public class org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer extends org.apache.commons.math.optim.nonlinear.scalar.MultivariateOptimizer
{
private org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex simplex;
public void <init>(org.apache.commons.math.optim.ConvergenceChecker)
{
org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer v;
org.apache.commons.math.optim.ConvergenceChecker v;
v := @this: org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer;
v := @parameter: org.apache.commons.math.optim.ConvergenceChecker;
specialinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.MultivariateOptimizer: void <init>(org.apache.commons.math.optim.ConvergenceChecker)>(v);
return;
}
public void <init>(double, double)
{
org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer v;
org.apache.commons.math.optim.SimpleValueChecker v;
double v, v;
v := @this: org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer;
v := @parameter: double;
v := @parameter: double;
v = new org.apache.commons.math.optim.SimpleValueChecker;
specialinvoke v.<org.apache.commons.math.optim.SimpleValueChecker: void <init>(double,double)>(v, v);
specialinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: void <init>(org.apache.commons.math.optim.ConvergenceChecker)>(v);
return;
}
public transient org.apache.commons.math.optim.PointValuePair optimize(org.apache.commons.math.optim.OptimizationData[])
{
org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer v;
org.apache.commons.math.optim.PointValuePair v;
org.apache.commons.math.optim.OptimizationData[] v;
v := @this: org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer;
v := @parameter: org.apache.commons.math.optim.OptimizationData[];
v = specialinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.MultivariateOptimizer: org.apache.commons.math.optim.PointValuePair optimize(org.apache.commons.math.optim.OptimizationData[])>(v);
return v;
}
protected org.apache.commons.math.optim.PointValuePair doOptimize()
{
double[] v;
org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer$2 v;
org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer$1 v;
org.apache.commons.math.optim.nonlinear.scalar.GoalType v, v;
int v, v, v;
boolean v, v, v, v;
org.apache.commons.math.optim.PointValuePair v, v, v;
org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer v;
org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex v, v, v, v, v, v, v;
org.apache.commons.math.optim.ConvergenceChecker v;
org.apache.commons.math.optim.PointValuePair[] v;
v := @this: org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer;
specialinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: void checkParameters()>();
v = new org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer$1;
specialinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer$1: void <init>(org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer)>(v);
v = virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: org.apache.commons.math.optim.nonlinear.scalar.GoalType getGoalType()>();
v = <org.apache.commons.math.optim.nonlinear.scalar.GoalType: org.apache.commons.math.optim.nonlinear.scalar.GoalType MINIMIZE>;
if v != v goto label;
v = 1;
goto label;
label:
v = 0;
label:
v = new org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer$2;
specialinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer$2: void <init>(org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer,boolean)>(v, v);
v = v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex simplex>;
v = virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: double[] getStartPoint()>();
virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex: void build(double[])>(v);
v = v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex simplex>;
virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex: void evaluate(org.apache.commons.math.analysis.MultivariateFunction,java.util.Comparator)>(v, v);
v = null;
v = virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: org.apache.commons.math.optim.ConvergenceChecker getConvergenceChecker()>();
label:
v = virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: int getIterations()>();
if v <= 0 goto label;
v = 1;
v = 0;
label:
v = v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex simplex>;
v = virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex: int getSize()>();
if v >= v goto label;
v = v[v];
if v == 0 goto label;
v = v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex simplex>;
v = virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex: org.apache.commons.math.optim.PointValuePair getPoint(int)>(v);
v = interfaceinvoke v.<org.apache.commons.math.optim.ConvergenceChecker: boolean converged(int,java.lang.Object,java.lang.Object)>(0, v, v);
if v == 0 goto label;
v = 1;
goto label;
label:
v = 0;
label:
v = v;
v = v + 1;
goto label;
label:
if v == 0 goto label;
v = v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex simplex>;
v = virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex: org.apache.commons.math.optim.PointValuePair getPoint(int)>(0);
return v;
label:
v = v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex simplex>;
v = virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex: org.apache.commons.math.optim.PointValuePair[] getPoints()>();
v = v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex simplex>;
virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex: void iterate(org.apache.commons.math.analysis.MultivariateFunction,java.util.Comparator)>(v, v);
virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: void incrementIterationCount()>();
goto label;
}
protected transient void parseOptimizationData(org.apache.commons.math.optim.OptimizationData[])
{
org.apache.commons.math.optim.OptimizationData v;
org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer v;
org.apache.commons.math.optim.OptimizationData[] v;
int v, v;
boolean v;
v := @this: org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer;
v := @parameter: org.apache.commons.math.optim.OptimizationData[];
specialinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.MultivariateOptimizer: void parseOptimizationData(org.apache.commons.math.optim.OptimizationData[])>(v);
v = lengthof v;
v = 0;
label:
if v >= v goto label;
v = v[v];
v = v instanceof org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex;
if v == 0 goto label;
v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex simplex> = v;
goto label;
label:
v = v + 1;
goto label;
label:
return;
}
private void checkParameters()
{
java.lang.Object[] v;
org.apache.commons.math.exception.util.LocalizedFormats v;
double[] v, v;
org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer v;
org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex v;
org.apache.commons.math.exception.NullArgumentException v;
org.apache.commons.math.exception.MathUnsupportedOperationException v;
v := @this: org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer;
v = v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: org.apache.commons.math.optim.nonlinear.scalar.noderiv.AbstractSimplex simplex>;
if v != null goto label;
v = new org.apache.commons.math.exception.NullArgumentException;
specialinvoke v.<org.apache.commons.math.exception.NullArgumentException: void <init>()>();
throw v;
label:
v = virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: double[] getLowerBound()>();
if v != null goto label;
v = virtualinvoke v.<org.apache.commons.math.optim.nonlinear.scalar.noderiv.SimplexOptimizer: double[] getUpperBound()>();
if v == null goto label;
label:
v = new org.apache.commons.math.exception.MathUnsupportedOperationException;
v = <org.apache.commons.math.exception.util.LocalizedFormats: org.apache.commons.math.exception.util.LocalizedFormats CONSTRAINT>;
v = newarray (java.lang.Object)[0];
specialinvoke v.<org.apache.commons.math.exception.MathUnsupportedOperationException: void <init>(org.apache.commons.math.exception.util.Localizable,java.lang.Object[])>(v, v);
throw v;
label:
return;
}
}