TSTP Solution File: GEG006^1 by Satallax---3.5

%------------------------------------------------------------------------------
% File     : Satallax---3.5
% Problem  : GEG006^1 : TPTP v8.1.0. Released v4.1.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : satallax -E eprover-ho -P picomus -M modes -p tstp -t %d %s

% Computer : n022.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  : 600s
% DateTime : Sat Jul 16 02:41:36 EDT 2022

% Result   : Theorem 9.99s 10.21s
% Output   : Proof 9.99s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.12  % Problem  : GEG006^1 : TPTP v8.1.0. Released v4.1.0.
% 0.07/0.12  % Command  : satallax -E eprover-ho -P picomus -M modes -p tstp -t %d %s
% 0.11/0.33  % Computer : n022.cluster.edu
% 0.11/0.33  % Model    : x86_64 x86_64
% 0.11/0.33  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.11/0.33  % Memory   : 8042.1875MB
% 0.11/0.33  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.11/0.33  % CPULimit : 300
% 0.11/0.33  % WCLimit  : 600
% 0.11/0.33  % DateTime : Tue Jun  7 05:06:20 EDT 2022
% 0.11/0.33  % CPUTime  : 
% 9.99/10.21  % SZS status Theorem
% 9.99/10.21  % Mode: mode515
% 9.99/10.21  % Inferences: 475
% 9.99/10.21  % SZS output start Proof
% 9.99/10.21  thf(ty_reg, type, reg : $tType).
% 9.99/10.21  thf(ty_a, type, a : ($i>$i>$o)).
% 9.99/10.21  thf(ty_spain, type, spain : reg).
% 9.99/10.21  thf(ty_catalunya, type, catalunya : reg).
% 9.99/10.21  thf(ty_eigen__25, type, eigen__25 : reg).
% 9.99/10.21  thf(ty_eigen__1, type, eigen__1 : $i).
% 9.99/10.21  thf(ty_paris, type, paris : reg).
% 9.99/10.21  thf(ty_eigen__0, type, eigen__0 : $i).
% 9.99/10.21  thf(ty_eigen__9, type, eigen__9 : reg).
% 9.99/10.21  thf(ty_france, type, france : reg).
% 9.99/10.21  thf(ty_c, type, c : (reg>reg>$o)).
% 9.99/10.21  thf(h0, assumption, (![X1:reg>$o]:(![X2:reg]:((X1 @ X2) => (X1 @ (eps__0 @ X1))))),introduced(assumption,[])).
% 9.99/10.21  thf(eigendef_eigen__9, definition, eigen__9 = (eps__0 @ (^[X1:reg]:(~((((c @ X1) @ catalunya) => ((c @ X1) @ catalunya)))))), introduced(definition,[new_symbols(definition,[eigen__9])])).
% 9.99/10.21  thf(eigendef_eigen__25, definition, eigen__25 = (eps__0 @ (^[X1:reg]:(~((((c @ X1) @ paris) => ((c @ X1) @ paris)))))), introduced(definition,[new_symbols(definition,[eigen__25])])).
% 9.99/10.21  thf(sP1,plain,sP1 <=> ((a @ eigen__0) @ eigen__1),introduced(definition,[new_symbols(definition,[sP1])])).
% 9.99/10.21  thf(sP2,plain,sP2 <=> ((![X1:reg]:(((c @ X1) @ catalunya) => ((c @ X1) @ catalunya))) => (~((![X1:reg]:(((c @ X1) @ catalunya) => ((c @ X1) @ spain)))))),introduced(definition,[new_symbols(definition,[sP2])])).
% 9.99/10.21  thf(sP3,plain,sP3 <=> ((![X1:reg]:(((c @ X1) @ catalunya) => ((c @ X1) @ spain))) => (![X1:reg]:(((c @ X1) @ spain) => ((c @ X1) @ catalunya)))),introduced(definition,[new_symbols(definition,[sP3])])).
% 9.99/10.21  thf(sP4,plain,sP4 <=> (((c @ eigen__9) @ catalunya) => ((c @ eigen__9) @ catalunya)),introduced(definition,[new_symbols(definition,[sP4])])).
% 9.99/10.21  thf(sP5,plain,sP5 <=> (![X1:reg]:(((c @ X1) @ catalunya) => ((c @ X1) @ catalunya))),introduced(definition,[new_symbols(definition,[sP5])])).
% 9.99/10.21  thf(sP6,plain,sP6 <=> (sP1 => (~(((~(sP3)) => (![X1:reg]:((~((((c @ X1) @ catalunya) => (~((![X2:reg]:((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ X1))) => (~((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ catalunya)))))))))))) => (((c @ X1) @ spain) => (~((![X2:reg]:((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ X1))) => (~((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ spain)))))))))))))))),introduced(definition,[new_symbols(definition,[sP6])])).
% 9.99/10.21  thf(sP7,plain,sP7 <=> (![X1:reg]:(((c @ X1) @ catalunya) => ((c @ X1) @ spain))),introduced(definition,[new_symbols(definition,[sP7])])).
% 9.99/10.21  thf(sP8,plain,sP8 <=> (![X1:$i]:(![X2:$i]:(((a @ X1) @ X2) => (~(((~(sP3)) => (![X3:reg]:((~((((c @ X3) @ catalunya) => (~((![X4:reg]:((![X5:reg]:(((c @ X5) @ X4) => ((c @ X5) @ X3))) => (~((![X5:reg]:(((c @ X5) @ X4) => ((c @ X5) @ catalunya)))))))))))) => (((c @ X3) @ spain) => (~((![X4:reg]:((![X5:reg]:(((c @ X5) @ X4) => ((c @ X5) @ X3))) => (~((![X5:reg]:(((c @ X5) @ X4) => ((c @ X5) @ spain)))))))))))))))))),introduced(definition,[new_symbols(definition,[sP8])])).
% 9.99/10.21  thf(sP9,plain,sP9 <=> (![X1:$i]:(((a @ eigen__0) @ X1) => (~(((~(sP3)) => (![X2:reg]:((~((((c @ X2) @ catalunya) => (~((![X3:reg]:((![X4:reg]:(((c @ X4) @ X3) => ((c @ X4) @ X2))) => (~((![X4:reg]:(((c @ X4) @ X3) => ((c @ X4) @ catalunya)))))))))))) => (((c @ X2) @ spain) => (~((![X3:reg]:((![X4:reg]:(((c @ X4) @ X3) => ((c @ X4) @ X2))) => (~((![X4:reg]:(((c @ X4) @ X3) => ((c @ X4) @ spain))))))))))))))))),introduced(definition,[new_symbols(definition,[sP9])])).
% 9.99/10.21  thf(sP10,plain,sP10 <=> (![X1:reg]:(((c @ X1) @ paris) => ((c @ X1) @ paris))),introduced(definition,[new_symbols(definition,[sP10])])).
% 9.99/10.21  thf(sP11,plain,sP11 <=> (![X1:reg]:((![X2:reg]:(((c @ X2) @ X1) => ((c @ X2) @ france))) => (~((![X2:reg]:(((c @ X2) @ X1) => ((c @ X2) @ paris))))))),introduced(definition,[new_symbols(definition,[sP11])])).
% 9.99/10.21  thf(sP12,plain,sP12 <=> ((![X1:reg]:(((c @ X1) @ paris) => ((c @ X1) @ france))) => (~(sP10))),introduced(definition,[new_symbols(definition,[sP12])])).
% 9.99/10.21  thf(sP13,plain,sP13 <=> ((~(sP3)) => (![X1:reg]:((~((((c @ X1) @ catalunya) => (~((![X2:reg]:((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ X1))) => (~((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ catalunya)))))))))))) => (((c @ X1) @ spain) => (~((![X2:reg]:((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ X1))) => (~((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ spain))))))))))))),introduced(definition,[new_symbols(definition,[sP13])])).
% 9.99/10.21  thf(sP14,plain,sP14 <=> (![X1:$i]:(((a @ eigen__0) @ X1) => (~(((~(((![X2:reg]:(((c @ X2) @ paris) => ((c @ X2) @ france))) => (![X2:reg]:(((c @ X2) @ france) => ((c @ X2) @ paris)))))) => (~((![X2:reg]:((~((((c @ X2) @ paris) => (~((![X3:reg]:((![X4:reg]:(((c @ X4) @ X3) => ((c @ X4) @ X2))) => (~((![X4:reg]:(((c @ X4) @ X3) => ((c @ X4) @ paris)))))))))))) => (((c @ X2) @ france) => (~((![X3:reg]:((![X4:reg]:(((c @ X4) @ X3) => ((c @ X4) @ X2))) => (~((![X4:reg]:(((c @ X4) @ X3) => ((c @ X4) @ france))))))))))))))))))),introduced(definition,[new_symbols(definition,[sP14])])).
% 9.99/10.21  thf(sP15,plain,sP15 <=> ((~(((![X1:reg]:(((c @ X1) @ paris) => ((c @ X1) @ france))) => (![X1:reg]:(((c @ X1) @ france) => ((c @ X1) @ paris)))))) => (~((![X1:reg]:((~((((c @ X1) @ paris) => (~((![X2:reg]:((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ X1))) => (~((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ paris)))))))))))) => (((c @ X1) @ france) => (~((![X2:reg]:((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ X1))) => (~((![X3:reg]:(((c @ X3) @ X2) => ((c @ X3) @ france))))))))))))))),introduced(definition,[new_symbols(definition,[sP15])])).
% 9.99/10.21  thf(sP16,plain,sP16 <=> (((c @ eigen__25) @ paris) => ((c @ eigen__25) @ paris)),introduced(definition,[new_symbols(definition,[sP16])])).
% 9.99/10.21  thf(sP17,plain,sP17 <=> (![X1:reg]:(((c @ X1) @ paris) => ((c @ X1) @ france))),introduced(definition,[new_symbols(definition,[sP17])])).
% 9.99/10.21  thf(sP18,plain,sP18 <=> (![X1:$i]:(![X2:$i]:(((a @ X1) @ X2) => (~(sP15))))),introduced(definition,[new_symbols(definition,[sP18])])).
% 9.99/10.21  thf(sP19,plain,sP19 <=> (![X1:reg]:((![X2:reg]:(((c @ X2) @ X1) => ((c @ X2) @ catalunya))) => (~((![X2:reg]:(((c @ X2) @ X1) => ((c @ X2) @ spain))))))),introduced(definition,[new_symbols(definition,[sP19])])).
% 9.99/10.21  thf(sP20,plain,sP20 <=> ((c @ eigen__9) @ catalunya),introduced(definition,[new_symbols(definition,[sP20])])).
% 9.99/10.21  thf(sP21,plain,sP21 <=> (sP1 => (~(sP15))),introduced(definition,[new_symbols(definition,[sP21])])).
% 9.99/10.21  thf(sP22,plain,sP22 <=> ((c @ eigen__25) @ paris),introduced(definition,[new_symbols(definition,[sP22])])).
% 9.99/10.21  thf(sP23,plain,sP23 <=> (sP17 => (![X1:reg]:(((c @ X1) @ france) => ((c @ X1) @ paris)))),introduced(definition,[new_symbols(definition,[sP23])])).
% 9.99/10.21  thf(def_meq_ind,definition,(meq_ind = (^[X1:mu]:(^[X2:mu]:(^[X3:$i]:(X1 = X2)))))).
% 9.99/10.21  thf(def_meq_prop,definition,(meq_prop = (^[X1:$i>$o]:(^[X2:$i>$o]:(^[X3:$i]:((X1 @ X3) = (X2 @ X3))))))).
% 9.99/10.21  thf(def_mnot,definition,(mnot = (^[X1:$i>$o]:(^[X2:$i]:(~((X1 @ X2))))))).
% 9.99/10.21  thf(def_mor,definition,(mor = (^[X1:$i>$o]:(^[X2:$i>$o]:(^[X3:$i]:((~((X1 @ X3))) => (X2 @ X3))))))).
% 9.99/10.21  thf(def_mand,definition,(mand = (^[X1:$i>$o]:(^[X2:$i>$o]:(mnot @ ((mor @ (mnot @ X1)) @ (mnot @ X2))))))).
% 9.99/10.21  thf(def_mimplies,definition,(mimplies = (^[X1:$i>$o]:(mor @ (mnot @ X1))))).
% 9.99/10.21  thf(def_mimplied,definition,(mimplied = (^[X1:$i>$o]:(^[X2:$i>$o]:((mor @ (mnot @ X2)) @ X1))))).
% 9.99/10.21  thf(def_mequiv,definition,(mequiv = (^[X1:$i>$o]:(^[X2:$i>$o]:((mand @ ((mimplies @ X1) @ X2)) @ ((mimplies @ X2) @ X1)))))).
% 9.99/10.21  thf(def_mxor,definition,(mxor = (^[X1:$i>$o]:(^[X2:$i>$o]:(mnot @ ((mequiv @ X1) @ X2)))))).
% 9.99/10.21  thf(def_mforall_ind,definition,(mforall_ind = (^[X1:mu>$i>$o]:(^[X2:$i]:(![X3:mu]:((X1 @ X3) @ X2)))))).
% 9.99/10.21  thf(def_mforall_prop,definition,(mforall_prop = (^[X1:($i>$o)>$i>$o]:(^[X2:$i]:(![X3:$i>$o]:((X1 @ X3) @ X2)))))).
% 9.99/10.21  thf(def_mexists_ind,definition,(mexists_ind = (^[X1:mu>$i>$o]:(mnot @ (mforall_ind @ (^[X2:mu]:(mnot @ (X1 @ X2)))))))).
% 9.99/10.21  thf(def_mexists_prop,definition,(mexists_prop = (^[X1:($i>$o)>$i>$o]:(mnot @ (mforall_prop @ (^[X2:$i>$o]:(mnot @ (X1 @ X2)))))))).
% 9.99/10.21  thf(def_mtrue,definition,(mtrue = (^[X1:$i]:(~($false))))).
% 9.99/10.21  thf(def_mfalse,definition,(mfalse = (mnot @ mtrue))).
% 9.99/10.21  thf(def_mbox,definition,(mbox = (^[X1:$i>$i>$o]:(^[X2:$i>$o]:(^[X3:$i]:(![X4:$i]:(((X1 @ X3) @ X4) => (X2 @ X4)))))))).
% 9.99/10.21  thf(def_mdia,definition,(mdia = (^[X1:$i>$i>$o]:(^[X2:$i>$o]:(mnot @ ((mbox @ X1) @ (mnot @ X2))))))).
% 9.99/10.21  thf(def_mreflexive,definition,(mreflexive = (^[X1:$i>$i>$o]:(![X2:$i]:((X1 @ X2) @ X2))))).
% 9.99/10.21  thf(def_msymmetric,definition,(msymmetric = (^[X1:$i>$i>$o]:(![X2:$i]:(![X3:$i]:(((X1 @ X2) @ X3) => ((X1 @ X3) @ X2))))))).
% 9.99/10.21  thf(def_mserial,definition,(mserial = (^[X1:$i>$i>$o]:(![X2:$i]:(~((![X3:$i]:(~(((X1 @ X2) @ X3)))))))))).
% 9.99/10.21  thf(def_mtransitive,definition,(mtransitive = (^[X1:$i>$i>$o]:(![X2:$i]:(![X3:$i]:(![X4:$i]:((~((((X1 @ X2) @ X3) => (~(((X1 @ X3) @ X4)))))) => ((X1 @ X2) @ X4)))))))).
% 9.99/10.21  thf(def_meuclidean,definition,(meuclidean = (^[X1:$i>$i>$o]:(![X2:$i]:(![X3:$i]:(![X4:$i]:((~((((X1 @ X2) @ X3) => (~(((X1 @ X2) @ X4)))))) => ((X1 @ X3) @ X4)))))))).
% 9.99/10.21  thf(def_mpartially_functional,definition,(mpartially_functional = (^[X1:$i>$i>$o]:(![X2:$i]:(![X3:$i]:(![X4:$i]:((~((((X1 @ X2) @ X3) => (~(((X1 @ X2) @ X4)))))) => (X3 = X4)))))))).
% 9.99/10.21  thf(def_mfunctional,definition,(mfunctional = (^[X1:$i>$i>$o]:(![X2:$i]:(~((![X3:$i]:(((X1 @ X2) @ X3) => (~((![X4:$i]:(((X1 @ X2) @ X4) => (X3 = X4))))))))))))).
% 9.99/10.21  thf(def_mweakly_dense,definition,(mweakly_dense = (^[X1:$i>$i>$o]:(![X2:$i]:(![X3:$i]:(![X4:$i]:(((X1 @ X2) @ X3) => (~((![X5:$i]:(((X1 @ X2) @ X5) => (~(((X1 @ X5) @ X3)))))))))))))).
% 9.99/10.21  thf(def_mweakly_connected,definition,(mweakly_connected = (^[X1:$i>$i>$o]:(![X2:$i]:(![X3:$i]:(![X4:$i]:((~((((X1 @ X2) @ X3) => (~(((X1 @ X2) @ X4)))))) => ((~(((~(((X1 @ X3) @ X4))) => (X3 = X4)))) => ((X1 @ X4) @ X3))))))))).
% 9.99/10.21  thf(def_mweakly_directed,definition,(mweakly_directed = (^[X1:$i>$i>$o]:(![X2:$i]:(![X3:$i]:(![X4:$i]:((~((((X1 @ X2) @ X3) => (~(((X1 @ X2) @ X4)))))) => (~((![X5:$i]:(((X1 @ X3) @ X5) => (~(((X1 @ X4) @ X5)))))))))))))).
% 9.99/10.21  thf(def_mvalid,definition,(mvalid = (!!))).
% 9.99/10.21  thf(def_minvalid,definition,(minvalid = (^[X1:$i>$o]:(![X2:$i]:(~((X1 @ X2))))))).
% 9.99/10.21  thf(def_msatisfiable,definition,(msatisfiable = (^[X1:$i>$o]:(~((![X2:$i]:(~((X1 @ X2))))))))).
% 9.99/10.21  thf(def_mcountersatisfiable,definition,(mcountersatisfiable = (^[X1:$i>$o]:(~(((!!) @ X1)))))).
% 9.99/10.21  thf(def_dc,definition,(dc = (^[X1:reg]:(^[X2:reg]:(~(((c @ X1) @ X2))))))).
% 9.99/10.21  thf(def_p,definition,(p = (^[X1:reg]:(^[X2:reg]:(![X3:reg]:(((c @ X3) @ X1) => ((c @ X3) @ X2))))))).
% 9.99/10.21  thf(def_eq,definition,(eq = (^[X1:reg]:(^[X2:reg]:(~((((p @ X1) @ X2) => (~(((p @ X2) @ X1)))))))))).
% 9.99/10.21  thf(def_o,definition,(o = (^[X1:reg]:(^[X2:reg]:(~((![X3:reg]:(((p @ X3) @ X1) => (~(((p @ X3) @ X2))))))))))).
% 9.99/10.21  thf(def_po,definition,(po = (^[X1:reg]:(^[X2:reg]:(~(((~((((o @ X1) @ X2) => ((p @ X1) @ X2)))) => ((p @ X2) @ X1)))))))).
% 9.99/10.21  thf(def_ec,definition,(ec = (^[X1:reg]:(^[X2:reg]:(~((((c @ X1) @ X2) => ((o @ X1) @ X2)))))))).
% 9.99/10.21  thf(def_pp,definition,(pp = (^[X1:reg]:(^[X2:reg]:(~((((p @ X1) @ X2) => ((p @ X2) @ X1)))))))).
% 9.99/10.21  thf(def_tpp,definition,(tpp = (^[X1:reg]:(^[X2:reg]:(~((((pp @ X1) @ X2) => (![X3:reg]:(((ec @ X3) @ X1) => (~(((ec @ X3) @ X2)))))))))))).
% 9.99/10.21  thf(def_ntpp,definition,(ntpp = (^[X1:reg]:(^[X2:reg]:(~((((pp @ X1) @ X2) => (~((![X3:reg]:(((ec @ X3) @ X1) => (~(((ec @ X3) @ X2)))))))))))))).
% 9.99/10.21  thf(con,conjecture,(![X1:$i]:(![X2:$i]:(((a @ X1) @ X2) => (~(((~(sP19)) => (~((~(sP11))))))))))).
% 9.99/10.21  thf(h1,negated_conjecture,(~((![X1:$i]:(![X2:$i]:(((a @ X1) @ X2) => (~(((~(sP19)) => sP11)))))))),inference(assume_negation,[status(cth)],[con])).
% 9.99/10.21  thf(h2,assumption,(~((![X1:$i]:(((a @ eigen__0) @ X1) => (~(((~(sP19)) => sP11))))))),introduced(assumption,[])).
% 9.99/10.21  thf(h3,assumption,(~((sP1 => (~(((~(sP19)) => sP11)))))),introduced(assumption,[])).
% 9.99/10.21  thf(h4,assumption,sP1,introduced(assumption,[])).
% 9.99/10.21  thf(h5,assumption,((~(sP19)) => sP11),introduced(assumption,[])).
% 9.99/10.21  thf(h6,assumption,sP19,introduced(assumption,[])).
% 9.99/10.21  thf(h7,assumption,sP11,introduced(assumption,[])).
% 9.99/10.21  thf(1,plain,(sP4 | ~(sP20)),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(2,plain,(sP4 | sP20),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(3,plain,(sP5 | ~(sP4)),inference(eigen_choice_rule,[status(thm),assumptions([h0])],[h0,eigendef_eigen__9])).
% 9.99/10.21  thf(4,plain,(~(sP19) | sP2),inference(all_rule,[status(thm)],[])).
% 9.99/10.21  thf(5,plain,((~(sP2) | ~(sP5)) | ~(sP7)),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(6,plain,(sP3 | sP7),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(7,plain,(sP13 | ~(sP3)),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(8,plain,(~(sP8) | sP9),inference(all_rule,[status(thm)],[])).
% 9.99/10.21  thf(9,plain,(~(sP9) | sP6),inference(all_rule,[status(thm)],[])).
% 9.99/10.21  thf(10,plain,((~(sP6) | ~(sP1)) | ~(sP13)),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(ax1,axiom,(mvalid @ ((mbox @ a) @ (^[X1:$i]:((tpp @ catalunya) @ spain))))).
% 9.99/10.21  thf(11,plain,sP8,inference(preprocess,[status(thm)],[ax1]).
% 9.99/10.21  thf(12,plain,$false,inference(prop_unsat,[status(thm),assumptions([h6,h4,h5,h3,h2,h1,h0])],[1,2,3,4,5,6,7,8,9,10,11,h4,h6])).
% 9.99/10.21  thf(13,plain,(sP16 | ~(sP22)),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(14,plain,(sP16 | sP22),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(15,plain,(sP23 | sP17),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(16,plain,(sP15 | ~(sP23)),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(17,plain,(sP10 | ~(sP16)),inference(eigen_choice_rule,[status(thm),assumptions([h0])],[h0,eigendef_eigen__25])).
% 9.99/10.21  thf(18,plain,(~(sP18) | sP14),inference(all_rule,[status(thm)],[])).
% 9.99/10.21  thf(19,plain,(~(sP14) | sP21),inference(all_rule,[status(thm)],[])).
% 9.99/10.21  thf(20,plain,((~(sP21) | ~(sP1)) | ~(sP15)),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(21,plain,(~(sP11) | sP12),inference(all_rule,[status(thm)],[])).
% 9.99/10.21  thf(22,plain,((~(sP12) | ~(sP17)) | ~(sP10)),inference(prop_rule,[status(thm)],[])).
% 9.99/10.21  thf(ax3,axiom,(mvalid @ ((mbox @ a) @ (^[X1:$i]:((ntpp @ paris) @ france))))).
% 9.99/10.21  thf(23,plain,sP18,inference(preprocess,[status(thm)],[ax3]).
% 9.99/10.21  thf(24,plain,$false,inference(prop_unsat,[status(thm),assumptions([h7,h4,h5,h3,h2,h1,h0])],[13,14,15,16,17,18,19,20,21,22,23,h4,h7])).
% 9.99/10.21  thf(25,plain,$false,inference(tab_imp,[status(thm),assumptions([h4,h5,h3,h2,h1,h0]),tab_imp(discharge,[h6]),tab_imp(discharge,[h7])],[h5,12,24,h6,h7])).
% 9.99/10.21  thf(26,plain,$false,inference(tab_negimp,[status(thm),assumptions([h3,h2,h1,h0]),tab_negimp(discharge,[h4,h5])],[h3,25,h4,h5])).
% 9.99/10.21  thf(27,plain,$false,inference(tab_negall,[status(thm),assumptions([h2,h1,h0]),tab_negall(discharge,[h3]),tab_negall(eigenvar,eigen__1)],[h2,26,h3])).
% 9.99/10.21  thf(28,plain,$false,inference(tab_negall,[status(thm),assumptions([h1,h0]),tab_negall(discharge,[h2]),tab_negall(eigenvar,eigen__0)],[h1,27,h2])).
% 9.99/10.21  thf(29,plain,$false,inference(eigenvar_choice,[status(thm),assumptions([h1]),eigenvar_choice(discharge,[h0])],[28,h0])).
% 9.99/10.21  thf(0,theorem,(![X1:$i]:(![X2:$i]:(((a @ X1) @ X2) => (~(((~(sP19)) => (~((~(sP11)))))))))),inference(contra,[status(thm),contra(discharge,[h1])],[28,h1])).
% 9.99/10.21  % SZS output end Proof
%------------------------------------------------------------------------------