TSTP Solution File: SWC381-1 by Twee---2.4.2

View Problem - Process Solution 
%------------------------------------------------------------------------------
% File     : Twee---2.4.2
% Problem  : SWC381-1 : TPTP v8.1.2. Released v2.4.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : parallel-twee %s --tstp --conditional-encoding if --smaller --drop-non-horn --give-up-on-saturation --explain-encoding --formal-proof

% Computer : n011.cluster.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory   : 8042.1875MB
% OS       : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit  : 300s
% DateTime : Thu Aug 31 20:55:16 EDT 2023

% Result   : Unsatisfiable 3.24s 0.81s
% Output   : Proof 3.24s
% Verified : 
% SZS Type : -

% Comments : 
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%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.04/0.12  % Problem  : SWC381-1 : TPTP v8.1.2. Released v2.4.0.
% 0.04/0.12  % Command  : parallel-twee %s --tstp --conditional-encoding if --smaller --drop-non-horn --give-up-on-saturation --explain-encoding --formal-proof
% 0.12/0.34  % Computer : n011.cluster.edu
% 0.12/0.34  % Model    : x86_64 x86_64
% 0.12/0.34  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.34  % Memory   : 8042.1875MB
% 0.12/0.34  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.12/0.34  % CPULimit : 300
% 0.12/0.34  % WCLimit  : 300
% 0.12/0.34  % DateTime : Mon Aug 28 16:10:10 EDT 2023
% 0.12/0.34  % CPUTime  : 
% 3.24/0.81  Command-line arguments: --no-flatten-goal
% 3.24/0.81  
% 3.24/0.81  % SZS status Unsatisfiable
% 3.24/0.81  
% 3.24/0.82  % SZS output start Proof
% 3.24/0.82  Take the following subset of the input axioms:
% 3.24/0.82    fof(clause110, axiom, ![U, V]: (~gt(U, V) | (~gt(V, U) | (~ssItem(U) | ~ssItem(V))))).
% 3.24/0.82    fof(clause111, axiom, ![U2, V2]: (U2!=V2 | (~lt(U2, V2) | (~ssItem(V2) | ~ssItem(U2))))).
% 3.24/0.82    fof(clause114, axiom, ![U2, V2]: (~lt(U2, V2) | (~lt(V2, U2) | (~ssItem(U2) | ~ssItem(V2))))).
% 3.24/0.82    fof(clause115, axiom, ![U2, V2]: (U2!=V2 | (~neq(U2, V2) | (~ssList(V2) | ~ssList(U2))))).
% 3.24/0.82    fof(clause117, axiom, ![U2, V2]: (U2!=V2 | (~neq(U2, V2) | (~ssItem(V2) | ~ssItem(U2))))).
% 3.24/0.82    fof(clause179, axiom, ![W, X, Y, U2, V2]: (app(app(U2, cons(V2, W)), cons(V2, X))!=Y | (~ssList(X) | (~ssList(W) | (~ssList(U2) | (~ssItem(V2) | (~duplicatefreeP(Y) | ~ssList(Y)))))))).
% 3.24/0.82    fof(clause185, axiom, ![Z, U2, V2, W2, X2, Y2]: (~leq(U2, V2) | (~leq(V2, U2) | (app(app(W2, cons(U2, X2)), cons(V2, Y2))!=Z | (~ssList(Y2) | (~ssList(X2) | (~ssList(W2) | (~ssItem(V2) | (~ssItem(U2) | (~cyclefreeP(Z) | ~ssList(Z))))))))))).
% 3.24/0.82    fof(clause63, axiom, ![U2]: (~lt(U2, U2) | ~ssItem(U2))).
% 3.24/0.82    fof(clause71, axiom, ![U2]: (~memberP(nil, U2) | ~ssItem(U2))).
% 3.24/0.82    fof(clause98, axiom, ![U2, V2]: (cons(U2, V2)!=nil | (~ssItem(U2) | ~ssList(V2)))).
% 3.24/0.82    fof(clause99, axiom, ![U2, V2]: (cons(U2, V2)!=V2 | (~ssItem(U2) | ~ssList(V2)))).
% 3.24/0.82    fof(co1_13, negated_conjecture, ![A]: (~ssItem(A) | (cons(A, nil)!=sk1 | (~memberP(sk2, A) | ~neq(sk4, nil))))).
% 3.24/0.82    fof(co1_14, negated_conjecture, ssItem(sk5) | ~neq(sk4, nil)).
% 3.24/0.82    fof(co1_15, negated_conjecture, cons(sk5, nil)=sk3 | ~neq(sk4, nil)).
% 3.24/0.82    fof(co1_16, negated_conjecture, memberP(sk4, sk5) | ~neq(sk4, nil)).
% 3.24/0.82    fof(co1_5, negated_conjecture, sk2=sk4).
% 3.24/0.82    fof(co1_6, negated_conjecture, sk1=sk3).
% 3.24/0.82    fof(co1_7, negated_conjecture, neq(sk2, nil) | neq(sk2, nil)).
% 3.24/0.82  
% 3.24/0.82  Now clausify the problem and encode Horn clauses using encoding 3 of
% 3.24/0.82  http://www.cse.chalmers.se/~nicsma/papers/horn.pdf.
% 3.24/0.82  We repeatedly replace C & s=t => u=v by the two clauses:
% 3.24/0.82    fresh(y, y, x1...xn) = u
% 3.24/0.82    C => fresh(s, t, x1...xn) = v
% 3.24/0.82  where fresh is a fresh function symbol and x1..xn are the free
% 3.24/0.82  variables of u and v.
% 3.24/0.82  A predicate p(X) is encoded as p(X)=true (this is sound, because the
% 3.24/0.82  input problem has no model of domain size 1).
% 3.24/0.82  
% 3.24/0.82  The encoding turns the above axioms into the following unit equations and goals:
% 3.24/0.82  
% 3.24/0.82  Axiom 1 (co1_6): sk1 = sk3.
% 3.24/0.82  Axiom 2 (co1_5): sk2 = sk4.
% 3.24/0.82  Axiom 3 (co1_14): fresh18(X, X) = true2.
% 3.24/0.82  Axiom 4 (co1_15): fresh17(X, X) = sk3.
% 3.24/0.82  Axiom 5 (co1_16): fresh16(X, X) = true2.
% 3.24/0.82  Axiom 6 (co1_7): neq(sk2, nil) = true2.
% 3.24/0.82  Axiom 7 (co1_14): fresh18(neq(sk4, nil), true2) = ssItem(sk5).
% 3.24/0.82  Axiom 8 (co1_15): fresh17(neq(sk4, nil), true2) = cons(sk5, nil).
% 3.24/0.82  Axiom 9 (co1_16): fresh16(neq(sk4, nil), true2) = memberP(sk4, sk5).
% 3.24/0.82  
% 3.24/0.82  Goal 1 (co1_13): tuple5(cons(X, nil), ssItem(X), memberP(sk2, X), neq(sk4, nil)) = tuple5(sk1, true2, true2, true2).
% 3.24/0.82  The goal is true when:
% 3.24/0.82    X = sk5
% 3.24/0.82  
% 3.24/0.82  Proof:
% 3.24/0.82    tuple5(cons(sk5, nil), ssItem(sk5), memberP(sk2, sk5), neq(sk4, nil))
% 3.24/0.82  = { by axiom 2 (co1_5) R->L }
% 3.24/0.82    tuple5(cons(sk5, nil), ssItem(sk5), memberP(sk2, sk5), neq(sk2, nil))
% 3.24/0.82  = { by axiom 6 (co1_7) }
% 3.24/0.82    tuple5(cons(sk5, nil), ssItem(sk5), memberP(sk2, sk5), true2)
% 3.24/0.82  = { by axiom 7 (co1_14) R->L }
% 3.24/0.82    tuple5(cons(sk5, nil), fresh18(neq(sk4, nil), true2), memberP(sk2, sk5), true2)
% 3.24/0.82  = { by axiom 2 (co1_5) R->L }
% 3.24/0.82    tuple5(cons(sk5, nil), fresh18(neq(sk2, nil), true2), memberP(sk2, sk5), true2)
% 3.24/0.82  = { by axiom 6 (co1_7) }
% 3.24/0.82    tuple5(cons(sk5, nil), fresh18(true2, true2), memberP(sk2, sk5), true2)
% 3.24/0.82  = { by axiom 3 (co1_14) }
% 3.24/0.82    tuple5(cons(sk5, nil), true2, memberP(sk2, sk5), true2)
% 3.24/0.82  = { by axiom 8 (co1_15) R->L }
% 3.24/0.82    tuple5(fresh17(neq(sk4, nil), true2), true2, memberP(sk2, sk5), true2)
% 3.24/0.82  = { by axiom 2 (co1_5) R->L }
% 3.24/0.82    tuple5(fresh17(neq(sk2, nil), true2), true2, memberP(sk2, sk5), true2)
% 3.24/0.82  = { by axiom 6 (co1_7) }
% 3.24/0.82    tuple5(fresh17(true2, true2), true2, memberP(sk2, sk5), true2)
% 3.24/0.82  = { by axiom 4 (co1_15) }
% 3.24/0.82    tuple5(sk3, true2, memberP(sk2, sk5), true2)
% 3.24/0.82  = { by axiom 2 (co1_5) }
% 3.24/0.82    tuple5(sk3, true2, memberP(sk4, sk5), true2)
% 3.24/0.82  = { by axiom 9 (co1_16) R->L }
% 3.24/0.82    tuple5(sk3, true2, fresh16(neq(sk4, nil), true2), true2)
% 3.24/0.82  = { by axiom 2 (co1_5) R->L }
% 3.24/0.82    tuple5(sk3, true2, fresh16(neq(sk2, nil), true2), true2)
% 3.24/0.82  = { by axiom 6 (co1_7) }
% 3.24/0.82    tuple5(sk3, true2, fresh16(true2, true2), true2)
% 3.24/0.82  = { by axiom 5 (co1_16) }
% 3.24/0.82    tuple5(sk3, true2, true2, true2)
% 3.24/0.82  = { by axiom 1 (co1_6) R->L }
% 3.24/0.82    tuple5(sk1, true2, true2, true2)
% 3.24/0.82  % SZS output end Proof
% 3.24/0.82  
% 3.24/0.82  RESULT: Unsatisfiable (the axioms are contradictory).
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