b'--allow-coverage-fail false\n--appp 0.33333\n--asm-code-only false\n--best-edit-rule "1 * fault_loc_weight ; 1 * max_test_fail_prob ; -1 * num_tests"\n--best-test-rule "1 * test_fail_prob ; 1 * test_fail_count ; -1 * test_pass_count"\n--compiler "gcc"\n--compiler-command ""\n--compiler-opts "-lm"\n--continue false\n--coverage-info ""\n--coverage-per-test false\n--crossover "one"\n--crossp 0.5\n--delp 0.33333\n--describe-machine false\n--diversity-selection 0\n--edit-script false\n--elf-risc false\n--exclude-edits ""\n--exp-diff false\n--fault-file ""\n--fault-path "coverage.path.neg"\n--fault-scheme "path"\n--fitness-in-parallel 1\n--fix-file ""\n--fix-oracle ""\n--fix-path "coverage.path.pos"\n--fix-scheme "default"\n--flatten-path ""\n--format "txt"\n--gen-per-exchange 1\n--generations 10\n--gui false\n--hostname "127.0.0.1"\n--ignore-dead-code true\n--ignore-equiv-appends true\n--ignore-standard-headers true\n--ignore-string-equiv-fixes true\n--ignore-untyped-returns true\n--incoming-pop ""\n--keep-source true\n--label-repair false\n--max-evals 0\n--minimization false\n--mt-cov false\n--multiopt-minimize false\n--multiopt-no-inf false\n--neg-tests 1\n--neg-weight 1\n--negative-test-weight 2\n--neutral-walk-max-size 0\n--neutral-walk-weight ""\n--nht-id "global"\n--nht-port 51000\n--nht-server ""\n--no-rep-cache true\n--no-test-cache false\n--num-comps 2\n--num-objectives 2\n--oracle-genome ""\n--popsize 40\n--port 60000\n--pos-tests 9\n--pos-weight 0.1\n--prefix "./"\n--preprocessor ""\n--print-incremental-evals false\n--print-source-name false\n--program "/home/tedks/tmp/cd2d9b5b5cff96b07c5b22c0d139ffa2aa36b01823c9eb4db6eca19065a0ce2c4d2516bfcc2f1bc95daeae5b0bbd5e9c15b83feda776735e7bc3de6c49d25144_fe315e47b407ea90242500d6c0f0e9e66cb10dbf_digits-merged.c"\n--promut 1\n--quiet false\n--regen-paths false\n--rep ""\n--rep-cache ""\n--repp 0\n--samp-strat "variant"\n--sample 1\n--sample-runs 100\n--sanity "yes"\n--search "ww"\n--seed 3332782029167834594\n--semantic-check "scope"\n--single-fitness false\n--skip-failed-sanity-tests false\n--skip-tests ""\n--split-search 0\n--sport 65000\n--subatom-constp 0.5\n--subatom-mutp 0\n--super-mutant true\n--super-mutant-size 50\n--swap-bug false\n--swapp 0.33333\n--template-cache ""\n--templates ""\n--test-command ""\n--test-script "/home/tedks/tmp/cd2d9b5b5cff96b07c5b22c0d139ffa2aa36b01823c9eb4db6eca19065a0ce2c4d2516bfcc2f1bc95daeae5b0bbd5e9c15b83feda776735e7bc3de6c49d25144_3_fe315e47b407ea90242500d6c0f0e9e66cb10dbf_digits_19774719033875385344484521088/test_19774719033875385344484521088"\n--tournament-size 2\n--tweet false\n--uniq false\n--valgrind false\n--variants-exchanged 50\ncilRep: preprocessing IO function signatures: /home/tedks/tmp/tmp2c627f.c /home/tedks/tmp/tmpbb7aea.c\ncilRep: done preprocessing IO function signatures\ncilrep: from_source: pre: stmt_count = 1\ncilRep: /home/tedks/tmp/cd2d9b5b5cff96b07c5b22c0d139ffa2aa36b01823c9eb4db6eca19065a0ce2c4d2516bfcc2f1bc95daeae5b0bbd5e9c15b83feda776735e7bc3de6c49d25144_fe315e47b407ea90242500d6c0f0e9e66cb10dbf_digits-merged.c: parsing\ncilRep: /home/tedks/tmp/cd2d9b5b5cff96b07c5b22c0d139ffa2aa36b01823c9eb4db6eca19065a0ce2c4d2516bfcc2f1bc95daeae5b0bbd5e9c15b83feda776735e7bc3de6c49d25144_fe315e47b407ea90242500d6c0f0e9e66cb10dbf_digits-merged.c: parsed (0.0633984 MB)\ncilRep: computing liveness\ncilRep: computed liveness\ncilrep: from_source: post: stmt_count: 11\ncachingRepresentation: sanity checking begins\n\tp1: true (1)\n\tp2: true (1)\n\tp3: true (1)\n\tp4: true (1)\n\tp5: true (1)\n\tp6: true (1)\n\tp7: true (1)\n\tp8: true (1)\n\tp9: true (1)\n\tn1: false (0)\ncachingRepresentation: sanity checking passed (time_taken = 0.899552)\nfaultLocRep: compute_localization: fault_scheme: path, fix_scheme: default\nRep: coverage_sourcename: /home/tedks/tmp/cd2d9b5b5cff96b07c5b22c0d139ffa2aa36b01823c9eb4db6eca19065a0ce2c4d2516bfcc2f1bc95daeae5b0bbd5e9c15b83feda776735e7bc3de6c49d25144_3_fe315e47b407ea90242500d6c0f0e9e66cb10dbf_digits_19774719033875385344484521088/./coverage.c\ncilRep: instrumenting for fault localization\ncilRep: done instrumenting for fault localization\ncoverage negative:\n\ttest: 1\ncoverage positive:\n\ttest: 1\n\ttest: 2\n\ttest: 3\n\ttest: 4\n\ttest: 5\n\ttest: 6\n\ttest: 7\n\ttest: 8\n\ttest: 9\ncilRep: /home/tedks/tmp/cd2d9b5b5cff96b07c5b22c0d139ffa2aa36b01823c9eb4db6eca19065a0ce2c4d2516bfcc2f1bc95daeae5b0bbd5e9c15b83feda776735e7bc3de6c49d25144_fe315e47b407ea90242500d6c0f0e9e66cb10dbf_digits-merged.cache: saved\ncachingRep: /home/tedks/tmp/cd2d9b5b5cff96b07c5b22c0d139ffa2aa36b01823c9eb4db6eca19065a0ce2c4d2516bfcc2f1bc95daeae5b0bbd5e9c15b83feda776735e7bc3de6c49d25144_fe315e47b407ea90242500d6c0f0e9e66cb10dbf_digits-merged.cache: saved\nfaultlocRep: /home/tedks/tmp/cd2d9b5b5cff96b07c5b22c0d139ffa2aa36b01823c9eb4db6eca19065a0ce2c4d2516bfcc2f1bc95daeae5b0bbd5e9c15b83feda776735e7bc3de6c49d25144_fe315e47b407ea90242500d6c0f0e9e66cb10dbf_digits-merged.cache: saved\ncilrep done serialize\ncilRep: stmt_count = 11\ncilRep: stmts in weighted_path = 7\ncilRep: total weight = 0.7\ncilRep: stmts in weighted_path with weight >= 1.0 = 0\ncilRep: /home/tedks/tmp/cd2d9b5b5cff96b07c5b22c0d139ffa2aa36b01823c9eb4db6eca19065a0ce2c4d2516bfcc2f1bc95daeae5b0bbd5e9c15b83feda776735e7bc3de6c49d25144_fe315e47b407ea90242500d6c0f0e9e66cb10dbf_digits-merged.c (code bank/base file; atoms [1,11])\ncilRep: 1 file(s) total in representation\nsearch: ww_adaptive_1 begins (time = 1430855308.728070)\ncilRep: coverage ignores: /usr/lib/gcc/x86_64-linux-gnu/4.9/include\ncilRep: coverage ignores: /usr/local/include\ncilRep: coverage ignores: /usr/lib/gcc/x86_64-linux-gnu/4.9/include-fixed\ncilRep: coverage ignores: /usr/include\ncilRep: atoms in standard headers: 0\ncilRep: fix-space quotient by string: 11 -> 11\nprogeq: computing alias analysis information\nsearch: fix space reduced (time_taken = 0.114613)\nexcluded 0 deletes (from list of 0 total edits)\nsearch: ww_adaptive: 7 deletes\nexcluded 0 appends (from list of 0 total edits)\nsearch: ww_adaptive: 35 appends\nsearch: ww_adaptive: 42 possible edits\nsearch: ready to start (time_taken = 0.121236)\nsearch: ww_adaptive: finding best\n\tfrom new super-mutant\nsearch: ww_adaptive: finding 50 best for super-mutant\nrep: WARNING: test_visiting_atoms: no data available\n\ttry using --coverage-per-test and/or --regen-paths\n\tdefaulting to \'all tests\'\nsearch: ww_adaptive: found 42 best (time_taken = 0.00398207)\nsearch: ww_adaptive: found best (time_taken = 0.000718117)\n\tvariant     1/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 1)\n\t\tn1 false (test_time = 0.315024)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000790119)\n\tvariant     2/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 42)\n\t\tn1 false (test_time = 0.079345)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.00103402)\n\tvariant     3/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 41)\n\t\tn1 false (test_time = 0.0919991)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000751019)\n\tvariant     4/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 40)\n\t\tn1 false (test_time = 0.067405)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000699997)\n\tvariant     5/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 39)\n\t\tn1 false (test_time = 0.073118)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.00070715)\n\tvariant     6/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 38)\n\t\tn1 false (test_time = 0.068269)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000873089)\n\tvariant     7/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 37)\n\t\tn1 false (test_time = 0.0716891)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000751972)\n\tvariant     8/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 36)\n\t\tn1 false (test_time = 0.068846)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000642061)\n\tvariant     9/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 35)\n\t\tn1 false (test_time = 0.0678072)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000613928)\n\tvariant    10/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 34)\n\t\tn1 true (test_time = 0.067632)\n\t\tp1 false (test_time = 0.0718219)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000576019)\n\tvariant    11/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 33)\n\t\tn1 false (test_time = 0.0695188)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000513077)\n\tvariant    12/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 32)\n\t\tn1 false (test_time = 0.070682)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000607967)\n\tvariant    13/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 31)\n\t\tn1 false (test_time = 0.071681)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000638962)\n\tvariant    14/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 30)\n\t\tn1 false (test_time = 0.0667341)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000581026)\n\tvariant    15/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 29)\n\t\tn1 false (test_time = 0.064867)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000538111)\n\tvariant    16/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 28)\n\t\tn1 true (test_time = 0.0663769)\n\t\tp1 false (test_time = 0.0710502)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000564098)\n\tvariant    17/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 27)\n\t\tn1 false (test_time = 0.069052)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000530005)\n\tvariant    18/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 26)\n\t\tn1 false (test_time = 0.067431)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000535965)\n\tvariant    19/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 25)\n\t\tn1 true (test_time = 0.0719581)\n\t\tp1 false (test_time = 0.0602059)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000463963)\n\tvariant    20/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 24)\n\t\tn1 false (test_time = 0.06587)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000520945)\n\tvariant    21/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 23)\n\t\tn1 false (test_time = 0.074234)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000406027)\n\tvariant    22/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 22)\n\t\tn1 false (test_time = 0.0817721)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000510931)\n\tvariant    23/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 21)\n\t\tn1 false (test_time = 0.067982)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000391006)\n\tvariant    24/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 20)\n\t\tn1 false (test_time = 0.07409)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000519037)\n\tvariant    25/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 19)\n\t\tn1 true (test_time = 0.073195)\n\t\tp1 false (test_time = 0.0683491)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000320911)\n\tvariant    26/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 18)\n\t\tn1 false (test_time = 0.0648379)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000246048)\n\tvariant    27/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 17)\n\t\tn1 false (test_time = 0.0770669)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000314951)\n\tvariant    28/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 16)\n\t\tn1 false (test_time = 0.0739899)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000322104)\n\tvariant    29/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 15)\n\t\tn1 false (test_time = 0.086606)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000365019)\n\tvariant    30/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 14)\n\t\tn1 false (test_time = 0.0785789)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000348091)\n\tvariant    31/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 13)\n\t\tn1 false (test_time = 0.0753291)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000344992)\n\tvariant    32/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 12)\n\t\tn1 false (test_time = 0.0674021)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000193834)\n\tvariant    33/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 11)\n\t\tn1 false (test_time = 0.08216)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000231981)\n\tvariant    34/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 10)\n\t\tn1 false (test_time = 0.0775599)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.00017786)\n\tvariant    35/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 9)\n\t\tn1 false (test_time = 0.0818698)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000205994)\n\tvariant    36/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 8)\n\t\tn1 false (test_time = 0.0760372)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000167131)\n\tvariant    37/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 7)\n\t\tn1 false (test_time = 0.0710971)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000108004)\n\tvariant    38/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 6)\n\t\tn1 false (test_time = 0.0955)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 0.000155926)\n\tvariant    39/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 5)\n\t\tn1 false (test_time = 0.0882349)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 6.22272e-05)\n\tvariant    40/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 4)\n\t\tn1 false (test_time = 0.0731878)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 6.69956e-05)\n\tvariant    41/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 3)\n\t\tn1 false (test_time = 0.0802841)\nsearch: ww_adaptive: finding best\n\tfrom existing super-mutants\nsearch: ww_adaptive: found best (time_taken = 1.12057e-05)\n\tvariant    42/   42 = ?(1,d(2)) ?(2,d(6)) ?(3,d(7)) ?(4,d(8)) ?(5,d(9)) ?(6,d(10)) ?(7,d(11)) ?(8,a(10,11)) ?(9,a(10,10)) ?(10,a(10,9)) ?(11,a(10,7)) ?(12,a(10,6)) ?(13,a(10,4)) ?(14,a(10,1)) ?(15,a(9,10)) ?(16,a(9,9)) ?(17,a(9,7)) ?(18,a(9,6)) ?(19,a(9,4)) ?(20,a(8,10)) ?(21,a(8,9)) ?(22,a(8,7)) ?(23,a(8,6)) ?(24,a(8,5)) ?(25,a(8,4)) ?(26,a(7,9)) ?(27,a(7,5)) ?(28,a(7,4)) ?(29,a(6,10)) ?(30,a(6,9)) ?(31,a(6,7)) ?(32,a(6,6)) ?(33,a(6,5)) ?(34,a(6,4)) ?(35,a(2,11)) ?(36,a(2,10)) ?(37,a(2,9)) ?(38,a(2,7)) ?(39,a(2,6)) ?(40,a(2,4)) ?(41,a(2,2)) ?(42,a(2,1))  (10 tests, cond 2)\n\t\tn1 false (test_time = 0.080092)\nsearch: ww_adaptive: ends (no repair)\nRep: saving test cache\n\nVariant Test Case Queries: 46\n"Test Suite Evaluations": 4.6\n\nCompile Failures: 0\nWall-Clock Seconds Elapsed: 6.08949\n  Activity Name                     Count Seconds = Percent of Total Time\n  progeq partition                     11   0.001 = 0.0245742%\n  find_k_best_edits                     1   0.004 = 0.0721775%\n  sanity_check                          1   0.018 = 0.318015%\n  find_best_edit                       42   0.019 = 0.343225%\n  append_sources                        7   0.120 = 2.17622%\n  compile                               3   0.437 = 7.93264%\n  test                                 66   4.910 = 89.1332%\n  TOTAL                                     5.509 = 90.3185% (avg CPU usage)\n'