2.697 * [progress]: [Phase 1 of 3] Setting up. 0.001 * * * [progress]: [1/2] Preparing points 0.035 * * * [progress]: [2/2] Setting up program. 0.039 * [progress]: [Phase 2 of 3] Improving. 0.039 * [simplify]: Simplifying using # : (- (* (- (* x.re x.re) (* x.im x.im)) x.re) (* (+ (* x.re x.im) (* x.im x.re)) x.im)) 0.041 * * [simplify]: iteration 0 : 21 enodes (cost 9 ) 0.042 * * [simplify]: iteration 1 : 55 enodes (cost 9 ) 0.044 * * [simplify]: iteration 2 : 150 enodes (cost 9 ) 0.048 * * [simplify]: iteration 3 : 401 enodes (cost 6 ) 0.057 * * [simplify]: iteration 4 : 1088 enodes (cost 5 ) 0.077 * * [simplify]: iteration 5 : 2704 enodes (cost 5 ) 0.127 * * [simplify]: iteration 6 : 5001 enodes (cost 5 ) 0.127 * [simplify]: Simplified to: (- (pow x.re 3) (* 3 (* x.im (* x.re x.im)))) 0.132 * * [progress]: iteration 1 / 4 0.132 * * * [progress]: picking best candidate 0.142 * * * * [pick]: Picked # 0.143 * * * [progress]: localizing error 0.150 * * * [progress]: generating rewritten candidates 0.150 * * * * [progress]: [ 1 / 3 ] rewriting at (2 2) 0.157 * * * * [progress]: [ 2 / 3 ] rewriting at (2 2 2) 0.162 * * * * [progress]: [ 3 / 3 ] rewriting at (2) 0.171 * * * [progress]: generating series expansions 0.171 * * * * [progress]: [ 1 / 3 ] generating series at (2 2) 0.171 * [approximate]: Approximating (* 3 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.172 * [taylor]: Taking taylor expansion of (* 3 (* (pow x.im 2) x.re)) in x.re 0.174 * [taylor]: Taking taylor expansion of (* 3 (* (pow x.im 2) x.re)) in x.re 0.176 * [taylor]: Taking taylor expansion of (* 3 (* (pow x.im 2) x.re)) in x.re 0.180 * [taylor]: Taking taylor expansion of (* 3 (* (pow x.im 2) x.re)) in x.re 0.180 * [approximate]: Approximating (/ 3 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.181 * [taylor]: Taking taylor expansion of (/ 3 (* (pow x.im 2) x.re)) in x.re 0.183 * [taylor]: Taking taylor expansion of (/ 3 (* (pow x.im 2) x.re)) in x.re 0.185 * [taylor]: Taking taylor expansion of (/ 3 (* (pow x.im 2) x.re)) in x.re 0.187 * [taylor]: Taking taylor expansion of (/ 3 (* (pow x.im 2) x.re)) in x.re 0.189 * [approximate]: Approximating (/ -3 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.190 * [taylor]: Taking taylor expansion of (/ -3 (* (pow x.im 2) x.re)) in x.re 0.191 * [taylor]: Taking taylor expansion of (/ -3 (* (pow x.im 2) x.re)) in x.re 0.193 * [taylor]: Taking taylor expansion of (/ -3 (* (pow x.im 2) x.re)) in x.re 0.196 * [taylor]: Taking taylor expansion of (/ -3 (* (pow x.im 2) x.re)) in x.re 0.197 * * * * [progress]: [ 2 / 3 ] generating series at (2 2 2) 0.197 * [approximate]: Approximating (* (pow x.im 2) x.re) in (x.im x.re) around 0 0.197 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 0.198 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 0.200 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 0.201 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 0.202 * [approximate]: Approximating (/ 1 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.203 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 0.204 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 0.206 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 0.209 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 0.210 * [approximate]: Approximating (/ -1 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.211 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 0.212 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 0.214 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 0.217 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 0.218 * * * * [progress]: [ 3 / 3 ] generating series at (2) 0.218 * [approximate]: Approximating (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in (x.re x.im) around 0 0.219 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in x.im 0.220 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in x.im 0.228 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in x.im 0.232 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in x.im 0.237 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in x.im 0.240 * [approximate]: Approximating (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in (x.re x.im) around 0 0.244 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in x.im 0.245 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in x.im 0.248 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in x.im 0.253 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in x.im 0.260 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in x.im 0.263 * [approximate]: Approximating (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in (x.re x.im) around 0 0.267 * [taylor]: Taking taylor expansion of (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in x.im 0.270 * [taylor]: Taking taylor expansion of (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in x.im 0.272 * [taylor]: Taking taylor expansion of (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in x.im 0.277 * [taylor]: Taking taylor expansion of (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in x.im 0.284 * [taylor]: Taking taylor expansion of (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in x.im 0.286 * * * [progress]: simplifying candidates 0.287 * [simplify]: Simplifying using # : (* 3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))) (+ (log 3) (+ (log x.im) (+ (log x.re) (log x.im)))) (+ (log 3) (+ (log x.im) (log (* x.re x.im)))) (+ (log 3) (log (* x.im (* x.re x.im)))) (log (* 3 (* x.im (* x.re x.im)))) (exp (* 3 (* x.im (* x.re x.im)))) (* (* (* 3 3) 3) (* (* (* x.im x.im) x.im) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im)))) (* (* (* 3 3) 3) (* (* (* x.im x.im) x.im) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im)))) (* (* (* 3 3) 3) (* (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im)))) (* (cbrt (* 3 (* x.im (* x.re x.im)))) (cbrt (* 3 (* x.im (* x.re x.im))))) (cbrt (* 3 (* x.im (* x.re x.im)))) (* (* (* 3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im)))) (* 3 (* x.im (* x.re x.im)))) (sqrt (* 3 (* x.im (* x.re x.im)))) (sqrt (* 3 (* x.im (* x.re x.im)))) (* 3 x.im) (* (cbrt 3) (* x.im (* x.re x.im))) (* (sqrt 3) (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) (+ (log x.im) (+ (log x.re) (log x.im))) (+ (log x.im) (log (* x.re x.im))) (log (* x.im (* x.re x.im))) (exp (* x.im (* x.re x.im))) (* (* (* x.im x.im) x.im) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im))) (* (* (* x.im x.im) x.im) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im))) (* (cbrt (* x.im (* x.re x.im))) (cbrt (* x.im (* x.re x.im)))) (cbrt (* x.im (* x.re x.im))) (* (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im))) (sqrt (* x.im (* x.re x.im))) (sqrt (* x.im (* x.re x.im))) (* x.im x.re) (* (cbrt x.im) (* x.re x.im)) (* (sqrt x.im) (* x.re x.im)) (* x.im (* x.re x.im)) (/ (exp (pow x.re 3)) (exp (* 3 (* x.im (* x.re x.im))))) (log (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (exp (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (* (cbrt (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (cbrt (- (pow x.re 3) (* 3 (* x.im (* x.re x.im)))))) (cbrt (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (* (* (- (pow x.re 3) (* 3 (* x.im (* x.re x.im)))) (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (sqrt (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (sqrt (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (- (pow (pow x.re 3) 3) (pow (* 3 (* x.im (* x.re x.im))) 3)) (+ (* (pow x.re 3) (pow x.re 3)) (+ (* (* 3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im)))) (* (pow x.re 3) (* 3 (* x.im (* x.re x.im)))))) (neg (* 3 (* x.im (* x.re x.im)))) (- (* (pow x.re 3) (pow x.re 3)) (* (* 3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))))) (+ (pow x.re 3) (* 3 (* x.im (* x.re x.im)))) (neg (* 3 (* x.im (* x.re x.im)))) (* 3 (* (pow x.im 2) x.re)) (* 3 (* (pow x.im 2) x.re)) (* 3 (* (pow x.im 2) x.re)) (* (pow x.im 2) x.re) (* (pow x.im 2) x.re) (* (pow x.im 2) x.re) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) 0.291 * * [simplify]: iteration 0 : 209 enodes (cost 290 ) 0.296 * * [simplify]: iteration 1 : 846 enodes (cost 250 ) 0.320 * * [simplify]: iteration 2 : 5002 enodes (cost 250 ) 0.322 * [simplify]: Simplified to: (* 3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))) (log (* 3 (* x.im (* x.re x.im)))) (log (* 3 (* x.im (* x.re x.im)))) (log (* 3 (* x.im (* x.re x.im)))) (log (* 3 (* x.im (* x.re x.im)))) (exp (* 3 (* x.im (* x.re x.im)))) (pow (* 3 (* x.im (* x.re x.im))) 3) (pow (* 3 (* x.im (* x.re x.im))) 3) (pow (* 3 (* x.im (* x.re x.im))) 3) (* (cbrt (* 3 (* x.im (* x.re x.im)))) (cbrt (* 3 (* x.im (* x.re x.im))))) (cbrt (* 3 (* x.im (* x.re x.im)))) (pow (* 3 (* x.im (* x.re x.im))) 3) (sqrt (* 3 (* x.im (* x.re x.im)))) (sqrt (* 3 (* x.im (* x.re x.im)))) (* 3 x.im) (* (cbrt 3) (* x.im (* x.re x.im))) (* (sqrt 3) (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) (log (* x.im (* x.re x.im))) (log (* x.im (* x.re x.im))) (log (* x.im (* x.re x.im))) (exp (* x.im (* x.re x.im))) (pow (* x.im (* x.re x.im)) 3) (pow (* x.im (* x.re x.im)) 3) (* (cbrt (* x.im (* x.re x.im))) (cbrt (* x.im (* x.re x.im)))) (cbrt (* x.im (* x.re x.im))) (pow (* x.im (* x.re x.im)) 3) (sqrt (* x.im (* x.re x.im))) (sqrt (* x.im (* x.re x.im))) (* x.re x.im) (* (cbrt x.im) (* x.re x.im)) (* (sqrt x.im) (* x.re x.im)) (* x.im (* x.re x.im)) (exp (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (log (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (exp (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (* (cbrt (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (cbrt (- (pow x.re 3) (* 3 (* x.im (* x.re x.im)))))) (cbrt (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (pow (- (pow x.re 3) (* 3 (* x.im (* x.re x.im)))) 3) (sqrt (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (sqrt (- (pow x.re 3) (* 3 (* x.im (* x.re x.im))))) (- (pow (pow x.re 3) 3) (pow (* 3 (* x.im (* x.re x.im))) 3)) (+ (* (* 3 (* x.im (* x.re x.im))) (+ (* 3 (* x.im (* x.re x.im))) (pow x.re 3))) (pow x.re 6)) (* -3 (* x.im (* x.re x.im))) (+ (* -9 (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im)))) (pow x.re 6)) (+ (pow x.re 3) (* 3 (* x.im (* x.re x.im)))) (* -3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) 0.323 * * * [progress]: adding candidates to table 0.425 * * [progress]: iteration 2 / 4 0.425 * * * [progress]: picking best candidate 0.450 * * * * [pick]: Picked # 0.451 * * * [progress]: localizing error 0.458 * * * [progress]: generating rewritten candidates 0.458 * * * * [progress]: [ 1 / 2 ] rewriting at (2 2) 0.464 * * * * [progress]: [ 2 / 2 ] rewriting at (2) 0.472 * * * [progress]: generating series expansions 0.472 * * * * [progress]: [ 1 / 2 ] generating series at (2 2) 0.473 * [approximate]: Approximating (* 3 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.473 * [taylor]: Taking taylor expansion of (* 3 (* (pow x.im 2) x.re)) in x.re 0.478 * [taylor]: Taking taylor expansion of (* 3 (* (pow x.im 2) x.re)) in x.re 0.481 * [taylor]: Taking taylor expansion of (* 3 (* (pow x.im 2) x.re)) in x.re 0.484 * [taylor]: Taking taylor expansion of (* 3 (* (pow x.im 2) x.re)) in x.re 0.485 * [approximate]: Approximating (/ 3 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.486 * [taylor]: Taking taylor expansion of (/ 3 (* (pow x.im 2) x.re)) in x.re 0.487 * [taylor]: Taking taylor expansion of (/ 3 (* (pow x.im 2) x.re)) in x.re 0.489 * [taylor]: Taking taylor expansion of (/ 3 (* (pow x.im 2) x.re)) in x.re 0.492 * [taylor]: Taking taylor expansion of (/ 3 (* (pow x.im 2) x.re)) in x.re 0.493 * [approximate]: Approximating (/ -3 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.495 * [taylor]: Taking taylor expansion of (/ -3 (* (pow x.im 2) x.re)) in x.re 0.496 * [taylor]: Taking taylor expansion of (/ -3 (* (pow x.im 2) x.re)) in x.re 0.498 * [taylor]: Taking taylor expansion of (/ -3 (* (pow x.im 2) x.re)) in x.re 0.501 * [taylor]: Taking taylor expansion of (/ -3 (* (pow x.im 2) x.re)) in x.re 0.502 * * * * [progress]: [ 2 / 2 ] generating series at (2) 0.502 * [approximate]: Approximating (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in (x.re x.im) around 0 0.503 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in x.im 0.504 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in x.im 0.507 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in x.im 0.510 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in x.im 0.516 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) in x.im 0.518 * [approximate]: Approximating (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in (x.re x.im) around 0 0.522 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in x.im 0.524 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in x.im 0.526 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in x.im 0.532 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in x.im 0.539 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (* 3 (/ 1 (* (pow x.im 2) x.re)))) in x.im 0.541 * [approximate]: Approximating (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in (x.re x.im) around 0 0.546 * [taylor]: Taking taylor expansion of (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in x.im 0.548 * [taylor]: Taking taylor expansion of (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in x.im 0.550 * [taylor]: Taking taylor expansion of (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in x.im 0.561 * [taylor]: Taking taylor expansion of (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in x.im 0.567 * [taylor]: Taking taylor expansion of (- (* 3 (/ 1 (* (pow x.im 2) x.re))) (/ 1 (pow x.re 3))) in x.im 0.570 * * * [progress]: simplifying candidates 0.571 * [simplify]: Simplifying using # : (* (* 3 x.im) (* x.re x.im)) (* (* 3 x.im) (* x.re x.im)) (* (* 3 x.im) (* x.re x.im)) (* (* 3 x.im) (* x.re x.im)) (+ (+ (log 3) (log x.im)) (+ (log x.re) (log x.im))) (+ (+ (log 3) (log x.im)) (log (* x.re x.im))) (+ (log (* 3 x.im)) (+ (log x.re) (log x.im))) (+ (log (* 3 x.im)) (log (* x.re x.im))) (log (* (* 3 x.im) (* x.re x.im))) (exp (* (* 3 x.im) (* x.re x.im))) (* (* (* (* 3 3) 3) (* (* x.im x.im) x.im)) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im))) (* (* (* (* 3 3) 3) (* (* x.im x.im) x.im)) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im))) (* (* (* (* 3 x.im) (* 3 x.im)) (* 3 x.im)) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im))) (* (* (* (* 3 x.im) (* 3 x.im)) (* 3 x.im)) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im))) (* (cbrt (* (* 3 x.im) (* x.re x.im))) (cbrt (* (* 3 x.im) (* x.re x.im)))) (cbrt (* (* 3 x.im) (* x.re x.im))) (* (* (* (* 3 x.im) (* x.re x.im)) (* (* 3 x.im) (* x.re x.im))) (* (* 3 x.im) (* x.re x.im))) (sqrt (* (* 3 x.im) (* x.re x.im))) (sqrt (* (* 3 x.im) (* x.re x.im))) (* (* 3 x.im) x.re) (* x.im (* x.re x.im)) (/ (exp (pow x.re 3)) (exp (* (* 3 x.im) (* x.re x.im)))) (log (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (exp (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (* (cbrt (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (cbrt (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im))))) (cbrt (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (* (* (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im))) (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (sqrt (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (sqrt (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (- (pow (pow x.re 3) 3) (pow (* (* 3 x.im) (* x.re x.im)) 3)) (+ (* (pow x.re 3) (pow x.re 3)) (+ (* (* (* 3 x.im) (* x.re x.im)) (* (* 3 x.im) (* x.re x.im))) (* (pow x.re 3) (* (* 3 x.im) (* x.re x.im))))) (neg (* (* 3 x.im) (* x.re x.im))) (- (* (pow x.re 3) (pow x.re 3)) (* (* (* 3 x.im) (* x.re x.im)) (* (* 3 x.im) (* x.re x.im)))) (+ (pow x.re 3) (* (* 3 x.im) (* x.re x.im))) (neg (* (* 3 x.im) (* x.re x.im))) (* 3 (* (pow x.im 2) x.re)) (* 3 (* (pow x.im 2) x.re)) (* 3 (* (pow x.im 2) x.re)) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) 0.574 * * [simplify]: iteration 0 : 193 enodes (cost 231 ) 0.579 * * [simplify]: iteration 1 : 907 enodes (cost 198 ) 0.606 * * [simplify]: iteration 2 : 5001 enodes (cost 198 ) 0.607 * [simplify]: Simplified to: (* (* 3 x.im) (* x.re x.im)) (* (* 3 x.im) (* x.re x.im)) (* (* 3 x.im) (* x.re x.im)) (* (* 3 x.im) (* x.re x.im)) (log (* (* 3 x.im) (* x.re x.im))) (log (* (* 3 x.im) (* x.re x.im))) (log (* (* 3 x.im) (* x.re x.im))) (log (* (* 3 x.im) (* x.re x.im))) (log (* (* 3 x.im) (* x.re x.im))) (exp (* (* 3 x.im) (* x.re x.im))) (pow (* (* 3 x.im) (* x.re x.im)) 3) (pow (* (* 3 x.im) (* x.re x.im)) 3) (pow (* (* 3 x.im) (* x.re x.im)) 3) (pow (* (* 3 x.im) (* x.re x.im)) 3) (* (cbrt (* (* 3 x.im) (* x.re x.im))) (cbrt (* (* 3 x.im) (* x.re x.im)))) (cbrt (* (* 3 x.im) (* x.re x.im))) (pow (* (* 3 x.im) (* x.re x.im)) 3) (sqrt (* (* 3 x.im) (* x.re x.im))) (sqrt (* (* 3 x.im) (* x.re x.im))) (* (* 3 x.im) x.re) (* x.im (* x.re x.im)) (exp (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (log (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (exp (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (* (cbrt (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (cbrt (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im))))) (cbrt (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (pow (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im))) 3) (sqrt (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (sqrt (- (pow x.re 3) (* (* 3 x.im) (* x.re x.im)))) (- (pow (pow x.re 3) 3) (pow (* (* 3 x.im) (* x.re x.im)) 3)) (+ (* (* (* 3 x.im) (* x.re x.im)) (+ (* (* 3 x.im) (* x.re x.im)) (pow x.re 3))) (pow x.re 6)) (* -3 (* x.im (* x.re x.im))) (+ (pow x.re 6) (neg (* (* 9 (pow x.im 2)) (* (* x.re x.im) (* x.re x.im))))) (+ (pow x.re 3) (* (* 3 x.im) (* x.re x.im))) (* -3 (* x.im (* x.re x.im))) (* (* 3 x.im) (* x.re x.im)) (* (* 3 x.im) (* x.re x.im)) (* (* 3 x.im) (* x.re x.im)) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) 0.608 * * * [progress]: adding candidates to table 0.649 * * [progress]: iteration 3 / 4 0.649 * * * [progress]: picking best candidate 0.675 * * * * [pick]: Picked # 0.675 * * * [progress]: localizing error 0.686 * * * [progress]: generating rewritten candidates 0.686 * * * * [progress]: [ 1 / 4 ] rewriting at (2 2 2) 0.693 * * * * [progress]: [ 2 / 4 ] rewriting at (2 2) 0.707 * * * * [progress]: [ 3 / 4 ] rewriting at (2 2 2 2) 0.712 * * * * [progress]: [ 4 / 4 ] rewriting at (2) 0.729 * * * [progress]: generating series expansions 0.729 * * * * [progress]: [ 1 / 4 ] generating series at (2 2 2) 0.729 * [approximate]: Approximating (* (cbrt 3) (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.733 * [taylor]: Taking taylor expansion of (* (cbrt 3) (* (pow x.im 2) x.re)) in x.re 0.735 * [taylor]: Taking taylor expansion of (* (cbrt 3) (* (pow x.im 2) x.re)) in x.re 0.741 * [taylor]: Taking taylor expansion of (* (cbrt 3) (* (pow x.im 2) x.re)) in x.re 0.746 * [taylor]: Taking taylor expansion of (* (cbrt 3) (* (pow x.im 2) x.re)) in x.re 0.747 * [approximate]: Approximating (/ (cbrt 3) (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.756 * [taylor]: Taking taylor expansion of (/ (cbrt 3) (* (pow x.im 2) x.re)) in x.re 0.760 * [taylor]: Taking taylor expansion of (/ (cbrt 3) (* (pow x.im 2) x.re)) in x.re 0.763 * [taylor]: Taking taylor expansion of (/ (cbrt 3) (* (pow x.im 2) x.re)) in x.re 0.768 * [taylor]: Taking taylor expansion of (/ (cbrt 3) (* (pow x.im 2) x.re)) in x.re 0.770 * [approximate]: Approximating (* -1 (/ (cbrt 3) (* (pow x.im 2) x.re))) in (x.im x.re) around 0 0.776 * [taylor]: Taking taylor expansion of (* -1 (/ (cbrt 3) (* (pow x.im 2) x.re))) in x.re 0.781 * [taylor]: Taking taylor expansion of (* -1 (/ (cbrt 3) (* (pow x.im 2) x.re))) in x.re 0.786 * [taylor]: Taking taylor expansion of (* -1 (/ (cbrt 3) (* (pow x.im 2) x.re))) in x.re 0.793 * [taylor]: Taking taylor expansion of (* -1 (/ (cbrt 3) (* (pow x.im 2) x.re))) in x.re 0.796 * * * * [progress]: [ 2 / 4 ] generating series at (2 2) 0.798 * [approximate]: Approximating (* (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.804 * [taylor]: Taking taylor expansion of (* (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) in x.re 0.807 * [taylor]: Taking taylor expansion of (* (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) in x.re 0.813 * [taylor]: Taking taylor expansion of (* (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) in x.re 0.819 * [taylor]: Taking taylor expansion of (* (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) in x.re 0.820 * [approximate]: Approximating (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.841 * [taylor]: Taking taylor expansion of (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) in x.re 0.843 * [taylor]: Taking taylor expansion of (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) in x.re 0.848 * [taylor]: Taking taylor expansion of (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) in x.re 0.853 * [taylor]: Taking taylor expansion of (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) in x.re 0.855 * [approximate]: Approximating (* -1 (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in (x.im x.re) around 0 0.870 * [taylor]: Taking taylor expansion of (* -1 (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.re 0.873 * [taylor]: Taking taylor expansion of (* -1 (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.re 0.878 * [taylor]: Taking taylor expansion of (* -1 (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.re 0.884 * [taylor]: Taking taylor expansion of (* -1 (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.re 0.885 * * * * [progress]: [ 3 / 4 ] generating series at (2 2 2 2) 0.886 * [approximate]: Approximating (* (pow x.im 2) x.re) in (x.im x.re) around 0 0.886 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 0.887 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 0.888 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 0.890 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 0.890 * [approximate]: Approximating (/ 1 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.892 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 0.893 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 0.895 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 0.897 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 0.898 * [approximate]: Approximating (/ -1 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 0.900 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 0.901 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 0.903 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 0.906 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 0.907 * * * * [progress]: [ 4 / 4 ] generating series at (2) 0.909 * [approximate]: Approximating (- (pow x.re 3) (* (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in (x.re x.im) around 0 0.921 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.im 0.924 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.im 0.929 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.im 0.936 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.im 0.945 * [taylor]: Taking taylor expansion of (- (pow x.re 3) (* (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.im 0.948 * [approximate]: Approximating (- (/ 1 (pow x.re 3)) (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in (x.re x.im) around 0 0.965 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.im 0.967 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.im 0.970 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.im 0.976 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.im 0.985 * [taylor]: Taking taylor expansion of (- (/ 1 (pow x.re 3)) (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re))) in x.im 0.989 * [approximate]: Approximating (- (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) (/ 1 (pow x.re 3))) in (x.re x.im) around 0 1.012 * [taylor]: Taking taylor expansion of (- (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) (/ 1 (pow x.re 3))) in x.im 1.014 * [taylor]: Taking taylor expansion of (- (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) (/ 1 (pow x.re 3))) in x.im 1.016 * [taylor]: Taking taylor expansion of (- (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) (/ 1 (pow x.re 3))) in x.im 1.022 * [taylor]: Taking taylor expansion of (- (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) (/ 1 (pow x.re 3))) in x.im 1.031 * [taylor]: Taking taylor expansion of (- (/ (pow (cbrt 3) 3) (* (pow x.im 2) x.re)) (/ 1 (pow x.re 3))) in x.im 1.033 * * * [progress]: simplifying candidates 1.034 * [simplify]: Simplifying using # : (* (cbrt 3) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im))) (+ (log (cbrt 3)) (+ (log x.im) (+ (log x.re) (log x.im)))) (+ (log (cbrt 3)) (+ (log x.im) (log (* x.re x.im)))) (+ (log (cbrt 3)) (log (* x.im (* x.re x.im)))) (log (* (cbrt 3) (* x.im (* x.re x.im)))) (exp (* (cbrt 3) (* x.im (* x.re x.im)))) (* 3 (* (* (* x.im x.im) x.im) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im)))) (* 3 (* (* (* x.im x.im) x.im) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im)))) (* 3 (* (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im)))) (* (cbrt (* (cbrt 3) (* x.im (* x.re x.im)))) (cbrt (* (cbrt 3) (* x.im (* x.re x.im))))) (cbrt (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* (* (cbrt 3) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (cbrt 3) (* x.im (* x.re x.im)))) (sqrt (* (cbrt 3) (* x.im (* x.re x.im)))) (sqrt (* (cbrt 3) (* x.im (* x.re x.im)))) (* (cbrt 3) x.im) (* (cbrt (cbrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im))) (* (cbrt (cbrt 3)) (* x.im (* x.re x.im))) (* (sqrt (cbrt 3)) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (+ (+ (log (cbrt 3)) (log (cbrt 3))) (+ (log (cbrt 3)) (+ (log x.im) (+ (log x.re) (log x.im))))) (+ (+ (log (cbrt 3)) (log (cbrt 3))) (+ (log (cbrt 3)) (+ (log x.im) (log (* x.re x.im))))) (+ (+ (log (cbrt 3)) (log (cbrt 3))) (+ (log (cbrt 3)) (log (* x.im (* x.re x.im))))) (+ (+ (log (cbrt 3)) (log (cbrt 3))) (log (* (cbrt 3) (* x.im (* x.re x.im))))) (+ (log (* (cbrt 3) (cbrt 3))) (+ (log (cbrt 3)) (+ (log x.im) (+ (log x.re) (log x.im))))) (+ (log (* (cbrt 3) (cbrt 3))) (+ (log (cbrt 3)) (+ (log x.im) (log (* x.re x.im))))) (+ (log (* (cbrt 3) (cbrt 3))) (+ (log (cbrt 3)) (log (* x.im (* x.re x.im))))) (+ (log (* (cbrt 3) (cbrt 3))) (log (* (cbrt 3) (* x.im (* x.re x.im))))) (log (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (exp (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (* (* 3 3) (* 3 (* (* (* x.im x.im) x.im) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im))))) (* (* 3 3) (* 3 (* (* (* x.im x.im) x.im) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im))))) (* (* 3 3) (* 3 (* (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im))))) (* (* 3 3) (* (* (* (cbrt 3) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (cbrt 3) (* x.im (* x.re x.im))))) (* (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (cbrt 3))) (* (cbrt 3) (cbrt 3))) (* 3 (* (* (* x.im x.im) x.im) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im))))) (* (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (cbrt 3))) (* (cbrt 3) (cbrt 3))) (* 3 (* (* (* x.im x.im) x.im) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im))))) (* (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (cbrt 3))) (* (cbrt 3) (cbrt 3))) (* 3 (* (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im))))) (* (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (cbrt 3))) (* (cbrt 3) (cbrt 3))) (* (* (* (cbrt 3) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (cbrt 3) (* x.im (* x.re x.im))))) (* (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (* (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (sqrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (sqrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (cbrt 3)) (* (cbrt 3) (* (cbrt 3) (* x.im (* x.re x.im)))) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) (+ (log x.im) (+ (log x.re) (log x.im))) (+ (log x.im) (log (* x.re x.im))) (log (* x.im (* x.re x.im))) (exp (* x.im (* x.re x.im))) (* (* (* x.im x.im) x.im) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im))) (* (* (* x.im x.im) x.im) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im))) (* (cbrt (* x.im (* x.re x.im))) (cbrt (* x.im (* x.re x.im)))) (cbrt (* x.im (* x.re x.im))) (* (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im))) (sqrt (* x.im (* x.re x.im))) (sqrt (* x.im (* x.re x.im))) (* x.im x.re) (* (cbrt x.im) (* x.re x.im)) (* (sqrt x.im) (* x.re x.im)) (* x.im (* x.re x.im)) (/ (exp (pow x.re 3)) (exp (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (log (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (exp (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (* (cbrt (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (cbrt (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))))) (cbrt (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (* (* (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (sqrt (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (sqrt (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (- (pow (pow x.re 3) 3) (pow (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) 3)) (+ (* (pow x.re 3) (pow x.re 3)) (+ (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (* (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))))) (neg (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (- (* (pow x.re 3) (pow x.re 3)) (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (+ (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (neg (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (* (cbrt 3) (* (pow x.im 2) x.re)) (* (cbrt 3) (* (pow x.im 2) x.re)) (* (cbrt 3) (* (pow x.im 2) x.re)) (* 3 (* (pow x.im 2) x.re)) (* 3 (* (pow x.im 2) x.re)) (* 3 (* (pow x.im 2) x.re)) (* (pow x.im 2) x.re) (* (pow x.im 2) x.re) (* (pow x.im 2) x.re) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) 1.040 * * [simplify]: iteration 0 : 325 enodes (cost 790 ) 1.046 * * [simplify]: iteration 1 : 1393 enodes (cost 603 ) 1.081 * * [simplify]: iteration 2 : 5001 enodes (cost 544 ) 1.084 * [simplify]: Simplified to: (* (cbrt 3) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im))) (log (* (cbrt 3) (* x.im (* x.re x.im)))) (log (* (cbrt 3) (* x.im (* x.re x.im)))) (log (* (cbrt 3) (* x.im (* x.re x.im)))) (log (* (cbrt 3) (* x.im (* x.re x.im)))) (exp (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* 3 (pow x.im 6)) (pow x.re 3)) (* (* 3 (pow x.im 6)) (pow x.re 3)) (* (* 3 (pow x.im 6)) (pow x.re 3)) (* (cbrt (* (cbrt 3) (* x.im (* x.re x.im)))) (cbrt (* (cbrt 3) (* x.im (* x.re x.im))))) (cbrt (* (cbrt 3) (* x.im (* x.re x.im)))) (* (* 3 (pow x.im 6)) (pow x.re 3)) (sqrt (* (cbrt 3) (* x.im (* x.re x.im)))) (sqrt (* (cbrt 3) (* x.im (* x.re x.im)))) (* (cbrt 3) x.im) (* (cbrt (cbrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im))) (* (cbrt (cbrt 3)) (* x.im (* x.re x.im))) (* (sqrt (cbrt 3)) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im))) (* (* 3 x.re) (pow x.im 2)) (* (* 3 x.re) (pow x.im 2)) (* (* 3 x.re) (pow x.im 2)) (* (* 3 x.re) (pow x.im 2)) (* (* 3 x.re) (pow x.im 2)) (* (* 3 x.re) (pow x.im 2)) (* (* 3 x.re) (pow x.im 2)) (* (* 3 x.re) (pow x.im 2)) (+ (log (* x.im (* x.re x.im))) (* 3 (log (cbrt 3)))) (+ (log (* x.im (* x.re x.im))) (* 3 (log (cbrt 3)))) (+ (log (* x.im (* x.re x.im))) (* 3 (log (cbrt 3)))) (+ (log (* x.im (* x.re x.im))) (* 3 (log (cbrt 3)))) (+ (log (* x.im (* x.re x.im))) (* 3 (log (cbrt 3)))) (+ (log (* x.im (* x.re x.im))) (* 3 (log (cbrt 3)))) (+ (log (* x.im (* x.re x.im))) (* 3 (log (cbrt 3)))) (+ (log (* x.im (* x.re x.im))) (* 3 (log (cbrt 3)))) (+ (log (* x.im (* x.re x.im))) (* 3 (log (cbrt 3)))) (pow (exp (* (pow (cbrt 3) 3) (* x.re x.im))) x.im) (* (pow (* x.im (* x.re x.im)) 3) 27) (* (pow (* x.im (* x.re x.im)) 3) 27) (* (pow (* x.im (* x.re x.im)) 3) 27) (* (pow (* x.im (* x.re x.im)) 3) 27) (* (pow (* x.im (* x.re x.im)) 3) 27) (* (pow (* x.im (* x.re x.im)) 3) 27) (* (pow (* x.im (* x.re x.im)) 3) 27) (* (pow (* x.im (* x.re x.im)) 3) 27) (* (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (* (pow (* x.im (* x.re x.im)) 3) 27) (sqrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (sqrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) 3 (* (cbrt 3) (* (cbrt 3) (* x.im (* x.re x.im)))) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) (log (* x.im (* x.re x.im))) (log (* x.im (* x.re x.im))) (log (* x.im (* x.re x.im))) (exp (* x.im (* x.re x.im))) (pow (* x.im (* x.re x.im)) 3) (pow (* x.im (* x.re x.im)) 3) (* (cbrt (* x.im (* x.re x.im))) (cbrt (* x.im (* x.re x.im)))) (cbrt (* x.im (* x.re x.im))) (pow (* x.im (* x.re x.im)) 3) (sqrt (* x.im (* x.re x.im))) (sqrt (* x.im (* x.re x.im))) (* x.re x.im) (* (cbrt x.im) (* x.re x.im)) (* (sqrt x.im) (* x.re x.im)) (* x.im (* x.re x.im)) (* (pow (exp (neg (pow (cbrt 3) 3))) (* x.im (* x.re x.im))) (exp (pow x.re 3))) (log (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (* (pow (exp (neg (pow (cbrt 3) 3))) (* x.im (* x.re x.im))) (exp (pow x.re 3))) (* (cbrt (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (cbrt (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))))) (cbrt (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (pow (+ (* (neg (pow (cbrt 3) 3)) (* x.im (* x.re x.im))) (pow x.re 3)) 3) (sqrt (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (sqrt (- (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))))) (- (pow (pow x.re 3) 3) (pow (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) 3)) (+ (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (+ (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im)))) (pow x.re 3))) (pow x.re 6)) (* -3 (* (pow x.im 2) x.re)) (+ (* (* (neg (pow (cbrt 3) 3)) (* x.im (* x.re x.im))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (pow x.re 6)) (+ (pow x.re 3) (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (* x.im (* x.re x.im))))) (* -3 (* (pow x.im 2) x.re)) (* (cbrt 3) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im))) (* (cbrt 3) (* x.im (* x.re x.im))) (* (* 3 x.re) (pow x.im 2)) (* (* 3 x.re) (pow x.im 2)) (* (* 3 x.re) (pow x.im 2)) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) (- (pow x.re 3) (* 3 (* (pow x.im 2) x.re))) 1.085 * * * [progress]: adding candidates to table 1.488 * * [progress]: iteration 4 / 4 1.488 * * * [progress]: picking best candidate 1.503 * * * * [pick]: Picked # 1.503 * * * [progress]: localizing error 1.519 * * * [progress]: generating rewritten candidates 1.519 * * * * [progress]: [ 1 / 4 ] rewriting at (2 2 2 2) 1.528 * * * * [progress]: [ 2 / 4 ] rewriting at (2 2 2) 1.540 * * * * [progress]: [ 3 / 4 ] rewriting at (2 2) 1.558 * * * * [progress]: [ 4 / 4 ] rewriting at (2 2 2 2 2) 1.567 * * * [progress]: generating series expansions 1.567 * * * * [progress]: [ 1 / 4 ] generating series at (2 2 2 2) 1.568 * [approximate]: Approximating (* (pow (sqrt 3) 1/3) (* (pow x.im 2) x.re)) in (x.im x.re) around 0 1.583 * [taylor]: Taking taylor expansion of (* (pow (sqrt 3) 1/3) (* (pow x.im 2) x.re)) in x.re 1.593 * [taylor]: Taking taylor expansion of (* (pow (sqrt 3) 1/3) (* (pow x.im 2) x.re)) in x.re 1.610 * [taylor]: Taking taylor expansion of (* (pow (sqrt 3) 1/3) (* (pow x.im 2) x.re)) in x.re 1.625 * [taylor]: Taking taylor expansion of (* (pow (sqrt 3) 1/3) (* (pow x.im 2) x.re)) in x.re 1.627 * [approximate]: Approximating (* (pow (sqrt 3) 1/3) (/ 1 (* (pow x.im 2) x.re))) in (x.im x.re) around 0 1.643 * [taylor]: Taking taylor expansion of (* (pow (sqrt 3) 1/3) (/ 1 (* (pow x.im 2) x.re))) in x.re 1.654 * [taylor]: Taking taylor expansion of (* (pow (sqrt 3) 1/3) (/ 1 (* (pow x.im 2) x.re))) in x.re 1.665 * [taylor]: Taking taylor expansion of (* (pow (sqrt 3) 1/3) (/ 1 (* (pow x.im 2) x.re))) in x.re 1.685 * [taylor]: Taking taylor expansion of (* (pow (sqrt 3) 1/3) (/ 1 (* (pow x.im 2) x.re))) in x.re 1.695 * [approximate]: Approximating (* -1 (* (pow (sqrt 3) 1/3) (/ 1 (* (pow x.im 2) x.re)))) in (x.im x.re) around 0 1.711 * [taylor]: Taking taylor expansion of (* -1 (* (pow (sqrt 3) 1/3) (/ 1 (* (pow x.im 2) x.re)))) in x.re 1.726 * [taylor]: Taking taylor expansion of (* -1 (* (pow (sqrt 3) 1/3) (/ 1 (* (pow x.im 2) x.re)))) in x.re 1.740 * [taylor]: Taking taylor expansion of (* -1 (* (pow (sqrt 3) 1/3) (/ 1 (* (pow x.im 2) x.re)))) in x.re 1.762 * [taylor]: Taking taylor expansion of (* -1 (* (pow (sqrt 3) 1/3) (/ 1 (* (pow x.im 2) x.re)))) in x.re 1.772 * * * * [progress]: [ 2 / 4 ] generating series at (2 2 2) 1.774 * [approximate]: Approximating (* (pow (pow (sqrt 3) 2) 1/3) (* (pow x.im 2) x.re)) in (x.im x.re) around 0 1.799 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (* (pow x.im 2) x.re)) in x.re 1.813 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (* (pow x.im 2) x.re)) in x.re 1.830 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (* (pow x.im 2) x.re)) in x.re 1.851 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (* (pow x.im 2) x.re)) in x.re 1.854 * [approximate]: Approximating (* (pow (pow (sqrt 3) 2) 1/3) (/ 1 (* (pow x.im 2) x.re))) in (x.im x.re) around 0 1.879 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (/ 1 (* (pow x.im 2) x.re))) in x.re 1.896 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (/ 1 (* (pow x.im 2) x.re))) in x.re 1.910 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (/ 1 (* (pow x.im 2) x.re))) in x.re 1.932 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (/ 1 (* (pow x.im 2) x.re))) in x.re 1.944 * [approximate]: Approximating (* -1 (* (pow (pow (sqrt 3) 2) 1/3) (/ 1 (* (pow x.im 2) x.re)))) in (x.im x.re) around 0 1.972 * [taylor]: Taking taylor expansion of (* -1 (* (pow (pow (sqrt 3) 2) 1/3) (/ 1 (* (pow x.im 2) x.re)))) in x.re 1.997 * [taylor]: Taking taylor expansion of (* -1 (* (pow (pow (sqrt 3) 2) 1/3) (/ 1 (* (pow x.im 2) x.re)))) in x.re 2.013 * [taylor]: Taking taylor expansion of (* -1 (* (pow (pow (sqrt 3) 2) 1/3) (/ 1 (* (pow x.im 2) x.re)))) in x.re 2.035 * [taylor]: Taking taylor expansion of (* -1 (* (pow (pow (sqrt 3) 2) 1/3) (/ 1 (* (pow x.im 2) x.re)))) in x.re 2.048 * * * * [progress]: [ 3 / 4 ] generating series at (2 2) 2.051 * [approximate]: Approximating (* (pow (pow (sqrt 3) 2) 1/3) (* (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) in (x.im x.re) around 0 2.083 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (* (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) in x.re 2.101 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (* (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) in x.re 2.127 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (* (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) in x.re 2.155 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (* (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) in x.re 2.161 * [approximate]: Approximating (* (pow (pow (sqrt 3) 2) 1/3) (/ (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) in (x.im x.re) around 0 2.195 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (/ (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) in x.re 2.220 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (/ (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) in x.re 2.242 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (/ (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) in x.re 2.267 * [taylor]: Taking taylor expansion of (* (pow (pow (sqrt 3) 2) 1/3) (/ (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) in x.re 2.285 * [approximate]: Approximating (* -1 (* (pow (pow (sqrt 3) 2) 1/3) (/ (pow (cbrt 3) 2) (* (pow x.im 2) x.re)))) in (x.im x.re) around 0 2.325 * [taylor]: Taking taylor expansion of (* -1 (* (pow (pow (sqrt 3) 2) 1/3) (/ (pow (cbrt 3) 2) (* (pow x.im 2) x.re)))) in x.re 2.356 * [taylor]: Taking taylor expansion of (* -1 (* (pow (pow (sqrt 3) 2) 1/3) (/ (pow (cbrt 3) 2) (* (pow x.im 2) x.re)))) in x.re 2.381 * [taylor]: Taking taylor expansion of (* -1 (* (pow (pow (sqrt 3) 2) 1/3) (/ (pow (cbrt 3) 2) (* (pow x.im 2) x.re)))) in x.re 2.409 * [taylor]: Taking taylor expansion of (* -1 (* (pow (pow (sqrt 3) 2) 1/3) (/ (pow (cbrt 3) 2) (* (pow x.im 2) x.re)))) in x.re 2.426 * * * * [progress]: [ 4 / 4 ] generating series at (2 2 2 2 2) 2.426 * [approximate]: Approximating (* (pow x.im 2) x.re) in (x.im x.re) around 0 2.426 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 2.427 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 2.428 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 2.430 * [taylor]: Taking taylor expansion of (* (pow x.im 2) x.re) in x.re 2.430 * [approximate]: Approximating (/ 1 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 2.432 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 2.433 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 2.435 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 2.438 * [taylor]: Taking taylor expansion of (/ 1 (* (pow x.im 2) x.re)) in x.re 2.439 * [approximate]: Approximating (/ -1 (* (pow x.im 2) x.re)) in (x.im x.re) around 0 2.440 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 2.441 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 2.444 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 2.446 * [taylor]: Taking taylor expansion of (/ -1 (* (pow x.im 2) x.re)) in x.re 2.447 * * * [progress]: simplifying candidates 2.449 * [simplify]: Simplifying using # : (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (+ (log (cbrt (sqrt 3))) (+ (log x.im) (+ (log x.re) (log x.im)))) (+ (log (cbrt (sqrt 3))) (+ (log x.im) (log (* x.re x.im)))) (+ (log (cbrt (sqrt 3))) (log (* x.im (* x.re x.im)))) (log (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (exp (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (sqrt 3) (* (* (* x.im x.im) x.im) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im)))) (* (sqrt 3) (* (* (* x.im x.im) x.im) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im)))) (* (sqrt 3) (* (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im)))) (* (cbrt (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (cbrt (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (cbrt (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (* (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (sqrt (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (sqrt (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) x.im) (* (cbrt (cbrt (sqrt 3))) (* x.im (* x.re x.im))) (* (cbrt (sqrt (cbrt 3))) (* x.im (* x.re x.im))) (* (cbrt (sqrt (sqrt 3))) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt (sqrt 3))) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (cbrt (sqrt 3))) (* x.im (* x.re x.im))) (* (sqrt (cbrt (sqrt 3))) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (+ (log (cbrt (sqrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log x.im) (+ (log x.re) (log x.im))))) (+ (log (cbrt (sqrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log x.im) (log (* x.re x.im))))) (+ (log (cbrt (sqrt 3))) (+ (log (cbrt (sqrt 3))) (log (* x.im (* x.re x.im))))) (+ (log (cbrt (sqrt 3))) (log (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (log (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (exp (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (sqrt 3) (* (sqrt 3) (* (* (* x.im x.im) x.im) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im))))) (* (sqrt 3) (* (sqrt 3) (* (* (* x.im x.im) x.im) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im))))) (* (sqrt 3) (* (sqrt 3) (* (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im))))) (* (sqrt 3) (* (* (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (cbrt (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (cbrt (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (cbrt (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (* (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (sqrt (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (sqrt (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (cbrt (sqrt 3)) (cbrt (sqrt 3))) (* (cbrt (cbrt (sqrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt (cbrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt (sqrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt (sqrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (cbrt (sqrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (sqrt (cbrt (sqrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (+ (+ (log (cbrt 3)) (log (cbrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log x.im) (+ (log x.re) (log x.im)))))) (+ (+ (log (cbrt 3)) (log (cbrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log x.im) (log (* x.re x.im)))))) (+ (+ (log (cbrt 3)) (log (cbrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log (cbrt (sqrt 3))) (log (* x.im (* x.re x.im)))))) (+ (+ (log (cbrt 3)) (log (cbrt 3))) (+ (log (cbrt (sqrt 3))) (log (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (+ (+ (log (cbrt 3)) (log (cbrt 3))) (log (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (+ (log (* (cbrt 3) (cbrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log x.im) (+ (log x.re) (log x.im)))))) (+ (log (* (cbrt 3) (cbrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log x.im) (log (* x.re x.im)))))) (+ (log (* (cbrt 3) (cbrt 3))) (+ (log (cbrt (sqrt 3))) (+ (log (cbrt (sqrt 3))) (log (* x.im (* x.re x.im)))))) (+ (log (* (cbrt 3) (cbrt 3))) (+ (log (cbrt (sqrt 3))) (log (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (+ (log (* (cbrt 3) (cbrt 3))) (log (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (log (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (exp (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (* (* 3 3) (* (sqrt 3) (* (sqrt 3) (* (* (* x.im x.im) x.im) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im)))))) (* (* 3 3) (* (sqrt 3) (* (sqrt 3) (* (* (* x.im x.im) x.im) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im)))))) (* (* 3 3) (* (sqrt 3) (* (sqrt 3) (* (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im)))))) (* (* 3 3) (* (sqrt 3) (* (* (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (* (* 3 3) (* (* (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (* (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (cbrt 3))) (* (cbrt 3) (cbrt 3))) (* (sqrt 3) (* (sqrt 3) (* (* (* x.im x.im) x.im) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im)))))) (* (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (cbrt 3))) (* (cbrt 3) (cbrt 3))) (* (sqrt 3) (* (sqrt 3) (* (* (* x.im x.im) x.im) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im)))))) (* (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (cbrt 3))) (* (cbrt 3) (cbrt 3))) (* (sqrt 3) (* (sqrt 3) (* (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im)))))) (* (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (cbrt 3))) (* (cbrt 3) (cbrt 3))) (* (sqrt 3) (* (* (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (* (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt 3) (cbrt 3))) (* (cbrt 3) (cbrt 3))) (* (* (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (* (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))))) (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (* (* (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (sqrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (sqrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (* (* (cbrt 3) (cbrt 3)) (cbrt (sqrt 3))) (* (cbrt 3) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) (+ (log x.im) (+ (log x.re) (log x.im))) (+ (log x.im) (log (* x.re x.im))) (log (* x.im (* x.re x.im))) (exp (* x.im (* x.re x.im))) (* (* (* x.im x.im) x.im) (* (* (* x.re x.re) x.re) (* (* x.im x.im) x.im))) (* (* (* x.im x.im) x.im) (* (* (* x.re x.im) (* x.re x.im)) (* x.re x.im))) (* (cbrt (* x.im (* x.re x.im))) (cbrt (* x.im (* x.re x.im)))) (cbrt (* x.im (* x.re x.im))) (* (* (* x.im (* x.re x.im)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im))) (sqrt (* x.im (* x.re x.im))) (sqrt (* x.im (* x.re x.im))) (* x.im x.re) (* (cbrt x.im) (* x.re x.im)) (* (sqrt x.im) (* x.re x.im)) (* x.im (* x.re x.im)) (* (pow (sqrt 3) 1/3) (* (pow x.im 2) x.re)) (* (pow (sqrt 3) 1/3) (* (pow x.im 2) x.re)) (* (pow (sqrt 3) 1/3) (* (pow x.im 2) x.re)) (* (pow (pow (sqrt 3) 2) 1/3) (* (pow x.im 2) x.re)) (* (pow (pow (sqrt 3) 2) 1/3) (* (pow x.im 2) x.re)) (* (pow (pow (sqrt 3) 2) 1/3) (* (pow x.im 2) x.re)) (* (pow (pow (sqrt 3) 2) 1/3) (* (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) (* (pow (pow (sqrt 3) 2) 1/3) (* (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) (* (pow (pow (sqrt 3) 2) 1/3) (* (pow (cbrt 3) 2) (* (pow x.im 2) x.re))) (* (pow x.im 2) x.re) (* (pow x.im 2) x.re) (* (pow x.im 2) x.re) 2.456 * * [simplify]: iteration 0 : 384 enodes (cost 1188 ) 2.463 * * [simplify]: iteration 1 : 1818 enodes (cost 872 ) 2.503 * * [simplify]: iteration 2 : 5002 enodes (cost 783 ) 2.510 * [simplify]: Simplified to: (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (log (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (log (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (log (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (log (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (exp (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (sqrt 3) (pow (* x.im (* x.re x.im)) 3)) (* (sqrt 3) (pow (* x.im (* x.re x.im)) 3)) (* (sqrt 3) (pow (* x.im (* x.re x.im)) 3)) (* (cbrt (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (cbrt (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (cbrt (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (pow (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) 3) (sqrt (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (sqrt (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt 3)) x.im) (* (cbrt (cbrt (sqrt 3))) (* x.im (* x.re x.im))) (* (cbrt (sqrt (cbrt 3))) (* x.im (* x.re x.im))) (* (cbrt (sqrt (sqrt 3))) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt (sqrt 3))) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (cbrt (sqrt 3))) (* x.im (* x.re x.im))) (* (sqrt (cbrt (sqrt 3))) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (* (pow (sqrt 3) 2/3) (* x.re x.im)) x.im) (* (* (pow (sqrt 3) 2/3) (* x.re x.im)) x.im) (* (* (pow (sqrt 3) 2/3) (* x.re x.im)) x.im) (* (* (pow (sqrt 3) 2/3) (* x.re x.im)) x.im) (+ (log (* (pow (sqrt 3) 2/3) (* x.re x.im))) (log x.im)) (+ (log (* (pow (sqrt 3) 2/3) (* x.re x.im))) (log x.im)) (+ (log (* (pow (sqrt 3) 2/3) (* x.re x.im))) (log x.im)) (+ (log (* (pow (sqrt 3) 2/3) (* x.re x.im))) (log x.im)) (+ (log (* (pow (sqrt 3) 2/3) (* x.re x.im))) (log x.im)) (pow (exp (* (pow (sqrt 3) 2/3) (* x.re x.im))) x.im) (* (pow (* x.im (* x.re x.im)) 3) 3) (* (pow (* x.im (* x.re x.im)) 3) 3) (* (pow (* x.im (* x.re x.im)) 3) 3) (* (pow (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) 3) (sqrt 3)) (* (cbrt (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (cbrt (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (cbrt (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (pow (* (* (pow (sqrt 3) 2/3) (* x.re x.im)) x.im) 3) (sqrt (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (sqrt (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))) (pow (sqrt 3) 2/3) (* (cbrt (cbrt (sqrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt (cbrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (cbrt (sqrt (sqrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (* (pow (sqrt 3) 2/3) (* x.re x.im)) x.im) (* (cbrt (sqrt (sqrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (* (pow (sqrt 3) 2/3) (* x.re x.im)) x.im) (* (cbrt (cbrt (sqrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (sqrt (cbrt (sqrt 3))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))) (* (* (pow (sqrt 3) 2/3) (* x.re x.im)) x.im) (* (* (pow 3 2/3) (* (pow (sqrt 3) 2/3) (* x.re x.im))) x.im) (* (* (pow 3 2/3) (* (pow (sqrt 3) 2/3) (* x.re x.im))) x.im) (* (* (pow 3 2/3) (* (pow (sqrt 3) 2/3) (* x.re x.im))) x.im) (* (* (pow 3 2/3) (* (pow (sqrt 3) 2/3) (* x.re x.im))) x.im) (* (* (pow 3 2/3) (* (pow (sqrt 3) 2/3) (* x.re x.im))) x.im) (* (* (pow 3 2/3) (* (pow (sqrt 3) 2/3) (* x.re x.im))) x.im) (* (* (pow 3 2/3) (* (pow (sqrt 3) 2/3) (* x.re x.im))) x.im) (* (* (pow 3 2/3) (* (pow (sqrt 3) 2/3) (* x.re x.im))) x.im) (* (* (pow 3 2/3) (* (pow (sqrt 3) 2/3) (* x.re x.im))) x.im) (* (* (pow 3 2/3) (* (pow (sqrt 3) 2/3) (* x.re x.im))) x.im) (+ (log (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (log (* x.im (* x.re x.im)))) (+ (log (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (log (* x.im (* x.re x.im)))) (+ (log (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (log (* x.im (* x.re x.im)))) (+ (log (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (log (* x.im (* x.re x.im)))) (+ (log (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (log (* x.im (* x.re x.im)))) (+ (log (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (log (* x.im (* x.re x.im)))) (+ (log (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (log (* x.im (* x.re x.im)))) (+ (log (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (log (* x.im (* x.re x.im)))) (+ (log (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (log (* x.im (* x.re x.im)))) (+ (log (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (log (* x.im (* x.re x.im)))) (+ (log (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (log (* x.im (* x.re x.im)))) (pow (exp (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3))) (* x.im (* x.re x.im))) (* 27 (pow (* x.im (* x.re x.im)) 3)) (* 27 (pow (* x.im (* x.re x.im)) 3)) (* 27 (pow (* x.im (* x.re x.im)) 3)) (* (* 9 (pow (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) 3)) (sqrt 3)) (pow (* (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3)) (* x.im (* x.re x.im))) 3) (* 27 (pow (* x.im (* x.re x.im)) 3)) (* 27 (pow (* x.im (* x.re x.im)) 3)) (* 27 (pow (* x.im (* x.re x.im)) 3)) (* (* 9 (pow (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) 3)) (sqrt 3)) (pow (* (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3)) (* x.im (* x.re x.im))) 3) (* (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))))))) (cbrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (pow (* (* (pow (cbrt 3) 2) (pow (sqrt 3) 2/3)) (* x.im (* x.re x.im))) 3) (sqrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (sqrt (* (* (cbrt 3) (cbrt 3)) (* (cbrt (sqrt 3)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im)))))) (* (pow (sqrt 3) 1/3) (pow (cbrt 3) 2)) (* (* (cbrt 3) (pow (sqrt 3) 2/3)) (* x.im (* x.re x.im))) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) (log (* x.im (* x.re x.im))) (log (* x.im (* x.re x.im))) (log (* x.im (* x.re x.im))) (exp (* x.im (* x.re x.im))) (pow (* x.im (* x.re x.im)) 3) (pow (* x.im (* x.re x.im)) 3) (* (cbrt (* x.im (* x.re x.im))) (cbrt (* x.im (* x.re x.im)))) (cbrt (* x.im (* x.re x.im))) (pow (* x.im (* x.re x.im)) 3) (sqrt (* x.im (* x.re x.im))) (sqrt (* x.im (* x.re x.im))) (* x.re x.im) (* (cbrt x.im) (* x.re x.im)) (* (sqrt x.im) (* x.re x.im)) (* x.im (* x.re x.im)) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (cbrt (sqrt 3)) (* x.im (* x.re x.im))) (* (* (pow 3 1/3) x.re) (pow x.im 2)) (* (* (pow 3 1/3) x.re) (pow x.im 2)) (* (* (pow 3 1/3) x.re) (pow x.im 2)) (* 3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))) (* 3 (* x.im (* x.re x.im))) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) (* x.im (* x.re x.im)) 2.511 * * * [progress]: adding candidates to table 2.906 * [progress]: [Phase 3 of 3] Extracting. 2.906 * * [regime]: Finding splitpoints for: (# # # # # # #) 2.907 * * * [regime-changes]: Trying 3 branch expressions: ((- (* (- (* x.re x.re) (* x.im x.im)) x.re) (* (+ (* x.re x.im) (* x.im x.re)) x.im)) x.im x.re) 2.907 * * * * [regimes]: Trying to branch on (- (* (- (* x.re x.re) (* x.im x.im)) x.re) (* (+ (* x.re x.im) (* x.im x.re)) x.im)) from (# # # # # # #) 2.966 * * * * [regimes]: Trying to branch on x.im from (# # # # # # #) 3.026 * * * * [regimes]: Trying to branch on x.re from (# # # # # # #) 3.085 * * * [regime]: Found split indices: #