i << ": " << u << std::endl;
//Deal with non-convergence
if(i==999)
{
std::cerr << "Warning, Newton-Raphson method did not converge in Maths.cpp, returning dummy" << std::endl;
return 0.f;
}
}
//Calculate y co-ord
return y3*u*u*u + y2*u*u + y1*u;
}
``````

If we set p = 0.5, we should get a straight line, but when I do this for a linspace and plot the points, I get a bend between 0.5 and 1.0. Can anyone see why this is happening, and if there is anything I can do about it?

-
Here is code for test `int main(int argc, char *argv[]) { std::cout << "["; for(float i=0; i<1; i+=0.01) std::cout << maths::bezierContrast(0.5, i) << ", "; std::cout << "]" << std::endl; return 0; }` –  derekdreery Mar 9 '12 at 17:25
I am also interested in suggestions of how to do the getting y from x better. I know about direct solve and midpoint iteration, but the first is unstable and complex (in every sense of the word) and the second is slow and inelegant. –  derekdreery Mar 9 '12 at 18:09
I think there should be `fabs` somewhere near `ITER_TOL` in the convergence check. –  Goblin Alchemist Mar 9 '12 at 18:10
I think that the lhs of that is forced to be >0, but i'll try adding fabs and see if it helps :). –  derekdreery Mar 9 '12 at 18:20
That solved the problem! You are a hero. –  derekdreery Mar 9 '12 at 18:21
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I compiled your code and noticed that the loop runs only 0 or 1 iterations. Probably it's because a `fabs` is missing somewhere in the convergence check?