I've found an interesting floating point problem. I have to calculate several square roots in my code, and the expression is like this:
sqrt(1.0 - pow(pos,2))
where pos goes from -1.0 to 1.0 in a loop. The -1.0 is fine for pow, but when pos=1.0, I get an -nan. Doing some tests, using gcc 4.4.5 and icc 12.0, the output of
1.0 - pow(pos,2) = -1.33226763e-15
and
1.0 - pow(1.0,2) = 0
or
poss = 1.0
1.0 - pow(poss,2) = 0
Where clearly the first one is going to give problems, being negative. Anyone knows why pow is returning a number smaller than 0? The full offending code is below:
int main() {
double n_max = 10;
double a = -1.0;
double b = 1.0;
int divisions = int(5 * n_max);
assert (!(b == a));
double interval = b - a;
double delta_theta = interval / divisions;
double delta_thetaover2 = delta_theta / 2.0;
double pos = a;
//for (int i = 0; i < divisions - 1; i++) {
for (int i = 0; i < divisions+1; i++) {
cout<<sqrt(1.0 - pow(pos, 2)) <<setw(20)<<pos<<endl;
if(isnan(sqrt(1.0 - pow(pos, 2)))){
cout<<"Danger Will Robinson!"<<endl;
cout<< sqrt(1.0 - pow(pos,2))<<endl;
cout<<"pos "<<setprecision(9)<<pos<<endl;
cout<<"pow(pos,2) "<<setprecision(9)<<pow(pos, 2)<<endl;
cout<<"delta_theta "<<delta_theta<<endl;
cout<<"1 - pow "<< 1.0 - pow(pos,2)<<endl;
double poss = 1.0;
cout<<"1- poss "<<1.0 - pow(poss,2)<<endl;
}
pos += delta_theta;
}
return 0;
}
When you keep incrementing pos in a loop, rounding errors accumulate and in your case the final value > 1.0. Instead of that, calculate pos by multiplication on each round to only get minimal amount of rounding error.
The problem is that floating point calculations are not exact, and that 1 - 1^2 may be giving small negative results, yielding an invalid sqrt
computation.
Consider capping your result:
double x = 1. - pow(pos, 2.);
result = sqrt(x < 0 ? 0 : x);
or
result = sqrt(abs(x) < 1e-12 ? 0 : x);
setprecision(9)
is going to cause rounding. Use a debugger to see what the value really is. Short of that, at least set the precision beyond the possible size of the type you're using.
You will almost always have rounding errors when calculating with doubles, because the double type has only 15 significant decimal digits (52 bits) and a lot of decimal numbers are not convertible to binary floating point numbers without rounding. The IEEE standard contains a lot of effort to keep those errors low, but by principle it cannot always succeed. For a thorough introduction see this document
In your case, you should calculate pos on each loop and round to 14 or less digits. That should give you a clean 0 for the sqrt.
You can calc pos inside the loop as
pos = round(a + interval * i / divisions, 14);
with round defined as
double round(double r, int digits)
{
double multiplier = pow(digits,10);
return floor(r*multiplier + 0.5)/multiplier;
}
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