# Tag Info

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Since your subdivideBezier() function did follow the De Casteljau algorithm, I am assuming that it works to subdivide a cubic Bezier curve at parameter t. So, yes, to continue subdividing at a different parameter (say t2), all you need to do is to figure out which subdivided curve t2 falls on, compute the new t2* against that curve and subdivide. In your ...

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very hard to say even if your current approach work as we do not see what is behind SubdivPoints. I can think of 2 approaches for this: algebraic if you look at your problem as a parameter t scaling of polynomial then it became clearer. For example you want the control points for part t=<0.25,0.5>. That means we need form new control points ...

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You can always convert from power basis to Bernstein basis. This is always doable and will give you the precise result. Refer to section 3.3 of this link (http://cagd.cs.byu.edu/~557/text/ch3.pdf) for details.

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this is pure math question (unless you go for the #3)... I am deducing you need 4 control points for single cubic Bezier curve in 2D. algebraic approach try to match your x(t),y(t) polynomials to Bezier polynomials form and extract the coefficients/control points. This is not always doable but most precise... see the link in #2 at the end I do this for ...

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If you need it only as a progress bar, it is possible in PaintCode. The trick is to use dashed stroke with very large Gap and then just change the Dash. Then just attach a Variable and you are done. Edit: Regarding the discussion under the original post, this solution uses points as the unit, so it will be distributed equally along the curve, no matter ...

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Alright, I seem to have found the answer myself. TLDR; For a 2D curve, don't use arc length to calculate target distance. Only use horizontal (x-axis) length. QUICK NOTE: This solution probably won't work for you if your curves can go backwards along the x-axis. Mine do not. To elaborate, target distance, the value used to approximate where on my curve I ...

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I don't see any glaring errors in the approach so increasing resolution to 1000 or 10000 can help. This isn't what you asked, but however to make it more efficient, in case this is part of some high performance game with a ton of graphics in it and tough performance requirements a) Store the values in a table in one step, then access them in a separate ...

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You can find matrix of affine transform between any triplet of non-collinear points P1,P2,P3 and their translated twins P1',P2',P3' A * P = P' |x1 x2 x3| |x1' x2' x3'| A *|y1 y2 y3| = |y1' y2' y3'| |1 1 1 | |1 1 1 | To calculate A, it is needed to multiply both sudes by inverse of P matrix A * P * P-1 = P' * P-1 A * E = ...

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Curve fitting is explained in this question: How can I fit a Bézier curve to a set of data? However, there is a must easier method to interpolate the points. It goes this way: Refine: Place a point in the middle of each edge. Dual: Place a point in the middle of each edge and remove the old points. Repeat the Dual step several times. Repeat from ...

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