\frac{\tan^{-1}_* \frac{im}{re}}{\log 10}\sqrt[3]{\sqrt{\frac{1}{\sqrt{\log 10}}}} \cdot \left(\left(\sqrt[3]{\sqrt{\frac{1}{\sqrt{\log 10}}}} \cdot \sqrt[3]{\sqrt{\frac{1}{\sqrt{\log 10}}}}\right) \cdot \left(\sqrt{\frac{1}{\sqrt{\log 10}}} \cdot \left(\tan^{-1}_* \frac{im}{re} \cdot \frac{1}{\sqrt{\log 10}}\right)\right)\right)double f(double re, double im) {
double r1606729 = im;
double r1606730 = re;
double r1606731 = atan2(r1606729, r1606730);
double r1606732 = 10.0;
double r1606733 = log(r1606732);
double r1606734 = r1606731 / r1606733;
return r1606734;
}
double f(double re, double im) {
double r1606735 = 1.0;
double r1606736 = 10.0;
double r1606737 = log(r1606736);
double r1606738 = sqrt(r1606737);
double r1606739 = r1606735 / r1606738;
double r1606740 = sqrt(r1606739);
double r1606741 = cbrt(r1606740);
double r1606742 = r1606741 * r1606741;
double r1606743 = im;
double r1606744 = re;
double r1606745 = atan2(r1606743, r1606744);
double r1606746 = r1606745 * r1606739;
double r1606747 = r1606740 * r1606746;
double r1606748 = r1606742 * r1606747;
double r1606749 = r1606741 * r1606748;
return r1606749;
}



Bits error versus re



Bits error versus im
Results
Initial program 0.8
rmApplied add-sqr-sqrt0.8
Applied *-un-lft-identity0.8
Applied times-frac0.8
rmApplied div-inv0.8
Applied associate-*r*0.8
rmApplied add-sqr-sqrt0.8
Applied associate-*r*0.8
rmApplied add-cube-cbrt0.1
Applied associate-*r*0.2
Final simplification0.2
herbie shell --seed 2019163
(FPCore (re im)
:name "math.log10 on complex, imaginary part"
(/ (atan2 im re) (log 10)))