----- Otter 3.2, August 2001 ----- The process was started by ??? on ???, Sun Nov 30 22:20:52 2003 The command was "otter". set(auto). dependent: set(auto1). dependent: set(process_input). dependent: clear(print_kept). dependent: clear(print_new_demod). dependent: clear(print_back_demod). dependent: clear(print_back_sub). dependent: set(control_memory). dependent: assign(max_mem, 12000). dependent: assign(pick_given_ratio, 4). dependent: assign(stats_level, 1). dependent: assign(max_seconds, 10800). clear(print_given). assign(max_seconds,20). assign(max_distinct_vars,3). assign(max_literals,1). include("booleanAx.txt"). ------- start included file booleanAx.txt------- include("1_2booleanAx.txt"). ------- start included file 1_2booleanAx.txt------- formula_list(usable). all x y (u(x,y)=u(y,x)). all x y z (u(x,u(y,z))=u(u(x,y),z)). end_of_list. -------> usable clausifies to: list(usable). 0 [] u(x,y)=u(y,x). 0 [] u(x,u(y,z))=u(u(x,y),z). end_of_list. ------- end included file 1_2booleanAx.txt------- include("3booleanAx.txt"). ------- start included file 3booleanAx.txt------- formula_list(usable). all x y (u(c(u(c(x),y)),c(u(c(x),c(y))))=x). end_of_list. -------> usable clausifies to: list(usable). 0 [] u(c(u(c(x),y)),c(u(c(x),c(y))))=x. end_of_list. ------- end included file 3booleanAx.txt------- ------- end included file booleanAx.txt------- include("iDef.txt"). ------- start included file iDef.txt------- formula_list(usable). all x y (i(x,y)<->u(x,y)=y). end_of_list. -------> usable clausifies to: list(usable). 0 [] -i(x,y)|u(x,y)=y. 0 [] i(x,y)|u(x,y)!=y. end_of_list. ------- end included file iDef.txt------- include("nDef.txt"). ------- start included file nDef.txt------- formula_list(usable). all x y (n(x,y)=c(u(c(x),c(y)))). end_of_list. -------> usable clausifies to: list(usable). 0 [] n(x,y)=c(u(c(x),c(y))). end_of_list. ------- end included file nDef.txt------- include("uzDef.txt"). ------- start included file uzDef.txt------- formula_list(usable). D=c(I). U=u(I,D). Z=c(U). end_of_list. -------> usable clausifies to: list(usable). 0 [] D=c(I). 0 [] U=u(I,D). 0 [] Z=c(U). end_of_list. ------- end included file uzDef.txt------- include("booleanLaws.txt"). ------- start included file booleanLaws.txt------- include("1To4booleanLaws.txt"). ------- start included file 1To4booleanLaws.txt------- formula_list(usable). all x y z (i(x,u(y,z))->i(n(x,c(z)),y)). all x y z (i(x,y)->i(u(z,x),u(z,y))). all x y (x=u(n(x,c(y)),n(x,y))). all x y i(n(x,y),y). end_of_list. -------> usable clausifies to: list(usable). 0 [] -i(x,u(y,z))|i(n(x,c(z)),y). 0 [] -i(x,y)|i(u(z,x),u(z,y)). 0 [] x=u(n(x,c(y)),n(x,y)). 0 [] i(n(x,y),y). end_of_list. ------- end included file 1To4booleanLaws.txt------- include("4To8booleanLaws.txt"). ------- start included file 4To8booleanLaws.txt------- formula_list(usable). all x y i(n(x,y),y). all x y z i(n(x,u(y,z)),u(y,n(x,z))). all x y (x=u(n(x,y),n(x,c(y)))). all x y z (i(x,y)->i(u(z,x),u(z,y))). all x y z (i(x,y)->i(n(z,x),n(z,y))). end_of_list. -------> usable clausifies to: list(usable). 0 [] i(n(x,y),y). 0 [] i(n(x,u(y,z)),u(y,n(x,z))). 0 [] x=u(n(x,y),n(x,c(y))). 0 [] -i(x,y)|i(u(z,x),u(z,y)). 0 [] -i(x,y)|i(n(z,x),n(z,y)). end_of_list. ------- end included file 4To8booleanLaws.txt------- include("9_10booleanLaws.txt"). ------- start included file 9_10booleanLaws.txt------- formula_list(usable). all x (u(x,Z)=x). all x y z (i(x,y)&i(y,z)->i(x,z)). end_of_list. -------> usable clausifies to: list(usable). 0 [] u(x,Z)=x. 0 [] -i(x,y)| -i(y,z)|i(x,z). end_of_list. ------- end included file 9_10booleanLaws.txt------- include("11booleanLaws.txt"). ------- start included file 11booleanLaws.txt------- formula_list(usable). all x y (c(n(x,y))=u(c(x),c(y))). all x y (c(u(x,y))=n(c(x),c(y))). end_of_list. -------> usable clausifies to: list(usable). 0 [] c(n(x,y))=u(c(x),c(y)). 0 [] c(u(x,y))=n(c(x),c(y)). end_of_list. ------- end included file 11booleanLaws.txt------- include("12booleanLaws.txt"). ------- start included file 12booleanLaws.txt------- formula_list(usable). all x y z (i(x,z)&i(y,z)->i(u(x,y),z)). end_of_list. -------> usable clausifies to: list(usable). 0 [] -i(x,z)| -i(y,z)|i(u(x,y),z). end_of_list. ------- end included file 12booleanLaws.txt------- include("13booleanLaws.txt"). ------- start included file 13booleanLaws.txt------- formula_list(usable). all x y (i(x,y)&i(y,x)->x=y). end_of_list. -------> usable clausifies to: list(usable). 0 [] -i(x,y)| -i(y,x)|x=y. end_of_list. ------- end included file 13booleanLaws.txt------- include("14booleanLaws.txt"). ------- start included file 14booleanLaws.txt------- formula_list(usable). c(D)!=I. end_of_list. -------> usable clausifies to: list(usable). 0 [] c(D)!=I. end_of_list. ------- end included file 14booleanLaws.txt------- ------- end included file booleanLaws.txt------- SCAN INPUT: prop=0, horn=1, equality=1, symmetry=0, max_lits=3. This is a Horn set with equality. The strategy will be Knuth-Bendix and hyper_res, with positive clauses in sos and nonpositive clauses in usable. dependent: set(knuth_bendix). dependent: set(para_from). dependent: set(para_into). dependent: clear(para_from_right). dependent: clear(para_into_right). dependent: set(para_from_vars). dependent: set(eq_units_both_ways). dependent: set(dynamic_demod_all). dependent: set(dynamic_demod). dependent: set(order_eq). dependent: set(back_demod). dependent: set(lrpo). dependent: set(hyper_res). dependent: clear(order_hyper). ------------> process usable: ** KEPT (pick-wt=8): 1 [] -i(x,y)|u(x,y)=y. ** KEPT (pick-wt=8): 2 [] i(x,y)|u(x,y)!=y. ** KEPT (pick-wt=11): 3 [] -i(x,u(y,z))|i(n(x,c(z)),y). ** KEPT (pick-wt=10): 4 [] -i(x,y)|i(u(z,x),u(z,y)). Following clause subsumed by 4 during input processing: 0 [] -i(x,y)|i(u(z,x),u(z,y)). ** KEPT (pick-wt=10): 5 [] -i(x,y)|i(n(z,x),n(z,y)). ** KEPT (pick-wt=9): 6 [] -i(x,y)| -i(y,z)|i(x,z). ** KEPT (pick-wt=11): 7 [] -i(x,y)| -i(z,y)|i(u(x,z),y). ** KEPT (pick-wt=9): 8 [] -i(x,y)| -i(y,x)|x=y. ** KEPT (pick-wt=4): 9 [] c(D)!=I. ------------> process sos: ** KEPT (pick-wt=7): 10 [] u(x,y)=u(y,x). ** KEPT (pick-wt=11): 12 [copy,11,flip.1] u(u(x,y),z)=u(x,u(y,z)). ---> New Demodulator: 13 [new_demod,12] u(u(x,y),z)=u(x,u(y,z)). ** KEPT (pick-wt=14): 14 [] u(c(u(c(x),y)),c(u(c(x),c(y))))=x. ---> New Demodulator: 15 [new_demod,14] u(c(u(c(x),y)),c(u(c(x),c(y))))=x. ** KEPT (pick-wt=10): 17 [copy,16,flip.1] c(u(c(x),c(y)))=n(x,y). ---> New Demodulator: 18 [new_demod,17] c(u(c(x),c(y)))=n(x,y). ** KEPT (pick-wt=4): 20 [copy,19,flip.1] c(I)=D. ---> New Demodulator: 21 [new_demod,20] c(I)=D. ** KEPT (pick-wt=5): 23 [copy,22,flip.1] u(I,D)=U. ---> New Demodulator: 24 [new_demod,23] u(I,D)=U. ** KEPT (pick-wt=4): 26 [copy,25,flip.1] c(U)=Z. ---> New Demodulator: 27 [new_demod,26] c(U)=Z. ** KEPT (pick-wt=10): 29 [copy,28,flip.1] u(n(x,c(y)),n(x,y))=x. ---> New Demodulator: 30 [new_demod,29] u(n(x,c(y)),n(x,y))=x. ** KEPT (pick-wt=5): 31 [] i(n(x,y),y). Following clause subsumed by 31 during input processing: 0 [] i(n(x,y),y). ** KEPT (pick-wt=11): 32 [] i(n(x,u(y,z)),u(y,n(x,z))). ** KEPT (pick-wt=10): 34 [copy,33,flip.1] u(n(x,y),n(x,c(y)))=x. ---> New Demodulator: 35 [new_demod,34] u(n(x,y),n(x,c(y)))=x. ** KEPT (pick-wt=5): 36 [] u(x,Z)=x. ---> New Demodulator: 37 [new_demod,36] u(x,Z)=x. ** KEPT (pick-wt=10): 38 [] c(n(x,y))=u(c(x),c(y)). ---> New Demodulator: 39 [new_demod,38] c(n(x,y))=u(c(x),c(y)). ** KEPT (pick-wt=10): 40 [] c(u(x,y))=n(c(x),c(y)). ---> New Demodulator: 41 [new_demod,40] c(u(x,y))=n(c(x),c(y)). Following clause subsumed by 10 during input processing: 0 [copy,10,flip.1] u(x,y)=u(y,x). >>>> Starting back demodulation with 13. >>>> Starting back demodulation with 15. >>>> Starting back demodulation with 18. >> back demodulating 14 with 18. >>>> Starting back demodulation with 21. >>>> Starting back demodulation with 24. >>>> Starting back demodulation with 27. >>>> Starting back demodulation with 30. >>>> Starting back demodulation with 35. >>>> Starting back demodulation with 37. >>>> Starting back demodulation with 39. >>>> Starting back demodulation with 41. >> back demodulating 17 with 41. >>>> Starting back demodulation with 43. Following clause subsumed by 44 during input processing: 0 [copy,44,flip.1] n(x,y)=n(x,y). ======= end of input processing ======= =========== start of search =========== ----> UNIT CONFLICT at 0.04 sec ----> 84 [binary,82.1,9.1] $F. Length of proof is 4. Level of proof is 3. ---------------- PROOF ---------------- 9 [] c(D)!=I. 14 [] u(c(u(c(x),y)),c(u(c(x),c(y))))=x. 19 [] D=c(I). 20 [copy,19,flip.1] c(I)=D. 33 [] x=u(n(x,y),n(x,c(y))). 35,34 [copy,33,flip.1] u(n(x,y),n(x,c(y)))=x. 41,40 [] c(u(x,y))=n(c(x),c(y)). 42 [back_demod,14,demod,41,41,35] c(c(x))=x. 82 [para_into,42.1.1.1,20.1.1] c(D)=I. 84 [binary,82.1,9.1] $F. ------------ end of proof ------------- Search stopped by max_proofs option. ============ end of search ============ -------------- statistics ------------- clauses given 15 clauses generated 125 clauses kept 54 clauses forward subsumed 52 clauses back subsumed 7 Kbytes malloced 159 ----------- times (seconds) ----------- user CPU time 0.24 (0 hr, 0 min, 0 sec) system CPU time 0.00 (0 hr, 0 min, 0 sec) wall-clock time 0 (0 hr, 0 min, 0 sec) hyper_res time 0.00 para_into time 0.00 para_from time 0.00 for_sub time 0.00 back_sub time 0.00 conflict time 0.00 demod time 0.00 That finishes the proof of the theorem. Process 0 finished Sun Nov 30 22:20:52 2003