# What is that optimization algorithm called?

I've got a piece of undocumented code, which I have to understand to fix an error. The following method is called `optimization` and it is supposed to find the maximum of a very complex function `f`. Unfortunately, it fails under some circumstances (i.e. it reaches the "Max iteration reached" line).

I already tried to write some unit tests, but this didn't help much.

So I want to understand how this method really works and if it implements a specific, and well known optimization algorithm. Maybe I can then understand, if it is suitable to solve the required equations.

``````public static double optimization(double x1, double x2, double x3, Function<Double, Double> f, double epsilon) {
double y1 = f.apply(x1);
double y2 = f.apply(x2);
double y3 = f.apply(x3);

double a = (   x1*(y2-y3)+   x2*(y3-y1)+   x3*(y1-y2)) / ((x1-x2)*(x1-x3)*(x3-x2));
double b = (x1*x1*(y2-y3)+x2*x2*(y3-y1)+x3*x3*(y1-y2)) / ((x1-x2)*(x1-x3)*(x2-x3));
int i=0;
do {
i=i+1;

x3=x2;
x2=x1;
x1=-1.*b/(2*a);

y1=f.apply(x1);
y2=f.apply(x2);
y3=f.apply(x3);

a = (   x1*(y2-y3)+   x2*(y3-y1)+   x3*(y1-y2))/((x1-x2)*(x1-x3)*(x3-x2));
b = (x1*x1*(y2-y3)+x2*x2*(y3-y1)+x3*x3*(y1-y2))/((x1-x2)*(x1-x3)*(x2-x3));
} while((Math.abs(x1 - x2) > epsilon) && (i<1000));
if (i==1000){
Log.debug("Max iteration reached");
}
return x1;
}
``````
• judging from the name `epsilon`, it seems that it does some operation within some acceptable epsilon error, it's like doing some computation narrowing the result, until it becomes `Math.abs(x1 - x2) < epsilon)`, but only up to 1000 interations – Eugene Sep 13 '18 at 9:49
• If you don't understand what the function does, look at where/how it's used, this might give you some idea what it's supposed to do – tkausl Sep 13 '18 at 9:50
• The code shows what the function does, what are you exactly asking? – m0skit0 Sep 13 '18 at 9:51
• What values / functions does the surrounding code pass as parameter `Function<Double, Double> f`? – deHaar Sep 13 '18 at 9:52
• @tkausl I know, that it is supposed to search for a maximum in `f`. I just don't get how it works and if `f` needs to fit any specific requirements. – Stanley F. Sep 13 '18 at 9:52

This seems to be a Successive parabolic interpolation.

One of the clues is the replacement of the oldest of three estimates by the position of the extremum,

``````    x3= x2;
x2= x1;
x1= -1. * b / (2 * a);
``````

The method may fail if the estimates do not achieve an extremum configuration (in particular at an inflection point).

• That's it. This method also fails, if the function is multi-modal, which it is in my case. Besides a maximum, it also has a pole, which the optimization tries to find in some circumstances (and thus runs to infinity). – Stanley F. Sep 17 '18 at 4:20
• @StanleyF.: fortunately, with floating-point arithmetic, reaching infinity doesn't take forever ;-) – Yves Daoust Sep 17 '18 at 7:00