\[\frac{x.im \cdot y.re - x.re \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\]

↓

\[\begin{array}{l} \mathbf{if}\;y.re \leq -6.473773710016467 \cdot 10^{+43}:\\ \;\;\;\;\frac{x.im}{y.re} - \frac{x.re \cdot y.im}{{y.re}^{2}}\\ \mathbf{elif}\;y.re \leq -4.543194765813328 \cdot 10^{-138}:\\ \;\;\;\;\frac{y.re \cdot x.im - x.re \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\\ \mathbf{elif}\;y.re \leq 2.6776275404858526 \cdot 10^{-124}:\\ \;\;\;\;\frac{y.re \cdot x.im}{{y.im}^{2}} - \frac{x.re}{y.im}\\ \mathbf{elif}\;y.re \leq 6.219416782523323 \cdot 10^{+140}:\\ \;\;\;\;\frac{\frac{y.re \cdot x.im - x.re \cdot y.im}{\sqrt{{y.re}^{2} + {y.im}^{2}}}}{\sqrt{y.re \cdot y.re + y.im \cdot y.im}}\\ \mathbf{else}:\\ \;\;\;\;\frac{x.im}{y.re}\\ \end{array}\]

\frac{x.im \cdot y.re - x.re \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}

↓

\begin{array}{l}
\mathbf{if}\;y.re \leq -6.473773710016467 \cdot 10^{+43}:\\
\;\;\;\;\frac{x.im}{y.re} - \frac{x.re \cdot y.im}{{y.re}^{2}}\\

\mathbf{elif}\;y.re \leq -4.543194765813328 \cdot 10^{-138}:\\
\;\;\;\;\frac{y.re \cdot x.im - x.re \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\\

\mathbf{elif}\;y.re \leq 2.6776275404858526 \cdot 10^{-124}:\\
\;\;\;\;\frac{y.re \cdot x.im}{{y.im}^{2}} - \frac{x.re}{y.im}\\

\mathbf{elif}\;y.re \leq 6.219416782523323 \cdot 10^{+140}:\\
\;\;\;\;\frac{\frac{y.re \cdot x.im - x.re \cdot y.im}{\sqrt{{y.re}^{2} + {y.im}^{2}}}}{\sqrt{y.re \cdot y.re + y.im \cdot y.im}}\\

\mathbf{else}:\\
\;\;\;\;\frac{x.im}{y.re}\\

\end{array}

(FPCore (x.re x.im y.re y.im)
 :precision binary64
 (/ (- (* x.im y.re) (* x.re y.im)) (+ (* y.re y.re) (* y.im y.im))))

↓

(FPCore (x.re x.im y.re y.im)
 :precision binary64
 (if (<= y.re -6.473773710016467e+43)
   (- (/ x.im y.re) (/ (* x.re y.im) (pow y.re 2.0)))
   (if (<= y.re -4.543194765813328e-138)
     (/ (- (* y.re x.im) (* x.re y.im)) (+ (* y.re y.re) (* y.im y.im)))
     (if (<= y.re 2.6776275404858526e-124)
       (- (/ (* y.re x.im) (pow y.im 2.0)) (/ x.re y.im))
       (if (<= y.re 6.219416782523323e+140)
         (/
          (/
           (- (* y.re x.im) (* x.re y.im))
           (sqrt (+ (pow y.re 2.0) (pow y.im 2.0))))
          (sqrt (+ (* y.re y.re) (* y.im y.im))))
         (/ x.im y.re))))))

double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
	return ((x_46_im * y_46_re) - (x_46_re * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im));
}

↓

double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
	double tmp;
	if (y_46_re <= -6.473773710016467e+43) {
		tmp = (x_46_im / y_46_re) - ((x_46_re * y_46_im) / pow(y_46_re, 2.0));
	} else if (y_46_re <= -4.543194765813328e-138) {
		tmp = ((y_46_re * x_46_im) - (x_46_re * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im));
	} else if (y_46_re <= 2.6776275404858526e-124) {
		tmp = ((y_46_re * x_46_im) / pow(y_46_im, 2.0)) - (x_46_re / y_46_im);
	} else if (y_46_re <= 6.219416782523323e+140) {
		tmp = (((y_46_re * x_46_im) - (x_46_re * y_46_im)) / sqrt(pow(y_46_re, 2.0) + pow(y_46_im, 2.0))) / sqrt((y_46_re * y_46_re) + (y_46_im * y_46_im));
	} else {
		tmp = x_46_im / y_46_re;
	}
	return tmp;
}

Derivation

Split input into 5 regimes
if y.re < -6.473773710016467e43
1. Initial program 36.0
  \[\frac{x.im \cdot y.re - x.re \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\]
2. Taylor expanded around 0 17.8
  \[\leadsto \color{blue}{\frac{x.im}{y.re} - \frac{y.im \cdot x.re}{{y.re}^{2}}}\]
3. Simplified17.8
  \[\leadsto \color{blue}{\frac{x.im}{y.re} - \frac{x.re \cdot y.im}{{y.re}^{2}}}\]
if -6.473773710016467e43 < y.re < -4.54319476581332804e-138
1. Initial program 13.9
  \[\frac{x.im \cdot y.re - x.re \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\]
if -4.54319476581332804e-138 < y.re < 2.6776275404858526e-124
1. Initial program 23.4
  \[\frac{x.im \cdot y.re - x.re \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\]
2. Taylor expanded around 0 10.6
  \[\leadsto \color{blue}{\frac{y.re \cdot x.im}{{y.im}^{2}} - \frac{x.re}{y.im}}\]
3. Simplified10.6
  \[\leadsto \color{blue}{\frac{x.im \cdot y.re}{{y.im}^{2}} - \frac{x.re}{y.im}}\]
if 2.6776275404858526e-124 < y.re < 6.21941678252332329e140
1. Initial program 18.1
  \[\frac{x.im \cdot y.re - x.re \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\]
2. Using strategy rm
3. Applied add-sqr-sqrt_binary64_146418.1
  \[\leadsto \frac{x.im \cdot y.re - x.re \cdot y.im}{\color{blue}{\sqrt{y.re \cdot y.re + y.im \cdot y.im} \cdot \sqrt{y.re \cdot y.re + y.im \cdot y.im}}}\]
4. Applied associate-/r*_binary64_138618.0
  \[\leadsto \color{blue}{\frac{\frac{x.im \cdot y.re - x.re \cdot y.im}{\sqrt{y.re \cdot y.re + y.im \cdot y.im}}}{\sqrt{y.re \cdot y.re + y.im \cdot y.im}}}\]
5. Simplified18.0
  \[\leadsto \frac{\color{blue}{\frac{x.im \cdot y.re - x.re \cdot y.im}{\sqrt{{y.re}^{2} + {y.im}^{2}}}}}{\sqrt{y.re \cdot y.re + y.im \cdot y.im}}\]
if 6.21941678252332329e140 < y.re
1. Initial program 43.3
  \[\frac{x.im \cdot y.re - x.re \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\]
2. Taylor expanded around 0 15.4
  \[\leadsto \color{blue}{\frac{x.im}{y.re}}\]
Recombined 5 regimes into one program.
Final simplification15.0
\[\leadsto \begin{array}{l} \mathbf{if}\;y.re \leq -6.473773710016467 \cdot 10^{+43}:\\ \;\;\;\;\frac{x.im}{y.re} - \frac{x.re \cdot y.im}{{y.re}^{2}}\\ \mathbf{elif}\;y.re \leq -4.543194765813328 \cdot 10^{-138}:\\ \;\;\;\;\frac{y.re \cdot x.im - x.re \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\\ \mathbf{elif}\;y.re \leq 2.6776275404858526 \cdot 10^{-124}:\\ \;\;\;\;\frac{y.re \cdot x.im}{{y.im}^{2}} - \frac{x.re}{y.im}\\ \mathbf{elif}\;y.re \leq 6.219416782523323 \cdot 10^{+140}:\\ \;\;\;\;\frac{\frac{y.re \cdot x.im - x.re \cdot y.im}{\sqrt{{y.re}^{2} + {y.im}^{2}}}}{\sqrt{y.re \cdot y.re + y.im \cdot y.im}}\\ \mathbf{else}:\\ \;\;\;\;\frac{x.im}{y.re}\\ \end{array}\]

Error

Try it out

Derivation

`if y.re < -6.473773710016467e43`

`if -6.473773710016467e43 < y.re < -4.54319476581332804e-138`

`if -4.54319476581332804e-138 < y.re < 2.6776275404858526e-124`

`if 2.6776275404858526e-124 < y.re < 6.21941678252332329e140`

`if 6.21941678252332329e140 < y.re`

Reproduce

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