NO
Problem 1:
Infeasibility Problem:
[(VAR vNonEmpty x y vNonEmpty)
(STRATEGY CONTEXTSENSITIVE
(a)
(b)
(f 1 2)
(g 1)
(h 1)
(d)
(fSNonEmpty)
(s 1)
)
(RULES
a -> d
b -> d
f(x,y) -> g(x) | a ->* d
f(x,y) -> h(x) | b ->* d
g(s(x)) -> x
h(s(x)) -> x
)
]
Infeasibility Conditions:
a ->* d, b ->* d
Problem 1:
Obtaining a proof using Prover9:
-> Prover9 Output:
============================== Prover9 ===============================
Prover9 (64) version 2009-11A, November 2009.
Process 3167892 was started by sandbox2 on z004.star.cs.uiowa.edu,
Tue Jul 30 08:25:55 2024
The command was "./prover9 -f /tmp/prover93167882-0.in".
============================== end of head ===========================
============================== INPUT =================================
% Reading from file /tmp/prover93167882-0.in
assign(max_seconds,20).
formulas(assumptions).
->_s0(x1,y) -> ->_s0(f(x1,x2),f(y,x2)) # label(congruence).
->_s0(x2,y) -> ->_s0(f(x1,x2),f(x1,y)) # label(congruence).
->_s0(x1,y) -> ->_s0(g(x1),g(y)) # label(congruence).
->_s0(x1,y) -> ->_s0(h(x1),h(y)) # label(congruence).
->_s0(x1,y) -> ->_s0(s(x1),s(y)) # label(congruence).
->_s0(a,d) # label(replacement).
->_s0(b,d) # label(replacement).
->*_s0(x,x) # label(reflexivity).
->_s0(x,y) & ->*_s0(y,z) -> ->*_s0(x,z) # label(transitivity).
end_of_list.
formulas(goals).
->*_s0(a,d) & ->*_s0(b,d) # label(goal).
end_of_list.
============================== end of input ==========================
============================== PROCESS NON-CLAUSAL FORMULAS ==========
% Formulas that are not ordinary clauses:
1 ->_s0(x1,y) -> ->_s0(f(x1,x2),f(y,x2)) # label(congruence) # label(non_clause). [assumption].
2 ->_s0(x2,y) -> ->_s0(f(x1,x2),f(x1,y)) # label(congruence) # label(non_clause). [assumption].
3 ->_s0(x1,y) -> ->_s0(g(x1),g(y)) # label(congruence) # label(non_clause). [assumption].
4 ->_s0(x1,y) -> ->_s0(h(x1),h(y)) # label(congruence) # label(non_clause). [assumption].
5 ->_s0(x1,y) -> ->_s0(s(x1),s(y)) # label(congruence) # label(non_clause). [assumption].
6 ->_s0(x,y) & ->*_s0(y,z) -> ->*_s0(x,z) # label(transitivity) # label(non_clause). [assumption].
7 ->*_s0(a,d) & ->*_s0(b,d) # label(goal) # label(non_clause) # label(goal). [goal].
============================== end of process non-clausal formulas ===
============================== PROCESS INITIAL CLAUSES ===============
% Clauses before input processing:
formulas(usable).
end_of_list.
formulas(sos).
-->_s0(x,y) | ->_s0(f(x,z),f(y,z)) # label(congruence). [clausify(1)].
-->_s0(x,y) | ->_s0(f(z,x),f(z,y)) # label(congruence). [clausify(2)].
-->_s0(x,y) | ->_s0(g(x),g(y)) # label(congruence). [clausify(3)].
-->_s0(x,y) | ->_s0(h(x),h(y)) # label(congruence). [clausify(4)].
-->_s0(x,y) | ->_s0(s(x),s(y)) # label(congruence). [clausify(5)].
->_s0(a,d) # label(replacement). [assumption].
->_s0(b,d) # label(replacement). [assumption].
->*_s0(x,x) # label(reflexivity). [assumption].
-->_s0(x,y) | -->*_s0(y,z) | ->*_s0(x,z) # label(transitivity). [clausify(6)].
-->*_s0(a,d) | -->*_s0(b,d) # label(goal). [deny(7)].
end_of_list.
formulas(demodulators).
end_of_list.
============================== PREDICATE ELIMINATION =================
No predicates eliminated.
============================== end predicate elimination =============
Auto_denials:
% copying label goal to answer in negative clause
Term ordering decisions:
Predicate symbol precedence: predicate_order([ ->_s0, ->*_s0 ]).
Function symbol precedence: function_order([ d, a, b, f, g, h, s ]).
After inverse_order: (no changes).
Unfolding symbols: (none).
Auto_inference settings:
% set(neg_binary_resolution). % (HNE depth_diff=-5)
% clear(ordered_res). % (HNE depth_diff=-5)
% set(ur_resolution). % (HNE depth_diff=-5)
% set(ur_resolution) -> set(pos_ur_resolution).
% set(ur_resolution) -> set(neg_ur_resolution).
Auto_process settings:
% set(unit_deletion). % (Horn set with negative nonunits)
kept: 8 -->_s0(x,y) | ->_s0(f(x,z),f(y,z)) # label(congruence). [clausify(1)].
kept: 9 -->_s0(x,y) | ->_s0(f(z,x),f(z,y)) # label(congruence). [clausify(2)].
kept: 10 -->_s0(x,y) | ->_s0(g(x),g(y)) # label(congruence). [clausify(3)].
kept: 11 -->_s0(x,y) | ->_s0(h(x),h(y)) # label(congruence). [clausify(4)].
kept: 12 -->_s0(x,y) | ->_s0(s(x),s(y)) # label(congruence). [clausify(5)].
kept: 13 ->_s0(a,d) # label(replacement). [assumption].
kept: 14 ->_s0(b,d) # label(replacement). [assumption].
kept: 15 ->*_s0(x,x) # label(reflexivity). [assumption].
kept: 16 -->_s0(x,y) | -->*_s0(y,z) | ->*_s0(x,z) # label(transitivity). [clausify(6)].
kept: 17 -->*_s0(a,d) | -->*_s0(b,d) # label(goal) # answer(goal). [deny(7)].
============================== end of process initial clauses ========
============================== CLAUSES FOR SEARCH ====================
% Clauses after input processing:
formulas(usable).
end_of_list.
formulas(sos).
8 -->_s0(x,y) | ->_s0(f(x,z),f(y,z)) # label(congruence). [clausify(1)].
9 -->_s0(x,y) | ->_s0(f(z,x),f(z,y)) # label(congruence). [clausify(2)].
10 -->_s0(x,y) | ->_s0(g(x),g(y)) # label(congruence). [clausify(3)].
11 -->_s0(x,y) | ->_s0(h(x),h(y)) # label(congruence). [clausify(4)].
12 -->_s0(x,y) | ->_s0(s(x),s(y)) # label(congruence). [clausify(5)].
13 ->_s0(a,d) # label(replacement). [assumption].
14 ->_s0(b,d) # label(replacement). [assumption].
15 ->*_s0(x,x) # label(reflexivity). [assumption].
16 -->_s0(x,y) | -->*_s0(y,z) | ->*_s0(x,z) # label(transitivity). [clausify(6)].
17 -->*_s0(a,d) | -->*_s0(b,d) # label(goal) # answer(goal). [deny(7)].
end_of_list.
formulas(demodulators).
end_of_list.
============================== end of clauses for search =============
============================== SEARCH ================================
% Starting search at 0.00 seconds.
given #1 (I,wt=10): 8 -->_s0(x,y) | ->_s0(f(x,z),f(y,z)) # label(congruence). [clausify(1)].
given #2 (I,wt=10): 9 -->_s0(x,y) | ->_s0(f(z,x),f(z,y)) # label(congruence). [clausify(2)].
given #3 (I,wt=8): 10 -->_s0(x,y) | ->_s0(g(x),g(y)) # label(congruence). [clausify(3)].
given #4 (I,wt=8): 11 -->_s0(x,y) | ->_s0(h(x),h(y)) # label(congruence). [clausify(4)].
given #5 (I,wt=8): 12 -->_s0(x,y) | ->_s0(s(x),s(y)) # label(congruence). [clausify(5)].
given #6 (I,wt=3): 13 ->_s0(a,d) # label(replacement). [assumption].
given #7 (I,wt=3): 14 ->_s0(b,d) # label(replacement). [assumption].
given #8 (I,wt=3): 15 ->*_s0(x,x) # label(reflexivity). [assumption].
given #9 (I,wt=9): 16 -->_s0(x,y) | -->*_s0(y,z) | ->*_s0(x,z) # label(transitivity). [clausify(6)].
============================== PROOF =================================
% Proof 1 at 0.00 (+ 0.00) seconds: goal.
% Length of proof is 10.
% Level of proof is 3.
% Maximum clause weight is 9.000.
% Given clauses 9.
6 ->_s0(x,y) & ->*_s0(y,z) -> ->*_s0(x,z) # label(transitivity) # label(non_clause). [assumption].
7 ->*_s0(a,d) & ->*_s0(b,d) # label(goal) # label(non_clause) # label(goal). [goal].
13 ->_s0(a,d) # label(replacement). [assumption].
14 ->_s0(b,d) # label(replacement). [assumption].
15 ->*_s0(x,x) # label(reflexivity). [assumption].
16 -->_s0(x,y) | -->*_s0(y,z) | ->*_s0(x,z) # label(transitivity). [clausify(6)].
17 -->*_s0(a,d) | -->*_s0(b,d) # label(goal) # answer(goal). [deny(7)].
28 ->*_s0(b,d). [ur(16,a,14,a,b,15,a)].
29 ->*_s0(a,d). [ur(16,a,13,a,b,15,a)].
30 $F # answer(goal). [back_unit_del(17),unit_del(a,29),unit_del(b,28)].
============================== end of proof ==========================
============================== STATISTICS ============================
Given=9. Generated=23. Kept=22. proofs=1.
Usable=9. Sos=10. Demods=0. Limbo=2, Disabled=11. Hints=0.
Kept_by_rule=0, Deleted_by_rule=0.
Forward_subsumed=0. Back_subsumed=0.
Sos_limit_deleted=0. Sos_displaced=0. Sos_removed=0.
New_demodulators=0 (0 lex), Back_demodulated=0. Back_unit_deleted=1.
Demod_attempts=0. Demod_rewrites=0.
Res_instance_prunes=0. Para_instance_prunes=0. Basic_paramod_prunes=0.
Nonunit_fsub_feature_tests=1. Nonunit_bsub_feature_tests=10.
Megabytes=0.07.
User_CPU=0.00, System_CPU=0.00, Wall_clock=0.
============================== end of statistics =====================
============================== end of search =========================
THEOREM PROVED
Exiting with 1 proof.
Process 3167892 exit (max_proofs) Tue Jul 30 08:25:55 2024
The problem is feasible.