# How to calculate control points in cubic beizer curve

While going through a cubic beizer curve program
I found it uses end points as(10,10,0) and (0,1,0) and other control points as(5,10,2) and (-10,-5,-2).I am not able to understand how did they get this other control points
Edit:-
if you want to put a Bézier curve smoothly through N points with N>2, how do you get the intermediate control points.

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Mmm ... the control points are the input parms for a Bezier curve. Perhaps you should explain more ... – Dr. belisarius May 9 '11 at 12:39
the curve is pass through two control points 10,10,0 and 0,1,0..but to define the shape of our curve we have two more control point 5,10,2 and -10,-5,-2 ...can we compute the other two control point – Tarun May 9 '11 at 12:41
There is really no answer to this question. One possible question that could be answered would be "if you want to put a Bézier curve smoothly through N points with N>2, how do you get the intermediate control points". But as your question is worded, it is like asking "when I draw a line from A to B, how do I know the points A and B". A Bézier curve is defined as going from the first to the last control point, and having tangents at P0 and P3 pass through P1 and P2, respectively. So, the points define the curve shape, not the other way around. – Damon May 9 '11 at 12:50
@fluty What are the inputs you have for calculating the control points? – Dr. belisarius May 9 '11 at 12:50
@Damon Excellent analogy "when I draw a line from A to B, how do I know the points A and B" – Dr. belisarius May 9 '11 at 12:51

As belisarius said in his comment, the control points are actually input parameters for a Bézier curve. The wikipedia article has some nice animations that visualize the process of drawing the curve and how the control points are used for it.

As a summary, a cubic Bézier curve consists of 4 points. Let's name them `Start`, `End`, `Control1` and `Control2`. The curve starts at `Start`, following the line from `Start` to `Control1`. But to reach the end point `End`, it has to deviate from that path and approaches the line from `Control2` to `End` until it reaches the `End` point.

So you can "calculate" the control points you'll need for a specific curve f.e. by drawing the desired curve on a piece of paper. The control points have to lie somewhere on the curve tangents at the start and end point to create a Bézier curve similar to your sketch.

Here is a illustration I've done with Paint (which is actually good for playing with this because it has a tool to create cubic Bézier curves). On the left side I've drawn a rough freehand sketch of the curve (black), then added my estimate of the tangents (gray). Finally I chose two points on the lines to be the control points (green). On the right side you see the same, but the curve has been created using Paint's Bézier tool drawing a line from the start to the end point and then clicking the two control points.

Playing around with this should give you a better feeling about how the control points build your curve. For example, if you choose control points farther away from the start/end point of your curve, it will run "tighter" along the gray "control lines".

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what if i have a large number of points say 100 points..??? – Tarun May 9 '11 at 13:16
Ah, I've just seen you edited the question. This is a slightly different problem and as Damon said, there is an infinite amount of solutions for it. You can try an easy solutions: Take the "odd" points (1st, 3rd, 5th...) as start/end points and the "even" points (2nd, 4th, 6th...) as both control points (effectively creating quadric instead of a cubic Bézier curves). Note that this won't look very smooth and the curve won't go through the "even" points, but is still better than linear interpolation. – schnaader May 9 '11 at 13:42
The general formula for an n-point "Bezier" with n > 4 is generally called a Bernstein polynomial. The formula is a very simple binomial expansion using t and (1-t). – bobobobo Apr 3 '13 at 13:44

I found that, I hope that helps ..

http://www.codeproject.com/Articles/31859/Draw-a-Smooth-Curve-through-a-Set-of-2D-Points-wit

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Welcome to StckOverflow, could please provide some context for your link? Also see the help - how to answer "Links to external resources are encouraged, but please add context around the link so your fellow users will have some idea what it is and why it’s there." – Jos Vinke Nov 4 '13 at 13:01
@JosVinke Sorry for late, Thank you for advice, I'll follow that in my next replies. – amt Nov 12 '13 at 7:43