AFC - Abacus Formula Compiler for Java

Decompiled Code For PERCENTRANK( C829, D829 )

The expression

=PERCENTRANK( C829, D829 )

is compiled to the following class(es):

package org.formulacompiler.gen;
import org.formulacompiler.runtime.Computation;
import org.formulacompiler.runtime.internal.Environment;
import org.formulacompiler.runtime.internal.RuntimeDouble_v2;
import org.formulacompiler.runtime.internal.Runtime_v2;
import org.formulacompiler.tests.reference.base.Inputs;
import org.formulacompiler.tests.reference.base.Outputs;

final class $Root extends Outputs implements Computation
{
    private final Inputs $inputs;
    final Environment $environment;

    $Root(Inputs inputs, Environment environment) {
        $environment = environment;
        $inputs = inputs;
    }

    final double get$0() {
        double d;
        double d_0_;
        return get$3(d = 3.0, d_0_ = get$2());
    }

    public final double dbl() {
        return get$0();
    }

    final double get$3(double d, double d_1_) {
        double d_2_ = 0.0;
        double d_3_ = 1.7976931348623157E308;
        double d_4_ = -1.7976931348623157E308;
        double d_5_ = 1.7976931348623157E308;
        double d_6_ = -1.7976931348623157E308;
        d_2_ = get$1() < d_1_ ? d_2_ + 1.0 : d_2_;
        d_3_ = get$1() >= d_1_ ? RuntimeDouble_v2.min(get$1(), d_3_) : d_3_;
        d_4_ = get$1() <= d_1_ ? RuntimeDouble_v2.max(get$1(), d_4_) : d_4_;
        d_5_ = RuntimeDouble_v2.min(d_5_, get$1());
        d_6_ = RuntimeDouble_v2.max(d_6_, get$1());
        double d_7_;
        if (d_3_ == d_1_)
            d_7_
                = 1.0 == 1.0 ? 1.0 : RuntimeDouble_v2.trunc(d_2_ / (1.0 - 1.0),
                                                            (int) d);
        else if (!(d_1_ >= d_5_) || d_1_ > d_6_) {
            Runtime_v2.fun_NA();
            d_7_ = (double) -1;
        } else {
            double d_8_;
            d_7_
                = RuntimeDouble_v2.trunc(((d_2_ - 1.0
                                           + (d_8_
                                              = (d_1_ - d_4_) / (d_3_ - d_4_)))
                                          / (1.0 - 1.0)),
                                         (int) d);
        }
        return d_7_;
    }

    final double get$1() {
        return $inputs.dbl(0);
    }

    final double get$2() {
        return $inputs.dbl(1);
    }
}