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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 sqrt?

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@nyarlathotep: Assume r is sqrt(dx * dx + dy * dy). –  GManNickG Dec 9 '11 at 13:22
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@nyarlathotep you missed the point. If r = (dxdx + dydy)^(1/2), than r2 = r^2. But that's not the issue. –  Luchian Grigore Dec 9 '11 at 13:23
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I'm going to go out on a limb and say that, by the way the question is posed, technically the answer is NO. The simple reason is that if you're given r^2, you don't know the sign of r, so how can you calculate r^3? I think what you're really asking is, given the squared norm of a vector, can you find the cubed norm efficiently? –  dantswain Dec 9 '11 at 13:26
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Depending on precision you need and dx/dy ratio, you can try Taylor series ( 1+x )^( 1/2 ) = 1 + ( 1/2 )*x - ( 1/8 )*x^2 + ... where x = ( dx/dy )^2 <= 1. –  Petr Budnik Dec 9 '11 at 13:29
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@SteveJessop: 3 answers so far, and not a single bench / disassembly. I don't think people are really interested in finding a faster answer, they just throw anything they can think of to the mob... –  Matthieu M. Dec 9 '11 at 14:15

3 Answers 3

up vote 1 down vote accepted

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:

http://en.wikipedia.org/wiki/Methods_of_computing_square_roots

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How about

double r3 = pow(r2,1.5);

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.

const double r3_threshold = 9;

//don't do this
if (r3 > r3_threshold)
    ....

//do do this
const double r2_threshold = pow(r3_threshold,2./3.); 
if (r2 > r2_threshold)
    ....

That way pow will be called only once, maybe even at compile time.

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

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What about r2*r2*r2 > r3_thresh*r3_thresh? –  dantswain Dec 9 '11 at 13:31
    
@dantswain Well that avoids pow but it takes extra multiplications and the code is less clear –  Sideshow Bob Dec 9 '11 at 13:36
    
Wouldn't a couple (three) extra mults be faster than pow? I think readability is subjective here... I routinely do the squared case as dx*dx + dy*dy < r_thresh*r_thresh; the cubed version wouldn't throw me. Besides, if readability was really an issue you could hide it in a macro or inline. shrug –  dantswain Dec 9 '11 at 13:42
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Unless your math library is really crappy, sqrt() will not be implemented via pow(x, .5), and it will be a lot faster than pow() (IIRC I tested this at some point and with the libm in glibc sqrt() was about an order of magnitude faster). But yeah, I suppose it doesn't hurt trying it out.. –  janneb Dec 9 '11 at 13:47
    
@dantswain I think Sideshow Bob's point is about repeated checking against the same threshold, in which case a single pow would be better than many many muls (though it depends on the number of iterations). But of course for a one-time check your mul-version is better. I also think readability is of secondary concern, considering the micro-optimization nature of this problem. –  Christian Rau Dec 9 '11 at 13:49

Use fast inverse sqrt (take the Q_rsqrt function).

You have:

float r2;
// ... r2 gets a value
float invsqrt = Q_rsqrt(r2);
float r3 = r2*r2*invsqrt; // x*x/sqrt(x) = x*sqrt(x)

NOTE: For double types there is a constant like 0x5f3759df which can help you write a function that handles also double data types.

LATER EDIT: Seems like the method has been already discussed here.

LATER EDIT2: The constant for double was in the wikipedia link:

Lomont pointed out that the "magic number" for 64 bit IEEE754 size type double is 0x5fe6ec85e7de30da, but in fact it is close to 0x5fe6eb50c7aa19f9.

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This looks clever. –  Sideshow Bob Dec 9 '11 at 13:38
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Times have changed since Quake 3 was written. For example SSE has a hardware sqrt instruction, which is faster. –  Steve Jessop Dec 9 '11 at 13:43
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See here for more information. –  GManNickG Dec 9 '11 at 13:47
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@IulianŞerbănoiu: it's nowhere near the fastest. It is faster than the square root instruction on some platforms, but most mainstream CPUs can compute a more accurate reciprocal square root estimate in a single instruction requiring just a couple of cycles latency (rsqrtss on Intel, frsqrte on PPC, vrsqrte on ARM). –  Stephen Canon Dec 9 '11 at 13:48
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The idea of r^2*r^2/sqrt(r^2) is still valid, whether you use the Quake trick or a hardware 1/sqrt instruction. –  MSalters Dec 9 '11 at 15:00

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