0.002 * [progress]: [Phase 1 of 3] Setting up.
0.004 * * * [progress]: [1/2] Preparing points
0.006 * * * * [points]: Sampling 256 additional inputs, on iter 0 have 0 / 256
0.010 * * * * [points]: Computing exacts on every 16 of 256 points to ramp up precision
0.120 * * * * [points]: Setting MPFR precision to 64
0.125 * * * * [points]: Setting MPFR precision to 320
0.128 * * * * [points]: Computing exacts on every 8 of 256 points to ramp up precision
0.132 * * * * [points]: Setting MPFR precision to 64
0.136 * * * * [points]: Setting MPFR precision to 320
0.141 * * * * [points]: Computing exacts on every 4 of 256 points to ramp up precision
0.144 * * * * [points]: Setting MPFR precision to 64
0.152 * * * * [points]: Setting MPFR precision to 320
0.161 * * * * [points]: Computing exacts on every 2 of 256 points to ramp up precision
0.164 * * * * [points]: Setting MPFR precision to 64
0.179 * * * * [points]: Setting MPFR precision to 320
0.197 * * * * [points]: Computing exacts for 256 points
0.200 * * * * [points]: Setting MPFR precision to 64
0.243 * * * * [points]: Setting MPFR precision to 320
0.270 * * * * [points]: Filtering points with unrepresentable outputs
0.271 * * * * [points]: Sampling 123 additional inputs, on iter 1 have 133 / 256
0.273 * * * * [points]: Computing exacts on every 7 of 123 points to ramp up precision
0.275 * * * * [points]: Setting MPFR precision to 64
0.278 * * * * [points]: Setting MPFR precision to 320
0.281 * * * * [points]: Computing exacts on every 3 of 123 points to ramp up precision
0.283 * * * * [points]: Setting MPFR precision to 64
0.286 * * * * [points]: Setting MPFR precision to 320
0.289 * * * * [points]: Computing exacts for 123 points
0.291 * * * * [points]: Setting MPFR precision to 64
0.336 * * * * [points]: Setting MPFR precision to 320
0.351 * * * * [points]: Filtering points with unrepresentable outputs
0.351 * * * * [points]: Sampling 66 additional inputs, on iter 2 have 190 / 256
0.352 * * * * [points]: Computing exacts on every 4 of 66 points to ramp up precision
0.353 * * * * [points]: Setting MPFR precision to 64
0.355 * * * * [points]: Setting MPFR precision to 320
0.357 * * * * [points]: Computing exacts on every 2 of 66 points to ramp up precision
0.360 * * * * [points]: Setting MPFR precision to 64
0.363 * * * * [points]: Setting MPFR precision to 320
0.367 * * * * [points]: Computing exacts for 66 points
0.370 * * * * [points]: Setting MPFR precision to 64
0.382 * * * * [points]: Setting MPFR precision to 320
0.392 * * * * [points]: Filtering points with unrepresentable outputs
0.392 * * * * [points]: Sampling 39 additional inputs, on iter 3 have 217 / 256
0.392 * * * * [points]: Computing exacts on every 2 of 39 points to ramp up precision
0.394 * * * * [points]: Setting MPFR precision to 64
0.395 * * * * [points]: Setting MPFR precision to 320
0.396 * * * * [points]: Computing exacts for 39 points
0.398 * * * * [points]: Setting MPFR precision to 64
0.401 * * * * [points]: Setting MPFR precision to 320
0.405 * * * * [points]: Filtering points with unrepresentable outputs
0.405 * * * * [points]: Sampling 24 additional inputs, on iter 4 have 232 / 256
0.405 * * * * [points]: Computing exacts for 24 points
0.407 * * * * [points]: Setting MPFR precision to 64
0.409 * * * * [points]: Setting MPFR precision to 320
0.411 * * * * [points]: Filtering points with unrepresentable outputs
0.411 * * * * [points]: Sampling 14 additional inputs, on iter 5 have 242 / 256
0.411 * * * * [points]: Computing exacts for 14 points
0.413 * * * * [points]: Setting MPFR precision to 64
0.414 * * * * [points]: Setting MPFR precision to 320
0.416 * * * * [points]: Filtering points with unrepresentable outputs
0.416 * * * * [points]: Sampling 5 additional inputs, on iter 6 have 251 / 256
0.416 * * * * [points]: Computing exacts for 5 points
0.417 * * * * [points]: Setting MPFR precision to 64
0.418 * * * * [points]: Setting MPFR precision to 320
0.418 * * * * [points]: Filtering points with unrepresentable outputs
0.418 * * * * [points]: Sampled 256 points with exact outputs
0.419 * * * [progress]: [2/2] Setting up program.
0.422 * [progress]: [Phase 2 of 3] Improving.
0.423 * * * * [progress]: [ 1 / 1 ] simplifiying candidate #<alt (λ (xre xim) (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))))>
0.424 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0)))
0.426 * * [simplify]: iters left: 6 (12 enodes)
0.438 * * [simplify]: iters left: 5 (26 enodes)
0.446 * * [simplify]: iters left: 4 (30 enodes)
0.456 * * [simplify]: Extracting #0: cost 1 inf + 0
0.456 * * [simplify]: Extracting #1: cost 3 inf + 0
0.456 * * [simplify]: Extracting #2: cost 5 inf + 0
0.456 * * [simplify]: Extracting #3: cost 9 inf + 0
0.502 * * [simplify]: Extracting #4: cost 8 inf + 4
0.502 * * [simplify]: Extracting #5: cost 12 inf + 4
0.502 * * [simplify]: Extracting #6: cost 11 inf + 47
0.502 * * [simplify]: Extracting #7: cost 4 inf + 478
0.502 * * [simplify]: Extracting #8: cost 1 inf + 2268
0.503 * * [simplify]: Extracting #9: cost 0 inf + 3012
0.504 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0)))
0.504 * [simplify]: Simplified (2) to (λ (xre xim) (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))))
0.515 * * [progress]: iteration 1 / 4
0.515 * * * [progress]: picking best candidate
0.521 * * * * [pick]: Picked  #<alt (λ (xre xim) (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))))>
0.521 * * * [progress]: localizing error
0.634 * * * [progress]: generating rewritten candidates
0.635 * * * * [progress]: [ 1 / 4 ] rewriting at (2 1 1)
0.640 * * * * [progress]: [ 2 / 4 ] rewriting at (2 1 1 2)
0.641 * * * * [progress]: [ 3 / 4 ] rewriting at (2 1 1 1)
0.641 * * * * [progress]: [ 4 / 4 ] rewriting at (2 1)
0.649 * * * [progress]: generating series expansions
0.649 * * * * [progress]: [ 1 / 4 ] generating series at (2 1 1)
0.649 * * * * [progress]: [ 2 / 4 ] generating series at (2 1 1 2)
0.649 * * * * [progress]: [ 3 / 4 ] generating series at (2 1 1 1)
0.649 * * * * [progress]: [ 4 / 4 ] generating series at (2 1)
0.649 * * * [progress]: simplifying candidates
0.649 * * * * [progress]: [ 1 / 6 ] simplifiying candidate #<alt (λ (xre xim) (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))))>
0.650 * * * * [progress]: [ 2 / 6 ] simplifiying candidate #<alt (λ (xre xim) (re (/.c (neg.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim))))) (neg.c (complex 2 0)))))>
0.650 * [simplify]: Simplifying (neg.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))))
0.650 * * [simplify]: iters left: 5 (8 enodes)
0.653 * * [simplify]: iters left: 4 (16 enodes)
0.658 * * [simplify]: iters left: 3 (20 enodes)
0.663 * * [simplify]: Extracting #0: cost 1 inf + 0
0.663 * * [simplify]: Extracting #1: cost 2 inf + 0
0.664 * * [simplify]: Extracting #2: cost 4 inf + 0
0.664 * * [simplify]: Extracting #3: cost 6 inf + 0
0.664 * * [simplify]: Extracting #4: cost 10 inf + 0
0.664 * * [simplify]: Extracting #5: cost 9 inf + 43
0.664 * * [simplify]: Extracting #6: cost 0 inf + 1158
0.664 * [simplify]: Simplified to (neg.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))))
0.664 * [simplify]: Simplified (2 1 1) to (λ (xre xim) (re (/.c (neg.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim)))) (neg.c (complex 2 0)))))
0.665 * [simplify]: Simplifying (neg.c (complex 2 0))
0.665 * * [simplify]: iters left: 2 (4 enodes)
0.689 * * [simplify]: iters left: 1 (12 enodes)
0.694 * * [simplify]: Extracting #0: cost 1 inf + 0
0.694 * * [simplify]: Extracting #1: cost 3 inf + 0
0.695 * * [simplify]: Extracting #2: cost 0 inf + 4
0.695 * [simplify]: Simplified to (complex -2 0)
0.695 * [simplify]: Simplified (2 1 2) to (λ (xre xim) (re (/.c (neg.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim))))) (complex -2 0))))
0.695 * * * * [progress]: [ 3 / 6 ] simplifiying candidate #<alt (λ (xre xim) (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))))>
0.695 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0)))
0.695 * * [simplify]: iters left: 6 (12 enodes)
0.702 * * [simplify]: iters left: 5 (26 enodes)
0.711 * * [simplify]: iters left: 4 (30 enodes)
0.721 * * [simplify]: Extracting #0: cost 1 inf + 0
0.721 * * [simplify]: Extracting #1: cost 3 inf + 0
0.722 * * [simplify]: Extracting #2: cost 5 inf + 0
0.722 * * [simplify]: Extracting #3: cost 9 inf + 0
0.722 * * [simplify]: Extracting #4: cost 8 inf + 4
0.722 * * [simplify]: Extracting #5: cost 12 inf + 4
0.722 * * [simplify]: Extracting #6: cost 11 inf + 47
0.722 * * [simplify]: Extracting #7: cost 4 inf + 478
0.722 * * [simplify]: Extracting #8: cost 1 inf + 2268
0.723 * * [simplify]: Extracting #9: cost 0 inf + 3012
0.723 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0)))
0.724 * [simplify]: Simplified (2) to (λ (xre xim) (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))))
0.724 * * * * [progress]: [ 4 / 6 ] simplifiying candidate #<alt (λ (xre xim) (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))))>
0.724 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0)))
0.724 * * [simplify]: iters left: 6 (12 enodes)
0.730 * * [simplify]: iters left: 5 (26 enodes)
0.735 * * [simplify]: iters left: 4 (30 enodes)
0.740 * * [simplify]: Extracting #0: cost 1 inf + 0
0.740 * * [simplify]: Extracting #1: cost 3 inf + 0
0.740 * * [simplify]: Extracting #2: cost 5 inf + 0
0.740 * * [simplify]: Extracting #3: cost 9 inf + 0
0.740 * * [simplify]: Extracting #4: cost 8 inf + 4
0.740 * * [simplify]: Extracting #5: cost 12 inf + 4
0.740 * * [simplify]: Extracting #6: cost 11 inf + 47
0.740 * * [simplify]: Extracting #7: cost 4 inf + 478
0.741 * * [simplify]: Extracting #8: cost 1 inf + 2268
0.741 * * [simplify]: Extracting #9: cost 0 inf + 3012
0.741 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0)))
0.741 * [simplify]: Simplified (2) to (λ (xre xim) (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))))
0.741 * * * * [progress]: [ 5 / 6 ] simplifiying candidate #<alt (λ (xre xim) (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))))>
0.741 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0)))
0.741 * * [simplify]: iters left: 6 (12 enodes)
0.744 * * [simplify]: iters left: 5 (26 enodes)
0.749 * * [simplify]: iters left: 4 (30 enodes)
0.753 * * [simplify]: Extracting #0: cost 1 inf + 0
0.754 * * [simplify]: Extracting #1: cost 3 inf + 0
0.754 * * [simplify]: Extracting #2: cost 5 inf + 0
0.754 * * [simplify]: Extracting #3: cost 9 inf + 0
0.754 * * [simplify]: Extracting #4: cost 8 inf + 4
0.754 * * [simplify]: Extracting #5: cost 12 inf + 4
0.754 * * [simplify]: Extracting #6: cost 11 inf + 47
0.754 * * [simplify]: Extracting #7: cost 4 inf + 478
0.754 * * [simplify]: Extracting #8: cost 1 inf + 2268
0.754 * * [simplify]: Extracting #9: cost 0 inf + 3012
0.755 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0)))
0.755 * [simplify]: Simplified (2) to (λ (xre xim) (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))))
0.755 * * * * [progress]: [ 6 / 6 ] simplifiying candidate #<alt (λ (xre xim) (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))))>
0.755 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0)))
0.755 * * [simplify]: iters left: 6 (12 enodes)
0.758 * * [simplify]: iters left: 5 (26 enodes)
0.762 * * [simplify]: iters left: 4 (30 enodes)
0.767 * * [simplify]: Extracting #0: cost 1 inf + 0
0.767 * * [simplify]: Extracting #1: cost 3 inf + 0
0.767 * * [simplify]: Extracting #2: cost 5 inf + 0
0.767 * * [simplify]: Extracting #3: cost 9 inf + 0
0.767 * * [simplify]: Extracting #4: cost 8 inf + 4
0.767 * * [simplify]: Extracting #5: cost 12 inf + 4
0.767 * * [simplify]: Extracting #6: cost 11 inf + 47
0.767 * * [simplify]: Extracting #7: cost 4 inf + 478
0.768 * * [simplify]: Extracting #8: cost 1 inf + 2268
0.768 * * [simplify]: Extracting #9: cost 0 inf + 3012
0.768 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0)))
0.768 * [simplify]: Simplified (2) to (λ (xre xim) (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))))
0.768 * * * [progress]: adding candidates to table
0.808 * [progress]: [Phase 3 of 3] Extracting.
0.814 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0)))
0.815 * * [simplify]: iters left: 6 (12 enodes)
0.816 * * [simplify]: iters left: 5 (13 enodes)
0.817 * * [simplify]: Extracting #0: cost 1 inf + 0
0.817 * * [simplify]: Extracting #1: cost 2 inf + 0
0.817 * * [simplify]: Extracting #2: cost 4 inf + 0
0.817 * * [simplify]: Extracting #3: cost 8 inf + 0
0.817 * * [simplify]: Extracting #4: cost 7 inf + 4
0.818 * * [simplify]: Extracting #5: cost 9 inf + 4
0.818 * * [simplify]: Extracting #6: cost 7 inf + 6
0.818 * * [simplify]: Extracting #7: cost 0 inf + 2104
0.818 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0)))
0.818 * * * * [points]: Sampling 8000 additional inputs, on iter 0 have 0 / 8000
0.937 * * * * [points]: Computing exacts on every 500 of 8000 points to ramp up precision
0.940 * * * * [points]: Setting MPFR precision to 64
0.943 * * * * [points]: Setting MPFR precision to 320
0.945 * * * * [points]: Computing exacts on every 250 of 8000 points to ramp up precision
0.948 * * * * [points]: Setting MPFR precision to 64
0.954 * * * * [points]: Setting MPFR precision to 320
0.960 * * * * [points]: Computing exacts on every 125 of 8000 points to ramp up precision
0.963 * * * * [points]: Setting MPFR precision to 64
0.974 * * * * [points]: Setting MPFR precision to 320
0.986 * * * * [points]: Computing exacts on every 62 of 8000 points to ramp up precision
0.989 * * * * [points]: Setting MPFR precision to 64
1.013 * * * * [points]: Setting MPFR precision to 320
1.036 * * * * [points]: Computing exacts on every 31 of 8000 points to ramp up precision
1.039 * * * * [points]: Setting MPFR precision to 64
1.080 * * * * [points]: Setting MPFR precision to 320
1.180 * * * * [points]: Computing exacts on every 15 of 8000 points to ramp up precision
1.183 * * * * [points]: Setting MPFR precision to 64
1.271 * * * * [points]: Setting MPFR precision to 320
1.341 * * * * [points]: Computing exacts on every 7 of 8000 points to ramp up precision
1.344 * * * * [points]: Setting MPFR precision to 64
1.541 * * * * [points]: Setting MPFR precision to 320
1.728 * * * * [points]: Computing exacts on every 3 of 8000 points to ramp up precision
1.730 * * * * [points]: Setting MPFR precision to 64
2.445 * * * * [points]: Setting MPFR precision to 320
2.805 * * * * [points]: Computing exacts for 8000 points
2.808 * * * * [points]: Setting MPFR precision to 64
4.435 * * * * [points]: Setting MPFR precision to 320
6.345 * * * * [points]: Setting MPFR precision to 576
8.565 * * * * [points]: Filtering points with unrepresentable outputs
8.570 * * * * [points]: Sampling 4005 additional inputs, on iter 1 have 3995 / 8000
8.606 * * * * [points]: Computing exacts on every 250 of 4005 points to ramp up precision
8.608 * * * * [points]: Setting MPFR precision to 320
8.609 * * * * [points]: Setting MPFR precision to 576
8.611 * * * * [points]: Computing exacts on every 125 of 4005 points to ramp up precision
8.613 * * * * [points]: Setting MPFR precision to 320
8.616 * * * * [points]: Setting MPFR precision to 576
8.620 * * * * [points]: Computing exacts on every 62 of 4005 points to ramp up precision
8.622 * * * * [points]: Setting MPFR precision to 320
8.634 * * * * [points]: Setting MPFR precision to 576
8.665 * * * * [points]: Computing exacts on every 31 of 4005 points to ramp up precision
8.667 * * * * [points]: Setting MPFR precision to 320
8.692 * * * * [points]: Setting MPFR precision to 576
8.710 * * * * [points]: Computing exacts on every 15 of 4005 points to ramp up precision
8.712 * * * * [points]: Setting MPFR precision to 320
8.748 * * * * [points]: Setting MPFR precision to 576
8.780 * * * * [points]: Computing exacts on every 7 of 4005 points to ramp up precision
8.784 * * * * [points]: Setting MPFR precision to 320
8.924 * * * * [points]: Setting MPFR precision to 576
9.019 * * * * [points]: Computing exacts on every 3 of 4005 points to ramp up precision
9.022 * * * * [points]: Setting MPFR precision to 320
9.209 * * * * [points]: Setting MPFR precision to 576
9.416 * * * * [points]: Computing exacts for 4005 points
9.420 * * * * [points]: Setting MPFR precision to 320
10.557 * * * * [points]: Setting MPFR precision to 576
11.500 * * * * [points]: Filtering points with unrepresentable outputs
11.502 * * * * [points]: Sampling 1995 additional inputs, on iter 2 have 6005 / 8000
11.516 * * * * [points]: Computing exacts on every 124 of 1995 points to ramp up precision
11.519 * * * * [points]: Setting MPFR precision to 320
11.520 * * * * [points]: Setting MPFR precision to 576
11.523 * * * * [points]: Computing exacts on every 62 of 1995 points to ramp up precision
11.525 * * * * [points]: Setting MPFR precision to 320
11.529 * * * * [points]: Setting MPFR precision to 576
11.532 * * * * [points]: Computing exacts on every 31 of 1995 points to ramp up precision
11.534 * * * * [points]: Setting MPFR precision to 320
11.540 * * * * [points]: Setting MPFR precision to 576
11.547 * * * * [points]: Computing exacts on every 15 of 1995 points to ramp up precision
11.549 * * * * [points]: Setting MPFR precision to 320
11.589 * * * * [points]: Setting MPFR precision to 576
11.604 * * * * [points]: Computing exacts on every 7 of 1995 points to ramp up precision
11.606 * * * * [points]: Setting MPFR precision to 320
11.630 * * * * [points]: Setting MPFR precision to 576
11.673 * * * * [points]: Computing exacts on every 3 of 1995 points to ramp up precision
11.675 * * * * [points]: Setting MPFR precision to 320
11.777 * * * * [points]: Setting MPFR precision to 576
11.879 * * * * [points]: Computing exacts for 1995 points
11.882 * * * * [points]: Setting MPFR precision to 320
12.359 * * * * [points]: Setting MPFR precision to 576
12.806 * * * * [points]: Filtering points with unrepresentable outputs
12.808 * * * * [points]: Sampling 984 additional inputs, on iter 3 have 7016 / 8000
13.304 * * * * [points]: Computing exacts on every 61 of 984 points to ramp up precision
13.307 * * * * [points]: Setting MPFR precision to 320
13.310 * * * * [points]: Setting MPFR precision to 576
13.314 * * * * [points]: Computing exacts on every 30 of 984 points to ramp up precision
13.317 * * * * [points]: Setting MPFR precision to 320
13.323 * * * * [points]: Setting MPFR precision to 576
13.330 * * * * [points]: Computing exacts on every 15 of 984 points to ramp up precision
13.334 * * * * [points]: Setting MPFR precision to 320
13.345 * * * * [points]: Setting MPFR precision to 576
13.359 * * * * [points]: Computing exacts on every 7 of 984 points to ramp up precision
13.363 * * * * [points]: Setting MPFR precision to 320
13.386 * * * * [points]: Setting MPFR precision to 576
13.406 * * * * [points]: Computing exacts on every 3 of 984 points to ramp up precision
13.408 * * * * [points]: Setting MPFR precision to 320
13.442 * * * * [points]: Setting MPFR precision to 576
13.549 * * * * [points]: Computing exacts for 984 points
13.553 * * * * [points]: Setting MPFR precision to 320
13.674 * * * * [points]: Setting MPFR precision to 576
13.860 * * * * [points]: Filtering points with unrepresentable outputs
13.861 * * * * [points]: Sampling 483 additional inputs, on iter 4 have 7517 / 8000
13.864 * * * * [points]: Computing exacts on every 30 of 483 points to ramp up precision
13.867 * * * * [points]: Setting MPFR precision to 320
13.869 * * * * [points]: Setting MPFR precision to 576
13.871 * * * * [points]: Computing exacts on every 15 of 483 points to ramp up precision
13.873 * * * * [points]: Setting MPFR precision to 320
13.878 * * * * [points]: Setting MPFR precision to 576
13.886 * * * * [points]: Computing exacts on every 7 of 483 points to ramp up precision
13.945 * * * * [points]: Setting MPFR precision to 320
13.956 * * * * [points]: Setting MPFR precision to 576
13.963 * * * * [points]: Computing exacts on every 3 of 483 points to ramp up precision
13.965 * * * * [points]: Setting MPFR precision to 320
13.977 * * * * [points]: Setting MPFR precision to 576
14.005 * * * * [points]: Computing exacts for 483 points
14.008 * * * * [points]: Setting MPFR precision to 320
14.101 * * * * [points]: Setting MPFR precision to 576
14.254 * * * * [points]: Filtering points with unrepresentable outputs
14.254 * * * * [points]: Sampling 253 additional inputs, on iter 5 have 7747 / 8000
14.258 * * * * [points]: Computing exacts on every 15 of 253 points to ramp up precision
14.262 * * * * [points]: Setting MPFR precision to 320
14.265 * * * * [points]: Setting MPFR precision to 576
14.269 * * * * [points]: Computing exacts on every 7 of 253 points to ramp up precision
14.271 * * * * [points]: Setting MPFR precision to 320
14.274 * * * * [points]: Setting MPFR precision to 576
14.278 * * * * [points]: Computing exacts on every 3 of 253 points to ramp up precision
14.280 * * * * [points]: Setting MPFR precision to 320
14.286 * * * * [points]: Setting MPFR precision to 576
14.297 * * * * [points]: Computing exacts for 253 points
14.301 * * * * [points]: Setting MPFR precision to 320
14.333 * * * * [points]: Setting MPFR precision to 576
14.379 * * * * [points]: Filtering points with unrepresentable outputs
14.380 * * * * [points]: Sampling 118 additional inputs, on iter 6 have 7882 / 8000
14.381 * * * * [points]: Computing exacts on every 7 of 118 points to ramp up precision
14.431 * * * * [points]: Setting MPFR precision to 320
14.432 * * * * [points]: Setting MPFR precision to 576
14.434 * * * * [points]: Computing exacts on every 3 of 118 points to ramp up precision
14.436 * * * * [points]: Setting MPFR precision to 320
14.438 * * * * [points]: Setting MPFR precision to 576
14.447 * * * * [points]: Computing exacts for 118 points
14.450 * * * * [points]: Setting MPFR precision to 320
14.471 * * * * [points]: Setting MPFR precision to 576
14.485 * * * * [points]: Filtering points with unrepresentable outputs
14.485 * * * * [points]: Sampling 59 additional inputs, on iter 7 have 7941 / 8000
14.486 * * * * [points]: Computing exacts on every 3 of 59 points to ramp up precision
14.487 * * * * [points]: Setting MPFR precision to 320
14.489 * * * * [points]: Setting MPFR precision to 576
14.491 * * * * [points]: Computing exacts for 59 points
14.493 * * * * [points]: Setting MPFR precision to 320
14.498 * * * * [points]: Setting MPFR precision to 576
14.506 * * * * [points]: Filtering points with unrepresentable outputs
14.506 * * * * [points]: Sampling 21 additional inputs, on iter 8 have 7979 / 8000
14.506 * * * * [points]: Computing exacts for 21 points
14.509 * * * * [points]: Setting MPFR precision to 320
14.514 * * * * [points]: Setting MPFR precision to 576
14.518 * * * * [points]: Filtering points with unrepresentable outputs
14.519 * * * * [points]: Sampling 8 additional inputs, on iter 9 have 7992 / 8000
14.519 * * * * [points]: Computing exacts for 8 points
14.520 * * * * [points]: Setting MPFR precision to 320
14.521 * * * * [points]: Setting MPFR precision to 576
14.522 * * * * [points]: Filtering points with unrepresentable outputs
14.522 * * * * [points]: Sampling 4 additional inputs, on iter 10 have 7997 / 8000
14.522 * * * * [points]: Computing exacts for 4 points
14.524 * * * * [points]: Setting MPFR precision to 320
14.525 * * * * [points]: Setting MPFR precision to 576
14.525 * * * * [points]: Filtering points with unrepresentable outputs
14.525 * * * * [points]: Sampling 4 additional inputs, on iter 11 have 7999 / 8000
14.525 * * * * [points]: Computing exacts for 4 points
14.527 * * * * [points]: Setting MPFR precision to 320
14.528 * * * * [points]: Setting MPFR precision to 576
14.528 * * * * [points]: Filtering points with unrepresentable outputs
14.528 * * * * [points]: Sampled 8001 points with exact outputs
14.736 * [regime-testing]: Baseline error score: 0.01799992499938535
14.739 * [regime-testing]: Oracle error score: 0.01799992499938535
14.739 * [regime-testing]: End program error score: 0.01799992499938535