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I've managed to implement quadratic and cubic Bezier curves.They are pretty straight forward since we have a formula. Now I want to represent an n-th order Bezier curve using the generalization:

enter image description here


enter image description here


enter image description here

I'm using a bitmap library to render the output, so here is my code:

// binomialCoef(n, k) = (factorial(n) / (factorial(k) * factorial(n- k)))
unsigned int binomialCoef(unsigned int n, const unsigned int k)
    unsigned int r = 1;

    if(k > n)
        return 0;

    for(unsigned int d = 1; d <= k; d++)
        r *= n--;
        r /= d;

    return r;

void nBezierCurve(Bitmap* obj, const Point* p, const unsigned int nbPoint, float steps, const unsigned char red, const unsigned char green, const unsigned char blue)
    int bx1 = p[0].x;
    int by1 = p[0].y;
    int bx2;
    int by2;

    steps = 1 / steps;

    for(float i = 0; i < 1; i += steps)
        bx2 = by2 = 0;
        for(int j = 0; (unsigned int)j < nbPoint; j++)
            bx2 += (int)(binomialCoef(nbPoint, j) * pow(1 - i, (float)nbPoint - j) * pow(i, j) * p[j].x);
            by2 += (int)(binomialCoef(nbPoint, j) * pow(1 - i, (float)nbPoint - j) * pow(i, j) * p[j].y);

        bresenhamLine(obj, bx1, by1, bx2, by2, red, green, blue);

        bx1 = bx2;
        by1 = by2;

    // curve must end on the last anchor point
    bresenhamLine(obj, bx1, by1, p[nbPoint - 1].x, p[nbPoint - 1].y, red, green, blue);

Here's the set of points to render:

Point ncurv[] = {
                    20, 200,
                    70, 300,
                    200, 400,
                    250, 200

and here's the output:

enter image description here

The red curve is a cubic Bezier. The blue one is supposed to be the 4th order Bezier, which is the same as cubic Bezier, but in this case, they are not the same ?!

EDIT : I forgot to note that the bottom left point is (0, 0)

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lol +1 for knowing some maths. –  Sachin Kainth Mar 24 '13 at 14:44
Looks like you're losing accuracy because of the small floating point values. –  Yochai Timmer Mar 24 '13 at 14:55
This question would be proper on math.stackexchange.com –  Ajoy Mar 24 '13 at 15:16
@Ajoy this isn't really a math question: the formula is from wikipedia, and the problem is with the implementation in c++. –  Richard Inglis Mar 24 '13 at 15:54
@RichardInglis The question seemed to be more of theory. But you have got a point too! –  Ajoy Mar 24 '13 at 16:22

2 Answers 2

up vote 3 down vote accepted

The sum in your formula...

enter image description here

...runs from 0 to n, ie for an n-th order bezier you need n+1 points.

You have 4 points, so you're drawing a 3rd-order bezier.

The error in your code is here:

for(int j = 0; (unsigned int)j < nbPoint; j++)

it should be:

for(int j = 0; (unsigned int)j <= nbPoint; j++)

otherwise you're only iterating from 0 to n-1.

3rd-order bezier


Out of interest, the shape you were getting is the same as if the missing (5th) point was at (0,0), since that's the only point that would contribute nothing to your sum...

4th-order bezier with 5th point at origin

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but when j reaches nbPoint, p[j] is over the limits of Point array ? –  Jonas Mar 24 '13 at 16:02
Yes - you need to add a 5th point to make a 4th-order bezier. So p needs to be of size nbPoint+1. –  Richard Inglis Mar 24 '13 at 16:06
Yes I understand now. Thank you. –  Jonas Mar 24 '13 at 16:07

You are trying to construct a 4th-order Bezier curve on only four points. No wonder it's not working.

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