0.003 * [progress]: [Phase 1 of 3] Setting up.
0.005 * * * [progress]: [1/2] Preparing points
3.726 * * * [progress]: [2/2] Setting up program.
3.733 * [progress]: [Phase 2 of 3] Improving.
3.733 * * * * [progress]: [ 1 / 1 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
3.734 * [simplify]: Simplifying (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))
3.735 * * [simplify]: iters left: 6 (19 enodes)
3.744 * * [simplify]: iters left: 5 (73 enodes)
3.761 * * [simplify]: iters left: 4 (107 enodes)
3.811 * * [simplify]: iters left: 3 (156 enodes)
3.854 * * [simplify]: iters left: 2 (300 enodes)
3.974 * * [simplify]: Extracting #0: cost 1 inf + 0
3.975 * * [simplify]: Extracting #1: cost 98 inf + 0
3.976 * * [simplify]: Extracting #2: cost 350 inf + 0
3.978 * * [simplify]: Extracting #3: cost 398 inf + 74
3.980 * * [simplify]: Extracting #4: cost 365 inf + 6452
3.987 * * [simplify]: Extracting #5: cost 232 inf + 75591
4.011 * * [simplify]: Extracting #6: cost 53 inf + 216051
4.036 * * [simplify]: Extracting #7: cost 0 inf + 262929
4.067 * [simplify]: Simplified to (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im))))))
4.067 * [simplify]: Simplified (2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.081 * * [progress]: iteration 1 / 4
4.081 * * * [progress]: picking best candidate
4.091 * * * * [pick]: Picked  #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.091 * * * [progress]: localizing error
4.133 * * * [progress]: generating rewritten candidates
4.134 * * * * [progress]: [ 1 / 4 ] rewriting at (2 1)
4.138 * * * * [progress]: [ 2 / 4 ] rewriting at (2 2 1 1)
4.143 * * * * [progress]: [ 3 / 4 ] rewriting at (2 2 1 2)
4.150 * * * * [progress]: [ 4 / 4 ] rewriting at (2 1 1 3)
4.157 * * * [progress]: generating series expansions
4.158 * * * * [progress]: [ 1 / 4 ] generating series at (2 1)
4.161 * [backup-simplify]: Simplify (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) into (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))
4.161 * [approximate]: Taking taylor expansion of (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) in (y.im x.re x.im y.re) around 0
4.162 * [taylor]: Taking taylor expansion of (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) in y.re
4.162 * [taylor]: Taking taylor expansion of (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)) in y.re
4.164 * [taylor]: Rewrote expression to (+ (* y.im (log (hypot x.re x.im))) (* (atan2 x.im x.re) y.re))
4.164 * [taylor]: Taking taylor expansion of (* y.im (log (hypot x.re x.im))) in y.re
4.164 * [taylor]: Taking taylor expansion of y.im in y.re
4.164 * [backup-simplify]: Simplify y.im into y.im
4.164 * [taylor]: Taking taylor expansion of (log (hypot x.re x.im)) in y.re
4.164 * [taylor]: Taking taylor expansion of (hypot x.re x.im) in y.re
4.164 * [taylor]: Rewrote expression to (sqrt (+ (* x.re x.re) (* x.im x.im)))
4.164 * [taylor]: Taking taylor expansion of (+ (* x.re x.re) (* x.im x.im)) in y.re
4.164 * [taylor]: Taking taylor expansion of (* x.re x.re) in y.re
4.164 * [taylor]: Taking taylor expansion of x.re in y.re
4.164 * [backup-simplify]: Simplify x.re into x.re
4.164 * [taylor]: Taking taylor expansion of x.re in y.re
4.164 * [backup-simplify]: Simplify x.re into x.re
4.164 * [taylor]: Taking taylor expansion of (* x.im x.im) in y.re
4.164 * [taylor]: Taking taylor expansion of x.im in y.re
4.164 * [backup-simplify]: Simplify x.im into x.im
4.164 * [taylor]: Taking taylor expansion of x.im in y.re
4.164 * [backup-simplify]: Simplify x.im into x.im
4.165 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
4.165 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.167 * [backup-simplify]: Simplify (+ (pow x.re 2) (pow x.im 2)) into (+ (pow x.im 2) (pow x.re 2))
4.167 * [backup-simplify]: Simplify (sqrt (+ (pow x.im 2) (pow x.re 2))) into (sqrt (+ (pow x.re 2) (pow x.im 2)))
4.167 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
4.167 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
4.168 * [backup-simplify]: Simplify (+ 0 0) into 0
4.178 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (pow x.im 2) (pow x.re 2))))) into 0
4.178 * [backup-simplify]: Simplify (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) into (log (sqrt (+ (pow x.im 2) (pow x.re 2))))
4.178 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.re
4.178 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.re
4.178 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.179 * [taylor]: Taking taylor expansion of y.re in y.re
4.179 * [backup-simplify]: Simplify 0 into 0
4.179 * [backup-simplify]: Simplify 1 into 1
4.179 * [backup-simplify]: Simplify (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))) into (* y.im (log (sqrt (+ (pow x.re 2) (pow x.im 2)))))
4.179 * [backup-simplify]: Simplify (* (atan2 x.im x.re) 0) into 0
4.179 * [backup-simplify]: Simplify (+ (* y.im (log (sqrt (+ (pow x.re 2) (pow x.im 2))))) 0) into (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))
4.179 * [backup-simplify]: Simplify (cos (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) into (cos (* y.im (log (sqrt (+ (pow x.re 2) (pow x.im 2))))))
4.179 * [backup-simplify]: Simplify (sin (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) into (sin (* y.im (log (sqrt (+ (pow x.re 2) (pow x.im 2))))))
4.179 * [taylor]: Taking taylor expansion of (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) in x.im
4.179 * [taylor]: Taking taylor expansion of (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)) in x.im
4.179 * [taylor]: Rewrote expression to (+ (* y.im (log (hypot x.re x.im))) (* (atan2 x.im x.re) y.re))
4.179 * [taylor]: Taking taylor expansion of (* y.im (log (hypot x.re x.im))) in x.im
4.179 * [taylor]: Taking taylor expansion of y.im in x.im
4.179 * [backup-simplify]: Simplify y.im into y.im
4.179 * [taylor]: Taking taylor expansion of (log (hypot x.re x.im)) in x.im
4.179 * [taylor]: Taking taylor expansion of (hypot x.re x.im) in x.im
4.180 * [taylor]: Rewrote expression to (sqrt (+ (* x.re x.re) (* x.im x.im)))
4.180 * [taylor]: Taking taylor expansion of (+ (* x.re x.re) (* x.im x.im)) in x.im
4.180 * [taylor]: Taking taylor expansion of (* x.re x.re) in x.im
4.180 * [taylor]: Taking taylor expansion of x.re in x.im
4.180 * [backup-simplify]: Simplify x.re into x.re
4.180 * [taylor]: Taking taylor expansion of x.re in x.im
4.180 * [backup-simplify]: Simplify x.re into x.re
4.180 * [taylor]: Taking taylor expansion of (* x.im x.im) in x.im
4.180 * [taylor]: Taking taylor expansion of x.im in x.im
4.180 * [backup-simplify]: Simplify 0 into 0
4.180 * [backup-simplify]: Simplify 1 into 1
4.180 * [taylor]: Taking taylor expansion of x.im in x.im
4.180 * [backup-simplify]: Simplify 0 into 0
4.180 * [backup-simplify]: Simplify 1 into 1
4.180 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
4.180 * [backup-simplify]: Simplify (* 0 0) into 0
4.180 * [backup-simplify]: Simplify (+ (pow x.re 2) 0) into (pow x.re 2)
4.180 * [backup-simplify]: Simplify (sqrt (pow x.re 2)) into x.re
4.180 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
4.181 * [backup-simplify]: Simplify (+ (* 0 1) (* 1 0)) into 0
4.181 * [backup-simplify]: Simplify (+ 0 0) into 0
4.181 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.re 2)))) into 0
4.181 * [backup-simplify]: Simplify (log x.re) into (log x.re)
4.181 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.im
4.181 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
4.181 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.181 * [taylor]: Taking taylor expansion of y.re in x.im
4.181 * [backup-simplify]: Simplify y.re into y.re
4.181 * [backup-simplify]: Simplify (* y.im (log x.re)) into (* y.im (log x.re))
4.182 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.182 * [backup-simplify]: Simplify (+ (* y.im (log x.re)) (* (atan2 x.im x.re) y.re)) into (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.re)))
4.182 * [backup-simplify]: Simplify (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.re)))) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.re))))
4.182 * [backup-simplify]: Simplify (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.re)))) into (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.re))))
4.182 * [taylor]: Taking taylor expansion of (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) in x.re
4.182 * [taylor]: Taking taylor expansion of (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)) in x.re
4.182 * [taylor]: Rewrote expression to (+ (* y.im (log (hypot x.re x.im))) (* (atan2 x.im x.re) y.re))
4.182 * [taylor]: Taking taylor expansion of (* y.im (log (hypot x.re x.im))) in x.re
4.182 * [taylor]: Taking taylor expansion of y.im in x.re
4.182 * [backup-simplify]: Simplify y.im into y.im
4.182 * [taylor]: Taking taylor expansion of (log (hypot x.re x.im)) in x.re
4.182 * [taylor]: Taking taylor expansion of (hypot x.re x.im) in x.re
4.182 * [taylor]: Rewrote expression to (sqrt (+ (* x.re x.re) (* x.im x.im)))
4.182 * [taylor]: Taking taylor expansion of (+ (* x.re x.re) (* x.im x.im)) in x.re
4.182 * [taylor]: Taking taylor expansion of (* x.re x.re) in x.re
4.182 * [taylor]: Taking taylor expansion of x.re in x.re
4.182 * [backup-simplify]: Simplify 0 into 0
4.182 * [backup-simplify]: Simplify 1 into 1
4.182 * [taylor]: Taking taylor expansion of x.re in x.re
4.182 * [backup-simplify]: Simplify 0 into 0
4.182 * [backup-simplify]: Simplify 1 into 1
4.182 * [taylor]: Taking taylor expansion of (* x.im x.im) in x.re
4.182 * [taylor]: Taking taylor expansion of x.im in x.re
4.182 * [backup-simplify]: Simplify x.im into x.im
4.182 * [taylor]: Taking taylor expansion of x.im in x.re
4.182 * [backup-simplify]: Simplify x.im into x.im
4.182 * [backup-simplify]: Simplify (* 0 0) into 0
4.183 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.183 * [backup-simplify]: Simplify (+ 0 (pow x.im 2)) into (pow x.im 2)
4.183 * [backup-simplify]: Simplify (sqrt (pow x.im 2)) into x.im
4.183 * [backup-simplify]: Simplify (+ (* 0 1) (* 1 0)) into 0
4.183 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
4.183 * [backup-simplify]: Simplify (+ 0 0) into 0
4.184 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.im 2)))) into 0
4.184 * [backup-simplify]: Simplify (log x.im) into (log x.im)
4.184 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.re
4.184 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
4.184 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.184 * [taylor]: Taking taylor expansion of y.re in x.re
4.184 * [backup-simplify]: Simplify y.re into y.re
4.184 * [backup-simplify]: Simplify (* y.im (log x.im)) into (* y.im (log x.im))
4.184 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.184 * [backup-simplify]: Simplify (+ (* y.im (log x.im)) (* (atan2 x.im x.re) y.re)) into (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))
4.184 * [backup-simplify]: Simplify (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
4.184 * [backup-simplify]: Simplify (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) into (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
4.184 * [taylor]: Taking taylor expansion of (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) in y.im
4.184 * [taylor]: Taking taylor expansion of (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)) in y.im
4.184 * [taylor]: Rewrote expression to (+ (* y.im (log (hypot x.re x.im))) (* (atan2 x.im x.re) y.re))
4.184 * [taylor]: Taking taylor expansion of (* y.im (log (hypot x.re x.im))) in y.im
4.184 * [taylor]: Taking taylor expansion of y.im in y.im
4.184 * [backup-simplify]: Simplify 0 into 0
4.184 * [backup-simplify]: Simplify 1 into 1
4.184 * [taylor]: Taking taylor expansion of (log (hypot x.re x.im)) in y.im
4.184 * [taylor]: Taking taylor expansion of (hypot x.re x.im) in y.im
4.184 * [taylor]: Rewrote expression to (sqrt (+ (* x.re x.re) (* x.im x.im)))
4.184 * [taylor]: Taking taylor expansion of (+ (* x.re x.re) (* x.im x.im)) in y.im
4.184 * [taylor]: Taking taylor expansion of (* x.re x.re) in y.im
4.184 * [taylor]: Taking taylor expansion of x.re in y.im
4.184 * [backup-simplify]: Simplify x.re into x.re
4.184 * [taylor]: Taking taylor expansion of x.re in y.im
4.184 * [backup-simplify]: Simplify x.re into x.re
4.184 * [taylor]: Taking taylor expansion of (* x.im x.im) in y.im
4.184 * [taylor]: Taking taylor expansion of x.im in y.im
4.184 * [backup-simplify]: Simplify x.im into x.im
4.184 * [taylor]: Taking taylor expansion of x.im in y.im
4.184 * [backup-simplify]: Simplify x.im into x.im
4.184 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
4.185 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.185 * [backup-simplify]: Simplify (+ (pow x.re 2) (pow x.im 2)) into (+ (pow x.im 2) (pow x.re 2))
4.185 * [backup-simplify]: Simplify (sqrt (+ (pow x.im 2) (pow x.re 2))) into (sqrt (+ (pow x.re 2) (pow x.im 2)))
4.185 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
4.185 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
4.185 * [backup-simplify]: Simplify (+ 0 0) into 0
4.185 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (pow x.im 2) (pow x.re 2))))) into 0
4.185 * [backup-simplify]: Simplify (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) into (log (sqrt (+ (pow x.im 2) (pow x.re 2))))
4.185 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.im
4.185 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.im
4.185 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.185 * [taylor]: Taking taylor expansion of y.re in y.im
4.185 * [backup-simplify]: Simplify y.re into y.re
4.185 * [backup-simplify]: Simplify (* 0 (log (sqrt (+ (pow x.im 2) (pow x.re 2))))) into 0
4.186 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.186 * [backup-simplify]: Simplify (+ 0 (* (atan2 x.im x.re) y.re)) into (* (atan2 x.im x.re) y.re)
4.186 * [backup-simplify]: Simplify (cos (* (atan2 x.im x.re) y.re)) into (cos (* (atan2 x.im x.re) y.re))
4.186 * [backup-simplify]: Simplify (sin (* (atan2 x.im x.re) y.re)) into (sin (* (atan2 x.im x.re) y.re))
4.186 * [taylor]: Taking taylor expansion of (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) in y.im
4.186 * [taylor]: Taking taylor expansion of (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)) in y.im
4.186 * [taylor]: Rewrote expression to (+ (* y.im (log (hypot x.re x.im))) (* (atan2 x.im x.re) y.re))
4.186 * [taylor]: Taking taylor expansion of (* y.im (log (hypot x.re x.im))) in y.im
4.186 * [taylor]: Taking taylor expansion of y.im in y.im
4.186 * [backup-simplify]: Simplify 0 into 0
4.186 * [backup-simplify]: Simplify 1 into 1
4.186 * [taylor]: Taking taylor expansion of (log (hypot x.re x.im)) in y.im
4.186 * [taylor]: Taking taylor expansion of (hypot x.re x.im) in y.im
4.186 * [taylor]: Rewrote expression to (sqrt (+ (* x.re x.re) (* x.im x.im)))
4.186 * [taylor]: Taking taylor expansion of (+ (* x.re x.re) (* x.im x.im)) in y.im
4.186 * [taylor]: Taking taylor expansion of (* x.re x.re) in y.im
4.186 * [taylor]: Taking taylor expansion of x.re in y.im
4.186 * [backup-simplify]: Simplify x.re into x.re
4.186 * [taylor]: Taking taylor expansion of x.re in y.im
4.186 * [backup-simplify]: Simplify x.re into x.re
4.186 * [taylor]: Taking taylor expansion of (* x.im x.im) in y.im
4.186 * [taylor]: Taking taylor expansion of x.im in y.im
4.186 * [backup-simplify]: Simplify x.im into x.im
4.186 * [taylor]: Taking taylor expansion of x.im in y.im
4.186 * [backup-simplify]: Simplify x.im into x.im
4.186 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
4.186 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.186 * [backup-simplify]: Simplify (+ (pow x.re 2) (pow x.im 2)) into (+ (pow x.im 2) (pow x.re 2))
4.186 * [backup-simplify]: Simplify (sqrt (+ (pow x.im 2) (pow x.re 2))) into (sqrt (+ (pow x.re 2) (pow x.im 2)))
4.186 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
4.186 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
4.187 * [backup-simplify]: Simplify (+ 0 0) into 0
4.187 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (pow x.im 2) (pow x.re 2))))) into 0
4.187 * [backup-simplify]: Simplify (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) into (log (sqrt (+ (pow x.im 2) (pow x.re 2))))
4.187 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.im
4.187 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.im
4.187 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.187 * [taylor]: Taking taylor expansion of y.re in y.im
4.187 * [backup-simplify]: Simplify y.re into y.re
4.187 * [backup-simplify]: Simplify (* 0 (log (sqrt (+ (pow x.im 2) (pow x.re 2))))) into 0
4.187 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.187 * [backup-simplify]: Simplify (+ 0 (* (atan2 x.im x.re) y.re)) into (* (atan2 x.im x.re) y.re)
4.187 * [backup-simplify]: Simplify (cos (* (atan2 x.im x.re) y.re)) into (cos (* (atan2 x.im x.re) y.re))
4.187 * [backup-simplify]: Simplify (sin (* (atan2 x.im x.re) y.re)) into (sin (* (atan2 x.im x.re) y.re))
4.188 * [backup-simplify]: Simplify (* (cos (* (atan2 x.im x.re) y.re)) 1) into (cos (* (atan2 x.im x.re) y.re))
4.188 * [backup-simplify]: Simplify (* (sin (* (atan2 x.im x.re) y.re)) 0) into 0
4.189 * [backup-simplify]: Simplify (- 0) into 0
4.189 * [backup-simplify]: Simplify (+ (cos (* (atan2 x.im x.re) y.re)) 0) into (cos (* (atan2 x.im x.re) y.re))
4.189 * [taylor]: Taking taylor expansion of (cos (* (atan2 x.im x.re) y.re)) in x.re
4.189 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.re
4.189 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
4.189 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.189 * [taylor]: Taking taylor expansion of y.re in x.re
4.189 * [backup-simplify]: Simplify y.re into y.re
4.189 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.189 * [backup-simplify]: Simplify (cos (* (atan2 x.im x.re) y.re)) into (cos (* (atan2 x.im x.re) y.re))
4.189 * [backup-simplify]: Simplify (sin (* (atan2 x.im x.re) y.re)) into (sin (* (atan2 x.im x.re) y.re))
4.189 * [backup-simplify]: Simplify (* (cos (* (atan2 x.im x.re) y.re)) 1) into (cos (* (atan2 x.im x.re) y.re))
4.189 * [backup-simplify]: Simplify (* (sin (* (atan2 x.im x.re) y.re)) 0) into 0
4.190 * [backup-simplify]: Simplify (- 0) into 0
4.190 * [backup-simplify]: Simplify (+ (cos (* (atan2 x.im x.re) y.re)) 0) into (cos (* (atan2 x.im x.re) y.re))
4.190 * [taylor]: Taking taylor expansion of (cos (* (atan2 x.im x.re) y.re)) in x.im
4.190 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.im
4.190 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
4.190 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.190 * [taylor]: Taking taylor expansion of y.re in x.im
4.190 * [backup-simplify]: Simplify y.re into y.re
4.190 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.190 * [backup-simplify]: Simplify (cos (* (atan2 x.im x.re) y.re)) into (cos (* (atan2 x.im x.re) y.re))
4.190 * [backup-simplify]: Simplify (sin (* (atan2 x.im x.re) y.re)) into (sin (* (atan2 x.im x.re) y.re))
4.190 * [backup-simplify]: Simplify (* (cos (* (atan2 x.im x.re) y.re)) 1) into (cos (* (atan2 x.im x.re) y.re))
4.190 * [backup-simplify]: Simplify (* (sin (* (atan2 x.im x.re) y.re)) 0) into 0
4.191 * [backup-simplify]: Simplify (- 0) into 0
4.191 * [backup-simplify]: Simplify (+ (cos (* (atan2 x.im x.re) y.re)) 0) into (cos (* (atan2 x.im x.re) y.re))
4.191 * [taylor]: Taking taylor expansion of (cos (* (atan2 x.im x.re) y.re)) in y.re
4.191 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.re
4.191 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.re
4.191 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.191 * [taylor]: Taking taylor expansion of y.re in y.re
4.191 * [backup-simplify]: Simplify 0 into 0
4.191 * [backup-simplify]: Simplify 1 into 1
4.191 * [backup-simplify]: Simplify (* (atan2 x.im x.re) 0) into 0
4.191 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 1) (* 0 0)) into (atan2 x.im x.re)
4.191 * [backup-simplify]: Simplify 1 into 1
4.192 * [backup-simplify]: Simplify (+ 0) into 0
4.193 * [backup-simplify]: Simplify (+ (* (cos (* (atan2 x.im x.re) y.re)) 0) (* 0 1)) into 0
4.194 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow (sqrt (+ (pow x.re 2) (pow x.im 2))) 1)))) 1) into 0
4.194 * [backup-simplify]: Simplify (+ (* 0 0) (* 1 (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) into (log (sqrt (+ (pow x.re 2) (pow x.im 2))))
4.194 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (* 0 y.re)) into 0
4.195 * [backup-simplify]: Simplify (+ (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) 0) into (log (sqrt (+ (pow x.im 2) (pow x.re 2))))
4.195 * [backup-simplify]: Simplify (+ (* 1 (/ (pow (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) 1) 1))) into (log (sqrt (+ (pow x.re 2) (pow x.im 2))))
4.195 * [backup-simplify]: Simplify (+ (* (sin (* (atan2 x.im x.re) y.re)) (log (sqrt (+ (pow x.re 2) (pow x.im 2))))) (* 0 0)) into (* (sin (* (atan2 x.im x.re) y.re)) (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))
4.195 * [backup-simplify]: Simplify (- (* (sin (* (atan2 x.im x.re) y.re)) (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) into (- (* (sin (* (atan2 x.im x.re) y.re)) (log (sqrt (+ (pow x.re 2) (pow x.im 2))))))
4.196 * [backup-simplify]: Simplify (+ 0 (- (* (sin (* (atan2 x.im x.re) y.re)) (log (sqrt (+ (pow x.re 2) (pow x.im 2))))))) into (- (* (sin (* (atan2 x.im x.re) y.re)) (log (sqrt (+ (pow x.im 2) (pow x.re 2))))))
4.196 * [taylor]: Taking taylor expansion of (- (* (sin (* (atan2 x.im x.re) y.re)) (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) in x.re
4.196 * [taylor]: Taking taylor expansion of (* (sin (* (atan2 x.im x.re) y.re)) (log (sqrt (+ (pow x.im 2) (pow x.re 2))))) in x.re
4.196 * [taylor]: Taking taylor expansion of (sin (* (atan2 x.im x.re) y.re)) in x.re
4.196 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.re
4.196 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
4.196 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.196 * [taylor]: Taking taylor expansion of y.re in x.re
4.196 * [backup-simplify]: Simplify y.re into y.re
4.196 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.196 * [backup-simplify]: Simplify (sin (* (atan2 x.im x.re) y.re)) into (sin (* (atan2 x.im x.re) y.re))
4.196 * [backup-simplify]: Simplify (cos (* (atan2 x.im x.re) y.re)) into (cos (* (atan2 x.im x.re) y.re))
4.196 * [taylor]: Taking taylor expansion of (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) in x.re
4.196 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in x.re
4.196 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in x.re
4.196 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
4.196 * [taylor]: Taking taylor expansion of x.im in x.re
4.196 * [backup-simplify]: Simplify x.im into x.im
4.196 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
4.196 * [taylor]: Taking taylor expansion of x.re in x.re
4.196 * [backup-simplify]: Simplify 0 into 0
4.196 * [backup-simplify]: Simplify 1 into 1
4.197 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.197 * [backup-simplify]: Simplify (+ (pow x.im 2) 0) into (pow x.im 2)
4.197 * [backup-simplify]: Simplify (sqrt (pow x.im 2)) into x.im
4.197 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
4.197 * [backup-simplify]: Simplify (+ 0 0) into 0
4.197 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.im 2)))) into 0
4.197 * [backup-simplify]: Simplify (log x.im) into (log x.im)
4.198 * [backup-simplify]: Simplify (* (sin (* (atan2 x.im x.re) y.re)) 1) into (sin (* (atan2 x.im x.re) y.re))
4.198 * [backup-simplify]: Simplify (* (cos (* (atan2 x.im x.re) y.re)) 0) into 0
4.198 * [backup-simplify]: Simplify (+ (sin (* (atan2 x.im x.re) y.re)) 0) into (sin (* (atan2 x.im x.re) y.re))
4.198 * [backup-simplify]: Simplify (* (sin (* (atan2 x.im x.re) y.re)) (log x.im)) into (* (sin (* (atan2 x.im x.re) y.re)) (log x.im))
4.198 * [backup-simplify]: Simplify (- (* (sin (* (atan2 x.im x.re) y.re)) (log x.im))) into (- (* (sin (* (atan2 x.im x.re) y.re)) (log x.im)))
4.198 * [taylor]: Taking taylor expansion of (- (* (sin (* (atan2 x.im x.re) y.re)) (log x.im))) in x.im
4.198 * [taylor]: Taking taylor expansion of (* (sin (* (atan2 x.im x.re) y.re)) (log x.im)) in x.im
4.198 * [taylor]: Taking taylor expansion of (sin (* (atan2 x.im x.re) y.re)) in x.im
4.198 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.im
4.198 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
4.198 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.198 * [taylor]: Taking taylor expansion of y.re in x.im
4.198 * [backup-simplify]: Simplify y.re into y.re
4.198 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.198 * [backup-simplify]: Simplify (sin (* (atan2 x.im x.re) y.re)) into (sin (* (atan2 x.im x.re) y.re))
4.199 * [backup-simplify]: Simplify (cos (* (atan2 x.im x.re) y.re)) into (cos (* (atan2 x.im x.re) y.re))
4.199 * [taylor]: Taking taylor expansion of (log x.im) in x.im
4.199 * [taylor]: Taking taylor expansion of x.im in x.im
4.199 * [backup-simplify]: Simplify 0 into 0
4.199 * [backup-simplify]: Simplify 1 into 1
4.199 * [backup-simplify]: Simplify (log 1) into 0
4.199 * [backup-simplify]: Simplify (* (sin (* (atan2 x.im x.re) y.re)) 1) into (sin (* (atan2 x.im x.re) y.re))
4.199 * [backup-simplify]: Simplify (* (cos (* (atan2 x.im x.re) y.re)) 0) into 0
4.199 * [backup-simplify]: Simplify (+ (sin (* (atan2 x.im x.re) y.re)) 0) into (sin (* (atan2 x.im x.re) y.re))
4.200 * [backup-simplify]: Simplify (+ (* (- -1) (log x.im)) 0) into (log x.im)
4.200 * [backup-simplify]: Simplify (* (sin (* (atan2 x.im x.re) y.re)) (log x.im)) into (* (sin (* (atan2 x.im x.re) y.re)) (log x.im))
4.200 * [backup-simplify]: Simplify (- (* (sin (* (atan2 x.im x.re) y.re)) (log x.im))) into (- (* (sin (* (atan2 x.im x.re) y.re)) (log x.im)))
4.200 * [taylor]: Taking taylor expansion of (- (* (sin (* (atan2 x.im x.re) y.re)) (log x.im))) in y.re
4.200 * [taylor]: Taking taylor expansion of (* (sin (* (atan2 x.im x.re) y.re)) (log x.im)) in y.re
4.200 * [taylor]: Taking taylor expansion of (sin (* (atan2 x.im x.re) y.re)) in y.re
4.200 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.re
4.200 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.re
4.200 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.200 * [taylor]: Taking taylor expansion of y.re in y.re
4.200 * [backup-simplify]: Simplify 0 into 0
4.200 * [backup-simplify]: Simplify 1 into 1
4.200 * [backup-simplify]: Simplify (* (atan2 x.im x.re) 0) into 0
4.200 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 1) (* 0 0)) into (atan2 x.im x.re)
4.200 * [taylor]: Taking taylor expansion of (log x.im) in y.re
4.200 * [taylor]: Taking taylor expansion of x.im in y.re
4.201 * [backup-simplify]: Simplify x.im into x.im
4.201 * [backup-simplify]: Simplify (log x.im) into (log x.im)
4.201 * [backup-simplify]: Simplify (* 0 (log x.im)) into 0
4.201 * [backup-simplify]: Simplify (- 0) into 0
4.201 * [backup-simplify]: Simplify 0 into 0
4.201 * [backup-simplify]: Simplify (+ 0) into 0
4.202 * [backup-simplify]: Simplify (+ (* (cos (* (atan2 x.im x.re) y.re)) 0) (* 0 1)) into 0
4.202 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (* 0 y.re)) into 0
4.202 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
4.203 * [backup-simplify]: Simplify (+ (* (sin (* (atan2 x.im x.re) y.re)) 0) (* 0 0)) into 0
4.203 * [backup-simplify]: Simplify (- 0) into 0
4.203 * [backup-simplify]: Simplify (+ 0 0) into 0
4.203 * [taylor]: Taking taylor expansion of 0 in x.im
4.204 * [backup-simplify]: Simplify 0 into 0
4.204 * [taylor]: Taking taylor expansion of 0 in y.re
4.204 * [backup-simplify]: Simplify 0 into 0
4.204 * [backup-simplify]: Simplify 0 into 0
4.204 * [backup-simplify]: Simplify (+ 0) into 0
4.204 * [backup-simplify]: Simplify (+ (* (cos (* (atan2 x.im x.re) y.re)) 0) (* 0 1)) into 0
4.204 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (* 0 y.re)) into 0
4.205 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
4.205 * [backup-simplify]: Simplify (+ (* (sin (* (atan2 x.im x.re) y.re)) 0) (* 0 0)) into 0
4.206 * [backup-simplify]: Simplify (- 0) into 0
4.206 * [backup-simplify]: Simplify (+ 0 0) into 0
4.206 * [taylor]: Taking taylor expansion of 0 in y.re
4.206 * [backup-simplify]: Simplify 0 into 0
4.206 * [backup-simplify]: Simplify 0 into 0
4.206 * [backup-simplify]: Simplify (+ 0) into 0
4.206 * [backup-simplify]: Simplify 0 into 0
4.207 * [backup-simplify]: Simplify (+ (* -1 (/ (pow (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) 2) 2)) 0) into (- (* 1/2 (pow (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) 2)))
4.207 * [backup-simplify]: Simplify (+ (* (cos (* (atan2 x.im x.re) y.re)) (- (* 1/2 (pow (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) 2)))) (+ (* 0 0) (* 0 1))) into (- (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) 2))))
4.210 * [backup-simplify]: Simplify (+ (* x.re 0) (+ (* 0 0) (* 0 x.re))) into 0
4.211 * [backup-simplify]: Simplify (+ (* x.im 0) (+ (* 0 0) (* 0 x.im))) into 0
4.211 * [backup-simplify]: Simplify (+ 0 0) into 0
4.212 * [backup-simplify]: Simplify (/ (- 0 (pow 0 2) (+)) (* 2 (sqrt (+ (pow x.re 2) (pow x.im 2))))) into 0
4.213 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow (sqrt (+ (pow x.re 2) (pow x.im 2))) 2))) (* 1 (/ (* 1 (pow (* 2 0) 1)) (pow (sqrt (+ (pow x.re 2) (pow x.im 2))) 1)))) 2) into 0
4.213 * [backup-simplify]: Simplify (+ (* 0 0) (+ (* 1 0) (* 0 (log (sqrt (+ (pow x.im 2) (pow x.re 2))))))) into 0
4.214 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (+ (* 0 0) (* 0 y.re))) into 0
4.214 * [backup-simplify]: Simplify (+ 0 0) into 0
4.215 * [backup-simplify]: Simplify (+ 0 (* 1 (/ (pow 0 1) 1))) into 0
4.215 * [backup-simplify]: Simplify (+ (* (sin (* (atan2 x.im x.re) y.re)) 0) (+ (* 0 (log (sqrt (+ (pow x.re 2) (pow x.im 2))))) (* 0 0))) into 0
4.215 * [backup-simplify]: Simplify (- 0) into 0
4.216 * [backup-simplify]: Simplify (+ (- (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) 2)))) 0) into (- (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) 2))))
4.216 * [taylor]: Taking taylor expansion of (- (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) 2)))) in x.re
4.216 * [taylor]: Taking taylor expansion of (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) 2))) in x.re
4.216 * [taylor]: Taking taylor expansion of 1/2 in x.re
4.216 * [backup-simplify]: Simplify 1/2 into 1/2
4.216 * [taylor]: Taking taylor expansion of (* (cos (* (atan2 x.im x.re) y.re)) (pow (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) 2)) in x.re
4.216 * [taylor]: Taking taylor expansion of (cos (* (atan2 x.im x.re) y.re)) in x.re
4.216 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.re
4.216 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
4.216 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.216 * [taylor]: Taking taylor expansion of y.re in x.re
4.216 * [backup-simplify]: Simplify y.re into y.re
4.216 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.216 * [backup-simplify]: Simplify (cos (* (atan2 x.im x.re) y.re)) into (cos (* (atan2 x.im x.re) y.re))
4.216 * [backup-simplify]: Simplify (sin (* (atan2 x.im x.re) y.re)) into (sin (* (atan2 x.im x.re) y.re))
4.216 * [taylor]: Taking taylor expansion of (pow (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) 2) in x.re
4.216 * [taylor]: Taking taylor expansion of (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) in x.re
4.216 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.re 2) (pow x.im 2))) in x.re
4.216 * [taylor]: Taking taylor expansion of (+ (pow x.re 2) (pow x.im 2)) in x.re
4.216 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
4.216 * [taylor]: Taking taylor expansion of x.re in x.re
4.216 * [backup-simplify]: Simplify 0 into 0
4.216 * [backup-simplify]: Simplify 1 into 1
4.216 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
4.216 * [taylor]: Taking taylor expansion of x.im in x.re
4.216 * [backup-simplify]: Simplify x.im into x.im
4.216 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.217 * [backup-simplify]: Simplify (+ 0 (pow x.im 2)) into (pow x.im 2)
4.217 * [backup-simplify]: Simplify (sqrt (pow x.im 2)) into x.im
4.217 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
4.217 * [backup-simplify]: Simplify (+ 0 0) into 0
4.217 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.im 2)))) into 0
4.217 * [backup-simplify]: Simplify (log x.im) into (log x.im)
4.217 * [backup-simplify]: Simplify (* (cos (* (atan2 x.im x.re) y.re)) 1) into (cos (* (atan2 x.im x.re) y.re))
4.217 * [backup-simplify]: Simplify (* (sin (* (atan2 x.im x.re) y.re)) 0) into 0
4.218 * [backup-simplify]: Simplify (- 0) into 0
4.218 * [backup-simplify]: Simplify (+ (cos (* (atan2 x.im x.re) y.re)) 0) into (cos (* (atan2 x.im x.re) y.re))
4.218 * [backup-simplify]: Simplify (* (log x.im) (log x.im)) into (pow (log x.im) 2)
4.218 * [backup-simplify]: Simplify (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2)) into (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2))
4.218 * [backup-simplify]: Simplify (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2))) into (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2)))
4.218 * [backup-simplify]: Simplify (- (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2)))) into (- (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2))))
4.218 * [taylor]: Taking taylor expansion of (- (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2)))) in x.im
4.218 * [taylor]: Taking taylor expansion of (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2))) in x.im
4.218 * [taylor]: Taking taylor expansion of 1/2 in x.im
4.218 * [backup-simplify]: Simplify 1/2 into 1/2
4.218 * [taylor]: Taking taylor expansion of (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2)) in x.im
4.218 * [taylor]: Taking taylor expansion of (cos (* (atan2 x.im x.re) y.re)) in x.im
4.218 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.im
4.218 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
4.218 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.218 * [taylor]: Taking taylor expansion of y.re in x.im
4.218 * [backup-simplify]: Simplify y.re into y.re
4.218 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.218 * [backup-simplify]: Simplify (cos (* (atan2 x.im x.re) y.re)) into (cos (* (atan2 x.im x.re) y.re))
4.218 * [backup-simplify]: Simplify (sin (* (atan2 x.im x.re) y.re)) into (sin (* (atan2 x.im x.re) y.re))
4.218 * [taylor]: Taking taylor expansion of (pow (log x.im) 2) in x.im
4.218 * [taylor]: Taking taylor expansion of (log x.im) in x.im
4.219 * [taylor]: Taking taylor expansion of x.im in x.im
4.219 * [backup-simplify]: Simplify 0 into 0
4.219 * [backup-simplify]: Simplify 1 into 1
4.219 * [backup-simplify]: Simplify (log 1) into 0
4.219 * [backup-simplify]: Simplify (+ (* (- -1) (log x.im)) 0) into (log x.im)
4.219 * [backup-simplify]: Simplify (* (cos (* (atan2 x.im x.re) y.re)) 1) into (cos (* (atan2 x.im x.re) y.re))
4.219 * [backup-simplify]: Simplify (* (sin (* (atan2 x.im x.re) y.re)) 0) into 0
4.220 * [backup-simplify]: Simplify (- 0) into 0
4.220 * [backup-simplify]: Simplify (+ (cos (* (atan2 x.im x.re) y.re)) 0) into (cos (* (atan2 x.im x.re) y.re))
4.220 * [backup-simplify]: Simplify (+ (* (- -1) (log x.im)) 0) into (log x.im)
4.220 * [backup-simplify]: Simplify (+ (* (- -1) (log x.im)) 0) into (log x.im)
4.220 * [backup-simplify]: Simplify (* (log x.im) (log x.im)) into (pow (log x.im) 2)
4.220 * [backup-simplify]: Simplify (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2)) into (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2))
4.221 * [backup-simplify]: Simplify (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2))) into (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2)))
4.221 * [backup-simplify]: Simplify (- (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2)))) into (- (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2))))
4.221 * [taylor]: Taking taylor expansion of (- (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2)))) in y.re
4.221 * [taylor]: Taking taylor expansion of (* 1/2 (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2))) in y.re
4.221 * [taylor]: Taking taylor expansion of 1/2 in y.re
4.221 * [backup-simplify]: Simplify 1/2 into 1/2
4.221 * [taylor]: Taking taylor expansion of (* (cos (* (atan2 x.im x.re) y.re)) (pow (log x.im) 2)) in y.re
4.221 * [taylor]: Taking taylor expansion of (cos (* (atan2 x.im x.re) y.re)) in y.re
4.221 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.re
4.221 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.re
4.221 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.221 * [taylor]: Taking taylor expansion of y.re in y.re
4.221 * [backup-simplify]: Simplify 0 into 0
4.221 * [backup-simplify]: Simplify 1 into 1
4.221 * [backup-simplify]: Simplify (* (atan2 x.im x.re) 0) into 0
4.221 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 1) (* 0 0)) into (atan2 x.im x.re)
4.221 * [taylor]: Taking taylor expansion of (pow (log x.im) 2) in y.re
4.221 * [taylor]: Taking taylor expansion of (log x.im) in y.re
4.221 * [taylor]: Taking taylor expansion of x.im in y.re
4.221 * [backup-simplify]: Simplify x.im into x.im
4.222 * [backup-simplify]: Simplify (log x.im) into (log x.im)
4.222 * [backup-simplify]: Simplify (* (log x.im) (log x.im)) into (pow (log x.im) 2)
4.222 * [backup-simplify]: Simplify (* 1 (pow (log x.im) 2)) into (pow (log x.im) 2)
4.222 * [backup-simplify]: Simplify (* 1/2 (pow (log x.im) 2)) into (* 1/2 (pow (log x.im) 2))
4.222 * [backup-simplify]: Simplify (- (* 1/2 (pow (log x.im) 2))) into (- (* 1/2 (pow (log x.im) 2)))
4.222 * [backup-simplify]: Simplify (- (* 1/2 (pow (log x.im) 2))) into (- (* 1/2 (pow (log x.im) 2)))
4.229 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.im 1)))) 1) into 0
4.229 * [backup-simplify]: Simplify (+ 0) into 0
4.229 * [backup-simplify]: Simplify (+ (* (sin (* (atan2 x.im x.re) y.re)) 0) (* 0 1)) into 0
4.229 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (* 0 y.re)) into 0
4.230 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
4.230 * [backup-simplify]: Simplify (+ (* (cos (* (atan2 x.im x.re) y.re)) 0) (* 0 0)) into 0
4.230 * [backup-simplify]: Simplify (+ 0 0) into 0
4.230 * [backup-simplify]: Simplify (+ (* (sin (* (atan2 x.im x.re) y.re)) 0) (* 0 (log x.im))) into 0
4.231 * [backup-simplify]: Simplify (- 0) into 0
4.231 * [taylor]: Taking taylor expansion of 0 in x.im
4.231 * [backup-simplify]: Simplify 0 into 0
4.231 * [taylor]: Taking taylor expansion of 0 in y.re
4.231 * [backup-simplify]: Simplify 0 into 0
4.231 * [backup-simplify]: Simplify 0 into 0
4.232 * [backup-simplify]: Simplify (+ (* -1 (/ (pow 0 2) 2)) 0) into 0
4.232 * [backup-simplify]: Simplify (+ (* (cos (* (atan2 x.im x.re) y.re)) 0) (+ (* 0 0) (* 0 1))) into 0
4.232 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (+ (* 0 0) (* 0 y.re))) into 0
4.233 * [backup-simplify]: Simplify (+ 0 (* 1 (/ (pow 0 1) 1))) into 0
4.233 * [backup-simplify]: Simplify (+ (* (sin (* (atan2 x.im x.re) y.re)) 0) (+ (* 0 0) (* 0 0))) into 0
4.234 * [backup-simplify]: Simplify (- 0) into 0
4.234 * [backup-simplify]: Simplify (+ 0 0) into 0
4.234 * [taylor]: Taking taylor expansion of 0 in x.im
4.234 * [backup-simplify]: Simplify 0 into 0
4.234 * [taylor]: Taking taylor expansion of 0 in y.re
4.234 * [backup-simplify]: Simplify 0 into 0
4.234 * [backup-simplify]: Simplify 0 into 0
4.235 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow 1 1)))) 1) into 0
4.235 * [backup-simplify]: Simplify (+ 0) into 0
4.236 * [backup-simplify]: Simplify (+ (* (sin (* (atan2 x.im x.re) y.re)) 0) (* 0 1)) into 0
4.236 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (* 0 y.re)) into 0
4.236 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
4.236 * [backup-simplify]: Simplify (+ (* (cos (* (atan2 x.im x.re) y.re)) 0) (* 0 0)) into 0
4.237 * [backup-simplify]: Simplify (+ 0 0) into 0
4.237 * [backup-simplify]: Simplify (+ (* (- -1) (log x.im)) 0) into (log x.im)
4.237 * [backup-simplify]: Simplify (+ (* (sin (* (atan2 x.im x.re) y.re)) 0) (* 0 (log x.im))) into 0
4.237 * [backup-simplify]: Simplify (- 0) into 0
4.237 * [taylor]: Taking taylor expansion of 0 in y.re
4.237 * [backup-simplify]: Simplify 0 into 0
4.237 * [backup-simplify]: Simplify 0 into 0
4.237 * [taylor]: Taking taylor expansion of 0 in y.re
4.237 * [backup-simplify]: Simplify 0 into 0
4.238 * [backup-simplify]: Simplify 0 into 0
4.238 * [backup-simplify]: Simplify (+ (* -1 (/ (pow 0 2) 2)) 0) into 0
4.239 * [backup-simplify]: Simplify (+ (* (cos (* (atan2 x.im x.re) y.re)) 0) (+ (* 0 0) (* 0 1))) into 0
4.239 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (+ (* 0 0) (* 0 y.re))) into 0
4.239 * [backup-simplify]: Simplify (+ 0 (* 1 (/ (pow 0 1) 1))) into 0
4.240 * [backup-simplify]: Simplify (+ (* (sin (* (atan2 x.im x.re) y.re)) 0) (+ (* 0 0) (* 0 0))) into 0
4.240 * [backup-simplify]: Simplify (- 0) into 0
4.240 * [backup-simplify]: Simplify (+ 0 0) into 0
4.240 * [taylor]: Taking taylor expansion of 0 in y.re
4.240 * [backup-simplify]: Simplify 0 into 0
4.240 * [backup-simplify]: Simplify 0 into 0
4.241 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.im 1)))) 1) into 0
4.241 * [backup-simplify]: Simplify (+ (* 1 (/ (pow (atan2 x.im x.re) 1) 1))) into (atan2 x.im x.re)
4.241 * [backup-simplify]: Simplify (+ (* 0 0) (* (atan2 x.im x.re) (log x.im))) into (* (atan2 x.im x.re) (log x.im))
4.241 * [backup-simplify]: Simplify (- (* (atan2 x.im x.re) (log x.im))) into (- (* (atan2 x.im x.re) (log x.im)))
4.241 * [backup-simplify]: Simplify (- (* (atan2 x.im x.re) (log x.im))) into (- (* (atan2 x.im x.re) (log x.im)))
4.242 * [backup-simplify]: Simplify (+ (* (- (* (atan2 x.im x.re) (log x.im))) (* y.re (* 1 (* 1 y.im)))) (+ (* (- (* 1/2 (pow (log x.im) 2))) (pow (* 1 (* 1 (* 1 y.im))) 2)) 1)) into (- 1 (+ (* y.im (* (atan2 x.im x.re) (* y.re (log x.im)))) (* 1/2 (* (pow y.im 2) (pow (log x.im) 2)))))
4.242 * [backup-simplify]: Simplify (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (* (atan2 (/ 1 x.im) (/ 1 x.re)) (/ 1 y.re)))) into (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)))
4.242 * [approximate]: Taking taylor expansion of (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))) in (y.im x.re x.im y.re) around 0
4.242 * [taylor]: Taking taylor expansion of (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))) in y.re
4.242 * [taylor]: Taking taylor expansion of (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)) in y.re
4.242 * [taylor]: Rewrote expression to (+ (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))
4.242 * [taylor]: Taking taylor expansion of (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) in y.re
4.242 * [taylor]: Taking taylor expansion of (/ 1 y.im) in y.re
4.243 * [taylor]: Taking taylor expansion of y.im in y.re
4.243 * [backup-simplify]: Simplify y.im into y.im
4.243 * [backup-simplify]: Simplify (/ 1 y.im) into (/ 1 y.im)
4.243 * [taylor]: Taking taylor expansion of (log (hypot (/ 1 x.re) (/ 1 x.im))) in y.re
4.243 * [taylor]: Taking taylor expansion of (hypot (/ 1 x.re) (/ 1 x.im)) in y.re
4.243 * [taylor]: Rewrote expression to (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))))
4.243 * [taylor]: Taking taylor expansion of (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))) in y.re
4.243 * [taylor]: Taking taylor expansion of (* (/ 1 x.re) (/ 1 x.re)) in y.re
4.243 * [taylor]: Taking taylor expansion of (/ 1 x.re) in y.re
4.243 * [taylor]: Taking taylor expansion of x.re in y.re
4.243 * [backup-simplify]: Simplify x.re into x.re
4.243 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.243 * [taylor]: Taking taylor expansion of (/ 1 x.re) in y.re
4.243 * [taylor]: Taking taylor expansion of x.re in y.re
4.243 * [backup-simplify]: Simplify x.re into x.re
4.243 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.243 * [taylor]: Taking taylor expansion of (* (/ 1 x.im) (/ 1 x.im)) in y.re
4.243 * [taylor]: Taking taylor expansion of (/ 1 x.im) in y.re
4.243 * [taylor]: Taking taylor expansion of x.im in y.re
4.243 * [backup-simplify]: Simplify x.im into x.im
4.243 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.243 * [taylor]: Taking taylor expansion of (/ 1 x.im) in y.re
4.243 * [taylor]: Taking taylor expansion of x.im in y.re
4.243 * [backup-simplify]: Simplify x.im into x.im
4.243 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.243 * [backup-simplify]: Simplify (* (/ 1 x.re) (/ 1 x.re)) into (/ 1 (pow x.re 2))
4.243 * [backup-simplify]: Simplify (* (/ 1 x.im) (/ 1 x.im)) into (/ 1 (pow x.im 2))
4.243 * [backup-simplify]: Simplify (+ (/ 1 (pow x.re 2)) (/ 1 (pow x.im 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
4.244 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
4.244 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)))) into 0
4.244 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)))) into 0
4.244 * [backup-simplify]: Simplify (+ (* (/ 1 x.re) 0) (* 0 (/ 1 x.re))) into 0
4.244 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)))) into 0
4.244 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)))) into 0
4.244 * [backup-simplify]: Simplify (+ (* (/ 1 x.im) 0) (* 0 (/ 1 x.im))) into 0
4.244 * [backup-simplify]: Simplify (+ 0 0) into 0
4.244 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.245 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.245 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in y.re
4.245 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.re
4.245 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.245 * [taylor]: Taking taylor expansion of y.re in y.re
4.245 * [backup-simplify]: Simplify 0 into 0
4.245 * [backup-simplify]: Simplify 1 into 1
4.245 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) 1) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.245 * [backup-simplify]: Simplify (+ 0 (atan2 (/ 1 x.im) (/ 1 x.re))) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.245 * [backup-simplify]: Simplify (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))) into (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)))
4.245 * [taylor]: Taking taylor expansion of (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))) in x.im
4.245 * [taylor]: Taking taylor expansion of (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)) in x.im
4.245 * [taylor]: Rewrote expression to (+ (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))
4.245 * [taylor]: Taking taylor expansion of (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) in x.im
4.245 * [taylor]: Taking taylor expansion of (/ 1 y.im) in x.im
4.245 * [taylor]: Taking taylor expansion of y.im in x.im
4.245 * [backup-simplify]: Simplify y.im into y.im
4.245 * [backup-simplify]: Simplify (/ 1 y.im) into (/ 1 y.im)
4.245 * [taylor]: Taking taylor expansion of (log (hypot (/ 1 x.re) (/ 1 x.im))) in x.im
4.245 * [taylor]: Taking taylor expansion of (hypot (/ 1 x.re) (/ 1 x.im)) in x.im
4.245 * [taylor]: Rewrote expression to (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))))
4.245 * [taylor]: Taking taylor expansion of (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))) in x.im
4.245 * [taylor]: Taking taylor expansion of (* (/ 1 x.re) (/ 1 x.re)) in x.im
4.245 * [taylor]: Taking taylor expansion of (/ 1 x.re) in x.im
4.245 * [taylor]: Taking taylor expansion of x.re in x.im
4.245 * [backup-simplify]: Simplify x.re into x.re
4.246 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.246 * [taylor]: Taking taylor expansion of (/ 1 x.re) in x.im
4.246 * [taylor]: Taking taylor expansion of x.re in x.im
4.246 * [backup-simplify]: Simplify x.re into x.re
4.246 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.246 * [taylor]: Taking taylor expansion of (* (/ 1 x.im) (/ 1 x.im)) in x.im
4.246 * [taylor]: Taking taylor expansion of (/ 1 x.im) in x.im
4.246 * [taylor]: Taking taylor expansion of x.im in x.im
4.246 * [backup-simplify]: Simplify 0 into 0
4.246 * [backup-simplify]: Simplify 1 into 1
4.246 * [backup-simplify]: Simplify (/ 1 1) into 1
4.246 * [taylor]: Taking taylor expansion of (/ 1 x.im) in x.im
4.246 * [taylor]: Taking taylor expansion of x.im in x.im
4.246 * [backup-simplify]: Simplify 0 into 0
4.246 * [backup-simplify]: Simplify 1 into 1
4.246 * [backup-simplify]: Simplify (/ 1 1) into 1
4.246 * [backup-simplify]: Simplify (* 1 1) into 1
4.247 * [backup-simplify]: Simplify (+ 0 1) into 1
4.247 * [backup-simplify]: Simplify (sqrt 1) into 1
4.247 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.248 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.248 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
4.249 * [backup-simplify]: Simplify (+ 0 0) into 0
4.249 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.249 * [backup-simplify]: Simplify (log 1) into 0
4.249 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.im
4.249 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.im
4.249 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.249 * [taylor]: Taking taylor expansion of y.re in x.im
4.249 * [backup-simplify]: Simplify y.re into y.re
4.249 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
4.250 * [backup-simplify]: Simplify (+ (* (- 1) (log x.im)) 0) into (- (log x.im))
4.250 * [backup-simplify]: Simplify (* (/ 1 y.im) (- (log x.im))) into (* -1 (/ (log x.im) y.im))
4.250 * [backup-simplify]: Simplify (+ (* -1 (/ (log x.im) y.im)) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)) into (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.im) y.im))
4.250 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.im) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.im) y.im)))
4.250 * [backup-simplify]: Simplify (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.im) y.im))) into (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.im) y.im)))
4.250 * [taylor]: Taking taylor expansion of (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))) in x.re
4.250 * [taylor]: Taking taylor expansion of (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)) in x.re
4.250 * [taylor]: Rewrote expression to (+ (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))
4.250 * [taylor]: Taking taylor expansion of (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) in x.re
4.250 * [taylor]: Taking taylor expansion of (/ 1 y.im) in x.re
4.250 * [taylor]: Taking taylor expansion of y.im in x.re
4.250 * [backup-simplify]: Simplify y.im into y.im
4.250 * [backup-simplify]: Simplify (/ 1 y.im) into (/ 1 y.im)
4.250 * [taylor]: Taking taylor expansion of (log (hypot (/ 1 x.re) (/ 1 x.im))) in x.re
4.250 * [taylor]: Taking taylor expansion of (hypot (/ 1 x.re) (/ 1 x.im)) in x.re
4.250 * [taylor]: Rewrote expression to (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))))
4.250 * [taylor]: Taking taylor expansion of (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))) in x.re
4.250 * [taylor]: Taking taylor expansion of (* (/ 1 x.re) (/ 1 x.re)) in x.re
4.250 * [taylor]: Taking taylor expansion of (/ 1 x.re) in x.re
4.250 * [taylor]: Taking taylor expansion of x.re in x.re
4.250 * [backup-simplify]: Simplify 0 into 0
4.250 * [backup-simplify]: Simplify 1 into 1
4.251 * [backup-simplify]: Simplify (/ 1 1) into 1
4.251 * [taylor]: Taking taylor expansion of (/ 1 x.re) in x.re
4.251 * [taylor]: Taking taylor expansion of x.re in x.re
4.251 * [backup-simplify]: Simplify 0 into 0
4.251 * [backup-simplify]: Simplify 1 into 1
4.251 * [backup-simplify]: Simplify (/ 1 1) into 1
4.251 * [taylor]: Taking taylor expansion of (* (/ 1 x.im) (/ 1 x.im)) in x.re
4.251 * [taylor]: Taking taylor expansion of (/ 1 x.im) in x.re
4.251 * [taylor]: Taking taylor expansion of x.im in x.re
4.251 * [backup-simplify]: Simplify x.im into x.im
4.251 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.251 * [taylor]: Taking taylor expansion of (/ 1 x.im) in x.re
4.251 * [taylor]: Taking taylor expansion of x.im in x.re
4.251 * [backup-simplify]: Simplify x.im into x.im
4.251 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.251 * [backup-simplify]: Simplify (* 1 1) into 1
4.252 * [backup-simplify]: Simplify (+ 1 0) into 1
4.252 * [backup-simplify]: Simplify (sqrt 1) into 1
4.252 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.253 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.253 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
4.254 * [backup-simplify]: Simplify (+ 0 0) into 0
4.254 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.254 * [backup-simplify]: Simplify (log 1) into 0
4.254 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.re
4.254 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.re
4.254 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.254 * [taylor]: Taking taylor expansion of y.re in x.re
4.254 * [backup-simplify]: Simplify y.re into y.re
4.254 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
4.255 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.255 * [backup-simplify]: Simplify (* (/ 1 y.im) (- (log x.re))) into (* -1 (/ (log x.re) y.im))
4.255 * [backup-simplify]: Simplify (+ (* -1 (/ (log x.re) y.im)) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)) into (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))
4.255 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.255 * [backup-simplify]: Simplify (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.255 * [taylor]: Taking taylor expansion of (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))) in y.im
4.255 * [taylor]: Taking taylor expansion of (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)) in y.im
4.255 * [taylor]: Rewrote expression to (+ (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))
4.255 * [taylor]: Taking taylor expansion of (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) in y.im
4.255 * [taylor]: Taking taylor expansion of (/ 1 y.im) in y.im
4.255 * [taylor]: Taking taylor expansion of y.im in y.im
4.255 * [backup-simplify]: Simplify 0 into 0
4.255 * [backup-simplify]: Simplify 1 into 1
4.256 * [backup-simplify]: Simplify (/ 1 1) into 1
4.256 * [taylor]: Taking taylor expansion of (log (hypot (/ 1 x.re) (/ 1 x.im))) in y.im
4.256 * [taylor]: Taking taylor expansion of (hypot (/ 1 x.re) (/ 1 x.im)) in y.im
4.256 * [taylor]: Rewrote expression to (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))))
4.256 * [taylor]: Taking taylor expansion of (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))) in y.im
4.256 * [taylor]: Taking taylor expansion of (* (/ 1 x.re) (/ 1 x.re)) in y.im
4.256 * [taylor]: Taking taylor expansion of (/ 1 x.re) in y.im
4.256 * [taylor]: Taking taylor expansion of x.re in y.im
4.256 * [backup-simplify]: Simplify x.re into x.re
4.256 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.256 * [taylor]: Taking taylor expansion of (/ 1 x.re) in y.im
4.256 * [taylor]: Taking taylor expansion of x.re in y.im
4.256 * [backup-simplify]: Simplify x.re into x.re
4.256 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.256 * [taylor]: Taking taylor expansion of (* (/ 1 x.im) (/ 1 x.im)) in y.im
4.256 * [taylor]: Taking taylor expansion of (/ 1 x.im) in y.im
4.256 * [taylor]: Taking taylor expansion of x.im in y.im
4.256 * [backup-simplify]: Simplify x.im into x.im
4.256 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.256 * [taylor]: Taking taylor expansion of (/ 1 x.im) in y.im
4.256 * [taylor]: Taking taylor expansion of x.im in y.im
4.256 * [backup-simplify]: Simplify x.im into x.im
4.256 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.256 * [backup-simplify]: Simplify (* (/ 1 x.re) (/ 1 x.re)) into (/ 1 (pow x.re 2))
4.256 * [backup-simplify]: Simplify (* (/ 1 x.im) (/ 1 x.im)) into (/ 1 (pow x.im 2))
4.256 * [backup-simplify]: Simplify (+ (/ 1 (pow x.re 2)) (/ 1 (pow x.im 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
4.256 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
4.257 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)))) into 0
4.257 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)))) into 0
4.257 * [backup-simplify]: Simplify (+ (* (/ 1 x.re) 0) (* 0 (/ 1 x.re))) into 0
4.257 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)))) into 0
4.257 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)))) into 0
4.257 * [backup-simplify]: Simplify (+ (* (/ 1 x.im) 0) (* 0 (/ 1 x.im))) into 0
4.257 * [backup-simplify]: Simplify (+ 0 0) into 0
4.257 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.257 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.258 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in y.im
4.258 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.im
4.258 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.258 * [taylor]: Taking taylor expansion of y.re in y.im
4.258 * [backup-simplify]: Simplify y.re into y.re
4.258 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
4.258 * [backup-simplify]: Simplify (* 1 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.258 * [backup-simplify]: Simplify (+ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) 0) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.258 * [backup-simplify]: Simplify (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))) into (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)))
4.258 * [taylor]: Taking taylor expansion of (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))) in y.im
4.258 * [taylor]: Taking taylor expansion of (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)) in y.im
4.258 * [taylor]: Rewrote expression to (+ (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))
4.258 * [taylor]: Taking taylor expansion of (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) in y.im
4.258 * [taylor]: Taking taylor expansion of (/ 1 y.im) in y.im
4.258 * [taylor]: Taking taylor expansion of y.im in y.im
4.258 * [backup-simplify]: Simplify 0 into 0
4.258 * [backup-simplify]: Simplify 1 into 1
4.259 * [backup-simplify]: Simplify (/ 1 1) into 1
4.259 * [taylor]: Taking taylor expansion of (log (hypot (/ 1 x.re) (/ 1 x.im))) in y.im
4.259 * [taylor]: Taking taylor expansion of (hypot (/ 1 x.re) (/ 1 x.im)) in y.im
4.259 * [taylor]: Rewrote expression to (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))))
4.259 * [taylor]: Taking taylor expansion of (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))) in y.im
4.259 * [taylor]: Taking taylor expansion of (* (/ 1 x.re) (/ 1 x.re)) in y.im
4.259 * [taylor]: Taking taylor expansion of (/ 1 x.re) in y.im
4.259 * [taylor]: Taking taylor expansion of x.re in y.im
4.259 * [backup-simplify]: Simplify x.re into x.re
4.259 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.259 * [taylor]: Taking taylor expansion of (/ 1 x.re) in y.im
4.259 * [taylor]: Taking taylor expansion of x.re in y.im
4.259 * [backup-simplify]: Simplify x.re into x.re
4.259 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.259 * [taylor]: Taking taylor expansion of (* (/ 1 x.im) (/ 1 x.im)) in y.im
4.259 * [taylor]: Taking taylor expansion of (/ 1 x.im) in y.im
4.259 * [taylor]: Taking taylor expansion of x.im in y.im
4.259 * [backup-simplify]: Simplify x.im into x.im
4.259 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.259 * [taylor]: Taking taylor expansion of (/ 1 x.im) in y.im
4.259 * [taylor]: Taking taylor expansion of x.im in y.im
4.259 * [backup-simplify]: Simplify x.im into x.im
4.259 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.259 * [backup-simplify]: Simplify (* (/ 1 x.re) (/ 1 x.re)) into (/ 1 (pow x.re 2))
4.259 * [backup-simplify]: Simplify (* (/ 1 x.im) (/ 1 x.im)) into (/ 1 (pow x.im 2))
4.259 * [backup-simplify]: Simplify (+ (/ 1 (pow x.re 2)) (/ 1 (pow x.im 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
4.259 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
4.259 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)))) into 0
4.259 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)))) into 0
4.259 * [backup-simplify]: Simplify (+ (* (/ 1 x.re) 0) (* 0 (/ 1 x.re))) into 0
4.260 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)))) into 0
4.260 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)))) into 0
4.260 * [backup-simplify]: Simplify (+ (* (/ 1 x.im) 0) (* 0 (/ 1 x.im))) into 0
4.260 * [backup-simplify]: Simplify (+ 0 0) into 0
4.260 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.260 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.260 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in y.im
4.260 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.im
4.260 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.260 * [taylor]: Taking taylor expansion of y.re in y.im
4.260 * [backup-simplify]: Simplify y.re into y.re
4.260 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
4.261 * [backup-simplify]: Simplify (* 1 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.261 * [backup-simplify]: Simplify (+ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) 0) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.261 * [backup-simplify]: Simplify (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))) into (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)))
4.261 * [taylor]: Taking taylor expansion of (cos (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))) in x.re
4.261 * [taylor]: Taking taylor expansion of (fma (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)) in x.re
4.261 * [taylor]: Rewrote expression to (+ (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re))
4.261 * [taylor]: Taking taylor expansion of (* (/ 1 y.im) (log (hypot (/ 1 x.re) (/ 1 x.im)))) in x.re
4.261 * [taylor]: Taking taylor expansion of (/ 1 y.im) in x.re
4.261 * [taylor]: Taking taylor expansion of y.im in x.re
4.261 * [backup-simplify]: Simplify y.im into y.im
4.261 * [backup-simplify]: Simplify (/ 1 y.im) into (/ 1 y.im)
4.261 * [taylor]: Taking taylor expansion of (log (hypot (/ 1 x.re) (/ 1 x.im))) in x.re
4.261 * [taylor]: Taking taylor expansion of (hypot (/ 1 x.re) (/ 1 x.im)) in x.re
4.261 * [taylor]: Rewrote expression to (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))))
4.261 * [taylor]: Taking taylor expansion of (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))) in x.re
4.261 * [taylor]: Taking taylor expansion of (* (/ 1 x.re) (/ 1 x.re)) in x.re
4.261 * [taylor]: Taking taylor expansion of (/ 1 x.re) in x.re
4.261 * [taylor]: Taking taylor expansion of x.re in x.re
4.261 * [backup-simplify]: Simplify 0 into 0
4.261 * [backup-simplify]: Simplify 1 into 1
4.262 * [backup-simplify]: Simplify (/ 1 1) into 1
4.262 * [taylor]: Taking taylor expansion of (/ 1 x.re) in x.re
4.262 * [taylor]: Taking taylor expansion of x.re in x.re
4.262 * [backup-simplify]: Simplify 0 into 0
4.262 * [backup-simplify]: Simplify 1 into 1
4.262 * [backup-simplify]: Simplify (/ 1 1) into 1
4.262 * [taylor]: Taking taylor expansion of (* (/ 1 x.im) (/ 1 x.im)) in x.re
4.262 * [taylor]: Taking taylor expansion of (/ 1 x.im) in x.re
4.262 * [taylor]: Taking taylor expansion of x.im in x.re
4.262 * [backup-simplify]: Simplify x.im into x.im
4.262 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.262 * [taylor]: Taking taylor expansion of (/ 1 x.im) in x.re
4.262 * [taylor]: Taking taylor expansion of x.im in x.re
4.262 * [backup-simplify]: Simplify x.im into x.im
4.262 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.262 * [backup-simplify]: Simplify (* 1 1) into 1
4.263 * [backup-simplify]: Simplify (+ 1 0) into 1
4.263 * [backup-simplify]: Simplify (sqrt 1) into 1
4.263 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.264 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.264 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
4.264 * [backup-simplify]: Simplify (+ 0 0) into 0
4.265 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.265 * [backup-simplify]: Simplify (log 1) into 0
4.265 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.re
4.265 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.re
4.265 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.265 * [taylor]: Taking taylor expansion of y.re in x.re
4.265 * [backup-simplify]: Simplify y.re into y.re
4.265 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
4.266 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.266 * [backup-simplify]: Simplify (* (/ 1 y.im) (- (log x.re))) into (* -1 (/ (log x.re) y.im))
4.266 * [backup-simplify]: Simplify (+ (* -1 (/ (log x.re) y.im)) (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)) into (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))
4.266 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.266 * [backup-simplify]: Simplify (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.266 * [backup-simplify]: Simplify (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 1) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.266 * [backup-simplify]: Simplify (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) into 0
4.266 * [backup-simplify]: Simplify (- 0) into 0
4.267 * [backup-simplify]: Simplify (+ (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.267 * [taylor]: Taking taylor expansion of (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) in x.im
4.267 * [taylor]: Taking taylor expansion of (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)) in x.im
4.267 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.im
4.267 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.im
4.267 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.267 * [taylor]: Taking taylor expansion of y.re in x.im
4.267 * [backup-simplify]: Simplify y.re into y.re
4.267 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
4.267 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in x.im
4.267 * [taylor]: Taking taylor expansion of (log x.re) in x.im
4.267 * [taylor]: Taking taylor expansion of x.re in x.im
4.267 * [backup-simplify]: Simplify x.re into x.re
4.267 * [backup-simplify]: Simplify (log x.re) into (log x.re)
4.267 * [taylor]: Taking taylor expansion of y.im in x.im
4.267 * [backup-simplify]: Simplify y.im into y.im
4.267 * [backup-simplify]: Simplify (/ (log x.re) y.im) into (/ (log x.re) y.im)
4.267 * [backup-simplify]: Simplify (- (/ (log x.re) y.im)) into (- (/ (log x.re) y.im))
4.267 * [backup-simplify]: Simplify (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (- (/ (log x.re) y.im))) into (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))
4.267 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.268 * [backup-simplify]: Simplify (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.268 * [backup-simplify]: Simplify (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 1) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.268 * [backup-simplify]: Simplify (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) into 0
4.268 * [backup-simplify]: Simplify (- 0) into 0
4.268 * [backup-simplify]: Simplify (+ (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.268 * [taylor]: Taking taylor expansion of (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) in y.re
4.268 * [taylor]: Taking taylor expansion of (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)) in y.re
4.268 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in y.re
4.268 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.re
4.268 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.268 * [taylor]: Taking taylor expansion of y.re in y.re
4.268 * [backup-simplify]: Simplify 0 into 0
4.268 * [backup-simplify]: Simplify 1 into 1
4.268 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) 1) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.268 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in y.re
4.268 * [taylor]: Taking taylor expansion of (log x.re) in y.re
4.268 * [taylor]: Taking taylor expansion of x.re in y.re
4.268 * [backup-simplify]: Simplify x.re into x.re
4.268 * [backup-simplify]: Simplify (log x.re) into (log x.re)
4.269 * [taylor]: Taking taylor expansion of y.im in y.re
4.269 * [backup-simplify]: Simplify y.im into y.im
4.269 * [backup-simplify]: Simplify (/ (log x.re) y.im) into (/ (log x.re) y.im)
4.269 * [backup-simplify]: Simplify (+ (atan2 (/ 1 x.im) (/ 1 x.re)) 0) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.269 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.269 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
4.269 * [taylor]: Taking taylor expansion of 0 in x.re
4.269 * [backup-simplify]: Simplify 0 into 0
4.269 * [taylor]: Taking taylor expansion of 0 in x.im
4.269 * [backup-simplify]: Simplify 0 into 0
4.269 * [taylor]: Taking taylor expansion of 0 in y.re
4.269 * [backup-simplify]: Simplify 0 into 0
4.269 * [backup-simplify]: Simplify 0 into 0
4.269 * [backup-simplify]: Simplify (+ 0) into 0
4.270 * [backup-simplify]: Simplify (+ (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (* 0 1)) into 0
4.270 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow 1 1)))) 1) into 0
4.271 * [backup-simplify]: Simplify (- (+ (* (/ 1 y.im) (/ 0 y.im)))) into 0
4.271 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.271 * [backup-simplify]: Simplify (+ (* (/ 1 y.im) 0) (* 0 (- (log x.re)))) into 0
4.271 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)))) into 0
4.271 * [backup-simplify]: Simplify (+ 0 0) into 0
4.272 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
4.272 * [backup-simplify]: Simplify (+ (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (* 0 0)) into 0
4.273 * [backup-simplify]: Simplify (- 0) into 0
4.273 * [backup-simplify]: Simplify (+ 0 0) into 0
4.273 * [taylor]: Taking taylor expansion of 0 in x.im
4.273 * [backup-simplify]: Simplify 0 into 0
4.273 * [taylor]: Taking taylor expansion of 0 in y.re
4.273 * [backup-simplify]: Simplify 0 into 0
4.273 * [backup-simplify]: Simplify 0 into 0
4.273 * [backup-simplify]: Simplify (+ 0) into 0
4.274 * [backup-simplify]: Simplify (+ (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (* 0 1)) into 0
4.274 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)))) into 0
4.274 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.re 1)))) 1) into 0
4.274 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (log x.re) y.im) (/ 0 y.im)))) into 0
4.274 * [backup-simplify]: Simplify (- 0) into 0
4.275 * [backup-simplify]: Simplify (+ 0 0) into 0
4.275 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
4.276 * [backup-simplify]: Simplify (+ (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (* 0 0)) into 0
4.276 * [backup-simplify]: Simplify (- 0) into 0
4.276 * [backup-simplify]: Simplify (+ 0 0) into 0
4.276 * [taylor]: Taking taylor expansion of 0 in y.re
4.276 * [backup-simplify]: Simplify 0 into 0
4.276 * [backup-simplify]: Simplify 0 into 0
4.276 * [backup-simplify]: Simplify 0 into 0
4.276 * [taylor]: Taking taylor expansion of 0 in x.re
4.276 * [backup-simplify]: Simplify 0 into 0
4.276 * [taylor]: Taking taylor expansion of 0 in x.im
4.276 * [backup-simplify]: Simplify 0 into 0
4.276 * [taylor]: Taking taylor expansion of 0 in y.re
4.276 * [backup-simplify]: Simplify 0 into 0
4.276 * [backup-simplify]: Simplify 0 into 0
4.276 * [taylor]: Taking taylor expansion of 0 in x.im
4.276 * [backup-simplify]: Simplify 0 into 0
4.276 * [taylor]: Taking taylor expansion of 0 in y.re
4.276 * [backup-simplify]: Simplify 0 into 0
4.276 * [backup-simplify]: Simplify 0 into 0
4.277 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 (/ 1 x.im)) (/ 1 (/ 1 x.re))) (/ 1 y.re)) (/ (log (/ 1 x.re)) (/ 1 y.im)))) into (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ 1 x.re)))))
4.277 * [backup-simplify]: Simplify (cos (fma (/ 1 (- y.im)) (log (hypot (/ 1 (- x.re)) (/ 1 (- x.im)))) (* (atan2 (/ 1 (- x.im)) (/ 1 (- x.re))) (/ 1 (- y.re))))) into (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))))
4.277 * [approximate]: Taking taylor expansion of (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) in (y.im x.re x.im y.re) around 0
4.277 * [taylor]: Taking taylor expansion of (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) in y.re
4.277 * [taylor]: Taking taylor expansion of (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in y.re
4.277 * [taylor]: Rewrote expression to (+ (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.277 * [taylor]: Taking taylor expansion of (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) in y.re
4.277 * [taylor]: Taking taylor expansion of (/ -1 y.im) in y.re
4.277 * [taylor]: Taking taylor expansion of -1 in y.re
4.277 * [backup-simplify]: Simplify -1 into -1
4.277 * [taylor]: Taking taylor expansion of y.im in y.re
4.277 * [backup-simplify]: Simplify y.im into y.im
4.277 * [backup-simplify]: Simplify (/ -1 y.im) into (/ -1 y.im)
4.277 * [taylor]: Taking taylor expansion of (log (hypot (/ -1 x.re) (/ -1 x.im))) in y.re
4.277 * [taylor]: Taking taylor expansion of (hypot (/ -1 x.re) (/ -1 x.im)) in y.re
4.277 * [taylor]: Rewrote expression to (sqrt (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))))
4.277 * [taylor]: Taking taylor expansion of (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))) in y.re
4.277 * [taylor]: Taking taylor expansion of (* (/ -1 x.re) (/ -1 x.re)) in y.re
4.277 * [taylor]: Taking taylor expansion of (/ -1 x.re) in y.re
4.277 * [taylor]: Taking taylor expansion of -1 in y.re
4.277 * [backup-simplify]: Simplify -1 into -1
4.277 * [taylor]: Taking taylor expansion of x.re in y.re
4.277 * [backup-simplify]: Simplify x.re into x.re
4.277 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.277 * [taylor]: Taking taylor expansion of (/ -1 x.re) in y.re
4.277 * [taylor]: Taking taylor expansion of -1 in y.re
4.277 * [backup-simplify]: Simplify -1 into -1
4.277 * [taylor]: Taking taylor expansion of x.re in y.re
4.277 * [backup-simplify]: Simplify x.re into x.re
4.277 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.277 * [taylor]: Taking taylor expansion of (* (/ -1 x.im) (/ -1 x.im)) in y.re
4.277 * [taylor]: Taking taylor expansion of (/ -1 x.im) in y.re
4.277 * [taylor]: Taking taylor expansion of -1 in y.re
4.277 * [backup-simplify]: Simplify -1 into -1
4.277 * [taylor]: Taking taylor expansion of x.im in y.re
4.277 * [backup-simplify]: Simplify x.im into x.im
4.277 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.277 * [taylor]: Taking taylor expansion of (/ -1 x.im) in y.re
4.278 * [taylor]: Taking taylor expansion of -1 in y.re
4.278 * [backup-simplify]: Simplify -1 into -1
4.278 * [taylor]: Taking taylor expansion of x.im in y.re
4.278 * [backup-simplify]: Simplify x.im into x.im
4.278 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.278 * [backup-simplify]: Simplify (* (/ -1 x.re) (/ -1 x.re)) into (/ 1 (pow x.re 2))
4.278 * [backup-simplify]: Simplify (* (/ -1 x.im) (/ -1 x.im)) into (/ 1 (pow x.im 2))
4.278 * [backup-simplify]: Simplify (+ (/ 1 (pow x.re 2)) (/ 1 (pow x.im 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
4.278 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
4.278 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)))) into 0
4.278 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)))) into 0
4.278 * [backup-simplify]: Simplify (+ (* (/ -1 x.re) 0) (* 0 (/ -1 x.re))) into 0
4.278 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)))) into 0
4.278 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)))) into 0
4.278 * [backup-simplify]: Simplify (+ (* (/ -1 x.im) 0) (* 0 (/ -1 x.im))) into 0
4.279 * [backup-simplify]: Simplify (+ 0 0) into 0
4.279 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.279 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.279 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in y.re
4.279 * [taylor]: Taking taylor expansion of -1 in y.re
4.279 * [backup-simplify]: Simplify -1 into -1
4.279 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in y.re
4.279 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.re
4.279 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.279 * [taylor]: Taking taylor expansion of y.re in y.re
4.279 * [backup-simplify]: Simplify 0 into 0
4.279 * [backup-simplify]: Simplify 1 into 1
4.279 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) 1) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.279 * [backup-simplify]: Simplify (* -1 (atan2 (/ -1 x.im) (/ -1 x.re))) into (* -1 (atan2 (/ -1 x.im) (/ -1 x.re)))
4.279 * [backup-simplify]: Simplify (+ 0 (* -1 (atan2 (/ -1 x.im) (/ -1 x.re)))) into (- (atan2 (/ -1 x.im) (/ -1 x.re)))
4.279 * [backup-simplify]: Simplify (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) into (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))))
4.279 * [taylor]: Taking taylor expansion of (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) in x.im
4.279 * [taylor]: Taking taylor expansion of (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in x.im
4.280 * [taylor]: Rewrote expression to (+ (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.280 * [taylor]: Taking taylor expansion of (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) in x.im
4.280 * [taylor]: Taking taylor expansion of (/ -1 y.im) in x.im
4.280 * [taylor]: Taking taylor expansion of -1 in x.im
4.280 * [backup-simplify]: Simplify -1 into -1
4.280 * [taylor]: Taking taylor expansion of y.im in x.im
4.280 * [backup-simplify]: Simplify y.im into y.im
4.280 * [backup-simplify]: Simplify (/ -1 y.im) into (/ -1 y.im)
4.280 * [taylor]: Taking taylor expansion of (log (hypot (/ -1 x.re) (/ -1 x.im))) in x.im
4.280 * [taylor]: Taking taylor expansion of (hypot (/ -1 x.re) (/ -1 x.im)) in x.im
4.280 * [taylor]: Rewrote expression to (sqrt (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))))
4.280 * [taylor]: Taking taylor expansion of (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))) in x.im
4.280 * [taylor]: Taking taylor expansion of (* (/ -1 x.re) (/ -1 x.re)) in x.im
4.280 * [taylor]: Taking taylor expansion of (/ -1 x.re) in x.im
4.280 * [taylor]: Taking taylor expansion of -1 in x.im
4.280 * [backup-simplify]: Simplify -1 into -1
4.280 * [taylor]: Taking taylor expansion of x.re in x.im
4.280 * [backup-simplify]: Simplify x.re into x.re
4.280 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.280 * [taylor]: Taking taylor expansion of (/ -1 x.re) in x.im
4.280 * [taylor]: Taking taylor expansion of -1 in x.im
4.280 * [backup-simplify]: Simplify -1 into -1
4.280 * [taylor]: Taking taylor expansion of x.re in x.im
4.280 * [backup-simplify]: Simplify x.re into x.re
4.280 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.280 * [taylor]: Taking taylor expansion of (* (/ -1 x.im) (/ -1 x.im)) in x.im
4.280 * [taylor]: Taking taylor expansion of (/ -1 x.im) in x.im
4.280 * [taylor]: Taking taylor expansion of -1 in x.im
4.280 * [backup-simplify]: Simplify -1 into -1
4.280 * [taylor]: Taking taylor expansion of x.im in x.im
4.280 * [backup-simplify]: Simplify 0 into 0
4.280 * [backup-simplify]: Simplify 1 into 1
4.280 * [backup-simplify]: Simplify (/ -1 1) into -1
4.280 * [taylor]: Taking taylor expansion of (/ -1 x.im) in x.im
4.280 * [taylor]: Taking taylor expansion of -1 in x.im
4.280 * [backup-simplify]: Simplify -1 into -1
4.280 * [taylor]: Taking taylor expansion of x.im in x.im
4.280 * [backup-simplify]: Simplify 0 into 0
4.280 * [backup-simplify]: Simplify 1 into 1
4.281 * [backup-simplify]: Simplify (/ -1 1) into -1
4.281 * [backup-simplify]: Simplify (* -1 -1) into 1
4.281 * [backup-simplify]: Simplify (+ 0 1) into 1
4.282 * [backup-simplify]: Simplify (sqrt 1) into 1
4.282 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* -1 (/ 0 1)))) into 0
4.283 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* -1 (/ 0 1)))) into 0
4.283 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 -1)) into 0
4.283 * [backup-simplify]: Simplify (+ 0 0) into 0
4.284 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.284 * [backup-simplify]: Simplify (log 1) into 0
4.284 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in x.im
4.284 * [taylor]: Taking taylor expansion of -1 in x.im
4.284 * [backup-simplify]: Simplify -1 into -1
4.284 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.im
4.284 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.im
4.284 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.284 * [taylor]: Taking taylor expansion of y.re in x.im
4.284 * [backup-simplify]: Simplify y.re into y.re
4.284 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
4.285 * [backup-simplify]: Simplify (+ (* (- 1) (log x.im)) 0) into (- (log x.im))
4.285 * [backup-simplify]: Simplify (* (/ -1 y.im) (- (log x.im))) into (/ (log x.im) y.im)
4.285 * [backup-simplify]: Simplify (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
4.285 * [backup-simplify]: Simplify (+ (/ (log x.im) y.im) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
4.285 * [backup-simplify]: Simplify (cos (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.285 * [backup-simplify]: Simplify (sin (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (sin (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.285 * [taylor]: Taking taylor expansion of (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) in x.re
4.285 * [taylor]: Taking taylor expansion of (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in x.re
4.285 * [taylor]: Rewrote expression to (+ (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.285 * [taylor]: Taking taylor expansion of (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) in x.re
4.285 * [taylor]: Taking taylor expansion of (/ -1 y.im) in x.re
4.285 * [taylor]: Taking taylor expansion of -1 in x.re
4.285 * [backup-simplify]: Simplify -1 into -1
4.285 * [taylor]: Taking taylor expansion of y.im in x.re
4.285 * [backup-simplify]: Simplify y.im into y.im
4.285 * [backup-simplify]: Simplify (/ -1 y.im) into (/ -1 y.im)
4.285 * [taylor]: Taking taylor expansion of (log (hypot (/ -1 x.re) (/ -1 x.im))) in x.re
4.285 * [taylor]: Taking taylor expansion of (hypot (/ -1 x.re) (/ -1 x.im)) in x.re
4.285 * [taylor]: Rewrote expression to (sqrt (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))))
4.285 * [taylor]: Taking taylor expansion of (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))) in x.re
4.285 * [taylor]: Taking taylor expansion of (* (/ -1 x.re) (/ -1 x.re)) in x.re
4.285 * [taylor]: Taking taylor expansion of (/ -1 x.re) in x.re
4.285 * [taylor]: Taking taylor expansion of -1 in x.re
4.285 * [backup-simplify]: Simplify -1 into -1
4.285 * [taylor]: Taking taylor expansion of x.re in x.re
4.285 * [backup-simplify]: Simplify 0 into 0
4.285 * [backup-simplify]: Simplify 1 into 1
4.286 * [backup-simplify]: Simplify (/ -1 1) into -1
4.286 * [taylor]: Taking taylor expansion of (/ -1 x.re) in x.re
4.286 * [taylor]: Taking taylor expansion of -1 in x.re
4.286 * [backup-simplify]: Simplify -1 into -1
4.286 * [taylor]: Taking taylor expansion of x.re in x.re
4.286 * [backup-simplify]: Simplify 0 into 0
4.286 * [backup-simplify]: Simplify 1 into 1
4.286 * [backup-simplify]: Simplify (/ -1 1) into -1
4.286 * [taylor]: Taking taylor expansion of (* (/ -1 x.im) (/ -1 x.im)) in x.re
4.286 * [taylor]: Taking taylor expansion of (/ -1 x.im) in x.re
4.286 * [taylor]: Taking taylor expansion of -1 in x.re
4.286 * [backup-simplify]: Simplify -1 into -1
4.286 * [taylor]: Taking taylor expansion of x.im in x.re
4.286 * [backup-simplify]: Simplify x.im into x.im
4.286 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.286 * [taylor]: Taking taylor expansion of (/ -1 x.im) in x.re
4.286 * [taylor]: Taking taylor expansion of -1 in x.re
4.286 * [backup-simplify]: Simplify -1 into -1
4.286 * [taylor]: Taking taylor expansion of x.im in x.re
4.286 * [backup-simplify]: Simplify x.im into x.im
4.286 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.287 * [backup-simplify]: Simplify (* -1 -1) into 1
4.287 * [backup-simplify]: Simplify (+ 1 0) into 1
4.287 * [backup-simplify]: Simplify (sqrt 1) into 1
4.290 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* -1 (/ 0 1)))) into 0
4.291 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* -1 (/ 0 1)))) into 0
4.292 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 -1)) into 0
4.292 * [backup-simplify]: Simplify (+ 0 0) into 0
4.292 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.293 * [backup-simplify]: Simplify (log 1) into 0
4.293 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in x.re
4.293 * [taylor]: Taking taylor expansion of -1 in x.re
4.293 * [backup-simplify]: Simplify -1 into -1
4.293 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.re
4.293 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.re
4.293 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.293 * [taylor]: Taking taylor expansion of y.re in x.re
4.293 * [backup-simplify]: Simplify y.re into y.re
4.293 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
4.293 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.293 * [backup-simplify]: Simplify (* (/ -1 y.im) (- (log x.re))) into (/ (log x.re) y.im)
4.293 * [backup-simplify]: Simplify (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
4.293 * [backup-simplify]: Simplify (+ (/ (log x.re) y.im) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
4.294 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.294 * [backup-simplify]: Simplify (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.294 * [taylor]: Taking taylor expansion of (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) in y.im
4.294 * [taylor]: Taking taylor expansion of (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in y.im
4.294 * [taylor]: Rewrote expression to (+ (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.294 * [taylor]: Taking taylor expansion of (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) in y.im
4.294 * [taylor]: Taking taylor expansion of (/ -1 y.im) in y.im
4.294 * [taylor]: Taking taylor expansion of -1 in y.im
4.294 * [backup-simplify]: Simplify -1 into -1
4.294 * [taylor]: Taking taylor expansion of y.im in y.im
4.294 * [backup-simplify]: Simplify 0 into 0
4.294 * [backup-simplify]: Simplify 1 into 1
4.294 * [backup-simplify]: Simplify (/ -1 1) into -1
4.294 * [taylor]: Taking taylor expansion of (log (hypot (/ -1 x.re) (/ -1 x.im))) in y.im
4.294 * [taylor]: Taking taylor expansion of (hypot (/ -1 x.re) (/ -1 x.im)) in y.im
4.294 * [taylor]: Rewrote expression to (sqrt (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))))
4.294 * [taylor]: Taking taylor expansion of (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))) in y.im
4.294 * [taylor]: Taking taylor expansion of (* (/ -1 x.re) (/ -1 x.re)) in y.im
4.294 * [taylor]: Taking taylor expansion of (/ -1 x.re) in y.im
4.294 * [taylor]: Taking taylor expansion of -1 in y.im
4.295 * [backup-simplify]: Simplify -1 into -1
4.295 * [taylor]: Taking taylor expansion of x.re in y.im
4.295 * [backup-simplify]: Simplify x.re into x.re
4.295 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.295 * [taylor]: Taking taylor expansion of (/ -1 x.re) in y.im
4.295 * [taylor]: Taking taylor expansion of -1 in y.im
4.295 * [backup-simplify]: Simplify -1 into -1
4.295 * [taylor]: Taking taylor expansion of x.re in y.im
4.295 * [backup-simplify]: Simplify x.re into x.re
4.295 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.295 * [taylor]: Taking taylor expansion of (* (/ -1 x.im) (/ -1 x.im)) in y.im
4.295 * [taylor]: Taking taylor expansion of (/ -1 x.im) in y.im
4.295 * [taylor]: Taking taylor expansion of -1 in y.im
4.295 * [backup-simplify]: Simplify -1 into -1
4.295 * [taylor]: Taking taylor expansion of x.im in y.im
4.295 * [backup-simplify]: Simplify x.im into x.im
4.295 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.295 * [taylor]: Taking taylor expansion of (/ -1 x.im) in y.im
4.295 * [taylor]: Taking taylor expansion of -1 in y.im
4.295 * [backup-simplify]: Simplify -1 into -1
4.295 * [taylor]: Taking taylor expansion of x.im in y.im
4.295 * [backup-simplify]: Simplify x.im into x.im
4.295 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.295 * [backup-simplify]: Simplify (* (/ -1 x.re) (/ -1 x.re)) into (/ 1 (pow x.re 2))
4.295 * [backup-simplify]: Simplify (* (/ -1 x.im) (/ -1 x.im)) into (/ 1 (pow x.im 2))
4.295 * [backup-simplify]: Simplify (+ (/ 1 (pow x.re 2)) (/ 1 (pow x.im 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
4.295 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
4.295 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)))) into 0
4.295 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)))) into 0
4.295 * [backup-simplify]: Simplify (+ (* (/ -1 x.re) 0) (* 0 (/ -1 x.re))) into 0
4.295 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)))) into 0
4.296 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)))) into 0
4.296 * [backup-simplify]: Simplify (+ (* (/ -1 x.im) 0) (* 0 (/ -1 x.im))) into 0
4.296 * [backup-simplify]: Simplify (+ 0 0) into 0
4.296 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.296 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.296 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in y.im
4.296 * [taylor]: Taking taylor expansion of -1 in y.im
4.296 * [backup-simplify]: Simplify -1 into -1
4.296 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in y.im
4.296 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.im
4.296 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.296 * [taylor]: Taking taylor expansion of y.re in y.im
4.296 * [backup-simplify]: Simplify y.re into y.re
4.296 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
4.297 * [backup-simplify]: Simplify (* -1 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into (* -1 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))))
4.297 * [backup-simplify]: Simplify (+ (* -1 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) 0) into (- (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))))
4.297 * [backup-simplify]: Simplify (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) into (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))))
4.297 * [taylor]: Taking taylor expansion of (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) in y.im
4.297 * [taylor]: Taking taylor expansion of (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in y.im
4.297 * [taylor]: Rewrote expression to (+ (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.297 * [taylor]: Taking taylor expansion of (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) in y.im
4.297 * [taylor]: Taking taylor expansion of (/ -1 y.im) in y.im
4.297 * [taylor]: Taking taylor expansion of -1 in y.im
4.297 * [backup-simplify]: Simplify -1 into -1
4.297 * [taylor]: Taking taylor expansion of y.im in y.im
4.297 * [backup-simplify]: Simplify 0 into 0
4.297 * [backup-simplify]: Simplify 1 into 1
4.297 * [backup-simplify]: Simplify (/ -1 1) into -1
4.297 * [taylor]: Taking taylor expansion of (log (hypot (/ -1 x.re) (/ -1 x.im))) in y.im
4.297 * [taylor]: Taking taylor expansion of (hypot (/ -1 x.re) (/ -1 x.im)) in y.im
4.297 * [taylor]: Rewrote expression to (sqrt (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))))
4.297 * [taylor]: Taking taylor expansion of (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))) in y.im
4.297 * [taylor]: Taking taylor expansion of (* (/ -1 x.re) (/ -1 x.re)) in y.im
4.297 * [taylor]: Taking taylor expansion of (/ -1 x.re) in y.im
4.297 * [taylor]: Taking taylor expansion of -1 in y.im
4.297 * [backup-simplify]: Simplify -1 into -1
4.298 * [taylor]: Taking taylor expansion of x.re in y.im
4.298 * [backup-simplify]: Simplify x.re into x.re
4.298 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.298 * [taylor]: Taking taylor expansion of (/ -1 x.re) in y.im
4.298 * [taylor]: Taking taylor expansion of -1 in y.im
4.298 * [backup-simplify]: Simplify -1 into -1
4.298 * [taylor]: Taking taylor expansion of x.re in y.im
4.298 * [backup-simplify]: Simplify x.re into x.re
4.298 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.298 * [taylor]: Taking taylor expansion of (* (/ -1 x.im) (/ -1 x.im)) in y.im
4.298 * [taylor]: Taking taylor expansion of (/ -1 x.im) in y.im
4.298 * [taylor]: Taking taylor expansion of -1 in y.im
4.298 * [backup-simplify]: Simplify -1 into -1
4.298 * [taylor]: Taking taylor expansion of x.im in y.im
4.298 * [backup-simplify]: Simplify x.im into x.im
4.298 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.298 * [taylor]: Taking taylor expansion of (/ -1 x.im) in y.im
4.298 * [taylor]: Taking taylor expansion of -1 in y.im
4.298 * [backup-simplify]: Simplify -1 into -1
4.298 * [taylor]: Taking taylor expansion of x.im in y.im
4.298 * [backup-simplify]: Simplify x.im into x.im
4.298 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.298 * [backup-simplify]: Simplify (* (/ -1 x.re) (/ -1 x.re)) into (/ 1 (pow x.re 2))
4.298 * [backup-simplify]: Simplify (* (/ -1 x.im) (/ -1 x.im)) into (/ 1 (pow x.im 2))
4.298 * [backup-simplify]: Simplify (+ (/ 1 (pow x.re 2)) (/ 1 (pow x.im 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
4.298 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
4.298 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)))) into 0
4.298 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)))) into 0
4.298 * [backup-simplify]: Simplify (+ (* (/ -1 x.re) 0) (* 0 (/ -1 x.re))) into 0
4.299 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)))) into 0
4.299 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)))) into 0
4.299 * [backup-simplify]: Simplify (+ (* (/ -1 x.im) 0) (* 0 (/ -1 x.im))) into 0
4.299 * [backup-simplify]: Simplify (+ 0 0) into 0
4.299 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.299 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.299 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in y.im
4.299 * [taylor]: Taking taylor expansion of -1 in y.im
4.299 * [backup-simplify]: Simplify -1 into -1
4.299 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in y.im
4.299 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.im
4.299 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.299 * [taylor]: Taking taylor expansion of y.re in y.im
4.299 * [backup-simplify]: Simplify y.re into y.re
4.299 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
4.300 * [backup-simplify]: Simplify (* -1 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into (* -1 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))))
4.300 * [backup-simplify]: Simplify (+ (* -1 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) 0) into (- (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))))
4.300 * [backup-simplify]: Simplify (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) into (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))))
4.300 * [taylor]: Taking taylor expansion of (cos (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) in x.re
4.300 * [taylor]: Taking taylor expansion of (fma (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in x.re
4.300 * [taylor]: Rewrote expression to (+ (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.300 * [taylor]: Taking taylor expansion of (* (/ -1 y.im) (log (hypot (/ -1 x.re) (/ -1 x.im)))) in x.re
4.300 * [taylor]: Taking taylor expansion of (/ -1 y.im) in x.re
4.300 * [taylor]: Taking taylor expansion of -1 in x.re
4.300 * [backup-simplify]: Simplify -1 into -1
4.300 * [taylor]: Taking taylor expansion of y.im in x.re
4.300 * [backup-simplify]: Simplify y.im into y.im
4.300 * [backup-simplify]: Simplify (/ -1 y.im) into (/ -1 y.im)
4.300 * [taylor]: Taking taylor expansion of (log (hypot (/ -1 x.re) (/ -1 x.im))) in x.re
4.300 * [taylor]: Taking taylor expansion of (hypot (/ -1 x.re) (/ -1 x.im)) in x.re
4.300 * [taylor]: Rewrote expression to (sqrt (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))))
4.300 * [taylor]: Taking taylor expansion of (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))) in x.re
4.300 * [taylor]: Taking taylor expansion of (* (/ -1 x.re) (/ -1 x.re)) in x.re
4.300 * [taylor]: Taking taylor expansion of (/ -1 x.re) in x.re
4.300 * [taylor]: Taking taylor expansion of -1 in x.re
4.300 * [backup-simplify]: Simplify -1 into -1
4.300 * [taylor]: Taking taylor expansion of x.re in x.re
4.300 * [backup-simplify]: Simplify 0 into 0
4.300 * [backup-simplify]: Simplify 1 into 1
4.301 * [backup-simplify]: Simplify (/ -1 1) into -1
4.301 * [taylor]: Taking taylor expansion of (/ -1 x.re) in x.re
4.301 * [taylor]: Taking taylor expansion of -1 in x.re
4.301 * [backup-simplify]: Simplify -1 into -1
4.301 * [taylor]: Taking taylor expansion of x.re in x.re
4.301 * [backup-simplify]: Simplify 0 into 0
4.301 * [backup-simplify]: Simplify 1 into 1
4.301 * [backup-simplify]: Simplify (/ -1 1) into -1
4.301 * [taylor]: Taking taylor expansion of (* (/ -1 x.im) (/ -1 x.im)) in x.re
4.301 * [taylor]: Taking taylor expansion of (/ -1 x.im) in x.re
4.301 * [taylor]: Taking taylor expansion of -1 in x.re
4.301 * [backup-simplify]: Simplify -1 into -1
4.301 * [taylor]: Taking taylor expansion of x.im in x.re
4.301 * [backup-simplify]: Simplify x.im into x.im
4.301 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.301 * [taylor]: Taking taylor expansion of (/ -1 x.im) in x.re
4.301 * [taylor]: Taking taylor expansion of -1 in x.re
4.301 * [backup-simplify]: Simplify -1 into -1
4.301 * [taylor]: Taking taylor expansion of x.im in x.re
4.301 * [backup-simplify]: Simplify x.im into x.im
4.301 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.302 * [backup-simplify]: Simplify (* -1 -1) into 1
4.302 * [backup-simplify]: Simplify (+ 1 0) into 1
4.302 * [backup-simplify]: Simplify (sqrt 1) into 1
4.303 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* -1 (/ 0 1)))) into 0
4.303 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* -1 (/ 0 1)))) into 0
4.303 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 -1)) into 0
4.304 * [backup-simplify]: Simplify (+ 0 0) into 0
4.304 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.304 * [backup-simplify]: Simplify (log 1) into 0
4.304 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in x.re
4.304 * [taylor]: Taking taylor expansion of -1 in x.re
4.304 * [backup-simplify]: Simplify -1 into -1
4.304 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.re
4.304 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.re
4.304 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.304 * [taylor]: Taking taylor expansion of y.re in x.re
4.304 * [backup-simplify]: Simplify y.re into y.re
4.305 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
4.305 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.305 * [backup-simplify]: Simplify (* (/ -1 y.im) (- (log x.re))) into (/ (log x.re) y.im)
4.305 * [backup-simplify]: Simplify (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
4.305 * [backup-simplify]: Simplify (+ (/ (log x.re) y.im) (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
4.305 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.305 * [backup-simplify]: Simplify (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.305 * [backup-simplify]: Simplify (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 1) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.306 * [backup-simplify]: Simplify (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) into 0
4.306 * [backup-simplify]: Simplify (- 0) into 0
4.306 * [backup-simplify]: Simplify (+ (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.306 * [taylor]: Taking taylor expansion of (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in x.im
4.306 * [taylor]: Taking taylor expansion of (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in x.im
4.306 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in x.im
4.306 * [taylor]: Taking taylor expansion of (log x.re) in x.im
4.306 * [taylor]: Taking taylor expansion of x.re in x.im
4.306 * [backup-simplify]: Simplify x.re into x.re
4.306 * [backup-simplify]: Simplify (log x.re) into (log x.re)
4.306 * [taylor]: Taking taylor expansion of y.im in x.im
4.306 * [backup-simplify]: Simplify y.im into y.im
4.306 * [backup-simplify]: Simplify (/ (log x.re) y.im) into (/ (log x.re) y.im)
4.306 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.im
4.306 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.im
4.306 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.306 * [taylor]: Taking taylor expansion of y.re in x.im
4.306 * [backup-simplify]: Simplify y.re into y.re
4.306 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
4.306 * [backup-simplify]: Simplify (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) into (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
4.307 * [backup-simplify]: Simplify (+ (/ (log x.re) y.im) (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
4.307 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.307 * [backup-simplify]: Simplify (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.307 * [backup-simplify]: Simplify (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 1) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.307 * [backup-simplify]: Simplify (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) into 0
4.307 * [backup-simplify]: Simplify (- 0) into 0
4.307 * [backup-simplify]: Simplify (+ (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.307 * [taylor]: Taking taylor expansion of (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in y.re
4.307 * [taylor]: Taking taylor expansion of (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in y.re
4.307 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in y.re
4.307 * [taylor]: Taking taylor expansion of (log x.re) in y.re
4.308 * [taylor]: Taking taylor expansion of x.re in y.re
4.308 * [backup-simplify]: Simplify x.re into x.re
4.308 * [backup-simplify]: Simplify (log x.re) into (log x.re)
4.308 * [taylor]: Taking taylor expansion of y.im in y.re
4.308 * [backup-simplify]: Simplify y.im into y.im
4.308 * [backup-simplify]: Simplify (/ (log x.re) y.im) into (/ (log x.re) y.im)
4.308 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in y.re
4.308 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.re
4.308 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.308 * [taylor]: Taking taylor expansion of y.re in y.re
4.308 * [backup-simplify]: Simplify 0 into 0
4.308 * [backup-simplify]: Simplify 1 into 1
4.308 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) 1) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.308 * [backup-simplify]: Simplify (- (atan2 (/ -1 x.im) (/ -1 x.re))) into (- (atan2 (/ -1 x.im) (/ -1 x.re)))
4.308 * [backup-simplify]: Simplify (+ 0 (- (atan2 (/ -1 x.im) (/ -1 x.re)))) into (- (atan2 (/ -1 x.im) (/ -1 x.re)))
4.308 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.308 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
4.308 * [taylor]: Taking taylor expansion of 0 in x.re
4.308 * [backup-simplify]: Simplify 0 into 0
4.308 * [taylor]: Taking taylor expansion of 0 in x.im
4.308 * [backup-simplify]: Simplify 0 into 0
4.308 * [taylor]: Taking taylor expansion of 0 in y.re
4.308 * [backup-simplify]: Simplify 0 into 0
4.308 * [backup-simplify]: Simplify 0 into 0
4.309 * [backup-simplify]: Simplify (+ 0) into 0
4.309 * [backup-simplify]: Simplify (+ (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (* 0 1)) into 0
4.310 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow 1 1)))) 1) into 0
4.310 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ -1 y.im) (/ 0 y.im)))) into 0
4.310 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.310 * [backup-simplify]: Simplify (+ (* (/ -1 y.im) 0) (* 0 (- (log x.re)))) into 0
4.310 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)))) into 0
4.311 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into 0
4.311 * [backup-simplify]: Simplify (+ 0 0) into 0
4.311 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
4.312 * [backup-simplify]: Simplify (+ (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (* 0 0)) into 0
4.312 * [backup-simplify]: Simplify (- 0) into 0
4.312 * [backup-simplify]: Simplify (+ 0 0) into 0
4.312 * [taylor]: Taking taylor expansion of 0 in x.im
4.312 * [backup-simplify]: Simplify 0 into 0
4.312 * [taylor]: Taking taylor expansion of 0 in y.re
4.312 * [backup-simplify]: Simplify 0 into 0
4.312 * [backup-simplify]: Simplify 0 into 0
4.313 * [backup-simplify]: Simplify (+ 0) into 0
4.313 * [backup-simplify]: Simplify (+ (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (* 0 1)) into 0
4.313 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.re 1)))) 1) into 0
4.314 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (log x.re) y.im) (/ 0 y.im)))) into 0
4.314 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)))) into 0
4.314 * [backup-simplify]: Simplify (- 0) into 0
4.314 * [backup-simplify]: Simplify (+ 0 0) into 0
4.315 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
4.315 * [backup-simplify]: Simplify (+ (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (* 0 0)) into 0
4.315 * [backup-simplify]: Simplify (- 0) into 0
4.315 * [backup-simplify]: Simplify (+ 0 0) into 0
4.316 * [taylor]: Taking taylor expansion of 0 in y.re
4.316 * [backup-simplify]: Simplify 0 into 0
4.316 * [backup-simplify]: Simplify 0 into 0
4.316 * [backup-simplify]: Simplify 0 into 0
4.316 * [taylor]: Taking taylor expansion of 0 in x.re
4.316 * [backup-simplify]: Simplify 0 into 0
4.316 * [taylor]: Taking taylor expansion of 0 in x.im
4.316 * [backup-simplify]: Simplify 0 into 0
4.316 * [taylor]: Taking taylor expansion of 0 in y.re
4.316 * [backup-simplify]: Simplify 0 into 0
4.316 * [backup-simplify]: Simplify 0 into 0
4.316 * [taylor]: Taking taylor expansion of 0 in x.im
4.316 * [backup-simplify]: Simplify 0 into 0
4.316 * [taylor]: Taking taylor expansion of 0 in y.re
4.316 * [backup-simplify]: Simplify 0 into 0
4.316 * [backup-simplify]: Simplify 0 into 0
4.316 * [backup-simplify]: Simplify (cos (- (/ (log (/ 1 (- x.re))) (/ 1 (- y.im))) (/ (atan2 (/ -1 (/ 1 (- x.im))) (/ -1 (/ 1 (- x.re)))) (/ 1 (- y.re))))) into (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ -1 x.re)))))
4.316 * * * * [progress]: [ 2 / 4 ] generating series at (2 2 1 1)
4.316 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.im) into (* y.im (atan2 x.im x.re))
4.316 * [approximate]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in (x.im x.re y.im) around 0
4.316 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in y.im
4.316 * [taylor]: Taking taylor expansion of y.im in y.im
4.316 * [backup-simplify]: Simplify 0 into 0
4.316 * [backup-simplify]: Simplify 1 into 1
4.316 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.im
4.316 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.316 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in x.re
4.316 * [taylor]: Taking taylor expansion of y.im in x.re
4.316 * [backup-simplify]: Simplify y.im into y.im
4.316 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
4.316 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.316 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in x.im
4.316 * [taylor]: Taking taylor expansion of y.im in x.im
4.316 * [backup-simplify]: Simplify y.im into y.im
4.316 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
4.316 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.317 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in x.im
4.317 * [taylor]: Taking taylor expansion of y.im in x.im
4.317 * [backup-simplify]: Simplify y.im into y.im
4.317 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
4.317 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.317 * [backup-simplify]: Simplify (* y.im (atan2 x.im x.re)) into (* y.im (atan2 x.im x.re))
4.317 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in x.re
4.317 * [taylor]: Taking taylor expansion of y.im in x.re
4.317 * [backup-simplify]: Simplify y.im into y.im
4.317 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
4.317 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.317 * [backup-simplify]: Simplify (* y.im (atan2 x.im x.re)) into (* y.im (atan2 x.im x.re))
4.317 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in y.im
4.317 * [taylor]: Taking taylor expansion of y.im in y.im
4.317 * [backup-simplify]: Simplify 0 into 0
4.317 * [backup-simplify]: Simplify 1 into 1
4.317 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.im
4.317 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.317 * [backup-simplify]: Simplify (* 0 (atan2 x.im x.re)) into 0
4.317 * [backup-simplify]: Simplify 0 into 0
4.317 * [backup-simplify]: Simplify (+ (* y.im 0) (* 0 (atan2 x.im x.re))) into 0
4.317 * [taylor]: Taking taylor expansion of 0 in x.re
4.317 * [backup-simplify]: Simplify 0 into 0
4.317 * [taylor]: Taking taylor expansion of 0 in y.im
4.317 * [backup-simplify]: Simplify 0 into 0
4.317 * [backup-simplify]: Simplify 0 into 0
4.317 * [backup-simplify]: Simplify (+ (* y.im 0) (* 0 (atan2 x.im x.re))) into 0
4.317 * [taylor]: Taking taylor expansion of 0 in y.im
4.317 * [backup-simplify]: Simplify 0 into 0
4.317 * [backup-simplify]: Simplify 0 into 0
4.318 * [backup-simplify]: Simplify (+ (* 0 0) (* 1 (atan2 x.im x.re))) into (atan2 x.im x.re)
4.318 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.318 * [backup-simplify]: Simplify (+ (* y.im 0) (+ (* 0 0) (* 0 (atan2 x.im x.re)))) into 0
4.318 * [taylor]: Taking taylor expansion of 0 in x.re
4.318 * [backup-simplify]: Simplify 0 into 0
4.318 * [taylor]: Taking taylor expansion of 0 in y.im
4.318 * [backup-simplify]: Simplify 0 into 0
4.318 * [backup-simplify]: Simplify 0 into 0
4.318 * [taylor]: Taking taylor expansion of 0 in y.im
4.318 * [backup-simplify]: Simplify 0 into 0
4.318 * [backup-simplify]: Simplify 0 into 0
4.318 * [backup-simplify]: Simplify (+ (* y.im 0) (+ (* 0 0) (* 0 (atan2 x.im x.re)))) into 0
4.318 * [taylor]: Taking taylor expansion of 0 in y.im
4.318 * [backup-simplify]: Simplify 0 into 0
4.318 * [backup-simplify]: Simplify 0 into 0
4.318 * [backup-simplify]: Simplify 0 into 0
4.318 * [backup-simplify]: Simplify 0 into 0
4.319 * [backup-simplify]: Simplify (+ (* 0 0) (+ (* 1 0) (* 0 (atan2 x.im x.re)))) into 0
4.319 * [backup-simplify]: Simplify 0 into 0
4.319 * [backup-simplify]: Simplify (* (atan2 x.im x.re) (* y.im (* 1 1))) into (* y.im (atan2 x.im x.re))
4.319 * [backup-simplify]: Simplify (* (atan2 (/ 1 x.im) (/ 1 x.re)) (/ 1 y.im)) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im)
4.319 * [approximate]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in (x.im x.re y.im) around 0
4.319 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in y.im
4.319 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.im
4.320 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.320 * [taylor]: Taking taylor expansion of y.im in y.im
4.320 * [backup-simplify]: Simplify 0 into 0
4.320 * [backup-simplify]: Simplify 1 into 1
4.320 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) 1) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.320 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in x.re
4.320 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.re
4.320 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.320 * [taylor]: Taking taylor expansion of y.im in x.re
4.320 * [backup-simplify]: Simplify y.im into y.im
4.320 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im)
4.320 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in x.im
4.320 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.im
4.320 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.320 * [taylor]: Taking taylor expansion of y.im in x.im
4.320 * [backup-simplify]: Simplify y.im into y.im
4.320 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im)
4.320 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in x.im
4.320 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.im
4.320 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.320 * [taylor]: Taking taylor expansion of y.im in x.im
4.320 * [backup-simplify]: Simplify y.im into y.im
4.320 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im)
4.320 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in x.re
4.320 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.re
4.320 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.320 * [taylor]: Taking taylor expansion of y.im in x.re
4.320 * [backup-simplify]: Simplify y.im into y.im
4.320 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im)
4.320 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in y.im
4.320 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.im
4.320 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.320 * [taylor]: Taking taylor expansion of y.im in y.im
4.320 * [backup-simplify]: Simplify 0 into 0
4.321 * [backup-simplify]: Simplify 1 into 1
4.321 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) 1) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.321 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.321 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)))) into 0
4.321 * [taylor]: Taking taylor expansion of 0 in x.re
4.321 * [backup-simplify]: Simplify 0 into 0
4.321 * [taylor]: Taking taylor expansion of 0 in y.im
4.321 * [backup-simplify]: Simplify 0 into 0
4.321 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)))) into 0
4.321 * [taylor]: Taking taylor expansion of 0 in y.im
4.321 * [backup-simplify]: Simplify 0 into 0
4.322 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ 1 x.im) (/ 1 x.re)) (/ 0 1)))) into 0
4.322 * [backup-simplify]: Simplify 0 into 0
4.322 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
4.322 * [taylor]: Taking taylor expansion of 0 in x.re
4.322 * [backup-simplify]: Simplify 0 into 0
4.322 * [taylor]: Taking taylor expansion of 0 in y.im
4.322 * [backup-simplify]: Simplify 0 into 0
4.322 * [taylor]: Taking taylor expansion of 0 in y.im
4.322 * [backup-simplify]: Simplify 0 into 0
4.322 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
4.322 * [taylor]: Taking taylor expansion of 0 in y.im
4.322 * [backup-simplify]: Simplify 0 into 0
4.322 * [backup-simplify]: Simplify 0 into 0
4.322 * [backup-simplify]: Simplify 0 into 0
4.323 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ 1 x.im) (/ 1 x.re)) (/ 0 1)) (* 0 (/ 0 1)))) into 0
4.323 * [backup-simplify]: Simplify 0 into 0
4.323 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
4.323 * [taylor]: Taking taylor expansion of 0 in x.re
4.323 * [backup-simplify]: Simplify 0 into 0
4.323 * [taylor]: Taking taylor expansion of 0 in y.im
4.323 * [backup-simplify]: Simplify 0 into 0
4.323 * [taylor]: Taking taylor expansion of 0 in y.im
4.323 * [backup-simplify]: Simplify 0 into 0
4.323 * [taylor]: Taking taylor expansion of 0 in y.im
4.323 * [backup-simplify]: Simplify 0 into 0
4.324 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
4.324 * [taylor]: Taking taylor expansion of 0 in y.im
4.324 * [backup-simplify]: Simplify 0 into 0
4.324 * [backup-simplify]: Simplify 0 into 0
4.324 * [backup-simplify]: Simplify 0 into 0
4.324 * [backup-simplify]: Simplify (* (atan2 (/ 1 (/ 1 x.im)) (/ 1 (/ 1 x.re))) (* (/ 1 (/ 1 y.im)) (* 1 1))) into (* y.im (atan2 x.im x.re))
4.324 * [backup-simplify]: Simplify (* (atan2 (/ 1 (- x.im)) (/ 1 (- x.re))) (/ 1 (- y.im))) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))
4.324 * [approximate]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in (x.im x.re y.im) around 0
4.324 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in y.im
4.324 * [taylor]: Taking taylor expansion of -1 in y.im
4.324 * [backup-simplify]: Simplify -1 into -1
4.324 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in y.im
4.324 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.im
4.324 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.324 * [taylor]: Taking taylor expansion of y.im in y.im
4.324 * [backup-simplify]: Simplify 0 into 0
4.324 * [backup-simplify]: Simplify 1 into 1
4.324 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) 1) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.324 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in x.re
4.324 * [taylor]: Taking taylor expansion of -1 in x.re
4.324 * [backup-simplify]: Simplify -1 into -1
4.324 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in x.re
4.324 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.re
4.324 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.324 * [taylor]: Taking taylor expansion of y.im in x.re
4.325 * [backup-simplify]: Simplify y.im into y.im
4.325 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)
4.325 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in x.im
4.325 * [taylor]: Taking taylor expansion of -1 in x.im
4.325 * [backup-simplify]: Simplify -1 into -1
4.325 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in x.im
4.325 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.im
4.325 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.325 * [taylor]: Taking taylor expansion of y.im in x.im
4.325 * [backup-simplify]: Simplify y.im into y.im
4.325 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)
4.325 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in x.im
4.325 * [taylor]: Taking taylor expansion of -1 in x.im
4.325 * [backup-simplify]: Simplify -1 into -1
4.325 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in x.im
4.325 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.im
4.325 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.325 * [taylor]: Taking taylor expansion of y.im in x.im
4.325 * [backup-simplify]: Simplify y.im into y.im
4.325 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)
4.325 * [backup-simplify]: Simplify (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))
4.325 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in x.re
4.325 * [taylor]: Taking taylor expansion of -1 in x.re
4.325 * [backup-simplify]: Simplify -1 into -1
4.325 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in x.re
4.325 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.re
4.325 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.325 * [taylor]: Taking taylor expansion of y.im in x.re
4.325 * [backup-simplify]: Simplify y.im into y.im
4.325 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)
4.325 * [backup-simplify]: Simplify (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))
4.325 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in y.im
4.325 * [taylor]: Taking taylor expansion of -1 in y.im
4.325 * [backup-simplify]: Simplify -1 into -1
4.325 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in y.im
4.326 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.im
4.326 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.326 * [taylor]: Taking taylor expansion of y.im in y.im
4.326 * [backup-simplify]: Simplify 0 into 0
4.326 * [backup-simplify]: Simplify 1 into 1
4.326 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) 1) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.326 * [backup-simplify]: Simplify (* -1 (atan2 (/ -1 x.im) (/ -1 x.re))) into (* -1 (atan2 (/ -1 x.im) (/ -1 x.re)))
4.326 * [backup-simplify]: Simplify (* -1 (atan2 (/ -1 x.im) (/ -1 x.re))) into (* -1 (atan2 (/ -1 x.im) (/ -1 x.re)))
4.326 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)))) into 0
4.326 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))) into 0
4.326 * [taylor]: Taking taylor expansion of 0 in x.re
4.326 * [backup-simplify]: Simplify 0 into 0
4.326 * [taylor]: Taking taylor expansion of 0 in y.im
4.326 * [backup-simplify]: Simplify 0 into 0
4.327 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)))) into 0
4.327 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))) into 0
4.327 * [taylor]: Taking taylor expansion of 0 in y.im
4.327 * [backup-simplify]: Simplify 0 into 0
4.327 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ -1 x.im) (/ -1 x.re)) (/ 0 1)))) into 0
4.328 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (atan2 (/ -1 x.im) (/ -1 x.re)))) into 0
4.328 * [backup-simplify]: Simplify 0 into 0
4.328 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
4.329 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)))) into 0
4.329 * [taylor]: Taking taylor expansion of 0 in x.re
4.329 * [backup-simplify]: Simplify 0 into 0
4.329 * [taylor]: Taking taylor expansion of 0 in y.im
4.329 * [backup-simplify]: Simplify 0 into 0
4.329 * [taylor]: Taking taylor expansion of 0 in y.im
4.329 * [backup-simplify]: Simplify 0 into 0
4.329 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
4.329 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)))) into 0
4.329 * [taylor]: Taking taylor expansion of 0 in y.im
4.329 * [backup-simplify]: Simplify 0 into 0
4.329 * [backup-simplify]: Simplify 0 into 0
4.329 * [backup-simplify]: Simplify 0 into 0
4.330 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ -1 x.im) (/ -1 x.re)) (/ 0 1)) (* 0 (/ 0 1)))) into 0
4.331 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (* 0 (atan2 (/ -1 x.im) (/ -1 x.re))))) into 0
4.331 * [backup-simplify]: Simplify 0 into 0
4.331 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
4.332 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))))) into 0
4.332 * [taylor]: Taking taylor expansion of 0 in x.re
4.332 * [backup-simplify]: Simplify 0 into 0
4.332 * [taylor]: Taking taylor expansion of 0 in y.im
4.332 * [backup-simplify]: Simplify 0 into 0
4.332 * [taylor]: Taking taylor expansion of 0 in y.im
4.332 * [backup-simplify]: Simplify 0 into 0
4.332 * [taylor]: Taking taylor expansion of 0 in y.im
4.332 * [backup-simplify]: Simplify 0 into 0
4.333 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
4.333 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))))) into 0
4.333 * [taylor]: Taking taylor expansion of 0 in y.im
4.333 * [backup-simplify]: Simplify 0 into 0
4.333 * [backup-simplify]: Simplify 0 into 0
4.333 * [backup-simplify]: Simplify 0 into 0
4.334 * [backup-simplify]: Simplify (* (* -1 (atan2 (/ -1 (/ 1 (- x.im))) (/ -1 (/ 1 (- x.re))))) (* (/ 1 (/ 1 (- y.im))) (* 1 1))) into (* y.im (atan2 x.im x.re))
4.334 * * * * [progress]: [ 3 / 4 ] generating series at (2 2 1 2)
4.334 * [backup-simplify]: Simplify (* y.re (log (hypot x.re x.im))) into (* y.re (log (hypot x.re x.im)))
4.334 * [approximate]: Taking taylor expansion of (* y.re (log (hypot x.re x.im))) in (y.re x.re x.im) around 0
4.334 * [taylor]: Taking taylor expansion of (* y.re (log (hypot x.re x.im))) in x.im
4.334 * [taylor]: Taking taylor expansion of y.re in x.im
4.334 * [backup-simplify]: Simplify y.re into y.re
4.334 * [taylor]: Taking taylor expansion of (log (hypot x.re x.im)) in x.im
4.334 * [taylor]: Taking taylor expansion of (hypot x.re x.im) in x.im
4.334 * [taylor]: Rewrote expression to (sqrt (+ (* x.re x.re) (* x.im x.im)))
4.334 * [taylor]: Taking taylor expansion of (+ (* x.re x.re) (* x.im x.im)) in x.im
4.334 * [taylor]: Taking taylor expansion of (* x.re x.re) in x.im
4.334 * [taylor]: Taking taylor expansion of x.re in x.im
4.334 * [backup-simplify]: Simplify x.re into x.re
4.334 * [taylor]: Taking taylor expansion of x.re in x.im
4.334 * [backup-simplify]: Simplify x.re into x.re
4.334 * [taylor]: Taking taylor expansion of (* x.im x.im) in x.im
4.334 * [taylor]: Taking taylor expansion of x.im in x.im
4.334 * [backup-simplify]: Simplify 0 into 0
4.334 * [backup-simplify]: Simplify 1 into 1
4.334 * [taylor]: Taking taylor expansion of x.im in x.im
4.334 * [backup-simplify]: Simplify 0 into 0
4.334 * [backup-simplify]: Simplify 1 into 1
4.334 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
4.335 * [backup-simplify]: Simplify (* 0 0) into 0
4.335 * [backup-simplify]: Simplify (+ (pow x.re 2) 0) into (pow x.re 2)
4.335 * [backup-simplify]: Simplify (sqrt (pow x.re 2)) into x.re
4.335 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
4.335 * [backup-simplify]: Simplify (+ (* 0 1) (* 1 0)) into 0
4.335 * [backup-simplify]: Simplify (+ 0 0) into 0
4.335 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.re 2)))) into 0
4.335 * [backup-simplify]: Simplify (log x.re) into (log x.re)
4.335 * [taylor]: Taking taylor expansion of (* y.re (log (hypot x.re x.im))) in x.re
4.335 * [taylor]: Taking taylor expansion of y.re in x.re
4.335 * [backup-simplify]: Simplify y.re into y.re
4.335 * [taylor]: Taking taylor expansion of (log (hypot x.re x.im)) in x.re
4.336 * [taylor]: Taking taylor expansion of (hypot x.re x.im) in x.re
4.336 * [taylor]: Rewrote expression to (sqrt (+ (* x.re x.re) (* x.im x.im)))
4.336 * [taylor]: Taking taylor expansion of (+ (* x.re x.re) (* x.im x.im)) in x.re
4.336 * [taylor]: Taking taylor expansion of (* x.re x.re) in x.re
4.336 * [taylor]: Taking taylor expansion of x.re in x.re
4.336 * [backup-simplify]: Simplify 0 into 0
4.336 * [backup-simplify]: Simplify 1 into 1
4.336 * [taylor]: Taking taylor expansion of x.re in x.re
4.336 * [backup-simplify]: Simplify 0 into 0
4.336 * [backup-simplify]: Simplify 1 into 1
4.336 * [taylor]: Taking taylor expansion of (* x.im x.im) in x.re
4.336 * [taylor]: Taking taylor expansion of x.im in x.re
4.336 * [backup-simplify]: Simplify x.im into x.im
4.336 * [taylor]: Taking taylor expansion of x.im in x.re
4.336 * [backup-simplify]: Simplify x.im into x.im
4.336 * [backup-simplify]: Simplify (* 0 0) into 0
4.336 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.336 * [backup-simplify]: Simplify (+ 0 (pow x.im 2)) into (pow x.im 2)
4.336 * [backup-simplify]: Simplify (sqrt (pow x.im 2)) into x.im
4.336 * [backup-simplify]: Simplify (+ (* 0 1) (* 1 0)) into 0
4.337 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
4.337 * [backup-simplify]: Simplify (+ 0 0) into 0
4.337 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.im 2)))) into 0
4.337 * [backup-simplify]: Simplify (log x.im) into (log x.im)
4.337 * [taylor]: Taking taylor expansion of (* y.re (log (hypot x.re x.im))) in y.re
4.337 * [taylor]: Taking taylor expansion of y.re in y.re
4.337 * [backup-simplify]: Simplify 0 into 0
4.337 * [backup-simplify]: Simplify 1 into 1
4.337 * [taylor]: Taking taylor expansion of (log (hypot x.re x.im)) in y.re
4.337 * [taylor]: Taking taylor expansion of (hypot x.re x.im) in y.re
4.337 * [taylor]: Rewrote expression to (sqrt (+ (* x.re x.re) (* x.im x.im)))
4.337 * [taylor]: Taking taylor expansion of (+ (* x.re x.re) (* x.im x.im)) in y.re
4.337 * [taylor]: Taking taylor expansion of (* x.re x.re) in y.re
4.337 * [taylor]: Taking taylor expansion of x.re in y.re
4.337 * [backup-simplify]: Simplify x.re into x.re
4.337 * [taylor]: Taking taylor expansion of x.re in y.re
4.337 * [backup-simplify]: Simplify x.re into x.re
4.337 * [taylor]: Taking taylor expansion of (* x.im x.im) in y.re
4.337 * [taylor]: Taking taylor expansion of x.im in y.re
4.337 * [backup-simplify]: Simplify x.im into x.im
4.337 * [taylor]: Taking taylor expansion of x.im in y.re
4.337 * [backup-simplify]: Simplify x.im into x.im
4.337 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
4.337 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.337 * [backup-simplify]: Simplify (+ (pow x.re 2) (pow x.im 2)) into (+ (pow x.im 2) (pow x.re 2))
4.337 * [backup-simplify]: Simplify (sqrt (+ (pow x.im 2) (pow x.re 2))) into (sqrt (+ (pow x.re 2) (pow x.im 2)))
4.337 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
4.338 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
4.338 * [backup-simplify]: Simplify (+ 0 0) into 0
4.338 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (pow x.im 2) (pow x.re 2))))) into 0
4.338 * [backup-simplify]: Simplify (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) into (log (sqrt (+ (pow x.im 2) (pow x.re 2))))
4.338 * [taylor]: Taking taylor expansion of (* y.re (log (hypot x.re x.im))) in y.re
4.338 * [taylor]: Taking taylor expansion of y.re in y.re
4.338 * [backup-simplify]: Simplify 0 into 0
4.338 * [backup-simplify]: Simplify 1 into 1
4.338 * [taylor]: Taking taylor expansion of (log (hypot x.re x.im)) in y.re
4.338 * [taylor]: Taking taylor expansion of (hypot x.re x.im) in y.re
4.338 * [taylor]: Rewrote expression to (sqrt (+ (* x.re x.re) (* x.im x.im)))
4.338 * [taylor]: Taking taylor expansion of (+ (* x.re x.re) (* x.im x.im)) in y.re
4.338 * [taylor]: Taking taylor expansion of (* x.re x.re) in y.re
4.338 * [taylor]: Taking taylor expansion of x.re in y.re
4.338 * [backup-simplify]: Simplify x.re into x.re
4.338 * [taylor]: Taking taylor expansion of x.re in y.re
4.338 * [backup-simplify]: Simplify x.re into x.re
4.338 * [taylor]: Taking taylor expansion of (* x.im x.im) in y.re
4.338 * [taylor]: Taking taylor expansion of x.im in y.re
4.338 * [backup-simplify]: Simplify x.im into x.im
4.338 * [taylor]: Taking taylor expansion of x.im in y.re
4.338 * [backup-simplify]: Simplify x.im into x.im
4.338 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
4.338 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.338 * [backup-simplify]: Simplify (+ (pow x.re 2) (pow x.im 2)) into (+ (pow x.im 2) (pow x.re 2))
4.338 * [backup-simplify]: Simplify (sqrt (+ (pow x.im 2) (pow x.re 2))) into (sqrt (+ (pow x.re 2) (pow x.im 2)))
4.339 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
4.339 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
4.339 * [backup-simplify]: Simplify (+ 0 0) into 0
4.339 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (pow x.im 2) (pow x.re 2))))) into 0
4.339 * [backup-simplify]: Simplify (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) into (log (sqrt (+ (pow x.im 2) (pow x.re 2))))
4.339 * [backup-simplify]: Simplify (* 0 (log (sqrt (+ (pow x.im 2) (pow x.re 2))))) into 0
4.339 * [taylor]: Taking taylor expansion of 0 in x.re
4.339 * [backup-simplify]: Simplify 0 into 0
4.339 * [taylor]: Taking taylor expansion of 0 in x.im
4.339 * [backup-simplify]: Simplify 0 into 0
4.339 * [backup-simplify]: Simplify 0 into 0
4.340 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow (sqrt (+ (pow x.re 2) (pow x.im 2))) 1)))) 1) into 0
4.340 * [backup-simplify]: Simplify (+ (* 0 0) (* 1 (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) into (log (sqrt (+ (pow x.re 2) (pow x.im 2))))
4.340 * [taylor]: Taking taylor expansion of (log (sqrt (+ (pow x.re 2) (pow x.im 2)))) in x.re
4.340 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.re 2) (pow x.im 2))) in x.re
4.340 * [taylor]: Taking taylor expansion of (+ (pow x.re 2) (pow x.im 2)) in x.re
4.340 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
4.340 * [taylor]: Taking taylor expansion of x.re in x.re
4.340 * [backup-simplify]: Simplify 0 into 0
4.340 * [backup-simplify]: Simplify 1 into 1
4.340 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
4.340 * [taylor]: Taking taylor expansion of x.im in x.re
4.340 * [backup-simplify]: Simplify x.im into x.im
4.340 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.340 * [backup-simplify]: Simplify (+ 0 (pow x.im 2)) into (pow x.im 2)
4.340 * [backup-simplify]: Simplify (sqrt (pow x.im 2)) into x.im
4.341 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
4.341 * [backup-simplify]: Simplify (+ 0 0) into 0
4.341 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.im 2)))) into 0
4.341 * [backup-simplify]: Simplify (log x.im) into (log x.im)
4.341 * [taylor]: Taking taylor expansion of (log x.im) in x.im
4.341 * [taylor]: Taking taylor expansion of x.im in x.im
4.341 * [backup-simplify]: Simplify 0 into 0
4.341 * [backup-simplify]: Simplify 1 into 1
4.341 * [backup-simplify]: Simplify (log 1) into 0
4.341 * [backup-simplify]: Simplify (+ (* (- -1) (log x.im)) 0) into (log x.im)
4.341 * [backup-simplify]: Simplify (log x.im) into (log x.im)
4.342 * [taylor]: Taking taylor expansion of 0 in x.im
4.342 * [backup-simplify]: Simplify 0 into 0
4.342 * [backup-simplify]: Simplify 0 into 0
4.342 * [backup-simplify]: Simplify 0 into 0
4.342 * [backup-simplify]: Simplify (+ (* x.re 0) (+ (* 0 0) (* 0 x.re))) into 0
4.342 * [backup-simplify]: Simplify (+ (* x.im 0) (+ (* 0 0) (* 0 x.im))) into 0
4.342 * [backup-simplify]: Simplify (+ 0 0) into 0
4.343 * [backup-simplify]: Simplify (/ (- 0 (pow 0 2) (+)) (* 2 (sqrt (+ (pow x.re 2) (pow x.im 2))))) into 0
4.344 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow (sqrt (+ (pow x.re 2) (pow x.im 2))) 2))) (* 1 (/ (* 1 (pow (* 2 0) 1)) (pow (sqrt (+ (pow x.re 2) (pow x.im 2))) 1)))) 2) into 0
4.345 * [backup-simplify]: Simplify (+ (* 0 0) (+ (* 1 0) (* 0 (log (sqrt (+ (pow x.im 2) (pow x.re 2))))))) into 0
4.345 * [taylor]: Taking taylor expansion of 0 in x.re
4.345 * [backup-simplify]: Simplify 0 into 0
4.345 * [taylor]: Taking taylor expansion of 0 in x.im
4.345 * [backup-simplify]: Simplify 0 into 0
4.345 * [backup-simplify]: Simplify 0 into 0
4.345 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.im 1)))) 1) into 0
4.345 * [taylor]: Taking taylor expansion of 0 in x.im
4.345 * [backup-simplify]: Simplify 0 into 0
4.345 * [backup-simplify]: Simplify 0 into 0
4.345 * [taylor]: Taking taylor expansion of 0 in x.im
4.345 * [backup-simplify]: Simplify 0 into 0
4.345 * [backup-simplify]: Simplify 0 into 0
4.346 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow 1 1)))) 1) into 0
4.346 * [backup-simplify]: Simplify 0 into 0
4.346 * [backup-simplify]: Simplify (* (log x.im) (* 1 (* 1 y.re))) into (* y.re (log x.im))
4.346 * [backup-simplify]: Simplify (* (/ 1 y.re) (log (hypot (/ 1 x.re) (/ 1 x.im)))) into (/ (log (hypot (/ 1 x.re) (/ 1 x.im))) y.re)
4.346 * [approximate]: Taking taylor expansion of (/ (log (hypot (/ 1 x.re) (/ 1 x.im))) y.re) in (y.re x.re x.im) around 0
4.346 * [taylor]: Taking taylor expansion of (/ (log (hypot (/ 1 x.re) (/ 1 x.im))) y.re) in x.im
4.346 * [taylor]: Taking taylor expansion of (log (hypot (/ 1 x.re) (/ 1 x.im))) in x.im
4.346 * [taylor]: Taking taylor expansion of (hypot (/ 1 x.re) (/ 1 x.im)) in x.im
4.346 * [taylor]: Rewrote expression to (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))))
4.346 * [taylor]: Taking taylor expansion of (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))) in x.im
4.346 * [taylor]: Taking taylor expansion of (* (/ 1 x.re) (/ 1 x.re)) in x.im
4.346 * [taylor]: Taking taylor expansion of (/ 1 x.re) in x.im
4.346 * [taylor]: Taking taylor expansion of x.re in x.im
4.346 * [backup-simplify]: Simplify x.re into x.re
4.346 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.346 * [taylor]: Taking taylor expansion of (/ 1 x.re) in x.im
4.346 * [taylor]: Taking taylor expansion of x.re in x.im
4.346 * [backup-simplify]: Simplify x.re into x.re
4.346 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.346 * [taylor]: Taking taylor expansion of (* (/ 1 x.im) (/ 1 x.im)) in x.im
4.346 * [taylor]: Taking taylor expansion of (/ 1 x.im) in x.im
4.346 * [taylor]: Taking taylor expansion of x.im in x.im
4.346 * [backup-simplify]: Simplify 0 into 0
4.346 * [backup-simplify]: Simplify 1 into 1
4.347 * [backup-simplify]: Simplify (/ 1 1) into 1
4.347 * [taylor]: Taking taylor expansion of (/ 1 x.im) in x.im
4.347 * [taylor]: Taking taylor expansion of x.im in x.im
4.347 * [backup-simplify]: Simplify 0 into 0
4.347 * [backup-simplify]: Simplify 1 into 1
4.347 * [backup-simplify]: Simplify (/ 1 1) into 1
4.347 * [backup-simplify]: Simplify (* 1 1) into 1
4.348 * [backup-simplify]: Simplify (+ 0 1) into 1
4.348 * [backup-simplify]: Simplify (sqrt 1) into 1
4.348 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.349 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.349 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
4.349 * [backup-simplify]: Simplify (+ 0 0) into 0
4.350 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.350 * [backup-simplify]: Simplify (log 1) into 0
4.350 * [taylor]: Taking taylor expansion of y.re in x.im
4.350 * [backup-simplify]: Simplify y.re into y.re
4.350 * [backup-simplify]: Simplify (+ (* (- 1) (log x.im)) 0) into (- (log x.im))
4.350 * [backup-simplify]: Simplify (+ (* (- 1) (log x.im)) 0) into (- (log x.im))
4.351 * [backup-simplify]: Simplify (/ (- (log x.im)) y.re) into (* -1 (/ (log x.im) y.re))
4.351 * [taylor]: Taking taylor expansion of (/ (log (hypot (/ 1 x.re) (/ 1 x.im))) y.re) in x.re
4.351 * [taylor]: Taking taylor expansion of (log (hypot (/ 1 x.re) (/ 1 x.im))) in x.re
4.351 * [taylor]: Taking taylor expansion of (hypot (/ 1 x.re) (/ 1 x.im)) in x.re
4.351 * [taylor]: Rewrote expression to (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))))
4.351 * [taylor]: Taking taylor expansion of (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))) in x.re
4.351 * [taylor]: Taking taylor expansion of (* (/ 1 x.re) (/ 1 x.re)) in x.re
4.351 * [taylor]: Taking taylor expansion of (/ 1 x.re) in x.re
4.351 * [taylor]: Taking taylor expansion of x.re in x.re
4.351 * [backup-simplify]: Simplify 0 into 0
4.351 * [backup-simplify]: Simplify 1 into 1
4.351 * [backup-simplify]: Simplify (/ 1 1) into 1
4.351 * [taylor]: Taking taylor expansion of (/ 1 x.re) in x.re
4.351 * [taylor]: Taking taylor expansion of x.re in x.re
4.351 * [backup-simplify]: Simplify 0 into 0
4.351 * [backup-simplify]: Simplify 1 into 1
4.351 * [backup-simplify]: Simplify (/ 1 1) into 1
4.351 * [taylor]: Taking taylor expansion of (* (/ 1 x.im) (/ 1 x.im)) in x.re
4.351 * [taylor]: Taking taylor expansion of (/ 1 x.im) in x.re
4.351 * [taylor]: Taking taylor expansion of x.im in x.re
4.351 * [backup-simplify]: Simplify x.im into x.im
4.351 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.351 * [taylor]: Taking taylor expansion of (/ 1 x.im) in x.re
4.351 * [taylor]: Taking taylor expansion of x.im in x.re
4.351 * [backup-simplify]: Simplify x.im into x.im
4.351 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.352 * [backup-simplify]: Simplify (* 1 1) into 1
4.352 * [backup-simplify]: Simplify (+ 1 0) into 1
4.352 * [backup-simplify]: Simplify (sqrt 1) into 1
4.353 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.353 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.353 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
4.354 * [backup-simplify]: Simplify (+ 0 0) into 0
4.354 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.354 * [backup-simplify]: Simplify (log 1) into 0
4.354 * [taylor]: Taking taylor expansion of y.re in x.re
4.354 * [backup-simplify]: Simplify y.re into y.re
4.355 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.355 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.355 * [backup-simplify]: Simplify (/ (- (log x.re)) y.re) into (* -1 (/ (log x.re) y.re))
4.355 * [taylor]: Taking taylor expansion of (/ (log (hypot (/ 1 x.re) (/ 1 x.im))) y.re) in y.re
4.355 * [taylor]: Taking taylor expansion of (log (hypot (/ 1 x.re) (/ 1 x.im))) in y.re
4.355 * [taylor]: Taking taylor expansion of (hypot (/ 1 x.re) (/ 1 x.im)) in y.re
4.355 * [taylor]: Rewrote expression to (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))))
4.355 * [taylor]: Taking taylor expansion of (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))) in y.re
4.355 * [taylor]: Taking taylor expansion of (* (/ 1 x.re) (/ 1 x.re)) in y.re
4.355 * [taylor]: Taking taylor expansion of (/ 1 x.re) in y.re
4.355 * [taylor]: Taking taylor expansion of x.re in y.re
4.355 * [backup-simplify]: Simplify x.re into x.re
4.355 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.355 * [taylor]: Taking taylor expansion of (/ 1 x.re) in y.re
4.355 * [taylor]: Taking taylor expansion of x.re in y.re
4.355 * [backup-simplify]: Simplify x.re into x.re
4.355 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.355 * [taylor]: Taking taylor expansion of (* (/ 1 x.im) (/ 1 x.im)) in y.re
4.355 * [taylor]: Taking taylor expansion of (/ 1 x.im) in y.re
4.355 * [taylor]: Taking taylor expansion of x.im in y.re
4.355 * [backup-simplify]: Simplify x.im into x.im
4.355 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.355 * [taylor]: Taking taylor expansion of (/ 1 x.im) in y.re
4.355 * [taylor]: Taking taylor expansion of x.im in y.re
4.355 * [backup-simplify]: Simplify x.im into x.im
4.355 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.355 * [backup-simplify]: Simplify (* (/ 1 x.re) (/ 1 x.re)) into (/ 1 (pow x.re 2))
4.356 * [backup-simplify]: Simplify (* (/ 1 x.im) (/ 1 x.im)) into (/ 1 (pow x.im 2))
4.356 * [backup-simplify]: Simplify (+ (/ 1 (pow x.re 2)) (/ 1 (pow x.im 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
4.356 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
4.356 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)))) into 0
4.356 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)))) into 0
4.356 * [backup-simplify]: Simplify (+ (* (/ 1 x.re) 0) (* 0 (/ 1 x.re))) into 0
4.356 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)))) into 0
4.356 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)))) into 0
4.356 * [backup-simplify]: Simplify (+ (* (/ 1 x.im) 0) (* 0 (/ 1 x.im))) into 0
4.356 * [backup-simplify]: Simplify (+ 0 0) into 0
4.357 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.357 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.357 * [taylor]: Taking taylor expansion of y.re in y.re
4.357 * [backup-simplify]: Simplify 0 into 0
4.357 * [backup-simplify]: Simplify 1 into 1
4.357 * [backup-simplify]: Simplify (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) 1) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.357 * [taylor]: Taking taylor expansion of (/ (log (hypot (/ 1 x.re) (/ 1 x.im))) y.re) in y.re
4.357 * [taylor]: Taking taylor expansion of (log (hypot (/ 1 x.re) (/ 1 x.im))) in y.re
4.357 * [taylor]: Taking taylor expansion of (hypot (/ 1 x.re) (/ 1 x.im)) in y.re
4.357 * [taylor]: Rewrote expression to (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))))
4.357 * [taylor]: Taking taylor expansion of (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))) in y.re
4.357 * [taylor]: Taking taylor expansion of (* (/ 1 x.re) (/ 1 x.re)) in y.re
4.357 * [taylor]: Taking taylor expansion of (/ 1 x.re) in y.re
4.357 * [taylor]: Taking taylor expansion of x.re in y.re
4.357 * [backup-simplify]: Simplify x.re into x.re
4.357 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.357 * [taylor]: Taking taylor expansion of (/ 1 x.re) in y.re
4.357 * [taylor]: Taking taylor expansion of x.re in y.re
4.357 * [backup-simplify]: Simplify x.re into x.re
4.357 * [backup-simplify]: Simplify (/ 1 x.re) into (/ 1 x.re)
4.357 * [taylor]: Taking taylor expansion of (* (/ 1 x.im) (/ 1 x.im)) in y.re
4.357 * [taylor]: Taking taylor expansion of (/ 1 x.im) in y.re
4.357 * [taylor]: Taking taylor expansion of x.im in y.re
4.357 * [backup-simplify]: Simplify x.im into x.im
4.357 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.357 * [taylor]: Taking taylor expansion of (/ 1 x.im) in y.re
4.357 * [taylor]: Taking taylor expansion of x.im in y.re
4.357 * [backup-simplify]: Simplify x.im into x.im
4.357 * [backup-simplify]: Simplify (/ 1 x.im) into (/ 1 x.im)
4.357 * [backup-simplify]: Simplify (* (/ 1 x.re) (/ 1 x.re)) into (/ 1 (pow x.re 2))
4.357 * [backup-simplify]: Simplify (* (/ 1 x.im) (/ 1 x.im)) into (/ 1 (pow x.im 2))
4.357 * [backup-simplify]: Simplify (+ (/ 1 (pow x.re 2)) (/ 1 (pow x.im 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
4.358 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
4.358 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)))) into 0
4.358 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)))) into 0
4.358 * [backup-simplify]: Simplify (+ (* (/ 1 x.re) 0) (* 0 (/ 1 x.re))) into 0
4.358 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)))) into 0
4.358 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)))) into 0
4.358 * [backup-simplify]: Simplify (+ (* (/ 1 x.im) 0) (* 0 (/ 1 x.im))) into 0
4.358 * [backup-simplify]: Simplify (+ 0 0) into 0
4.358 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.358 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.358 * [taylor]: Taking taylor expansion of y.re in y.re
4.359 * [backup-simplify]: Simplify 0 into 0
4.359 * [backup-simplify]: Simplify 1 into 1
4.359 * [backup-simplify]: Simplify (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) 1) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.359 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in x.re
4.359 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
4.359 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
4.359 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
4.359 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
4.359 * [taylor]: Taking taylor expansion of x.im in x.re
4.359 * [backup-simplify]: Simplify x.im into x.im
4.359 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.359 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
4.359 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
4.359 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
4.359 * [taylor]: Taking taylor expansion of x.re in x.re
4.359 * [backup-simplify]: Simplify 0 into 0
4.359 * [backup-simplify]: Simplify 1 into 1
4.359 * [backup-simplify]: Simplify (* 1 1) into 1
4.359 * [backup-simplify]: Simplify (/ 1 1) into 1
4.360 * [backup-simplify]: Simplify (+ 0 1) into 1
4.360 * [backup-simplify]: Simplify (sqrt 1) into 1
4.360 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
4.361 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.361 * [backup-simplify]: Simplify (+ 0 0) into 0
4.361 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.362 * [backup-simplify]: Simplify (log 1) into 0
4.362 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.362 * [taylor]: Taking taylor expansion of (- (log x.re)) in x.im
4.362 * [taylor]: Taking taylor expansion of (log x.re) in x.im
4.362 * [taylor]: Taking taylor expansion of x.re in x.im
4.362 * [backup-simplify]: Simplify x.re into x.re
4.362 * [backup-simplify]: Simplify (log x.re) into (log x.re)
4.362 * [backup-simplify]: Simplify (- (log x.re)) into (- (log x.re))
4.362 * [backup-simplify]: Simplify (- (log x.re)) into (- (log x.re))
4.363 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) 1)))) 1) into 0
4.363 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) (/ 0 1)))) into 0
4.363 * [taylor]: Taking taylor expansion of 0 in x.re
4.363 * [backup-simplify]: Simplify 0 into 0
4.363 * [taylor]: Taking taylor expansion of 0 in x.im
4.363 * [backup-simplify]: Simplify 0 into 0
4.364 * [backup-simplify]: Simplify 0 into 0
4.364 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow 1 1)))) 1) into 0
4.364 * [taylor]: Taking taylor expansion of 0 in x.im
4.364 * [backup-simplify]: Simplify 0 into 0
4.364 * [backup-simplify]: Simplify 0 into 0
4.365 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.re 1)))) 1) into 0
4.365 * [backup-simplify]: Simplify (- 0) into 0
4.365 * [backup-simplify]: Simplify 0 into 0
4.365 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)) (* 0 (/ 0 x.re)))) into 0
4.365 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.re) (/ 0 x.re)) (* 0 (/ 0 x.re)))) into 0
4.366 * [backup-simplify]: Simplify (+ (* (/ 1 x.re) 0) (+ (* 0 0) (* 0 (/ 1 x.re)))) into 0
4.366 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)) (* 0 (/ 0 x.im)))) into 0
4.366 * [backup-simplify]: Simplify (- (+ (* (/ 1 x.im) (/ 0 x.im)) (* 0 (/ 0 x.im)))) into 0
4.366 * [backup-simplify]: Simplify (+ (* (/ 1 x.im) 0) (+ (* 0 0) (* 0 (/ 1 x.im)))) into 0
4.366 * [backup-simplify]: Simplify (+ 0 0) into 0
4.367 * [backup-simplify]: Simplify (/ (- 0 (pow 0 2) (+)) (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.368 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) 2))) (* 1 (/ (* 1 (pow (* 2 0) 1)) (pow (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) 1)))) 2) into 0
4.369 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) (/ 0 1)) (* 0 (/ 0 1)))) into 0
4.369 * [taylor]: Taking taylor expansion of 0 in x.re
4.369 * [backup-simplify]: Simplify 0 into 0
4.369 * [taylor]: Taking taylor expansion of 0 in x.im
4.369 * [backup-simplify]: Simplify 0 into 0
4.369 * [backup-simplify]: Simplify 0 into 0
4.369 * [taylor]: Taking taylor expansion of 0 in x.im
4.369 * [backup-simplify]: Simplify 0 into 0
4.369 * [backup-simplify]: Simplify 0 into 0
4.369 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
4.370 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)))) into 0
4.370 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) 0) into (/ 1 (pow x.im 2))
4.371 * [backup-simplify]: Simplify (/ (- (/ 1 (pow x.im 2)) (pow 0 2) (+)) (* 2 1)) into (/ 1/2 (pow x.im 2))
4.372 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow 1 2))) (* 1 (/ (* 1 (pow (* 2 (/ 1/2 (pow x.im 2))) 1)) (pow 1 1)))) 2) into (/ 1/2 (pow x.im 2))
4.372 * [taylor]: Taking taylor expansion of (/ 1/2 (pow x.im 2)) in x.im
4.372 * [taylor]: Taking taylor expansion of 1/2 in x.im
4.372 * [backup-simplify]: Simplify 1/2 into 1/2
4.372 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
4.372 * [taylor]: Taking taylor expansion of x.im in x.im
4.372 * [backup-simplify]: Simplify 0 into 0
4.372 * [backup-simplify]: Simplify 1 into 1
4.372 * [backup-simplify]: Simplify (* 1 1) into 1
4.373 * [backup-simplify]: Simplify (/ 1/2 1) into 1/2
4.373 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
4.374 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
4.374 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)))) into 0
4.375 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)) (* 0 (/ 0 1)))) into 0
4.375 * [backup-simplify]: Simplify 0 into 0
4.375 * [backup-simplify]: Simplify (* (- (log (/ 1 x.re))) (* 1 (* 1 (/ 1 (/ 1 y.re))))) into (* -1 (* y.re (log (/ 1 x.re))))
4.375 * [backup-simplify]: Simplify (* (/ 1 (- y.re)) (log (hypot (/ 1 (- x.re)) (/ 1 (- x.im))))) into (* -1 (/ (log (hypot (/ -1 x.re) (/ -1 x.im))) y.re))
4.375 * [approximate]: Taking taylor expansion of (* -1 (/ (log (hypot (/ -1 x.re) (/ -1 x.im))) y.re)) in (y.re x.re x.im) around 0
4.375 * [taylor]: Taking taylor expansion of (* -1 (/ (log (hypot (/ -1 x.re) (/ -1 x.im))) y.re)) in x.im
4.375 * [taylor]: Taking taylor expansion of -1 in x.im
4.375 * [backup-simplify]: Simplify -1 into -1
4.375 * [taylor]: Taking taylor expansion of (/ (log (hypot (/ -1 x.re) (/ -1 x.im))) y.re) in x.im
4.375 * [taylor]: Taking taylor expansion of (log (hypot (/ -1 x.re) (/ -1 x.im))) in x.im
4.375 * [taylor]: Taking taylor expansion of (hypot (/ -1 x.re) (/ -1 x.im)) in x.im
4.375 * [taylor]: Rewrote expression to (sqrt (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))))
4.375 * [taylor]: Taking taylor expansion of (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))) in x.im
4.375 * [taylor]: Taking taylor expansion of (* (/ -1 x.re) (/ -1 x.re)) in x.im
4.375 * [taylor]: Taking taylor expansion of (/ -1 x.re) in x.im
4.375 * [taylor]: Taking taylor expansion of -1 in x.im
4.375 * [backup-simplify]: Simplify -1 into -1
4.375 * [taylor]: Taking taylor expansion of x.re in x.im
4.375 * [backup-simplify]: Simplify x.re into x.re
4.375 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.375 * [taylor]: Taking taylor expansion of (/ -1 x.re) in x.im
4.375 * [taylor]: Taking taylor expansion of -1 in x.im
4.375 * [backup-simplify]: Simplify -1 into -1
4.375 * [taylor]: Taking taylor expansion of x.re in x.im
4.375 * [backup-simplify]: Simplify x.re into x.re
4.375 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.375 * [taylor]: Taking taylor expansion of (* (/ -1 x.im) (/ -1 x.im)) in x.im
4.375 * [taylor]: Taking taylor expansion of (/ -1 x.im) in x.im
4.375 * [taylor]: Taking taylor expansion of -1 in x.im
4.375 * [backup-simplify]: Simplify -1 into -1
4.375 * [taylor]: Taking taylor expansion of x.im in x.im
4.375 * [backup-simplify]: Simplify 0 into 0
4.375 * [backup-simplify]: Simplify 1 into 1
4.376 * [backup-simplify]: Simplify (/ -1 1) into -1
4.376 * [taylor]: Taking taylor expansion of (/ -1 x.im) in x.im
4.376 * [taylor]: Taking taylor expansion of -1 in x.im
4.376 * [backup-simplify]: Simplify -1 into -1
4.376 * [taylor]: Taking taylor expansion of x.im in x.im
4.376 * [backup-simplify]: Simplify 0 into 0
4.376 * [backup-simplify]: Simplify 1 into 1
4.376 * [backup-simplify]: Simplify (/ -1 1) into -1
4.376 * [backup-simplify]: Simplify (* -1 -1) into 1
4.377 * [backup-simplify]: Simplify (+ 0 1) into 1
4.377 * [backup-simplify]: Simplify (sqrt 1) into 1
4.377 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* -1 (/ 0 1)))) into 0
4.378 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* -1 (/ 0 1)))) into 0
4.378 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 -1)) into 0
4.378 * [backup-simplify]: Simplify (+ 0 0) into 0
4.379 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.379 * [backup-simplify]: Simplify (log 1) into 0
4.379 * [taylor]: Taking taylor expansion of y.re in x.im
4.379 * [backup-simplify]: Simplify y.re into y.re
4.379 * [backup-simplify]: Simplify (+ (* (- 1) (log x.im)) 0) into (- (log x.im))
4.380 * [backup-simplify]: Simplify (+ (* (- 1) (log x.im)) 0) into (- (log x.im))
4.380 * [backup-simplify]: Simplify (/ (- (log x.im)) y.re) into (* -1 (/ (log x.im) y.re))
4.380 * [taylor]: Taking taylor expansion of (* -1 (/ (log (hypot (/ -1 x.re) (/ -1 x.im))) y.re)) in x.re
4.380 * [taylor]: Taking taylor expansion of -1 in x.re
4.380 * [backup-simplify]: Simplify -1 into -1
4.380 * [taylor]: Taking taylor expansion of (/ (log (hypot (/ -1 x.re) (/ -1 x.im))) y.re) in x.re
4.380 * [taylor]: Taking taylor expansion of (log (hypot (/ -1 x.re) (/ -1 x.im))) in x.re
4.380 * [taylor]: Taking taylor expansion of (hypot (/ -1 x.re) (/ -1 x.im)) in x.re
4.380 * [taylor]: Rewrote expression to (sqrt (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))))
4.380 * [taylor]: Taking taylor expansion of (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))) in x.re
4.380 * [taylor]: Taking taylor expansion of (* (/ -1 x.re) (/ -1 x.re)) in x.re
4.380 * [taylor]: Taking taylor expansion of (/ -1 x.re) in x.re
4.380 * [taylor]: Taking taylor expansion of -1 in x.re
4.380 * [backup-simplify]: Simplify -1 into -1
4.380 * [taylor]: Taking taylor expansion of x.re in x.re
4.380 * [backup-simplify]: Simplify 0 into 0
4.380 * [backup-simplify]: Simplify 1 into 1
4.380 * [backup-simplify]: Simplify (/ -1 1) into -1
4.380 * [taylor]: Taking taylor expansion of (/ -1 x.re) in x.re
4.380 * [taylor]: Taking taylor expansion of -1 in x.re
4.380 * [backup-simplify]: Simplify -1 into -1
4.380 * [taylor]: Taking taylor expansion of x.re in x.re
4.380 * [backup-simplify]: Simplify 0 into 0
4.380 * [backup-simplify]: Simplify 1 into 1
4.381 * [backup-simplify]: Simplify (/ -1 1) into -1
4.381 * [taylor]: Taking taylor expansion of (* (/ -1 x.im) (/ -1 x.im)) in x.re
4.381 * [taylor]: Taking taylor expansion of (/ -1 x.im) in x.re
4.381 * [taylor]: Taking taylor expansion of -1 in x.re
4.381 * [backup-simplify]: Simplify -1 into -1
4.381 * [taylor]: Taking taylor expansion of x.im in x.re
4.381 * [backup-simplify]: Simplify x.im into x.im
4.381 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.381 * [taylor]: Taking taylor expansion of (/ -1 x.im) in x.re
4.381 * [taylor]: Taking taylor expansion of -1 in x.re
4.381 * [backup-simplify]: Simplify -1 into -1
4.381 * [taylor]: Taking taylor expansion of x.im in x.re
4.381 * [backup-simplify]: Simplify x.im into x.im
4.381 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.381 * [backup-simplify]: Simplify (* -1 -1) into 1
4.382 * [backup-simplify]: Simplify (+ 1 0) into 1
4.382 * [backup-simplify]: Simplify (sqrt 1) into 1
4.384 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* -1 (/ 0 1)))) into 0
4.384 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* -1 (/ 0 1)))) into 0
4.385 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 -1)) into 0
4.385 * [backup-simplify]: Simplify (+ 0 0) into 0
4.385 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.386 * [backup-simplify]: Simplify (log 1) into 0
4.386 * [taylor]: Taking taylor expansion of y.re in x.re
4.386 * [backup-simplify]: Simplify y.re into y.re
4.386 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.386 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.386 * [backup-simplify]: Simplify (/ (- (log x.re)) y.re) into (* -1 (/ (log x.re) y.re))
4.386 * [taylor]: Taking taylor expansion of (* -1 (/ (log (hypot (/ -1 x.re) (/ -1 x.im))) y.re)) in y.re
4.386 * [taylor]: Taking taylor expansion of -1 in y.re
4.386 * [backup-simplify]: Simplify -1 into -1
4.386 * [taylor]: Taking taylor expansion of (/ (log (hypot (/ -1 x.re) (/ -1 x.im))) y.re) in y.re
4.386 * [taylor]: Taking taylor expansion of (log (hypot (/ -1 x.re) (/ -1 x.im))) in y.re
4.386 * [taylor]: Taking taylor expansion of (hypot (/ -1 x.re) (/ -1 x.im)) in y.re
4.386 * [taylor]: Rewrote expression to (sqrt (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))))
4.386 * [taylor]: Taking taylor expansion of (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))) in y.re
4.386 * [taylor]: Taking taylor expansion of (* (/ -1 x.re) (/ -1 x.re)) in y.re
4.387 * [taylor]: Taking taylor expansion of (/ -1 x.re) in y.re
4.387 * [taylor]: Taking taylor expansion of -1 in y.re
4.387 * [backup-simplify]: Simplify -1 into -1
4.387 * [taylor]: Taking taylor expansion of x.re in y.re
4.387 * [backup-simplify]: Simplify x.re into x.re
4.387 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.387 * [taylor]: Taking taylor expansion of (/ -1 x.re) in y.re
4.387 * [taylor]: Taking taylor expansion of -1 in y.re
4.387 * [backup-simplify]: Simplify -1 into -1
4.387 * [taylor]: Taking taylor expansion of x.re in y.re
4.387 * [backup-simplify]: Simplify x.re into x.re
4.387 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.387 * [taylor]: Taking taylor expansion of (* (/ -1 x.im) (/ -1 x.im)) in y.re
4.387 * [taylor]: Taking taylor expansion of (/ -1 x.im) in y.re
4.387 * [taylor]: Taking taylor expansion of -1 in y.re
4.387 * [backup-simplify]: Simplify -1 into -1
4.387 * [taylor]: Taking taylor expansion of x.im in y.re
4.387 * [backup-simplify]: Simplify x.im into x.im
4.387 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.387 * [taylor]: Taking taylor expansion of (/ -1 x.im) in y.re
4.387 * [taylor]: Taking taylor expansion of -1 in y.re
4.387 * [backup-simplify]: Simplify -1 into -1
4.387 * [taylor]: Taking taylor expansion of x.im in y.re
4.387 * [backup-simplify]: Simplify x.im into x.im
4.387 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.387 * [backup-simplify]: Simplify (* (/ -1 x.re) (/ -1 x.re)) into (/ 1 (pow x.re 2))
4.387 * [backup-simplify]: Simplify (* (/ -1 x.im) (/ -1 x.im)) into (/ 1 (pow x.im 2))
4.387 * [backup-simplify]: Simplify (+ (/ 1 (pow x.re 2)) (/ 1 (pow x.im 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
4.387 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
4.387 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)))) into 0
4.387 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)))) into 0
4.387 * [backup-simplify]: Simplify (+ (* (/ -1 x.re) 0) (* 0 (/ -1 x.re))) into 0
4.388 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)))) into 0
4.388 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)))) into 0
4.388 * [backup-simplify]: Simplify (+ (* (/ -1 x.im) 0) (* 0 (/ -1 x.im))) into 0
4.388 * [backup-simplify]: Simplify (+ 0 0) into 0
4.388 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.388 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.388 * [taylor]: Taking taylor expansion of y.re in y.re
4.388 * [backup-simplify]: Simplify 0 into 0
4.388 * [backup-simplify]: Simplify 1 into 1
4.388 * [backup-simplify]: Simplify (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) 1) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.388 * [taylor]: Taking taylor expansion of (* -1 (/ (log (hypot (/ -1 x.re) (/ -1 x.im))) y.re)) in y.re
4.388 * [taylor]: Taking taylor expansion of -1 in y.re
4.388 * [backup-simplify]: Simplify -1 into -1
4.388 * [taylor]: Taking taylor expansion of (/ (log (hypot (/ -1 x.re) (/ -1 x.im))) y.re) in y.re
4.388 * [taylor]: Taking taylor expansion of (log (hypot (/ -1 x.re) (/ -1 x.im))) in y.re
4.388 * [taylor]: Taking taylor expansion of (hypot (/ -1 x.re) (/ -1 x.im)) in y.re
4.389 * [taylor]: Rewrote expression to (sqrt (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))))
4.389 * [taylor]: Taking taylor expansion of (+ (* (/ -1 x.re) (/ -1 x.re)) (* (/ -1 x.im) (/ -1 x.im))) in y.re
4.389 * [taylor]: Taking taylor expansion of (* (/ -1 x.re) (/ -1 x.re)) in y.re
4.389 * [taylor]: Taking taylor expansion of (/ -1 x.re) in y.re
4.389 * [taylor]: Taking taylor expansion of -1 in y.re
4.389 * [backup-simplify]: Simplify -1 into -1
4.389 * [taylor]: Taking taylor expansion of x.re in y.re
4.389 * [backup-simplify]: Simplify x.re into x.re
4.389 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.389 * [taylor]: Taking taylor expansion of (/ -1 x.re) in y.re
4.389 * [taylor]: Taking taylor expansion of -1 in y.re
4.389 * [backup-simplify]: Simplify -1 into -1
4.389 * [taylor]: Taking taylor expansion of x.re in y.re
4.389 * [backup-simplify]: Simplify x.re into x.re
4.389 * [backup-simplify]: Simplify (/ -1 x.re) into (/ -1 x.re)
4.389 * [taylor]: Taking taylor expansion of (* (/ -1 x.im) (/ -1 x.im)) in y.re
4.389 * [taylor]: Taking taylor expansion of (/ -1 x.im) in y.re
4.389 * [taylor]: Taking taylor expansion of -1 in y.re
4.389 * [backup-simplify]: Simplify -1 into -1
4.389 * [taylor]: Taking taylor expansion of x.im in y.re
4.389 * [backup-simplify]: Simplify x.im into x.im
4.389 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.389 * [taylor]: Taking taylor expansion of (/ -1 x.im) in y.re
4.389 * [taylor]: Taking taylor expansion of -1 in y.re
4.389 * [backup-simplify]: Simplify -1 into -1
4.389 * [taylor]: Taking taylor expansion of x.im in y.re
4.389 * [backup-simplify]: Simplify x.im into x.im
4.389 * [backup-simplify]: Simplify (/ -1 x.im) into (/ -1 x.im)
4.389 * [backup-simplify]: Simplify (* (/ -1 x.re) (/ -1 x.re)) into (/ 1 (pow x.re 2))
4.389 * [backup-simplify]: Simplify (* (/ -1 x.im) (/ -1 x.im)) into (/ 1 (pow x.im 2))
4.389 * [backup-simplify]: Simplify (+ (/ 1 (pow x.re 2)) (/ 1 (pow x.im 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
4.390 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
4.390 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)))) into 0
4.390 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)))) into 0
4.390 * [backup-simplify]: Simplify (+ (* (/ -1 x.re) 0) (* 0 (/ -1 x.re))) into 0
4.390 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)))) into 0
4.390 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)))) into 0
4.390 * [backup-simplify]: Simplify (+ (* (/ -1 x.im) 0) (* 0 (/ -1 x.im))) into 0
4.390 * [backup-simplify]: Simplify (+ 0 0) into 0
4.391 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.391 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.391 * [taylor]: Taking taylor expansion of y.re in y.re
4.391 * [backup-simplify]: Simplify 0 into 0
4.391 * [backup-simplify]: Simplify 1 into 1
4.391 * [backup-simplify]: Simplify (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) 1) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
4.391 * [backup-simplify]: Simplify (* -1 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into (* -1 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))))
4.391 * [taylor]: Taking taylor expansion of (* -1 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) in x.re
4.391 * [taylor]: Taking taylor expansion of -1 in x.re
4.391 * [backup-simplify]: Simplify -1 into -1
4.391 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in x.re
4.391 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
4.391 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
4.391 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
4.391 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
4.391 * [taylor]: Taking taylor expansion of x.im in x.re
4.391 * [backup-simplify]: Simplify x.im into x.im
4.391 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
4.391 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
4.391 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
4.391 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
4.391 * [taylor]: Taking taylor expansion of x.re in x.re
4.391 * [backup-simplify]: Simplify 0 into 0
4.391 * [backup-simplify]: Simplify 1 into 1
4.392 * [backup-simplify]: Simplify (* 1 1) into 1
4.392 * [backup-simplify]: Simplify (/ 1 1) into 1
4.392 * [backup-simplify]: Simplify (+ 0 1) into 1
4.392 * [backup-simplify]: Simplify (sqrt 1) into 1
4.393 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
4.393 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.393 * [backup-simplify]: Simplify (+ 0 0) into 0
4.394 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
4.394 * [backup-simplify]: Simplify (log 1) into 0
4.394 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.394 * [backup-simplify]: Simplify (* -1 (- (log x.re))) into (log x.re)
4.394 * [taylor]: Taking taylor expansion of (log x.re) in x.im
4.394 * [taylor]: Taking taylor expansion of x.re in x.im
4.394 * [backup-simplify]: Simplify x.re into x.re
4.395 * [backup-simplify]: Simplify (log x.re) into (log x.re)
4.395 * [backup-simplify]: Simplify (log x.re) into (log x.re)
4.395 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) 1)))) 1) into 0
4.396 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) (/ 0 1)))) into 0
4.396 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))))) into 0
4.396 * [taylor]: Taking taylor expansion of 0 in x.re
4.396 * [backup-simplify]: Simplify 0 into 0
4.396 * [taylor]: Taking taylor expansion of 0 in x.im
4.396 * [backup-simplify]: Simplify 0 into 0
4.396 * [backup-simplify]: Simplify 0 into 0
4.397 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow 1 1)))) 1) into 0
4.397 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.398 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (- (log x.re)))) into 0
4.398 * [taylor]: Taking taylor expansion of 0 in x.im
4.398 * [backup-simplify]: Simplify 0 into 0
4.398 * [backup-simplify]: Simplify 0 into 0
4.398 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.re 1)))) 1) into 0
4.398 * [backup-simplify]: Simplify 0 into 0
4.398 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)) (* 0 (/ 0 x.re)))) into 0
4.398 * [backup-simplify]: Simplify (- (/ 0 x.re) (+ (* (/ -1 x.re) (/ 0 x.re)) (* 0 (/ 0 x.re)))) into 0
4.399 * [backup-simplify]: Simplify (+ (* (/ -1 x.re) 0) (+ (* 0 0) (* 0 (/ -1 x.re)))) into 0
4.399 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)) (* 0 (/ 0 x.im)))) into 0
4.399 * [backup-simplify]: Simplify (- (/ 0 x.im) (+ (* (/ -1 x.im) (/ 0 x.im)) (* 0 (/ 0 x.im)))) into 0
4.399 * [backup-simplify]: Simplify (+ (* (/ -1 x.im) 0) (+ (* 0 0) (* 0 (/ -1 x.im)))) into 0
4.399 * [backup-simplify]: Simplify (+ 0 0) into 0
4.400 * [backup-simplify]: Simplify (/ (- 0 (pow 0 2) (+)) (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
4.402 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) 2))) (* 1 (/ (* 1 (pow (* 2 0) 1)) (pow (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) 1)))) 2) into 0
4.404 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) (/ 0 1)) (* 0 (/ 0 1)))) into 0
4.405 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (* 0 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))))) into 0
4.405 * [taylor]: Taking taylor expansion of 0 in x.re
4.405 * [backup-simplify]: Simplify 0 into 0
4.405 * [taylor]: Taking taylor expansion of 0 in x.im
4.405 * [backup-simplify]: Simplify 0 into 0
4.405 * [backup-simplify]: Simplify 0 into 0
4.405 * [taylor]: Taking taylor expansion of 0 in x.im
4.405 * [backup-simplify]: Simplify 0 into 0
4.405 * [backup-simplify]: Simplify 0 into 0
4.406 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
4.407 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)))) into 0
4.407 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) 0) into (/ 1 (pow x.im 2))
4.408 * [backup-simplify]: Simplify (/ (- (/ 1 (pow x.im 2)) (pow 0 2) (+)) (* 2 1)) into (/ 1/2 (pow x.im 2))
4.410 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow 1 2))) (* 1 (/ (* 1 (pow (* 2 (/ 1/2 (pow x.im 2))) 1)) (pow 1 1)))) 2) into (/ 1/2 (pow x.im 2))
4.410 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
4.411 * [backup-simplify]: Simplify (+ (* -1 (/ 1/2 (pow x.im 2))) (+ (* 0 0) (* 0 (- (log x.re))))) into (- (* 1/2 (/ 1 (pow x.im 2))))
4.411 * [taylor]: Taking taylor expansion of (- (* 1/2 (/ 1 (pow x.im 2)))) in x.im
4.411 * [taylor]: Taking taylor expansion of (* 1/2 (/ 1 (pow x.im 2))) in x.im
4.411 * [taylor]: Taking taylor expansion of 1/2 in x.im
4.411 * [backup-simplify]: Simplify 1/2 into 1/2
4.411 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.im
4.411 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
4.411 * [taylor]: Taking taylor expansion of x.im in x.im
4.411 * [backup-simplify]: Simplify 0 into 0
4.411 * [backup-simplify]: Simplify 1 into 1
4.411 * [backup-simplify]: Simplify (* 1 1) into 1
4.412 * [backup-simplify]: Simplify (/ 1 1) into 1
4.413 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
4.413 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
4.414 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
4.415 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)))) into 0
4.416 * [backup-simplify]: Simplify (+ (* 1/2 0) (+ (* 0 0) (* 0 1))) into 0
4.416 * [backup-simplify]: Simplify (- 0) into 0
4.416 * [backup-simplify]: Simplify 0 into 0
4.416 * [backup-simplify]: Simplify (* (log (/ 1 (- x.re))) (* 1 (* 1 (/ 1 (/ 1 (- y.re)))))) into (* -1 (* y.re (log (/ -1 x.re))))
4.416 * * * * [progress]: [ 4 / 4 ] generating series at (2 1 1 3)
4.416 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.416 * [approximate]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in (x.im x.re y.re) around 0
4.416 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.re
4.416 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.re
4.416 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.417 * [taylor]: Taking taylor expansion of y.re in y.re
4.417 * [backup-simplify]: Simplify 0 into 0
4.417 * [backup-simplify]: Simplify 1 into 1
4.417 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.re
4.417 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
4.417 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.417 * [taylor]: Taking taylor expansion of y.re in x.re
4.417 * [backup-simplify]: Simplify y.re into y.re
4.417 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.im
4.417 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
4.417 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.417 * [taylor]: Taking taylor expansion of y.re in x.im
4.417 * [backup-simplify]: Simplify y.re into y.re
4.417 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.im
4.417 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
4.417 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.417 * [taylor]: Taking taylor expansion of y.re in x.im
4.417 * [backup-simplify]: Simplify y.re into y.re
4.417 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.417 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.re
4.417 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
4.417 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.417 * [taylor]: Taking taylor expansion of y.re in x.re
4.417 * [backup-simplify]: Simplify y.re into y.re
4.417 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
4.417 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.re
4.417 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.re
4.417 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.417 * [taylor]: Taking taylor expansion of y.re in y.re
4.417 * [backup-simplify]: Simplify 0 into 0
4.417 * [backup-simplify]: Simplify 1 into 1
4.417 * [backup-simplify]: Simplify (* (atan2 x.im x.re) 0) into 0
4.417 * [backup-simplify]: Simplify 0 into 0
4.417 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (* 0 y.re)) into 0
4.417 * [taylor]: Taking taylor expansion of 0 in x.re
4.417 * [backup-simplify]: Simplify 0 into 0
4.417 * [taylor]: Taking taylor expansion of 0 in y.re
4.417 * [backup-simplify]: Simplify 0 into 0
4.417 * [backup-simplify]: Simplify 0 into 0
4.417 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (* 0 y.re)) into 0
4.417 * [taylor]: Taking taylor expansion of 0 in y.re
4.417 * [backup-simplify]: Simplify 0 into 0
4.417 * [backup-simplify]: Simplify 0 into 0
4.418 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 1) (* 0 0)) into (atan2 x.im x.re)
4.418 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
4.418 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (+ (* 0 0) (* 0 y.re))) into 0
4.418 * [taylor]: Taking taylor expansion of 0 in x.re
4.418 * [backup-simplify]: Simplify 0 into 0
4.418 * [taylor]: Taking taylor expansion of 0 in y.re
4.418 * [backup-simplify]: Simplify 0 into 0
4.418 * [backup-simplify]: Simplify 0 into 0
4.418 * [taylor]: Taking taylor expansion of 0 in y.re
4.418 * [backup-simplify]: Simplify 0 into 0
4.418 * [backup-simplify]: Simplify 0 into 0
4.419 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (+ (* 0 0) (* 0 y.re))) into 0
4.419 * [taylor]: Taking taylor expansion of 0 in y.re
4.419 * [backup-simplify]: Simplify 0 into 0
4.419 * [backup-simplify]: Simplify 0 into 0
4.419 * [backup-simplify]: Simplify 0 into 0
4.419 * [backup-simplify]: Simplify 0 into 0
4.419 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (+ (* 0 1) (* 0 0))) into 0
4.419 * [backup-simplify]: Simplify 0 into 0
4.419 * [backup-simplify]: Simplify (* (atan2 x.im x.re) (* y.re (* 1 1))) into (* (atan2 x.im x.re) y.re)
4.420 * [backup-simplify]: Simplify (* (atan2 (/ 1 x.im) (/ 1 x.re)) (/ 1 y.re)) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
4.420 * [approximate]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in (x.im x.re y.re) around 0
4.420 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in y.re
4.420 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.re
4.420 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.420 * [taylor]: Taking taylor expansion of y.re in y.re
4.420 * [backup-simplify]: Simplify 0 into 0
4.420 * [backup-simplify]: Simplify 1 into 1
4.420 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) 1) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.420 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.re
4.420 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.re
4.420 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.420 * [taylor]: Taking taylor expansion of y.re in x.re
4.420 * [backup-simplify]: Simplify y.re into y.re
4.420 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
4.420 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.im
4.420 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.im
4.420 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.420 * [taylor]: Taking taylor expansion of y.re in x.im
4.420 * [backup-simplify]: Simplify y.re into y.re
4.420 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
4.420 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.im
4.420 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.im
4.420 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.420 * [taylor]: Taking taylor expansion of y.re in x.im
4.420 * [backup-simplify]: Simplify y.re into y.re
4.420 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
4.420 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.re
4.420 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.re
4.420 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.420 * [taylor]: Taking taylor expansion of y.re in x.re
4.420 * [backup-simplify]: Simplify y.re into y.re
4.421 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
4.421 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in y.re
4.421 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.re
4.421 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.421 * [taylor]: Taking taylor expansion of y.re in y.re
4.421 * [backup-simplify]: Simplify 0 into 0
4.421 * [backup-simplify]: Simplify 1 into 1
4.421 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) 1) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.421 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
4.421 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)))) into 0
4.421 * [taylor]: Taking taylor expansion of 0 in x.re
4.421 * [backup-simplify]: Simplify 0 into 0
4.421 * [taylor]: Taking taylor expansion of 0 in y.re
4.421 * [backup-simplify]: Simplify 0 into 0
4.421 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)))) into 0
4.421 * [taylor]: Taking taylor expansion of 0 in y.re
4.421 * [backup-simplify]: Simplify 0 into 0
4.422 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ 1 x.im) (/ 1 x.re)) (/ 0 1)))) into 0
4.422 * [backup-simplify]: Simplify 0 into 0
4.422 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
4.422 * [taylor]: Taking taylor expansion of 0 in x.re
4.422 * [backup-simplify]: Simplify 0 into 0
4.422 * [taylor]: Taking taylor expansion of 0 in y.re
4.422 * [backup-simplify]: Simplify 0 into 0
4.422 * [taylor]: Taking taylor expansion of 0 in y.re
4.422 * [backup-simplify]: Simplify 0 into 0
4.422 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
4.422 * [taylor]: Taking taylor expansion of 0 in y.re
4.422 * [backup-simplify]: Simplify 0 into 0
4.422 * [backup-simplify]: Simplify 0 into 0
4.422 * [backup-simplify]: Simplify 0 into 0
4.423 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ 1 x.im) (/ 1 x.re)) (/ 0 1)) (* 0 (/ 0 1)))) into 0
4.423 * [backup-simplify]: Simplify 0 into 0
4.423 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
4.423 * [taylor]: Taking taylor expansion of 0 in x.re
4.423 * [backup-simplify]: Simplify 0 into 0
4.423 * [taylor]: Taking taylor expansion of 0 in y.re
4.423 * [backup-simplify]: Simplify 0 into 0
4.423 * [taylor]: Taking taylor expansion of 0 in y.re
4.423 * [backup-simplify]: Simplify 0 into 0
4.423 * [taylor]: Taking taylor expansion of 0 in y.re
4.423 * [backup-simplify]: Simplify 0 into 0
4.424 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
4.424 * [taylor]: Taking taylor expansion of 0 in y.re
4.424 * [backup-simplify]: Simplify 0 into 0
4.424 * [backup-simplify]: Simplify 0 into 0
4.424 * [backup-simplify]: Simplify 0 into 0
4.424 * [backup-simplify]: Simplify (* (atan2 (/ 1 (/ 1 x.im)) (/ 1 (/ 1 x.re))) (* (/ 1 (/ 1 y.re)) (* 1 1))) into (* (atan2 x.im x.re) y.re)
4.424 * [backup-simplify]: Simplify (* (atan2 (/ 1 (- x.im)) (/ 1 (- x.re))) (/ 1 (- y.re))) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
4.424 * [approximate]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in (x.im x.re y.re) around 0
4.424 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in y.re
4.424 * [taylor]: Taking taylor expansion of -1 in y.re
4.424 * [backup-simplify]: Simplify -1 into -1
4.424 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in y.re
4.424 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.re
4.424 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.424 * [taylor]: Taking taylor expansion of y.re in y.re
4.424 * [backup-simplify]: Simplify 0 into 0
4.424 * [backup-simplify]: Simplify 1 into 1
4.424 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) 1) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.424 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in x.re
4.425 * [taylor]: Taking taylor expansion of -1 in x.re
4.425 * [backup-simplify]: Simplify -1 into -1
4.425 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.re
4.425 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.re
4.425 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.425 * [taylor]: Taking taylor expansion of y.re in x.re
4.425 * [backup-simplify]: Simplify y.re into y.re
4.425 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
4.425 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in x.im
4.425 * [taylor]: Taking taylor expansion of -1 in x.im
4.425 * [backup-simplify]: Simplify -1 into -1
4.425 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.im
4.425 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.im
4.425 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.425 * [taylor]: Taking taylor expansion of y.re in x.im
4.425 * [backup-simplify]: Simplify y.re into y.re
4.425 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
4.425 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in x.im
4.425 * [taylor]: Taking taylor expansion of -1 in x.im
4.425 * [backup-simplify]: Simplify -1 into -1
4.425 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.im
4.425 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.im
4.425 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.425 * [taylor]: Taking taylor expansion of y.re in x.im
4.425 * [backup-simplify]: Simplify y.re into y.re
4.425 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
4.425 * [backup-simplify]: Simplify (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
4.425 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in x.re
4.425 * [taylor]: Taking taylor expansion of -1 in x.re
4.425 * [backup-simplify]: Simplify -1 into -1
4.425 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.re
4.425 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.re
4.425 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.425 * [taylor]: Taking taylor expansion of y.re in x.re
4.425 * [backup-simplify]: Simplify y.re into y.re
4.425 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
4.426 * [backup-simplify]: Simplify (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
4.426 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in y.re
4.426 * [taylor]: Taking taylor expansion of -1 in y.re
4.426 * [backup-simplify]: Simplify -1 into -1
4.426 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in y.re
4.426 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.re
4.426 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.426 * [taylor]: Taking taylor expansion of y.re in y.re
4.426 * [backup-simplify]: Simplify 0 into 0
4.426 * [backup-simplify]: Simplify 1 into 1
4.426 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) 1) into (atan2 (/ -1 x.im) (/ -1 x.re))
4.426 * [backup-simplify]: Simplify (* -1 (atan2 (/ -1 x.im) (/ -1 x.re))) into (* -1 (atan2 (/ -1 x.im) (/ -1 x.re)))
4.426 * [backup-simplify]: Simplify (* -1 (atan2 (/ -1 x.im) (/ -1 x.re))) into (* -1 (atan2 (/ -1 x.im) (/ -1 x.re)))
4.426 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)))) into 0
4.427 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into 0
4.427 * [taylor]: Taking taylor expansion of 0 in x.re
4.427 * [backup-simplify]: Simplify 0 into 0
4.427 * [taylor]: Taking taylor expansion of 0 in y.re
4.427 * [backup-simplify]: Simplify 0 into 0
4.427 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)))) into 0
4.427 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into 0
4.427 * [taylor]: Taking taylor expansion of 0 in y.re
4.427 * [backup-simplify]: Simplify 0 into 0
4.428 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ -1 x.im) (/ -1 x.re)) (/ 0 1)))) into 0
4.428 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (atan2 (/ -1 x.im) (/ -1 x.re)))) into 0
4.428 * [backup-simplify]: Simplify 0 into 0
4.428 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
4.429 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) into 0
4.429 * [taylor]: Taking taylor expansion of 0 in x.re
4.429 * [backup-simplify]: Simplify 0 into 0
4.429 * [taylor]: Taking taylor expansion of 0 in y.re
4.429 * [backup-simplify]: Simplify 0 into 0
4.429 * [taylor]: Taking taylor expansion of 0 in y.re
4.429 * [backup-simplify]: Simplify 0 into 0
4.429 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
4.430 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))) into 0
4.430 * [taylor]: Taking taylor expansion of 0 in y.re
4.430 * [backup-simplify]: Simplify 0 into 0
4.430 * [backup-simplify]: Simplify 0 into 0
4.430 * [backup-simplify]: Simplify 0 into 0
4.431 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ -1 x.im) (/ -1 x.re)) (/ 0 1)) (* 0 (/ 0 1)))) into 0
4.431 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (* 0 (atan2 (/ -1 x.im) (/ -1 x.re))))) into 0
4.431 * [backup-simplify]: Simplify 0 into 0
4.431 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
4.432 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))))) into 0
4.433 * [taylor]: Taking taylor expansion of 0 in x.re
4.433 * [backup-simplify]: Simplify 0 into 0
4.433 * [taylor]: Taking taylor expansion of 0 in y.re
4.433 * [backup-simplify]: Simplify 0 into 0
4.433 * [taylor]: Taking taylor expansion of 0 in y.re
4.433 * [backup-simplify]: Simplify 0 into 0
4.433 * [taylor]: Taking taylor expansion of 0 in y.re
4.433 * [backup-simplify]: Simplify 0 into 0
4.433 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
4.434 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))))) into 0
4.434 * [taylor]: Taking taylor expansion of 0 in y.re
4.434 * [backup-simplify]: Simplify 0 into 0
4.434 * [backup-simplify]: Simplify 0 into 0
4.434 * [backup-simplify]: Simplify 0 into 0
4.434 * [backup-simplify]: Simplify (* (* -1 (atan2 (/ -1 (/ 1 (- x.im))) (/ -1 (/ 1 (- x.re))))) (* (/ 1 (/ 1 (- y.re))) (* 1 1))) into (* (atan2 x.im x.re) y.re)
4.434 * * * [progress]: simplifying candidates
4.434 * * * * [progress]: [ 1 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (log1p (expm1 (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.435 * [simplify]: Simplifying (expm1 (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.435 * * [simplify]: iters left: 6 (11 enodes)
4.438 * * [simplify]: iters left: 5 (36 enodes)
4.442 * * [simplify]: iters left: 4 (40 enodes)
4.447 * * [simplify]: iters left: 3 (43 enodes)
4.458 * * [simplify]: Extracting #0: cost 1 inf + 0
4.458 * * [simplify]: Extracting #1: cost 3 inf + 0
4.458 * * [simplify]: Extracting #2: cost 5 inf + 0
4.458 * * [simplify]: Extracting #3: cost 12 inf + 0
4.458 * * [simplify]: Extracting #4: cost 17 inf + 2
4.458 * * [simplify]: Extracting #5: cost 13 inf + 386
4.459 * * [simplify]: Extracting #6: cost 5 inf + 2215
4.459 * * [simplify]: Extracting #7: cost 0 inf + 3922
4.460 * [simplify]: Simplified to (expm1 (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.460 * [simplify]: Simplified (2 1 1) to (λ (x.re x.im y.re y.im) (/ (log1p (expm1 (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.460 * * * * [progress]: [ 2 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (expm1 (log1p (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.461 * [simplify]: Simplifying (log1p (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.461 * * [simplify]: iters left: 6 (11 enodes)
4.465 * * [simplify]: iters left: 5 (36 enodes)
4.475 * * [simplify]: iters left: 4 (40 enodes)
4.485 * * [simplify]: iters left: 3 (43 enodes)
4.495 * * [simplify]: Extracting #0: cost 1 inf + 0
4.495 * * [simplify]: Extracting #1: cost 3 inf + 0
4.495 * * [simplify]: Extracting #2: cost 5 inf + 0
4.496 * * [simplify]: Extracting #3: cost 12 inf + 0
4.496 * * [simplify]: Extracting #4: cost 17 inf + 2
4.496 * * [simplify]: Extracting #5: cost 13 inf + 386
4.496 * * [simplify]: Extracting #6: cost 5 inf + 2215
4.497 * * [simplify]: Extracting #7: cost 0 inf + 3962
4.498 * [simplify]: Simplified to (log1p (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.498 * [simplify]: Simplified (2 1 1) to (λ (x.re x.im y.re y.im) (/ (expm1 (log1p (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.498 * * * * [progress]: [ 3 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (- (* (cos (* y.im (log (hypot x.re x.im)))) (cos (* (atan2 x.im x.re) y.re))) (* (sin (* y.im (log (hypot x.re x.im)))) (sin (* (atan2 x.im x.re) y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.498 * [simplify]: Simplifying (* (cos (* y.im (log (hypot x.re x.im)))) (cos (* (atan2 x.im x.re) y.re)))
4.498 * * [simplify]: iters left: 6 (12 enodes)
4.503 * * [simplify]: iters left: 5 (39 enodes)
4.507 * * [simplify]: Extracting #0: cost 1 inf + 0
4.507 * * [simplify]: Extracting #1: cost 4 inf + 0
4.507 * * [simplify]: Extracting #2: cost 8 inf + 0
4.508 * * [simplify]: Extracting #3: cost 14 inf + 0
4.508 * * [simplify]: Extracting #4: cost 17 inf + 2
4.508 * * [simplify]: Extracting #5: cost 11 inf + 711
4.508 * * [simplify]: Extracting #6: cost 5 inf + 1676
4.508 * * [simplify]: Extracting #7: cost 1 inf + 2809
4.508 * * [simplify]: Extracting #8: cost 0 inf + 3318
4.509 * [simplify]: Simplified to (* (cos (* (atan2 x.im x.re) y.re)) (cos (* (log (hypot x.re x.im)) y.im)))
4.509 * [simplify]: Simplified (2 1 1) to (λ (x.re x.im y.re y.im) (/ (- (* (cos (* (atan2 x.im x.re) y.re)) (cos (* (log (hypot x.re x.im)) y.im))) (* (sin (* y.im (log (hypot x.re x.im)))) (sin (* (atan2 x.im x.re) y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.509 * [simplify]: Simplifying (* (sin (* y.im (log (hypot x.re x.im)))) (sin (* (atan2 x.im x.re) y.re)))
4.509 * * [simplify]: iters left: 6 (12 enodes)
4.511 * * [simplify]: iters left: 5 (39 enodes)
4.516 * * [simplify]: Extracting #0: cost 1 inf + 0
4.516 * * [simplify]: Extracting #1: cost 4 inf + 0
4.516 * * [simplify]: Extracting #2: cost 8 inf + 0
4.516 * * [simplify]: Extracting #3: cost 14 inf + 0
4.516 * * [simplify]: Extracting #4: cost 17 inf + 2
4.516 * * [simplify]: Extracting #5: cost 11 inf + 711
4.517 * * [simplify]: Extracting #6: cost 5 inf + 1676
4.517 * * [simplify]: Extracting #7: cost 1 inf + 2809
4.517 * * [simplify]: Extracting #8: cost 0 inf + 3318
4.518 * [simplify]: Simplified to (* (sin (* (atan2 x.im x.re) y.re)) (sin (* (log (hypot x.re x.im)) y.im)))
4.518 * [simplify]: Simplified (2 1 2) to (λ (x.re x.im y.re y.im) (/ (- (* (cos (* y.im (log (hypot x.re x.im)))) (cos (* (atan2 x.im x.re) y.re))) (* (sin (* (atan2 x.im x.re) y.re)) (sin (* (log (hypot x.re x.im)) y.im)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.518 * * * * [progress]: [ 4 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (pow (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) 1) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.518 * * * * [progress]: [ 5 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (exp (log (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.518 * [simplify]: Simplifying (log (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.518 * * [simplify]: iters left: 6 (11 enodes)
4.520 * * [simplify]: iters left: 5 (36 enodes)
4.524 * * [simplify]: iters left: 4 (40 enodes)
4.533 * * [simplify]: iters left: 3 (43 enodes)
4.541 * * [simplify]: Extracting #0: cost 1 inf + 0
4.541 * * [simplify]: Extracting #1: cost 3 inf + 0
4.541 * * [simplify]: Extracting #2: cost 5 inf + 0
4.542 * * [simplify]: Extracting #3: cost 12 inf + 0
4.542 * * [simplify]: Extracting #4: cost 17 inf + 2
4.542 * * [simplify]: Extracting #5: cost 13 inf + 386
4.542 * * [simplify]: Extracting #6: cost 5 inf + 2215
4.543 * * [simplify]: Extracting #7: cost 0 inf + 3922
4.543 * [simplify]: Simplified to (log (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.544 * [simplify]: Simplified (2 1 1) to (λ (x.re x.im y.re y.im) (/ (exp (log (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.544 * * * * [progress]: [ 6 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (log (exp (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.544 * [simplify]: Simplifying (exp (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.544 * * [simplify]: iters left: 6 (11 enodes)
4.547 * * [simplify]: iters left: 5 (36 enodes)
4.555 * * [simplify]: iters left: 4 (40 enodes)
4.564 * * [simplify]: iters left: 3 (43 enodes)
4.572 * * [simplify]: Extracting #0: cost 1 inf + 0
4.572 * * [simplify]: Extracting #1: cost 3 inf + 0
4.572 * * [simplify]: Extracting #2: cost 5 inf + 0
4.572 * * [simplify]: Extracting #3: cost 12 inf + 0
4.573 * * [simplify]: Extracting #4: cost 17 inf + 2
4.573 * * [simplify]: Extracting #5: cost 13 inf + 386
4.573 * * [simplify]: Extracting #6: cost 5 inf + 2215
4.574 * * [simplify]: Extracting #7: cost 0 inf + 3922
4.574 * [simplify]: Simplified to (exp (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.574 * [simplify]: Simplified (2 1 1) to (λ (x.re x.im y.re y.im) (/ (log (exp (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.575 * * * * [progress]: [ 7 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (* (* (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))) (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.575 * [simplify]: Simplifying (* (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))) (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))))
4.575 * * [simplify]: iters left: 6 (12 enodes)
4.580 * * [simplify]: iters left: 5 (39 enodes)
4.590 * * [simplify]: iters left: 4 (43 enodes)
4.602 * * [simplify]: iters left: 3 (46 enodes)
4.615 * * [simplify]: Extracting #0: cost 1 inf + 0
4.615 * * [simplify]: Extracting #1: cost 3 inf + 0
4.615 * * [simplify]: Extracting #2: cost 5 inf + 0
4.615 * * [simplify]: Extracting #3: cost 7 inf + 0
4.615 * * [simplify]: Extracting #4: cost 14 inf + 0
4.615 * * [simplify]: Extracting #5: cost 19 inf + 2
4.615 * * [simplify]: Extracting #6: cost 13 inf + 711
4.616 * * [simplify]: Extracting #7: cost 5 inf + 2766
4.617 * * [simplify]: Extracting #8: cost 2 inf + 3982
4.618 * * [simplify]: Extracting #9: cost 0 inf + 5030
4.619 * [simplify]: Simplified to (* (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))) (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))))
4.619 * [simplify]: Simplified (2 1 1) to (λ (x.re x.im y.re y.im) (/ (* (* (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))) (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.620 * [simplify]: Simplifying (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.620 * * [simplify]: iters left: 6 (11 enodes)
4.624 * * [simplify]: iters left: 5 (36 enodes)
4.634 * * [simplify]: iters left: 4 (40 enodes)
4.645 * * [simplify]: iters left: 3 (43 enodes)
4.654 * * [simplify]: Extracting #0: cost 1 inf + 0
4.654 * * [simplify]: Extracting #1: cost 3 inf + 0
4.654 * * [simplify]: Extracting #2: cost 5 inf + 0
4.654 * * [simplify]: Extracting #3: cost 12 inf + 0
4.654 * * [simplify]: Extracting #4: cost 17 inf + 2
4.655 * * [simplify]: Extracting #5: cost 13 inf + 386
4.655 * * [simplify]: Extracting #6: cost 5 inf + 2215
4.656 * * [simplify]: Extracting #7: cost 0 inf + 3942
4.656 * [simplify]: Simplified to (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.657 * [simplify]: Simplified (2 1 2) to (λ (x.re x.im y.re y.im) (/ (* (* (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))) (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (cbrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.657 * * * * [progress]: [ 8 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cbrt (* (* (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))) (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.657 * [simplify]: Simplifying (* (* (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))) (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.657 * * [simplify]: iters left: 6 (12 enodes)
4.662 * * [simplify]: iters left: 5 (40 enodes)
4.672 * * [simplify]: iters left: 4 (46 enodes)
4.684 * * [simplify]: iters left: 3 (56 enodes)
4.700 * * [simplify]: iters left: 2 (70 enodes)
4.722 * * [simplify]: iters left: 1 (96 enodes)
4.748 * * [simplify]: Extracting #0: cost 1 inf + 0
4.749 * * [simplify]: Extracting #1: cost 9 inf + 0
4.749 * * [simplify]: Extracting #2: cost 18 inf + 1
4.749 * * [simplify]: Extracting #3: cost 26 inf + 3
4.749 * * [simplify]: Extracting #4: cost 31 inf + 6
4.749 * * [simplify]: Extracting #5: cost 28 inf + 151
4.750 * * [simplify]: Extracting #6: cost 18 inf + 2742
4.752 * * [simplify]: Extracting #7: cost 5 inf + 9358
4.756 * * [simplify]: Extracting #8: cost 0 inf + 12864
4.759 * [simplify]: Simplified to (* (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (* (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))))
4.759 * [simplify]: Simplified (2 1 1) to (λ (x.re x.im y.re y.im) (/ (cbrt (* (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (* (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.759 * * * * [progress]: [ 9 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (* (sqrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))) (sqrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.759 * [simplify]: Simplifying (sqrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.760 * * [simplify]: iters left: 6 (11 enodes)
4.764 * * [simplify]: iters left: 5 (36 enodes)
4.773 * * [simplify]: iters left: 4 (40 enodes)
4.784 * * [simplify]: iters left: 3 (43 enodes)
4.794 * * [simplify]: Extracting #0: cost 1 inf + 0
4.794 * * [simplify]: Extracting #1: cost 3 inf + 0
4.794 * * [simplify]: Extracting #2: cost 5 inf + 0
4.794 * * [simplify]: Extracting #3: cost 12 inf + 0
4.794 * * [simplify]: Extracting #4: cost 17 inf + 2
4.795 * * [simplify]: Extracting #5: cost 13 inf + 386
4.795 * * [simplify]: Extracting #6: cost 5 inf + 2215
4.796 * * [simplify]: Extracting #7: cost 0 inf + 3862
4.796 * [simplify]: Simplified to (sqrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.797 * [simplify]: Simplified (2 1 1) to (λ (x.re x.im y.re y.im) (/ (* (sqrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))) (sqrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.797 * [simplify]: Simplifying (sqrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.797 * * [simplify]: iters left: 6 (11 enodes)
4.801 * * [simplify]: iters left: 5 (36 enodes)
4.807 * * [simplify]: iters left: 4 (40 enodes)
4.813 * * [simplify]: iters left: 3 (43 enodes)
4.818 * * [simplify]: Extracting #0: cost 1 inf + 0
4.818 * * [simplify]: Extracting #1: cost 3 inf + 0
4.818 * * [simplify]: Extracting #2: cost 5 inf + 0
4.818 * * [simplify]: Extracting #3: cost 12 inf + 0
4.818 * * [simplify]: Extracting #4: cost 17 inf + 2
4.818 * * [simplify]: Extracting #5: cost 13 inf + 386
4.818 * * [simplify]: Extracting #6: cost 5 inf + 2215
4.819 * * [simplify]: Extracting #7: cost 0 inf + 3862
4.819 * [simplify]: Simplified to (sqrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.819 * [simplify]: Simplified (2 1 2) to (λ (x.re x.im y.re y.im) (/ (* (sqrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))) (sqrt (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.819 * * * * [progress]: [ 10 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (* 1 (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.819 * * * * [progress]: [ 11 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (posit16->real (real->posit16 (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
4.819 * [simplify]: Simplifying (real->posit16 (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.820 * * [simplify]: iters left: 6 (11 enodes)
4.822 * * [simplify]: iters left: 5 (33 enodes)
4.826 * * [simplify]: iters left: 4 (37 enodes)
4.830 * * [simplify]: iters left: 3 (40 enodes)
4.835 * * [simplify]: Extracting #0: cost 1 inf + 0
4.835 * * [simplify]: Extracting #1: cost 2 inf + 0
4.835 * * [simplify]: Extracting #2: cost 3 inf + 0
4.835 * * [simplify]: Extracting #3: cost 10 inf + 0
4.835 * * [simplify]: Extracting #4: cost 15 inf + 2
4.835 * * [simplify]: Extracting #5: cost 11 inf + 386
4.835 * * [simplify]: Extracting #6: cost 3 inf + 2215
4.836 * * [simplify]: Extracting #7: cost 0 inf + 2934
4.837 * [simplify]: Simplified to (real->posit16 (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))
4.837 * [simplify]: Simplified (2 1 1) to (λ (x.re x.im y.re y.im) (/ (posit16->real (real->posit16 (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
4.837 * * * * [progress]: [ 12 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (log1p (expm1 (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))>
4.837 * [simplify]: Simplifying (expm1 (* (atan2 x.im x.re) y.im))
4.837 * * [simplify]: iters left: 4 (6 enodes)
4.840 * * [simplify]: iters left: 3 (19 enodes)
4.845 * * [simplify]: Extracting #0: cost 1 inf + 0
4.845 * * [simplify]: Extracting #1: cost 3 inf + 0
4.845 * * [simplify]: Extracting #2: cost 6 inf + 0
4.845 * * [simplify]: Extracting #3: cost 8 inf + 1
4.845 * * [simplify]: Extracting #4: cost 6 inf + 3
4.845 * * [simplify]: Extracting #5: cost 0 inf + 1159
4.845 * [simplify]: Simplified to (expm1 (* (atan2 x.im x.re) y.im))
4.845 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (log1p (expm1 (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))
4.845 * * * * [progress]: [ 13 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (expm1 (log1p (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))>
4.846 * [simplify]: Simplifying (log1p (* (atan2 x.im x.re) y.im))
4.846 * * [simplify]: iters left: 4 (6 enodes)
4.848 * * [simplify]: iters left: 3 (19 enodes)
4.853 * * [simplify]: Extracting #0: cost 1 inf + 0
4.853 * * [simplify]: Extracting #1: cost 3 inf + 0
4.853 * * [simplify]: Extracting #2: cost 6 inf + 0
4.854 * * [simplify]: Extracting #3: cost 8 inf + 1
4.854 * * [simplify]: Extracting #4: cost 6 inf + 3
4.854 * * [simplify]: Extracting #5: cost 0 inf + 1199
4.854 * [simplify]: Simplified to (log1p (* (atan2 x.im x.re) y.im))
4.854 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (expm1 (log1p (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))
4.855 * * * * [progress]: [ 14 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (pow (* (atan2 x.im x.re) y.im) 1) (* y.re (log (hypot x.re x.im)))))))>
4.855 * [simplify]: Simplifying (* (atan2 x.im x.re) y.im)
4.855 * * [simplify]: iters left: 3 (5 enodes)
4.857 * * [simplify]: iters left: 2 (16 enodes)
4.861 * * [simplify]: Extracting #0: cost 1 inf + 0
4.861 * * [simplify]: Extracting #1: cost 4 inf + 0
4.861 * * [simplify]: Extracting #2: cost 6 inf + 1
4.861 * * [simplify]: Extracting #3: cost 4 inf + 3
4.861 * * [simplify]: Extracting #4: cost 0 inf + 653
4.862 * [simplify]: Simplified to (* (atan2 x.im x.re) y.im)
4.862 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (pow (* (atan2 x.im x.re) y.im) 1) (* y.re (log (hypot x.re x.im)))))))
4.862 * * * * [progress]: [ 15 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (pow (* (atan2 x.im x.re) y.im) 1) (* y.re (log (hypot x.re x.im)))))))>
4.863 * * * * [progress]: [ 16 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (exp (+ (log (atan2 x.im x.re)) (log y.im))) (* y.re (log (hypot x.re x.im)))))))>
4.863 * [simplify]: Simplifying (+ (log (atan2 x.im x.re)) (log y.im))
4.863 * * [simplify]: iters left: 4 (7 enodes)
4.867 * * [simplify]: iters left: 3 (22 enodes)
4.874 * * [simplify]: Extracting #0: cost 1 inf + 0
4.874 * * [simplify]: Extracting #1: cost 4 inf + 0
4.874 * * [simplify]: Extracting #2: cost 8 inf + 0
4.874 * * [simplify]: Extracting #3: cost 8 inf + 143
4.874 * * [simplify]: Extracting #4: cost 6 inf + 145
4.874 * * [simplify]: Extracting #5: cost 1 inf + 1176
4.874 * * [simplify]: Extracting #6: cost 0 inf + 1499
4.875 * [simplify]: Simplified to (+ (log (atan2 x.im x.re)) (log y.im))
4.875 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (exp (+ (log (atan2 x.im x.re)) (log y.im))) (* y.re (log (hypot x.re x.im)))))))
4.875 * * * * [progress]: [ 17 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (exp (log (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))>
4.875 * [simplify]: Simplifying (log (* (atan2 x.im x.re) y.im))
4.875 * * [simplify]: iters left: 4 (6 enodes)
4.878 * * [simplify]: iters left: 3 (22 enodes)
4.883 * * [simplify]: iters left: 2 (27 enodes)
4.890 * * [simplify]: Extracting #0: cost 1 inf + 0
4.890 * * [simplify]: Extracting #1: cost 5 inf + 0
4.890 * * [simplify]: Extracting #2: cost 10 inf + 0
4.890 * * [simplify]: Extracting #3: cost 10 inf + 143
4.890 * * [simplify]: Extracting #4: cost 8 inf + 145
4.891 * * [simplify]: Extracting #5: cost 1 inf + 1472
4.891 * * [simplify]: Extracting #6: cost 0 inf + 1725
4.891 * [simplify]: Simplified to (log (* (atan2 x.im x.re) y.im))
4.891 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (exp (log (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))
4.892 * * * * [progress]: [ 18 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (log (exp (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))>
4.892 * [simplify]: Simplifying (exp (* (atan2 x.im x.re) y.im))
4.892 * * [simplify]: iters left: 4 (6 enodes)
4.894 * * [simplify]: iters left: 3 (21 enodes)
4.900 * * [simplify]: iters left: 2 (29 enodes)
4.908 * * [simplify]: iters left: 1 (42 enodes)
4.916 * * [simplify]: Extracting #0: cost 1 inf + 0
4.916 * * [simplify]: Extracting #1: cost 14 inf + 0
4.917 * * [simplify]: Extracting #2: cost 29 inf + 72
4.917 * * [simplify]: Extracting #3: cost 26 inf + 312
4.917 * * [simplify]: Extracting #4: cost 11 inf + 2978
4.917 * * [simplify]: Extracting #5: cost 2 inf + 6232
4.918 * * [simplify]: Extracting #6: cost 0 inf + 7451
4.919 * [simplify]: Simplified to (exp (* (atan2 x.im x.re) y.im))
4.919 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (log (exp (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))
4.919 * * * * [progress]: [ 19 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (cbrt (* (* (* (atan2 x.im x.re) (atan2 x.im x.re)) (atan2 x.im x.re)) (* (* y.im y.im) y.im))) (* y.re (log (hypot x.re x.im)))))))>
4.919 * [simplify]: Simplifying (* (* (* (atan2 x.im x.re) (atan2 x.im x.re)) (atan2 x.im x.re)) (* (* y.im y.im) y.im))
4.919 * * [simplify]: iters left: 6 (9 enodes)
4.921 * * [simplify]: iters left: 5 (34 enodes)
4.926 * * [simplify]: iters left: 4 (63 enodes)
4.938 * * [simplify]: iters left: 3 (121 enodes)
4.983 * * [simplify]: iters left: 2 (194 enodes)
5.055 * * [simplify]: iters left: 1 (376 enodes)
5.210 * * [simplify]: Extracting #0: cost 1 inf + 0
5.210 * * [simplify]: Extracting #1: cost 72 inf + 0
5.211 * * [simplify]: Extracting #2: cost 179 inf + 124
5.212 * * [simplify]: Extracting #3: cost 154 inf + 6887
5.218 * * [simplify]: Extracting #4: cost 50 inf + 64426
5.234 * * [simplify]: Extracting #5: cost 0 inf + 93425
5.249 * * [simplify]: Extracting #6: cost 0 inf + 93305
5.259 * [simplify]: Simplified to (* (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)) (* (atan2 x.im x.re) y.im))
5.259 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (cbrt (* (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)) (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))
5.259 * * * * [progress]: [ 20 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (cbrt (* (atan2 x.im x.re) y.im)) (cbrt (* (atan2 x.im x.re) y.im))) (cbrt (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))>
5.259 * [simplify]: Simplifying (* (cbrt (* (atan2 x.im x.re) y.im)) (cbrt (* (atan2 x.im x.re) y.im)))
5.259 * * [simplify]: iters left: 6 (7 enodes)
5.260 * * [simplify]: iters left: 5 (22 enodes)
5.263 * * [simplify]: Extracting #0: cost 1 inf + 0
5.263 * * [simplify]: Extracting #1: cost 3 inf + 0
5.263 * * [simplify]: Extracting #2: cost 5 inf + 0
5.263 * * [simplify]: Extracting #3: cost 8 inf + 0
5.263 * * [simplify]: Extracting #4: cost 10 inf + 1
5.263 * * [simplify]: Extracting #5: cost 8 inf + 3
5.263 * * [simplify]: Extracting #6: cost 1 inf + 1482
5.263 * * [simplify]: Extracting #7: cost 0 inf + 1785
5.264 * [simplify]: Simplified to (* (cbrt (* (atan2 x.im x.re) y.im)) (cbrt (* (atan2 x.im x.re) y.im)))
5.264 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (cbrt (* (atan2 x.im x.re) y.im)) (cbrt (* (atan2 x.im x.re) y.im))) (cbrt (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))
5.264 * [simplify]: Simplifying (cbrt (* (atan2 x.im x.re) y.im))
5.264 * * [simplify]: iters left: 4 (6 enodes)
5.265 * * [simplify]: iters left: 3 (19 enodes)
5.267 * * [simplify]: Extracting #0: cost 1 inf + 0
5.267 * * [simplify]: Extracting #1: cost 3 inf + 0
5.267 * * [simplify]: Extracting #2: cost 6 inf + 0
5.267 * * [simplify]: Extracting #3: cost 8 inf + 1
5.268 * * [simplify]: Extracting #4: cost 6 inf + 3
5.268 * * [simplify]: Extracting #5: cost 0 inf + 1179
5.268 * [simplify]: Simplified to (cbrt (* (atan2 x.im x.re) y.im))
5.268 * [simplify]: Simplified (2 2 1 1 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (cbrt (* (atan2 x.im x.re) y.im)) (cbrt (* (atan2 x.im x.re) y.im))) (cbrt (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))
5.268 * * * * [progress]: [ 21 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (cbrt (* (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)) (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))>
5.268 * [simplify]: Simplifying (* (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)) (* (atan2 x.im x.re) y.im))
5.268 * * [simplify]: iters left: 6 (7 enodes)
5.270 * * [simplify]: iters left: 5 (32 enodes)
5.275 * * [simplify]: iters left: 4 (72 enodes)
5.291 * * [simplify]: iters left: 3 (126 enodes)
5.323 * * [simplify]: iters left: 2 (157 enodes)
5.358 * * [simplify]: iters left: 1 (230 enodes)
5.438 * * [simplify]: Extracting #0: cost 1 inf + 0
5.438 * * [simplify]: Extracting #1: cost 38 inf + 0
5.438 * * [simplify]: Extracting #2: cost 94 inf + 124
5.439 * * [simplify]: Extracting #3: cost 73 inf + 3832
5.444 * * [simplify]: Extracting #4: cost 9 inf + 31195
5.450 * * [simplify]: Extracting #5: cost 0 inf + 36376
5.456 * * [simplify]: Extracting #6: cost 0 inf + 36205
5.462 * [simplify]: Simplified to (* (* (atan2 x.im x.re) y.im) (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)))
5.463 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (cbrt (* (* (atan2 x.im x.re) y.im) (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)))) (* y.re (log (hypot x.re x.im)))))))
5.463 * * * * [progress]: [ 22 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (sqrt (* (atan2 x.im x.re) y.im)) (sqrt (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))>
5.463 * [simplify]: Simplifying (sqrt (* (atan2 x.im x.re) y.im))
5.463 * * [simplify]: iters left: 4 (6 enodes)
5.465 * * [simplify]: iters left: 3 (19 enodes)
5.469 * * [simplify]: Extracting #0: cost 1 inf + 0
5.470 * * [simplify]: Extracting #1: cost 3 inf + 0
5.470 * * [simplify]: Extracting #2: cost 6 inf + 0
5.470 * * [simplify]: Extracting #3: cost 8 inf + 1
5.470 * * [simplify]: Extracting #4: cost 6 inf + 3
5.470 * * [simplify]: Extracting #5: cost 0 inf + 1099
5.470 * [simplify]: Simplified to (sqrt (* (atan2 x.im x.re) y.im))
5.470 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (sqrt (* (atan2 x.im x.re) y.im)) (sqrt (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))
5.470 * [simplify]: Simplifying (sqrt (* (atan2 x.im x.re) y.im))
5.471 * * [simplify]: iters left: 4 (6 enodes)
5.473 * * [simplify]: iters left: 3 (19 enodes)
5.477 * * [simplify]: Extracting #0: cost 1 inf + 0
5.477 * * [simplify]: Extracting #1: cost 3 inf + 0
5.477 * * [simplify]: Extracting #2: cost 6 inf + 0
5.477 * * [simplify]: Extracting #3: cost 8 inf + 1
5.477 * * [simplify]: Extracting #4: cost 6 inf + 3
5.477 * * [simplify]: Extracting #5: cost 0 inf + 1099
5.477 * [simplify]: Simplified to (sqrt (* (atan2 x.im x.re) y.im))
5.477 * [simplify]: Simplified (2 2 1 1 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (sqrt (* (atan2 x.im x.re) y.im)) (sqrt (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))
5.477 * * * * [progress]: [ 23 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* 1 (* (atan2 x.im x.re) y.im)) (* y.re (log (hypot x.re x.im)))))))>
5.477 * * * * [progress]: [ 24 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (sqrt (atan2 x.im x.re)) (sqrt y.im)) (* (sqrt (atan2 x.im x.re)) (sqrt y.im))) (* y.re (log (hypot x.re x.im)))))))>
5.478 * [simplify]: Simplifying (* (sqrt (atan2 x.im x.re)) (sqrt y.im))
5.478 * * [simplify]: iters left: 4 (7 enodes)
5.480 * * [simplify]: iters left: 3 (22 enodes)
5.485 * * [simplify]: Extracting #0: cost 1 inf + 0
5.485 * * [simplify]: Extracting #1: cost 4 inf + 0
5.485 * * [simplify]: Extracting #2: cost 8 inf + 0
5.485 * * [simplify]: Extracting #3: cost 8 inf + 83
5.485 * * [simplify]: Extracting #4: cost 6 inf + 85
5.485 * * [simplify]: Extracting #5: cost 1 inf + 996
5.486 * * [simplify]: Extracting #6: cost 0 inf + 1259
5.486 * [simplify]: Simplified to (* (sqrt (atan2 x.im x.re)) (sqrt y.im))
5.486 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (sqrt (atan2 x.im x.re)) (sqrt y.im)) (* (sqrt (atan2 x.im x.re)) (sqrt y.im))) (* y.re (log (hypot x.re x.im)))))))
5.486 * [simplify]: Simplifying (* (sqrt (atan2 x.im x.re)) (sqrt y.im))
5.486 * * [simplify]: iters left: 4 (7 enodes)
5.489 * * [simplify]: iters left: 3 (22 enodes)
5.493 * * [simplify]: Extracting #0: cost 1 inf + 0
5.493 * * [simplify]: Extracting #1: cost 4 inf + 0
5.493 * * [simplify]: Extracting #2: cost 8 inf + 0
5.494 * * [simplify]: Extracting #3: cost 8 inf + 83
5.494 * * [simplify]: Extracting #4: cost 6 inf + 85
5.494 * * [simplify]: Extracting #5: cost 1 inf + 996
5.494 * * [simplify]: Extracting #6: cost 0 inf + 1259
5.494 * [simplify]: Simplified to (* (sqrt (atan2 x.im x.re)) (sqrt y.im))
5.494 * [simplify]: Simplified (2 2 1 1 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (sqrt (atan2 x.im x.re)) (sqrt y.im)) (* (sqrt (atan2 x.im x.re)) (sqrt y.im))) (* y.re (log (hypot x.re x.im)))))))
5.495 * * * * [progress]: [ 25 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (atan2 x.im x.re) (* (cbrt y.im) (cbrt y.im))) (cbrt y.im)) (* y.re (log (hypot x.re x.im)))))))>
5.495 * [simplify]: Simplifying (* (atan2 x.im x.re) (* (cbrt y.im) (cbrt y.im)))
5.495 * * [simplify]: iters left: 5 (7 enodes)
5.497 * * [simplify]: iters left: 4 (24 enodes)
5.503 * * [simplify]: iters left: 3 (28 enodes)
5.509 * * [simplify]: Extracting #0: cost 1 inf + 0
5.509 * * [simplify]: Extracting #1: cost 6 inf + 0
5.509 * * [simplify]: Extracting #2: cost 13 inf + 0
5.509 * * [simplify]: Extracting #3: cost 10 inf + 3
5.509 * * [simplify]: Extracting #4: cost 3 inf + 1096
5.510 * * [simplify]: Extracting #5: cost 1 inf + 1520
5.510 * * [simplify]: Extracting #6: cost 0 inf + 1823
5.510 * [simplify]: Simplified to (* (atan2 x.im x.re) (* (cbrt y.im) (cbrt y.im)))
5.511 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (atan2 x.im x.re) (* (cbrt y.im) (cbrt y.im))) (cbrt y.im)) (* y.re (log (hypot x.re x.im)))))))
5.511 * * * * [progress]: [ 26 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (atan2 x.im x.re) (sqrt y.im)) (sqrt y.im)) (* y.re (log (hypot x.re x.im)))))))>
5.511 * [simplify]: Simplifying (* (atan2 x.im x.re) (sqrt y.im))
5.511 * * [simplify]: iters left: 3 (6 enodes)
5.513 * * [simplify]: iters left: 2 (19 enodes)
5.517 * * [simplify]: Extracting #0: cost 1 inf + 0
5.517 * * [simplify]: Extracting #1: cost 4 inf + 0
5.517 * * [simplify]: Extracting #2: cost 9 inf + 0
5.517 * * [simplify]: Extracting #3: cost 4 inf + 85
5.518 * * [simplify]: Extracting #4: cost 0 inf + 815
5.518 * [simplify]: Simplified to (* (sqrt y.im) (atan2 x.im x.re))
5.518 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (sqrt y.im) (atan2 x.im x.re)) (sqrt y.im)) (* y.re (log (hypot x.re x.im)))))))
5.518 * * * * [progress]: [ 27 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (atan2 x.im x.re) 1) y.im) (* y.re (log (hypot x.re x.im)))))))>
5.518 * [simplify]: Simplifying (* (atan2 x.im x.re) 1)
5.519 * * [simplify]: iters left: 3 (5 enodes)
5.521 * * [simplify]: iters left: 2 (16 enodes)
5.526 * * [simplify]: iters left: 1 (20 enodes)
5.530 * * [simplify]: Extracting #0: cost 1 inf + 0
5.530 * * [simplify]: Extracting #1: cost 5 inf + 0
5.530 * * [simplify]: Extracting #2: cost 2 inf + 3
5.530 * * [simplify]: Extracting #3: cost 1 inf + 145
5.530 * * [simplify]: Extracting #4: cost 0 inf + 287
5.530 * [simplify]: Simplified to (atan2 x.im x.re)
5.530 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
5.530 * * * * [progress]: [ 28 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (cbrt (atan2 x.im x.re)) (cbrt (atan2 x.im x.re))) (* (cbrt (atan2 x.im x.re)) y.im)) (* y.re (log (hypot x.re x.im)))))))>
5.530 * [simplify]: Simplifying (* (cbrt (atan2 x.im x.re)) y.im)
5.530 * * [simplify]: iters left: 4 (6 enodes)
5.532 * * [simplify]: iters left: 3 (19 enodes)
5.534 * * [simplify]: Extracting #0: cost 1 inf + 0
5.534 * * [simplify]: Extracting #1: cost 4 inf + 0
5.534 * * [simplify]: Extracting #2: cost 5 inf + 1
5.534 * * [simplify]: Extracting #3: cost 8 inf + 1
5.534 * * [simplify]: Extracting #4: cost 6 inf + 3
5.534 * * [simplify]: Extracting #5: cost 0 inf + 1257
5.534 * [simplify]: Simplified to (* (cbrt (atan2 x.im x.re)) y.im)
5.534 * [simplify]: Simplified (2 2 1 1 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (* (cbrt (atan2 x.im x.re)) (cbrt (atan2 x.im x.re))) (* (cbrt (atan2 x.im x.re)) y.im)) (* y.re (log (hypot x.re x.im)))))))
5.535 * * * * [progress]: [ 29 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (sqrt (atan2 x.im x.re)) (* (sqrt (atan2 x.im x.re)) y.im)) (* y.re (log (hypot x.re x.im)))))))>
5.535 * [simplify]: Simplifying (* (sqrt (atan2 x.im x.re)) y.im)
5.535 * * [simplify]: iters left: 4 (6 enodes)
5.536 * * [simplify]: iters left: 3 (19 enodes)
5.538 * * [simplify]: Extracting #0: cost 1 inf + 0
5.538 * * [simplify]: Extracting #1: cost 4 inf + 0
5.538 * * [simplify]: Extracting #2: cost 5 inf + 1
5.538 * * [simplify]: Extracting #3: cost 8 inf + 1
5.538 * * [simplify]: Extracting #4: cost 6 inf + 3
5.538 * * [simplify]: Extracting #5: cost 0 inf + 1097
5.539 * [simplify]: Simplified to (* (sqrt (atan2 x.im x.re)) y.im)
5.539 * [simplify]: Simplified (2 2 1 1 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (sqrt (atan2 x.im x.re)) (* (sqrt (atan2 x.im x.re)) y.im)) (* y.re (log (hypot x.re x.im)))))))
5.539 * * * * [progress]: [ 30 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* 1 (* (atan2 x.im x.re) y.im)) (* y.re (log (hypot x.re x.im)))))))>
5.539 * [simplify]: Simplifying (* (atan2 x.im x.re) y.im)
5.539 * * [simplify]: iters left: 3 (5 enodes)
5.540 * * [simplify]: iters left: 2 (16 enodes)
5.542 * * [simplify]: Extracting #0: cost 1 inf + 0
5.542 * * [simplify]: Extracting #1: cost 4 inf + 0
5.542 * * [simplify]: Extracting #2: cost 6 inf + 1
5.542 * * [simplify]: Extracting #3: cost 4 inf + 3
5.542 * * [simplify]: Extracting #4: cost 0 inf + 653
5.542 * [simplify]: Simplified to (* (atan2 x.im x.re) y.im)
5.542 * [simplify]: Simplified (2 2 1 1 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* 1 (* (atan2 x.im x.re) y.im)) (* y.re (log (hypot x.re x.im)))))))
5.542 * * * * [progress]: [ 31 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (posit16->real (real->posit16 (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))>
5.542 * [simplify]: Simplifying (real->posit16 (* (atan2 x.im x.re) y.im))
5.542 * * [simplify]: iters left: 4 (6 enodes)
5.544 * * [simplify]: iters left: 3 (16 enodes)
5.551 * * [simplify]: Extracting #0: cost 1 inf + 0
5.551 * * [simplify]: Extracting #1: cost 2 inf + 0
5.551 * * [simplify]: Extracting #2: cost 4 inf + 0
5.551 * * [simplify]: Extracting #3: cost 6 inf + 1
5.551 * * [simplify]: Extracting #4: cost 4 inf + 3
5.551 * * [simplify]: Extracting #5: cost 0 inf + 653
5.551 * [simplify]: Simplified to (real->posit16 (* (atan2 x.im x.re) y.im))
5.551 * [simplify]: Simplified (2 2 1 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (posit16->real (real->posit16 (* (atan2 x.im x.re) y.im))) (* y.re (log (hypot x.re x.im)))))))
5.552 * * * * [progress]: [ 32 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* y.im (atan2 x.im x.re)) (* y.re (log (hypot x.re x.im)))))))>
5.552 * * * * [progress]: [ 33 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (log1p (expm1 (* y.re (log (hypot x.re x.im)))))))))>
5.552 * [simplify]: Simplifying (expm1 (* y.re (log (hypot x.re x.im))))
5.552 * * [simplify]: iters left: 5 (7 enodes)
5.555 * * [simplify]: iters left: 4 (22 enodes)
5.560 * * [simplify]: Extracting #0: cost 1 inf + 0
5.560 * * [simplify]: Extracting #1: cost 3 inf + 0
5.560 * * [simplify]: Extracting #2: cost 6 inf + 0
5.560 * * [simplify]: Extracting #3: cost 7 inf + 1
5.560 * * [simplify]: Extracting #4: cost 10 inf + 1
5.561 * * [simplify]: Extracting #5: cost 8 inf + 3
5.561 * * [simplify]: Extracting #6: cost 1 inf + 945
5.561 * * [simplify]: Extracting #7: cost 0 inf + 1183
5.561 * [simplify]: Simplified to (expm1 (* (log (hypot x.re x.im)) y.re))
5.561 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (log1p (expm1 (* (log (hypot x.re x.im)) y.re)))))))
5.562 * * * * [progress]: [ 34 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (expm1 (log1p (* y.re (log (hypot x.re x.im)))))))))>
5.562 * [simplify]: Simplifying (log1p (* y.re (log (hypot x.re x.im))))
5.562 * * [simplify]: iters left: 5 (7 enodes)
5.565 * * [simplify]: iters left: 4 (22 enodes)
5.570 * * [simplify]: Extracting #0: cost 1 inf + 0
5.570 * * [simplify]: Extracting #1: cost 3 inf + 0
5.570 * * [simplify]: Extracting #2: cost 6 inf + 0
5.570 * * [simplify]: Extracting #3: cost 7 inf + 1
5.571 * * [simplify]: Extracting #4: cost 10 inf + 1
5.571 * * [simplify]: Extracting #5: cost 8 inf + 3
5.571 * * [simplify]: Extracting #6: cost 1 inf + 965
5.571 * * [simplify]: Extracting #7: cost 0 inf + 1223
5.572 * [simplify]: Simplified to (log1p (* (log (hypot x.re x.im)) y.re))
5.572 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (expm1 (log1p (* (log (hypot x.re x.im)) y.re)))))))
5.572 * * * * [progress]: [ 35 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (pow (* y.re (log (hypot x.re x.im))) 1)))))>
5.572 * [simplify]: Simplifying (* y.re (log (hypot x.re x.im)))
5.572 * * [simplify]: iters left: 4 (6 enodes)
5.574 * * [simplify]: iters left: 3 (19 enodes)
5.579 * * [simplify]: Extracting #0: cost 1 inf + 0
5.579 * * [simplify]: Extracting #1: cost 4 inf + 0
5.579 * * [simplify]: Extracting #2: cost 5 inf + 1
5.579 * * [simplify]: Extracting #3: cost 8 inf + 1
5.580 * * [simplify]: Extracting #4: cost 0 inf + 707
5.580 * [simplify]: Simplified to (* (log (hypot x.re x.im)) y.re)
5.580 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (pow (* (log (hypot x.re x.im)) y.re) 1)))))
5.580 * * * * [progress]: [ 36 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (pow (* y.re (log (hypot x.re x.im))) 1)))))>
5.580 * * * * [progress]: [ 37 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (exp (+ (log y.re) (log (log (hypot x.re x.im)))))))))>
5.580 * [simplify]: Simplifying (+ (log y.re) (log (log (hypot x.re x.im))))
5.580 * * [simplify]: iters left: 5 (8 enodes)
5.584 * * [simplify]: iters left: 4 (25 enodes)
5.590 * * [simplify]: Extracting #0: cost 1 inf + 0
5.590 * * [simplify]: Extracting #1: cost 4 inf + 0
5.590 * * [simplify]: Extracting #2: cost 8 inf + 0
5.590 * * [simplify]: Extracting #3: cost 9 inf + 1
5.590 * * [simplify]: Extracting #4: cost 10 inf + 143
5.590 * * [simplify]: Extracting #5: cost 8 inf + 145
5.590 * * [simplify]: Extracting #6: cost 5 inf + 386
5.590 * * [simplify]: Extracting #7: cost 1 inf + 1215
5.591 * * [simplify]: Extracting #8: cost 0 inf + 1523
5.591 * [simplify]: Simplified to (+ (log y.re) (log (log (hypot x.re x.im))))
5.591 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (exp (+ (log y.re) (log (log (hypot x.re x.im)))))))))
5.592 * * * * [progress]: [ 38 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (exp (log (* y.re (log (hypot x.re x.im)))))))))>
5.592 * [simplify]: Simplifying (log (* y.re (log (hypot x.re x.im))))
5.592 * * [simplify]: iters left: 5 (7 enodes)
5.595 * * [simplify]: iters left: 4 (25 enodes)
5.601 * * [simplify]: iters left: 3 (30 enodes)
5.609 * * [simplify]: Extracting #0: cost 1 inf + 0
5.609 * * [simplify]: Extracting #1: cost 5 inf + 0
5.609 * * [simplify]: Extracting #2: cost 10 inf + 0
5.609 * * [simplify]: Extracting #3: cost 11 inf + 1
5.609 * * [simplify]: Extracting #4: cost 12 inf + 143
5.609 * * [simplify]: Extracting #5: cost 9 inf + 202
5.609 * * [simplify]: Extracting #6: cost 3 inf + 1075
5.610 * * [simplify]: Extracting #7: cost 0 inf + 1719
5.610 * [simplify]: Simplified to (log (* (log (hypot x.re x.im)) y.re))
5.610 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (exp (log (* (log (hypot x.re x.im)) y.re)))))))
5.611 * * * * [progress]: [ 39 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (log (exp (* y.re (log (hypot x.re x.im)))))))))>
5.611 * [simplify]: Simplifying (exp (* y.re (log (hypot x.re x.im))))
5.611 * * [simplify]: iters left: 5 (7 enodes)
5.614 * * [simplify]: iters left: 4 (24 enodes)
5.620 * * [simplify]: iters left: 3 (33 enodes)
5.630 * * [simplify]: iters left: 2 (44 enodes)
5.643 * * [simplify]: iters left: 1 (71 enodes)
5.665 * * [simplify]: Extracting #0: cost 1 inf + 0
5.666 * * [simplify]: Extracting #1: cost 16 inf + 0
5.666 * * [simplify]: Extracting #2: cost 44 inf + 1
5.666 * * [simplify]: Extracting #3: cost 49 inf + 189
5.666 * * [simplify]: Extracting #4: cost 27 inf + 3303
5.667 * * [simplify]: Extracting #5: cost 11 inf + 8304
5.669 * * [simplify]: Extracting #6: cost 2 inf + 13712
5.670 * * [simplify]: Extracting #7: cost 0 inf + 15363
5.672 * [simplify]: Simplified to (exp (* (log (hypot x.re x.im)) y.re))
5.672 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (log (exp (* (log (hypot x.re x.im)) y.re)))))))
5.672 * * * * [progress]: [ 40 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (cbrt (* (* (* y.re y.re) y.re) (* (* (log (hypot x.re x.im)) (log (hypot x.re x.im))) (log (hypot x.re x.im)))))))))>
5.672 * [simplify]: Simplifying (* (* (* y.re y.re) y.re) (* (* (log (hypot x.re x.im)) (log (hypot x.re x.im))) (log (hypot x.re x.im))))
5.673 * * [simplify]: iters left: 6 (10 enodes)
5.675 * * [simplify]: iters left: 5 (37 enodes)
5.682 * * [simplify]: iters left: 4 (66 enodes)
5.694 * * [simplify]: iters left: 3 (120 enodes)
5.743 * * [simplify]: iters left: 2 (205 enodes)
5.808 * * [simplify]: iters left: 1 (399 enodes)
5.998 * * [simplify]: Extracting #0: cost 1 inf + 0
5.999 * * [simplify]: Extracting #1: cost 51 inf + 0
6.000 * * [simplify]: Extracting #2: cost 161 inf + 43
6.001 * * [simplify]: Extracting #3: cost 156 inf + 885
6.003 * * [simplify]: Extracting #4: cost 134 inf + 7587
6.011 * * [simplify]: Extracting #5: cost 75 inf + 31739
6.026 * * [simplify]: Extracting #6: cost 13 inf + 66545
6.043 * * [simplify]: Extracting #7: cost 0 inf + 76268
6.065 * [simplify]: Simplified to (* (* (* y.re (log (hypot x.re x.im))) (* y.re (log (hypot x.re x.im)))) (* y.re (log (hypot x.re x.im))))
6.065 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (cbrt (* (* (* y.re (log (hypot x.re x.im))) (* y.re (log (hypot x.re x.im)))) (* y.re (log (hypot x.re x.im)))))))))
6.066 * * * * [progress]: [ 41 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* (cbrt (* y.re (log (hypot x.re x.im)))) (cbrt (* y.re (log (hypot x.re x.im))))) (cbrt (* y.re (log (hypot x.re x.im)))))))))>
6.066 * [simplify]: Simplifying (* (cbrt (* y.re (log (hypot x.re x.im)))) (cbrt (* y.re (log (hypot x.re x.im)))))
6.066 * * [simplify]: iters left: 6 (8 enodes)
6.069 * * [simplify]: iters left: 5 (25 enodes)
6.076 * * [simplify]: Extracting #0: cost 1 inf + 0
6.076 * * [simplify]: Extracting #1: cost 3 inf + 0
6.076 * * [simplify]: Extracting #2: cost 5 inf + 0
6.076 * * [simplify]: Extracting #3: cost 8 inf + 0
6.076 * * [simplify]: Extracting #4: cost 9 inf + 1
6.076 * * [simplify]: Extracting #5: cost 12 inf + 1
6.076 * * [simplify]: Extracting #6: cost 9 inf + 60
6.077 * * [simplify]: Extracting #7: cost 5 inf + 539
6.077 * * [simplify]: Extracting #8: cost 1 inf + 1491
6.077 * * [simplify]: Extracting #9: cost 0 inf + 1779
6.078 * [simplify]: Simplified to (* (cbrt (* (log (hypot x.re x.im)) y.re)) (cbrt (* (log (hypot x.re x.im)) y.re)))
6.078 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* (cbrt (* (log (hypot x.re x.im)) y.re)) (cbrt (* (log (hypot x.re x.im)) y.re))) (cbrt (* y.re (log (hypot x.re x.im)))))))))
6.078 * [simplify]: Simplifying (cbrt (* y.re (log (hypot x.re x.im))))
6.078 * * [simplify]: iters left: 5 (7 enodes)
6.081 * * [simplify]: iters left: 4 (22 enodes)
6.085 * * [simplify]: Extracting #0: cost 1 inf + 0
6.085 * * [simplify]: Extracting #1: cost 3 inf + 0
6.085 * * [simplify]: Extracting #2: cost 6 inf + 0
6.086 * * [simplify]: Extracting #3: cost 7 inf + 1
6.086 * * [simplify]: Extracting #4: cost 10 inf + 1
6.086 * * [simplify]: Extracting #5: cost 8 inf + 3
6.086 * * [simplify]: Extracting #6: cost 1 inf + 955
6.086 * * [simplify]: Extracting #7: cost 0 inf + 1203
6.086 * [simplify]: Simplified to (cbrt (* (log (hypot x.re x.im)) y.re))
6.086 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* (cbrt (* y.re (log (hypot x.re x.im)))) (cbrt (* y.re (log (hypot x.re x.im))))) (cbrt (* (log (hypot x.re x.im)) y.re)))))))
6.086 * * * * [progress]: [ 42 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (cbrt (* (* (* y.re (log (hypot x.re x.im))) (* y.re (log (hypot x.re x.im)))) (* y.re (log (hypot x.re x.im)))))))))>
6.086 * [simplify]: Simplifying (* (* (* y.re (log (hypot x.re x.im))) (* y.re (log (hypot x.re x.im)))) (* y.re (log (hypot x.re x.im))))
6.086 * * [simplify]: iters left: 6 (8 enodes)
6.088 * * [simplify]: iters left: 5 (35 enodes)
6.094 * * [simplify]: iters left: 4 (75 enodes)
6.109 * * [simplify]: iters left: 3 (132 enodes)
6.149 * * [simplify]: iters left: 2 (162 enodes)
6.188 * * [simplify]: iters left: 1 (234 enodes)
6.301 * * [simplify]: Extracting #0: cost 1 inf + 0
6.302 * * [simplify]: Extracting #1: cost 39 inf + 0
6.302 * * [simplify]: Extracting #2: cost 95 inf + 43
6.303 * * [simplify]: Extracting #3: cost 89 inf + 1097
6.305 * * [simplify]: Extracting #4: cost 73 inf + 4157
6.310 * * [simplify]: Extracting #5: cost 23 inf + 24568
6.319 * * [simplify]: Extracting #6: cost 2 inf + 34168
6.328 * * [simplify]: Extracting #7: cost 0 inf + 35337
6.336 * [simplify]: Simplified to (* (* (log (hypot x.re x.im)) y.re) (* (* (log (hypot x.re x.im)) y.re) (* (log (hypot x.re x.im)) y.re)))
6.337 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (cbrt (* (* (log (hypot x.re x.im)) y.re) (* (* (log (hypot x.re x.im)) y.re) (* (log (hypot x.re x.im)) y.re))))))))
6.337 * * * * [progress]: [ 43 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (sqrt (* y.re (log (hypot x.re x.im)))) (sqrt (* y.re (log (hypot x.re x.im)))))))))>
6.337 * [simplify]: Simplifying (sqrt (* y.re (log (hypot x.re x.im))))
6.337 * * [simplify]: iters left: 5 (7 enodes)
6.340 * * [simplify]: iters left: 4 (22 enodes)
6.343 * * [simplify]: Extracting #0: cost 1 inf + 0
6.343 * * [simplify]: Extracting #1: cost 3 inf + 0
6.343 * * [simplify]: Extracting #2: cost 6 inf + 0
6.343 * * [simplify]: Extracting #3: cost 7 inf + 1
6.343 * * [simplify]: Extracting #4: cost 10 inf + 1
6.343 * * [simplify]: Extracting #5: cost 8 inf + 3
6.343 * * [simplify]: Extracting #6: cost 1 inf + 915
6.343 * * [simplify]: Extracting #7: cost 0 inf + 1123
6.343 * [simplify]: Simplified to (sqrt (* (log (hypot x.re x.im)) y.re))
6.343 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (sqrt (* (log (hypot x.re x.im)) y.re)) (sqrt (* y.re (log (hypot x.re x.im)))))))))
6.343 * [simplify]: Simplifying (sqrt (* y.re (log (hypot x.re x.im))))
6.344 * * [simplify]: iters left: 5 (7 enodes)
6.345 * * [simplify]: iters left: 4 (22 enodes)
6.348 * * [simplify]: Extracting #0: cost 1 inf + 0
6.348 * * [simplify]: Extracting #1: cost 3 inf + 0
6.348 * * [simplify]: Extracting #2: cost 6 inf + 0
6.348 * * [simplify]: Extracting #3: cost 7 inf + 1
6.348 * * [simplify]: Extracting #4: cost 10 inf + 1
6.348 * * [simplify]: Extracting #5: cost 8 inf + 3
6.348 * * [simplify]: Extracting #6: cost 1 inf + 915
6.348 * * [simplify]: Extracting #7: cost 0 inf + 1123
6.348 * [simplify]: Simplified to (sqrt (* (log (hypot x.re x.im)) y.re))
6.348 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (sqrt (* y.re (log (hypot x.re x.im)))) (sqrt (* (log (hypot x.re x.im)) y.re)))))))
6.348 * * * * [progress]: [ 44 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* 1 (* y.re (log (hypot x.re x.im))))))))>
6.349 * * * * [progress]: [ 45 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* (sqrt y.re) (sqrt (log (hypot x.re x.im)))) (* (sqrt y.re) (sqrt (log (hypot x.re x.im)))))))))>
6.349 * [simplify]: Simplifying (* (sqrt y.re) (sqrt (log (hypot x.re x.im))))
6.349 * * [simplify]: iters left: 5 (8 enodes)
6.350 * * [simplify]: iters left: 4 (25 enodes)
6.354 * * [simplify]: Extracting #0: cost 1 inf + 0
6.354 * * [simplify]: Extracting #1: cost 4 inf + 0
6.354 * * [simplify]: Extracting #2: cost 8 inf + 0
6.354 * * [simplify]: Extracting #3: cost 9 inf + 1
6.354 * * [simplify]: Extracting #4: cost 10 inf + 83
6.354 * * [simplify]: Extracting #5: cost 8 inf + 85
6.354 * * [simplify]: Extracting #6: cost 5 inf + 326
6.354 * * [simplify]: Extracting #7: cost 1 inf + 1035
6.354 * * [simplify]: Extracting #8: cost 0 inf + 1283
6.354 * [simplify]: Simplified to (* (sqrt (log (hypot x.re x.im))) (sqrt y.re))
6.354 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* (sqrt (log (hypot x.re x.im))) (sqrt y.re)) (* (sqrt y.re) (sqrt (log (hypot x.re x.im)))))))))
6.355 * [simplify]: Simplifying (* (sqrt y.re) (sqrt (log (hypot x.re x.im))))
6.355 * * [simplify]: iters left: 5 (8 enodes)
6.356 * * [simplify]: iters left: 4 (25 enodes)
6.362 * * [simplify]: Extracting #0: cost 1 inf + 0
6.362 * * [simplify]: Extracting #1: cost 4 inf + 0
6.362 * * [simplify]: Extracting #2: cost 8 inf + 0
6.362 * * [simplify]: Extracting #3: cost 9 inf + 1
6.362 * * [simplify]: Extracting #4: cost 10 inf + 83
6.362 * * [simplify]: Extracting #5: cost 8 inf + 85
6.362 * * [simplify]: Extracting #6: cost 5 inf + 326
6.362 * * [simplify]: Extracting #7: cost 1 inf + 1035
6.363 * * [simplify]: Extracting #8: cost 0 inf + 1283
6.363 * [simplify]: Simplified to (* (sqrt (log (hypot x.re x.im))) (sqrt y.re))
6.363 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* (sqrt y.re) (sqrt (log (hypot x.re x.im)))) (* (sqrt (log (hypot x.re x.im))) (sqrt y.re)))))))
6.363 * * * * [progress]: [ 46 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* y.re (log (* (cbrt (hypot x.re x.im)) (cbrt (hypot x.re x.im))))) (* y.re (log (cbrt (hypot x.re x.im)))))))))>
6.363 * [simplify]: Simplifying (* y.re (log (* (cbrt (hypot x.re x.im)) (cbrt (hypot x.re x.im)))))
6.363 * * [simplify]: iters left: 6 (8 enodes)
6.365 * * [simplify]: iters left: 5 (27 enodes)
6.369 * * [simplify]: iters left: 4 (33 enodes)
6.374 * * [simplify]: iters left: 3 (41 enodes)
6.379 * * [simplify]: iters left: 2 (43 enodes)
6.384 * * [simplify]: Extracting #0: cost 1 inf + 0
6.384 * * [simplify]: Extracting #1: cost 7 inf + 0
6.384 * * [simplify]: Extracting #2: cost 12 inf + 1
6.384 * * [simplify]: Extracting #3: cost 13 inf + 83
6.384 * * [simplify]: Extracting #4: cost 16 inf + 83
6.384 * * [simplify]: Extracting #5: cost 13 inf + 142
6.385 * * [simplify]: Extracting #6: cost 4 inf + 1848
6.385 * * [simplify]: Extracting #7: cost 0 inf + 2807
6.385 * [simplify]: Simplified to (* (log (cbrt (hypot x.re x.im))) (+ y.re y.re))
6.385 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* (log (cbrt (hypot x.re x.im))) (+ y.re y.re)) (* y.re (log (cbrt (hypot x.re x.im)))))))))
6.386 * [simplify]: Simplifying (* y.re (log (cbrt (hypot x.re x.im))))
6.386 * * [simplify]: iters left: 5 (7 enodes)
6.387 * * [simplify]: iters left: 4 (22 enodes)
6.390 * * [simplify]: Extracting #0: cost 1 inf + 0
6.390 * * [simplify]: Extracting #1: cost 4 inf + 0
6.390 * * [simplify]: Extracting #2: cost 5 inf + 1
6.390 * * [simplify]: Extracting #3: cost 7 inf + 1
6.390 * * [simplify]: Extracting #4: cost 10 inf + 1
6.390 * * [simplify]: Extracting #5: cost 8 inf + 3
6.391 * * [simplify]: Extracting #6: cost 1 inf + 1053
6.391 * * [simplify]: Extracting #7: cost 0 inf + 1301
6.391 * [simplify]: Simplified to (* (log (cbrt (hypot x.re x.im))) y.re)
6.391 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* (log (cbrt (hypot x.re x.im))) (+ y.re y.re)) (* (log (cbrt (hypot x.re x.im))) y.re))))))
6.391 * * * * [progress]: [ 47 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* y.re (log (sqrt (hypot x.re x.im)))) (* y.re (log (sqrt (hypot x.re x.im)))))))))>
6.391 * [simplify]: Simplifying (* y.re (log (sqrt (hypot x.re x.im))))
6.391 * * [simplify]: iters left: 5 (7 enodes)
6.394 * * [simplify]: iters left: 4 (22 enodes)
6.399 * * [simplify]: Extracting #0: cost 1 inf + 0
6.400 * * [simplify]: Extracting #1: cost 4 inf + 0
6.400 * * [simplify]: Extracting #2: cost 5 inf + 1
6.400 * * [simplify]: Extracting #3: cost 7 inf + 1
6.400 * * [simplify]: Extracting #4: cost 10 inf + 1
6.400 * * [simplify]: Extracting #5: cost 8 inf + 3
6.400 * * [simplify]: Extracting #6: cost 1 inf + 853
6.400 * * [simplify]: Extracting #7: cost 0 inf + 1061
6.401 * [simplify]: Simplified to (* (log (sqrt (hypot x.re x.im))) y.re)
6.401 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* (log (sqrt (hypot x.re x.im))) y.re) (* y.re (log (sqrt (hypot x.re x.im)))))))))
6.401 * [simplify]: Simplifying (* y.re (log (sqrt (hypot x.re x.im))))
6.401 * * [simplify]: iters left: 5 (7 enodes)
6.404 * * [simplify]: iters left: 4 (22 enodes)
6.409 * * [simplify]: Extracting #0: cost 1 inf + 0
6.410 * * [simplify]: Extracting #1: cost 4 inf + 0
6.410 * * [simplify]: Extracting #2: cost 5 inf + 1
6.410 * * [simplify]: Extracting #3: cost 7 inf + 1
6.410 * * [simplify]: Extracting #4: cost 10 inf + 1
6.410 * * [simplify]: Extracting #5: cost 8 inf + 3
6.410 * * [simplify]: Extracting #6: cost 1 inf + 853
6.410 * * [simplify]: Extracting #7: cost 0 inf + 1061
6.411 * [simplify]: Simplified to (* (log (sqrt (hypot x.re x.im))) y.re)
6.411 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* y.re (log (sqrt (hypot x.re x.im)))) (* (log (sqrt (hypot x.re x.im))) y.re))))))
6.411 * * * * [progress]: [ 48 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* y.re (log 1)) (* y.re (log (hypot x.re x.im))))))))>
6.411 * [simplify]: Simplifying (* y.re (log 1))
6.411 * * [simplify]: iters left: 3 (4 enodes)
6.415 * * [simplify]: iters left: 2 (15 enodes)
6.420 * * [simplify]: Extracting #0: cost 1 inf + 0
6.420 * * [simplify]: Extracting #1: cost 0 inf + 1
6.420 * [simplify]: Simplified to 0
6.420 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ 0 (* y.re (log (hypot x.re x.im))))))))
6.421 * [simplify]: Simplifying (* y.re (log (hypot x.re x.im)))
6.421 * * [simplify]: iters left: 4 (6 enodes)
6.423 * * [simplify]: iters left: 3 (19 enodes)
6.428 * * [simplify]: Extracting #0: cost 1 inf + 0
6.428 * * [simplify]: Extracting #1: cost 4 inf + 0
6.428 * * [simplify]: Extracting #2: cost 5 inf + 1
6.428 * * [simplify]: Extracting #3: cost 8 inf + 1
6.428 * * [simplify]: Extracting #4: cost 0 inf + 707
6.428 * [simplify]: Simplified to (* (log (hypot x.re x.im)) y.re)
6.428 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ 0 (* (log (hypot x.re x.im)) y.re))))))
6.429 * * * * [progress]: [ 49 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* (log (* (cbrt (hypot x.re x.im)) (cbrt (hypot x.re x.im)))) y.re) (* (log (cbrt (hypot x.re x.im))) y.re))))))>
6.429 * [simplify]: Simplifying (* (log (* (cbrt (hypot x.re x.im)) (cbrt (hypot x.re x.im)))) y.re)
6.429 * * [simplify]: iters left: 6 (8 enodes)
6.432 * * [simplify]: iters left: 5 (27 enodes)
6.435 * * [simplify]: iters left: 4 (33 enodes)
6.440 * * [simplify]: iters left: 3 (41 enodes)
6.445 * * [simplify]: iters left: 2 (43 enodes)
6.450 * * [simplify]: Extracting #0: cost 1 inf + 0
6.450 * * [simplify]: Extracting #1: cost 7 inf + 0
6.450 * * [simplify]: Extracting #2: cost 12 inf + 1
6.450 * * [simplify]: Extracting #3: cost 13 inf + 83
6.450 * * [simplify]: Extracting #4: cost 16 inf + 83
6.450 * * [simplify]: Extracting #5: cost 14 inf + 85
6.450 * * [simplify]: Extracting #6: cost 11 inf + 336
6.451 * * [simplify]: Extracting #7: cost 2 inf + 2272
6.451 * * [simplify]: Extracting #8: cost 0 inf + 2807
6.451 * [simplify]: Simplified to (* (log (cbrt (hypot x.re x.im))) (+ y.re y.re))
6.452 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* (log (cbrt (hypot x.re x.im))) (+ y.re y.re)) (* (log (cbrt (hypot x.re x.im))) y.re))))))
6.452 * [simplify]: Simplifying (* (log (cbrt (hypot x.re x.im))) y.re)
6.452 * * [simplify]: iters left: 5 (7 enodes)
6.453 * * [simplify]: iters left: 4 (22 enodes)
6.457 * * [simplify]: Extracting #0: cost 1 inf + 0
6.457 * * [simplify]: Extracting #1: cost 4 inf + 0
6.457 * * [simplify]: Extracting #2: cost 5 inf + 1
6.457 * * [simplify]: Extracting #3: cost 7 inf + 1
6.457 * * [simplify]: Extracting #4: cost 10 inf + 1
6.458 * * [simplify]: Extracting #5: cost 8 inf + 3
6.458 * * [simplify]: Extracting #6: cost 1 inf + 1053
6.458 * * [simplify]: Extracting #7: cost 0 inf + 1301
6.458 * [simplify]: Simplified to (* (log (cbrt (hypot x.re x.im))) y.re)
6.458 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* (log (cbrt (hypot x.re x.im))) (+ y.re y.re)) (* (log (cbrt (hypot x.re x.im))) y.re))))))
6.458 * * * * [progress]: [ 50 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* (log (sqrt (hypot x.re x.im))) y.re) (* (log (sqrt (hypot x.re x.im))) y.re))))))>
6.458 * [simplify]: Simplifying (* (log (sqrt (hypot x.re x.im))) y.re)
6.458 * * [simplify]: iters left: 5 (7 enodes)
6.460 * * [simplify]: iters left: 4 (22 enodes)
6.463 * * [simplify]: Extracting #0: cost 1 inf + 0
6.463 * * [simplify]: Extracting #1: cost 4 inf + 0
6.463 * * [simplify]: Extracting #2: cost 5 inf + 1
6.463 * * [simplify]: Extracting #3: cost 7 inf + 1
6.463 * * [simplify]: Extracting #4: cost 10 inf + 1
6.463 * * [simplify]: Extracting #5: cost 8 inf + 3
6.463 * * [simplify]: Extracting #6: cost 1 inf + 853
6.463 * * [simplify]: Extracting #7: cost 0 inf + 1061
6.463 * [simplify]: Simplified to (* (log (sqrt (hypot x.re x.im))) y.re)
6.463 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* (log (sqrt (hypot x.re x.im))) y.re) (* (log (sqrt (hypot x.re x.im))) y.re))))))
6.463 * [simplify]: Simplifying (* (log (sqrt (hypot x.re x.im))) y.re)
6.463 * * [simplify]: iters left: 5 (7 enodes)
6.465 * * [simplify]: iters left: 4 (22 enodes)
6.468 * * [simplify]: Extracting #0: cost 1 inf + 0
6.468 * * [simplify]: Extracting #1: cost 4 inf + 0
6.468 * * [simplify]: Extracting #2: cost 5 inf + 1
6.468 * * [simplify]: Extracting #3: cost 7 inf + 1
6.468 * * [simplify]: Extracting #4: cost 10 inf + 1
6.468 * * [simplify]: Extracting #5: cost 8 inf + 3
6.468 * * [simplify]: Extracting #6: cost 1 inf + 853
6.468 * * [simplify]: Extracting #7: cost 0 inf + 1061
6.468 * [simplify]: Simplified to (* (log (sqrt (hypot x.re x.im))) y.re)
6.468 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* (log (sqrt (hypot x.re x.im))) y.re) (* (log (sqrt (hypot x.re x.im))) y.re))))))
6.468 * * * * [progress]: [ 51 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ (* (log 1) y.re) (* (log (hypot x.re x.im)) y.re))))))>
6.469 * [simplify]: Simplifying (* (log 1) y.re)
6.469 * * [simplify]: iters left: 3 (4 enodes)
6.470 * * [simplify]: iters left: 2 (15 enodes)
6.473 * * [simplify]: Extracting #0: cost 1 inf + 0
6.473 * * [simplify]: Extracting #1: cost 0 inf + 1
6.473 * [simplify]: Simplified to 0
6.473 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ 0 (* (log (hypot x.re x.im)) y.re))))))
6.473 * [simplify]: Simplifying (* (log (hypot x.re x.im)) y.re)
6.473 * * [simplify]: iters left: 4 (6 enodes)
6.475 * * [simplify]: iters left: 3 (19 enodes)
6.477 * * [simplify]: Extracting #0: cost 1 inf + 0
6.477 * * [simplify]: Extracting #1: cost 4 inf + 0
6.477 * * [simplify]: Extracting #2: cost 5 inf + 1
6.477 * * [simplify]: Extracting #3: cost 8 inf + 1
6.477 * * [simplify]: Extracting #4: cost 6 inf + 3
6.477 * * [simplify]: Extracting #5: cost 0 inf + 707
6.477 * [simplify]: Simplified to (* (log (hypot x.re x.im)) y.re)
6.477 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (+ 0 (* (log (hypot x.re x.im)) y.re))))))
6.477 * * * * [progress]: [ 52 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* y.re 1) (log (hypot x.re x.im)))))))>
6.478 * [simplify]: Simplifying (* y.re 1)
6.478 * * [simplify]: iters left: 2 (3 enodes)
6.479 * * [simplify]: iters left: 1 (9 enodes)
6.480 * * [simplify]: Extracting #0: cost 1 inf + 0
6.480 * * [simplify]: Extracting #1: cost 0 inf + 1
6.480 * [simplify]: Simplified to y.re
6.480 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
6.480 * * * * [progress]: [ 53 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* y.re (* (cbrt (log (hypot x.re x.im))) (cbrt (log (hypot x.re x.im))))) (cbrt (log (hypot x.re x.im))))))))>
6.481 * [simplify]: Simplifying (* y.re (* (cbrt (log (hypot x.re x.im))) (cbrt (log (hypot x.re x.im)))))
6.481 * * [simplify]: iters left: 6 (8 enodes)
6.482 * * [simplify]: iters left: 5 (27 enodes)
6.486 * * [simplify]: iters left: 4 (31 enodes)
6.490 * * [simplify]: Extracting #0: cost 1 inf + 0
6.490 * * [simplify]: Extracting #1: cost 6 inf + 0
6.490 * * [simplify]: Extracting #2: cost 9 inf + 1
6.490 * * [simplify]: Extracting #3: cost 11 inf + 1
6.490 * * [simplify]: Extracting #4: cost 14 inf + 1
6.490 * * [simplify]: Extracting #5: cost 11 inf + 60
6.490 * * [simplify]: Extracting #6: cost 7 inf + 578
6.491 * * [simplify]: Extracting #7: cost 1 inf + 2063
6.491 * * [simplify]: Extracting #8: cost 0 inf + 2351
6.491 * [simplify]: Simplified to (* (* (cbrt (log (hypot x.re x.im))) y.re) (cbrt (log (hypot x.re x.im))))
6.491 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* (* (cbrt (log (hypot x.re x.im))) y.re) (cbrt (log (hypot x.re x.im)))) (cbrt (log (hypot x.re x.im))))))))
6.491 * * * * [progress]: [ 54 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* y.re (sqrt (log (hypot x.re x.im)))) (sqrt (log (hypot x.re x.im))))))))>
6.491 * [simplify]: Simplifying (* y.re (sqrt (log (hypot x.re x.im))))
6.492 * * [simplify]: iters left: 5 (7 enodes)
6.493 * * [simplify]: iters left: 4 (22 enodes)
6.496 * * [simplify]: Extracting #0: cost 1 inf + 0
6.496 * * [simplify]: Extracting #1: cost 4 inf + 0
6.496 * * [simplify]: Extracting #2: cost 5 inf + 1
6.496 * * [simplify]: Extracting #3: cost 7 inf + 1
6.496 * * [simplify]: Extracting #4: cost 10 inf + 1
6.496 * * [simplify]: Extracting #5: cost 8 inf + 3
6.496 * * [simplify]: Extracting #6: cost 1 inf + 913
6.496 * * [simplify]: Extracting #7: cost 0 inf + 1121
6.496 * [simplify]: Simplified to (* (sqrt (log (hypot x.re x.im))) y.re)
6.496 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* (sqrt (log (hypot x.re x.im))) y.re) (sqrt (log (hypot x.re x.im))))))))
6.496 * * * * [progress]: [ 55 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* y.re 1) (log (hypot x.re x.im)))))))>
6.497 * [simplify]: Simplifying (* y.re 1)
6.497 * * [simplify]: iters left: 2 (3 enodes)
6.498 * * [simplify]: iters left: 1 (9 enodes)
6.499 * * [simplify]: Extracting #0: cost 1 inf + 0
6.499 * * [simplify]: Extracting #1: cost 0 inf + 1
6.499 * [simplify]: Simplified to y.re
6.499 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
6.500 * * * * [progress]: [ 56 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* (cbrt y.re) (cbrt y.re)) (* (cbrt y.re) (log (hypot x.re x.im))))))))>
6.500 * [simplify]: Simplifying (* (cbrt y.re) (log (hypot x.re x.im)))
6.500 * * [simplify]: iters left: 4 (7 enodes)
6.501 * * [simplify]: iters left: 3 (22 enodes)
6.504 * * [simplify]: Extracting #0: cost 1 inf + 0
6.504 * * [simplify]: Extracting #1: cost 4 inf + 0
6.504 * * [simplify]: Extracting #2: cost 8 inf + 0
6.504 * * [simplify]: Extracting #3: cost 10 inf + 1
6.504 * * [simplify]: Extracting #4: cost 6 inf + 165
6.504 * * [simplify]: Extracting #5: cost 1 inf + 781
6.504 * * [simplify]: Extracting #6: cost 0 inf + 1029
6.504 * [simplify]: Simplified to (* (log (hypot x.re x.im)) (cbrt y.re))
6.504 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (* (cbrt y.re) (cbrt y.re)) (* (log (hypot x.re x.im)) (cbrt y.re)))))))
6.505 * * * * [progress]: [ 57 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (sqrt y.re) (* (sqrt y.re) (log (hypot x.re x.im))))))))>
6.505 * [simplify]: Simplifying (* (sqrt y.re) (log (hypot x.re x.im)))
6.505 * * [simplify]: iters left: 4 (7 enodes)
6.506 * * [simplify]: iters left: 3 (22 enodes)
6.509 * * [simplify]: Extracting #0: cost 1 inf + 0
6.509 * * [simplify]: Extracting #1: cost 4 inf + 0
6.509 * * [simplify]: Extracting #2: cost 8 inf + 0
6.509 * * [simplify]: Extracting #3: cost 10 inf + 1
6.509 * * [simplify]: Extracting #4: cost 6 inf + 85
6.509 * * [simplify]: Extracting #5: cost 1 inf + 661
6.509 * * [simplify]: Extracting #6: cost 0 inf + 869
6.509 * [simplify]: Simplified to (* (log (hypot x.re x.im)) (sqrt y.re))
6.510 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (sqrt y.re) (* (log (hypot x.re x.im)) (sqrt y.re)))))))
6.510 * * * * [progress]: [ 58 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* 1 (* y.re (log (hypot x.re x.im))))))))>
6.510 * [simplify]: Simplifying (* y.re (log (hypot x.re x.im)))
6.510 * * [simplify]: iters left: 4 (6 enodes)
6.511 * * [simplify]: iters left: 3 (19 enodes)
6.513 * * [simplify]: Extracting #0: cost 1 inf + 0
6.514 * * [simplify]: Extracting #1: cost 4 inf + 0
6.514 * * [simplify]: Extracting #2: cost 5 inf + 1
6.514 * * [simplify]: Extracting #3: cost 8 inf + 1
6.514 * * [simplify]: Extracting #4: cost 0 inf + 707
6.514 * [simplify]: Simplified to (* (log (hypot x.re x.im)) y.re)
6.514 * [simplify]: Simplified (2 2 1 2 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* 1 (* (log (hypot x.re x.im)) y.re))))))
6.514 * * * * [progress]: [ 59 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (posit16->real (real->posit16 (* y.re (log (hypot x.re x.im)))))))))>
6.514 * [simplify]: Simplifying (real->posit16 (* y.re (log (hypot x.re x.im))))
6.514 * * [simplify]: iters left: 5 (7 enodes)
6.516 * * [simplify]: iters left: 4 (19 enodes)
6.518 * * [simplify]: Extracting #0: cost 1 inf + 0
6.518 * * [simplify]: Extracting #1: cost 2 inf + 0
6.518 * * [simplify]: Extracting #2: cost 4 inf + 0
6.518 * * [simplify]: Extracting #3: cost 5 inf + 1
6.518 * * [simplify]: Extracting #4: cost 8 inf + 1
6.518 * * [simplify]: Extracting #5: cost 0 inf + 707
6.518 * [simplify]: Simplified to (real->posit16 (* (log (hypot x.re x.im)) y.re))
6.519 * [simplify]: Simplified (2 2 1 2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (posit16->real (real->posit16 (* (log (hypot x.re x.im)) y.re)))))))
6.519 * * * * [progress]: [ 60 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (log (hypot x.re x.im)) y.re)))))>
6.519 * * * * [progress]: [ 61 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (log1p (expm1 (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
6.519 * [simplify]: Simplifying (expm1 (* (atan2 x.im x.re) y.re))
6.519 * * [simplify]: iters left: 4 (6 enodes)
6.520 * * [simplify]: iters left: 3 (19 enodes)
6.523 * * [simplify]: Extracting #0: cost 1 inf + 0
6.523 * * [simplify]: Extracting #1: cost 3 inf + 0
6.523 * * [simplify]: Extracting #2: cost 6 inf + 0
6.523 * * [simplify]: Extracting #3: cost 8 inf + 1
6.523 * * [simplify]: Extracting #4: cost 6 inf + 3
6.523 * * [simplify]: Extracting #5: cost 0 inf + 1159
6.523 * [simplify]: Simplified to (expm1 (* (atan2 x.im x.re) y.re))
6.523 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (log1p (expm1 (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
6.523 * * * * [progress]: [ 62 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (expm1 (log1p (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
6.523 * [simplify]: Simplifying (log1p (* (atan2 x.im x.re) y.re))
6.523 * * [simplify]: iters left: 4 (6 enodes)
6.525 * * [simplify]: iters left: 3 (19 enodes)
6.527 * * [simplify]: Extracting #0: cost 1 inf + 0
6.527 * * [simplify]: Extracting #1: cost 3 inf + 0
6.527 * * [simplify]: Extracting #2: cost 6 inf + 0
6.527 * * [simplify]: Extracting #3: cost 8 inf + 1
6.527 * * [simplify]: Extracting #4: cost 6 inf + 3
6.527 * * [simplify]: Extracting #5: cost 0 inf + 1199
6.528 * [simplify]: Simplified to (log1p (* (atan2 x.im x.re) y.re))
6.528 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (expm1 (log1p (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
6.528 * * * * [progress]: [ 63 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (pow (* (atan2 x.im x.re) y.re) 1))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
6.528 * [simplify]: Simplifying (* (atan2 x.im x.re) y.re)
6.528 * * [simplify]: iters left: 3 (5 enodes)
6.530 * * [simplify]: iters left: 2 (16 enodes)
6.534 * * [simplify]: Extracting #0: cost 1 inf + 0
6.534 * * [simplify]: Extracting #1: cost 4 inf + 0
6.534 * * [simplify]: Extracting #2: cost 6 inf + 1
6.535 * * [simplify]: Extracting #3: cost 4 inf + 3
6.535 * * [simplify]: Extracting #4: cost 0 inf + 653
6.535 * [simplify]: Simplified to (* (atan2 x.im x.re) y.re)
6.535 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (pow (* (atan2 x.im x.re) y.re) 1))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
6.535 * * * * [progress]: [ 64 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (pow (* (atan2 x.im x.re) y.re) 1))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
6.535 * * * * [progress]: [ 65 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (exp (+ (log (atan2 x.im x.re)) (log y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
6.535 * [simplify]: Simplifying (+ (log (atan2 x.im x.re)) (log y.re))
6.535 * * [simplify]: iters left: 4 (7 enodes)
6.538 * * [simplify]: iters left: 3 (22 enodes)
6.545 * * [simplify]: Extracting #0: cost 1 inf + 0
6.545 * * [simplify]: Extracting #1: cost 4 inf + 0
6.545 * * [simplify]: Extracting #2: cost 8 inf + 0
6.546 * * [simplify]: Extracting #3: cost 8 inf + 143
6.546 * * [simplify]: Extracting #4: cost 6 inf + 145
6.546 * * [simplify]: Extracting #5: cost 1 inf + 1176
6.546 * * [simplify]: Extracting #6: cost 0 inf + 1499
6.546 * [simplify]: Simplified to (+ (log (atan2 x.im x.re)) (log y.re))
6.547 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (exp (+ (log (atan2 x.im x.re)) (log y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
6.547 * * * * [progress]: [ 66 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (exp (log (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
6.547 * [simplify]: Simplifying (log (* (atan2 x.im x.re) y.re))
6.547 * * [simplify]: iters left: 4 (6 enodes)
6.550 * * [simplify]: iters left: 3 (22 enodes)
6.556 * * [simplify]: iters left: 2 (27 enodes)
6.559 * * [simplify]: Extracting #0: cost 1 inf + 0
6.559 * * [simplify]: Extracting #1: cost 5 inf + 0
6.559 * * [simplify]: Extracting #2: cost 10 inf + 0
6.559 * * [simplify]: Extracting #3: cost 10 inf + 143
6.559 * * [simplify]: Extracting #4: cost 8 inf + 145
6.559 * * [simplify]: Extracting #5: cost 1 inf + 1472
6.560 * * [simplify]: Extracting #6: cost 0 inf + 1725
6.560 * [simplify]: Simplified to (log (* (atan2 x.im x.re) y.re))
6.560 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (exp (log (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
6.560 * * * * [progress]: [ 67 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (log (exp (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
6.560 * [simplify]: Simplifying (exp (* (atan2 x.im x.re) y.re))
6.560 * * [simplify]: iters left: 4 (6 enodes)
6.561 * * [simplify]: iters left: 3 (21 enodes)
6.564 * * [simplify]: iters left: 2 (29 enodes)
6.568 * * [simplify]: iters left: 1 (42 enodes)
6.576 * * [simplify]: Extracting #0: cost 1 inf + 0
6.576 * * [simplify]: Extracting #1: cost 14 inf + 0
6.576 * * [simplify]: Extracting #2: cost 29 inf + 72
6.576 * * [simplify]: Extracting #3: cost 26 inf + 312
6.576 * * [simplify]: Extracting #4: cost 11 inf + 2978
6.577 * * [simplify]: Extracting #5: cost 2 inf + 6232
6.577 * * [simplify]: Extracting #6: cost 0 inf + 7451
6.578 * [simplify]: Simplified to (exp (* (atan2 x.im x.re) y.re))
6.578 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (log (exp (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
6.578 * * * * [progress]: [ 68 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (cbrt (* (* (* (atan2 x.im x.re) (atan2 x.im x.re)) (atan2 x.im x.re)) (* (* y.re y.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
6.578 * [simplify]: Simplifying (* (* (* (atan2 x.im x.re) (atan2 x.im x.re)) (atan2 x.im x.re)) (* (* y.re y.re) y.re))
6.578 * * [simplify]: iters left: 6 (9 enodes)
6.580 * * [simplify]: iters left: 5 (34 enodes)
6.588 * * [simplify]: iters left: 4 (63 enodes)
6.611 * * [simplify]: iters left: 3 (121 enodes)
6.660 * * [simplify]: iters left: 2 (194 enodes)
6.734 * * [simplify]: iters left: 1 (376 enodes)
6.891 * * [simplify]: Extracting #0: cost 1 inf + 0
6.892 * * [simplify]: Extracting #1: cost 72 inf + 0
6.893 * * [simplify]: Extracting #2: cost 179 inf + 124
6.895 * * [simplify]: Extracting #3: cost 154 inf + 6887
6.905 * * [simplify]: Extracting #4: cost 50 inf + 64426
6.921 * * [simplify]: Extracting #5: cost 0 inf + 93425
6.937 * * [simplify]: Extracting #6: cost 0 inf + 93305
6.949 * [simplify]: Simplified to (* (* (* (atan2 x.im x.re) y.re) (* (atan2 x.im x.re) y.re)) (* (atan2 x.im x.re) y.re))
6.949 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (cbrt (* (* (* (atan2 x.im x.re) y.re) (* (atan2 x.im x.re) y.re)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
6.949 * * * * [progress]: [ 69 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (cbrt (* (atan2 x.im x.re) y.re)) (cbrt (* (atan2 x.im x.re) y.re))) (cbrt (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
6.949 * [simplify]: Simplifying (* (cbrt (* (atan2 x.im x.re) y.re)) (cbrt (* (atan2 x.im x.re) y.re)))
6.949 * * [simplify]: iters left: 6 (7 enodes)
6.951 * * [simplify]: iters left: 5 (22 enodes)
6.953 * * [simplify]: Extracting #0: cost 1 inf + 0
6.953 * * [simplify]: Extracting #1: cost 3 inf + 0
6.953 * * [simplify]: Extracting #2: cost 5 inf + 0
6.954 * * [simplify]: Extracting #3: cost 8 inf + 0
6.954 * * [simplify]: Extracting #4: cost 10 inf + 1
6.954 * * [simplify]: Extracting #5: cost 8 inf + 3
6.954 * * [simplify]: Extracting #6: cost 1 inf + 1482
6.954 * * [simplify]: Extracting #7: cost 0 inf + 1785
6.954 * [simplify]: Simplified to (* (cbrt (* (atan2 x.im x.re) y.re)) (cbrt (* (atan2 x.im x.re) y.re)))
6.954 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (cbrt (* (atan2 x.im x.re) y.re)) (cbrt (* (atan2 x.im x.re) y.re))) (cbrt (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
6.954 * [simplify]: Simplifying (cbrt (* (atan2 x.im x.re) y.re))
6.954 * * [simplify]: iters left: 4 (6 enodes)
6.956 * * [simplify]: iters left: 3 (19 enodes)
6.958 * * [simplify]: Extracting #0: cost 1 inf + 0
6.958 * * [simplify]: Extracting #1: cost 3 inf + 0
6.958 * * [simplify]: Extracting #2: cost 6 inf + 0
6.958 * * [simplify]: Extracting #3: cost 8 inf + 1
6.958 * * [simplify]: Extracting #4: cost 6 inf + 3
6.958 * * [simplify]: Extracting #5: cost 0 inf + 1179
6.958 * [simplify]: Simplified to (cbrt (* (atan2 x.im x.re) y.re))
6.958 * [simplify]: Simplified (2 1 1 3 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (cbrt (* (atan2 x.im x.re) y.re)) (cbrt (* (atan2 x.im x.re) y.re))) (cbrt (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
6.958 * * * * [progress]: [ 70 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (cbrt (* (* (* (atan2 x.im x.re) y.re) (* (atan2 x.im x.re) y.re)) (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
6.958 * [simplify]: Simplifying (* (* (* (atan2 x.im x.re) y.re) (* (atan2 x.im x.re) y.re)) (* (atan2 x.im x.re) y.re))
6.958 * * [simplify]: iters left: 6 (7 enodes)
6.960 * * [simplify]: iters left: 5 (32 enodes)
6.966 * * [simplify]: iters left: 4 (72 enodes)
6.992 * * [simplify]: iters left: 3 (126 enodes)
7.019 * * [simplify]: iters left: 2 (157 enodes)
7.056 * * [simplify]: iters left: 1 (230 enodes)
7.159 * * [simplify]: Extracting #0: cost 1 inf + 0
7.159 * * [simplify]: Extracting #1: cost 38 inf + 0
7.160 * * [simplify]: Extracting #2: cost 94 inf + 124
7.161 * * [simplify]: Extracting #3: cost 73 inf + 3832
7.167 * * [simplify]: Extracting #4: cost 9 inf + 31195
7.174 * * [simplify]: Extracting #5: cost 0 inf + 36376
7.181 * * [simplify]: Extracting #6: cost 0 inf + 36205
7.189 * [simplify]: Simplified to (* (* (atan2 x.im x.re) y.re) (* (* (atan2 x.im x.re) y.re) (* (atan2 x.im x.re) y.re)))
7.189 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (cbrt (* (* (atan2 x.im x.re) y.re) (* (* (atan2 x.im x.re) y.re) (* (atan2 x.im x.re) y.re)))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.189 * * * * [progress]: [ 71 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (sqrt (* (atan2 x.im x.re) y.re)) (sqrt (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.189 * [simplify]: Simplifying (sqrt (* (atan2 x.im x.re) y.re))
7.189 * * [simplify]: iters left: 4 (6 enodes)
7.192 * * [simplify]: iters left: 3 (19 enodes)
7.194 * * [simplify]: Extracting #0: cost 1 inf + 0
7.194 * * [simplify]: Extracting #1: cost 3 inf + 0
7.194 * * [simplify]: Extracting #2: cost 6 inf + 0
7.194 * * [simplify]: Extracting #3: cost 8 inf + 1
7.194 * * [simplify]: Extracting #4: cost 6 inf + 3
7.194 * * [simplify]: Extracting #5: cost 0 inf + 1099
7.194 * [simplify]: Simplified to (sqrt (* (atan2 x.im x.re) y.re))
7.195 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (sqrt (* (atan2 x.im x.re) y.re)) (sqrt (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.195 * [simplify]: Simplifying (sqrt (* (atan2 x.im x.re) y.re))
7.195 * * [simplify]: iters left: 4 (6 enodes)
7.196 * * [simplify]: iters left: 3 (19 enodes)
7.198 * * [simplify]: Extracting #0: cost 1 inf + 0
7.198 * * [simplify]: Extracting #1: cost 3 inf + 0
7.198 * * [simplify]: Extracting #2: cost 6 inf + 0
7.199 * * [simplify]: Extracting #3: cost 8 inf + 1
7.199 * * [simplify]: Extracting #4: cost 6 inf + 3
7.199 * * [simplify]: Extracting #5: cost 0 inf + 1099
7.199 * [simplify]: Simplified to (sqrt (* (atan2 x.im x.re) y.re))
7.199 * [simplify]: Simplified (2 1 1 3 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (sqrt (* (atan2 x.im x.re) y.re)) (sqrt (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.199 * * * * [progress]: [ 72 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* 1 (* (atan2 x.im x.re) y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.199 * * * * [progress]: [ 73 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (sqrt (atan2 x.im x.re)) (sqrt y.re)) (* (sqrt (atan2 x.im x.re)) (sqrt y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.199 * [simplify]: Simplifying (* (sqrt (atan2 x.im x.re)) (sqrt y.re))
7.199 * * [simplify]: iters left: 4 (7 enodes)
7.201 * * [simplify]: iters left: 3 (22 enodes)
7.204 * * [simplify]: Extracting #0: cost 1 inf + 0
7.204 * * [simplify]: Extracting #1: cost 4 inf + 0
7.204 * * [simplify]: Extracting #2: cost 8 inf + 0
7.204 * * [simplify]: Extracting #3: cost 8 inf + 83
7.204 * * [simplify]: Extracting #4: cost 6 inf + 85
7.204 * * [simplify]: Extracting #5: cost 1 inf + 996
7.204 * * [simplify]: Extracting #6: cost 0 inf + 1259
7.204 * [simplify]: Simplified to (* (sqrt (atan2 x.im x.re)) (sqrt y.re))
7.204 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (sqrt (atan2 x.im x.re)) (sqrt y.re)) (* (sqrt (atan2 x.im x.re)) (sqrt y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.204 * [simplify]: Simplifying (* (sqrt (atan2 x.im x.re)) (sqrt y.re))
7.204 * * [simplify]: iters left: 4 (7 enodes)
7.206 * * [simplify]: iters left: 3 (22 enodes)
7.209 * * [simplify]: Extracting #0: cost 1 inf + 0
7.209 * * [simplify]: Extracting #1: cost 4 inf + 0
7.209 * * [simplify]: Extracting #2: cost 8 inf + 0
7.209 * * [simplify]: Extracting #3: cost 8 inf + 83
7.209 * * [simplify]: Extracting #4: cost 6 inf + 85
7.209 * * [simplify]: Extracting #5: cost 1 inf + 996
7.209 * * [simplify]: Extracting #6: cost 0 inf + 1259
7.209 * [simplify]: Simplified to (* (sqrt (atan2 x.im x.re)) (sqrt y.re))
7.209 * [simplify]: Simplified (2 1 1 3 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (sqrt (atan2 x.im x.re)) (sqrt y.re)) (* (sqrt (atan2 x.im x.re)) (sqrt y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.209 * * * * [progress]: [ 74 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (atan2 x.im x.re) (* (cbrt y.re) (cbrt y.re))) (cbrt y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.210 * [simplify]: Simplifying (* (atan2 x.im x.re) (* (cbrt y.re) (cbrt y.re)))
7.210 * * [simplify]: iters left: 5 (7 enodes)
7.211 * * [simplify]: iters left: 4 (24 enodes)
7.214 * * [simplify]: iters left: 3 (28 enodes)
7.218 * * [simplify]: Extracting #0: cost 1 inf + 0
7.218 * * [simplify]: Extracting #1: cost 6 inf + 0
7.218 * * [simplify]: Extracting #2: cost 13 inf + 0
7.218 * * [simplify]: Extracting #3: cost 10 inf + 3
7.218 * * [simplify]: Extracting #4: cost 3 inf + 1096
7.218 * * [simplify]: Extracting #5: cost 1 inf + 1520
7.218 * * [simplify]: Extracting #6: cost 0 inf + 1823
7.219 * [simplify]: Simplified to (* (atan2 x.im x.re) (* (cbrt y.re) (cbrt y.re)))
7.219 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (atan2 x.im x.re) (* (cbrt y.re) (cbrt y.re))) (cbrt y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.219 * * * * [progress]: [ 75 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (atan2 x.im x.re) (sqrt y.re)) (sqrt y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.219 * [simplify]: Simplifying (* (atan2 x.im x.re) (sqrt y.re))
7.219 * * [simplify]: iters left: 3 (6 enodes)
7.220 * * [simplify]: iters left: 2 (19 enodes)
7.222 * * [simplify]: Extracting #0: cost 1 inf + 0
7.223 * * [simplify]: Extracting #1: cost 4 inf + 0
7.223 * * [simplify]: Extracting #2: cost 9 inf + 0
7.223 * * [simplify]: Extracting #3: cost 4 inf + 85
7.223 * * [simplify]: Extracting #4: cost 0 inf + 815
7.223 * [simplify]: Simplified to (* (sqrt y.re) (atan2 x.im x.re))
7.223 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (sqrt y.re) (atan2 x.im x.re)) (sqrt y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.223 * * * * [progress]: [ 76 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (atan2 x.im x.re) 1) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.223 * [simplify]: Simplifying (* (atan2 x.im x.re) 1)
7.223 * * [simplify]: iters left: 3 (5 enodes)
7.225 * * [simplify]: iters left: 2 (16 enodes)
7.228 * * [simplify]: iters left: 1 (20 enodes)
7.231 * * [simplify]: Extracting #0: cost 1 inf + 0
7.231 * * [simplify]: Extracting #1: cost 5 inf + 0
7.231 * * [simplify]: Extracting #2: cost 2 inf + 3
7.231 * * [simplify]: Extracting #3: cost 1 inf + 145
7.231 * * [simplify]: Extracting #4: cost 0 inf + 287
7.231 * [simplify]: Simplified to (atan2 x.im x.re)
7.231 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.231 * * * * [progress]: [ 77 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (cbrt (atan2 x.im x.re)) (cbrt (atan2 x.im x.re))) (* (cbrt (atan2 x.im x.re)) y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.231 * [simplify]: Simplifying (* (cbrt (atan2 x.im x.re)) y.re)
7.231 * * [simplify]: iters left: 4 (6 enodes)
7.233 * * [simplify]: iters left: 3 (19 enodes)
7.235 * * [simplify]: Extracting #0: cost 1 inf + 0
7.235 * * [simplify]: Extracting #1: cost 4 inf + 0
7.235 * * [simplify]: Extracting #2: cost 5 inf + 1
7.235 * * [simplify]: Extracting #3: cost 8 inf + 1
7.235 * * [simplify]: Extracting #4: cost 6 inf + 3
7.235 * * [simplify]: Extracting #5: cost 0 inf + 1257
7.235 * [simplify]: Simplified to (* (cbrt (atan2 x.im x.re)) y.re)
7.235 * [simplify]: Simplified (2 1 1 3 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (* (cbrt (atan2 x.im x.re)) (cbrt (atan2 x.im x.re))) (* (cbrt (atan2 x.im x.re)) y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.235 * * * * [progress]: [ 78 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (sqrt (atan2 x.im x.re)) (* (sqrt (atan2 x.im x.re)) y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.236 * [simplify]: Simplifying (* (sqrt (atan2 x.im x.re)) y.re)
7.236 * * [simplify]: iters left: 4 (6 enodes)
7.237 * * [simplify]: iters left: 3 (19 enodes)
7.239 * * [simplify]: Extracting #0: cost 1 inf + 0
7.239 * * [simplify]: Extracting #1: cost 4 inf + 0
7.239 * * [simplify]: Extracting #2: cost 5 inf + 1
7.239 * * [simplify]: Extracting #3: cost 8 inf + 1
7.239 * * [simplify]: Extracting #4: cost 6 inf + 3
7.239 * * [simplify]: Extracting #5: cost 0 inf + 1097
7.240 * [simplify]: Simplified to (* (sqrt (atan2 x.im x.re)) y.re)
7.240 * [simplify]: Simplified (2 1 1 3 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (sqrt (atan2 x.im x.re)) (* (sqrt (atan2 x.im x.re)) y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.240 * * * * [progress]: [ 79 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* 1 (* (atan2 x.im x.re) y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.240 * [simplify]: Simplifying (* (atan2 x.im x.re) y.re)
7.240 * * [simplify]: iters left: 3 (5 enodes)
7.241 * * [simplify]: iters left: 2 (16 enodes)
7.243 * * [simplify]: Extracting #0: cost 1 inf + 0
7.243 * * [simplify]: Extracting #1: cost 4 inf + 0
7.243 * * [simplify]: Extracting #2: cost 6 inf + 1
7.243 * * [simplify]: Extracting #3: cost 4 inf + 3
7.243 * * [simplify]: Extracting #4: cost 0 inf + 653
7.243 * [simplify]: Simplified to (* (atan2 x.im x.re) y.re)
7.243 * [simplify]: Simplified (2 1 1 3 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* 1 (* (atan2 x.im x.re) y.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.243 * * * * [progress]: [ 80 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (posit16->real (real->posit16 (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.243 * [simplify]: Simplifying (real->posit16 (* (atan2 x.im x.re) y.re))
7.243 * * [simplify]: iters left: 4 (6 enodes)
7.245 * * [simplify]: iters left: 3 (16 enodes)
7.248 * * [simplify]: Extracting #0: cost 1 inf + 0
7.248 * * [simplify]: Extracting #1: cost 2 inf + 0
7.248 * * [simplify]: Extracting #2: cost 4 inf + 0
7.248 * * [simplify]: Extracting #3: cost 6 inf + 1
7.248 * * [simplify]: Extracting #4: cost 4 inf + 3
7.248 * * [simplify]: Extracting #5: cost 0 inf + 653
7.248 * [simplify]: Simplified to (real->posit16 (* (atan2 x.im x.re) y.re))
7.248 * [simplify]: Simplified (2 1 1 3 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (posit16->real (real->posit16 (* (atan2 x.im x.re) y.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.248 * * * * [progress]: [ 81 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* y.re (atan2 x.im x.re)))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.249 * * * * [progress]: [ 82 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (- 1 (+ (* y.im (* (atan2 x.im x.re) (* y.re (log x.im)))) (* 1/2 (* (pow y.im 2) (pow (log x.im) 2))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.249 * [simplify]: Simplifying (- 1 (+ (* y.im (* (atan2 x.im x.re) (* y.re (log x.im)))) (* 1/2 (* (pow y.im 2) (pow (log x.im) 2)))))
7.249 * * [simplify]: iters left: 6 (18 enodes)
7.254 * * [simplify]: iters left: 5 (80 enodes)
7.269 * * [simplify]: iters left: 4 (154 enodes)
7.301 * * [simplify]: iters left: 3 (350 enodes)
7.489 * * [simplify]: Extracting #0: cost 1 inf + 0
7.489 * * [simplify]: Extracting #1: cost 53 inf + 0
7.490 * * [simplify]: Extracting #2: cost 180 inf + 46
7.494 * * [simplify]: Extracting #3: cost 154 inf + 8437
7.510 * * [simplify]: Extracting #4: cost 28 inf + 37374
7.528 * * [simplify]: Extracting #5: cost 1 inf + 44619
7.539 * * [simplify]: Extracting #6: cost 0 inf + 44821
7.551 * * [simplify]: Extracting #7: cost 0 inf + 44771
7.563 * [simplify]: Simplified to (- 1 (fma (* (log x.im) y.im) (* (atan2 x.im x.re) y.re) (* 1/2 (* (* (log x.im) y.im) (* (log x.im) y.im)))))
7.563 * [simplify]: Simplified (2 1) to (λ (x.re x.im y.re y.im) (/ (- 1 (fma (* (log x.im) y.im) (* (atan2 x.im x.re) y.re) (* 1/2 (* (* (log x.im) y.im) (* (log x.im) y.im))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.564 * * * * [progress]: [ 83 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ 1 x.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.564 * [simplify]: Simplifying (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ 1 x.re)))))
7.564 * * [simplify]: iters left: 6 (12 enodes)
7.570 * * [simplify]: iters left: 5 (47 enodes)
7.580 * * [simplify]: iters left: 4 (65 enodes)
7.589 * * [simplify]: iters left: 3 (74 enodes)
7.599 * * [simplify]: iters left: 2 (90 enodes)
7.617 * * [simplify]: iters left: 1 (98 enodes)
7.631 * * [simplify]: Extracting #0: cost 1 inf + 0
7.631 * * [simplify]: Extracting #1: cost 3 inf + 0
7.631 * * [simplify]: Extracting #2: cost 17 inf + 0
7.632 * * [simplify]: Extracting #3: cost 24 inf + 3
7.632 * * [simplify]: Extracting #4: cost 23 inf + 46
7.632 * * [simplify]: Extracting #5: cost 8 inf + 1938
7.633 * * [simplify]: Extracting #6: cost 1 inf + 3373
7.635 * * [simplify]: Extracting #7: cost 0 inf + 3742
7.635 * [simplify]: Simplified to (cos (fma (atan2 x.im x.re) y.re (* (log x.re) y.im)))
7.635 * [simplify]: Simplified (2 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma (atan2 x.im x.re) y.re (* (log x.re) y.im))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.635 * * * * [progress]: [ 84 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ -1 x.re))))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
7.636 * [simplify]: Simplifying (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ -1 x.re)))))
7.636 * * [simplify]: iters left: 6 (12 enodes)
7.639 * * [simplify]: iters left: 5 (44 enodes)
7.645 * * [simplify]: iters left: 4 (60 enodes)
7.661 * * [simplify]: iters left: 3 (86 enodes)
7.689 * * [simplify]: iters left: 2 (138 enodes)
7.719 * * [simplify]: iters left: 1 (173 enodes)
7.750 * * [simplify]: Extracting #0: cost 1 inf + 0
7.750 * * [simplify]: Extracting #1: cost 3 inf + 0
7.750 * * [simplify]: Extracting #2: cost 25 inf + 0
7.750 * * [simplify]: Extracting #3: cost 44 inf + 43
7.751 * * [simplify]: Extracting #4: cost 38 inf + 462
7.752 * * [simplify]: Extracting #5: cost 21 inf + 2608
7.754 * * [simplify]: Extracting #6: cost 4 inf + 6794
7.758 * * [simplify]: Extracting #7: cost 0 inf + 7624
7.761 * [simplify]: Simplified to (cos (- (* (atan2 x.im x.re) y.re) (* (log (/ -1 x.re)) y.im)))
7.761 * [simplify]: Simplified (2 1) to (λ (x.re x.im y.re y.im) (/ (cos (- (* (atan2 x.im x.re) y.re) (* (log (/ -1 x.re)) y.im))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.761 * * * * [progress]: [ 85 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* y.im (atan2 x.im x.re)) (* y.re (log (hypot x.re x.im)))))))>
7.761 * [simplify]: Simplifying (* y.im (atan2 x.im x.re))
7.762 * * [simplify]: iters left: 3 (5 enodes)
7.764 * * [simplify]: iters left: 2 (16 enodes)
7.768 * * [simplify]: Extracting #0: cost 1 inf + 0
7.768 * * [simplify]: Extracting #1: cost 4 inf + 0
7.768 * * [simplify]: Extracting #2: cost 6 inf + 1
7.768 * * [simplify]: Extracting #3: cost 0 inf + 653
7.768 * [simplify]: Simplified to (* (atan2 x.im x.re) y.im)
7.768 * [simplify]: Simplified (2 2 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.769 * * * * [progress]: [ 86 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* y.im (atan2 x.im x.re)) (* y.re (log (hypot x.re x.im)))))))>
7.769 * [simplify]: Simplifying (* y.im (atan2 x.im x.re))
7.769 * * [simplify]: iters left: 3 (5 enodes)
7.771 * * [simplify]: iters left: 2 (16 enodes)
7.775 * * [simplify]: Extracting #0: cost 1 inf + 0
7.775 * * [simplify]: Extracting #1: cost 4 inf + 0
7.775 * * [simplify]: Extracting #2: cost 6 inf + 1
7.776 * * [simplify]: Extracting #3: cost 0 inf + 653
7.776 * [simplify]: Simplified to (* (atan2 x.im x.re) y.im)
7.776 * [simplify]: Simplified (2 2 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.776 * * * * [progress]: [ 87 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* y.im (atan2 x.im x.re)) (* y.re (log (hypot x.re x.im)))))))>
7.776 * [simplify]: Simplifying (* y.im (atan2 x.im x.re))
7.776 * * [simplify]: iters left: 3 (5 enodes)
7.778 * * [simplify]: iters left: 2 (16 enodes)
7.782 * * [simplify]: Extracting #0: cost 1 inf + 0
7.782 * * [simplify]: Extracting #1: cost 4 inf + 0
7.782 * * [simplify]: Extracting #2: cost 6 inf + 1
7.783 * * [simplify]: Extracting #3: cost 0 inf + 653
7.783 * [simplify]: Simplified to (* (atan2 x.im x.re) y.im)
7.783 * [simplify]: Simplified (2 2 1 1) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
7.783 * * * * [progress]: [ 88 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log x.im))))))>
7.783 * [simplify]: Simplifying (* y.re (log x.im))
7.783 * * [simplify]: iters left: 3 (4 enodes)
7.785 * * [simplify]: iters left: 2 (13 enodes)
7.788 * * [simplify]: Extracting #0: cost 1 inf + 0
7.788 * * [simplify]: Extracting #1: cost 4 inf + 0
7.788 * * [simplify]: Extracting #2: cost 5 inf + 1
7.789 * * [simplify]: Extracting #3: cost 4 inf + 2
7.789 * * [simplify]: Extracting #4: cost 0 inf + 368
7.789 * [simplify]: Simplified to (* y.re (log x.im))
7.789 * [simplify]: Simplified (2 2 1 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log x.im))))))
7.789 * * * * [progress]: [ 89 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* -1 (* y.re (log (/ 1 x.re))))))))>
7.789 * [simplify]: Simplifying (* -1 (* y.re (log (/ 1 x.re))))
7.789 * * [simplify]: iters left: 6 (8 enodes)
7.796 * * [simplify]: iters left: 5 (35 enodes)
7.807 * * [simplify]: iters left: 4 (58 enodes)
7.824 * * [simplify]: iters left: 3 (71 enodes)
7.850 * * [simplify]: iters left: 2 (107 enodes)
7.909 * * [simplify]: iters left: 1 (180 enodes)
7.963 * * [simplify]: Extracting #0: cost 1 inf + 0
7.963 * * [simplify]: Extracting #1: cost 10 inf + 0
7.963 * * [simplify]: Extracting #2: cost 11 inf + 45
7.964 * * [simplify]: Extracting #3: cost 9 inf + 158
7.965 * * [simplify]: Extracting #4: cost 2 inf + 840
7.966 * * [simplify]: Extracting #5: cost 0 inf + 1063
7.967 * [simplify]: Simplified to (* y.re (log x.re))
7.967 * [simplify]: Simplified (2 2 1 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log x.re))))))
7.967 * * * * [progress]: [ 90 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* -1 (* y.re (log (/ -1 x.re))))))))>
7.967 * [simplify]: Simplifying (* -1 (* y.re (log (/ -1 x.re))))
7.967 * * [simplify]: iters left: 6 (7 enodes)
7.971 * * [simplify]: iters left: 5 (29 enodes)
7.978 * * [simplify]: iters left: 4 (48 enodes)
7.985 * * [simplify]: iters left: 3 (77 enodes)
8.000 * * [simplify]: iters left: 2 (146 enodes)
8.034 * * [simplify]: iters left: 1 (184 enodes)
8.064 * * [simplify]: Extracting #0: cost 1 inf + 0
8.065 * * [simplify]: Extracting #1: cost 16 inf + 0
8.065 * * [simplify]: Extracting #2: cost 28 inf + 43
8.065 * * [simplify]: Extracting #3: cost 14 inf + 1538
8.066 * * [simplify]: Extracting #4: cost 0 inf + 3174
8.067 * [simplify]: Simplified to (* (- y.re) (log (/ -1 x.re)))
8.067 * [simplify]: Simplified (2 2 1 2) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* (- y.re) (log (/ -1 x.re)))))))
8.067 * * * * [progress]: [ 91 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
8.067 * [simplify]: Simplifying (* (atan2 x.im x.re) y.re)
8.067 * * [simplify]: iters left: 3 (5 enodes)
8.068 * * [simplify]: iters left: 2 (16 enodes)
8.071 * * [simplify]: Extracting #0: cost 1 inf + 0
8.071 * * [simplify]: Extracting #1: cost 4 inf + 0
8.071 * * [simplify]: Extracting #2: cost 6 inf + 1
8.071 * * [simplify]: Extracting #3: cost 4 inf + 3
8.071 * * [simplify]: Extracting #4: cost 0 inf + 653
8.071 * [simplify]: Simplified to (* (atan2 x.im x.re) y.re)
8.071 * [simplify]: Simplified (2 1 1 3) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
8.071 * * * * [progress]: [ 92 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
8.071 * [simplify]: Simplifying (* (atan2 x.im x.re) y.re)
8.071 * * [simplify]: iters left: 3 (5 enodes)
8.072 * * [simplify]: iters left: 2 (16 enodes)
8.075 * * [simplify]: Extracting #0: cost 1 inf + 0
8.075 * * [simplify]: Extracting #1: cost 4 inf + 0
8.075 * * [simplify]: Extracting #2: cost 6 inf + 1
8.075 * * [simplify]: Extracting #3: cost 4 inf + 3
8.075 * * [simplify]: Extracting #4: cost 0 inf + 653
8.075 * [simplify]: Simplified to (* (atan2 x.im x.re) y.re)
8.075 * [simplify]: Simplified (2 1 1 3) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
8.075 * * * * [progress]: [ 93 / 93 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>
8.076 * [simplify]: Simplifying (* (atan2 x.im x.re) y.re)
8.076 * * [simplify]: iters left: 3 (5 enodes)
8.078 * * [simplify]: iters left: 2 (16 enodes)
8.082 * * [simplify]: Extracting #0: cost 1 inf + 0
8.082 * * [simplify]: Extracting #1: cost 4 inf + 0
8.082 * * [simplify]: Extracting #2: cost 6 inf + 1
8.082 * * [simplify]: Extracting #3: cost 4 inf + 3
8.082 * * [simplify]: Extracting #4: cost 0 inf + 653
8.082 * [simplify]: Simplified to (* (atan2 x.im x.re) y.re)
8.082 * [simplify]: Simplified (2 1 1 3) to (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))
8.082 * * * [progress]: adding candidates to table
9.535 * * [progress]: iteration 2 / 4
9.536 * * * [progress]: picking best candidate
9.540 * * * * [pick]: Picked  #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
9.540 * * * [progress]: localizing error
9.586 * * * [progress]: generating rewritten candidates
9.586 * * * * [progress]: [ 1 / 4 ] rewriting at (2 2 1 1 1 1)
9.593 * * * * [progress]: [ 2 / 4 ] rewriting at (2 1 1 1 1 1)
9.603 * * * * [progress]: [ 3 / 4 ] rewriting at (2 2)
9.635 * * * * [progress]: [ 4 / 4 ] rewriting at (2 1 1 2)
9.647 * * * [progress]: generating series expansions
9.647 * * * * [progress]: [ 1 / 4 ] generating series at (2 2 1 1 1 1)
9.647 * [backup-simplify]: Simplify (sqrt (+ (* x.re x.re) (* x.im x.im))) into (sqrt (+ (pow x.im 2) (pow x.re 2)))
9.647 * [approximate]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in (x.re x.im) around 0
9.647 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in x.im
9.647 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in x.im
9.647 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.647 * [taylor]: Taking taylor expansion of x.im in x.im
9.647 * [backup-simplify]: Simplify 0 into 0
9.647 * [backup-simplify]: Simplify 1 into 1
9.647 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.im
9.647 * [taylor]: Taking taylor expansion of x.re in x.im
9.647 * [backup-simplify]: Simplify x.re into x.re
9.647 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.647 * [backup-simplify]: Simplify (+ 0 (pow x.re 2)) into (pow x.re 2)
9.647 * [backup-simplify]: Simplify (sqrt (pow x.re 2)) into x.re
9.648 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
9.648 * [backup-simplify]: Simplify (+ 0 0) into 0
9.648 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.re 2)))) into 0
9.648 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in x.re
9.648 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in x.re
9.649 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.649 * [taylor]: Taking taylor expansion of x.im in x.re
9.649 * [backup-simplify]: Simplify x.im into x.im
9.649 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.649 * [taylor]: Taking taylor expansion of x.re in x.re
9.649 * [backup-simplify]: Simplify 0 into 0
9.649 * [backup-simplify]: Simplify 1 into 1
9.649 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.649 * [backup-simplify]: Simplify (+ (pow x.im 2) 0) into (pow x.im 2)
9.649 * [backup-simplify]: Simplify (sqrt (pow x.im 2)) into x.im
9.649 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.649 * [backup-simplify]: Simplify (+ 0 0) into 0
9.650 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.im 2)))) into 0
9.650 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in x.re
9.650 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in x.re
9.650 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.650 * [taylor]: Taking taylor expansion of x.im in x.re
9.650 * [backup-simplify]: Simplify x.im into x.im
9.650 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.650 * [taylor]: Taking taylor expansion of x.re in x.re
9.650 * [backup-simplify]: Simplify 0 into 0
9.650 * [backup-simplify]: Simplify 1 into 1
9.650 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.650 * [backup-simplify]: Simplify (+ (pow x.im 2) 0) into (pow x.im 2)
9.650 * [backup-simplify]: Simplify (sqrt (pow x.im 2)) into x.im
9.650 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.650 * [backup-simplify]: Simplify (+ 0 0) into 0
9.651 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.im 2)))) into 0
9.651 * [taylor]: Taking taylor expansion of x.im in x.im
9.651 * [backup-simplify]: Simplify 0 into 0
9.651 * [backup-simplify]: Simplify 1 into 1
9.651 * [backup-simplify]: Simplify 0 into 0
9.651 * [taylor]: Taking taylor expansion of 0 in x.im
9.651 * [backup-simplify]: Simplify 0 into 0
9.651 * [backup-simplify]: Simplify 0 into 0
9.651 * [backup-simplify]: Simplify 1 into 1
9.651 * [backup-simplify]: Simplify (+ (* x.im 0) (+ (* 0 0) (* 0 x.im))) into 0
9.652 * [backup-simplify]: Simplify (* 1 1) into 1
9.652 * [backup-simplify]: Simplify (+ 0 1) into 1
9.653 * [backup-simplify]: Simplify (/ (- 1 (pow 0 2) (+)) (* 2 x.im)) into (/ 1/2 x.im)
9.653 * [taylor]: Taking taylor expansion of (/ 1/2 x.im) in x.im
9.653 * [taylor]: Taking taylor expansion of 1/2 in x.im
9.653 * [backup-simplify]: Simplify 1/2 into 1/2
9.653 * [taylor]: Taking taylor expansion of x.im in x.im
9.653 * [backup-simplify]: Simplify 0 into 0
9.653 * [backup-simplify]: Simplify 1 into 1
9.654 * [backup-simplify]: Simplify (/ 1/2 1) into 1/2
9.654 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)))) into 0
9.655 * [backup-simplify]: Simplify 0 into 0
9.655 * [backup-simplify]: Simplify 0 into 0
9.655 * [backup-simplify]: Simplify 0 into 0
9.655 * [backup-simplify]: Simplify (+ (* x.im 0) (+ (* 0 0) (+ (* 0 0) (* 0 x.im)))) into 0
9.656 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.656 * [backup-simplify]: Simplify (+ 0 0) into 0
9.657 * [backup-simplify]: Simplify (/ (- 0 (+ (* 2 (* 0 (/ 1/2 x.im))))) (* 2 x.im)) into 0
9.657 * [taylor]: Taking taylor expansion of 0 in x.im
9.657 * [backup-simplify]: Simplify 0 into 0
9.657 * [backup-simplify]: Simplify 0 into 0
9.658 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.658 * [backup-simplify]: Simplify 0 into 0
9.658 * [backup-simplify]: Simplify 0 into 0
9.658 * [backup-simplify]: Simplify (* 1 (* x.im 1)) into x.im
9.658 * [backup-simplify]: Simplify (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
9.658 * [approximate]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in (x.re x.im) around 0
9.658 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.im
9.658 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.im
9.658 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.im
9.658 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.658 * [taylor]: Taking taylor expansion of x.im in x.im
9.658 * [backup-simplify]: Simplify 0 into 0
9.658 * [backup-simplify]: Simplify 1 into 1
9.659 * [backup-simplify]: Simplify (* 1 1) into 1
9.659 * [backup-simplify]: Simplify (/ 1 1) into 1
9.659 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.im
9.659 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.im
9.659 * [taylor]: Taking taylor expansion of x.re in x.im
9.659 * [backup-simplify]: Simplify x.re into x.re
9.659 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.660 * [backup-simplify]: Simplify (/ 1 (pow x.re 2)) into (/ 1 (pow x.re 2))
9.665 * [backup-simplify]: Simplify (+ 1 0) into 1
9.666 * [backup-simplify]: Simplify (sqrt 1) into 1
9.666 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.667 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.667 * [backup-simplify]: Simplify (+ 0 0) into 0
9.668 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.668 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.668 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.668 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.668 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.668 * [taylor]: Taking taylor expansion of x.im in x.re
9.668 * [backup-simplify]: Simplify x.im into x.im
9.668 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.668 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.669 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.669 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.669 * [taylor]: Taking taylor expansion of x.re in x.re
9.669 * [backup-simplify]: Simplify 0 into 0
9.669 * [backup-simplify]: Simplify 1 into 1
9.669 * [backup-simplify]: Simplify (* 1 1) into 1
9.669 * [backup-simplify]: Simplify (/ 1 1) into 1
9.670 * [backup-simplify]: Simplify (+ 0 1) into 1
9.670 * [backup-simplify]: Simplify (sqrt 1) into 1
9.671 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.672 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.672 * [backup-simplify]: Simplify (+ 0 0) into 0
9.673 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.673 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.673 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.673 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.673 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.673 * [taylor]: Taking taylor expansion of x.im in x.re
9.673 * [backup-simplify]: Simplify x.im into x.im
9.673 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.673 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.673 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.673 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.673 * [taylor]: Taking taylor expansion of x.re in x.re
9.673 * [backup-simplify]: Simplify 0 into 0
9.673 * [backup-simplify]: Simplify 1 into 1
9.674 * [backup-simplify]: Simplify (* 1 1) into 1
9.674 * [backup-simplify]: Simplify (/ 1 1) into 1
9.674 * [backup-simplify]: Simplify (+ 0 1) into 1
9.675 * [backup-simplify]: Simplify (sqrt 1) into 1
9.675 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.676 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.676 * [backup-simplify]: Simplify (+ 0 0) into 0
9.677 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.677 * [taylor]: Taking taylor expansion of 1 in x.im
9.677 * [backup-simplify]: Simplify 1 into 1
9.677 * [taylor]: Taking taylor expansion of 0 in x.im
9.677 * [backup-simplify]: Simplify 0 into 0
9.677 * [backup-simplify]: Simplify 1 into 1
9.678 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.679 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.679 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) 0) into (/ 1 (pow x.im 2))
9.681 * [backup-simplify]: Simplify (/ (- (/ 1 (pow x.im 2)) (pow 0 2) (+)) (* 2 1)) into (/ 1/2 (pow x.im 2))
9.681 * [taylor]: Taking taylor expansion of (/ 1/2 (pow x.im 2)) in x.im
9.681 * [taylor]: Taking taylor expansion of 1/2 in x.im
9.681 * [backup-simplify]: Simplify 1/2 into 1/2
9.681 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.681 * [taylor]: Taking taylor expansion of x.im in x.im
9.681 * [backup-simplify]: Simplify 0 into 0
9.681 * [backup-simplify]: Simplify 1 into 1
9.681 * [backup-simplify]: Simplify (* 1 1) into 1
9.682 * [backup-simplify]: Simplify (/ 1/2 1) into 1/2
9.682 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.683 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)))) into 0
9.683 * [backup-simplify]: Simplify 0 into 0
9.683 * [backup-simplify]: Simplify 0 into 0
9.683 * [backup-simplify]: Simplify 0 into 0
9.683 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.684 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.im 2)) (/ 0 (pow x.im 2))))) into 0
9.685 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (+ (* 0 0) (* 0 1)))) into 0
9.686 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.686 * [backup-simplify]: Simplify (+ 0 0) into 0
9.686 * [backup-simplify]: Simplify (/ (- 0 (+ (* 2 (* 0 (/ 1/2 (pow x.im 2)))))) (* 2 1)) into 0
9.687 * [taylor]: Taking taylor expansion of 0 in x.im
9.687 * [backup-simplify]: Simplify 0 into 0
9.687 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.688 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.688 * [backup-simplify]: Simplify 0 into 0
9.689 * [backup-simplify]: Simplify 0 into 0
9.689 * [backup-simplify]: Simplify 0 into 0
9.689 * [backup-simplify]: Simplify (* 1 (* 1 (/ 1 (/ 1 x.re)))) into x.re
9.689 * [backup-simplify]: Simplify (sqrt (+ (* (/ 1 (- x.re)) (/ 1 (- x.re))) (* (/ 1 (- x.im)) (/ 1 (- x.im))))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
9.689 * [approximate]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in (x.re x.im) around 0
9.689 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.im
9.689 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.im
9.689 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.im
9.689 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.689 * [taylor]: Taking taylor expansion of x.im in x.im
9.689 * [backup-simplify]: Simplify 0 into 0
9.689 * [backup-simplify]: Simplify 1 into 1
9.690 * [backup-simplify]: Simplify (* 1 1) into 1
9.690 * [backup-simplify]: Simplify (/ 1 1) into 1
9.690 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.im
9.690 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.im
9.690 * [taylor]: Taking taylor expansion of x.re in x.im
9.690 * [backup-simplify]: Simplify x.re into x.re
9.690 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.690 * [backup-simplify]: Simplify (/ 1 (pow x.re 2)) into (/ 1 (pow x.re 2))
9.691 * [backup-simplify]: Simplify (+ 1 0) into 1
9.691 * [backup-simplify]: Simplify (sqrt 1) into 1
9.692 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.693 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.693 * [backup-simplify]: Simplify (+ 0 0) into 0
9.694 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.694 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.694 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.694 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.694 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.694 * [taylor]: Taking taylor expansion of x.im in x.re
9.694 * [backup-simplify]: Simplify x.im into x.im
9.694 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.694 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.694 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.694 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.694 * [taylor]: Taking taylor expansion of x.re in x.re
9.694 * [backup-simplify]: Simplify 0 into 0
9.695 * [backup-simplify]: Simplify 1 into 1
9.695 * [backup-simplify]: Simplify (* 1 1) into 1
9.695 * [backup-simplify]: Simplify (/ 1 1) into 1
9.696 * [backup-simplify]: Simplify (+ 0 1) into 1
9.696 * [backup-simplify]: Simplify (sqrt 1) into 1
9.697 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.697 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.698 * [backup-simplify]: Simplify (+ 0 0) into 0
9.699 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.699 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.699 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.699 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.699 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.699 * [taylor]: Taking taylor expansion of x.im in x.re
9.699 * [backup-simplify]: Simplify x.im into x.im
9.699 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.699 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.699 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.699 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.699 * [taylor]: Taking taylor expansion of x.re in x.re
9.699 * [backup-simplify]: Simplify 0 into 0
9.699 * [backup-simplify]: Simplify 1 into 1
9.699 * [backup-simplify]: Simplify (* 1 1) into 1
9.700 * [backup-simplify]: Simplify (/ 1 1) into 1
9.700 * [backup-simplify]: Simplify (+ 0 1) into 1
9.701 * [backup-simplify]: Simplify (sqrt 1) into 1
9.701 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.702 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.702 * [backup-simplify]: Simplify (+ 0 0) into 0
9.703 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.703 * [taylor]: Taking taylor expansion of 1 in x.im
9.703 * [backup-simplify]: Simplify 1 into 1
9.703 * [taylor]: Taking taylor expansion of 0 in x.im
9.703 * [backup-simplify]: Simplify 0 into 0
9.703 * [backup-simplify]: Simplify 1 into 1
9.704 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.705 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.705 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) 0) into (/ 1 (pow x.im 2))
9.706 * [backup-simplify]: Simplify (/ (- (/ 1 (pow x.im 2)) (pow 0 2) (+)) (* 2 1)) into (/ 1/2 (pow x.im 2))
9.706 * [taylor]: Taking taylor expansion of (/ 1/2 (pow x.im 2)) in x.im
9.706 * [taylor]: Taking taylor expansion of 1/2 in x.im
9.706 * [backup-simplify]: Simplify 1/2 into 1/2
9.706 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.707 * [taylor]: Taking taylor expansion of x.im in x.im
9.707 * [backup-simplify]: Simplify 0 into 0
9.707 * [backup-simplify]: Simplify 1 into 1
9.707 * [backup-simplify]: Simplify (* 1 1) into 1
9.707 * [backup-simplify]: Simplify (/ 1/2 1) into 1/2
9.708 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.709 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)))) into 0
9.709 * [backup-simplify]: Simplify 0 into 0
9.709 * [backup-simplify]: Simplify 0 into 0
9.709 * [backup-simplify]: Simplify 0 into 0
9.709 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.709 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.im 2)) (/ 0 (pow x.im 2))))) into 0
9.710 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (+ (* 0 0) (* 0 1)))) into 0
9.712 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.712 * [backup-simplify]: Simplify (+ 0 0) into 0
9.712 * [backup-simplify]: Simplify (/ (- 0 (+ (* 2 (* 0 (/ 1/2 (pow x.im 2)))))) (* 2 1)) into 0
9.713 * [taylor]: Taking taylor expansion of 0 in x.im
9.713 * [backup-simplify]: Simplify 0 into 0
9.713 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.714 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.715 * [backup-simplify]: Simplify 0 into 0
9.715 * [backup-simplify]: Simplify 0 into 0
9.715 * [backup-simplify]: Simplify 0 into 0
9.715 * [backup-simplify]: Simplify (* 1 (* 1 (/ 1 (/ 1 (- x.re))))) into (* -1 x.re)
9.715 * * * * [progress]: [ 2 / 4 ] generating series at (2 1 1 1 1 1)
9.715 * [backup-simplify]: Simplify (sqrt (+ (* x.re x.re) (* x.im x.im))) into (sqrt (+ (pow x.im 2) (pow x.re 2)))
9.715 * [approximate]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in (x.re x.im) around 0
9.715 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in x.im
9.715 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in x.im
9.715 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.715 * [taylor]: Taking taylor expansion of x.im in x.im
9.715 * [backup-simplify]: Simplify 0 into 0
9.715 * [backup-simplify]: Simplify 1 into 1
9.715 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.im
9.715 * [taylor]: Taking taylor expansion of x.re in x.im
9.715 * [backup-simplify]: Simplify x.re into x.re
9.715 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.715 * [backup-simplify]: Simplify (+ 0 (pow x.re 2)) into (pow x.re 2)
9.716 * [backup-simplify]: Simplify (sqrt (pow x.re 2)) into x.re
9.716 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
9.716 * [backup-simplify]: Simplify (+ 0 0) into 0
9.716 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.re 2)))) into 0
9.716 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in x.re
9.716 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in x.re
9.716 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.716 * [taylor]: Taking taylor expansion of x.im in x.re
9.716 * [backup-simplify]: Simplify x.im into x.im
9.716 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.716 * [taylor]: Taking taylor expansion of x.re in x.re
9.716 * [backup-simplify]: Simplify 0 into 0
9.716 * [backup-simplify]: Simplify 1 into 1
9.716 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.717 * [backup-simplify]: Simplify (+ (pow x.im 2) 0) into (pow x.im 2)
9.717 * [backup-simplify]: Simplify (sqrt (pow x.im 2)) into x.im
9.717 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.717 * [backup-simplify]: Simplify (+ 0 0) into 0
9.717 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.im 2)))) into 0
9.717 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in x.re
9.717 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in x.re
9.717 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.717 * [taylor]: Taking taylor expansion of x.im in x.re
9.717 * [backup-simplify]: Simplify x.im into x.im
9.717 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.717 * [taylor]: Taking taylor expansion of x.re in x.re
9.717 * [backup-simplify]: Simplify 0 into 0
9.717 * [backup-simplify]: Simplify 1 into 1
9.718 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.718 * [backup-simplify]: Simplify (+ (pow x.im 2) 0) into (pow x.im 2)
9.718 * [backup-simplify]: Simplify (sqrt (pow x.im 2)) into x.im
9.718 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.718 * [backup-simplify]: Simplify (+ 0 0) into 0
9.718 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.im 2)))) into 0
9.718 * [taylor]: Taking taylor expansion of x.im in x.im
9.718 * [backup-simplify]: Simplify 0 into 0
9.718 * [backup-simplify]: Simplify 1 into 1
9.718 * [backup-simplify]: Simplify 0 into 0
9.718 * [taylor]: Taking taylor expansion of 0 in x.im
9.719 * [backup-simplify]: Simplify 0 into 0
9.719 * [backup-simplify]: Simplify 0 into 0
9.719 * [backup-simplify]: Simplify 1 into 1
9.719 * [backup-simplify]: Simplify (+ (* x.im 0) (+ (* 0 0) (* 0 x.im))) into 0
9.719 * [backup-simplify]: Simplify (* 1 1) into 1
9.720 * [backup-simplify]: Simplify (+ 0 1) into 1
9.721 * [backup-simplify]: Simplify (/ (- 1 (pow 0 2) (+)) (* 2 x.im)) into (/ 1/2 x.im)
9.721 * [taylor]: Taking taylor expansion of (/ 1/2 x.im) in x.im
9.721 * [taylor]: Taking taylor expansion of 1/2 in x.im
9.721 * [backup-simplify]: Simplify 1/2 into 1/2
9.721 * [taylor]: Taking taylor expansion of x.im in x.im
9.721 * [backup-simplify]: Simplify 0 into 0
9.721 * [backup-simplify]: Simplify 1 into 1
9.721 * [backup-simplify]: Simplify (/ 1/2 1) into 1/2
9.722 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)))) into 0
9.722 * [backup-simplify]: Simplify 0 into 0
9.722 * [backup-simplify]: Simplify 0 into 0
9.722 * [backup-simplify]: Simplify 0 into 0
9.723 * [backup-simplify]: Simplify (+ (* x.im 0) (+ (* 0 0) (+ (* 0 0) (* 0 x.im)))) into 0
9.724 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.724 * [backup-simplify]: Simplify (+ 0 0) into 0
9.724 * [backup-simplify]: Simplify (/ (- 0 (+ (* 2 (* 0 (/ 1/2 x.im))))) (* 2 x.im)) into 0
9.724 * [taylor]: Taking taylor expansion of 0 in x.im
9.724 * [backup-simplify]: Simplify 0 into 0
9.724 * [backup-simplify]: Simplify 0 into 0
9.725 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.725 * [backup-simplify]: Simplify 0 into 0
9.725 * [backup-simplify]: Simplify 0 into 0
9.725 * [backup-simplify]: Simplify (* 1 (* x.im 1)) into x.im
9.726 * [backup-simplify]: Simplify (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
9.726 * [approximate]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in (x.re x.im) around 0
9.726 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.im
9.726 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.im
9.726 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.im
9.726 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.726 * [taylor]: Taking taylor expansion of x.im in x.im
9.726 * [backup-simplify]: Simplify 0 into 0
9.726 * [backup-simplify]: Simplify 1 into 1
9.726 * [backup-simplify]: Simplify (* 1 1) into 1
9.727 * [backup-simplify]: Simplify (/ 1 1) into 1
9.727 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.im
9.727 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.im
9.727 * [taylor]: Taking taylor expansion of x.re in x.im
9.727 * [backup-simplify]: Simplify x.re into x.re
9.727 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.727 * [backup-simplify]: Simplify (/ 1 (pow x.re 2)) into (/ 1 (pow x.re 2))
9.727 * [backup-simplify]: Simplify (+ 1 0) into 1
9.728 * [backup-simplify]: Simplify (sqrt 1) into 1
9.728 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.729 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.729 * [backup-simplify]: Simplify (+ 0 0) into 0
9.730 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.730 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.730 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.730 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.730 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.730 * [taylor]: Taking taylor expansion of x.im in x.re
9.730 * [backup-simplify]: Simplify x.im into x.im
9.730 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.731 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.731 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.731 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.731 * [taylor]: Taking taylor expansion of x.re in x.re
9.731 * [backup-simplify]: Simplify 0 into 0
9.731 * [backup-simplify]: Simplify 1 into 1
9.731 * [backup-simplify]: Simplify (* 1 1) into 1
9.731 * [backup-simplify]: Simplify (/ 1 1) into 1
9.732 * [backup-simplify]: Simplify (+ 0 1) into 1
9.732 * [backup-simplify]: Simplify (sqrt 1) into 1
9.733 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.734 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.734 * [backup-simplify]: Simplify (+ 0 0) into 0
9.735 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.735 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.735 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.735 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.735 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.735 * [taylor]: Taking taylor expansion of x.im in x.re
9.735 * [backup-simplify]: Simplify x.im into x.im
9.735 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.735 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.735 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.735 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.735 * [taylor]: Taking taylor expansion of x.re in x.re
9.735 * [backup-simplify]: Simplify 0 into 0
9.735 * [backup-simplify]: Simplify 1 into 1
9.736 * [backup-simplify]: Simplify (* 1 1) into 1
9.736 * [backup-simplify]: Simplify (/ 1 1) into 1
9.737 * [backup-simplify]: Simplify (+ 0 1) into 1
9.737 * [backup-simplify]: Simplify (sqrt 1) into 1
9.738 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.738 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.739 * [backup-simplify]: Simplify (+ 0 0) into 0
9.739 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.740 * [taylor]: Taking taylor expansion of 1 in x.im
9.740 * [backup-simplify]: Simplify 1 into 1
9.740 * [taylor]: Taking taylor expansion of 0 in x.im
9.740 * [backup-simplify]: Simplify 0 into 0
9.740 * [backup-simplify]: Simplify 1 into 1
9.741 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.742 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.742 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) 0) into (/ 1 (pow x.im 2))
9.743 * [backup-simplify]: Simplify (/ (- (/ 1 (pow x.im 2)) (pow 0 2) (+)) (* 2 1)) into (/ 1/2 (pow x.im 2))
9.743 * [taylor]: Taking taylor expansion of (/ 1/2 (pow x.im 2)) in x.im
9.743 * [taylor]: Taking taylor expansion of 1/2 in x.im
9.743 * [backup-simplify]: Simplify 1/2 into 1/2
9.743 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.743 * [taylor]: Taking taylor expansion of x.im in x.im
9.743 * [backup-simplify]: Simplify 0 into 0
9.743 * [backup-simplify]: Simplify 1 into 1
9.744 * [backup-simplify]: Simplify (* 1 1) into 1
9.744 * [backup-simplify]: Simplify (/ 1/2 1) into 1/2
9.745 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.746 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)))) into 0
9.746 * [backup-simplify]: Simplify 0 into 0
9.746 * [backup-simplify]: Simplify 0 into 0
9.746 * [backup-simplify]: Simplify 0 into 0
9.746 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.746 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.im 2)) (/ 0 (pow x.im 2))))) into 0
9.747 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (+ (* 0 0) (* 0 1)))) into 0
9.748 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.748 * [backup-simplify]: Simplify (+ 0 0) into 0
9.749 * [backup-simplify]: Simplify (/ (- 0 (+ (* 2 (* 0 (/ 1/2 (pow x.im 2)))))) (* 2 1)) into 0
9.749 * [taylor]: Taking taylor expansion of 0 in x.im
9.749 * [backup-simplify]: Simplify 0 into 0
9.750 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.751 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.751 * [backup-simplify]: Simplify 0 into 0
9.751 * [backup-simplify]: Simplify 0 into 0
9.751 * [backup-simplify]: Simplify 0 into 0
9.751 * [backup-simplify]: Simplify (* 1 (* 1 (/ 1 (/ 1 x.re)))) into x.re
9.751 * [backup-simplify]: Simplify (sqrt (+ (* (/ 1 (- x.re)) (/ 1 (- x.re))) (* (/ 1 (- x.im)) (/ 1 (- x.im))))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
9.751 * [approximate]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in (x.re x.im) around 0
9.751 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.im
9.751 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.im
9.752 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.im
9.752 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.752 * [taylor]: Taking taylor expansion of x.im in x.im
9.752 * [backup-simplify]: Simplify 0 into 0
9.752 * [backup-simplify]: Simplify 1 into 1
9.752 * [backup-simplify]: Simplify (* 1 1) into 1
9.752 * [backup-simplify]: Simplify (/ 1 1) into 1
9.752 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.im
9.752 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.im
9.752 * [taylor]: Taking taylor expansion of x.re in x.im
9.752 * [backup-simplify]: Simplify x.re into x.re
9.753 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.753 * [backup-simplify]: Simplify (/ 1 (pow x.re 2)) into (/ 1 (pow x.re 2))
9.753 * [backup-simplify]: Simplify (+ 1 0) into 1
9.753 * [backup-simplify]: Simplify (sqrt 1) into 1
9.754 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.755 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.756 * [backup-simplify]: Simplify (+ 0 0) into 0
9.756 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.756 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.756 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.756 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.756 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.756 * [taylor]: Taking taylor expansion of x.im in x.re
9.756 * [backup-simplify]: Simplify x.im into x.im
9.756 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.757 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.757 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.757 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.757 * [taylor]: Taking taylor expansion of x.re in x.re
9.757 * [backup-simplify]: Simplify 0 into 0
9.757 * [backup-simplify]: Simplify 1 into 1
9.757 * [backup-simplify]: Simplify (* 1 1) into 1
9.757 * [backup-simplify]: Simplify (/ 1 1) into 1
9.758 * [backup-simplify]: Simplify (+ 0 1) into 1
9.758 * [backup-simplify]: Simplify (sqrt 1) into 1
9.759 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.760 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.760 * [backup-simplify]: Simplify (+ 0 0) into 0
9.761 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.761 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.761 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.761 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.761 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.761 * [taylor]: Taking taylor expansion of x.im in x.re
9.761 * [backup-simplify]: Simplify x.im into x.im
9.761 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.761 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.761 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.761 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.761 * [taylor]: Taking taylor expansion of x.re in x.re
9.761 * [backup-simplify]: Simplify 0 into 0
9.761 * [backup-simplify]: Simplify 1 into 1
9.762 * [backup-simplify]: Simplify (* 1 1) into 1
9.762 * [backup-simplify]: Simplify (/ 1 1) into 1
9.762 * [backup-simplify]: Simplify (+ 0 1) into 1
9.763 * [backup-simplify]: Simplify (sqrt 1) into 1
9.763 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.764 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.764 * [backup-simplify]: Simplify (+ 0 0) into 0
9.765 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.765 * [taylor]: Taking taylor expansion of 1 in x.im
9.765 * [backup-simplify]: Simplify 1 into 1
9.765 * [taylor]: Taking taylor expansion of 0 in x.im
9.765 * [backup-simplify]: Simplify 0 into 0
9.765 * [backup-simplify]: Simplify 1 into 1
9.766 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.767 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.767 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) 0) into (/ 1 (pow x.im 2))
9.769 * [backup-simplify]: Simplify (/ (- (/ 1 (pow x.im 2)) (pow 0 2) (+)) (* 2 1)) into (/ 1/2 (pow x.im 2))
9.769 * [taylor]: Taking taylor expansion of (/ 1/2 (pow x.im 2)) in x.im
9.769 * [taylor]: Taking taylor expansion of 1/2 in x.im
9.769 * [backup-simplify]: Simplify 1/2 into 1/2
9.769 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.769 * [taylor]: Taking taylor expansion of x.im in x.im
9.769 * [backup-simplify]: Simplify 0 into 0
9.769 * [backup-simplify]: Simplify 1 into 1
9.769 * [backup-simplify]: Simplify (* 1 1) into 1
9.770 * [backup-simplify]: Simplify (/ 1/2 1) into 1/2
9.770 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.771 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)))) into 0
9.771 * [backup-simplify]: Simplify 0 into 0
9.771 * [backup-simplify]: Simplify 0 into 0
9.771 * [backup-simplify]: Simplify 0 into 0
9.772 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.772 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.im 2)) (/ 0 (pow x.im 2))))) into 0
9.773 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (+ (* 0 0) (* 0 1)))) into 0
9.774 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.774 * [backup-simplify]: Simplify (+ 0 0) into 0
9.775 * [backup-simplify]: Simplify (/ (- 0 (+ (* 2 (* 0 (/ 1/2 (pow x.im 2)))))) (* 2 1)) into 0
9.775 * [taylor]: Taking taylor expansion of 0 in x.im
9.775 * [backup-simplify]: Simplify 0 into 0
9.776 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.777 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* 1/2 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.777 * [backup-simplify]: Simplify 0 into 0
9.777 * [backup-simplify]: Simplify 0 into 0
9.777 * [backup-simplify]: Simplify 0 into 0
9.777 * [backup-simplify]: Simplify (* 1 (* 1 (/ 1 (/ 1 (- x.re))))) into (* -1 x.re)
9.777 * * * * [progress]: [ 3 / 4 ] generating series at (2 2)
9.778 * [backup-simplify]: Simplify (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))))
9.778 * [approximate]: Taking taylor expansion of (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))))) in (x.re x.im y.im y.re) around 0
9.778 * [taylor]: Taking taylor expansion of (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))))) in y.re
9.778 * [taylor]: Taking taylor expansion of (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) in y.re
9.778 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.re
9.778 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.re
9.778 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.778 * [taylor]: Taking taylor expansion of y.re in y.re
9.778 * [backup-simplify]: Simplify 0 into 0
9.778 * [backup-simplify]: Simplify 1 into 1
9.778 * [taylor]: Taking taylor expansion of (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))) in y.re
9.778 * [taylor]: Taking taylor expansion of y.im in y.re
9.778 * [backup-simplify]: Simplify y.im into y.im
9.778 * [taylor]: Taking taylor expansion of (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) in y.re
9.778 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in y.re
9.778 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in y.re
9.778 * [taylor]: Taking taylor expansion of (pow x.im 2) in y.re
9.778 * [taylor]: Taking taylor expansion of x.im in y.re
9.778 * [backup-simplify]: Simplify x.im into x.im
9.778 * [taylor]: Taking taylor expansion of (pow x.re 2) in y.re
9.778 * [taylor]: Taking taylor expansion of x.re in y.re
9.778 * [backup-simplify]: Simplify x.re into x.re
9.778 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.778 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.779 * [backup-simplify]: Simplify (+ (pow x.im 2) (pow x.re 2)) into (+ (pow x.re 2) (pow x.im 2))
9.779 * [backup-simplify]: Simplify (sqrt (+ (pow x.re 2) (pow x.im 2))) into (sqrt (+ (pow x.im 2) (pow x.re 2)))
9.779 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.779 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
9.779 * [backup-simplify]: Simplify (+ 0 0) into 0
9.780 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (pow x.re 2) (pow x.im 2))))) into 0
9.780 * [backup-simplify]: Simplify (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) into (log (sqrt (+ (pow x.re 2) (pow x.im 2))))
9.780 * [backup-simplify]: Simplify (* (atan2 x.im x.re) 0) into 0
9.780 * [backup-simplify]: Simplify (* y.im (log (sqrt (+ (pow x.re 2) (pow x.im 2))))) into (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))
9.780 * [backup-simplify]: Simplify (+ 0 (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) into (* y.im (log (sqrt (+ (pow x.re 2) (pow x.im 2)))))
9.780 * [backup-simplify]: Simplify (cos (* y.im (log (sqrt (+ (pow x.re 2) (pow x.im 2)))))) into (cos (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))))
9.781 * [backup-simplify]: Simplify (sin (* y.im (log (sqrt (+ (pow x.re 2) (pow x.im 2)))))) into (sin (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))))
9.781 * [taylor]: Taking taylor expansion of (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))))) in y.im
9.781 * [taylor]: Taking taylor expansion of (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) in y.im
9.781 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.im
9.781 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.im
9.781 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.781 * [taylor]: Taking taylor expansion of y.re in y.im
9.781 * [backup-simplify]: Simplify y.re into y.re
9.781 * [taylor]: Taking taylor expansion of (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))) in y.im
9.781 * [taylor]: Taking taylor expansion of y.im in y.im
9.781 * [backup-simplify]: Simplify 0 into 0
9.781 * [backup-simplify]: Simplify 1 into 1
9.781 * [taylor]: Taking taylor expansion of (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) in y.im
9.781 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in y.im
9.781 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in y.im
9.781 * [taylor]: Taking taylor expansion of (pow x.im 2) in y.im
9.781 * [taylor]: Taking taylor expansion of x.im in y.im
9.781 * [backup-simplify]: Simplify x.im into x.im
9.781 * [taylor]: Taking taylor expansion of (pow x.re 2) in y.im
9.781 * [taylor]: Taking taylor expansion of x.re in y.im
9.781 * [backup-simplify]: Simplify x.re into x.re
9.781 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.782 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.782 * [backup-simplify]: Simplify (+ (pow x.im 2) (pow x.re 2)) into (+ (pow x.re 2) (pow x.im 2))
9.782 * [backup-simplify]: Simplify (sqrt (+ (pow x.re 2) (pow x.im 2))) into (sqrt (+ (pow x.im 2) (pow x.re 2)))
9.782 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.782 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
9.783 * [backup-simplify]: Simplify (+ 0 0) into 0
9.783 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (pow x.re 2) (pow x.im 2))))) into 0
9.783 * [backup-simplify]: Simplify (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) into (log (sqrt (+ (pow x.re 2) (pow x.im 2))))
9.783 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
9.783 * [backup-simplify]: Simplify (* 0 (log (sqrt (+ (pow x.re 2) (pow x.im 2))))) into 0
9.783 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) y.re) 0) into (* (atan2 x.im x.re) y.re)
9.783 * [backup-simplify]: Simplify (cos (* (atan2 x.im x.re) y.re)) into (cos (* (atan2 x.im x.re) y.re))
9.784 * [backup-simplify]: Simplify (sin (* (atan2 x.im x.re) y.re)) into (sin (* (atan2 x.im x.re) y.re))
9.784 * [taylor]: Taking taylor expansion of (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))))) in x.im
9.784 * [taylor]: Taking taylor expansion of (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) in x.im
9.784 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.im
9.784 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
9.784 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.784 * [taylor]: Taking taylor expansion of y.re in x.im
9.784 * [backup-simplify]: Simplify y.re into y.re
9.784 * [taylor]: Taking taylor expansion of (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))) in x.im
9.784 * [taylor]: Taking taylor expansion of y.im in x.im
9.784 * [backup-simplify]: Simplify y.im into y.im
9.784 * [taylor]: Taking taylor expansion of (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) in x.im
9.784 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in x.im
9.784 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in x.im
9.784 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.784 * [taylor]: Taking taylor expansion of x.im in x.im
9.784 * [backup-simplify]: Simplify 0 into 0
9.784 * [backup-simplify]: Simplify 1 into 1
9.784 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.im
9.784 * [taylor]: Taking taylor expansion of x.re in x.im
9.784 * [backup-simplify]: Simplify x.re into x.re
9.784 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.784 * [backup-simplify]: Simplify (+ 0 (pow x.re 2)) into (pow x.re 2)
9.784 * [backup-simplify]: Simplify (sqrt (pow x.re 2)) into x.re
9.784 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
9.785 * [backup-simplify]: Simplify (+ 0 0) into 0
9.785 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.re 2)))) into 0
9.785 * [backup-simplify]: Simplify (log x.re) into (log x.re)
9.785 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
9.785 * [backup-simplify]: Simplify (* y.im (log x.re)) into (* y.im (log x.re))
9.785 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.re))) into (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.re)))
9.786 * [backup-simplify]: Simplify (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.re)))) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.re))))
9.786 * [backup-simplify]: Simplify (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.re)))) into (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.re))))
9.786 * [taylor]: Taking taylor expansion of (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))))) in x.re
9.786 * [taylor]: Taking taylor expansion of (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) in x.re
9.786 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.re
9.786 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
9.786 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.786 * [taylor]: Taking taylor expansion of y.re in x.re
9.786 * [backup-simplify]: Simplify y.re into y.re
9.786 * [taylor]: Taking taylor expansion of (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))) in x.re
9.786 * [taylor]: Taking taylor expansion of y.im in x.re
9.786 * [backup-simplify]: Simplify y.im into y.im
9.786 * [taylor]: Taking taylor expansion of (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) in x.re
9.786 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in x.re
9.786 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in x.re
9.786 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.786 * [taylor]: Taking taylor expansion of x.im in x.re
9.786 * [backup-simplify]: Simplify x.im into x.im
9.786 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.786 * [taylor]: Taking taylor expansion of x.re in x.re
9.786 * [backup-simplify]: Simplify 0 into 0
9.786 * [backup-simplify]: Simplify 1 into 1
9.786 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.786 * [backup-simplify]: Simplify (+ (pow x.im 2) 0) into (pow x.im 2)
9.787 * [backup-simplify]: Simplify (sqrt (pow x.im 2)) into x.im
9.787 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.787 * [backup-simplify]: Simplify (+ 0 0) into 0
9.787 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.im 2)))) into 0
9.787 * [backup-simplify]: Simplify (log x.im) into (log x.im)
9.787 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
9.787 * [backup-simplify]: Simplify (* y.im (log x.im)) into (* y.im (log x.im))
9.787 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))) into (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))
9.788 * [backup-simplify]: Simplify (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.788 * [backup-simplify]: Simplify (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) into (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.788 * [taylor]: Taking taylor expansion of (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))))) in x.re
9.788 * [taylor]: Taking taylor expansion of (+ (* (atan2 x.im x.re) y.re) (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2)))))) in x.re
9.788 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.re
9.788 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
9.788 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.788 * [taylor]: Taking taylor expansion of y.re in x.re
9.788 * [backup-simplify]: Simplify y.re into y.re
9.788 * [taylor]: Taking taylor expansion of (* y.im (log (sqrt (+ (pow x.im 2) (pow x.re 2))))) in x.re
9.788 * [taylor]: Taking taylor expansion of y.im in x.re
9.788 * [backup-simplify]: Simplify y.im into y.im
9.788 * [taylor]: Taking taylor expansion of (log (sqrt (+ (pow x.im 2) (pow x.re 2)))) in x.re
9.788 * [taylor]: Taking taylor expansion of (sqrt (+ (pow x.im 2) (pow x.re 2))) in x.re
9.788 * [taylor]: Taking taylor expansion of (+ (pow x.im 2) (pow x.re 2)) in x.re
9.788 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.788 * [taylor]: Taking taylor expansion of x.im in x.re
9.788 * [backup-simplify]: Simplify x.im into x.im
9.788 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.788 * [taylor]: Taking taylor expansion of x.re in x.re
9.788 * [backup-simplify]: Simplify 0 into 0
9.788 * [backup-simplify]: Simplify 1 into 1
9.788 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.789 * [backup-simplify]: Simplify (+ (pow x.im 2) 0) into (pow x.im 2)
9.789 * [backup-simplify]: Simplify (sqrt (pow x.im 2)) into x.im
9.789 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.789 * [backup-simplify]: Simplify (+ 0 0) into 0
9.789 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (pow x.im 2)))) into 0
9.789 * [backup-simplify]: Simplify (log x.im) into (log x.im)
9.789 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
9.790 * [backup-simplify]: Simplify (* y.im (log x.im)) into (* y.im (log x.im))
9.790 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))) into (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))
9.790 * [backup-simplify]: Simplify (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.790 * [backup-simplify]: Simplify (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) into (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.790 * [backup-simplify]: Simplify (* (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 1) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.791 * [backup-simplify]: Simplify (* (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) into 0
9.791 * [backup-simplify]: Simplify (- 0) into 0
9.791 * [backup-simplify]: Simplify (+ (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.791 * [taylor]: Taking taylor expansion of (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) in x.im
9.791 * [taylor]: Taking taylor expansion of (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))) in x.im
9.791 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.im
9.791 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
9.791 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.791 * [taylor]: Taking taylor expansion of y.re in x.im
9.791 * [backup-simplify]: Simplify y.re into y.re
9.791 * [taylor]: Taking taylor expansion of (* y.im (log x.im)) in x.im
9.791 * [taylor]: Taking taylor expansion of y.im in x.im
9.791 * [backup-simplify]: Simplify y.im into y.im
9.791 * [taylor]: Taking taylor expansion of (log x.im) in x.im
9.791 * [taylor]: Taking taylor expansion of x.im in x.im
9.792 * [backup-simplify]: Simplify 0 into 0
9.792 * [backup-simplify]: Simplify 1 into 1
9.792 * [backup-simplify]: Simplify (log 1) into 0
9.792 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
9.792 * [backup-simplify]: Simplify (+ (* (- -1) (log x.im)) 0) into (log x.im)
9.792 * [backup-simplify]: Simplify (* y.im (log x.im)) into (* y.im (log x.im))
9.793 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))) into (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))
9.793 * [backup-simplify]: Simplify (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.793 * [backup-simplify]: Simplify (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) into (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.793 * [backup-simplify]: Simplify (* (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 1) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.793 * [backup-simplify]: Simplify (* (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) into 0
9.794 * [backup-simplify]: Simplify (- 0) into 0
9.794 * [backup-simplify]: Simplify (+ (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.794 * [taylor]: Taking taylor expansion of (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) in y.im
9.794 * [taylor]: Taking taylor expansion of (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))) in y.im
9.794 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.im
9.794 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.im
9.794 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.794 * [taylor]: Taking taylor expansion of y.re in y.im
9.794 * [backup-simplify]: Simplify y.re into y.re
9.794 * [taylor]: Taking taylor expansion of (* y.im (log x.im)) in y.im
9.794 * [taylor]: Taking taylor expansion of y.im in y.im
9.794 * [backup-simplify]: Simplify 0 into 0
9.794 * [backup-simplify]: Simplify 1 into 1
9.794 * [taylor]: Taking taylor expansion of (log x.im) in y.im
9.794 * [taylor]: Taking taylor expansion of x.im in y.im
9.794 * [backup-simplify]: Simplify x.im into x.im
9.794 * [backup-simplify]: Simplify (log x.im) into (log x.im)
9.794 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
9.795 * [backup-simplify]: Simplify (* 0 (log x.im)) into 0
9.795 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) y.re) 0) into (* (atan2 x.im x.re) y.re)
9.795 * [backup-simplify]: Simplify (cos (* (atan2 x.im x.re) y.re)) into (cos (* (atan2 x.im x.re) y.re))
9.795 * [backup-simplify]: Simplify (sin (* (atan2 x.im x.re) y.re)) into (sin (* (atan2 x.im x.re) y.re))
9.795 * [backup-simplify]: Simplify (* (cos (* (atan2 x.im x.re) y.re)) 1) into (cos (* (atan2 x.im x.re) y.re))
9.795 * [backup-simplify]: Simplify (* (sin (* (atan2 x.im x.re) y.re)) 0) into 0
9.795 * [backup-simplify]: Simplify (- 0) into 0
9.795 * [backup-simplify]: Simplify (+ (cos (* (atan2 x.im x.re) y.re)) 0) into (cos (* (atan2 x.im x.re) y.re))
9.796 * [taylor]: Taking taylor expansion of (cos (* (atan2 x.im x.re) y.re)) in y.re
9.796 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.re
9.796 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.re
9.796 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.796 * [taylor]: Taking taylor expansion of y.re in y.re
9.796 * [backup-simplify]: Simplify 0 into 0
9.796 * [backup-simplify]: Simplify 1 into 1
9.796 * [backup-simplify]: Simplify (* (atan2 x.im x.re) 0) into 0
9.796 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 1) (* 0 0)) into (atan2 x.im x.re)
9.796 * [backup-simplify]: Simplify 1 into 1
9.797 * [backup-simplify]: Simplify (+ 0) into 0
9.797 * [backup-simplify]: Simplify (+ (* (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) (* 0 1)) into 0
9.797 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (* 0 y.re)) into 0
9.798 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.im 1)))) 1) into 0
9.798 * [backup-simplify]: Simplify (+ (* y.im 0) (* 0 (log x.im))) into 0
9.799 * [backup-simplify]: Simplify (+ 0 0) into 0
9.799 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
9.800 * [backup-simplify]: Simplify (+ (* (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) (* 0 0)) into 0
9.800 * [backup-simplify]: Simplify (- 0) into 0
9.801 * [backup-simplify]: Simplify (+ 0 0) into 0
9.801 * [taylor]: Taking taylor expansion of 0 in x.im
9.801 * [backup-simplify]: Simplify 0 into 0
9.801 * [taylor]: Taking taylor expansion of 0 in y.im
9.801 * [backup-simplify]: Simplify 0 into 0
9.801 * [taylor]: Taking taylor expansion of 0 in y.re
9.801 * [backup-simplify]: Simplify 0 into 0
9.801 * [backup-simplify]: Simplify 0 into 0
9.801 * [backup-simplify]: Simplify (+ 0) into 0
9.802 * [backup-simplify]: Simplify (+ (* (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) (* 0 1)) into 0
9.802 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (* 0 y.re)) into 0
9.804 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow 1 1)))) 1) into 0
9.804 * [backup-simplify]: Simplify (+ (* (- -1) (log x.im)) 0) into (log x.im)
9.804 * [backup-simplify]: Simplify (+ (* y.im 0) (* 0 (log x.im))) into 0
9.805 * [backup-simplify]: Simplify (+ 0 0) into 0
9.806 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
9.806 * [backup-simplify]: Simplify (+ (* (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) (* 0 0)) into 0
9.806 * [backup-simplify]: Simplify (- 0) into 0
9.807 * [backup-simplify]: Simplify (+ 0 0) into 0
9.807 * [taylor]: Taking taylor expansion of 0 in y.im
9.807 * [backup-simplify]: Simplify 0 into 0
9.807 * [taylor]: Taking taylor expansion of 0 in y.re
9.807 * [backup-simplify]: Simplify 0 into 0
9.807 * [backup-simplify]: Simplify 0 into 0
9.807 * [backup-simplify]: Simplify (+ 0) into 0
9.808 * [backup-simplify]: Simplify (+ (* (cos (* (atan2 x.im x.re) y.re)) 0) (* 0 1)) into 0
9.808 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (* 0 y.re)) into 0
9.809 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.im 1)))) 1) into 0
9.809 * [backup-simplify]: Simplify (+ (* 0 0) (* 1 (log x.im))) into (log x.im)
9.809 * [backup-simplify]: Simplify (+ 0 (log x.im)) into (log x.im)
9.809 * [backup-simplify]: Simplify (+ (* 1 (/ (pow (log x.im) 1) 1))) into (log x.im)
9.810 * [backup-simplify]: Simplify (+ (* (sin (* (atan2 x.im x.re) y.re)) (log x.im)) (* 0 0)) into (* (sin (* (atan2 x.im x.re) y.re)) (log x.im))
9.810 * [backup-simplify]: Simplify (- (* (sin (* (atan2 x.im x.re) y.re)) (log x.im))) into (- (* (sin (* (atan2 x.im x.re) y.re)) (log x.im)))
9.810 * [backup-simplify]: Simplify (+ 0 (- (* (sin (* (atan2 x.im x.re) y.re)) (log x.im)))) into (- (* (sin (* (atan2 x.im x.re) y.re)) (log x.im)))
9.810 * [taylor]: Taking taylor expansion of (- (* (sin (* (atan2 x.im x.re) y.re)) (log x.im))) in y.re
9.810 * [taylor]: Taking taylor expansion of (* (sin (* (atan2 x.im x.re) y.re)) (log x.im)) in y.re
9.810 * [taylor]: Taking taylor expansion of (sin (* (atan2 x.im x.re) y.re)) in y.re
9.810 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in y.re
9.810 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.re
9.811 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.811 * [taylor]: Taking taylor expansion of y.re in y.re
9.811 * [backup-simplify]: Simplify 0 into 0
9.811 * [backup-simplify]: Simplify 1 into 1
9.811 * [backup-simplify]: Simplify (* (atan2 x.im x.re) 0) into 0
9.811 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 1) (* 0 0)) into (atan2 x.im x.re)
9.811 * [taylor]: Taking taylor expansion of (log x.im) in y.re
9.811 * [taylor]: Taking taylor expansion of x.im in y.re
9.811 * [backup-simplify]: Simplify x.im into x.im
9.811 * [backup-simplify]: Simplify (log x.im) into (log x.im)
9.811 * [backup-simplify]: Simplify (* 0 (log x.im)) into 0
9.812 * [backup-simplify]: Simplify (- 0) into 0
9.812 * [backup-simplify]: Simplify 0 into 0
9.812 * [backup-simplify]: Simplify (+ 0) into 0
9.812 * [backup-simplify]: Simplify 0 into 0
9.813 * [backup-simplify]: Simplify (+ (* -1 (/ (pow 0 2) 2)) 0) into 0
9.814 * [backup-simplify]: Simplify (+ (* (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) (+ (* 0 0) (* 0 1))) into 0
9.816 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (+ (* 0 0) (* 0 y.re))) into 0
9.817 * [backup-simplify]: Simplify (+ (* x.im 0) (+ (* 0 0) (* 0 x.im))) into 0
9.818 * [backup-simplify]: Simplify (* 1 1) into 1
9.818 * [backup-simplify]: Simplify (+ 0 1) into 1
9.819 * [backup-simplify]: Simplify (/ (- 1 (pow 0 2) (+)) (* 2 x.im)) into (/ 1/2 x.im)
9.820 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow x.im 2))) (* 1 (/ (* 1 (pow (* 2 (/ 1/2 x.im)) 1)) (pow x.im 1)))) 2) into (/ 1/2 (pow x.im 2))
9.820 * [backup-simplify]: Simplify (+ (* y.im (/ 1/2 (pow x.im 2))) (+ (* 0 0) (* 0 (log x.im)))) into (* 1/2 (/ y.im (pow x.im 2)))
9.820 * [backup-simplify]: Simplify (+ 0 (* 1/2 (/ y.im (pow x.im 2)))) into (* 1/2 (/ y.im (pow x.im 2)))
9.820 * [backup-simplify]: Simplify (+ 0 (* 1 (/ (pow (* 1/2 (/ y.im (pow x.im 2))) 1) 1))) into (* 1/2 (/ y.im (pow x.im 2)))
9.821 * [backup-simplify]: Simplify (+ (* (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) (* 1/2 (/ y.im (pow x.im 2)))) (+ (* 0 0) (* 0 0))) into (* 1/2 (/ (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) (pow x.im 2)))
9.821 * [backup-simplify]: Simplify (- (* 1/2 (/ (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) (pow x.im 2)))) into (- (* 1/2 (/ (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) (pow x.im 2))))
9.821 * [backup-simplify]: Simplify (+ 0 (- (* 1/2 (/ (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) (pow x.im 2))))) into (- (* 1/2 (/ (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) (pow x.im 2))))
9.821 * [taylor]: Taking taylor expansion of (- (* 1/2 (/ (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) (pow x.im 2)))) in x.im
9.821 * [taylor]: Taking taylor expansion of (* 1/2 (/ (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) (pow x.im 2))) in x.im
9.821 * [taylor]: Taking taylor expansion of 1/2 in x.im
9.821 * [backup-simplify]: Simplify 1/2 into 1/2
9.821 * [taylor]: Taking taylor expansion of (/ (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) (pow x.im 2)) in x.im
9.822 * [taylor]: Taking taylor expansion of (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) in x.im
9.822 * [taylor]: Taking taylor expansion of y.im in x.im
9.822 * [backup-simplify]: Simplify y.im into y.im
9.822 * [taylor]: Taking taylor expansion of (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) in x.im
9.822 * [taylor]: Taking taylor expansion of (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))) in x.im
9.822 * [taylor]: Taking taylor expansion of (* (atan2 x.im x.re) y.re) in x.im
9.822 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
9.822 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.822 * [taylor]: Taking taylor expansion of y.re in x.im
9.822 * [backup-simplify]: Simplify y.re into y.re
9.822 * [taylor]: Taking taylor expansion of (* y.im (log x.im)) in x.im
9.822 * [taylor]: Taking taylor expansion of y.im in x.im
9.822 * [backup-simplify]: Simplify y.im into y.im
9.822 * [taylor]: Taking taylor expansion of (log x.im) in x.im
9.822 * [taylor]: Taking taylor expansion of x.im in x.im
9.822 * [backup-simplify]: Simplify 0 into 0
9.822 * [backup-simplify]: Simplify 1 into 1
9.822 * [backup-simplify]: Simplify (log 1) into 0
9.822 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.re) into (* (atan2 x.im x.re) y.re)
9.822 * [backup-simplify]: Simplify (+ (* (- -1) (log x.im)) 0) into (log x.im)
9.822 * [backup-simplify]: Simplify (* y.im (log x.im)) into (* y.im (log x.im))
9.822 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))) into (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))
9.823 * [backup-simplify]: Simplify (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) into (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.823 * [backup-simplify]: Simplify (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) into (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.823 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.823 * [taylor]: Taking taylor expansion of x.im in x.im
9.823 * [backup-simplify]: Simplify 0 into 0
9.823 * [backup-simplify]: Simplify 1 into 1
9.823 * [backup-simplify]: Simplify (* (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 1) into (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.823 * [backup-simplify]: Simplify (* (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) into 0
9.823 * [backup-simplify]: Simplify (+ (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) into (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))
9.823 * [backup-simplify]: Simplify (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) into (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))))
9.823 * [backup-simplify]: Simplify (* 1 1) into 1
9.824 * [backup-simplify]: Simplify (/ (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) 1) into (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))))
9.824 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (* 0 y.re)) into 0
9.825 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow 1 1)))) 1) into 0
9.825 * [backup-simplify]: Simplify (+ (* (- -1) (log x.im)) 0) into (log x.im)
9.825 * [backup-simplify]: Simplify (+ (* y.im 0) (* 0 (log x.im))) into 0
9.825 * [backup-simplify]: Simplify (+ 0 0) into 0
9.826 * [backup-simplify]: Simplify (+ (* -1 (/ (pow 0 2) 2)) 0) into 0
9.826 * [backup-simplify]: Simplify (+ 0) into 0
9.826 * [backup-simplify]: Simplify (+ (* (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) (+ (* 0 0) (* 0 1))) into 0
9.827 * [backup-simplify]: Simplify (+ (* (atan2 x.im x.re) 0) (+ (* 0 0) (* 0 y.re))) into 0
9.828 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow 1 2))) (* 1 (/ (* 1 (pow (* 2 0) 1)) (pow 1 1)))) 2) into 0
9.829 * [backup-simplify]: Simplify (+ (* (- -1) (log x.im)) 0) into (log x.im)
9.829 * [backup-simplify]: Simplify (+ (* y.im 0) (+ (* 0 0) (* 0 (log x.im)))) into 0
9.829 * [backup-simplify]: Simplify (+ 0 0) into 0
9.830 * [backup-simplify]: Simplify (+ 0 (* 1 (/ (pow 0 1) 1))) into 0
9.830 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
9.830 * [backup-simplify]: Simplify (+ (* (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) (+ (* 0 0) (* 0 0))) into 0
9.831 * [backup-simplify]: Simplify (+ 0 0) into 0
9.831 * [backup-simplify]: Simplify (+ (* (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) (* 0 1)) into 0
9.831 * [backup-simplify]: Simplify (+ (* (cos (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))) 0) (* 0 0)) into 0
9.832 * [backup-simplify]: Simplify (+ 0 0) into 0
9.832 * [backup-simplify]: Simplify (+ (* y.im 0) (+ (* 0 0) (* 0 (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))))) into 0
9.833 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.833 * [backup-simplify]: Simplify (+ (* y.im 0) (* 0 (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))))) into 0
9.833 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.834 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) (/ 0 1)))) into 0
9.835 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im))))) (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.835 * [backup-simplify]: Simplify (+ (* 1/2 0) (+ (* 0 0) (* 0 (* y.im (sin (+ (* (atan2 x.im x.re) y.re) (* y.im (log x.im)))))))) into 0
9.836 * [backup-simplify]: Simplify (- 0) into 0
9.836 * [taylor]: Taking taylor expansion of 0 in y.im
9.836 * [backup-simplify]: Simplify 0 into 0
9.836 * [taylor]: Taking taylor expansion of 0 in y.re
9.836 * [backup-simplify]: Simplify 0 into 0
9.836 * [backup-simplify]: Simplify 0 into 0
9.836 * [taylor]: Taking taylor expansion of 0 in y.im
9.836 * [backup-simplify]: Simplify 0 into 0
9.836 * [taylor]: Taking taylor expansion of 0 in y.re
9.836 * [backup-simplify]: Simplify 0 into 0
9.836 * [backup-simplify]: Simplify 0 into 0
9.836 * [backup-simplify]: Simplify 1 into 1
9.836 * [backup-simplify]: Simplify (cos (+ (* (log (sqrt (+ (* (/ 1 x.re) (/ 1 x.re)) (* (/ 1 x.im) (/ 1 x.im))))) (/ 1 y.im)) (* (atan2 (/ 1 x.im) (/ 1 x.re)) (/ 1 y.re)))) into (cos (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)))
9.836 * [approximate]: Taking taylor expansion of (cos (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) in (x.re x.im y.im y.re) around 0
9.836 * [taylor]: Taking taylor expansion of (cos (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) in y.re
9.836 * [taylor]: Taking taylor expansion of (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)) in y.re
9.836 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in y.re
9.836 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.re
9.836 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.836 * [taylor]: Taking taylor expansion of y.re in y.re
9.836 * [backup-simplify]: Simplify 0 into 0
9.836 * [backup-simplify]: Simplify 1 into 1
9.836 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) 1) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.836 * [taylor]: Taking taylor expansion of (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) in y.re
9.836 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in y.re
9.836 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in y.re
9.836 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in y.re
9.836 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in y.re
9.836 * [taylor]: Taking taylor expansion of (pow x.im 2) in y.re
9.837 * [taylor]: Taking taylor expansion of x.im in y.re
9.837 * [backup-simplify]: Simplify x.im into x.im
9.837 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.837 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.837 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in y.re
9.837 * [taylor]: Taking taylor expansion of (pow x.re 2) in y.re
9.837 * [taylor]: Taking taylor expansion of x.re in y.re
9.837 * [backup-simplify]: Simplify x.re into x.re
9.837 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.837 * [backup-simplify]: Simplify (/ 1 (pow x.re 2)) into (/ 1 (pow x.re 2))
9.837 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
9.837 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
9.837 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.837 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.im 2)) (/ 0 (pow x.im 2))))) into 0
9.837 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
9.837 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.re 2)) (/ 0 (pow x.re 2))))) into 0
9.838 * [backup-simplify]: Simplify (+ 0 0) into 0
9.838 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
9.838 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
9.838 * [taylor]: Taking taylor expansion of y.im in y.re
9.838 * [backup-simplify]: Simplify y.im into y.im
9.838 * [backup-simplify]: Simplify (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) into (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)
9.838 * [backup-simplify]: Simplify (+ (atan2 (/ 1 x.im) (/ 1 x.re)) 0) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.838 * [backup-simplify]: Simplify (cos (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) into (cos (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)))
9.838 * [taylor]: Taking taylor expansion of (cos (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) in y.im
9.838 * [taylor]: Taking taylor expansion of (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)) in y.im
9.838 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in y.im
9.838 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.im
9.838 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.838 * [taylor]: Taking taylor expansion of y.re in y.im
9.838 * [backup-simplify]: Simplify y.re into y.re
9.838 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
9.838 * [taylor]: Taking taylor expansion of (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) in y.im
9.839 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in y.im
9.839 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in y.im
9.839 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in y.im
9.839 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in y.im
9.839 * [taylor]: Taking taylor expansion of (pow x.im 2) in y.im
9.839 * [taylor]: Taking taylor expansion of x.im in y.im
9.839 * [backup-simplify]: Simplify x.im into x.im
9.839 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.839 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.839 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in y.im
9.839 * [taylor]: Taking taylor expansion of (pow x.re 2) in y.im
9.839 * [taylor]: Taking taylor expansion of x.re in y.im
9.839 * [backup-simplify]: Simplify x.re into x.re
9.839 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.839 * [backup-simplify]: Simplify (/ 1 (pow x.re 2)) into (/ 1 (pow x.re 2))
9.839 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
9.839 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
9.839 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.839 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.im 2)) (/ 0 (pow x.im 2))))) into 0
9.839 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
9.839 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.re 2)) (/ 0 (pow x.re 2))))) into 0
9.840 * [backup-simplify]: Simplify (+ 0 0) into 0
9.840 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
9.840 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
9.840 * [taylor]: Taking taylor expansion of y.im in y.im
9.840 * [backup-simplify]: Simplify 0 into 0
9.840 * [backup-simplify]: Simplify 1 into 1
9.840 * [backup-simplify]: Simplify (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) 1) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
9.840 * [backup-simplify]: Simplify (+ 0 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
9.840 * [backup-simplify]: Simplify (cos (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) into (cos (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)))
9.840 * [taylor]: Taking taylor expansion of (cos (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) in x.im
9.840 * [taylor]: Taking taylor expansion of (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)) in x.im
9.840 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.im
9.840 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.im
9.841 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.841 * [taylor]: Taking taylor expansion of y.re in x.im
9.841 * [backup-simplify]: Simplify y.re into y.re
9.841 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
9.841 * [taylor]: Taking taylor expansion of (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) in x.im
9.841 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in x.im
9.841 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.im
9.841 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.im
9.841 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.im
9.841 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.841 * [taylor]: Taking taylor expansion of x.im in x.im
9.841 * [backup-simplify]: Simplify 0 into 0
9.841 * [backup-simplify]: Simplify 1 into 1
9.841 * [backup-simplify]: Simplify (* 1 1) into 1
9.841 * [backup-simplify]: Simplify (/ 1 1) into 1
9.841 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.im
9.841 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.im
9.841 * [taylor]: Taking taylor expansion of x.re in x.im
9.841 * [backup-simplify]: Simplify x.re into x.re
9.841 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.841 * [backup-simplify]: Simplify (/ 1 (pow x.re 2)) into (/ 1 (pow x.re 2))
9.842 * [backup-simplify]: Simplify (+ 1 0) into 1
9.842 * [backup-simplify]: Simplify (sqrt 1) into 1
9.842 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.843 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.843 * [backup-simplify]: Simplify (+ 0 0) into 0
9.843 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.844 * [backup-simplify]: Simplify (log 1) into 0
9.844 * [taylor]: Taking taylor expansion of y.im in x.im
9.844 * [backup-simplify]: Simplify y.im into y.im
9.844 * [backup-simplify]: Simplify (+ (* (- 1) (log x.im)) 0) into (- (log x.im))
9.844 * [backup-simplify]: Simplify (+ (* (- 1) (log x.im)) 0) into (- (log x.im))
9.844 * [backup-simplify]: Simplify (/ (- (log x.im)) y.im) into (* -1 (/ (log x.im) y.im))
9.844 * [backup-simplify]: Simplify (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (* -1 (/ (log x.im) y.im))) into (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.im) y.im))
9.845 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.im) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.im) y.im)))
9.845 * [backup-simplify]: Simplify (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.im) y.im))) into (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.im) y.im)))
9.845 * [taylor]: Taking taylor expansion of (cos (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) in x.re
9.845 * [taylor]: Taking taylor expansion of (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)) in x.re
9.845 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.re
9.845 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.re
9.845 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.845 * [taylor]: Taking taylor expansion of y.re in x.re
9.845 * [backup-simplify]: Simplify y.re into y.re
9.845 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
9.845 * [taylor]: Taking taylor expansion of (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) in x.re
9.845 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in x.re
9.845 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.845 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.845 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.845 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.845 * [taylor]: Taking taylor expansion of x.im in x.re
9.845 * [backup-simplify]: Simplify x.im into x.im
9.845 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.845 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.845 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.845 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.845 * [taylor]: Taking taylor expansion of x.re in x.re
9.845 * [backup-simplify]: Simplify 0 into 0
9.845 * [backup-simplify]: Simplify 1 into 1
9.845 * [backup-simplify]: Simplify (* 1 1) into 1
9.846 * [backup-simplify]: Simplify (/ 1 1) into 1
9.846 * [backup-simplify]: Simplify (+ 0 1) into 1
9.846 * [backup-simplify]: Simplify (sqrt 1) into 1
9.847 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.847 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.847 * [backup-simplify]: Simplify (+ 0 0) into 0
9.848 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.848 * [backup-simplify]: Simplify (log 1) into 0
9.848 * [taylor]: Taking taylor expansion of y.im in x.re
9.848 * [backup-simplify]: Simplify y.im into y.im
9.849 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
9.849 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
9.849 * [backup-simplify]: Simplify (/ (- (log x.re)) y.im) into (* -1 (/ (log x.re) y.im))
9.850 * [backup-simplify]: Simplify (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (* -1 (/ (log x.re) y.im))) into (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))
9.850 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.850 * [backup-simplify]: Simplify (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.850 * [taylor]: Taking taylor expansion of (cos (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) in x.re
9.850 * [taylor]: Taking taylor expansion of (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)) in x.re
9.850 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.re
9.850 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.re
9.850 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.850 * [taylor]: Taking taylor expansion of y.re in x.re
9.850 * [backup-simplify]: Simplify y.re into y.re
9.850 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
9.851 * [taylor]: Taking taylor expansion of (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) in x.re
9.851 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in x.re
9.851 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.851 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.851 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.851 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.851 * [taylor]: Taking taylor expansion of x.im in x.re
9.851 * [backup-simplify]: Simplify x.im into x.im
9.851 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.851 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.851 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.851 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.851 * [taylor]: Taking taylor expansion of x.re in x.re
9.851 * [backup-simplify]: Simplify 0 into 0
9.851 * [backup-simplify]: Simplify 1 into 1
9.851 * [backup-simplify]: Simplify (* 1 1) into 1
9.852 * [backup-simplify]: Simplify (/ 1 1) into 1
9.852 * [backup-simplify]: Simplify (+ 0 1) into 1
9.853 * [backup-simplify]: Simplify (sqrt 1) into 1
9.853 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.854 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.854 * [backup-simplify]: Simplify (+ 0 0) into 0
9.855 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.856 * [backup-simplify]: Simplify (log 1) into 0
9.856 * [taylor]: Taking taylor expansion of y.im in x.re
9.856 * [backup-simplify]: Simplify y.im into y.im
9.856 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
9.857 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
9.857 * [backup-simplify]: Simplify (/ (- (log x.re)) y.im) into (* -1 (/ (log x.re) y.im))
9.857 * [backup-simplify]: Simplify (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (* -1 (/ (log x.re) y.im))) into (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))
9.857 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.857 * [backup-simplify]: Simplify (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.858 * [backup-simplify]: Simplify (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 1) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.858 * [backup-simplify]: Simplify (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) into 0
9.859 * [backup-simplify]: Simplify (- 0) into 0
9.859 * [backup-simplify]: Simplify (+ (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.859 * [taylor]: Taking taylor expansion of (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) in x.im
9.859 * [taylor]: Taking taylor expansion of (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)) in x.im
9.859 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.im
9.859 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.im
9.859 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.859 * [taylor]: Taking taylor expansion of y.re in x.im
9.859 * [backup-simplify]: Simplify y.re into y.re
9.859 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
9.860 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in x.im
9.860 * [taylor]: Taking taylor expansion of (log x.re) in x.im
9.860 * [taylor]: Taking taylor expansion of x.re in x.im
9.860 * [backup-simplify]: Simplify x.re into x.re
9.860 * [backup-simplify]: Simplify (log x.re) into (log x.re)
9.860 * [taylor]: Taking taylor expansion of y.im in x.im
9.860 * [backup-simplify]: Simplify y.im into y.im
9.860 * [backup-simplify]: Simplify (/ (log x.re) y.im) into (/ (log x.re) y.im)
9.860 * [backup-simplify]: Simplify (- (/ (log x.re) y.im)) into (- (/ (log x.re) y.im))
9.860 * [backup-simplify]: Simplify (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (- (/ (log x.re) y.im))) into (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))
9.860 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.861 * [backup-simplify]: Simplify (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.861 * [backup-simplify]: Simplify (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 1) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.861 * [backup-simplify]: Simplify (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) into 0
9.862 * [backup-simplify]: Simplify (- 0) into 0
9.862 * [backup-simplify]: Simplify (+ (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.862 * [taylor]: Taking taylor expansion of (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) in y.im
9.862 * [taylor]: Taking taylor expansion of (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)) in y.im
9.862 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in y.im
9.862 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.im
9.862 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.862 * [taylor]: Taking taylor expansion of y.re in y.im
9.862 * [backup-simplify]: Simplify y.re into y.re
9.862 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
9.862 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in y.im
9.862 * [taylor]: Taking taylor expansion of (log x.re) in y.im
9.862 * [taylor]: Taking taylor expansion of x.re in y.im
9.863 * [backup-simplify]: Simplify x.re into x.re
9.863 * [backup-simplify]: Simplify (log x.re) into (log x.re)
9.863 * [taylor]: Taking taylor expansion of y.im in y.im
9.863 * [backup-simplify]: Simplify 0 into 0
9.863 * [backup-simplify]: Simplify 1 into 1
9.863 * [backup-simplify]: Simplify (/ (log x.re) 1) into (log x.re)
9.863 * [backup-simplify]: Simplify (- (log x.re)) into (- (log x.re))
9.863 * [backup-simplify]: Simplify (+ 0 (- (log x.re))) into (- (log x.re))
9.863 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.863 * [taylor]: Taking taylor expansion of (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) in y.re
9.863 * [taylor]: Taking taylor expansion of (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)) in y.re
9.863 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in y.re
9.863 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.re
9.863 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.863 * [taylor]: Taking taylor expansion of y.re in y.re
9.863 * [backup-simplify]: Simplify 0 into 0
9.863 * [backup-simplify]: Simplify 1 into 1
9.863 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) 1) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.864 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in y.re
9.864 * [taylor]: Taking taylor expansion of (log x.re) in y.re
9.864 * [taylor]: Taking taylor expansion of x.re in y.re
9.864 * [backup-simplify]: Simplify x.re into x.re
9.864 * [backup-simplify]: Simplify (log x.re) into (log x.re)
9.864 * [taylor]: Taking taylor expansion of y.im in y.re
9.864 * [backup-simplify]: Simplify y.im into y.im
9.864 * [backup-simplify]: Simplify (/ (log x.re) y.im) into (/ (log x.re) y.im)
9.864 * [backup-simplify]: Simplify (+ (atan2 (/ 1 x.im) (/ 1 x.re)) 0) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.864 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.864 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.865 * [backup-simplify]: Simplify (+ 0) into 0
9.866 * [backup-simplify]: Simplify (+ (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (* 0 1)) into 0
9.866 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)))) into 0
9.868 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow 1 1)))) 1) into 0
9.868 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (* -1 (/ (log x.re) y.im)) (/ 0 y.im)))) into 0
9.868 * [backup-simplify]: Simplify (+ 0 0) into 0
9.869 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
9.870 * [backup-simplify]: Simplify (+ (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (* 0 0)) into 0
9.870 * [backup-simplify]: Simplify (- 0) into 0
9.871 * [backup-simplify]: Simplify (+ 0 0) into 0
9.871 * [taylor]: Taking taylor expansion of 0 in x.im
9.871 * [backup-simplify]: Simplify 0 into 0
9.871 * [taylor]: Taking taylor expansion of 0 in y.im
9.871 * [backup-simplify]: Simplify 0 into 0
9.871 * [taylor]: Taking taylor expansion of 0 in y.re
9.871 * [backup-simplify]: Simplify 0 into 0
9.871 * [backup-simplify]: Simplify 0 into 0
9.871 * [backup-simplify]: Simplify (+ 0) into 0
9.872 * [backup-simplify]: Simplify (+ (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (* 0 1)) into 0
9.872 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)))) into 0
9.873 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.re 1)))) 1) into 0
9.873 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (log x.re) y.im) (/ 0 y.im)))) into 0
9.873 * [backup-simplify]: Simplify (- 0) into 0
9.874 * [backup-simplify]: Simplify (+ 0 0) into 0
9.875 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
9.875 * [backup-simplify]: Simplify (+ (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (* 0 0)) into 0
9.876 * [backup-simplify]: Simplify (- 0) into 0
9.876 * [backup-simplify]: Simplify (+ 0 0) into 0
9.876 * [taylor]: Taking taylor expansion of 0 in y.im
9.876 * [backup-simplify]: Simplify 0 into 0
9.876 * [taylor]: Taking taylor expansion of 0 in y.re
9.876 * [backup-simplify]: Simplify 0 into 0
9.876 * [backup-simplify]: Simplify 0 into 0
9.876 * [taylor]: Taking taylor expansion of 0 in y.re
9.876 * [backup-simplify]: Simplify 0 into 0
9.876 * [backup-simplify]: Simplify 0 into 0
9.876 * [backup-simplify]: Simplify 0 into 0
9.877 * [backup-simplify]: Simplify (+ (* -1 (/ (pow 0 2) 2)) 0) into 0
9.878 * [backup-simplify]: Simplify (+ (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (+ (* 0 0) (* 0 1))) into 0
9.878 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
9.879 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.880 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.880 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) 0) into (/ 1 (pow x.im 2))
9.882 * [backup-simplify]: Simplify (/ (- (/ 1 (pow x.im 2)) (pow 0 2) (+)) (* 2 1)) into (/ 1/2 (pow x.im 2))
9.884 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow 1 2))) (* 1 (/ (* 1 (pow (* 2 (/ 1/2 (pow x.im 2))) 1)) (pow 1 1)))) 2) into (/ 1/2 (pow x.im 2))
9.884 * [backup-simplify]: Simplify (- (/ (/ 1/2 (pow x.im 2)) y.im) (+ (* (* -1 (/ (log x.re) y.im)) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into (* 1/2 (/ 1 (* y.im (pow x.im 2))))
9.884 * [backup-simplify]: Simplify (+ 0 (* 1/2 (/ 1 (* y.im (pow x.im 2))))) into (* 1/2 (/ 1 (* y.im (pow x.im 2))))
9.885 * [backup-simplify]: Simplify (+ 0 (* 1 (/ (pow (* 1/2 (/ 1 (* y.im (pow x.im 2)))) 1) 1))) into (* 1/2 (/ 1 (* y.im (pow x.im 2))))
9.886 * [backup-simplify]: Simplify (+ (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) (* 1/2 (/ 1 (* y.im (pow x.im 2))))) (+ (* 0 0) (* 0 0))) into (* 1/2 (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) (* y.im (pow x.im 2))))
9.886 * [backup-simplify]: Simplify (- (* 1/2 (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) (* y.im (pow x.im 2))))) into (- (* 1/2 (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) (* y.im (pow x.im 2)))))
9.887 * [backup-simplify]: Simplify (+ 0 (- (* 1/2 (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) (* y.im (pow x.im 2)))))) into (- (* 1/2 (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) (* y.im (pow x.im 2)))))
9.887 * [taylor]: Taking taylor expansion of (- (* 1/2 (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) (* y.im (pow x.im 2))))) in x.im
9.887 * [taylor]: Taking taylor expansion of (* 1/2 (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) (* y.im (pow x.im 2)))) in x.im
9.887 * [taylor]: Taking taylor expansion of 1/2 in x.im
9.887 * [backup-simplify]: Simplify 1/2 into 1/2
9.887 * [taylor]: Taking taylor expansion of (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) (* y.im (pow x.im 2))) in x.im
9.887 * [taylor]: Taking taylor expansion of (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) in x.im
9.887 * [taylor]: Taking taylor expansion of (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)) in x.im
9.887 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) in x.im
9.887 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.im
9.887 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.887 * [taylor]: Taking taylor expansion of y.re in x.im
9.887 * [backup-simplify]: Simplify y.re into y.re
9.887 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re)
9.887 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in x.im
9.887 * [taylor]: Taking taylor expansion of (log x.re) in x.im
9.887 * [taylor]: Taking taylor expansion of x.re in x.im
9.887 * [backup-simplify]: Simplify x.re into x.re
9.887 * [backup-simplify]: Simplify (log x.re) into (log x.re)
9.887 * [taylor]: Taking taylor expansion of y.im in x.im
9.887 * [backup-simplify]: Simplify y.im into y.im
9.887 * [backup-simplify]: Simplify (/ (log x.re) y.im) into (/ (log x.re) y.im)
9.887 * [backup-simplify]: Simplify (- (/ (log x.re) y.im)) into (- (/ (log x.re) y.im))
9.888 * [backup-simplify]: Simplify (+ (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (- (/ (log x.re) y.im))) into (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))
9.888 * [backup-simplify]: Simplify (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.888 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) into (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.888 * [taylor]: Taking taylor expansion of (* y.im (pow x.im 2)) in x.im
9.888 * [taylor]: Taking taylor expansion of y.im in x.im
9.888 * [backup-simplify]: Simplify y.im into y.im
9.888 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.888 * [taylor]: Taking taylor expansion of x.im in x.im
9.888 * [backup-simplify]: Simplify 0 into 0
9.888 * [backup-simplify]: Simplify 1 into 1
9.889 * [backup-simplify]: Simplify (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 1) into (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.889 * [backup-simplify]: Simplify (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) into 0
9.889 * [backup-simplify]: Simplify (+ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) into (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im)))
9.890 * [backup-simplify]: Simplify (* 1 1) into 1
9.890 * [backup-simplify]: Simplify (* y.im 1) into y.im
9.890 * [backup-simplify]: Simplify (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) y.im) into (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) y.im)
9.890 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)))) into 0
9.891 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.re 1)))) 1) into 0
9.891 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (log x.re) y.im) (/ 0 y.im)))) into 0
9.892 * [backup-simplify]: Simplify (- 0) into 0
9.892 * [backup-simplify]: Simplify (+ 0 0) into 0
9.893 * [backup-simplify]: Simplify (+ (* -1 (/ (pow 0 2) 2)) 0) into 0
9.893 * [backup-simplify]: Simplify (+ 0) into 0
9.894 * [backup-simplify]: Simplify (+ (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (+ (* 0 0) (* 0 1))) into 0
9.894 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
9.896 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow x.re 2))) (* 1 (/ (* 1 (pow (* 2 0) 1)) (pow x.re 1)))) 2) into 0
9.896 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (log x.re) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
9.897 * [backup-simplify]: Simplify (- 0) into 0
9.897 * [backup-simplify]: Simplify (+ 0 0) into 0
9.898 * [backup-simplify]: Simplify (+ 0 (* 1 (/ (pow 0 1) 1))) into 0
9.898 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
9.899 * [backup-simplify]: Simplify (+ (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (+ (* 0 0) (* 0 0))) into 0
9.900 * [backup-simplify]: Simplify (+ 0 0) into 0
9.900 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.901 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.902 * [backup-simplify]: Simplify (+ (* y.im 0) (+ (* 0 0) (* 0 1))) into 0
9.902 * [backup-simplify]: Simplify (+ (* (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (* 0 1)) into 0
9.903 * [backup-simplify]: Simplify (+ (* (cos (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) 0) (* 0 0)) into 0
9.903 * [backup-simplify]: Simplify (+ 0 0) into 0
9.904 * [backup-simplify]: Simplify (+ (* y.im 0) (* 0 1)) into 0
9.904 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) y.im) (/ 0 y.im)))) into 0
9.905 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
9.906 * [backup-simplify]: Simplify (+ (* 1/2 0) (+ (* 0 0) (* 0 (/ (sin (- (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.re) (/ (log x.re) y.im))) y.im)))) into 0
9.906 * [backup-simplify]: Simplify (- 0) into 0
9.906 * [taylor]: Taking taylor expansion of 0 in y.im
9.906 * [backup-simplify]: Simplify 0 into 0
9.906 * [taylor]: Taking taylor expansion of 0 in y.re
9.906 * [backup-simplify]: Simplify 0 into 0
9.906 * [backup-simplify]: Simplify 0 into 0
9.906 * [taylor]: Taking taylor expansion of 0 in y.im
9.906 * [backup-simplify]: Simplify 0 into 0
9.906 * [taylor]: Taking taylor expansion of 0 in y.re
9.906 * [backup-simplify]: Simplify 0 into 0
9.906 * [backup-simplify]: Simplify 0 into 0
9.907 * [backup-simplify]: Simplify (cos (- (/ (atan2 (/ 1 (/ 1 x.im)) (/ 1 (/ 1 x.re))) (/ 1 y.re)) (/ (log (/ 1 x.re)) (/ 1 y.im)))) into (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ 1 x.re)))))
9.907 * [backup-simplify]: Simplify (cos (+ (* (log (sqrt (+ (* (/ 1 (- x.re)) (/ 1 (- x.re))) (* (/ 1 (- x.im)) (/ 1 (- x.im)))))) (/ 1 (- y.im))) (* (atan2 (/ 1 (- x.im)) (/ 1 (- x.re))) (/ 1 (- y.re))))) into (cos (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))))
9.907 * [approximate]: Taking taylor expansion of (cos (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)))) in (x.re x.im y.im y.re) around 0
9.907 * [taylor]: Taking taylor expansion of (cos (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)))) in y.re
9.907 * [taylor]: Taking taylor expansion of (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) in y.re
9.907 * [taylor]: Taking taylor expansion of (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)) in y.re
9.907 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in y.re
9.907 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.re
9.908 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.908 * [taylor]: Taking taylor expansion of y.re in y.re
9.908 * [backup-simplify]: Simplify 0 into 0
9.908 * [backup-simplify]: Simplify 1 into 1
9.908 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) 1) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.908 * [taylor]: Taking taylor expansion of (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) in y.re
9.908 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in y.re
9.908 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in y.re
9.908 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in y.re
9.908 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in y.re
9.908 * [taylor]: Taking taylor expansion of (pow x.im 2) in y.re
9.908 * [taylor]: Taking taylor expansion of x.im in y.re
9.908 * [backup-simplify]: Simplify x.im into x.im
9.908 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.908 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.908 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in y.re
9.908 * [taylor]: Taking taylor expansion of (pow x.re 2) in y.re
9.908 * [taylor]: Taking taylor expansion of x.re in y.re
9.908 * [backup-simplify]: Simplify x.re into x.re
9.908 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.908 * [backup-simplify]: Simplify (/ 1 (pow x.re 2)) into (/ 1 (pow x.re 2))
9.909 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
9.909 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
9.909 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.909 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.im 2)) (/ 0 (pow x.im 2))))) into 0
9.909 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
9.909 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.re 2)) (/ 0 (pow x.re 2))))) into 0
9.910 * [backup-simplify]: Simplify (+ 0 0) into 0
9.910 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
9.910 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
9.910 * [taylor]: Taking taylor expansion of y.im in y.re
9.910 * [backup-simplify]: Simplify y.im into y.im
9.911 * [backup-simplify]: Simplify (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) into (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)
9.911 * [backup-simplify]: Simplify (+ (atan2 (/ -1 x.im) (/ -1 x.re)) 0) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.911 * [backup-simplify]: Simplify (- (atan2 (/ -1 x.im) (/ -1 x.re))) into (- (atan2 (/ -1 x.im) (/ -1 x.re)))
9.911 * [backup-simplify]: Simplify (cos (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)))) into (cos (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))))
9.911 * [taylor]: Taking taylor expansion of (cos (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)))) in y.im
9.911 * [taylor]: Taking taylor expansion of (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) in y.im
9.911 * [taylor]: Taking taylor expansion of (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)) in y.im
9.911 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in y.im
9.911 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.im
9.911 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.911 * [taylor]: Taking taylor expansion of y.re in y.im
9.912 * [backup-simplify]: Simplify y.re into y.re
9.912 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
9.912 * [taylor]: Taking taylor expansion of (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) in y.im
9.912 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in y.im
9.912 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in y.im
9.912 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in y.im
9.912 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in y.im
9.912 * [taylor]: Taking taylor expansion of (pow x.im 2) in y.im
9.912 * [taylor]: Taking taylor expansion of x.im in y.im
9.912 * [backup-simplify]: Simplify x.im into x.im
9.912 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.912 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.912 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in y.im
9.912 * [taylor]: Taking taylor expansion of (pow x.re 2) in y.im
9.912 * [taylor]: Taking taylor expansion of x.re in y.im
9.912 * [backup-simplify]: Simplify x.re into x.re
9.912 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.912 * [backup-simplify]: Simplify (/ 1 (pow x.re 2)) into (/ 1 (pow x.re 2))
9.912 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) into (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))
9.913 * [backup-simplify]: Simplify (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) into (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))
9.913 * [backup-simplify]: Simplify (+ (* x.im 0) (* 0 x.im)) into 0
9.913 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.im 2)) (/ 0 (pow x.im 2))))) into 0
9.913 * [backup-simplify]: Simplify (+ (* x.re 0) (* 0 x.re)) into 0
9.913 * [backup-simplify]: Simplify (- (+ (* (/ 1 (pow x.re 2)) (/ 0 (pow x.re 2))))) into 0
9.914 * [backup-simplify]: Simplify (+ 0 0) into 0
9.914 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into 0
9.914 * [backup-simplify]: Simplify (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
9.914 * [taylor]: Taking taylor expansion of y.im in y.im
9.914 * [backup-simplify]: Simplify 0 into 0
9.914 * [backup-simplify]: Simplify 1 into 1
9.914 * [backup-simplify]: Simplify (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) 1) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
9.915 * [backup-simplify]: Simplify (+ 0 (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))
9.915 * [backup-simplify]: Simplify (- (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))))) into (- (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))))
9.915 * [backup-simplify]: Simplify (cos (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)))) into (cos (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))))
9.915 * [taylor]: Taking taylor expansion of (cos (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)))) in x.im
9.915 * [taylor]: Taking taylor expansion of (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) in x.im
9.915 * [taylor]: Taking taylor expansion of (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)) in x.im
9.916 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.im
9.916 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.im
9.916 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.916 * [taylor]: Taking taylor expansion of y.re in x.im
9.916 * [backup-simplify]: Simplify y.re into y.re
9.916 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
9.916 * [taylor]: Taking taylor expansion of (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) in x.im
9.916 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in x.im
9.916 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.im
9.916 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.im
9.916 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.im
9.916 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.916 * [taylor]: Taking taylor expansion of x.im in x.im
9.916 * [backup-simplify]: Simplify 0 into 0
9.916 * [backup-simplify]: Simplify 1 into 1
9.917 * [backup-simplify]: Simplify (* 1 1) into 1
9.917 * [backup-simplify]: Simplify (/ 1 1) into 1
9.917 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.im
9.917 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.im
9.917 * [taylor]: Taking taylor expansion of x.re in x.im
9.917 * [backup-simplify]: Simplify x.re into x.re
9.917 * [backup-simplify]: Simplify (* x.re x.re) into (pow x.re 2)
9.917 * [backup-simplify]: Simplify (/ 1 (pow x.re 2)) into (/ 1 (pow x.re 2))
9.918 * [backup-simplify]: Simplify (+ 1 0) into 1
9.918 * [backup-simplify]: Simplify (sqrt 1) into 1
9.919 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.919 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.920 * [backup-simplify]: Simplify (+ 0 0) into 0
9.920 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.921 * [backup-simplify]: Simplify (log 1) into 0
9.921 * [taylor]: Taking taylor expansion of y.im in x.im
9.921 * [backup-simplify]: Simplify y.im into y.im
9.921 * [backup-simplify]: Simplify (+ (* (- 1) (log x.im)) 0) into (- (log x.im))
9.922 * [backup-simplify]: Simplify (+ (* (- 1) (log x.im)) 0) into (- (log x.im))
9.922 * [backup-simplify]: Simplify (/ (- (log x.im)) y.im) into (* -1 (/ (log x.im) y.im))
9.922 * [backup-simplify]: Simplify (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (* -1 (/ (log x.im) y.im))) into (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.im) y.im))
9.922 * [backup-simplify]: Simplify (- (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.im) y.im))) into (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.923 * [backup-simplify]: Simplify (- (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.im) y.im))) into (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.923 * [backup-simplify]: Simplify (cos (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.923 * [backup-simplify]: Simplify (- (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.im) y.im))) into (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.923 * [backup-simplify]: Simplify (sin (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (sin (- (/ (log x.im) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.924 * [taylor]: Taking taylor expansion of (cos (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)))) in x.re
9.924 * [taylor]: Taking taylor expansion of (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) in x.re
9.924 * [taylor]: Taking taylor expansion of (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)) in x.re
9.924 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.re
9.924 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.re
9.924 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.924 * [taylor]: Taking taylor expansion of y.re in x.re
9.924 * [backup-simplify]: Simplify y.re into y.re
9.924 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
9.924 * [taylor]: Taking taylor expansion of (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) in x.re
9.924 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in x.re
9.924 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.924 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.924 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.924 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.924 * [taylor]: Taking taylor expansion of x.im in x.re
9.924 * [backup-simplify]: Simplify x.im into x.im
9.924 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.924 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.924 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.924 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.924 * [taylor]: Taking taylor expansion of x.re in x.re
9.924 * [backup-simplify]: Simplify 0 into 0
9.924 * [backup-simplify]: Simplify 1 into 1
9.925 * [backup-simplify]: Simplify (* 1 1) into 1
9.926 * [backup-simplify]: Simplify (/ 1 1) into 1
9.926 * [backup-simplify]: Simplify (+ 0 1) into 1
9.926 * [backup-simplify]: Simplify (sqrt 1) into 1
9.927 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.928 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.928 * [backup-simplify]: Simplify (+ 0 0) into 0
9.929 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.929 * [backup-simplify]: Simplify (log 1) into 0
9.929 * [taylor]: Taking taylor expansion of y.im in x.re
9.929 * [backup-simplify]: Simplify y.im into y.im
9.930 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
9.930 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
9.930 * [backup-simplify]: Simplify (/ (- (log x.re)) y.im) into (* -1 (/ (log x.re) y.im))
9.930 * [backup-simplify]: Simplify (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (* -1 (/ (log x.re) y.im))) into (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.re) y.im))
9.931 * [backup-simplify]: Simplify (- (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.re) y.im))) into (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.931 * [backup-simplify]: Simplify (- (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.re) y.im))) into (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.931 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.931 * [backup-simplify]: Simplify (- (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.re) y.im))) into (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.932 * [backup-simplify]: Simplify (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.932 * [taylor]: Taking taylor expansion of (cos (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)))) in x.re
9.932 * [taylor]: Taking taylor expansion of (- (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im))) in x.re
9.932 * [taylor]: Taking taylor expansion of (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im)) in x.re
9.932 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.re
9.932 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.re
9.932 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.932 * [taylor]: Taking taylor expansion of y.re in x.re
9.932 * [backup-simplify]: Simplify y.re into y.re
9.932 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
9.932 * [taylor]: Taking taylor expansion of (/ (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) y.im) in x.re
9.932 * [taylor]: Taking taylor expansion of (log (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))))) in x.re
9.932 * [taylor]: Taking taylor expansion of (sqrt (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2)))) in x.re
9.932 * [taylor]: Taking taylor expansion of (+ (/ 1 (pow x.im 2)) (/ 1 (pow x.re 2))) in x.re
9.932 * [taylor]: Taking taylor expansion of (/ 1 (pow x.im 2)) in x.re
9.932 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.re
9.932 * [taylor]: Taking taylor expansion of x.im in x.re
9.932 * [backup-simplify]: Simplify x.im into x.im
9.932 * [backup-simplify]: Simplify (* x.im x.im) into (pow x.im 2)
9.932 * [backup-simplify]: Simplify (/ 1 (pow x.im 2)) into (/ 1 (pow x.im 2))
9.932 * [taylor]: Taking taylor expansion of (/ 1 (pow x.re 2)) in x.re
9.932 * [taylor]: Taking taylor expansion of (pow x.re 2) in x.re
9.932 * [taylor]: Taking taylor expansion of x.re in x.re
9.932 * [backup-simplify]: Simplify 0 into 0
9.932 * [backup-simplify]: Simplify 1 into 1
9.933 * [backup-simplify]: Simplify (* 1 1) into 1
9.933 * [backup-simplify]: Simplify (/ 1 1) into 1
9.934 * [backup-simplify]: Simplify (+ 0 1) into 1
9.934 * [backup-simplify]: Simplify (sqrt 1) into 1
9.935 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.936 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)))) into 0
9.936 * [backup-simplify]: Simplify (+ 0 0) into 0
9.937 * [backup-simplify]: Simplify (/ 0 (* 2 (sqrt 1))) into 0
9.937 * [backup-simplify]: Simplify (log 1) into 0
9.937 * [taylor]: Taking taylor expansion of y.im in x.re
9.937 * [backup-simplify]: Simplify y.im into y.im
9.938 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
9.938 * [backup-simplify]: Simplify (+ (* (- 1) (log x.re)) 0) into (- (log x.re))
9.938 * [backup-simplify]: Simplify (/ (- (log x.re)) y.im) into (* -1 (/ (log x.re) y.im))
9.939 * [backup-simplify]: Simplify (+ (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (* -1 (/ (log x.re) y.im))) into (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.re) y.im))
9.939 * [backup-simplify]: Simplify (- (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.re) y.im))) into (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.939 * [backup-simplify]: Simplify (- (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.re) y.im))) into (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.939 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.940 * [backup-simplify]: Simplify (- (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ (log x.re) y.im))) into (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.940 * [backup-simplify]: Simplify (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.940 * [backup-simplify]: Simplify (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 1) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.940 * [backup-simplify]: Simplify (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) into 0
9.941 * [backup-simplify]: Simplify (- 0) into 0
9.941 * [backup-simplify]: Simplify (+ (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.941 * [taylor]: Taking taylor expansion of (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in x.im
9.941 * [taylor]: Taking taylor expansion of (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in x.im
9.941 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in x.im
9.941 * [taylor]: Taking taylor expansion of (log x.re) in x.im
9.941 * [taylor]: Taking taylor expansion of x.re in x.im
9.941 * [backup-simplify]: Simplify x.re into x.re
9.941 * [backup-simplify]: Simplify (log x.re) into (log x.re)
9.941 * [taylor]: Taking taylor expansion of y.im in x.im
9.941 * [backup-simplify]: Simplify y.im into y.im
9.941 * [backup-simplify]: Simplify (/ (log x.re) y.im) into (/ (log x.re) y.im)
9.942 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.im
9.942 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.im
9.942 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.942 * [taylor]: Taking taylor expansion of y.re in x.im
9.942 * [backup-simplify]: Simplify y.re into y.re
9.942 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
9.942 * [backup-simplify]: Simplify (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) into (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.942 * [backup-simplify]: Simplify (+ (/ (log x.re) y.im) (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.942 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.943 * [backup-simplify]: Simplify (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.943 * [backup-simplify]: Simplify (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 1) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.943 * [backup-simplify]: Simplify (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) into 0
9.944 * [backup-simplify]: Simplify (- 0) into 0
9.944 * [backup-simplify]: Simplify (+ (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.944 * [taylor]: Taking taylor expansion of (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in y.im
9.944 * [taylor]: Taking taylor expansion of (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in y.im
9.944 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in y.im
9.944 * [taylor]: Taking taylor expansion of (log x.re) in y.im
9.944 * [taylor]: Taking taylor expansion of x.re in y.im
9.944 * [backup-simplify]: Simplify x.re into x.re
9.944 * [backup-simplify]: Simplify (log x.re) into (log x.re)
9.944 * [taylor]: Taking taylor expansion of y.im in y.im
9.944 * [backup-simplify]: Simplify 0 into 0
9.944 * [backup-simplify]: Simplify 1 into 1
9.944 * [backup-simplify]: Simplify (/ (log x.re) 1) into (log x.re)
9.944 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in y.im
9.944 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.im
9.945 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.945 * [taylor]: Taking taylor expansion of y.re in y.im
9.945 * [backup-simplify]: Simplify y.re into y.re
9.945 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
9.945 * [backup-simplify]: Simplify (+ (log x.re) 0) into (log x.re)
9.945 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.945 * [taylor]: Taking taylor expansion of (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in y.re
9.945 * [taylor]: Taking taylor expansion of (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in y.re
9.945 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in y.re
9.945 * [taylor]: Taking taylor expansion of (log x.re) in y.re
9.945 * [taylor]: Taking taylor expansion of x.re in y.re
9.945 * [backup-simplify]: Simplify x.re into x.re
9.945 * [backup-simplify]: Simplify (log x.re) into (log x.re)
9.945 * [taylor]: Taking taylor expansion of y.im in y.re
9.945 * [backup-simplify]: Simplify y.im into y.im
9.945 * [backup-simplify]: Simplify (/ (log x.re) y.im) into (/ (log x.re) y.im)
9.945 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in y.re
9.945 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.re
9.946 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.946 * [taylor]: Taking taylor expansion of y.re in y.re
9.946 * [backup-simplify]: Simplify 0 into 0
9.946 * [backup-simplify]: Simplify 1 into 1
9.946 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) 1) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.946 * [backup-simplify]: Simplify (- (atan2 (/ -1 x.im) (/ -1 x.re))) into (- (atan2 (/ -1 x.im) (/ -1 x.re)))
9.946 * [backup-simplify]: Simplify (+ 0 (- (atan2 (/ -1 x.im) (/ -1 x.re)))) into (- (atan2 (/ -1 x.im) (/ -1 x.re)))
9.946 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.946 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.947 * [backup-simplify]: Simplify (+ 0) into 0
9.948 * [backup-simplify]: Simplify (+ (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (* 0 1)) into 0
9.948 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)))) into 0
9.949 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow 1 1)))) 1) into 0
9.949 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (* -1 (/ (log x.re) y.im)) (/ 0 y.im)))) into 0
9.950 * [backup-simplify]: Simplify (+ 0 0) into 0
9.950 * [backup-simplify]: Simplify (- 0) into 0
9.951 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
9.954 * [backup-simplify]: Simplify (+ (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (* 0 0)) into 0
9.955 * [backup-simplify]: Simplify (- 0) into 0
9.955 * [backup-simplify]: Simplify (+ 0 0) into 0
9.955 * [taylor]: Taking taylor expansion of 0 in x.im
9.955 * [backup-simplify]: Simplify 0 into 0
9.956 * [taylor]: Taking taylor expansion of 0 in y.im
9.956 * [backup-simplify]: Simplify 0 into 0
9.956 * [taylor]: Taking taylor expansion of 0 in y.re
9.956 * [backup-simplify]: Simplify 0 into 0
9.956 * [backup-simplify]: Simplify 0 into 0
9.956 * [backup-simplify]: Simplify (+ 0) into 0
9.957 * [backup-simplify]: Simplify (+ (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (* 0 1)) into 0
9.958 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.re 1)))) 1) into 0
9.958 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (log x.re) y.im) (/ 0 y.im)))) into 0
9.958 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)))) into 0
9.958 * [backup-simplify]: Simplify (- 0) into 0
9.959 * [backup-simplify]: Simplify (+ 0 0) into 0
9.959 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
9.960 * [backup-simplify]: Simplify (+ (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (* 0 0)) into 0
9.960 * [backup-simplify]: Simplify (- 0) into 0
9.961 * [backup-simplify]: Simplify (+ 0 0) into 0
9.961 * [taylor]: Taking taylor expansion of 0 in y.im
9.961 * [backup-simplify]: Simplify 0 into 0
9.961 * [taylor]: Taking taylor expansion of 0 in y.re
9.961 * [backup-simplify]: Simplify 0 into 0
9.961 * [backup-simplify]: Simplify 0 into 0
9.961 * [taylor]: Taking taylor expansion of 0 in y.re
9.961 * [backup-simplify]: Simplify 0 into 0
9.961 * [backup-simplify]: Simplify 0 into 0
9.961 * [backup-simplify]: Simplify 0 into 0
9.962 * [backup-simplify]: Simplify (- 0) into 0
9.962 * [backup-simplify]: Simplify (+ (* -1 (/ (pow 0 2) 2)) 0) into 0
9.963 * [backup-simplify]: Simplify (+ (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (+ (* 0 0) (* 0 1))) into 0
9.964 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
9.964 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.965 * [backup-simplify]: Simplify (- (+ (* 1 (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.966 * [backup-simplify]: Simplify (+ (/ 1 (pow x.im 2)) 0) into (/ 1 (pow x.im 2))
9.967 * [backup-simplify]: Simplify (/ (- (/ 1 (pow x.im 2)) (pow 0 2) (+)) (* 2 1)) into (/ 1/2 (pow x.im 2))
9.969 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow 1 2))) (* 1 (/ (* 1 (pow (* 2 (/ 1/2 (pow x.im 2))) 1)) (pow 1 1)))) 2) into (/ 1/2 (pow x.im 2))
9.969 * [backup-simplify]: Simplify (- (/ (/ 1/2 (pow x.im 2)) y.im) (+ (* (* -1 (/ (log x.re) y.im)) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into (* 1/2 (/ 1 (* y.im (pow x.im 2))))
9.969 * [backup-simplify]: Simplify (+ 0 (* 1/2 (/ 1 (* y.im (pow x.im 2))))) into (* 1/2 (/ 1 (* y.im (pow x.im 2))))
9.969 * [backup-simplify]: Simplify (- (* 1/2 (/ 1 (* y.im (pow x.im 2))))) into (- (* 1/2 (/ 1 (* y.im (pow x.im 2)))))
9.970 * [backup-simplify]: Simplify (+ 0 (* 1 (/ (pow (- (* 1/2 (/ 1 (* y.im (pow x.im 2))))) 1) 1))) into (- (* 1/2 (/ 1 (* y.im (pow x.im 2)))))
9.971 * [backup-simplify]: Simplify (+ (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) (- (* 1/2 (/ 1 (* y.im (pow x.im 2)))))) (+ (* 0 0) (* 0 0))) into (- (* 1/2 (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) (* y.im (pow x.im 2)))))
9.971 * [backup-simplify]: Simplify (- (- (* 1/2 (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) (* y.im (pow x.im 2)))))) into (* 1/2 (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) (* y.im (pow x.im 2))))
9.971 * [backup-simplify]: Simplify (+ 0 (* 1/2 (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) (* y.im (pow x.im 2))))) into (* 1/2 (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) (* y.im (pow x.im 2))))
9.972 * [taylor]: Taking taylor expansion of (* 1/2 (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) (* y.im (pow x.im 2)))) in x.im
9.972 * [taylor]: Taking taylor expansion of 1/2 in x.im
9.972 * [backup-simplify]: Simplify 1/2 into 1/2
9.972 * [taylor]: Taking taylor expansion of (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) (* y.im (pow x.im 2))) in x.im
9.972 * [taylor]: Taking taylor expansion of (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) in x.im
9.972 * [taylor]: Taking taylor expansion of (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) in x.im
9.972 * [taylor]: Taking taylor expansion of (/ (log x.re) y.im) in x.im
9.972 * [taylor]: Taking taylor expansion of (log x.re) in x.im
9.972 * [taylor]: Taking taylor expansion of x.re in x.im
9.972 * [backup-simplify]: Simplify x.re into x.re
9.972 * [backup-simplify]: Simplify (log x.re) into (log x.re)
9.972 * [taylor]: Taking taylor expansion of y.im in x.im
9.972 * [backup-simplify]: Simplify y.im into y.im
9.972 * [backup-simplify]: Simplify (/ (log x.re) y.im) into (/ (log x.re) y.im)
9.972 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) in x.im
9.972 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.im
9.972 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.972 * [taylor]: Taking taylor expansion of y.re in x.im
9.972 * [backup-simplify]: Simplify y.re into y.re
9.972 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)
9.972 * [backup-simplify]: Simplify (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)) into (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.972 * [backup-simplify]: Simplify (+ (/ (log x.re) y.im) (- (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))
9.972 * [backup-simplify]: Simplify (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.972 * [backup-simplify]: Simplify (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) into (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.972 * [taylor]: Taking taylor expansion of (* y.im (pow x.im 2)) in x.im
9.972 * [taylor]: Taking taylor expansion of y.im in x.im
9.972 * [backup-simplify]: Simplify y.im into y.im
9.972 * [taylor]: Taking taylor expansion of (pow x.im 2) in x.im
9.972 * [taylor]: Taking taylor expansion of x.im in x.im
9.973 * [backup-simplify]: Simplify 0 into 0
9.973 * [backup-simplify]: Simplify 1 into 1
9.973 * [backup-simplify]: Simplify (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 1) into (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.973 * [backup-simplify]: Simplify (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) into 0
9.973 * [backup-simplify]: Simplify (+ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) into (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re)))
9.973 * [backup-simplify]: Simplify (* 1 1) into 1
9.973 * [backup-simplify]: Simplify (* y.im 1) into y.im
9.973 * [backup-simplify]: Simplify (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) y.im) into (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) y.im)
9.974 * [backup-simplify]: Simplify (/ (+ (* 1 (/ (* (pow (* 1 0) 1)) (pow x.re 1)))) 1) into 0
9.974 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (log x.re) y.im) (/ 0 y.im)))) into 0
9.974 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)))) into 0
9.974 * [backup-simplify]: Simplify (- 0) into 0
9.975 * [backup-simplify]: Simplify (+ 0 0) into 0
9.975 * [backup-simplify]: Simplify (+ (* -1 (/ (pow 0 2) 2)) 0) into 0
9.976 * [backup-simplify]: Simplify (+ 0) into 0
9.976 * [backup-simplify]: Simplify (+ (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (+ (* 0 0) (* 0 1))) into 0
9.977 * [backup-simplify]: Simplify (/ (+ (* -1 (/ (* (pow (* 1 0) 2)) (pow x.re 2))) (* 1 (/ (* 1 (pow (* 2 0) 1)) (pow x.re 1)))) 2) into 0
9.977 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (log x.re) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
9.977 * [backup-simplify]: Simplify (- (/ 0 y.re) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re) (/ 0 y.re)) (* 0 (/ 0 y.re)))) into 0
9.978 * [backup-simplify]: Simplify (- 0) into 0
9.978 * [backup-simplify]: Simplify (+ 0 0) into 0
9.978 * [backup-simplify]: Simplify (+ 0 (* 1 (/ (pow 0 1) 1))) into 0
9.979 * [backup-simplify]: Simplify (+ (* 1 (/ (pow 0 1) 1))) into 0
9.979 * [backup-simplify]: Simplify (+ (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (+ (* 0 0) (* 0 0))) into 0
9.979 * [backup-simplify]: Simplify (+ 0 0) into 0
9.980 * [backup-simplify]: Simplify (+ (* 1 0) (+ (* 0 0) (* 0 1))) into 0
9.980 * [backup-simplify]: Simplify (+ (* 1 0) (* 0 1)) into 0
9.981 * [backup-simplify]: Simplify (+ (* y.im 0) (+ (* 0 0) (* 0 1))) into 0
9.981 * [backup-simplify]: Simplify (+ (* (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (* 0 1)) into 0
9.981 * [backup-simplify]: Simplify (+ (* (cos (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) 0) (* 0 0)) into 0
9.982 * [backup-simplify]: Simplify (+ 0 0) into 0
9.982 * [backup-simplify]: Simplify (+ (* y.im 0) (* 0 1)) into 0
9.982 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) y.im) (/ 0 y.im)))) into 0
9.982 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
9.983 * [backup-simplify]: Simplify (+ (* 1/2 0) (+ (* 0 0) (* 0 (/ (sin (- (/ (log x.re) y.im) (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.re))) y.im)))) into 0
9.983 * [taylor]: Taking taylor expansion of 0 in y.im
9.983 * [backup-simplify]: Simplify 0 into 0
9.983 * [taylor]: Taking taylor expansion of 0 in y.re
9.983 * [backup-simplify]: Simplify 0 into 0
9.983 * [backup-simplify]: Simplify 0 into 0
9.983 * [taylor]: Taking taylor expansion of 0 in y.im
9.983 * [backup-simplify]: Simplify 0 into 0
9.983 * [taylor]: Taking taylor expansion of 0 in y.re
9.983 * [backup-simplify]: Simplify 0 into 0
9.983 * [backup-simplify]: Simplify 0 into 0
9.983 * [backup-simplify]: Simplify (cos (- (/ (log (/ 1 (- x.re))) (/ 1 (- y.im))) (/ (atan2 (/ -1 (/ 1 (- x.im))) (/ -1 (/ 1 (- x.re)))) (/ 1 (- y.re))))) into (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ -1 x.re)))))
9.983 * * * * [progress]: [ 4 / 4 ] generating series at (2 1 1 2)
9.984 * [backup-simplify]: Simplify (* (atan2 x.im x.re) y.im) into (* y.im (atan2 x.im x.re))
9.984 * [approximate]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in (x.im x.re y.im) around 0
9.984 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in y.im
9.984 * [taylor]: Taking taylor expansion of y.im in y.im
9.984 * [backup-simplify]: Simplify 0 into 0
9.984 * [backup-simplify]: Simplify 1 into 1
9.984 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.im
9.984 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.984 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in x.re
9.984 * [taylor]: Taking taylor expansion of y.im in x.re
9.984 * [backup-simplify]: Simplify y.im into y.im
9.984 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
9.984 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.984 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in x.im
9.984 * [taylor]: Taking taylor expansion of y.im in x.im
9.984 * [backup-simplify]: Simplify y.im into y.im
9.984 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
9.984 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.984 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in x.im
9.984 * [taylor]: Taking taylor expansion of y.im in x.im
9.984 * [backup-simplify]: Simplify y.im into y.im
9.984 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.im
9.984 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.984 * [backup-simplify]: Simplify (* y.im (atan2 x.im x.re)) into (* y.im (atan2 x.im x.re))
9.984 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in x.re
9.984 * [taylor]: Taking taylor expansion of y.im in x.re
9.984 * [backup-simplify]: Simplify y.im into y.im
9.984 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in x.re
9.984 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.984 * [backup-simplify]: Simplify (* y.im (atan2 x.im x.re)) into (* y.im (atan2 x.im x.re))
9.984 * [taylor]: Taking taylor expansion of (* y.im (atan2 x.im x.re)) in y.im
9.984 * [taylor]: Taking taylor expansion of y.im in y.im
9.984 * [backup-simplify]: Simplify 0 into 0
9.984 * [backup-simplify]: Simplify 1 into 1
9.984 * [taylor]: Taking taylor expansion of (atan2 x.im x.re) in y.im
9.984 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.984 * [backup-simplify]: Simplify (* 0 (atan2 x.im x.re)) into 0
9.984 * [backup-simplify]: Simplify 0 into 0
9.984 * [backup-simplify]: Simplify (+ (* y.im 0) (* 0 (atan2 x.im x.re))) into 0
9.984 * [taylor]: Taking taylor expansion of 0 in x.re
9.984 * [backup-simplify]: Simplify 0 into 0
9.984 * [taylor]: Taking taylor expansion of 0 in y.im
9.984 * [backup-simplify]: Simplify 0 into 0
9.984 * [backup-simplify]: Simplify 0 into 0
9.984 * [backup-simplify]: Simplify (+ (* y.im 0) (* 0 (atan2 x.im x.re))) into 0
9.984 * [taylor]: Taking taylor expansion of 0 in y.im
9.985 * [backup-simplify]: Simplify 0 into 0
9.985 * [backup-simplify]: Simplify 0 into 0
9.985 * [backup-simplify]: Simplify (+ (* 0 0) (* 1 (atan2 x.im x.re))) into (atan2 x.im x.re)
9.985 * [backup-simplify]: Simplify (atan2 x.im x.re) into (atan2 x.im x.re)
9.985 * [backup-simplify]: Simplify (+ (* y.im 0) (+ (* 0 0) (* 0 (atan2 x.im x.re)))) into 0
9.985 * [taylor]: Taking taylor expansion of 0 in x.re
9.985 * [backup-simplify]: Simplify 0 into 0
9.985 * [taylor]: Taking taylor expansion of 0 in y.im
9.985 * [backup-simplify]: Simplify 0 into 0
9.985 * [backup-simplify]: Simplify 0 into 0
9.985 * [taylor]: Taking taylor expansion of 0 in y.im
9.985 * [backup-simplify]: Simplify 0 into 0
9.985 * [backup-simplify]: Simplify 0 into 0
9.986 * [backup-simplify]: Simplify (+ (* y.im 0) (+ (* 0 0) (* 0 (atan2 x.im x.re)))) into 0
9.986 * [taylor]: Taking taylor expansion of 0 in y.im
9.986 * [backup-simplify]: Simplify 0 into 0
9.986 * [backup-simplify]: Simplify 0 into 0
9.986 * [backup-simplify]: Simplify 0 into 0
9.986 * [backup-simplify]: Simplify 0 into 0
9.986 * [backup-simplify]: Simplify (+ (* 0 0) (+ (* 1 0) (* 0 (atan2 x.im x.re)))) into 0
9.986 * [backup-simplify]: Simplify 0 into 0
9.987 * [backup-simplify]: Simplify (* (atan2 x.im x.re) (* y.im (* 1 1))) into (* y.im (atan2 x.im x.re))
9.987 * [backup-simplify]: Simplify (* (atan2 (/ 1 x.im) (/ 1 x.re)) (/ 1 y.im)) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im)
9.987 * [approximate]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in (x.im x.re y.im) around 0
9.987 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in y.im
9.987 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.im
9.987 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.987 * [taylor]: Taking taylor expansion of y.im in y.im
9.987 * [backup-simplify]: Simplify 0 into 0
9.987 * [backup-simplify]: Simplify 1 into 1
9.987 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) 1) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.987 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in x.re
9.987 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.re
9.987 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.987 * [taylor]: Taking taylor expansion of y.im in x.re
9.987 * [backup-simplify]: Simplify y.im into y.im
9.987 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im)
9.987 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in x.im
9.987 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.im
9.987 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.987 * [taylor]: Taking taylor expansion of y.im in x.im
9.987 * [backup-simplify]: Simplify y.im into y.im
9.987 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im)
9.987 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in x.im
9.987 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.im
9.987 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.987 * [taylor]: Taking taylor expansion of y.im in x.im
9.987 * [backup-simplify]: Simplify y.im into y.im
9.987 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im)
9.988 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in x.re
9.988 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in x.re
9.988 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.988 * [taylor]: Taking taylor expansion of y.im in x.re
9.988 * [backup-simplify]: Simplify y.im into y.im
9.988 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) into (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im)
9.988 * [taylor]: Taking taylor expansion of (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) in y.im
9.988 * [taylor]: Taking taylor expansion of (atan2 (/ 1 x.im) (/ 1 x.re)) in y.im
9.988 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.988 * [taylor]: Taking taylor expansion of y.im in y.im
9.988 * [backup-simplify]: Simplify 0 into 0
9.988 * [backup-simplify]: Simplify 1 into 1
9.988 * [backup-simplify]: Simplify (/ (atan2 (/ 1 x.im) (/ 1 x.re)) 1) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.988 * [backup-simplify]: Simplify (atan2 (/ 1 x.im) (/ 1 x.re)) into (atan2 (/ 1 x.im) (/ 1 x.re))
9.988 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)))) into 0
9.988 * [taylor]: Taking taylor expansion of 0 in x.re
9.988 * [backup-simplify]: Simplify 0 into 0
9.988 * [taylor]: Taking taylor expansion of 0 in y.im
9.988 * [backup-simplify]: Simplify 0 into 0
9.988 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)))) into 0
9.988 * [taylor]: Taking taylor expansion of 0 in y.im
9.988 * [backup-simplify]: Simplify 0 into 0
9.989 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ 1 x.im) (/ 1 x.re)) (/ 0 1)))) into 0
9.989 * [backup-simplify]: Simplify 0 into 0
9.989 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
9.989 * [taylor]: Taking taylor expansion of 0 in x.re
9.989 * [backup-simplify]: Simplify 0 into 0
9.989 * [taylor]: Taking taylor expansion of 0 in y.im
9.989 * [backup-simplify]: Simplify 0 into 0
9.989 * [taylor]: Taking taylor expansion of 0 in y.im
9.989 * [backup-simplify]: Simplify 0 into 0
9.989 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
9.989 * [taylor]: Taking taylor expansion of 0 in y.im
9.989 * [backup-simplify]: Simplify 0 into 0
9.989 * [backup-simplify]: Simplify 0 into 0
9.989 * [backup-simplify]: Simplify 0 into 0
9.990 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ 1 x.im) (/ 1 x.re)) (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.990 * [backup-simplify]: Simplify 0 into 0
9.991 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
9.991 * [taylor]: Taking taylor expansion of 0 in x.re
9.991 * [backup-simplify]: Simplify 0 into 0
9.991 * [taylor]: Taking taylor expansion of 0 in y.im
9.991 * [backup-simplify]: Simplify 0 into 0
9.991 * [taylor]: Taking taylor expansion of 0 in y.im
9.991 * [backup-simplify]: Simplify 0 into 0
9.991 * [taylor]: Taking taylor expansion of 0 in y.im
9.991 * [backup-simplify]: Simplify 0 into 0
9.991 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ 1 x.im) (/ 1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
9.991 * [taylor]: Taking taylor expansion of 0 in y.im
9.991 * [backup-simplify]: Simplify 0 into 0
9.991 * [backup-simplify]: Simplify 0 into 0
9.991 * [backup-simplify]: Simplify 0 into 0
9.991 * [backup-simplify]: Simplify (* (atan2 (/ 1 (/ 1 x.im)) (/ 1 (/ 1 x.re))) (* (/ 1 (/ 1 y.im)) (* 1 1))) into (* y.im (atan2 x.im x.re))
9.991 * [backup-simplify]: Simplify (* (atan2 (/ 1 (- x.im)) (/ 1 (- x.re))) (/ 1 (- y.im))) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))
9.991 * [approximate]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in (x.im x.re y.im) around 0
9.991 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in y.im
9.991 * [taylor]: Taking taylor expansion of -1 in y.im
9.991 * [backup-simplify]: Simplify -1 into -1
9.991 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in y.im
9.991 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.im
9.992 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.992 * [taylor]: Taking taylor expansion of y.im in y.im
9.992 * [backup-simplify]: Simplify 0 into 0
9.992 * [backup-simplify]: Simplify 1 into 1
9.992 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) 1) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.992 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in x.re
9.992 * [taylor]: Taking taylor expansion of -1 in x.re
9.992 * [backup-simplify]: Simplify -1 into -1
9.992 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in x.re
9.992 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.re
9.992 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.992 * [taylor]: Taking taylor expansion of y.im in x.re
9.992 * [backup-simplify]: Simplify y.im into y.im
9.992 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)
9.992 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in x.im
9.992 * [taylor]: Taking taylor expansion of -1 in x.im
9.992 * [backup-simplify]: Simplify -1 into -1
9.992 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in x.im
9.992 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.im
9.992 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.992 * [taylor]: Taking taylor expansion of y.im in x.im
9.992 * [backup-simplify]: Simplify y.im into y.im
9.992 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)
9.992 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in x.im
9.992 * [taylor]: Taking taylor expansion of -1 in x.im
9.992 * [backup-simplify]: Simplify -1 into -1
9.992 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in x.im
9.992 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.im
9.992 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.992 * [taylor]: Taking taylor expansion of y.im in x.im
9.992 * [backup-simplify]: Simplify y.im into y.im
9.992 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)
9.992 * [backup-simplify]: Simplify (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))
9.992 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in x.re
9.992 * [taylor]: Taking taylor expansion of -1 in x.re
9.992 * [backup-simplify]: Simplify -1 into -1
9.992 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in x.re
9.993 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in x.re
9.993 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.993 * [taylor]: Taking taylor expansion of y.im in x.re
9.993 * [backup-simplify]: Simplify y.im into y.im
9.993 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) into (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)
9.993 * [backup-simplify]: Simplify (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) into (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))
9.993 * [taylor]: Taking taylor expansion of (* -1 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)) in y.im
9.993 * [taylor]: Taking taylor expansion of -1 in y.im
9.993 * [backup-simplify]: Simplify -1 into -1
9.993 * [taylor]: Taking taylor expansion of (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) in y.im
9.993 * [taylor]: Taking taylor expansion of (atan2 (/ -1 x.im) (/ -1 x.re)) in y.im
9.993 * [backup-simplify]: Simplify (atan2 (/ -1 x.im) (/ -1 x.re)) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.993 * [taylor]: Taking taylor expansion of y.im in y.im
9.993 * [backup-simplify]: Simplify 0 into 0
9.993 * [backup-simplify]: Simplify 1 into 1
9.993 * [backup-simplify]: Simplify (/ (atan2 (/ -1 x.im) (/ -1 x.re)) 1) into (atan2 (/ -1 x.im) (/ -1 x.re))
9.993 * [backup-simplify]: Simplify (* -1 (atan2 (/ -1 x.im) (/ -1 x.re))) into (* -1 (atan2 (/ -1 x.im) (/ -1 x.re)))
9.993 * [backup-simplify]: Simplify (* -1 (atan2 (/ -1 x.im) (/ -1 x.re))) into (* -1 (atan2 (/ -1 x.im) (/ -1 x.re)))
9.993 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)))) into 0
9.994 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))) into 0
9.994 * [taylor]: Taking taylor expansion of 0 in x.re
9.994 * [backup-simplify]: Simplify 0 into 0
9.994 * [taylor]: Taking taylor expansion of 0 in y.im
9.994 * [backup-simplify]: Simplify 0 into 0
9.994 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)))) into 0
9.994 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))) into 0
9.994 * [taylor]: Taking taylor expansion of 0 in y.im
9.994 * [backup-simplify]: Simplify 0 into 0
9.995 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ -1 x.im) (/ -1 x.re)) (/ 0 1)))) into 0
9.995 * [backup-simplify]: Simplify (+ (* -1 0) (* 0 (atan2 (/ -1 x.im) (/ -1 x.re)))) into 0
9.995 * [backup-simplify]: Simplify 0 into 0
9.995 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
9.996 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)))) into 0
9.996 * [taylor]: Taking taylor expansion of 0 in x.re
9.996 * [backup-simplify]: Simplify 0 into 0
9.996 * [taylor]: Taking taylor expansion of 0 in y.im
9.996 * [backup-simplify]: Simplify 0 into 0
9.996 * [taylor]: Taking taylor expansion of 0 in y.im
9.996 * [backup-simplify]: Simplify 0 into 0
9.996 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
9.997 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im)))) into 0
9.997 * [taylor]: Taking taylor expansion of 0 in y.im
9.997 * [backup-simplify]: Simplify 0 into 0
9.997 * [backup-simplify]: Simplify 0 into 0
9.997 * [backup-simplify]: Simplify 0 into 0
9.998 * [backup-simplify]: Simplify (- (/ 0 1) (+ (* (atan2 (/ -1 x.im) (/ -1 x.re)) (/ 0 1)) (* 0 (/ 0 1)))) into 0
9.998 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (* 0 (atan2 (/ -1 x.im) (/ -1 x.re))))) into 0
9.998 * [backup-simplify]: Simplify 0 into 0
9.998 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
9.999 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))))) into 0
9.999 * [taylor]: Taking taylor expansion of 0 in x.re
9.999 * [backup-simplify]: Simplify 0 into 0
9.999 * [taylor]: Taking taylor expansion of 0 in y.im
9.999 * [backup-simplify]: Simplify 0 into 0
9.999 * [taylor]: Taking taylor expansion of 0 in y.im
9.999 * [backup-simplify]: Simplify 0 into 0
9.999 * [taylor]: Taking taylor expansion of 0 in y.im
9.999 * [backup-simplify]: Simplify 0 into 0
9.999 * [backup-simplify]: Simplify (- (/ 0 y.im) (+ (* (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im) (/ 0 y.im)) (* 0 (/ 0 y.im)) (* 0 (/ 0 y.im)))) into 0
10.000 * [backup-simplify]: Simplify (+ (* -1 0) (+ (* 0 0) (+ (* 0 0) (* 0 (/ (atan2 (/ -1 x.im) (/ -1 x.re)) y.im))))) into 0
10.000 * [taylor]: Taking taylor expansion of 0 in y.im
10.000 * [backup-simplify]: Simplify 0 into 0
10.000 * [backup-simplify]: Simplify 0 into 0
10.000 * [backup-simplify]: Simplify 0 into 0
10.001 * [backup-simplify]: Simplify (* (* -1 (atan2 (/ -1 (/ 1 (- x.im))) (/ -1 (/ 1 (- x.re))))) (* (/ 1 (/ 1 (- y.im))) (* 1 1))) into (* y.im (atan2 x.im x.re))
10.001 * * * [progress]: simplifying candidates
10.001 * * * * [progress]: [ 1 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (log1p (expm1 (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))>
10.001 * [simplify]: Simplifying (expm1 (sqrt (+ (* x.re x.re) (* x.im x.im))))
10.001 * * [simplify]: iters left: 6 (7 enodes)
10.003 * * [simplify]: iters left: 5 (24 enodes)
10.008 * * [simplify]: iters left: 4 (26 enodes)
10.014 * * [simplify]: Extracting #0: cost 1 inf + 0
10.014 * * [simplify]: Extracting #1: cost 3 inf + 0
10.014 * * [simplify]: Extracting #2: cost 7 inf + 0
10.014 * * [simplify]: Extracting #3: cost 8 inf + 2
10.014 * * [simplify]: Extracting #4: cost 6 inf + 268
10.014 * * [simplify]: Extracting #5: cost 0 inf + 728
10.015 * [simplify]: Simplified to (expm1 (hypot x.re x.im))
10.015 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (log1p (expm1 (hypot x.re x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
10.015 * * * * [progress]: [ 2 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (expm1 (log1p (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))>
10.015 * [simplify]: Simplifying (log1p (sqrt (+ (* x.re x.re) (* x.im x.im))))
10.015 * * [simplify]: iters left: 6 (7 enodes)
10.018 * * [simplify]: iters left: 5 (24 enodes)
10.025 * * [simplify]: iters left: 4 (26 enodes)
10.032 * * [simplify]: Extracting #0: cost 1 inf + 0
10.032 * * [simplify]: Extracting #1: cost 3 inf + 0
10.032 * * [simplify]: Extracting #2: cost 7 inf + 0
10.032 * * [simplify]: Extracting #3: cost 8 inf + 2
10.032 * * [simplify]: Extracting #4: cost 6 inf + 288
10.032 * * [simplify]: Extracting #5: cost 0 inf + 768
10.033 * [simplify]: Simplified to (log1p (hypot x.re x.im))
10.033 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (expm1 (log1p (hypot x.re x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
10.033 * * * * [progress]: [ 3 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (hypot x.re x.im)) y.im) (* (atan2 x.im x.re) y.re)))))>
10.033 * * * * [progress]: [ 4 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (pow (+ (* x.re x.re) (* x.im x.im)) 1/2)) y.im) (* (atan2 x.im x.re) y.re)))))>
10.033 * * * * [progress]: [ 5 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (pow (sqrt (+ (* x.re x.re) (* x.im x.im))) 1)) y.im) (* (atan2 x.im x.re) y.re)))))>
10.033 * * * * [progress]: [ 6 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (exp (log (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))>
10.034 * [simplify]: Simplifying (log (sqrt (+ (* x.re x.re) (* x.im x.im))))
10.034 * * [simplify]: iters left: 6 (7 enodes)
10.037 * * [simplify]: iters left: 5 (24 enodes)
10.043 * * [simplify]: iters left: 4 (26 enodes)
10.050 * * [simplify]: Extracting #0: cost 1 inf + 0
10.050 * * [simplify]: Extracting #1: cost 3 inf + 0
10.050 * * [simplify]: Extracting #2: cost 7 inf + 0
10.050 * * [simplify]: Extracting #3: cost 8 inf + 2
10.050 * * [simplify]: Extracting #4: cost 6 inf + 268
10.051 * * [simplify]: Extracting #5: cost 0 inf + 728
10.051 * [simplify]: Simplified to (log (hypot x.re x.im))
10.051 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (exp (log (hypot x.re x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
10.051 * * * * [progress]: [ 7 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (log (exp (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))>
10.052 * [simplify]: Simplifying (exp (sqrt (+ (* x.re x.re) (* x.im x.im))))
10.052 * * [simplify]: iters left: 6 (7 enodes)
10.055 * * [simplify]: iters left: 5 (24 enodes)
10.061 * * [simplify]: iters left: 4 (26 enodes)
10.066 * * [simplify]: Extracting #0: cost 1 inf + 0
10.066 * * [simplify]: Extracting #1: cost 3 inf + 0
10.066 * * [simplify]: Extracting #2: cost 7 inf + 0
10.066 * * [simplify]: Extracting #3: cost 8 inf + 2
10.066 * * [simplify]: Extracting #4: cost 6 inf + 268
10.066 * * [simplify]: Extracting #5: cost 0 inf + 728
10.066 * [simplify]: Simplified to (exp (hypot x.re x.im))
10.066 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (log (exp (hypot x.re x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
10.066 * * * * [progress]: [ 8 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (* (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im))))) (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))>
10.066 * [simplify]: Simplifying (* (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))
10.067 * * [simplify]: iters left: 6 (8 enodes)
10.068 * * [simplify]: iters left: 5 (27 enodes)
10.072 * * [simplify]: iters left: 4 (29 enodes)
10.077 * * [simplify]: Extracting #0: cost 1 inf + 0
10.077 * * [simplify]: Extracting #1: cost 3 inf + 0
10.077 * * [simplify]: Extracting #2: cost 5 inf + 0
10.077 * * [simplify]: Extracting #3: cost 9 inf + 0
10.077 * * [simplify]: Extracting #4: cost 10 inf + 2
10.078 * * [simplify]: Extracting #5: cost 5 inf + 529
10.078 * * [simplify]: Extracting #6: cost 1 inf + 925
10.078 * * [simplify]: Extracting #7: cost 0 inf + 1102
10.078 * [simplify]: Simplified to (* (cbrt (hypot x.re x.im)) (cbrt (hypot x.re x.im)))
10.078 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (* (cbrt (hypot x.re x.im)) (cbrt (hypot x.re x.im))) (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))
10.078 * [simplify]: Simplifying (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im))))
10.079 * * [simplify]: iters left: 6 (7 enodes)
10.080 * * [simplify]: iters left: 5 (24 enodes)
10.083 * * [simplify]: iters left: 4 (26 enodes)
10.086 * * [simplify]: Extracting #0: cost 1 inf + 0
10.086 * * [simplify]: Extracting #1: cost 3 inf + 0
10.086 * * [simplify]: Extracting #2: cost 7 inf + 0
10.086 * * [simplify]: Extracting #3: cost 8 inf + 2
10.086 * * [simplify]: Extracting #4: cost 6 inf + 278
10.087 * * [simplify]: Extracting #5: cost 0 inf + 748
10.087 * [simplify]: Simplified to (cbrt (hypot x.re x.im))
10.087 * [simplify]: Simplified (2 2 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (* (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im))))) (cbrt (hypot x.re x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
10.087 * * * * [progress]: [ 9 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (cbrt (* (* (sqrt (+ (* x.re x.re) (* x.im x.im))) (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))>
10.087 * [simplify]: Simplifying (* (* (sqrt (+ (* x.re x.re) (* x.im x.im))) (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (+ (* x.re x.re) (* x.im x.im))))
10.087 * * [simplify]: iters left: 6 (8 enodes)
10.089 * * [simplify]: iters left: 5 (27 enodes)
10.093 * * [simplify]: iters left: 4 (40 enodes)
10.104 * * [simplify]: iters left: 3 (67 enodes)
10.123 * * [simplify]: iters left: 2 (93 enodes)
10.151 * * [simplify]: iters left: 1 (121 enodes)
10.185 * * [simplify]: Extracting #0: cost 1 inf + 0
10.186 * * [simplify]: Extracting #1: cost 17 inf + 0
10.186 * * [simplify]: Extracting #2: cost 28 inf + 44
10.186 * * [simplify]: Extracting #3: cost 25 inf + 282
10.187 * * [simplify]: Extracting #4: cost 9 inf + 3024
10.189 * * [simplify]: Extracting #5: cost 2 inf + 4713
10.190 * * [simplify]: Extracting #6: cost 0 inf + 5751
10.192 * [simplify]: Simplified to (* (fma x.re x.re (* x.im x.im)) (hypot x.re x.im))
10.192 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (cbrt (* (fma x.re x.re (* x.im x.im)) (hypot x.re x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
10.192 * * * * [progress]: [ 10 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (sqrt (* (cbrt (+ (* x.re x.re) (* x.im x.im))) (cbrt (+ (* x.re x.re) (* x.im x.im))))) (sqrt (cbrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))>
10.192 * [simplify]: Simplifying (sqrt (* (cbrt (+ (* x.re x.re) (* x.im x.im))) (cbrt (+ (* x.re x.re) (* x.im x.im)))))
10.192 * * [simplify]: iters left: 6 (8 enodes)
10.196 * * [simplify]: iters left: 5 (27 enodes)
10.204 * * [simplify]: iters left: 4 (28 enodes)
10.208 * * [simplify]: Extracting #0: cost 1 inf + 0
10.208 * * [simplify]: Extracting #1: cost 4 inf + 0
10.208 * * [simplify]: Extracting #2: cost 7 inf + 0
10.208 * * [simplify]: Extracting #3: cost 12 inf + 0
10.208 * * [simplify]: Extracting #4: cost 12 inf + 2
10.208 * * [simplify]: Extracting #5: cost 10 inf + 84
10.208 * * [simplify]: Extracting #6: cost 4 inf + 754
10.208 * * [simplify]: Extracting #7: cost 0 inf + 1582
10.209 * [simplify]: Simplified to (fabs (cbrt (fma x.im x.im (* x.re x.re))))
10.209 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (fabs (cbrt (fma x.im x.im (* x.re x.re)))) (sqrt (cbrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))
10.209 * [simplify]: Simplifying (sqrt (cbrt (+ (* x.re x.re) (* x.im x.im))))
10.209 * * [simplify]: iters left: 6 (7 enodes)
10.211 * * [simplify]: iters left: 5 (23 enodes)
10.214 * * [simplify]: iters left: 4 (24 enodes)
10.217 * * [simplify]: Extracting #0: cost 1 inf + 0
10.217 * * [simplify]: Extracting #1: cost 3 inf + 0
10.217 * * [simplify]: Extracting #2: cost 5 inf + 0
10.217 * * [simplify]: Extracting #3: cost 10 inf + 0
10.217 * * [simplify]: Extracting #4: cost 10 inf + 2
10.217 * * [simplify]: Extracting #5: cost 1 inf + 931
10.217 * * [simplify]: Extracting #6: cost 0 inf + 1148
10.217 * [simplify]: Simplified to (sqrt (cbrt (fma x.im x.im (* x.re x.re))))
10.217 * [simplify]: Simplified (2 2 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (sqrt (* (cbrt (+ (* x.re x.re) (* x.im x.im))) (cbrt (+ (* x.re x.re) (* x.im x.im))))) (sqrt (cbrt (fma x.im x.im (* x.re x.re)))))) y.im) (* (atan2 x.im x.re) y.re)))))
10.218 * * * * [progress]: [ 11 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))>
10.218 * [simplify]: Simplifying (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im))))
10.218 * * [simplify]: iters left: 6 (7 enodes)
10.219 * * [simplify]: iters left: 5 (24 enodes)
10.222 * * [simplify]: iters left: 4 (26 enodes)
10.225 * * [simplify]: Extracting #0: cost 1 inf + 0
10.225 * * [simplify]: Extracting #1: cost 3 inf + 0
10.225 * * [simplify]: Extracting #2: cost 7 inf + 0
10.225 * * [simplify]: Extracting #3: cost 8 inf + 2
10.226 * * [simplify]: Extracting #4: cost 6 inf + 238
10.226 * * [simplify]: Extracting #5: cost 0 inf + 668
10.226 * [simplify]: Simplified to (sqrt (hypot x.re x.im))
10.226 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (sqrt (hypot x.re x.im)) (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))
10.226 * [simplify]: Simplifying (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im))))
10.226 * * [simplify]: iters left: 6 (7 enodes)
10.228 * * [simplify]: iters left: 5 (24 enodes)
10.231 * * [simplify]: iters left: 4 (26 enodes)
10.234 * * [simplify]: Extracting #0: cost 1 inf + 0
10.234 * * [simplify]: Extracting #1: cost 3 inf + 0
10.234 * * [simplify]: Extracting #2: cost 7 inf + 0
10.234 * * [simplify]: Extracting #3: cost 8 inf + 2
10.234 * * [simplify]: Extracting #4: cost 6 inf + 238
10.234 * * [simplify]: Extracting #5: cost 0 inf + 668
10.234 * [simplify]: Simplified to (sqrt (hypot x.re x.im))
10.234 * [simplify]: Simplified (2 2 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (hypot x.re x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
10.234 * * * * [progress]: [ 12 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (sqrt 1) (sqrt (+ (* x.re x.re) (* x.im x.im))))) y.im) (* (atan2 x.im x.re) y.re)))))>
10.234 * [simplify]: Simplifying (sqrt 1)
10.234 * * [simplify]: iters left: 1 (2 enodes)
10.236 * * [simplify]: Extracting #0: cost 1 inf + 0
10.236 * * [simplify]: Extracting #1: cost 0 inf + 1
10.237 * [simplify]: Simplified to 1
10.237 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* 1 (sqrt (+ (* x.re x.re) (* x.im x.im))))) y.im) (* (atan2 x.im x.re) y.re)))))
10.237 * [simplify]: Simplifying (sqrt (+ (* x.re x.re) (* x.im x.im)))
10.237 * * [simplify]: iters left: 5 (6 enodes)
10.238 * * [simplify]: iters left: 4 (21 enodes)
10.241 * * [simplify]: iters left: 3 (23 enodes)
10.244 * * [simplify]: Extracting #0: cost 1 inf + 0
10.244 * * [simplify]: Extracting #1: cost 5 inf + 0
10.244 * * [simplify]: Extracting #2: cost 6 inf + 2
10.244 * * [simplify]: Extracting #3: cost 2 inf + 392
10.244 * * [simplify]: Extracting #4: cost 0 inf + 474
10.244 * [simplify]: Simplified to (hypot x.re x.im)
10.244 * [simplify]: Simplified (2 2 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* 1 (hypot x.re x.im))) y.im) (* (atan2 x.im x.re) y.re)))))
10.244 * * * * [progress]: [ 13 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (/ (sqrt (+ (pow (* x.re x.re) 3) (pow (* x.im x.im) 3))) (sqrt (+ (* (* x.re x.re) (* x.re x.re)) (- (* (* x.im x.im) (* x.im x.im)) (* (* x.re x.re) (* x.im x.im))))))) y.im) (* (atan2 x.im x.re) y.re)))))>
10.244 * [simplify]: Simplifying (sqrt (+ (pow (* x.re x.re) 3) (pow (* x.im x.im) 3)))
10.244 * * [simplify]: iters left: 6 (9 enodes)
10.247 * * [simplify]: iters left: 5 (45 enodes)
10.258 * * [simplify]: iters left: 4 (116 enodes)
10.292 * * [simplify]: iters left: 3 (219 enodes)
10.352 * * [simplify]: iters left: 2 (423 enodes)
10.506 * * [simplify]: Extracting #0: cost 1 inf + 0
10.506 * * [simplify]: Extracting #1: cost 7 inf + 0
10.506 * * [simplify]: Extracting #2: cost 42 inf + 0
10.507 * * [simplify]: Extracting #3: cost 132 inf + 460
10.510 * * [simplify]: Extracting #4: cost 158 inf + 6738
10.517 * * [simplify]: Extracting #5: cost 63 inf + 40644
10.527 * * [simplify]: Extracting #6: cost 4 inf + 68670
10.538 * * [simplify]: Extracting #7: cost 0 inf + 69962
10.550 * * [simplify]: Extracting #8: cost 0 inf + 69922
10.561 * [simplify]: Simplified to (hypot (* x.re (* x.re x.re)) (* x.im (* x.im x.im)))
10.561 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (/ (hypot (* x.re (* x.re x.re)) (* x.im (* x.im x.im))) (sqrt (+ (* (* x.re x.re) (* x.re x.re)) (- (* (* x.im x.im) (* x.im x.im)) (* (* x.re x.re) (* x.im x.im))))))) y.im) (* (atan2 x.im x.re) y.re)))))
10.562 * [simplify]: Simplifying (sqrt (+ (* (* x.re x.re) (* x.re x.re)) (- (* (* x.im x.im) (* x.im x.im)) (* (* x.re x.re) (* x.im x.im)))))
10.562 * * [simplify]: iters left: 6 (10 enodes)
10.567 * * [simplify]: iters left: 5 (54 enodes)
10.588 * * [simplify]: iters left: 4 (130 enodes)
10.619 * * [simplify]: iters left: 3 (292 enodes)
10.724 * * [simplify]: Extracting #0: cost 1 inf + 0
10.724 * * [simplify]: Extracting #1: cost 3 inf + 0
10.724 * * [simplify]: Extracting #2: cost 40 inf + 0
10.725 * * [simplify]: Extracting #3: cost 96 inf + 536
10.730 * * [simplify]: Extracting #4: cost 40 inf + 8183
10.738 * * [simplify]: Extracting #5: cost 11 inf + 12381
10.743 * * [simplify]: Extracting #6: cost 4 inf + 13734
10.747 * * [simplify]: Extracting #7: cost 0 inf + 14662
10.751 * [simplify]: Simplified to (sqrt (fma (* x.re x.re) (fma x.im (- x.im) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im))))
10.751 * [simplify]: Simplified (2 2 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (/ (hypot (* x.re (* x.re x.re)) (* x.im (* x.im x.im))) (sqrt (fma (* x.re x.re) (fma x.im (- x.im) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))
10.752 * * * * [progress]: [ 14 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (/ (sqrt (- (* (* x.re x.re) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im)))) (sqrt (- (* x.re x.re) (* x.im x.im))))) y.im) (* (atan2 x.im x.re) y.re)))))>
10.752 * [simplify]: Simplifying (sqrt (- (* (* x.re x.re) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im))))
10.752 * * [simplify]: iters left: 6 (8 enodes)
10.754 * * [simplify]: iters left: 5 (38 enodes)
10.761 * * [simplify]: iters left: 4 (72 enodes)
10.783 * * [simplify]: iters left: 3 (135 enodes)
10.840 * * [simplify]: iters left: 2 (298 enodes)
11.039 * * [simplify]: Extracting #0: cost 1 inf + 0
11.040 * * [simplify]: Extracting #1: cost 3 inf + 0
11.040 * * [simplify]: Extracting #2: cost 70 inf + 0
11.040 * * [simplify]: Extracting #3: cost 186 inf + 286
11.042 * * [simplify]: Extracting #4: cost 150 inf + 7186
11.049 * * [simplify]: Extracting #5: cost 35 inf + 27843
11.057 * * [simplify]: Extracting #6: cost 3 inf + 34589
11.067 * * [simplify]: Extracting #7: cost 0 inf + 35476
11.075 * [simplify]: Simplified to (sqrt (- (* (* x.re x.re) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im))))
11.075 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (/ (sqrt (- (* (* x.re x.re) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im)))) (sqrt (- (* x.re x.re) (* x.im x.im))))) y.im) (* (atan2 x.im x.re) y.re)))))
11.076 * [simplify]: Simplifying (sqrt (- (* x.re x.re) (* x.im x.im)))
11.076 * * [simplify]: iters left: 5 (6 enodes)
11.077 * * [simplify]: iters left: 4 (24 enodes)
11.081 * * [simplify]: iters left: 3 (37 enodes)
11.086 * * [simplify]: iters left: 2 (56 enodes)
11.096 * * [simplify]: iters left: 1 (103 enodes)
11.129 * * [simplify]: Extracting #0: cost 1 inf + 0
11.129 * * [simplify]: Extracting #1: cost 3 inf + 0
11.129 * * [simplify]: Extracting #2: cost 35 inf + 0
11.130 * * [simplify]: Extracting #3: cost 40 inf + 413
11.132 * * [simplify]: Extracting #4: cost 6 inf + 4597
11.134 * * [simplify]: Extracting #5: cost 0 inf + 5448
11.137 * [simplify]: Simplified to (sqrt (- (* x.re x.re) (* x.im x.im)))
11.137 * [simplify]: Simplified (2 2 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (/ (sqrt (- (* (* x.re x.re) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im)))) (sqrt (- (* x.re x.re) (* x.im x.im))))) y.im) (* (atan2 x.im x.re) y.re)))))
11.137 * * * * [progress]: [ 15 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (pow (+ (* x.re x.re) (* x.im x.im)) (/ 1 2))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.138 * [simplify]: Simplifying (/ 1 2)
11.138 * * [simplify]: iters left: 2 (3 enodes)
11.142 * * [simplify]: iters left: 1 (12 enodes)
11.147 * * [simplify]: Extracting #0: cost 1 inf + 0
11.147 * * [simplify]: Extracting #1: cost 0 inf + 1
11.147 * [simplify]: Simplified to 1/2
11.147 * [simplify]: Simplified (2 2 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (pow (+ (* x.re x.re) (* x.im x.im)) 1/2)) y.im) (* (atan2 x.im x.re) y.re)))))
11.147 * * * * [progress]: [ 16 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.147 * [simplify]: Simplifying (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im))))
11.147 * * [simplify]: iters left: 6 (7 enodes)
11.151 * * [simplify]: iters left: 5 (24 enodes)
11.159 * * [simplify]: iters left: 4 (26 enodes)
11.165 * * [simplify]: Extracting #0: cost 1 inf + 0
11.165 * * [simplify]: Extracting #1: cost 3 inf + 0
11.166 * * [simplify]: Extracting #2: cost 7 inf + 0
11.166 * * [simplify]: Extracting #3: cost 8 inf + 2
11.166 * * [simplify]: Extracting #4: cost 6 inf + 238
11.166 * * [simplify]: Extracting #5: cost 0 inf + 668
11.166 * [simplify]: Simplified to (sqrt (hypot x.re x.im))
11.166 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (sqrt (hypot x.re x.im)) (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))
11.167 * [simplify]: Simplifying (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im))))
11.167 * * [simplify]: iters left: 6 (7 enodes)
11.170 * * [simplify]: iters left: 5 (24 enodes)
11.177 * * [simplify]: iters left: 4 (26 enodes)
11.183 * * [simplify]: Extracting #0: cost 1 inf + 0
11.183 * * [simplify]: Extracting #1: cost 3 inf + 0
11.183 * * [simplify]: Extracting #2: cost 7 inf + 0
11.183 * * [simplify]: Extracting #3: cost 8 inf + 2
11.183 * * [simplify]: Extracting #4: cost 6 inf + 238
11.184 * * [simplify]: Extracting #5: cost 0 inf + 668
11.184 * [simplify]: Simplified to (sqrt (hypot x.re x.im))
11.184 * [simplify]: Simplified (2 2 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (hypot x.re x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.184 * * * * [progress]: [ 17 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (fabs (sqrt (+ (* x.re x.re) (* x.im x.im))))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.184 * * * * [progress]: [ 18 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* 1 (sqrt (+ (* x.re x.re) (* x.im x.im))))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.185 * * * * [progress]: [ 19 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (posit16->real (real->posit16 (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.185 * [simplify]: Simplifying (real->posit16 (sqrt (+ (* x.re x.re) (* x.im x.im))))
11.185 * * [simplify]: iters left: 6 (7 enodes)
11.188 * * [simplify]: iters left: 5 (21 enodes)
11.193 * * [simplify]: iters left: 4 (23 enodes)
11.196 * * [simplify]: Extracting #0: cost 1 inf + 0
11.196 * * [simplify]: Extracting #1: cost 2 inf + 0
11.196 * * [simplify]: Extracting #2: cost 5 inf + 0
11.196 * * [simplify]: Extracting #3: cost 6 inf + 2
11.196 * * [simplify]: Extracting #4: cost 2 inf + 392
11.196 * * [simplify]: Extracting #5: cost 0 inf + 474
11.196 * [simplify]: Simplified to (real->posit16 (hypot x.re x.im))
11.196 * [simplify]: Simplified (2 2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (posit16->real (real->posit16 (hypot x.re x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.196 * * * * [progress]: [ 20 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (log1p (expm1 (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.196 * [simplify]: Simplifying (expm1 (sqrt (+ (* x.re x.re) (* x.im x.im))))
11.197 * * [simplify]: iters left: 6 (7 enodes)
11.198 * * [simplify]: iters left: 5 (24 enodes)
11.201 * * [simplify]: iters left: 4 (26 enodes)
11.204 * * [simplify]: Extracting #0: cost 1 inf + 0
11.204 * * [simplify]: Extracting #1: cost 3 inf + 0
11.204 * * [simplify]: Extracting #2: cost 7 inf + 0
11.204 * * [simplify]: Extracting #3: cost 8 inf + 2
11.204 * * [simplify]: Extracting #4: cost 6 inf + 268
11.204 * * [simplify]: Extracting #5: cost 0 inf + 728
11.205 * [simplify]: Simplified to (expm1 (hypot x.re x.im))
11.205 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (log1p (expm1 (hypot x.re x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.205 * * * * [progress]: [ 21 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (expm1 (log1p (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.205 * [simplify]: Simplifying (log1p (sqrt (+ (* x.re x.re) (* x.im x.im))))
11.205 * * [simplify]: iters left: 6 (7 enodes)
11.206 * * [simplify]: iters left: 5 (24 enodes)
11.209 * * [simplify]: iters left: 4 (26 enodes)
11.212 * * [simplify]: Extracting #0: cost 1 inf + 0
11.212 * * [simplify]: Extracting #1: cost 3 inf + 0
11.212 * * [simplify]: Extracting #2: cost 7 inf + 0
11.212 * * [simplify]: Extracting #3: cost 8 inf + 2
11.213 * * [simplify]: Extracting #4: cost 6 inf + 288
11.213 * * [simplify]: Extracting #5: cost 0 inf + 768
11.213 * [simplify]: Simplified to (log1p (hypot x.re x.im))
11.213 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (expm1 (log1p (hypot x.re x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.213 * * * * [progress]: [ 22 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (hypot x.re x.im)) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.213 * * * * [progress]: [ 23 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (pow (+ (* x.re x.re) (* x.im x.im)) 1/2)) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.213 * * * * [progress]: [ 24 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (pow (sqrt (+ (* x.re x.re) (* x.im x.im))) 1)) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.213 * * * * [progress]: [ 25 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (exp (log (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.213 * [simplify]: Simplifying (log (sqrt (+ (* x.re x.re) (* x.im x.im))))
11.213 * * [simplify]: iters left: 6 (7 enodes)
11.215 * * [simplify]: iters left: 5 (24 enodes)
11.218 * * [simplify]: iters left: 4 (26 enodes)
11.221 * * [simplify]: Extracting #0: cost 1 inf + 0
11.221 * * [simplify]: Extracting #1: cost 3 inf + 0
11.221 * * [simplify]: Extracting #2: cost 7 inf + 0
11.221 * * [simplify]: Extracting #3: cost 8 inf + 2
11.221 * * [simplify]: Extracting #4: cost 6 inf + 268
11.221 * * [simplify]: Extracting #5: cost 0 inf + 728
11.222 * [simplify]: Simplified to (log (hypot x.re x.im))
11.222 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (exp (log (hypot x.re x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.222 * * * * [progress]: [ 26 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (log (exp (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.222 * [simplify]: Simplifying (exp (sqrt (+ (* x.re x.re) (* x.im x.im))))
11.222 * * [simplify]: iters left: 6 (7 enodes)
11.224 * * [simplify]: iters left: 5 (24 enodes)
11.230 * * [simplify]: iters left: 4 (26 enodes)
11.237 * * [simplify]: Extracting #0: cost 1 inf + 0
11.237 * * [simplify]: Extracting #1: cost 3 inf + 0
11.237 * * [simplify]: Extracting #2: cost 7 inf + 0
11.237 * * [simplify]: Extracting #3: cost 8 inf + 2
11.237 * * [simplify]: Extracting #4: cost 6 inf + 268
11.237 * * [simplify]: Extracting #5: cost 0 inf + 728
11.238 * [simplify]: Simplified to (exp (hypot x.re x.im))
11.238 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (log (exp (hypot x.re x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.238 * * * * [progress]: [ 27 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (* (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im))))) (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.238 * [simplify]: Simplifying (* (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))
11.238 * * [simplify]: iters left: 6 (8 enodes)
11.242 * * [simplify]: iters left: 5 (27 enodes)
11.250 * * [simplify]: iters left: 4 (29 enodes)
11.257 * * [simplify]: Extracting #0: cost 1 inf + 0
11.257 * * [simplify]: Extracting #1: cost 3 inf + 0
11.257 * * [simplify]: Extracting #2: cost 5 inf + 0
11.257 * * [simplify]: Extracting #3: cost 9 inf + 0
11.257 * * [simplify]: Extracting #4: cost 10 inf + 2
11.257 * * [simplify]: Extracting #5: cost 5 inf + 529
11.258 * * [simplify]: Extracting #6: cost 1 inf + 925
11.258 * * [simplify]: Extracting #7: cost 0 inf + 1102
11.258 * [simplify]: Simplified to (* (cbrt (hypot x.re x.im)) (cbrt (hypot x.re x.im)))
11.258 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (* (cbrt (hypot x.re x.im)) (cbrt (hypot x.re x.im))) (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.259 * [simplify]: Simplifying (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im))))
11.259 * * [simplify]: iters left: 6 (7 enodes)
11.262 * * [simplify]: iters left: 5 (24 enodes)
11.269 * * [simplify]: iters left: 4 (26 enodes)
11.276 * * [simplify]: Extracting #0: cost 1 inf + 0
11.276 * * [simplify]: Extracting #1: cost 3 inf + 0
11.276 * * [simplify]: Extracting #2: cost 7 inf + 0
11.276 * * [simplify]: Extracting #3: cost 8 inf + 2
11.276 * * [simplify]: Extracting #4: cost 6 inf + 278
11.277 * * [simplify]: Extracting #5: cost 0 inf + 748
11.277 * [simplify]: Simplified to (cbrt (hypot x.re x.im))
11.277 * [simplify]: Simplified (2 1 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (* (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (cbrt (sqrt (+ (* x.re x.re) (* x.im x.im))))) (cbrt (hypot x.re x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.277 * * * * [progress]: [ 28 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (cbrt (* (* (sqrt (+ (* x.re x.re) (* x.im x.im))) (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.278 * [simplify]: Simplifying (* (* (sqrt (+ (* x.re x.re) (* x.im x.im))) (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (+ (* x.re x.re) (* x.im x.im))))
11.278 * * [simplify]: iters left: 6 (8 enodes)
11.281 * * [simplify]: iters left: 5 (27 enodes)
11.289 * * [simplify]: iters left: 4 (40 enodes)
11.303 * * [simplify]: iters left: 3 (67 enodes)
11.322 * * [simplify]: iters left: 2 (93 enodes)
11.349 * * [simplify]: iters left: 1 (121 enodes)
11.381 * * [simplify]: Extracting #0: cost 1 inf + 0
11.381 * * [simplify]: Extracting #1: cost 17 inf + 0
11.381 * * [simplify]: Extracting #2: cost 28 inf + 44
11.382 * * [simplify]: Extracting #3: cost 25 inf + 282
11.383 * * [simplify]: Extracting #4: cost 9 inf + 3024
11.384 * * [simplify]: Extracting #5: cost 2 inf + 4713
11.386 * * [simplify]: Extracting #6: cost 0 inf + 5751
11.387 * [simplify]: Simplified to (* (fma x.re x.re (* x.im x.im)) (hypot x.re x.im))
11.387 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (cbrt (* (fma x.re x.re (* x.im x.im)) (hypot x.re x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.388 * * * * [progress]: [ 29 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (sqrt (* (cbrt (+ (* x.re x.re) (* x.im x.im))) (cbrt (+ (* x.re x.re) (* x.im x.im))))) (sqrt (cbrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.388 * [simplify]: Simplifying (sqrt (* (cbrt (+ (* x.re x.re) (* x.im x.im))) (cbrt (+ (* x.re x.re) (* x.im x.im)))))
11.388 * * [simplify]: iters left: 6 (8 enodes)
11.392 * * [simplify]: iters left: 5 (27 enodes)
11.400 * * [simplify]: iters left: 4 (28 enodes)
11.407 * * [simplify]: Extracting #0: cost 1 inf + 0
11.407 * * [simplify]: Extracting #1: cost 4 inf + 0
11.407 * * [simplify]: Extracting #2: cost 7 inf + 0
11.407 * * [simplify]: Extracting #3: cost 12 inf + 0
11.407 * * [simplify]: Extracting #4: cost 12 inf + 2
11.407 * * [simplify]: Extracting #5: cost 10 inf + 84
11.407 * * [simplify]: Extracting #6: cost 4 inf + 754
11.408 * * [simplify]: Extracting #7: cost 0 inf + 1582
11.408 * [simplify]: Simplified to (fabs (cbrt (fma x.im x.im (* x.re x.re))))
11.408 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (fabs (cbrt (fma x.im x.im (* x.re x.re)))) (sqrt (cbrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.409 * [simplify]: Simplifying (sqrt (cbrt (+ (* x.re x.re) (* x.im x.im))))
11.409 * * [simplify]: iters left: 6 (7 enodes)
11.412 * * [simplify]: iters left: 5 (23 enodes)
11.420 * * [simplify]: iters left: 4 (24 enodes)
11.426 * * [simplify]: Extracting #0: cost 1 inf + 0
11.426 * * [simplify]: Extracting #1: cost 3 inf + 0
11.426 * * [simplify]: Extracting #2: cost 5 inf + 0
11.426 * * [simplify]: Extracting #3: cost 10 inf + 0
11.426 * * [simplify]: Extracting #4: cost 10 inf + 2
11.427 * * [simplify]: Extracting #5: cost 1 inf + 931
11.427 * * [simplify]: Extracting #6: cost 0 inf + 1148
11.427 * [simplify]: Simplified to (sqrt (cbrt (fma x.im x.im (* x.re x.re))))
11.428 * [simplify]: Simplified (2 1 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (sqrt (* (cbrt (+ (* x.re x.re) (* x.im x.im))) (cbrt (+ (* x.re x.re) (* x.im x.im))))) (sqrt (cbrt (fma x.im x.im (* x.re x.re)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.428 * * * * [progress]: [ 30 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.428 * [simplify]: Simplifying (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im))))
11.428 * * [simplify]: iters left: 6 (7 enodes)
11.431 * * [simplify]: iters left: 5 (24 enodes)
11.438 * * [simplify]: iters left: 4 (26 enodes)
11.442 * * [simplify]: Extracting #0: cost 1 inf + 0
11.442 * * [simplify]: Extracting #1: cost 3 inf + 0
11.442 * * [simplify]: Extracting #2: cost 7 inf + 0
11.442 * * [simplify]: Extracting #3: cost 8 inf + 2
11.442 * * [simplify]: Extracting #4: cost 6 inf + 238
11.442 * * [simplify]: Extracting #5: cost 0 inf + 668
11.442 * [simplify]: Simplified to (sqrt (hypot x.re x.im))
11.442 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (sqrt (hypot x.re x.im)) (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.442 * [simplify]: Simplifying (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im))))
11.442 * * [simplify]: iters left: 6 (7 enodes)
11.444 * * [simplify]: iters left: 5 (24 enodes)
11.447 * * [simplify]: iters left: 4 (26 enodes)
11.450 * * [simplify]: Extracting #0: cost 1 inf + 0
11.450 * * [simplify]: Extracting #1: cost 3 inf + 0
11.450 * * [simplify]: Extracting #2: cost 7 inf + 0
11.450 * * [simplify]: Extracting #3: cost 8 inf + 2
11.450 * * [simplify]: Extracting #4: cost 6 inf + 238
11.451 * * [simplify]: Extracting #5: cost 0 inf + 668
11.451 * [simplify]: Simplified to (sqrt (hypot x.re x.im))
11.451 * [simplify]: Simplified (2 1 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (hypot x.re x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.451 * * * * [progress]: [ 31 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (sqrt 1) (sqrt (+ (* x.re x.re) (* x.im x.im))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.451 * [simplify]: Simplifying (sqrt 1)
11.451 * * [simplify]: iters left: 1 (2 enodes)
11.453 * * [simplify]: Extracting #0: cost 1 inf + 0
11.453 * * [simplify]: Extracting #1: cost 0 inf + 1
11.453 * [simplify]: Simplified to 1
11.453 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* 1 (sqrt (+ (* x.re x.re) (* x.im x.im))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.453 * [simplify]: Simplifying (sqrt (+ (* x.re x.re) (* x.im x.im)))
11.453 * * [simplify]: iters left: 5 (6 enodes)
11.455 * * [simplify]: iters left: 4 (21 enodes)
11.457 * * [simplify]: iters left: 3 (23 enodes)
11.460 * * [simplify]: Extracting #0: cost 1 inf + 0
11.460 * * [simplify]: Extracting #1: cost 5 inf + 0
11.460 * * [simplify]: Extracting #2: cost 6 inf + 2
11.460 * * [simplify]: Extracting #3: cost 2 inf + 392
11.460 * * [simplify]: Extracting #4: cost 0 inf + 474
11.460 * [simplify]: Simplified to (hypot x.re x.im)
11.460 * [simplify]: Simplified (2 1 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* 1 (hypot x.re x.im))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.461 * * * * [progress]: [ 32 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (/ (sqrt (+ (pow (* x.re x.re) 3) (pow (* x.im x.im) 3))) (sqrt (+ (* (* x.re x.re) (* x.re x.re)) (- (* (* x.im x.im) (* x.im x.im)) (* (* x.re x.re) (* x.im x.im))))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.461 * [simplify]: Simplifying (sqrt (+ (pow (* x.re x.re) 3) (pow (* x.im x.im) 3)))
11.461 * * [simplify]: iters left: 6 (9 enodes)
11.464 * * [simplify]: iters left: 5 (45 enodes)
11.475 * * [simplify]: iters left: 4 (116 enodes)
11.504 * * [simplify]: iters left: 3 (219 enodes)
11.557 * * [simplify]: iters left: 2 (423 enodes)
11.685 * * [simplify]: Extracting #0: cost 1 inf + 0
11.686 * * [simplify]: Extracting #1: cost 7 inf + 0
11.686 * * [simplify]: Extracting #2: cost 42 inf + 0
11.686 * * [simplify]: Extracting #3: cost 132 inf + 460
11.689 * * [simplify]: Extracting #4: cost 158 inf + 6738
11.696 * * [simplify]: Extracting #5: cost 63 inf + 40644
11.707 * * [simplify]: Extracting #6: cost 4 inf + 68670
11.719 * * [simplify]: Extracting #7: cost 0 inf + 69962
11.730 * * [simplify]: Extracting #8: cost 0 inf + 69922
11.741 * [simplify]: Simplified to (hypot (* x.re (* x.re x.re)) (* x.im (* x.im x.im)))
11.741 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (/ (hypot (* x.re (* x.re x.re)) (* x.im (* x.im x.im))) (sqrt (+ (* (* x.re x.re) (* x.re x.re)) (- (* (* x.im x.im) (* x.im x.im)) (* (* x.re x.re) (* x.im x.im))))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.742 * [simplify]: Simplifying (sqrt (+ (* (* x.re x.re) (* x.re x.re)) (- (* (* x.im x.im) (* x.im x.im)) (* (* x.re x.re) (* x.im x.im)))))
11.742 * * [simplify]: iters left: 6 (10 enodes)
11.748 * * [simplify]: iters left: 5 (54 enodes)
11.769 * * [simplify]: iters left: 4 (130 enodes)
11.829 * * [simplify]: iters left: 3 (292 enodes)
11.912 * * [simplify]: Extracting #0: cost 1 inf + 0
11.912 * * [simplify]: Extracting #1: cost 3 inf + 0
11.912 * * [simplify]: Extracting #2: cost 40 inf + 0
11.912 * * [simplify]: Extracting #3: cost 96 inf + 536
11.915 * * [simplify]: Extracting #4: cost 40 inf + 8183
11.919 * * [simplify]: Extracting #5: cost 11 inf + 12381
11.926 * * [simplify]: Extracting #6: cost 4 inf + 13734
11.935 * * [simplify]: Extracting #7: cost 0 inf + 14662
11.943 * [simplify]: Simplified to (sqrt (fma (* x.re x.re) (fma x.im (- x.im) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im))))
11.943 * [simplify]: Simplified (2 1 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (/ (hypot (* x.re (* x.re x.re)) (* x.im (* x.im x.im))) (sqrt (fma (* x.re x.re) (fma x.im (- x.im) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
11.943 * * * * [progress]: [ 33 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (/ (sqrt (- (* (* x.re x.re) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im)))) (sqrt (- (* x.re x.re) (* x.im x.im))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
11.944 * [simplify]: Simplifying (sqrt (- (* (* x.re x.re) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im))))
11.944 * * [simplify]: iters left: 6 (8 enodes)
11.948 * * [simplify]: iters left: 5 (38 enodes)
11.961 * * [simplify]: iters left: 4 (72 enodes)
11.988 * * [simplify]: iters left: 3 (135 enodes)
12.034 * * [simplify]: iters left: 2 (298 enodes)
12.175 * * [simplify]: Extracting #0: cost 1 inf + 0
12.175 * * [simplify]: Extracting #1: cost 3 inf + 0
12.176 * * [simplify]: Extracting #2: cost 70 inf + 0
12.176 * * [simplify]: Extracting #3: cost 186 inf + 286
12.178 * * [simplify]: Extracting #4: cost 150 inf + 7186
12.185 * * [simplify]: Extracting #5: cost 35 inf + 27843
12.201 * * [simplify]: Extracting #6: cost 3 inf + 34589
12.217 * * [simplify]: Extracting #7: cost 0 inf + 35476
12.237 * [simplify]: Simplified to (sqrt (- (* (* x.re x.re) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im))))
12.237 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (/ (sqrt (- (* (* x.re x.re) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im)))) (sqrt (- (* x.re x.re) (* x.im x.im))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.238 * [simplify]: Simplifying (sqrt (- (* x.re x.re) (* x.im x.im)))
12.238 * * [simplify]: iters left: 5 (6 enodes)
12.241 * * [simplify]: iters left: 4 (24 enodes)
12.248 * * [simplify]: iters left: 3 (37 enodes)
12.259 * * [simplify]: iters left: 2 (56 enodes)
12.278 * * [simplify]: iters left: 1 (103 enodes)
12.321 * * [simplify]: Extracting #0: cost 1 inf + 0
12.321 * * [simplify]: Extracting #1: cost 3 inf + 0
12.321 * * [simplify]: Extracting #2: cost 35 inf + 0
12.322 * * [simplify]: Extracting #3: cost 40 inf + 413
12.323 * * [simplify]: Extracting #4: cost 6 inf + 4597
12.326 * * [simplify]: Extracting #5: cost 0 inf + 5448
12.329 * [simplify]: Simplified to (sqrt (- (* x.re x.re) (* x.im x.im)))
12.329 * [simplify]: Simplified (2 1 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (/ (sqrt (- (* (* x.re x.re) (* x.re x.re)) (* (* x.im x.im) (* x.im x.im)))) (sqrt (- (* x.re x.re) (* x.im x.im))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.329 * * * * [progress]: [ 34 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (pow (+ (* x.re x.re) (* x.im x.im)) (/ 1 2))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.330 * [simplify]: Simplifying (/ 1 2)
12.330 * * [simplify]: iters left: 2 (3 enodes)
12.333 * * [simplify]: iters left: 1 (12 enodes)
12.337 * * [simplify]: Extracting #0: cost 1 inf + 0
12.337 * * [simplify]: Extracting #1: cost 0 inf + 1
12.337 * [simplify]: Simplified to 1/2
12.337 * [simplify]: Simplified (2 1 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (pow (+ (* x.re x.re) (* x.im x.im)) 1/2)) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.338 * * * * [progress]: [ 35 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.338 * [simplify]: Simplifying (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im))))
12.338 * * [simplify]: iters left: 6 (7 enodes)
12.341 * * [simplify]: iters left: 5 (24 enodes)
12.345 * * [simplify]: iters left: 4 (26 enodes)
12.348 * * [simplify]: Extracting #0: cost 1 inf + 0
12.348 * * [simplify]: Extracting #1: cost 3 inf + 0
12.349 * * [simplify]: Extracting #2: cost 7 inf + 0
12.349 * * [simplify]: Extracting #3: cost 8 inf + 2
12.349 * * [simplify]: Extracting #4: cost 6 inf + 238
12.349 * * [simplify]: Extracting #5: cost 0 inf + 668
12.349 * [simplify]: Simplified to (sqrt (hypot x.re x.im))
12.349 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (sqrt (hypot x.re x.im)) (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.349 * [simplify]: Simplifying (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im))))
12.349 * * [simplify]: iters left: 6 (7 enodes)
12.351 * * [simplify]: iters left: 5 (24 enodes)
12.354 * * [simplify]: iters left: 4 (26 enodes)
12.358 * * [simplify]: Extracting #0: cost 1 inf + 0
12.358 * * [simplify]: Extracting #1: cost 3 inf + 0
12.358 * * [simplify]: Extracting #2: cost 7 inf + 0
12.358 * * [simplify]: Extracting #3: cost 8 inf + 2
12.358 * * [simplify]: Extracting #4: cost 6 inf + 238
12.358 * * [simplify]: Extracting #5: cost 0 inf + 668
12.359 * [simplify]: Simplified to (sqrt (hypot x.re x.im))
12.359 * [simplify]: Simplified (2 1 1 1 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* (sqrt (sqrt (+ (* x.re x.re) (* x.im x.im)))) (sqrt (hypot x.re x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.359 * * * * [progress]: [ 36 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (fabs (sqrt (+ (* x.re x.re) (* x.im x.im))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.359 * * * * [progress]: [ 37 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* 1 (sqrt (+ (* x.re x.re) (* x.im x.im))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.359 * * * * [progress]: [ 38 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (posit16->real (real->posit16 (sqrt (+ (* x.re x.re) (* x.im x.im)))))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.359 * [simplify]: Simplifying (real->posit16 (sqrt (+ (* x.re x.re) (* x.im x.im))))
12.359 * * [simplify]: iters left: 6 (7 enodes)
12.361 * * [simplify]: iters left: 5 (21 enodes)
12.363 * * [simplify]: iters left: 4 (23 enodes)
12.366 * * [simplify]: Extracting #0: cost 1 inf + 0
12.366 * * [simplify]: Extracting #1: cost 2 inf + 0
12.366 * * [simplify]: Extracting #2: cost 5 inf + 0
12.366 * * [simplify]: Extracting #3: cost 6 inf + 2
12.366 * * [simplify]: Extracting #4: cost 2 inf + 392
12.366 * * [simplify]: Extracting #5: cost 0 inf + 474
12.366 * [simplify]: Simplified to (real->posit16 (hypot x.re x.im))
12.367 * [simplify]: Simplified (2 1 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (posit16->real (real->posit16 (hypot x.re x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.367 * * * * [progress]: [ 39 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (log1p (expm1 (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))))>
12.367 * [simplify]: Simplifying (expm1 (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))
12.367 * * [simplify]: iters left: 6 (15 enodes)
12.370 * * [simplify]: iters left: 5 (52 enodes)
12.378 * * [simplify]: iters left: 4 (57 enodes)
12.392 * * [simplify]: Extracting #0: cost 1 inf + 0
12.392 * * [simplify]: Extracting #1: cost 3 inf + 0
12.392 * * [simplify]: Extracting #2: cost 5 inf + 0
12.392 * * [simplify]: Extracting #3: cost 12 inf + 0
12.392 * * [simplify]: Extracting #4: cost 17 inf + 2
12.392 * * [simplify]: Extracting #5: cost 17 inf + 4
12.392 * * [simplify]: Extracting #6: cost 17 inf + 386
12.393 * * [simplify]: Extracting #7: cost 5 inf + 2786
12.394 * * [simplify]: Extracting #8: cost 0 inf + 4280
12.395 * [simplify]: Simplified to (expm1 (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))))
12.395 * [simplify]: Simplified (2 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (log1p (expm1 (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))))))
12.395 * * * * [progress]: [ 40 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (expm1 (log1p (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))))>
12.396 * [simplify]: Simplifying (log1p (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))
12.396 * * [simplify]: iters left: 6 (15 enodes)
12.402 * * [simplify]: iters left: 5 (52 enodes)
12.416 * * [simplify]: iters left: 4 (57 enodes)
12.430 * * [simplify]: Extracting #0: cost 1 inf + 0
12.430 * * [simplify]: Extracting #1: cost 3 inf + 0
12.430 * * [simplify]: Extracting #2: cost 5 inf + 0
12.430 * * [simplify]: Extracting #3: cost 12 inf + 0
12.431 * * [simplify]: Extracting #4: cost 17 inf + 2
12.431 * * [simplify]: Extracting #5: cost 17 inf + 4
12.431 * * [simplify]: Extracting #6: cost 17 inf + 386
12.432 * * [simplify]: Extracting #7: cost 5 inf + 2786
12.433 * * [simplify]: Extracting #8: cost 0 inf + 4320
12.434 * [simplify]: Simplified to (log1p (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))))
12.434 * [simplify]: Simplified (2 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (expm1 (log1p (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))))))
12.434 * * * * [progress]: [ 41 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (- (* (cos (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im)) (cos (* (atan2 x.im x.re) y.re))) (* (sin (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im)) (sin (* (atan2 x.im x.re) y.re))))))>
12.434 * [simplify]: Simplifying (* (cos (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im)) (cos (* (atan2 x.im x.re) y.re)))
12.434 * * [simplify]: iters left: 6 (15 enodes)
12.441 * * [simplify]: iters left: 5 (51 enodes)
12.453 * * [simplify]: iters left: 4 (53 enodes)
12.461 * * [simplify]: Extracting #0: cost 1 inf + 0
12.461 * * [simplify]: Extracting #1: cost 4 inf + 0
12.461 * * [simplify]: Extracting #2: cost 8 inf + 0
12.461 * * [simplify]: Extracting #3: cost 14 inf + 0
12.461 * * [simplify]: Extracting #4: cost 17 inf + 2
12.461 * * [simplify]: Extracting #5: cost 17 inf + 4
12.461 * * [simplify]: Extracting #6: cost 16 inf + 629
12.461 * * [simplify]: Extracting #7: cost 7 inf + 2083
12.462 * * [simplify]: Extracting #8: cost 0 inf + 3676
12.462 * [simplify]: Simplified to (* (cos (* y.im (log (hypot x.re x.im)))) (cos (* (atan2 x.im x.re) y.re)))
12.462 * [simplify]: Simplified (2 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (- (* (cos (* y.im (log (hypot x.re x.im)))) (cos (* (atan2 x.im x.re) y.re))) (* (sin (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im)) (sin (* (atan2 x.im x.re) y.re))))))
12.462 * [simplify]: Simplifying (* (sin (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im)) (sin (* (atan2 x.im x.re) y.re)))
12.462 * * [simplify]: iters left: 6 (15 enodes)
12.466 * * [simplify]: iters left: 5 (51 enodes)
12.473 * * [simplify]: iters left: 4 (53 enodes)
12.480 * * [simplify]: Extracting #0: cost 1 inf + 0
12.480 * * [simplify]: Extracting #1: cost 4 inf + 0
12.480 * * [simplify]: Extracting #2: cost 8 inf + 0
12.480 * * [simplify]: Extracting #3: cost 14 inf + 0
12.480 * * [simplify]: Extracting #4: cost 17 inf + 2
12.480 * * [simplify]: Extracting #5: cost 17 inf + 4
12.480 * * [simplify]: Extracting #6: cost 16 inf + 629
12.480 * * [simplify]: Extracting #7: cost 7 inf + 2083
12.481 * * [simplify]: Extracting #8: cost 0 inf + 3676
12.481 * [simplify]: Simplified to (* (sin (* y.im (log (hypot x.re x.im)))) (sin (* (atan2 x.im x.re) y.re)))
12.481 * [simplify]: Simplified (2 2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (- (* (cos (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im)) (cos (* (atan2 x.im x.re) y.re))) (* (sin (* y.im (log (hypot x.re x.im)))) (sin (* (atan2 x.im x.re) y.re))))))
12.481 * * * * [progress]: [ 42 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (pow (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))) 1)))>
12.481 * * * * [progress]: [ 43 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (exp (log (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))))>
12.482 * [simplify]: Simplifying (log (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))
12.482 * * [simplify]: iters left: 6 (15 enodes)
12.486 * * [simplify]: iters left: 5 (52 enodes)
12.500 * * [simplify]: iters left: 4 (57 enodes)
12.511 * * [simplify]: Extracting #0: cost 1 inf + 0
12.511 * * [simplify]: Extracting #1: cost 3 inf + 0
12.511 * * [simplify]: Extracting #2: cost 5 inf + 0
12.511 * * [simplify]: Extracting #3: cost 12 inf + 0
12.511 * * [simplify]: Extracting #4: cost 17 inf + 2
12.511 * * [simplify]: Extracting #5: cost 17 inf + 4
12.511 * * [simplify]: Extracting #6: cost 17 inf + 386
12.512 * * [simplify]: Extracting #7: cost 5 inf + 2786
12.512 * * [simplify]: Extracting #8: cost 0 inf + 4280
12.513 * [simplify]: Simplified to (log (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))))
12.513 * [simplify]: Simplified (2 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (exp (log (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))))))
12.513 * * * * [progress]: [ 44 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (log (exp (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))))>
12.513 * [simplify]: Simplifying (exp (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))
12.513 * * [simplify]: iters left: 6 (15 enodes)
12.516 * * [simplify]: iters left: 5 (52 enodes)
12.523 * * [simplify]: iters left: 4 (57 enodes)
12.530 * * [simplify]: Extracting #0: cost 1 inf + 0
12.530 * * [simplify]: Extracting #1: cost 3 inf + 0
12.530 * * [simplify]: Extracting #2: cost 5 inf + 0
12.530 * * [simplify]: Extracting #3: cost 12 inf + 0
12.530 * * [simplify]: Extracting #4: cost 17 inf + 2
12.530 * * [simplify]: Extracting #5: cost 17 inf + 4
12.530 * * [simplify]: Extracting #6: cost 17 inf + 386
12.531 * * [simplify]: Extracting #7: cost 5 inf + 2786
12.531 * * [simplify]: Extracting #8: cost 0 inf + 4280
12.532 * [simplify]: Simplified to (exp (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))))
12.532 * [simplify]: Simplified (2 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (log (exp (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))))))
12.532 * * * * [progress]: [ 45 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (* (* (cbrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))) (cbrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))) (cbrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))))>
12.532 * [simplify]: Simplifying (* (cbrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))) (cbrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.532 * * [simplify]: iters left: 6 (16 enodes)
12.536 * * [simplify]: iters left: 5 (55 enodes)
12.550 * * [simplify]: iters left: 4 (60 enodes)
12.565 * * [simplify]: Extracting #0: cost 1 inf + 0
12.565 * * [simplify]: Extracting #1: cost 3 inf + 0
12.565 * * [simplify]: Extracting #2: cost 5 inf + 0
12.565 * * [simplify]: Extracting #3: cost 7 inf + 0
12.565 * * [simplify]: Extracting #4: cost 14 inf + 0
12.565 * * [simplify]: Extracting #5: cost 19 inf + 2
12.565 * * [simplify]: Extracting #6: cost 19 inf + 4
12.566 * * [simplify]: Extracting #7: cost 19 inf + 260
12.566 * * [simplify]: Extracting #8: cost 7 inf + 2786
12.567 * * [simplify]: Extracting #9: cost 0 inf + 5388
12.569 * [simplify]: Simplified to (* (cbrt (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))) (cbrt (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))))
12.569 * [simplify]: Simplified (2 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (* (* (cbrt (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))) (cbrt (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))))) (cbrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))))
12.569 * [simplify]: Simplifying (cbrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))
12.569 * * [simplify]: iters left: 6 (15 enodes)
12.572 * * [simplify]: iters left: 5 (52 enodes)
12.579 * * [simplify]: iters left: 4 (57 enodes)
12.586 * * [simplify]: Extracting #0: cost 1 inf + 0
12.586 * * [simplify]: Extracting #1: cost 3 inf + 0
12.586 * * [simplify]: Extracting #2: cost 5 inf + 0
12.586 * * [simplify]: Extracting #3: cost 12 inf + 0
12.586 * * [simplify]: Extracting #4: cost 17 inf + 2
12.586 * * [simplify]: Extracting #5: cost 17 inf + 4
12.586 * * [simplify]: Extracting #6: cost 17 inf + 386
12.587 * * [simplify]: Extracting #7: cost 5 inf + 2786
12.587 * * [simplify]: Extracting #8: cost 0 inf + 4300
12.588 * [simplify]: Simplified to (cbrt (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))))
12.588 * [simplify]: Simplified (2 2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (* (* (cbrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))) (cbrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))) (cbrt (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))))))
12.588 * * * * [progress]: [ 46 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cbrt (* (* (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))))>
12.588 * [simplify]: Simplifying (* (* (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))
12.588 * * [simplify]: iters left: 6 (16 enodes)
12.592 * * [simplify]: iters left: 5 (56 enodes)
12.603 * * [simplify]: iters left: 4 (63 enodes)
12.620 * * [simplify]: iters left: 3 (70 enodes)
12.638 * * [simplify]: iters left: 2 (84 enodes)
12.651 * * [simplify]: iters left: 1 (110 enodes)
12.670 * * [simplify]: Extracting #0: cost 1 inf + 0
12.670 * * [simplify]: Extracting #1: cost 9 inf + 0
12.670 * * [simplify]: Extracting #2: cost 18 inf + 1
12.671 * * [simplify]: Extracting #3: cost 26 inf + 3
12.671 * * [simplify]: Extracting #4: cost 31 inf + 6
12.671 * * [simplify]: Extracting #5: cost 28 inf + 208
12.672 * * [simplify]: Extracting #6: cost 22 inf + 1983
12.674 * * [simplify]: Extracting #7: cost 9 inf + 8611
12.676 * * [simplify]: Extracting #8: cost 0 inf + 13222
12.679 * [simplify]: Simplified to (* (* (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))) (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))) (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))))
12.679 * [simplify]: Simplified (2 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cbrt (* (* (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))) (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))) (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))))))
12.680 * * * * [progress]: [ 47 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (* (sqrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))) (sqrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))))>
12.680 * [simplify]: Simplifying (sqrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))
12.680 * * [simplify]: iters left: 6 (15 enodes)
12.687 * * [simplify]: iters left: 5 (52 enodes)
12.701 * * [simplify]: iters left: 4 (57 enodes)
12.715 * * [simplify]: Extracting #0: cost 1 inf + 0
12.715 * * [simplify]: Extracting #1: cost 3 inf + 0
12.715 * * [simplify]: Extracting #2: cost 5 inf + 0
12.715 * * [simplify]: Extracting #3: cost 12 inf + 0
12.715 * * [simplify]: Extracting #4: cost 17 inf + 2
12.715 * * [simplify]: Extracting #5: cost 17 inf + 4
12.715 * * [simplify]: Extracting #6: cost 17 inf + 386
12.716 * * [simplify]: Extracting #7: cost 5 inf + 2786
12.717 * * [simplify]: Extracting #8: cost 0 inf + 4220
12.718 * [simplify]: Simplified to (sqrt (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))))
12.718 * [simplify]: Simplified (2 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (* (sqrt (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))) (sqrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))))
12.718 * [simplify]: Simplifying (sqrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))
12.719 * * [simplify]: iters left: 6 (15 enodes)
12.725 * * [simplify]: iters left: 5 (52 enodes)
12.739 * * [simplify]: iters left: 4 (57 enodes)
12.753 * * [simplify]: Extracting #0: cost 1 inf + 0
12.753 * * [simplify]: Extracting #1: cost 3 inf + 0
12.753 * * [simplify]: Extracting #2: cost 5 inf + 0
12.753 * * [simplify]: Extracting #3: cost 12 inf + 0
12.753 * * [simplify]: Extracting #4: cost 17 inf + 2
12.753 * * [simplify]: Extracting #5: cost 17 inf + 4
12.754 * * [simplify]: Extracting #6: cost 17 inf + 386
12.754 * * [simplify]: Extracting #7: cost 5 inf + 2786
12.755 * * [simplify]: Extracting #8: cost 0 inf + 4220
12.756 * [simplify]: Simplified to (sqrt (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))))
12.756 * [simplify]: Simplified (2 2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (* (sqrt (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))) (sqrt (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))))))
12.757 * * * * [progress]: [ 48 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (* 1 (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))))>
12.757 * * * * [progress]: [ 49 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (posit16->real (real->posit16 (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))))>
12.757 * [simplify]: Simplifying (real->posit16 (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re))))
12.757 * * [simplify]: iters left: 6 (15 enodes)
12.763 * * [simplify]: iters left: 5 (49 enodes)
12.776 * * [simplify]: iters left: 4 (54 enodes)
12.789 * * [simplify]: Extracting #0: cost 1 inf + 0
12.789 * * [simplify]: Extracting #1: cost 2 inf + 0
12.789 * * [simplify]: Extracting #2: cost 3 inf + 0
12.789 * * [simplify]: Extracting #3: cost 10 inf + 0
12.790 * * [simplify]: Extracting #4: cost 15 inf + 2
12.790 * * [simplify]: Extracting #5: cost 15 inf + 4
12.790 * * [simplify]: Extracting #6: cost 15 inf + 386
12.790 * * [simplify]: Extracting #7: cost 5 inf + 2592
12.791 * * [simplify]: Extracting #8: cost 0 inf + 3292
12.792 * [simplify]: Simplified to (real->posit16 (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im))))))
12.792 * [simplify]: Simplified (2 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (posit16->real (real->posit16 (cos (fma (atan2 x.im x.re) y.re (* y.im (log (hypot x.re x.im)))))))))
12.792 * * * * [progress]: [ 50 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (log1p (expm1 (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.793 * [simplify]: Simplifying (expm1 (* (atan2 x.im x.re) y.im))
12.793 * * [simplify]: iters left: 4 (6 enodes)
12.795 * * [simplify]: iters left: 3 (19 enodes)
12.800 * * [simplify]: Extracting #0: cost 1 inf + 0
12.800 * * [simplify]: Extracting #1: cost 3 inf + 0
12.800 * * [simplify]: Extracting #2: cost 6 inf + 0
12.800 * * [simplify]: Extracting #3: cost 8 inf + 1
12.800 * * [simplify]: Extracting #4: cost 6 inf + 3
12.800 * * [simplify]: Extracting #5: cost 0 inf + 1159
12.801 * [simplify]: Simplified to (expm1 (* (atan2 x.im x.re) y.im))
12.801 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (log1p (expm1 (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.801 * * * * [progress]: [ 51 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (expm1 (log1p (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.801 * [simplify]: Simplifying (log1p (* (atan2 x.im x.re) y.im))
12.801 * * [simplify]: iters left: 4 (6 enodes)
12.804 * * [simplify]: iters left: 3 (19 enodes)
12.810 * * [simplify]: Extracting #0: cost 1 inf + 0
12.811 * * [simplify]: Extracting #1: cost 3 inf + 0
12.811 * * [simplify]: Extracting #2: cost 6 inf + 0
12.811 * * [simplify]: Extracting #3: cost 8 inf + 1
12.811 * * [simplify]: Extracting #4: cost 6 inf + 3
12.811 * * [simplify]: Extracting #5: cost 0 inf + 1199
12.811 * [simplify]: Simplified to (log1p (* (atan2 x.im x.re) y.im))
12.811 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (expm1 (log1p (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.811 * * * * [progress]: [ 52 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (pow (* (atan2 x.im x.re) y.im) 1))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.812 * [simplify]: Simplifying (* (atan2 x.im x.re) y.im)
12.812 * * [simplify]: iters left: 3 (5 enodes)
12.814 * * [simplify]: iters left: 2 (16 enodes)
12.818 * * [simplify]: Extracting #0: cost 1 inf + 0
12.818 * * [simplify]: Extracting #1: cost 4 inf + 0
12.818 * * [simplify]: Extracting #2: cost 6 inf + 1
12.818 * * [simplify]: Extracting #3: cost 4 inf + 3
12.818 * * [simplify]: Extracting #4: cost 0 inf + 653
12.818 * [simplify]: Simplified to (* (atan2 x.im x.re) y.im)
12.819 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (pow (* (atan2 x.im x.re) y.im) 1))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.819 * * * * [progress]: [ 53 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (pow (* (atan2 x.im x.re) y.im) 1))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.819 * * * * [progress]: [ 54 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (exp (+ (log (atan2 x.im x.re)) (log y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.819 * [simplify]: Simplifying (+ (log (atan2 x.im x.re)) (log y.im))
12.819 * * [simplify]: iters left: 4 (7 enodes)
12.822 * * [simplify]: iters left: 3 (22 enodes)
12.828 * * [simplify]: Extracting #0: cost 1 inf + 0
12.828 * * [simplify]: Extracting #1: cost 4 inf + 0
12.828 * * [simplify]: Extracting #2: cost 8 inf + 0
12.828 * * [simplify]: Extracting #3: cost 8 inf + 143
12.828 * * [simplify]: Extracting #4: cost 6 inf + 145
12.828 * * [simplify]: Extracting #5: cost 1 inf + 1176
12.829 * * [simplify]: Extracting #6: cost 0 inf + 1499
12.829 * [simplify]: Simplified to (+ (log (atan2 x.im x.re)) (log y.im))
12.829 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (exp (+ (log (atan2 x.im x.re)) (log y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.829 * * * * [progress]: [ 55 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (exp (log (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.830 * [simplify]: Simplifying (log (* (atan2 x.im x.re) y.im))
12.830 * * [simplify]: iters left: 4 (6 enodes)
12.832 * * [simplify]: iters left: 3 (22 enodes)
12.838 * * [simplify]: iters left: 2 (27 enodes)
12.844 * * [simplify]: Extracting #0: cost 1 inf + 0
12.844 * * [simplify]: Extracting #1: cost 5 inf + 0
12.844 * * [simplify]: Extracting #2: cost 10 inf + 0
12.845 * * [simplify]: Extracting #3: cost 10 inf + 143
12.845 * * [simplify]: Extracting #4: cost 8 inf + 145
12.845 * * [simplify]: Extracting #5: cost 1 inf + 1472
12.845 * * [simplify]: Extracting #6: cost 0 inf + 1725
12.846 * [simplify]: Simplified to (log (* (atan2 x.im x.re) y.im))
12.846 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (exp (log (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.846 * * * * [progress]: [ 56 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (log (exp (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.846 * [simplify]: Simplifying (exp (* (atan2 x.im x.re) y.im))
12.846 * * [simplify]: iters left: 4 (6 enodes)
12.849 * * [simplify]: iters left: 3 (21 enodes)
12.853 * * [simplify]: iters left: 2 (29 enodes)
12.857 * * [simplify]: iters left: 1 (42 enodes)
12.863 * * [simplify]: Extracting #0: cost 1 inf + 0
12.864 * * [simplify]: Extracting #1: cost 14 inf + 0
12.864 * * [simplify]: Extracting #2: cost 29 inf + 72
12.864 * * [simplify]: Extracting #3: cost 26 inf + 312
12.864 * * [simplify]: Extracting #4: cost 11 inf + 2978
12.865 * * [simplify]: Extracting #5: cost 2 inf + 6232
12.865 * * [simplify]: Extracting #6: cost 0 inf + 7451
12.866 * [simplify]: Simplified to (exp (* (atan2 x.im x.re) y.im))
12.866 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (log (exp (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
12.866 * * * * [progress]: [ 57 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (cbrt (* (* (* (atan2 x.im x.re) (atan2 x.im x.re)) (atan2 x.im x.re)) (* (* y.im y.im) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
12.866 * [simplify]: Simplifying (* (* (* (atan2 x.im x.re) (atan2 x.im x.re)) (atan2 x.im x.re)) (* (* y.im y.im) y.im))
12.866 * * [simplify]: iters left: 6 (9 enodes)
12.868 * * [simplify]: iters left: 5 (34 enodes)
12.873 * * [simplify]: iters left: 4 (63 enodes)
12.890 * * [simplify]: iters left: 3 (121 enodes)
12.941 * * [simplify]: iters left: 2 (194 enodes)
13.034 * * [simplify]: iters left: 1 (376 enodes)
13.171 * * [simplify]: Extracting #0: cost 1 inf + 0
13.172 * * [simplify]: Extracting #1: cost 72 inf + 0
13.172 * * [simplify]: Extracting #2: cost 179 inf + 124
13.174 * * [simplify]: Extracting #3: cost 154 inf + 6887
13.178 * * [simplify]: Extracting #4: cost 50 inf + 64426
13.186 * * [simplify]: Extracting #5: cost 0 inf + 93425
13.194 * * [simplify]: Extracting #6: cost 0 inf + 93305
13.203 * [simplify]: Simplified to (* (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)) (* (atan2 x.im x.re) y.im))
13.203 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (cbrt (* (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)) (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.203 * * * * [progress]: [ 58 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (cbrt (* (atan2 x.im x.re) y.im)) (cbrt (* (atan2 x.im x.re) y.im))) (cbrt (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.204 * [simplify]: Simplifying (* (cbrt (* (atan2 x.im x.re) y.im)) (cbrt (* (atan2 x.im x.re) y.im)))
13.204 * * [simplify]: iters left: 6 (7 enodes)
13.205 * * [simplify]: iters left: 5 (22 enodes)
13.208 * * [simplify]: Extracting #0: cost 1 inf + 0
13.208 * * [simplify]: Extracting #1: cost 3 inf + 0
13.208 * * [simplify]: Extracting #2: cost 5 inf + 0
13.208 * * [simplify]: Extracting #3: cost 8 inf + 0
13.208 * * [simplify]: Extracting #4: cost 10 inf + 1
13.208 * * [simplify]: Extracting #5: cost 8 inf + 3
13.208 * * [simplify]: Extracting #6: cost 1 inf + 1482
13.208 * * [simplify]: Extracting #7: cost 0 inf + 1785
13.209 * [simplify]: Simplified to (* (cbrt (* (atan2 x.im x.re) y.im)) (cbrt (* (atan2 x.im x.re) y.im)))
13.209 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (cbrt (* (atan2 x.im x.re) y.im)) (cbrt (* (atan2 x.im x.re) y.im))) (cbrt (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.209 * [simplify]: Simplifying (cbrt (* (atan2 x.im x.re) y.im))
13.209 * * [simplify]: iters left: 4 (6 enodes)
13.210 * * [simplify]: iters left: 3 (19 enodes)
13.212 * * [simplify]: Extracting #0: cost 1 inf + 0
13.212 * * [simplify]: Extracting #1: cost 3 inf + 0
13.212 * * [simplify]: Extracting #2: cost 6 inf + 0
13.212 * * [simplify]: Extracting #3: cost 8 inf + 1
13.213 * * [simplify]: Extracting #4: cost 6 inf + 3
13.213 * * [simplify]: Extracting #5: cost 0 inf + 1179
13.213 * [simplify]: Simplified to (cbrt (* (atan2 x.im x.re) y.im))
13.213 * [simplify]: Simplified (2 1 1 2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (cbrt (* (atan2 x.im x.re) y.im)) (cbrt (* (atan2 x.im x.re) y.im))) (cbrt (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.213 * * * * [progress]: [ 59 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (cbrt (* (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)) (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.213 * [simplify]: Simplifying (* (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)) (* (atan2 x.im x.re) y.im))
13.213 * * [simplify]: iters left: 6 (7 enodes)
13.215 * * [simplify]: iters left: 5 (32 enodes)
13.220 * * [simplify]: iters left: 4 (72 enodes)
13.239 * * [simplify]: iters left: 3 (126 enodes)
13.289 * * [simplify]: iters left: 2 (157 enodes)
13.328 * * [simplify]: iters left: 1 (230 enodes)
13.433 * * [simplify]: Extracting #0: cost 1 inf + 0
13.433 * * [simplify]: Extracting #1: cost 38 inf + 0
13.433 * * [simplify]: Extracting #2: cost 94 inf + 124
13.434 * * [simplify]: Extracting #3: cost 73 inf + 3832
13.436 * * [simplify]: Extracting #4: cost 9 inf + 31195
13.440 * * [simplify]: Extracting #5: cost 0 inf + 36376
13.443 * * [simplify]: Extracting #6: cost 0 inf + 36205
13.447 * [simplify]: Simplified to (* (* (atan2 x.im x.re) y.im) (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)))
13.447 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (cbrt (* (* (atan2 x.im x.re) y.im) (* (* (atan2 x.im x.re) y.im) (* (atan2 x.im x.re) y.im)))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.447 * * * * [progress]: [ 60 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (sqrt (* (atan2 x.im x.re) y.im)) (sqrt (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.447 * [simplify]: Simplifying (sqrt (* (atan2 x.im x.re) y.im))
13.447 * * [simplify]: iters left: 4 (6 enodes)
13.449 * * [simplify]: iters left: 3 (19 enodes)
13.451 * * [simplify]: Extracting #0: cost 1 inf + 0
13.451 * * [simplify]: Extracting #1: cost 3 inf + 0
13.451 * * [simplify]: Extracting #2: cost 6 inf + 0
13.451 * * [simplify]: Extracting #3: cost 8 inf + 1
13.451 * * [simplify]: Extracting #4: cost 6 inf + 3
13.451 * * [simplify]: Extracting #5: cost 0 inf + 1099
13.451 * [simplify]: Simplified to (sqrt (* (atan2 x.im x.re) y.im))
13.451 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (sqrt (* (atan2 x.im x.re) y.im)) (sqrt (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.452 * [simplify]: Simplifying (sqrt (* (atan2 x.im x.re) y.im))
13.452 * * [simplify]: iters left: 4 (6 enodes)
13.453 * * [simplify]: iters left: 3 (19 enodes)
13.455 * * [simplify]: Extracting #0: cost 1 inf + 0
13.455 * * [simplify]: Extracting #1: cost 3 inf + 0
13.455 * * [simplify]: Extracting #2: cost 6 inf + 0
13.456 * * [simplify]: Extracting #3: cost 8 inf + 1
13.456 * * [simplify]: Extracting #4: cost 6 inf + 3
13.456 * * [simplify]: Extracting #5: cost 0 inf + 1099
13.456 * [simplify]: Simplified to (sqrt (* (atan2 x.im x.re) y.im))
13.456 * [simplify]: Simplified (2 1 1 2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (sqrt (* (atan2 x.im x.re) y.im)) (sqrt (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.456 * * * * [progress]: [ 61 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* 1 (* (atan2 x.im x.re) y.im)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.456 * * * * [progress]: [ 62 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (sqrt (atan2 x.im x.re)) (sqrt y.im)) (* (sqrt (atan2 x.im x.re)) (sqrt y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.456 * [simplify]: Simplifying (* (sqrt (atan2 x.im x.re)) (sqrt y.im))
13.456 * * [simplify]: iters left: 4 (7 enodes)
13.458 * * [simplify]: iters left: 3 (22 enodes)
13.460 * * [simplify]: Extracting #0: cost 1 inf + 0
13.460 * * [simplify]: Extracting #1: cost 4 inf + 0
13.460 * * [simplify]: Extracting #2: cost 8 inf + 0
13.460 * * [simplify]: Extracting #3: cost 8 inf + 83
13.461 * * [simplify]: Extracting #4: cost 6 inf + 85
13.461 * * [simplify]: Extracting #5: cost 1 inf + 996
13.461 * * [simplify]: Extracting #6: cost 0 inf + 1259
13.461 * [simplify]: Simplified to (* (sqrt (atan2 x.im x.re)) (sqrt y.im))
13.461 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (sqrt (atan2 x.im x.re)) (sqrt y.im)) (* (sqrt (atan2 x.im x.re)) (sqrt y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.461 * [simplify]: Simplifying (* (sqrt (atan2 x.im x.re)) (sqrt y.im))
13.461 * * [simplify]: iters left: 4 (7 enodes)
13.463 * * [simplify]: iters left: 3 (22 enodes)
13.465 * * [simplify]: Extracting #0: cost 1 inf + 0
13.465 * * [simplify]: Extracting #1: cost 4 inf + 0
13.466 * * [simplify]: Extracting #2: cost 8 inf + 0
13.466 * * [simplify]: Extracting #3: cost 8 inf + 83
13.466 * * [simplify]: Extracting #4: cost 6 inf + 85
13.466 * * [simplify]: Extracting #5: cost 1 inf + 996
13.466 * * [simplify]: Extracting #6: cost 0 inf + 1259
13.466 * [simplify]: Simplified to (* (sqrt (atan2 x.im x.re)) (sqrt y.im))
13.466 * [simplify]: Simplified (2 1 1 2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (sqrt (atan2 x.im x.re)) (sqrt y.im)) (* (sqrt (atan2 x.im x.re)) (sqrt y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.466 * * * * [progress]: [ 63 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (atan2 x.im x.re) (* (cbrt y.im) (cbrt y.im))) (cbrt y.im)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.467 * [simplify]: Simplifying (* (atan2 x.im x.re) (* (cbrt y.im) (cbrt y.im)))
13.467 * * [simplify]: iters left: 5 (7 enodes)
13.468 * * [simplify]: iters left: 4 (24 enodes)
13.471 * * [simplify]: iters left: 3 (28 enodes)
13.475 * * [simplify]: Extracting #0: cost 1 inf + 0
13.475 * * [simplify]: Extracting #1: cost 6 inf + 0
13.475 * * [simplify]: Extracting #2: cost 13 inf + 0
13.475 * * [simplify]: Extracting #3: cost 10 inf + 3
13.475 * * [simplify]: Extracting #4: cost 3 inf + 1096
13.476 * * [simplify]: Extracting #5: cost 1 inf + 1520
13.476 * * [simplify]: Extracting #6: cost 0 inf + 1823
13.476 * [simplify]: Simplified to (* (atan2 x.im x.re) (* (cbrt y.im) (cbrt y.im)))
13.476 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (atan2 x.im x.re) (* (cbrt y.im) (cbrt y.im))) (cbrt y.im)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.476 * * * * [progress]: [ 64 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (atan2 x.im x.re) (sqrt y.im)) (sqrt y.im)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.476 * [simplify]: Simplifying (* (atan2 x.im x.re) (sqrt y.im))
13.476 * * [simplify]: iters left: 3 (6 enodes)
13.478 * * [simplify]: iters left: 2 (19 enodes)
13.480 * * [simplify]: Extracting #0: cost 1 inf + 0
13.480 * * [simplify]: Extracting #1: cost 4 inf + 0
13.480 * * [simplify]: Extracting #2: cost 9 inf + 0
13.480 * * [simplify]: Extracting #3: cost 4 inf + 85
13.480 * * [simplify]: Extracting #4: cost 0 inf + 815
13.480 * [simplify]: Simplified to (* (sqrt y.im) (atan2 x.im x.re))
13.480 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (sqrt y.im) (atan2 x.im x.re)) (sqrt y.im)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.480 * * * * [progress]: [ 65 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (atan2 x.im x.re) 1) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.481 * [simplify]: Simplifying (* (atan2 x.im x.re) 1)
13.481 * * [simplify]: iters left: 3 (5 enodes)
13.482 * * [simplify]: iters left: 2 (16 enodes)
13.485 * * [simplify]: iters left: 1 (20 enodes)
13.488 * * [simplify]: Extracting #0: cost 1 inf + 0
13.488 * * [simplify]: Extracting #1: cost 5 inf + 0
13.488 * * [simplify]: Extracting #2: cost 2 inf + 3
13.488 * * [simplify]: Extracting #3: cost 1 inf + 145
13.488 * * [simplify]: Extracting #4: cost 0 inf + 287
13.488 * [simplify]: Simplified to (atan2 x.im x.re)
13.488 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.488 * * * * [progress]: [ 66 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (cbrt (atan2 x.im x.re)) (cbrt (atan2 x.im x.re))) (* (cbrt (atan2 x.im x.re)) y.im)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.488 * [simplify]: Simplifying (* (cbrt (atan2 x.im x.re)) y.im)
13.488 * * [simplify]: iters left: 4 (6 enodes)
13.490 * * [simplify]: iters left: 3 (19 enodes)
13.492 * * [simplify]: Extracting #0: cost 1 inf + 0
13.492 * * [simplify]: Extracting #1: cost 4 inf + 0
13.492 * * [simplify]: Extracting #2: cost 5 inf + 1
13.492 * * [simplify]: Extracting #3: cost 8 inf + 1
13.492 * * [simplify]: Extracting #4: cost 6 inf + 3
13.492 * * [simplify]: Extracting #5: cost 0 inf + 1257
13.492 * [simplify]: Simplified to (* (cbrt (atan2 x.im x.re)) y.im)
13.492 * [simplify]: Simplified (2 1 1 2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (* (cbrt (atan2 x.im x.re)) (cbrt (atan2 x.im x.re))) (* (cbrt (atan2 x.im x.re)) y.im)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.492 * * * * [progress]: [ 67 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (sqrt (atan2 x.im x.re)) (* (sqrt (atan2 x.im x.re)) y.im)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.493 * [simplify]: Simplifying (* (sqrt (atan2 x.im x.re)) y.im)
13.493 * * [simplify]: iters left: 4 (6 enodes)
13.496 * * [simplify]: iters left: 3 (19 enodes)
13.498 * * [simplify]: Extracting #0: cost 1 inf + 0
13.498 * * [simplify]: Extracting #1: cost 4 inf + 0
13.498 * * [simplify]: Extracting #2: cost 5 inf + 1
13.498 * * [simplify]: Extracting #3: cost 8 inf + 1
13.498 * * [simplify]: Extracting #4: cost 6 inf + 3
13.499 * * [simplify]: Extracting #5: cost 0 inf + 1097
13.499 * [simplify]: Simplified to (* (sqrt (atan2 x.im x.re)) y.im)
13.499 * [simplify]: Simplified (2 1 1 2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (sqrt (atan2 x.im x.re)) (* (sqrt (atan2 x.im x.re)) y.im)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.499 * * * * [progress]: [ 68 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* 1 (* (atan2 x.im x.re) y.im)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.499 * [simplify]: Simplifying (* (atan2 x.im x.re) y.im)
13.499 * * [simplify]: iters left: 3 (5 enodes)
13.500 * * [simplify]: iters left: 2 (16 enodes)
13.502 * * [simplify]: Extracting #0: cost 1 inf + 0
13.502 * * [simplify]: Extracting #1: cost 4 inf + 0
13.502 * * [simplify]: Extracting #2: cost 6 inf + 1
13.502 * * [simplify]: Extracting #3: cost 4 inf + 3
13.502 * * [simplify]: Extracting #4: cost 0 inf + 653
13.503 * [simplify]: Simplified to (* (atan2 x.im x.re) y.im)
13.503 * [simplify]: Simplified (2 1 1 2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* 1 (* (atan2 x.im x.re) y.im)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.503 * * * * [progress]: [ 69 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (posit16->real (real->posit16 (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.503 * [simplify]: Simplifying (real->posit16 (* (atan2 x.im x.re) y.im))
13.503 * * [simplify]: iters left: 4 (6 enodes)
13.504 * * [simplify]: iters left: 3 (16 enodes)
13.506 * * [simplify]: Extracting #0: cost 1 inf + 0
13.506 * * [simplify]: Extracting #1: cost 2 inf + 0
13.506 * * [simplify]: Extracting #2: cost 4 inf + 0
13.506 * * [simplify]: Extracting #3: cost 6 inf + 1
13.506 * * [simplify]: Extracting #4: cost 4 inf + 3
13.506 * * [simplify]: Extracting #5: cost 0 inf + 653
13.506 * [simplify]: Simplified to (real->posit16 (* (atan2 x.im x.re) y.im))
13.506 * [simplify]: Simplified (2 1 1 2 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (posit16->real (real->posit16 (* (atan2 x.im x.re) y.im))))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.507 * * * * [progress]: [ 70 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* y.im (atan2 x.im x.re)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.507 * * * * [progress]: [ 71 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log x.im) y.im) (* (atan2 x.im x.re) y.re)))))>
13.507 * [simplify]: Simplifying x.im
13.507 * * [simplify]: iters left: 0 (1 enodes)
13.507 * * [simplify]: Extracting #0: cost 1 inf + 0
13.507 * * [simplify]: Extracting #1: cost 0 inf + 1
13.507 * [simplify]: Simplified to x.im
13.507 * [simplify]: Simplified (2 2 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log x.im) y.im) (* (atan2 x.im x.re) y.re)))))
13.507 * * * * [progress]: [ 72 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log x.re) y.im) (* (atan2 x.im x.re) y.re)))))>
13.507 * [simplify]: Simplifying x.re
13.507 * * [simplify]: iters left: 0 (1 enodes)
13.508 * * [simplify]: Extracting #0: cost 1 inf + 0
13.508 * * [simplify]: Extracting #1: cost 0 inf + 1
13.508 * [simplify]: Simplified to x.re
13.508 * [simplify]: Simplified (2 2 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log x.re) y.im) (* (atan2 x.im x.re) y.re)))))
13.508 * * * * [progress]: [ 73 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (* -1 x.re)) y.im) (* (atan2 x.im x.re) y.re)))))>
13.508 * [simplify]: Simplifying (* -1 x.re)
13.508 * * [simplify]: iters left: 2 (3 enodes)
13.509 * * [simplify]: iters left: 1 (11 enodes)
13.511 * * [simplify]: Extracting #0: cost 1 inf + 0
13.511 * * [simplify]: Extracting #1: cost 4 inf + 0
13.511 * * [simplify]: Extracting #2: cost 0 inf + 84
13.511 * [simplify]: Simplified to (- x.re)
13.511 * [simplify]: Simplified (2 2 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (- x.re)) y.im) (* (atan2 x.im x.re) y.re)))))
13.511 * * * * [progress]: [ 74 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log x.im) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.511 * [simplify]: Simplifying x.im
13.511 * * [simplify]: iters left: 0 (1 enodes)
13.512 * * [simplify]: Extracting #0: cost 1 inf + 0
13.512 * * [simplify]: Extracting #1: cost 0 inf + 1
13.512 * [simplify]: Simplified to x.im
13.512 * [simplify]: Simplified (2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log x.im) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.512 * * * * [progress]: [ 75 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log x.re) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.512 * [simplify]: Simplifying x.re
13.512 * * [simplify]: iters left: 0 (1 enodes)
13.512 * * [simplify]: Extracting #0: cost 1 inf + 0
13.512 * * [simplify]: Extracting #1: cost 0 inf + 1
13.512 * [simplify]: Simplified to x.re
13.512 * [simplify]: Simplified (2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log x.re) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.512 * * * * [progress]: [ 76 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (* -1 x.re)) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.513 * [simplify]: Simplifying (* -1 x.re)
13.513 * * [simplify]: iters left: 2 (3 enodes)
13.514 * * [simplify]: iters left: 1 (11 enodes)
13.515 * * [simplify]: Extracting #0: cost 1 inf + 0
13.515 * * [simplify]: Extracting #1: cost 4 inf + 0
13.515 * * [simplify]: Extracting #2: cost 0 inf + 84
13.515 * [simplify]: Simplified to (- x.re)
13.515 * [simplify]: Simplified (2 1 1 1 1 1) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (- x.re)) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.516 * * * * [progress]: [ 77 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) 1))>
13.516 * [simplify]: Simplifying 1
13.516 * * [simplify]: iters left: 0 (1 enodes)
13.516 * * [simplify]: Extracting #0: cost 1 inf + 0
13.516 * * [simplify]: Extracting #1: cost 0 inf + 1
13.516 * [simplify]: Simplified to 1
13.516 * [simplify]: Simplified (2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) 1))
13.516 * * * * [progress]: [ 78 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ 1 x.re)))))))>
13.517 * [simplify]: Simplifying (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ 1 x.re)))))
13.517 * * [simplify]: iters left: 6 (12 enodes)
13.520 * * [simplify]: iters left: 5 (47 enodes)
13.527 * * [simplify]: iters left: 4 (65 enodes)
13.545 * * [simplify]: iters left: 3 (74 enodes)
13.565 * * [simplify]: iters left: 2 (90 enodes)
13.589 * * [simplify]: iters left: 1 (98 enodes)
13.610 * * [simplify]: Extracting #0: cost 1 inf + 0
13.610 * * [simplify]: Extracting #1: cost 3 inf + 0
13.610 * * [simplify]: Extracting #2: cost 17 inf + 0
13.610 * * [simplify]: Extracting #3: cost 24 inf + 3
13.610 * * [simplify]: Extracting #4: cost 23 inf + 46
13.610 * * [simplify]: Extracting #5: cost 8 inf + 1938
13.611 * * [simplify]: Extracting #6: cost 1 inf + 3373
13.612 * * [simplify]: Extracting #7: cost 0 inf + 3742
13.612 * [simplify]: Simplified to (cos (fma (atan2 x.im x.re) y.re (* (log x.re) y.im)))
13.612 * [simplify]: Simplified (2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (fma (atan2 x.im x.re) y.re (* (log x.re) y.im)))))
13.613 * * * * [progress]: [ 79 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ -1 x.re)))))))>
13.613 * [simplify]: Simplifying (cos (- (* (atan2 x.im x.re) y.re) (* y.im (log (/ -1 x.re)))))
13.613 * * [simplify]: iters left: 6 (12 enodes)
13.616 * * [simplify]: iters left: 5 (44 enodes)
13.622 * * [simplify]: iters left: 4 (60 enodes)
13.631 * * [simplify]: iters left: 3 (86 enodes)
13.653 * * [simplify]: iters left: 2 (138 enodes)
13.693 * * [simplify]: iters left: 1 (173 enodes)
13.752 * * [simplify]: Extracting #0: cost 1 inf + 0
13.752 * * [simplify]: Extracting #1: cost 3 inf + 0
13.752 * * [simplify]: Extracting #2: cost 25 inf + 0
13.752 * * [simplify]: Extracting #3: cost 44 inf + 43
13.753 * * [simplify]: Extracting #4: cost 38 inf + 462
13.754 * * [simplify]: Extracting #5: cost 21 inf + 2608
13.756 * * [simplify]: Extracting #6: cost 4 inf + 6794
13.759 * * [simplify]: Extracting #7: cost 0 inf + 7624
13.762 * [simplify]: Simplified to (cos (- (* (atan2 x.im x.re) y.re) (* (log (/ -1 x.re)) y.im)))
13.762 * [simplify]: Simplified (2 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (- (* (atan2 x.im x.re) y.re) (* (log (/ -1 x.re)) y.im)))))
13.762 * * * * [progress]: [ 80 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* y.im (atan2 x.im x.re)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.763 * [simplify]: Simplifying (* y.im (atan2 x.im x.re))
13.763 * * [simplify]: iters left: 3 (5 enodes)
13.765 * * [simplify]: iters left: 2 (16 enodes)
13.769 * * [simplify]: Extracting #0: cost 1 inf + 0
13.769 * * [simplify]: Extracting #1: cost 4 inf + 0
13.769 * * [simplify]: Extracting #2: cost 6 inf + 1
13.769 * * [simplify]: Extracting #3: cost 0 inf + 653
13.770 * [simplify]: Simplified to (* (atan2 x.im x.re) y.im)
13.770 * [simplify]: Simplified (2 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.770 * * * * [progress]: [ 81 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* y.im (atan2 x.im x.re)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.770 * [simplify]: Simplifying (* y.im (atan2 x.im x.re))
13.770 * * [simplify]: iters left: 3 (5 enodes)
13.772 * * [simplify]: iters left: 2 (16 enodes)
13.776 * * [simplify]: Extracting #0: cost 1 inf + 0
13.776 * * [simplify]: Extracting #1: cost 4 inf + 0
13.776 * * [simplify]: Extracting #2: cost 6 inf + 1
13.776 * * [simplify]: Extracting #3: cost 0 inf + 653
13.776 * [simplify]: Simplified to (* (atan2 x.im x.re) y.im)
13.776 * [simplify]: Simplified (2 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.776 * * * * [progress]: [ 82 / 82 ] simplifiying candidate #<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* y.im (atan2 x.im x.re)))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))>
13.776 * [simplify]: Simplifying (* y.im (atan2 x.im x.re))
13.777 * * [simplify]: iters left: 3 (5 enodes)
13.777 * * [simplify]: iters left: 2 (16 enodes)
13.779 * * [simplify]: Extracting #0: cost 1 inf + 0
13.779 * * [simplify]: Extracting #1: cost 4 inf + 0
13.779 * * [simplify]: Extracting #2: cost 6 inf + 1
13.779 * * [simplify]: Extracting #3: cost 0 inf + 653
13.780 * [simplify]: Simplified to (* (atan2 x.im x.re) y.im)
13.780 * [simplify]: Simplified (2 1 1 2) to (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
13.780 * * * [progress]: adding candidates to table
15.253 * [progress]: [Phase 3 of 3] Extracting.
15.253 * * [regime]: Finding splitpoints for: (#<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))> #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>)
15.256 * * * [regime-changes]: Trying 5 branch expressions: (y.im y.re x.im x.re (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))
15.257 * * * * [regimes]: Trying to branch on y.im from (#<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))> #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>)
15.327 * * * * [regimes]: Trying to branch on y.re from (#<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))> #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>)
15.392 * * * * [regimes]: Trying to branch on x.im from (#<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))> #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>)
15.455 * * * * [regimes]: Trying to branch on x.re from (#<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))> #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>)
15.520 * * * * [regimes]: Trying to branch on (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))) from (#<alt (λ (x.re x.im y.re y.im) (* (exp (- (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.re) (* (atan2 x.im x.re) y.im))) (cos (+ (* (log (sqrt (+ (* x.re x.re) (* x.im x.im)))) y.im) (* (atan2 x.im x.re) y.re)))))> #<alt (λ (x.re x.im y.re y.im) (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im)))))))>)
15.564 * * * [regime]: Found split indices: #<option (#s(si 1 255))>
15.565 * [simplify]: Simplifying (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im))))))
15.565 * * [simplify]: iters left: 6 (15 enodes)
15.566 * * [simplify]: iters left: 5 (18 enodes)
15.567 * * [simplify]: Extracting #0: cost 1 inf + 0
15.568 * * [simplify]: Extracting #1: cost 3 inf + 0
15.568 * * [simplify]: Extracting #2: cost 5 inf + 0
15.568 * * [simplify]: Extracting #3: cost 10 inf + 0
15.568 * * [simplify]: Extracting #4: cost 12 inf + 1
15.568 * * [simplify]: Extracting #5: cost 13 inf + 2
15.568 * * [simplify]: Extracting #6: cost 8 inf + 386
15.568 * * [simplify]: Extracting #7: cost 3 inf + 1652
15.569 * * [simplify]: Extracting #8: cost 1 inf + 2500
15.569 * * [simplify]: Extracting #9: cost 0 inf + 3154
15.569 * [simplify]: Simplified to (/ (cos (fma y.im (log (hypot x.re x.im)) (* (atan2 x.im x.re) y.re))) (exp (- (* (atan2 x.im x.re) y.im) (* y.re (log (hypot x.re x.im))))))
141.850 * [regime-testing]: Baseline error score: 0.054506549121036404
141.855 * [regime-testing]: Oracle error score: 0.05075608031243533
141.862 * [regime-testing]: End program error score: 0.054506549121036404