double r2 = dx * dx + dy * dy; double r3 = r2 * sqrt(r2);
Can the second line be replaced by something faster? Something that does not involve
I think another way to look at your question would be "how to calculate (or approximate) sqrt(n)". From there your question would be trivial (n * sqrt(n)). Of course, you'd have to define how much error you could live with. Wikipedia gives you many options:
If sqrt is implemented as a special case of pow, that will save you a multiplication. Not much in the grand scheme of things mind!
If you are really looking for greater efficiency, consider whether you really need r^3. If, for example, you are only testing it (or something derived from it) to see whether it exceeds a certain threshold, then test r2 instead e.g.
EDIT If you do need to recompute the threshold each time, I think the answer concerning Q_rsqrt is worth a look and probably deserves to outrank this one
Use fast inverse sqrt (take the
LATER EDIT: Seems like the method has been already discussed here.
LATER EDIT2: The constant for