TPTP Problem File: COM013+1.p
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%------------------------------------------------------------------------------
% File : COM013+1 : TPTP v9.0.0. Released v4.0.0.
% Domain : Computing Theory
% Problem : Newman's lemma on rewriting systems 02, 00 expansion
% Version : Especial.
% English :
% Refs : [VLP07] Verchinine et al. (2007), System for Automated Deduction
% : [PV+07] Paskevich et al. (2007), Reasoning Inside a Formula an
% : [Pas08] Paskevich (2008), Email to G. Sutcliffe
% Source : [Pas08]
% Names : newman_02.00 [Pas08]
% Status : Theorem
% Rating : 0.27 v9.0.0, 0.33 v8.2.0, 0.31 v8.1.0, 0.25 v7.5.0, 0.31 v7.4.0, 0.27 v7.3.0, 0.28 v7.2.0, 0.24 v7.1.0, 0.17 v6.4.0, 0.19 v6.3.0, 0.12 v6.2.0, 0.28 v6.1.0, 0.37 v6.0.0, 0.35 v5.5.0, 0.37 v5.4.0, 0.39 v5.3.0, 0.37 v5.2.0, 0.15 v5.1.0, 0.24 v5.0.0, 0.38 v4.1.0, 0.48 v4.0.1, 0.61 v4.0.0
% Syntax : Number of formulae : 15 ( 0 unt; 6 def)
% Number of atoms : 84 ( 1 equ)
% Maximal formula atoms : 10 ( 5 avg)
% Number of connectives : 70 ( 1 ~; 2 |; 35 &)
% ( 6 <=>; 26 =>; 0 <=; 0 <~>)
% Maximal formula depth : 12 ( 7 avg)
% Maximal term depth : 1 ( 1 avg)
% Number of predicates : 12 ( 10 usr; 1 prp; 0-3 aty)
% Number of functors : 1 ( 1 usr; 1 con; 0-0 aty)
% Number of variables : 46 ( 40 !; 6 ?)
% SPC : FOF_THM_RFO_SEQ
% Comments : Problem generated by the SAD system [VLP07]
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fof(mElmSort,axiom,
! [W0] :
( aElement0(W0)
=> $true ) ).
fof(mRelSort,axiom,
! [W0] :
( aRewritingSystem0(W0)
=> $true ) ).
fof(mReduct,axiom,
! [W0,W1] :
( ( aElement0(W0)
& aRewritingSystem0(W1) )
=> ! [W2] :
( aReductOfIn0(W2,W0,W1)
=> aElement0(W2) ) ) ).
fof(mWFOrd,axiom,
! [W0,W1] :
( ( aElement0(W0)
& aElement0(W1) )
=> ( iLess0(W0,W1)
=> $true ) ) ).
fof(mTCbr,axiom,
! [W0,W1,W2] :
( ( aElement0(W0)
& aRewritingSystem0(W1)
& aElement0(W2) )
=> ( sdtmndtplgtdt0(W0,W1,W2)
=> $true ) ) ).
fof(mTCDef,definition,
! [W0,W1,W2] :
( ( aElement0(W0)
& aRewritingSystem0(W1)
& aElement0(W2) )
=> ( sdtmndtplgtdt0(W0,W1,W2)
<=> ( aReductOfIn0(W2,W0,W1)
| ? [W3] :
( aElement0(W3)
& aReductOfIn0(W3,W0,W1)
& sdtmndtplgtdt0(W3,W1,W2) ) ) ) ) ).
fof(mTCTrans,axiom,
! [W0,W1,W2,W3] :
( ( aElement0(W0)
& aRewritingSystem0(W1)
& aElement0(W2)
& aElement0(W3) )
=> ( ( sdtmndtplgtdt0(W0,W1,W2)
& sdtmndtplgtdt0(W2,W1,W3) )
=> sdtmndtplgtdt0(W0,W1,W3) ) ) ).
fof(mTCRDef,definition,
! [W0,W1,W2] :
( ( aElement0(W0)
& aRewritingSystem0(W1)
& aElement0(W2) )
=> ( sdtmndtasgtdt0(W0,W1,W2)
<=> ( W0 = W2
| sdtmndtplgtdt0(W0,W1,W2) ) ) ) ).
fof(mTCRTrans,axiom,
! [W0,W1,W2,W3] :
( ( aElement0(W0)
& aRewritingSystem0(W1)
& aElement0(W2)
& aElement0(W3) )
=> ( ( sdtmndtasgtdt0(W0,W1,W2)
& sdtmndtasgtdt0(W2,W1,W3) )
=> sdtmndtasgtdt0(W0,W1,W3) ) ) ).
fof(mCRDef,definition,
! [W0] :
( aRewritingSystem0(W0)
=> ( isConfluent0(W0)
<=> ! [W1,W2,W3] :
( ( aElement0(W1)
& aElement0(W2)
& aElement0(W3)
& sdtmndtasgtdt0(W1,W0,W2)
& sdtmndtasgtdt0(W1,W0,W3) )
=> ? [W4] :
( aElement0(W4)
& sdtmndtasgtdt0(W2,W0,W4)
& sdtmndtasgtdt0(W3,W0,W4) ) ) ) ) ).
fof(mWCRDef,definition,
! [W0] :
( aRewritingSystem0(W0)
=> ( isLocallyConfluent0(W0)
<=> ! [W1,W2,W3] :
( ( aElement0(W1)
& aElement0(W2)
& aElement0(W3)
& aReductOfIn0(W2,W1,W0)
& aReductOfIn0(W3,W1,W0) )
=> ? [W4] :
( aElement0(W4)
& sdtmndtasgtdt0(W2,W0,W4)
& sdtmndtasgtdt0(W3,W0,W4) ) ) ) ) ).
fof(mTermin,definition,
! [W0] :
( aRewritingSystem0(W0)
=> ( isTerminating0(W0)
<=> ! [W1,W2] :
( ( aElement0(W1)
& aElement0(W2) )
=> ( sdtmndtplgtdt0(W1,W0,W2)
=> iLess0(W2,W1) ) ) ) ) ).
fof(mNFRDef,definition,
! [W0,W1] :
( ( aElement0(W0)
& aRewritingSystem0(W1) )
=> ! [W2] :
( aNormalFormOfIn0(W2,W0,W1)
<=> ( aElement0(W2)
& sdtmndtasgtdt0(W0,W1,W2)
& ~ ? [W3] : aReductOfIn0(W3,W2,W1) ) ) ) ).
fof(m__587,hypothesis,
( aRewritingSystem0(xR)
& isTerminating0(xR) ) ).
fof(m__,conjecture,
! [W0] :
( aElement0(W0)
=> ( ! [W1] :
( aElement0(W1)
=> ( iLess0(W1,W0)
=> ? [W2] : aNormalFormOfIn0(W2,W1,xR) ) )
=> ? [W1] : aNormalFormOfIn0(W1,W0,xR) ) ) ).
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