I am having some issues calculating the nearest point on a quadratic curve to the mouse position. I have tried a handful of APIs, but have not had any luck finding a function for this that works. I have found an implementation that works for 5th degree cubic bezier curves, but I do not have the math skills to convert it to a quadratic curve. I have found some methods that will help me solve the problem if I have a t value, but I have no idea how to begin finding t. If someone could point me to an algorithm for finding t, or some example code for finding the nearest point on a quadratic curve to an arbitrary point, I'd be very grateful.


  • Most likely, the implementation you found for a 5th degree curve also works on a quadratic curve without any modification. – toto2 Jul 26 '11 at 10:23

I can get you started on the math. I'm not sure how quadratic Bezier is defined, but it must be equivalent to:

(x(t), y(t)) = (a_x + b_x t + c_x t^2, a_y + b_y t + c_y t^2),

where 0 < t < 1. The a, b, c's are the 6 constants that define the curve.

You want the distance to (X, Y):

sqrt( (X - x(t))^2 + (Y - y(t))^2  )

Since you want to find t that minimizes the above quantity, you take its first derivative relative to t and set that equal to 0. This gives you (dropping the sqrt and a factor of 2):

0 = (a_x - X + b_x t + c_x t^2) (b_x + 2 c-x t) + (a_y - Y + b_y t + c_y t^2) ( b_y + 2 c_y t) 

which is a cubic equation in t. The analytical solution is known and you can find it on the web; you will probably need to do a bit of algebra to get the coefficients of the powers of t together (i.e. 0 = a + b t + c t^2 + d t^3). You could also solve this equation numerically instead, using for example Newton-Raphson.

Note however that if none of the 3 solutions might be in your range 0 < t < 1. In that case just compute the values of the distance to (X, Y) (the first equation) at t = 0 and t = 1 and take the smallest distance of the two.

actually, when you solve the first derivative = 0, the solutions you get can be maximum distances as well as minimum. So you should compute the distance (first equation) for the solutions you get (at most 3 values of t), as well as the distances at t=0 and t=1 and pick the actual minimum of all those values.

  • The math was a great help, thanks for the tips. I figured out my problem. – matt Jul 26 '11 at 21:39

There's an ActionScript implementation that could easily be adapted to Java available online here.

It's derived from an algorithm in the book "Graphics Gems" which you can peruse on Google Books here.


The dumb, naive way would be to iterate through every point on the curve and calculate the distance between that point and the mouse position, with the smallest one being the winner. You might have to go with something better than that though depending on your application.

  • 1
    Every point on a curve? How does one do that? – Hovercraft Full Of Eels Jul 26 '11 at 2:11
  • If the curve is generated from a known list of coordinates. If not, then another solution is needed. – Jon Martin Jul 26 '11 at 2:12
  • 1
    It's a bezier curve; so the coordinates only provide control points, not points on the curve. – Hovercraft Full Of Eels Jul 26 '11 at 2:13
  • Ah, I thought the OP was referring to a simple quadratic. – Jon Martin Jul 26 '11 at 2:14

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.