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# Getting the derivative of a Bezier curve problem in Cocos2d

In cocos2d you can move a sprite in a Bezier path using ccBezierConfig. That's not my problem though, I have a missile and am trying to make it rotate perpendicular to that point on the curve. I couldn't figure it out for a while and then my friend told me about derivatives. Now I need to find the derivative of a bezier curve apparently. I searched on Google and found it on this page: http://www.cs.mtu.edu/~shene/COURSES/cs3621/NOTES/spline/Bezier/bezier-der.html. So then I tried implementing rotating the missile with 3 methods here they are:

``````-(float)f:(int)x {
if (x == 0)
return 1.0f;
float result = 1;
while (x>0) {
result = result*x;
x--;
}
return result;
}

-(float)B:(float)u i:(int)i n:(int)n {
return ([self f:n])/([self f:i]*[self f:(n-i)])*pow(u, (float)i)*pow(1-u, (float)n-i);
}

-(void)rotateMissile:(float)delta {
//Get bezier derivative...
float y = [self B:missileP1.controlPoint_1.x i:0 n:2]+[self B:missileP1.controlPoint_2.x i:1 n:2]
*2*(missileP1.controlPoint_1.x - missileP1.controlPoint_2.x);

//Take the y and rotate it...
missile1.rotation = atanf(y);

}
``````

The first method is for factorials, the second is supposed to find B in the equation derivative. The 3rd method is supposed to find the actual derivative and rotate the missile by converting slope to degrees using atanf.

The rotateMissile is being called continuously like such:

``````    [self schedule:@selector(rotateMissile:)];
``````

missileP1 is the ccBezierConfig object. missile1 is the missile I am trying to rotate. I'm just really confused about this whole derivative thing (in other words, I'm really lost and confused). I need help trying to figure out whats wrong... Sorry that the code is messy, the equations were long and I could figure out a way to make it less messy.

-

Actually I don't understand how are you taking a derivative and putting it into a float. That's because Bizier curve is two dimensional parametric curve (it has x and y components). It is not a function y(x). In cubic case it is:

``````x(t) = x0 + x1*t + x2*t*t + x3*t*t*t
y(t) = y0 + y1*t + y2*t*t + y3*t*t*t
``````

Let's call it form1. So actually it's nothing more then two polynomials of third order. The traditional form of cubic Bezier curve is

Note, that B(t) here is a two dimensional vector (x(t), y(t)). So if you have a tradional way defined Bezier curve you can convert it to form1 by evaluating coefficients x0, x1 and son on.

If you now have your Bezier curve defined in form1 it is very easy to take the derivative:

``````x'(t) = x1 + 2*x2*t + 3*x3*t*t
y'(t) = y1 + 2*y2*t + 3*y3*t*t
``````

Now the vector (x'(t), y'(t)) - is the velocity on your bezier curve. It also a tangent vector to your curve. The perpendicular vector will be (-y'(t), x'(t)) or ((y'(t), -(x'(t)).

Here are the coefficients:

For y coefficients the formula is totally identical. It just will py0, py1, py2, py3 instead of px0, ... .

-
Are x0, y0, y1, x1 control points and is t the position of the missile (in my case)? – Dair May 28 '11 at 3:51
@anon: No, the control points are P0, P1, P2, P3. But it is simple to calculate x0, y0, x1, ..., y3.Just remove brackets and collect. t is the curve parameter. You can read more about this here en.wikipedia.org/wiki/Bezier_curve – Andrew May 28 '11 at 5:05
Since all I am doing is giving the points (2 points of influence and the end point) in Cocos2d how do I know x0-y3 equal? From what I see (I may be mistaken) x0 - y3 are constants. But, what are the values for those constants? And how do I know what t should equal at that a specific time in the bezier path (the path the missile is following). (I know t should be between 0 and 1 but what should t = when the missile complete 1/4 of its journey? 1/2? 1/3? and so on). – Dair May 28 '11 at 20:54
O wait, t is equivalent to time so if the duration of my animation is 1 sec: then t at half way cross = 0.5 sorry. But, I still don't understand how to find the constants. :( – Dair May 28 '11 at 20:56
@anon: t is a parameter, but you can consider it as a time. I've updated the answer. – Andrew May 29 '11 at 3:19