I use this algorithm to calculate the length of a quadratic bezier: http://www.malczak.linuxpl.com/blog/quadratic-bezier-curve-length/

However, what I wish to do is calculate the length of the bezier from 0 to t where 0 < t < 1

Is there any way to modify the formula used in the link above to get the length of the first segment of a bezier curve?

Just to clarify, I'm not looking for the distance between q(0) and q(t) but the length of the arc that goes between these points.

(I don't wish to use adaptive subdivision to aproximate the length)


Since I was sure a similar form solution would exist for that variable t case - I extended the solution given in the link.

Starting from the equation in the link:


Which we can write as


Where b = B/(2A) and c = C/A.

Then transforming u = t + b we get


Where k = c - b^2

Now we can use the integral identity from the link to obtain:


So, in summary, the required steps are:

  1. Calculate A,B,C as in the original equation.
  2. Calculate b = B/(2A) and c = C/A
  3. Calculate u = t + b and k = c -b^2
  4. Plug these values into the equation above.
  • oops, I just realized I have no idea how to do this cause A, B and C are not numbers, they are 2-tuples.. :) But it was interesting to read – peppydip Aug 11 '12 at 10:53
  • I mean because the link was taken down strangely and unexpectedly.. so now I am clueless. haha – peppydip Aug 11 '12 at 10:54
  • Is there any chance you could remind me what A B and C are? in case the link stays down. :) – peppydip Aug 11 '12 at 11:07
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    From google cache: A=4(a_x^2+a_y^2) B=4(a_x b_x + a_y b_y) C=b_x^2+b_y^2 where a = P_0 - 2 P_1 + P_2 and b = 2P_1 - 2 P_0 – Michael Anderson Aug 11 '12 at 22:16
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    Yep taht was a typo, it should be b = B/(2A). Fixing that now. – Michael Anderson Aug 14 '12 at 0:55

While there may be a closed form expression, this is what I'd do:

Use De-Casteljau's algorithm to split the bezier into the 0 to t part and use the algorithm from the link to calculate its length.

  • You don't need to use De-Casteljau's algorithm to create a new curve that spans from [0,t]. This post gives the closed-form equation for the new curve. – BlueRaja - Danny Pflughoeft Jun 2 '15 at 1:17

You just have to evaluate the integral not between 0 and 1 but between 0 and t. You can use the symbolic toolbox of your choice to do that if you're not into the math. For instance:


Evaluate the result for x = t and x = 0 and subtract them.

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