TPTP Problem File: SYN497+1.p
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%--------------------------------------------------------------------------
% File : SYN497+1 : TPTP v8.2.0. Released v2.1.0.
% Domain : Syntactic (Translated)
% Problem : ALC, N=4, R=1, L=8, K=3, D=1, P=0, Index=090
% Version : Especial.
% English :
% Refs : [OS95] Ohlbach & Schmidt (1995), Functional Translation and S
% : [HS97] Hustadt & Schmidt (1997), On Evaluating Decision Proce
% : [Wei97] Weidenbach (1997), Email to G. Sutcliffe
% Source : [Wei97]
% Names : alc-4-1-8-3-1-090.dfg [Wei97]
% Status : CounterSatisfiable
% Rating : 0.00 v4.1.0, 0.17 v4.0.1, 0.00 v2.1.0
% Syntax : Number of formulae : 1 ( 0 unt; 0 def)
% Number of atoms : 124 ( 0 equ)
% Maximal formula atoms : 124 ( 124 avg)
% Number of connectives : 172 ( 49 ~; 50 |; 63 &)
% ( 0 <=>; 10 =>; 0 <=; 0 <~>)
% Maximal formula depth : 29 ( 29 avg)
% Maximal term depth : 1 ( 1 avg)
% Number of predicates : 19 ( 19 usr; 15 prp; 0-1 aty)
% Number of functors : 14 ( 14 usr; 14 con; 0-0 aty)
% Number of variables : 10 ( 10 !; 0 ?)
% SPC : FOF_CSA_EPR_NEQ
% Comments : These ALC problems have been translated from propositional
% multi-modal K logic formulae generated according to the scheme
% described in [HS97], using the optimized functional translation
% described in [OS95]. The finite model property holds, the
% Herbrand Universe is finite, they are decidable (the complexity
% is PSPACE-complete), resolution + subsumption + condensing is a
% decision procedure, and the translated formulae belong to the
% (CNF-translation of the) Bernays-Schoenfinkel class [Wei97].
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fof(co1,conjecture,
~ ( ( ~ hskp0
| ( ndr1_0
& ~ c2_1(a93)
& c3_1(a93)
& ~ c1_1(a93) ) )
& ( ~ hskp1
| ( ndr1_0
& c2_1(a94)
& c1_1(a94)
& ~ c0_1(a94) ) )
& ( ~ hskp2
| ( ndr1_0
& c1_1(a96)
& c3_1(a96)
& ~ c2_1(a96) ) )
& ( ~ hskp3
| ( ndr1_0
& ~ c1_1(a97)
& c3_1(a97)
& ~ c0_1(a97) ) )
& ( ~ hskp4
| ( ndr1_0
& c0_1(a102)
& ~ c3_1(a102)
& ~ c1_1(a102) ) )
& ( ~ hskp5
| ( ndr1_0
& c1_1(a104)
& c0_1(a104)
& ~ c2_1(a104) ) )
& ( ~ hskp6
| ( ndr1_0
& ~ c2_1(a91)
& ~ c3_1(a91)
& c1_1(a91) ) )
& ( ~ hskp7
| ( ndr1_0
& c0_1(a92)
& c1_1(a92)
& c2_1(a92) ) )
& ( ~ hskp8
| ( ndr1_0
& ~ c3_1(a95)
& c0_1(a95)
& c2_1(a95) ) )
& ( ~ hskp9
| ( ndr1_0
& ~ c0_1(a98)
& ~ c2_1(a98)
& c1_1(a98) ) )
& ( ~ hskp10
| ( ndr1_0
& c1_1(a99)
& c0_1(a99)
& c3_1(a99) ) )
& ( ~ hskp11
| ( ndr1_0
& ~ c0_1(a100)
& c3_1(a100)
& c2_1(a100) ) )
& ( ~ hskp12
| ( ndr1_0
& ~ c3_1(a101)
& c1_1(a101)
& c0_1(a101) ) )
& ( ~ hskp13
| ( ndr1_0
& c2_1(a103)
& c1_1(a103)
& c3_1(a103) ) )
& ( ! [U] :
( ndr1_0
=> ( c2_1(U)
| c3_1(U)
| ~ c0_1(U) ) )
| hskp6
| hskp7 )
& ( ! [V] :
( ndr1_0
=> ( ~ c0_1(V)
| c3_1(V)
| ~ c2_1(V) ) )
| hskp0
| ! [W] :
( ndr1_0
=> ( ~ c1_1(W)
| ~ c0_1(W)
| c3_1(W) ) ) )
& ( hskp1
| hskp8
| hskp2 )
& ( hskp3
| ! [X] :
( ndr1_0
=> ( ~ c1_1(X)
| ~ c3_1(X)
| c2_1(X) ) )
| hskp9 )
& ( ! [Y] :
( ndr1_0
=> ( c3_1(Y)
| ~ c0_1(Y)
| ~ c2_1(Y) ) )
| hskp10
| ! [Z] :
( ndr1_0
=> ( ~ c2_1(Z)
| ~ c0_1(Z)
| ~ c1_1(Z) ) ) )
& ( ! [X1] :
( ndr1_0
=> ( ~ c2_1(X1)
| c1_1(X1)
| c0_1(X1) ) )
| ! [X2] :
( ndr1_0
=> ( ~ c1_1(X2)
| c2_1(X2)
| ~ c0_1(X2) ) )
| ! [X3] :
( ndr1_0
=> ( ~ c2_1(X3)
| c3_1(X3)
| ~ c0_1(X3) ) ) )
& ( ! [X4] :
( ndr1_0
=> ( c0_1(X4)
| ~ c1_1(X4)
| c2_1(X4) ) )
| hskp11
| hskp12 )
& ( hskp4
| hskp13
| hskp5 ) ) ).
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