%------------------------------------------------------------------------------
% File     : cocATP---0.2.0
% Problem  : SEU786^1 : TPTP v6.1.0. Released v3.7.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : python CASC.py /export/starexec/sandbox/benchmark/theBenchmark.p

% Computer : n105.star.cs.uiowa.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2609 0 2.40GHz
% Memory   : 32286.75MB
% OS       : Linux 2.6.32-431.20.3.el6.x86_64
% CPULimit : 300s
% DateTime : Thu Jul 17 13:33:07 EDT 2014

% Result   : Timeout 300.07s
% Output   : None 
% Verified : 
% SZS Type : None (Parsing solution fails)
% Syntax   : Number of formulae    : 0

% Comments : 
%------------------------------------------------------------------------------
%----NO SOLUTION OUTPUT BY SYSTEM
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% % Problem  : SEU786^1 : TPTP v6.1.0. Released v3.7.0.
% % Command  : python CASC.py /export/starexec/sandbox/benchmark/theBenchmark.p
% % Computer : n105.star.cs.uiowa.edu
% % Model    : x86_64 x86_64
% % CPU      : Intel(R) Xeon(R) CPU E5-2609 0 @ 2.40GHz
% % Memory   : 32286.75MB
% % OS       : Linux 2.6.32-431.20.3.el6.x86_64
% % CPULimit : 300
% % DateTime : Thu Jul 17 11:27:56 CDT 2014
% % CPUTime  : 300.07 
% Python 2.7.5
% Using paths ['/home/cristobal/cocATP/CASC/TPTP/', '/export/starexec/sandbox/benchmark/', '/export/starexec/sandbox/benchmark/']
% FOF formula (<kernel.Constant object at 0x25c8488>, <kernel.DependentProduct object at 0x2643998>) of role type named in_type
% Using role type
% Declaring in:(fofType->(fofType->Prop))
% FOF formula (<kernel.Constant object at 0x220bf80>, <kernel.DependentProduct object at 0x2643998>) of role type named exu_type
% Using role type
% Declaring exu:((fofType->Prop)->Prop)
% FOF formula (((eq ((fofType->Prop)->Prop)) exu) (fun (Xphi:(fofType->Prop))=> ((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy)))))))) of role definition named exu
% A new definition: (((eq ((fofType->Prop)->Prop)) exu) (fun (Xphi:(fofType->Prop))=> ((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy))))))))
% Defined: exu:=(fun (Xphi:(fofType->Prop))=> ((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy)))))))
% FOF formula (<kernel.Constant object at 0x2643ab8>, <kernel.Sort object at 0x20d5f38>) of role type named setextAx_type
% Using role type
% Declaring setextAx:Prop
% FOF formula (((eq Prop) setextAx) (forall (A:fofType) (B:fofType), ((forall (Xx:fofType), ((iff ((in Xx) A)) ((in Xx) B)))->(((eq fofType) A) B)))) of role definition named setextAx
% A new definition: (((eq Prop) setextAx) (forall (A:fofType) (B:fofType), ((forall (Xx:fofType), ((iff ((in Xx) A)) ((in Xx) B)))->(((eq fofType) A) B))))
% Defined: setextAx:=(forall (A:fofType) (B:fofType), ((forall (Xx:fofType), ((iff ((in Xx) A)) ((in Xx) B)))->(((eq fofType) A) B)))
% FOF formula (<kernel.Constant object at 0x2643290>, <kernel.Single object at 0x2643ab8>) of role type named emptyset_type
% Using role type
% Declaring emptyset:fofType
% FOF formula (<kernel.Constant object at 0x2643998>, <kernel.Sort object at 0x20d5f38>) of role type named emptysetAx_type
% Using role type
% Declaring emptysetAx:Prop
% FOF formula (((eq Prop) emptysetAx) (forall (Xx:fofType), (((in Xx) emptyset)->False))) of role definition named emptysetAx
% A new definition: (((eq Prop) emptysetAx) (forall (Xx:fofType), (((in Xx) emptyset)->False)))
% Defined: emptysetAx:=(forall (Xx:fofType), (((in Xx) emptyset)->False))
% FOF formula (<kernel.Constant object at 0x2643998>, <kernel.DependentProduct object at 0x25c8488>) of role type named setadjoin_type
% Using role type
% Declaring setadjoin:(fofType->(fofType->fofType))
% FOF formula (<kernel.Constant object at 0x2643290>, <kernel.Sort object at 0x20d5f38>) of role type named setadjoinAx_type
% Using role type
% Declaring setadjoinAx:Prop
% FOF formula (((eq Prop) setadjoinAx) (forall (Xx:fofType) (A:fofType) (Xy:fofType), ((iff ((in Xy) ((setadjoin Xx) A))) ((or (((eq fofType) Xy) Xx)) ((in Xy) A))))) of role definition named setadjoinAx
% A new definition: (((eq Prop) setadjoinAx) (forall (Xx:fofType) (A:fofType) (Xy:fofType), ((iff ((in Xy) ((setadjoin Xx) A))) ((or (((eq fofType) Xy) Xx)) ((in Xy) A)))))
% Defined: setadjoinAx:=(forall (Xx:fofType) (A:fofType) (Xy:fofType), ((iff ((in Xy) ((setadjoin Xx) A))) ((or (((eq fofType) Xy) Xx)) ((in Xy) A))))
% FOF formula (<kernel.Constant object at 0x2643998>, <kernel.DependentProduct object at 0x25e6950>) of role type named powerset_type
% Using role type
% Declaring powerset:(fofType->fofType)
% FOF formula (<kernel.Constant object at 0x25c80e0>, <kernel.Sort object at 0x20d5f38>) of role type named powersetAx_type
% Using role type
% Declaring powersetAx:Prop
% FOF formula (((eq Prop) powersetAx) (forall (A:fofType) (B:fofType), ((iff ((in B) (powerset A))) (forall (Xx:fofType), (((in Xx) B)->((in Xx) A)))))) of role definition named powersetAx
% A new definition: (((eq Prop) powersetAx) (forall (A:fofType) (B:fofType), ((iff ((in B) (powerset A))) (forall (Xx:fofType), (((in Xx) B)->((in Xx) A))))))
% Defined: powersetAx:=(forall (A:fofType) (B:fofType), ((iff ((in B) (powerset A))) (forall (Xx:fofType), (((in Xx) B)->((in Xx) A)))))
% FOF formula (<kernel.Constant object at 0x25c88c0>, <kernel.DependentProduct object at 0x25e6950>) of role type named setunion_type
% Using role type
% Declaring setunion:(fofType->fofType)
% FOF formula (<kernel.Constant object at 0x25c80e0>, <kernel.Sort object at 0x20d5f38>) of role type named setunionAx_type
% Using role type
% Declaring setunionAx:Prop
% FOF formula (((eq Prop) setunionAx) (forall (A:fofType) (Xx:fofType), ((iff ((in Xx) (setunion A))) ((ex fofType) (fun (B:fofType)=> ((and ((in Xx) B)) ((in B) A))))))) of role definition named setunionAx
% A new definition: (((eq Prop) setunionAx) (forall (A:fofType) (Xx:fofType), ((iff ((in Xx) (setunion A))) ((ex fofType) (fun (B:fofType)=> ((and ((in Xx) B)) ((in B) A)))))))
% Defined: setunionAx:=(forall (A:fofType) (Xx:fofType), ((iff ((in Xx) (setunion A))) ((ex fofType) (fun (B:fofType)=> ((and ((in Xx) B)) ((in B) A))))))
% FOF formula (<kernel.Constant object at 0x25c80e0>, <kernel.Single object at 0x25e6680>) of role type named omega_type
% Using role type
% Declaring omega:fofType
% FOF formula (<kernel.Constant object at 0x25c81b8>, <kernel.Sort object at 0x20d5f38>) of role type named omega0Ax_type
% Using role type
% Declaring omega0Ax:Prop
% FOF formula (((eq Prop) omega0Ax) ((in emptyset) omega)) of role definition named omega0Ax
% A new definition: (((eq Prop) omega0Ax) ((in emptyset) omega))
% Defined: omega0Ax:=((in emptyset) omega)
% FOF formula (<kernel.Constant object at 0x25e6878>, <kernel.Sort object at 0x20d5f38>) of role type named omegaSAx_type
% Using role type
% Declaring omegaSAx:Prop
% FOF formula (((eq Prop) omegaSAx) (forall (Xx:fofType), (((in Xx) omega)->((in ((setadjoin Xx) Xx)) omega)))) of role definition named omegaSAx
% A new definition: (((eq Prop) omegaSAx) (forall (Xx:fofType), (((in Xx) omega)->((in ((setadjoin Xx) Xx)) omega))))
% Defined: omegaSAx:=(forall (Xx:fofType), (((in Xx) omega)->((in ((setadjoin Xx) Xx)) omega)))
% FOF formula (<kernel.Constant object at 0x25e63f8>, <kernel.Sort object at 0x20d5f38>) of role type named omegaIndAx_type
% Using role type
% Declaring omegaIndAx:Prop
% FOF formula (((eq Prop) omegaIndAx) (forall (A:fofType), (((and ((in emptyset) A)) (forall (Xx:fofType), (((and ((in Xx) omega)) ((in Xx) A))->((in ((setadjoin Xx) Xx)) A))))->(forall (Xx:fofType), (((in Xx) omega)->((in Xx) A)))))) of role definition named omegaIndAx
% A new definition: (((eq Prop) omegaIndAx) (forall (A:fofType), (((and ((in emptyset) A)) (forall (Xx:fofType), (((and ((in Xx) omega)) ((in Xx) A))->((in ((setadjoin Xx) Xx)) A))))->(forall (Xx:fofType), (((in Xx) omega)->((in Xx) A))))))
% Defined: omegaIndAx:=(forall (A:fofType), (((and ((in emptyset) A)) (forall (Xx:fofType), (((and ((in Xx) omega)) ((in Xx) A))->((in ((setadjoin Xx) Xx)) A))))->(forall (Xx:fofType), (((in Xx) omega)->((in Xx) A)))))
% FOF formula (<kernel.Constant object at 0x25e6488>, <kernel.Sort object at 0x20d5f38>) of role type named replAx_type
% Using role type
% Declaring replAx:Prop
% FOF formula (((eq Prop) replAx) (forall (Xphi:(fofType->(fofType->Prop))) (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->(exu (fun (Xy:fofType)=> ((Xphi Xx) Xy)))))->((ex fofType) (fun (B:fofType)=> (forall (Xx:fofType), ((iff ((in Xx) B)) ((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) A)) ((Xphi Xy) Xx))))))))))) of role definition named replAx
% A new definition: (((eq Prop) replAx) (forall (Xphi:(fofType->(fofType->Prop))) (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->(exu (fun (Xy:fofType)=> ((Xphi Xx) Xy)))))->((ex fofType) (fun (B:fofType)=> (forall (Xx:fofType), ((iff ((in Xx) B)) ((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) A)) ((Xphi Xy) Xx)))))))))))
% Defined: replAx:=(forall (Xphi:(fofType->(fofType->Prop))) (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->(exu (fun (Xy:fofType)=> ((Xphi Xx) Xy)))))->((ex fofType) (fun (B:fofType)=> (forall (Xx:fofType), ((iff ((in Xx) B)) ((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) A)) ((Xphi Xy) Xx))))))))))
% FOF formula (<kernel.Constant object at 0x20cf6c8>, <kernel.Sort object at 0x20d5f38>) of role type named foundationAx_type
% Using role type
% Declaring foundationAx:Prop
% FOF formula (((eq Prop) foundationAx) (forall (A:fofType), (((ex fofType) (fun (Xx:fofType)=> ((in Xx) A)))->((ex fofType) (fun (B:fofType)=> ((and ((in B) A)) (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) B)) ((in Xx) A))))->False))))))) of role definition named foundationAx
% A new definition: (((eq Prop) foundationAx) (forall (A:fofType), (((ex fofType) (fun (Xx:fofType)=> ((in Xx) A)))->((ex fofType) (fun (B:fofType)=> ((and ((in B) A)) (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) B)) ((in Xx) A))))->False)))))))
% Defined: foundationAx:=(forall (A:fofType), (((ex fofType) (fun (Xx:fofType)=> ((in Xx) A)))->((ex fofType) (fun (B:fofType)=> ((and ((in B) A)) (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) B)) ((in Xx) A))))->False))))))
% FOF formula (<kernel.Constant object at 0x25e63f8>, <kernel.Sort object at 0x20d5f38>) of role type named wellorderingAx_type
% Using role type
% Declaring wellorderingAx:Prop
% FOF formula (((eq Prop) wellorderingAx) (forall (A:fofType), ((ex fofType) (fun (B:fofType)=> ((and ((and ((and (forall (C:fofType), (((in C) B)->(forall (Xx:fofType), (((in Xx) C)->((in Xx) A)))))) (forall (Xx:fofType) (Xy:fofType), (((and ((in Xx) A)) ((in Xy) A))->((forall (C:fofType), (((in C) B)->((iff ((in Xx) C)) ((in Xy) C))))->(((eq fofType) Xx) Xy)))))) (forall (C:fofType) (D:fofType), (((and ((in C) B)) ((in D) B))->((or (forall (Xx:fofType), (((in Xx) C)->((in Xx) D)))) (forall (Xx:fofType), (((in Xx) D)->((in Xx) C)))))))) (forall (C:fofType), (((and (forall (Xx:fofType), (((in Xx) C)->((in Xx) A)))) ((ex fofType) (fun (Xx:fofType)=> ((in Xx) C))))->((ex fofType) (fun (D:fofType)=> ((ex fofType) (fun (Xx:fofType)=> ((and ((and ((and ((in D) B)) ((in Xx) C))) (((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) D)) ((in Xy) C))))->False))) (forall (E:fofType), (((in E) B)->((or (forall (Xy:fofType), (((in Xy) E)->((in Xy) D)))) ((in Xx) E)))))))))))))))) of role definition named wellorderingAx
% A new definition: (((eq Prop) wellorderingAx) (forall (A:fofType), ((ex fofType) (fun (B:fofType)=> ((and ((and ((and (forall (C:fofType), (((in C) B)->(forall (Xx:fofType), (((in Xx) C)->((in Xx) A)))))) (forall (Xx:fofType) (Xy:fofType), (((and ((in Xx) A)) ((in Xy) A))->((forall (C:fofType), (((in C) B)->((iff ((in Xx) C)) ((in Xy) C))))->(((eq fofType) Xx) Xy)))))) (forall (C:fofType) (D:fofType), (((and ((in C) B)) ((in D) B))->((or (forall (Xx:fofType), (((in Xx) C)->((in Xx) D)))) (forall (Xx:fofType), (((in Xx) D)->((in Xx) C)))))))) (forall (C:fofType), (((and (forall (Xx:fofType), (((in Xx) C)->((in Xx) A)))) ((ex fofType) (fun (Xx:fofType)=> ((in Xx) C))))->((ex fofType) (fun (D:fofType)=> ((ex fofType) (fun (Xx:fofType)=> ((and ((and ((and ((in D) B)) ((in Xx) C))) (((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) D)) ((in Xy) C))))->False))) (forall (E:fofType), (((in E) B)->((or (forall (Xy:fofType), (((in Xy) E)->((in Xy) D)))) ((in Xx) E))))))))))))))))
% Defined: wellorderingAx:=(forall (A:fofType), ((ex fofType) (fun (B:fofType)=> ((and ((and ((and (forall (C:fofType), (((in C) B)->(forall (Xx:fofType), (((in Xx) C)->((in Xx) A)))))) (forall (Xx:fofType) (Xy:fofType), (((and ((in Xx) A)) ((in Xy) A))->((forall (C:fofType), (((in C) B)->((iff ((in Xx) C)) ((in Xy) C))))->(((eq fofType) Xx) Xy)))))) (forall (C:fofType) (D:fofType), (((and ((in C) B)) ((in D) B))->((or (forall (Xx:fofType), (((in Xx) C)->((in Xx) D)))) (forall (Xx:fofType), (((in Xx) D)->((in Xx) C)))))))) (forall (C:fofType), (((and (forall (Xx:fofType), (((in Xx) C)->((in Xx) A)))) ((ex fofType) (fun (Xx:fofType)=> ((in Xx) C))))->((ex fofType) (fun (D:fofType)=> ((ex fofType) (fun (Xx:fofType)=> ((and ((and ((and ((in D) B)) ((in Xx) C))) (((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) D)) ((in Xy) C))))->False))) (forall (E:fofType), (((in E) B)->((or (forall (Xy:fofType), (((in Xy) E)->((in Xy) D)))) ((in Xx) E)))))))))))))))
% FOF formula (<kernel.Constant object at 0x25e69e0>, <kernel.DependentProduct object at 0x25e6a70>) of role type named descr_type
% Using role type
% Declaring descr:((fofType->Prop)->fofType)
% FOF formula (<kernel.Constant object at 0x25e6200>, <kernel.Sort object at 0x20d5f38>) of role type named descrp_type
% Using role type
% Declaring descrp:Prop
% FOF formula (((eq Prop) descrp) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(Xphi (descr (fun (Xx:fofType)=> (Xphi Xx))))))) of role definition named descrp
% A new definition: (((eq Prop) descrp) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(Xphi (descr (fun (Xx:fofType)=> (Xphi Xx)))))))
% Defined: descrp:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(Xphi (descr (fun (Xx:fofType)=> (Xphi Xx))))))
% FOF formula (<kernel.Constant object at 0x25e64d0>, <kernel.DependentProduct object at 0x25e67e8>) of role type named dsetconstr_type
% Using role type
% Declaring dsetconstr:(fofType->((fofType->Prop)->fofType))
% FOF formula (<kernel.Constant object at 0x25e6a28>, <kernel.Sort object at 0x20d5f38>) of role type named dsetconstrI_type
% Using role type
% Declaring dsetconstrI:Prop
% FOF formula (((eq Prop) dsetconstrI) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy)))))))) of role definition named dsetconstrI
% A new definition: (((eq Prop) dsetconstrI) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))))))
% Defined: dsetconstrI:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy)))))))
% FOF formula (<kernel.Constant object at 0x25e6200>, <kernel.Sort object at 0x20d5f38>) of role type named dsetconstrEL_type
% Using role type
% Declaring dsetconstrEL:Prop
% FOF formula (((eq Prop) dsetconstrEL) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))->((in Xx) A)))) of role definition named dsetconstrEL
% A new definition: (((eq Prop) dsetconstrEL) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))->((in Xx) A))))
% Defined: dsetconstrEL:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))->((in Xx) A)))
% FOF formula (<kernel.Constant object at 0x25e6098>, <kernel.Sort object at 0x20d5f38>) of role type named dsetconstrER_type
% Using role type
% Declaring dsetconstrER:Prop
% FOF formula (((eq Prop) dsetconstrER) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))->(Xphi Xx)))) of role definition named dsetconstrER
% A new definition: (((eq Prop) dsetconstrER) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))->(Xphi Xx))))
% Defined: dsetconstrER:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))->(Xphi Xx)))
% FOF formula (<kernel.Constant object at 0x25e6320>, <kernel.Sort object at 0x20d5f38>) of role type named exuE1_type
% Using role type
% Declaring exuE1:Prop
% FOF formula (((eq Prop) exuE1) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy))))))))) of role definition named exuE1
% A new definition: (((eq Prop) exuE1) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy)))))))))
% Defined: exuE1:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy))))))))
% FOF formula (<kernel.Constant object at 0x25e6488>, <kernel.DependentProduct object at 0x25e6680>) of role type named prop2set_type
% Using role type
% Declaring prop2set:(Prop->fofType)
% FOF formula (<kernel.Constant object at 0x25e6290>, <kernel.Sort object at 0x20d5f38>) of role type named prop2setE_type
% Using role type
% Declaring prop2setE:Prop
% FOF formula (((eq Prop) prop2setE) (forall (Xphi:Prop) (Xx:fofType), (((in Xx) (prop2set Xphi))->Xphi))) of role definition named prop2setE
% A new definition: (((eq Prop) prop2setE) (forall (Xphi:Prop) (Xx:fofType), (((in Xx) (prop2set Xphi))->Xphi)))
% Defined: prop2setE:=(forall (Xphi:Prop) (Xx:fofType), (((in Xx) (prop2set Xphi))->Xphi))
% FOF formula (<kernel.Constant object at 0x25e62d8>, <kernel.Sort object at 0x20d5f38>) of role type named emptysetE_type
% Using role type
% Declaring emptysetE:Prop
% FOF formula (((eq Prop) emptysetE) (forall (Xx:fofType), (((in Xx) emptyset)->(forall (Xphi:Prop), Xphi)))) of role definition named emptysetE
% A new definition: (((eq Prop) emptysetE) (forall (Xx:fofType), (((in Xx) emptyset)->(forall (Xphi:Prop), Xphi))))
% Defined: emptysetE:=(forall (Xx:fofType), (((in Xx) emptyset)->(forall (Xphi:Prop), Xphi)))
% FOF formula (<kernel.Constant object at 0x25e60e0>, <kernel.Sort object at 0x20d5f38>) of role type named emptysetimpfalse_type
% Using role type
% Declaring emptysetimpfalse:Prop
% FOF formula (((eq Prop) emptysetimpfalse) (forall (Xx:fofType), (((in Xx) emptyset)->False))) of role definition named emptysetimpfalse
% A new definition: (((eq Prop) emptysetimpfalse) (forall (Xx:fofType), (((in Xx) emptyset)->False)))
% Defined: emptysetimpfalse:=(forall (Xx:fofType), (((in Xx) emptyset)->False))
% FOF formula (<kernel.Constant object at 0x25e6f80>, <kernel.Sort object at 0x20d5f38>) of role type named notinemptyset_type
% Using role type
% Declaring notinemptyset:Prop
% FOF formula (((eq Prop) notinemptyset) (forall (Xx:fofType), (((in Xx) emptyset)->False))) of role definition named notinemptyset
% A new definition: (((eq Prop) notinemptyset) (forall (Xx:fofType), (((in Xx) emptyset)->False)))
% Defined: notinemptyset:=(forall (Xx:fofType), (((in Xx) emptyset)->False))
% FOF formula (<kernel.Constant object at 0x25e67a0>, <kernel.Sort object at 0x20d5f38>) of role type named exuE3e_type
% Using role type
% Declaring exuE3e:Prop
% FOF formula (((eq Prop) exuE3e) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> (Xphi Xx)))))) of role definition named exuE3e
% A new definition: (((eq Prop) exuE3e) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> (Xphi Xx))))))
% Defined: exuE3e:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> (Xphi Xx)))))
% FOF formula (<kernel.Constant object at 0x25e61b8>, <kernel.Sort object at 0x20d5f38>) of role type named setext_type
% Using role type
% Declaring setext:Prop
% FOF formula (((eq Prop) setext) (forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((forall (Xx:fofType), (((in Xx) B)->((in Xx) A)))->(((eq fofType) A) B))))) of role definition named setext
% A new definition: (((eq Prop) setext) (forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((forall (Xx:fofType), (((in Xx) B)->((in Xx) A)))->(((eq fofType) A) B)))))
% Defined: setext:=(forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((forall (Xx:fofType), (((in Xx) B)->((in Xx) A)))->(((eq fofType) A) B))))
% FOF formula (<kernel.Constant object at 0x25e6f38>, <kernel.Sort object at 0x20d5f38>) of role type named emptyI_type
% Using role type
% Declaring emptyI:Prop
% FOF formula (((eq Prop) emptyI) (forall (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->False))->(((eq fofType) A) emptyset)))) of role definition named emptyI
% A new definition: (((eq Prop) emptyI) (forall (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->False))->(((eq fofType) A) emptyset))))
% Defined: emptyI:=(forall (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->False))->(((eq fofType) A) emptyset)))
% FOF formula (<kernel.Constant object at 0x25e6320>, <kernel.Sort object at 0x20d5f38>) of role type named noeltsimpempty_type
% Using role type
% Declaring noeltsimpempty:Prop
% FOF formula (((eq Prop) noeltsimpempty) (forall (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->False))->(((eq fofType) A) emptyset)))) of role definition named noeltsimpempty
% A new definition: (((eq Prop) noeltsimpempty) (forall (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->False))->(((eq fofType) A) emptyset))))
% Defined: noeltsimpempty:=(forall (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->False))->(((eq fofType) A) emptyset)))
% FOF formula (<kernel.Constant object at 0x25e6b90>, <kernel.Sort object at 0x20d5f38>) of role type named setbeta_type
% Using role type
% Declaring setbeta:Prop
% FOF formula (((eq Prop) setbeta) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((iff ((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))) (Xphi Xx))))) of role definition named setbeta
% A new definition: (((eq Prop) setbeta) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((iff ((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))) (Xphi Xx)))))
% Defined: setbeta:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((iff ((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))) (Xphi Xx))))
% FOF formula (<kernel.Constant object at 0x25e6488>, <kernel.DependentProduct object at 0x2644e60>) of role type named nonempty_type
% Using role type
% Declaring nonempty:(fofType->Prop)
% FOF formula (((eq (fofType->Prop)) nonempty) (fun (Xx:fofType)=> (not (((eq fofType) Xx) emptyset)))) of role definition named nonempty
% A new definition: (((eq (fofType->Prop)) nonempty) (fun (Xx:fofType)=> (not (((eq fofType) Xx) emptyset))))
% Defined: nonempty:=(fun (Xx:fofType)=> (not (((eq fofType) Xx) emptyset)))
% FOF formula (<kernel.Constant object at 0x25e6488>, <kernel.Sort object at 0x20d5f38>) of role type named nonemptyE1_type
% Using role type
% Declaring nonemptyE1:Prop
% FOF formula (((eq Prop) nonemptyE1) (forall (A:fofType), ((nonempty A)->((ex fofType) (fun (Xx:fofType)=> ((in Xx) A)))))) of role definition named nonemptyE1
% A new definition: (((eq Prop) nonemptyE1) (forall (A:fofType), ((nonempty A)->((ex fofType) (fun (Xx:fofType)=> ((in Xx) A))))))
% Defined: nonemptyE1:=(forall (A:fofType), ((nonempty A)->((ex fofType) (fun (Xx:fofType)=> ((in Xx) A)))))
% FOF formula (<kernel.Constant object at 0x25e6320>, <kernel.Sort object at 0x20d5f38>) of role type named nonemptyI_type
% Using role type
% Declaring nonemptyI:Prop
% FOF formula (((eq Prop) nonemptyI) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->(nonempty ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy)))))))) of role definition named nonemptyI
% A new definition: (((eq Prop) nonemptyI) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->(nonempty ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))))))
% Defined: nonemptyI:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->(nonempty ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy)))))))
% FOF formula (<kernel.Constant object at 0x2644c68>, <kernel.Sort object at 0x20d5f38>) of role type named nonemptyI1_type
% Using role type
% Declaring nonemptyI1:Prop
% FOF formula (((eq Prop) nonemptyI1) (forall (A:fofType), (((ex fofType) (fun (Xx:fofType)=> ((in Xx) A)))->(nonempty A)))) of role definition named nonemptyI1
% A new definition: (((eq Prop) nonemptyI1) (forall (A:fofType), (((ex fofType) (fun (Xx:fofType)=> ((in Xx) A)))->(nonempty A))))
% Defined: nonemptyI1:=(forall (A:fofType), (((ex fofType) (fun (Xx:fofType)=> ((in Xx) A)))->(nonempty A)))
% FOF formula (<kernel.Constant object at 0x2644bd8>, <kernel.Sort object at 0x20d5f38>) of role type named setadjoinIL_type
% Using role type
% Declaring setadjoinIL:Prop
% FOF formula (((eq Prop) setadjoinIL) (forall (Xx:fofType) (Xy:fofType), ((in Xx) ((setadjoin Xx) Xy)))) of role definition named setadjoinIL
% A new definition: (((eq Prop) setadjoinIL) (forall (Xx:fofType) (Xy:fofType), ((in Xx) ((setadjoin Xx) Xy))))
% Defined: setadjoinIL:=(forall (Xx:fofType) (Xy:fofType), ((in Xx) ((setadjoin Xx) Xy)))
% FOF formula (<kernel.Constant object at 0x2644d88>, <kernel.Sort object at 0x20d5f38>) of role type named emptyinunitempty_type
% Using role type
% Declaring emptyinunitempty:Prop
% FOF formula (((eq Prop) emptyinunitempty) ((in emptyset) ((setadjoin emptyset) emptyset))) of role definition named emptyinunitempty
% A new definition: (((eq Prop) emptyinunitempty) ((in emptyset) ((setadjoin emptyset) emptyset)))
% Defined: emptyinunitempty:=((in emptyset) ((setadjoin emptyset) emptyset))
% FOF formula (<kernel.Constant object at 0x2644d88>, <kernel.Sort object at 0x20d5f38>) of role type named setadjoinIR_type
% Using role type
% Declaring setadjoinIR:Prop
% FOF formula (((eq Prop) setadjoinIR) (forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) A)->((in Xy) ((setadjoin Xx) A))))) of role definition named setadjoinIR
% A new definition: (((eq Prop) setadjoinIR) (forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) A)->((in Xy) ((setadjoin Xx) A)))))
% Defined: setadjoinIR:=(forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) A)->((in Xy) ((setadjoin Xx) A))))
% FOF formula (<kernel.Constant object at 0x2644c68>, <kernel.Sort object at 0x20d5f38>) of role type named setadjoinE_type
% Using role type
% Declaring setadjoinE:Prop
% FOF formula (((eq Prop) setadjoinE) (forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) ((setadjoin Xx) A))->(forall (Xphi:Prop), (((((eq fofType) Xy) Xx)->Xphi)->((((in Xy) A)->Xphi)->Xphi)))))) of role definition named setadjoinE
% A new definition: (((eq Prop) setadjoinE) (forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) ((setadjoin Xx) A))->(forall (Xphi:Prop), (((((eq fofType) Xy) Xx)->Xphi)->((((in Xy) A)->Xphi)->Xphi))))))
% Defined: setadjoinE:=(forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) ((setadjoin Xx) A))->(forall (Xphi:Prop), (((((eq fofType) Xy) Xx)->Xphi)->((((in Xy) A)->Xphi)->Xphi)))))
% FOF formula (<kernel.Constant object at 0x25e7128>, <kernel.Sort object at 0x20d5f38>) of role type named setadjoinOr_type
% Using role type
% Declaring setadjoinOr:Prop
% FOF formula (((eq Prop) setadjoinOr) (forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) ((setadjoin Xx) A))->((or (((eq fofType) Xy) Xx)) ((in Xy) A))))) of role definition named setadjoinOr
% A new definition: (((eq Prop) setadjoinOr) (forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) ((setadjoin Xx) A))->((or (((eq fofType) Xy) Xx)) ((in Xy) A)))))
% Defined: setadjoinOr:=(forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) ((setadjoin Xx) A))->((or (((eq fofType) Xy) Xx)) ((in Xy) A))))
% FOF formula (<kernel.Constant object at 0x25e7908>, <kernel.Sort object at 0x20d5f38>) of role type named setoftrueEq_type
% Using role type
% Declaring setoftrueEq:Prop
% FOF formula (((eq Prop) setoftrueEq) (forall (A:fofType), (((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> True))) A))) of role definition named setoftrueEq
% A new definition: (((eq Prop) setoftrueEq) (forall (A:fofType), (((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> True))) A)))
% Defined: setoftrueEq:=(forall (A:fofType), (((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> True))) A))
% FOF formula (<kernel.Constant object at 0x25e7fc8>, <kernel.Sort object at 0x20d5f38>) of role type named powersetI_type
% Using role type
% Declaring powersetI:Prop
% FOF formula (((eq Prop) powersetI) (forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) B)->((in Xx) A)))->((in B) (powerset A))))) of role definition named powersetI
% A new definition: (((eq Prop) powersetI) (forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) B)->((in Xx) A)))->((in B) (powerset A)))))
% Defined: powersetI:=(forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) B)->((in Xx) A)))->((in B) (powerset A))))
% FOF formula (<kernel.Constant object at 0x25e7a28>, <kernel.Sort object at 0x20d5f38>) of role type named emptyinPowerset_type
% Using role type
% Declaring emptyinPowerset:Prop
% FOF formula (((eq Prop) emptyinPowerset) (forall (A:fofType), ((in emptyset) (powerset A)))) of role definition named emptyinPowerset
% A new definition: (((eq Prop) emptyinPowerset) (forall (A:fofType), ((in emptyset) (powerset A))))
% Defined: emptyinPowerset:=(forall (A:fofType), ((in emptyset) (powerset A)))
% FOF formula (<kernel.Constant object at 0x25e7a28>, <kernel.Sort object at 0x20d5f38>) of role type named emptyInPowerset_type
% Using role type
% Declaring emptyInPowerset:Prop
% FOF formula (((eq Prop) emptyInPowerset) (forall (A:fofType), ((in emptyset) (powerset A)))) of role definition named emptyInPowerset
% A new definition: (((eq Prop) emptyInPowerset) (forall (A:fofType), ((in emptyset) (powerset A))))
% Defined: emptyInPowerset:=(forall (A:fofType), ((in emptyset) (powerset A)))
% FOF formula (<kernel.Constant object at 0x25e7908>, <kernel.Sort object at 0x20d5f38>) of role type named powersetE_type
% Using role type
% Declaring powersetE:Prop
% FOF formula (((eq Prop) powersetE) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in B) (powerset A))->(((in Xx) B)->((in Xx) A))))) of role definition named powersetE
% A new definition: (((eq Prop) powersetE) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in B) (powerset A))->(((in Xx) B)->((in Xx) A)))))
% Defined: powersetE:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in B) (powerset A))->(((in Xx) B)->((in Xx) A))))
% FOF formula (<kernel.Constant object at 0x21f0a28>, <kernel.Sort object at 0x20d5f38>) of role type named setunionI_type
% Using role type
% Declaring setunionI:Prop
% FOF formula (((eq Prop) setunionI) (forall (A:fofType) (Xx:fofType) (B:fofType), (((in Xx) B)->(((in B) A)->((in Xx) (setunion A)))))) of role definition named setunionI
% A new definition: (((eq Prop) setunionI) (forall (A:fofType) (Xx:fofType) (B:fofType), (((in Xx) B)->(((in B) A)->((in Xx) (setunion A))))))
% Defined: setunionI:=(forall (A:fofType) (Xx:fofType) (B:fofType), (((in Xx) B)->(((in B) A)->((in Xx) (setunion A)))))
% FOF formula (<kernel.Constant object at 0x21f0440>, <kernel.Sort object at 0x20d5f38>) of role type named setunionE_type
% Using role type
% Declaring setunionE:Prop
% FOF formula (((eq Prop) setunionE) (forall (A:fofType) (Xx:fofType), (((in Xx) (setunion A))->(forall (Xphi:Prop), ((forall (B:fofType), (((in Xx) B)->(((in B) A)->Xphi)))->Xphi))))) of role definition named setunionE
% A new definition: (((eq Prop) setunionE) (forall (A:fofType) (Xx:fofType), (((in Xx) (setunion A))->(forall (Xphi:Prop), ((forall (B:fofType), (((in Xx) B)->(((in B) A)->Xphi)))->Xphi)))))
% Defined: setunionE:=(forall (A:fofType) (Xx:fofType), (((in Xx) (setunion A))->(forall (Xphi:Prop), ((forall (B:fofType), (((in Xx) B)->(((in B) A)->Xphi)))->Xphi))))
% FOF formula (<kernel.Constant object at 0x21f0830>, <kernel.Sort object at 0x20d5f38>) of role type named subPowSU_type
% Using role type
% Declaring subPowSU:Prop
% FOF formula (((eq Prop) subPowSU) (forall (A:fofType) (Xx:fofType), (((in Xx) A)->((in Xx) (powerset (setunion A)))))) of role definition named subPowSU
% A new definition: (((eq Prop) subPowSU) (forall (A:fofType) (Xx:fofType), (((in Xx) A)->((in Xx) (powerset (setunion A))))))
% Defined: subPowSU:=(forall (A:fofType) (Xx:fofType), (((in Xx) A)->((in Xx) (powerset (setunion A)))))
% FOF formula (<kernel.Constant object at 0x21f0680>, <kernel.Sort object at 0x20d5f38>) of role type named exuE2_type
% Using role type
% Declaring exuE2:Prop
% FOF formula (((eq Prop) exuE2) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> (forall (Xy:fofType), ((iff (Xphi Xy)) (((eq fofType) Xy) Xx)))))))) of role definition named exuE2
% A new definition: (((eq Prop) exuE2) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> (forall (Xy:fofType), ((iff (Xphi Xy)) (((eq fofType) Xy) Xx))))))))
% Defined: exuE2:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> (forall (Xy:fofType), ((iff (Xphi Xy)) (((eq fofType) Xy) Xx)))))))
% FOF formula (<kernel.Constant object at 0x21f04d0>, <kernel.Sort object at 0x20d5f38>) of role type named nonemptyImpWitness_type
% Using role type
% Declaring nonemptyImpWitness:Prop
% FOF formula (((eq Prop) nonemptyImpWitness) (forall (A:fofType), ((nonempty A)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) True)))))) of role definition named nonemptyImpWitness
% A new definition: (((eq Prop) nonemptyImpWitness) (forall (A:fofType), ((nonempty A)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) True))))))
% Defined: nonemptyImpWitness:=(forall (A:fofType), ((nonempty A)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) True)))))
% FOF formula (<kernel.Constant object at 0x21f07e8>, <kernel.Sort object at 0x20d5f38>) of role type named uniqinunit_type
% Using role type
% Declaring uniqinunit:Prop
% FOF formula (((eq Prop) uniqinunit) (forall (Xx:fofType) (Xy:fofType), (((in Xx) ((setadjoin Xy) emptyset))->(((eq fofType) Xx) Xy)))) of role definition named uniqinunit
% A new definition: (((eq Prop) uniqinunit) (forall (Xx:fofType) (Xy:fofType), (((in Xx) ((setadjoin Xy) emptyset))->(((eq fofType) Xx) Xy))))
% Defined: uniqinunit:=(forall (Xx:fofType) (Xy:fofType), (((in Xx) ((setadjoin Xy) emptyset))->(((eq fofType) Xx) Xy)))
% FOF formula (<kernel.Constant object at 0x21f0f80>, <kernel.Sort object at 0x20d5f38>) of role type named notinsingleton_type
% Using role type
% Declaring notinsingleton:Prop
% FOF formula (((eq Prop) notinsingleton) (forall (Xx:fofType) (Xy:fofType), ((not (((eq fofType) Xx) Xy))->(((in Xy) ((setadjoin Xx) emptyset))->False)))) of role definition named notinsingleton
% A new definition: (((eq Prop) notinsingleton) (forall (Xx:fofType) (Xy:fofType), ((not (((eq fofType) Xx) Xy))->(((in Xy) ((setadjoin Xx) emptyset))->False))))
% Defined: notinsingleton:=(forall (Xx:fofType) (Xy:fofType), ((not (((eq fofType) Xx) Xy))->(((in Xy) ((setadjoin Xx) emptyset))->False)))
% FOF formula (<kernel.Constant object at 0x21f0a70>, <kernel.Sort object at 0x20d5f38>) of role type named eqinunit_type
% Using role type
% Declaring eqinunit:Prop
% FOF formula (((eq Prop) eqinunit) (forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((in Xx) ((setadjoin Xy) emptyset))))) of role definition named eqinunit
% A new definition: (((eq Prop) eqinunit) (forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((in Xx) ((setadjoin Xy) emptyset)))))
% Defined: eqinunit:=(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((in Xx) ((setadjoin Xy) emptyset))))
% FOF formula (<kernel.Constant object at 0x21f0f38>, <kernel.Sort object at 0x20d5f38>) of role type named singletonsswitch_type
% Using role type
% Declaring singletonsswitch:Prop
% FOF formula (((eq Prop) singletonsswitch) (forall (Xx:fofType) (Xy:fofType), (((in Xx) ((setadjoin Xy) emptyset))->((in Xy) ((setadjoin Xx) emptyset))))) of role definition named singletonsswitch
% A new definition: (((eq Prop) singletonsswitch) (forall (Xx:fofType) (Xy:fofType), (((in Xx) ((setadjoin Xy) emptyset))->((in Xy) ((setadjoin Xx) emptyset)))))
% Defined: singletonsswitch:=(forall (Xx:fofType) (Xy:fofType), (((in Xx) ((setadjoin Xy) emptyset))->((in Xy) ((setadjoin Xx) emptyset))))
% FOF formula (<kernel.Constant object at 0x21f0908>, <kernel.Sort object at 0x20d5f38>) of role type named upairsetE_type
% Using role type
% Declaring upairsetE:Prop
% FOF formula (((eq Prop) upairsetE) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in Xz) ((setadjoin Xx) ((setadjoin Xy) emptyset)))->((or (((eq fofType) Xz) Xx)) (((eq fofType) Xz) Xy))))) of role definition named upairsetE
% A new definition: (((eq Prop) upairsetE) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in Xz) ((setadjoin Xx) ((setadjoin Xy) emptyset)))->((or (((eq fofType) Xz) Xx)) (((eq fofType) Xz) Xy)))))
% Defined: upairsetE:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in Xz) ((setadjoin Xx) ((setadjoin Xy) emptyset)))->((or (((eq fofType) Xz) Xx)) (((eq fofType) Xz) Xy))))
% FOF formula (<kernel.Constant object at 0x21f0c20>, <kernel.Sort object at 0x20d5f38>) of role type named upairsetIL_type
% Using role type
% Declaring upairsetIL:Prop
% FOF formula (((eq Prop) upairsetIL) (forall (Xx:fofType) (Xy:fofType), ((in Xx) ((setadjoin Xx) ((setadjoin Xy) emptyset))))) of role definition named upairsetIL
% A new definition: (((eq Prop) upairsetIL) (forall (Xx:fofType) (Xy:fofType), ((in Xx) ((setadjoin Xx) ((setadjoin Xy) emptyset)))))
% Defined: upairsetIL:=(forall (Xx:fofType) (Xy:fofType), ((in Xx) ((setadjoin Xx) ((setadjoin Xy) emptyset))))
% FOF formula (<kernel.Constant object at 0x21f0c68>, <kernel.Sort object at 0x20d5f38>) of role type named upairsetIR_type
% Using role type
% Declaring upairsetIR:Prop
% FOF formula (((eq Prop) upairsetIR) (forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset))))) of role definition named upairsetIR
% A new definition: (((eq Prop) upairsetIR) (forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset)))))
% Defined: upairsetIR:=(forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset))))
% FOF formula (<kernel.Constant object at 0x21f0518>, <kernel.Sort object at 0x20d5f38>) of role type named emptyE1_type
% Using role type
% Declaring emptyE1:Prop
% FOF formula (((eq Prop) emptyE1) (forall (A:fofType) (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->((((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) emptyset)->False)))) of role definition named emptyE1
% A new definition: (((eq Prop) emptyE1) (forall (A:fofType) (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->((((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) emptyset)->False))))
% Defined: emptyE1:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->((((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) emptyset)->False)))
% FOF formula (<kernel.Constant object at 0x21f0b48>, <kernel.Sort object at 0x20d5f38>) of role type named vacuousDall_type
% Using role type
% Declaring vacuousDall:Prop
% FOF formula (((eq Prop) vacuousDall) (forall (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) emptyset)->(Xphi Xx)))) of role definition named vacuousDall
% A new definition: (((eq Prop) vacuousDall) (forall (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) emptyset)->(Xphi Xx))))
% Defined: vacuousDall:=(forall (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) emptyset)->(Xphi Xx)))
% FOF formula (<kernel.Constant object at 0x21f0bd8>, <kernel.Sort object at 0x20d5f38>) of role type named quantDeMorgan1_type
% Using role type
% Declaring quantDeMorgan1:Prop
% FOF formula (((eq Prop) quantDeMorgan1) (forall (A:fofType) (Xphi:(fofType->Prop)), (((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False))))))) of role definition named quantDeMorgan1
% A new definition: (((eq Prop) quantDeMorgan1) (forall (A:fofType) (Xphi:(fofType->Prop)), (((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False)))))))
% Defined: quantDeMorgan1:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False))))))
% FOF formula (<kernel.Constant object at 0x21f06c8>, <kernel.Sort object at 0x20d5f38>) of role type named quantDeMorgan2_type
% Using role type
% Declaring quantDeMorgan2:Prop
% FOF formula (((eq Prop) quantDeMorgan2) (forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False)))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False)))) of role definition named quantDeMorgan2
% A new definition: (((eq Prop) quantDeMorgan2) (forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False)))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False))))
% Defined: quantDeMorgan2:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False)))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False)))
% FOF formula (<kernel.Constant object at 0x21f0fc8>, <kernel.Sort object at 0x20d5f38>) of role type named quantDeMorgan3_type
% Using role type
% Declaring quantDeMorgan3:Prop
% FOF formula (((eq Prop) quantDeMorgan3) (forall (A:fofType) (Xphi:(fofType->Prop)), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False)->(forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False)))))) of role definition named quantDeMorgan3
% A new definition: (((eq Prop) quantDeMorgan3) (forall (A:fofType) (Xphi:(fofType->Prop)), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False)->(forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False))))))
% Defined: quantDeMorgan3:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False)->(forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False)))))
% FOF formula (<kernel.Constant object at 0x21f05f0>, <kernel.Sort object at 0x20d5f38>) of role type named quantDeMorgan4_type
% Using role type
% Declaring quantDeMorgan4:Prop
% FOF formula (((eq Prop) quantDeMorgan4) (forall (A:fofType) (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False))))->((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False)))) of role definition named quantDeMorgan4
% A new definition: (((eq Prop) quantDeMorgan4) (forall (A:fofType) (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False))))->((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False))))
% Defined: quantDeMorgan4:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False))))->((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False)))
% FOF formula (<kernel.Constant object at 0x21f0d88>, <kernel.Sort object at 0x20d5f38>) of role type named prop2setI_type
% Using role type
% Declaring prop2setI:Prop
% FOF formula (((eq Prop) prop2setI) (forall (Xphi:Prop), (Xphi->((in emptyset) (prop2set Xphi))))) of role definition named prop2setI
% A new definition: (((eq Prop) prop2setI) (forall (Xphi:Prop), (Xphi->((in emptyset) (prop2set Xphi)))))
% Defined: prop2setI:=(forall (Xphi:Prop), (Xphi->((in emptyset) (prop2set Xphi))))
% FOF formula (<kernel.Constant object at 0x21f0d88>, <kernel.DependentProduct object at 0x25d65a8>) of role type named set2prop_type
% Using role type
% Declaring set2prop:(fofType->Prop)
% FOF formula (<kernel.Constant object at 0x21f0fc8>, <kernel.Sort object at 0x20d5f38>) of role type named prop2set2propI_type
% Using role type
% Declaring prop2set2propI:Prop
% FOF formula (((eq Prop) prop2set2propI) (forall (Xphi:Prop), (Xphi->(set2prop (prop2set Xphi))))) of role definition named prop2set2propI
% A new definition: (((eq Prop) prop2set2propI) (forall (Xphi:Prop), (Xphi->(set2prop (prop2set Xphi)))))
% Defined: prop2set2propI:=(forall (Xphi:Prop), (Xphi->(set2prop (prop2set Xphi))))
% FOF formula (<kernel.Constant object at 0x25d6368>, <kernel.Sort object at 0x20d5f38>) of role type named notdexE_type
% Using role type
% Declaring notdexE:Prop
% FOF formula (((eq Prop) notdexE) (forall (A:fofType) (Xphi:(fofType->Prop)), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False)->(forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False)))))) of role definition named notdexE
% A new definition: (((eq Prop) notdexE) (forall (A:fofType) (Xphi:(fofType->Prop)), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False)->(forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False))))))
% Defined: notdexE:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False)->(forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False)))))
% FOF formula (<kernel.Constant object at 0x25d6290>, <kernel.Sort object at 0x20d5f38>) of role type named notdallE_type
% Using role type
% Declaring notdallE:Prop
% FOF formula (((eq Prop) notdallE) (forall (A:fofType) (Xphi:(fofType->Prop)), (((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False))))))) of role definition named notdallE
% A new definition: (((eq Prop) notdallE) (forall (A:fofType) (Xphi:(fofType->Prop)), (((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False)))))))
% Defined: notdallE:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False))))))
% FOF formula (<kernel.Constant object at 0x25d6758>, <kernel.Sort object at 0x20d5f38>) of role type named exuI1_type
% Using role type
% Declaring exuI1:Prop
% FOF formula (((eq Prop) exuI1) (forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy))))))->(exu (fun (Xx:fofType)=> (Xphi Xx)))))) of role definition named exuI1
% A new definition: (((eq Prop) exuI1) (forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy))))))->(exu (fun (Xx:fofType)=> (Xphi Xx))))))
% Defined: exuI1:=(forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy))))))->(exu (fun (Xx:fofType)=> (Xphi Xx)))))
% FOF formula (<kernel.Constant object at 0x25d6908>, <kernel.Sort object at 0x20d5f38>) of role type named exuI3_type
% Using role type
% Declaring exuI3:Prop
% FOF formula (((eq Prop) exuI3) (forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> (Xphi Xx)))->((forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy))))->(exu (fun (Xx:fofType)=> (Xphi Xx))))))) of role definition named exuI3
% A new definition: (((eq Prop) exuI3) (forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> (Xphi Xx)))->((forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy))))->(exu (fun (Xx:fofType)=> (Xphi Xx)))))))
% Defined: exuI3:=(forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> (Xphi Xx)))->((forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy))))->(exu (fun (Xx:fofType)=> (Xphi Xx))))))
% FOF formula (<kernel.Constant object at 0x25d63f8>, <kernel.Sort object at 0x20d5f38>) of role type named exuI2_type
% Using role type
% Declaring exuI2:Prop
% FOF formula (((eq Prop) exuI2) (forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> (forall (Xy:fofType), ((iff (Xphi Xy)) (((eq fofType) Xy) Xx)))))->(exu (fun (Xx:fofType)=> (Xphi Xx)))))) of role definition named exuI2
% A new definition: (((eq Prop) exuI2) (forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> (forall (Xy:fofType), ((iff (Xphi Xy)) (((eq fofType) Xy) Xx)))))->(exu (fun (Xx:fofType)=> (Xphi Xx))))))
% Defined: exuI2:=(forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> (forall (Xy:fofType), ((iff (Xphi Xy)) (((eq fofType) Xy) Xx)))))->(exu (fun (Xx:fofType)=> (Xphi Xx)))))
% FOF formula (<kernel.Constant object at 0x25d67e8>, <kernel.Sort object at 0x20d5f38>) of role type named inCongP_type
% Using role type
% Declaring inCongP:Prop
% FOF formula (((eq Prop) inCongP) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((in Xx) A)->((in Xy) B))))))) of role definition named inCongP
% A new definition: (((eq Prop) inCongP) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((in Xx) A)->((in Xy) B)))))))
% Defined: inCongP:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((in Xx) A)->((in Xy) B))))))
% FOF formula (<kernel.Constant object at 0x25d6878>, <kernel.Sort object at 0x20d5f38>) of role type named in__Cong_type
% Using role type
% Declaring in__Cong:Prop
% FOF formula (((eq Prop) in__Cong) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff ((in Xx) A)) ((in Xy) B))))))) of role definition named in__Cong
% A new definition: (((eq Prop) in__Cong) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff ((in Xx) A)) ((in Xy) B)))))))
% Defined: in__Cong:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff ((in Xx) A)) ((in Xy) B))))))
% FOF formula (<kernel.Constant object at 0x25d6830>, <kernel.Sort object at 0x20d5f38>) of role type named exuE3u_type
% Using role type
% Declaring exuE3u:Prop
% FOF formula (((eq Prop) exuE3u) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy))))))) of role definition named exuE3u
% A new definition: (((eq Prop) exuE3u) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))
% Defined: exuE3u:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy))))))
% FOF formula (<kernel.Constant object at 0x25d60e0>, <kernel.Sort object at 0x20d5f38>) of role type named exu__Cong_type
% Using role type
% Declaring exu__Cong:Prop
% FOF formula (((eq Prop) exu__Cong) (forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy))))->((iff (exu (fun (Xx:fofType)=> (Xphi Xx)))) (exu (fun (Xx:fofType)=> (Xpsi Xx))))))) of role definition named exu__Cong
% A new definition: (((eq Prop) exu__Cong) (forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy))))->((iff (exu (fun (Xx:fofType)=> (Xphi Xx)))) (exu (fun (Xx:fofType)=> (Xpsi Xx)))))))
% Defined: exu__Cong:=(forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy))))->((iff (exu (fun (Xx:fofType)=> (Xphi Xx)))) (exu (fun (Xx:fofType)=> (Xpsi Xx))))))
% FOF formula (<kernel.Constant object at 0x25d6050>, <kernel.Sort object at 0x20d5f38>) of role type named emptyset__Cong_type
% Using role type
% Declaring emptyset__Cong:Prop
% FOF formula (((eq Prop) emptyset__Cong) (((eq fofType) emptyset) emptyset)) of role definition named emptyset__Cong
% A new definition: (((eq Prop) emptyset__Cong) (((eq fofType) emptyset) emptyset))
% Defined: emptyset__Cong:=(((eq fofType) emptyset) emptyset)
% FOF formula (<kernel.Constant object at 0x25d6d40>, <kernel.Sort object at 0x20d5f38>) of role type named setadjoin__Cong_type
% Using role type
% Declaring setadjoin__Cong:Prop
% FOF formula (((eq Prop) setadjoin__Cong) (forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(forall (Xz:fofType) (Xu:fofType), ((((eq fofType) Xz) Xu)->(((eq fofType) ((setadjoin Xx) Xz)) ((setadjoin Xy) Xu))))))) of role definition named setadjoin__Cong
% A new definition: (((eq Prop) setadjoin__Cong) (forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(forall (Xz:fofType) (Xu:fofType), ((((eq fofType) Xz) Xu)->(((eq fofType) ((setadjoin Xx) Xz)) ((setadjoin Xy) Xu)))))))
% Defined: setadjoin__Cong:=(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(forall (Xz:fofType) (Xu:fofType), ((((eq fofType) Xz) Xu)->(((eq fofType) ((setadjoin Xx) Xz)) ((setadjoin Xy) Xu))))))
% FOF formula (<kernel.Constant object at 0x25d6e60>, <kernel.Sort object at 0x20d5f38>) of role type named powerset__Cong_type
% Using role type
% Declaring powerset__Cong:Prop
% FOF formula (((eq Prop) powerset__Cong) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(((eq fofType) (powerset A)) (powerset B))))) of role definition named powerset__Cong
% A new definition: (((eq Prop) powerset__Cong) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(((eq fofType) (powerset A)) (powerset B)))))
% Defined: powerset__Cong:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(((eq fofType) (powerset A)) (powerset B))))
% FOF formula (<kernel.Constant object at 0x25d6cf8>, <kernel.Sort object at 0x20d5f38>) of role type named setunion__Cong_type
% Using role type
% Declaring setunion__Cong:Prop
% FOF formula (((eq Prop) setunion__Cong) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(((eq fofType) (setunion A)) (setunion B))))) of role definition named setunion__Cong
% A new definition: (((eq Prop) setunion__Cong) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(((eq fofType) (setunion A)) (setunion B)))))
% Defined: setunion__Cong:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(((eq fofType) (setunion A)) (setunion B))))
% FOF formula (<kernel.Constant object at 0x25d6f80>, <kernel.Sort object at 0x20d5f38>) of role type named omega__Cong_type
% Using role type
% Declaring omega__Cong:Prop
% FOF formula (((eq Prop) omega__Cong) (((eq fofType) omega) omega)) of role definition named omega__Cong
% A new definition: (((eq Prop) omega__Cong) (((eq fofType) omega) omega))
% Defined: omega__Cong:=(((eq fofType) omega) omega)
% FOF formula (<kernel.Constant object at 0x25d6c68>, <kernel.Sort object at 0x20d5f38>) of role type named exuEu_type
% Using role type
% Declaring exuEu:Prop
% FOF formula (((eq Prop) exuEu) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy))))))) of role definition named exuEu
% A new definition: (((eq Prop) exuEu) (forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))
% Defined: exuEu:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy))))))
% FOF formula (<kernel.Constant object at 0x25d6ab8>, <kernel.Sort object at 0x20d5f38>) of role type named descr__Cong_type
% Using role type
% Declaring descr__Cong:Prop
% FOF formula (((eq Prop) descr__Cong) (forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy))))->((exu (fun (Xx:fofType)=> (Xphi Xx)))->((exu (fun (Xx:fofType)=> (Xpsi Xx)))->(((eq fofType) (descr (fun (Xx:fofType)=> (Xphi Xx)))) (descr (fun (Xx:fofType)=> (Xpsi Xx))))))))) of role definition named descr__Cong
% A new definition: (((eq Prop) descr__Cong) (forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy))))->((exu (fun (Xx:fofType)=> (Xphi Xx)))->((exu (fun (Xx:fofType)=> (Xpsi Xx)))->(((eq fofType) (descr (fun (Xx:fofType)=> (Xphi Xx)))) (descr (fun (Xx:fofType)=> (Xpsi Xx)))))))))
% Defined: descr__Cong:=(forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy))))->((exu (fun (Xx:fofType)=> (Xphi Xx)))->((exu (fun (Xx:fofType)=> (Xpsi Xx)))->(((eq fofType) (descr (fun (Xx:fofType)=> (Xphi Xx)))) (descr (fun (Xx:fofType)=> (Xpsi Xx))))))))
% FOF formula (<kernel.Constant object at 0x25d6950>, <kernel.Sort object at 0x20d5f38>) of role type named dsetconstr__Cong_type
% Using role type
% Declaring dsetconstr__Cong:Prop
% FOF formula (((eq Prop) dsetconstr__Cong) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy)))))))->(((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) ((dsetconstr B) (fun (Xx:fofType)=> (Xpsi Xx))))))))) of role definition named dsetconstr__Cong
% A new definition: (((eq Prop) dsetconstr__Cong) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy)))))))->(((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) ((dsetconstr B) (fun (Xx:fofType)=> (Xpsi Xx)))))))))
% Defined: dsetconstr__Cong:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy)))))))->(((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) ((dsetconstr B) (fun (Xx:fofType)=> (Xpsi Xx))))))))
% FOF formula (<kernel.Constant object at 0x25d60e0>, <kernel.DependentProduct object at 0x25d6f38>) of role type named subset_type
% Using role type
% Declaring subset:(fofType->(fofType->Prop))
% FOF formula (<kernel.Constant object at 0x25d6a28>, <kernel.DependentProduct object at 0x25d6fc8>) of role type named disjoint_type
% Using role type
% Declaring disjoint:(fofType->(fofType->Prop))
% FOF formula (<kernel.Constant object at 0x25d6950>, <kernel.DependentProduct object at 0x25d60e0>) of role type named setsmeet_type
% Using role type
% Declaring setsmeet:(fofType->(fofType->Prop))
% FOF formula (<kernel.Constant object at 0x25d6e18>, <kernel.Sort object at 0x20d5f38>) of role type named subsetI1_type
% Using role type
% Declaring subsetI1:Prop
% FOF formula (((eq Prop) subsetI1) (forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((subset A) B)))) of role definition named subsetI1
% A new definition: (((eq Prop) subsetI1) (forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((subset A) B))))
% Defined: subsetI1:=(forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((subset A) B)))
% FOF formula (<kernel.Constant object at 0x25d6b90>, <kernel.Sort object at 0x20d5f38>) of role type named eqimpsubset2_type
% Using role type
% Declaring eqimpsubset2:Prop
% FOF formula (((eq Prop) eqimpsubset2) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->((subset B) A)))) of role definition named eqimpsubset2
% A new definition: (((eq Prop) eqimpsubset2) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->((subset B) A))))
% Defined: eqimpsubset2:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->((subset B) A)))
% FOF formula (<kernel.Constant object at 0x25d6950>, <kernel.Sort object at 0x20d5f38>) of role type named eqimpsubset1_type
% Using role type
% Declaring eqimpsubset1:Prop
% FOF formula (((eq Prop) eqimpsubset1) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->((subset A) B)))) of role definition named eqimpsubset1
% A new definition: (((eq Prop) eqimpsubset1) (forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->((subset A) B))))
% Defined: eqimpsubset1:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->((subset A) B)))
% FOF formula (<kernel.Constant object at 0x25d6fc8>, <kernel.Sort object at 0x20d5f38>) of role type named subsetI2_type
% Using role type
% Declaring subsetI2:Prop
% FOF formula (((eq Prop) subsetI2) (forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((subset A) B)))) of role definition named subsetI2
% A new definition: (((eq Prop) subsetI2) (forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((subset A) B))))
% Defined: subsetI2:=(forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((subset A) B)))
% FOF formula (<kernel.Constant object at 0x25d6200>, <kernel.Sort object at 0x20d5f38>) of role type named emptysetsubset_type
% Using role type
% Declaring emptysetsubset:Prop
% FOF formula (((eq Prop) emptysetsubset) (forall (A:fofType), ((subset emptyset) A))) of role definition named emptysetsubset
% A new definition: (((eq Prop) emptysetsubset) (forall (A:fofType), ((subset emptyset) A)))
% Defined: emptysetsubset:=(forall (A:fofType), ((subset emptyset) A))
% FOF formula (<kernel.Constant object at 0x25d6bd8>, <kernel.Sort object at 0x20d5f38>) of role type named subsetE_type
% Using role type
% Declaring subsetE:Prop
% FOF formula (((eq Prop) subsetE) (forall (A:fofType) (B:fofType) (Xx:fofType), (((subset A) B)->(((in Xx) A)->((in Xx) B))))) of role definition named subsetE
% A new definition: (((eq Prop) subsetE) (forall (A:fofType) (B:fofType) (Xx:fofType), (((subset A) B)->(((in Xx) A)->((in Xx) B)))))
% Defined: subsetE:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((subset A) B)->(((in Xx) A)->((in Xx) B))))
% FOF formula (<kernel.Constant object at 0x25d6560>, <kernel.Sort object at 0x20d5f38>) of role type named subsetE2_type
% Using role type
% Declaring subsetE2:Prop
% FOF formula (((eq Prop) subsetE2) (forall (A:fofType) (B:fofType) (Xx:fofType), (((subset A) B)->((((in Xx) B)->False)->(((in Xx) A)->False))))) of role definition named subsetE2
% A new definition: (((eq Prop) subsetE2) (forall (A:fofType) (B:fofType) (Xx:fofType), (((subset A) B)->((((in Xx) B)->False)->(((in Xx) A)->False)))))
% Defined: subsetE2:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((subset A) B)->((((in Xx) B)->False)->(((in Xx) A)->False))))
% FOF formula (<kernel.Constant object at 0x25d6a28>, <kernel.Sort object at 0x20d5f38>) of role type named notsubsetI_type
% Using role type
% Declaring notsubsetI:Prop
% FOF formula (((eq Prop) notsubsetI) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->(((subset A) B)->False))))) of role definition named notsubsetI
% A new definition: (((eq Prop) notsubsetI) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->(((subset A) B)->False)))))
% Defined: notsubsetI:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->(((subset A) B)->False))))
% FOF formula (<kernel.Constant object at 0x25d6a28>, <kernel.Sort object at 0x20d5f38>) of role type named notequalI1_type
% Using role type
% Declaring notequalI1:Prop
% FOF formula (((eq Prop) notequalI1) (forall (A:fofType) (B:fofType), ((((subset A) B)->False)->(not (((eq fofType) A) B))))) of role definition named notequalI1
% A new definition: (((eq Prop) notequalI1) (forall (A:fofType) (B:fofType), ((((subset A) B)->False)->(not (((eq fofType) A) B)))))
% Defined: notequalI1:=(forall (A:fofType) (B:fofType), ((((subset A) B)->False)->(not (((eq fofType) A) B))))
% FOF formula (<kernel.Constant object at 0x25d6bd8>, <kernel.Sort object at 0x20d5f38>) of role type named notequalI2_type
% Using role type
% Declaring notequalI2:Prop
% FOF formula (((eq Prop) notequalI2) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->(not (((eq fofType) A) B)))))) of role definition named notequalI2
% A new definition: (((eq Prop) notequalI2) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->(not (((eq fofType) A) B))))))
% Defined: notequalI2:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->(not (((eq fofType) A) B)))))
% FOF formula (<kernel.Constant object at 0x25d9560>, <kernel.Sort object at 0x20d5f38>) of role type named subsetRefl_type
% Using role type
% Declaring subsetRefl:Prop
% FOF formula (((eq Prop) subsetRefl) (forall (A:fofType), ((subset A) A))) of role definition named subsetRefl
% A new definition: (((eq Prop) subsetRefl) (forall (A:fofType), ((subset A) A)))
% Defined: subsetRefl:=(forall (A:fofType), ((subset A) A))
% FOF formula (<kernel.Constant object at 0x25d9758>, <kernel.Sort object at 0x20d5f38>) of role type named subsetTrans_type
% Using role type
% Declaring subsetTrans:Prop
% FOF formula (((eq Prop) subsetTrans) (forall (A:fofType) (B:fofType) (C:fofType), (((subset A) B)->(((subset B) C)->((subset A) C))))) of role definition named subsetTrans
% A new definition: (((eq Prop) subsetTrans) (forall (A:fofType) (B:fofType) (C:fofType), (((subset A) B)->(((subset B) C)->((subset A) C)))))
% Defined: subsetTrans:=(forall (A:fofType) (B:fofType) (C:fofType), (((subset A) B)->(((subset B) C)->((subset A) C))))
% FOF formula (<kernel.Constant object at 0x25d9878>, <kernel.Sort object at 0x20d5f38>) of role type named setadjoinSub_type
% Using role type
% Declaring setadjoinSub:Prop
% FOF formula (((eq Prop) setadjoinSub) (forall (Xx:fofType) (A:fofType), ((subset A) ((setadjoin Xx) A)))) of role definition named setadjoinSub
% A new definition: (((eq Prop) setadjoinSub) (forall (Xx:fofType) (A:fofType), ((subset A) ((setadjoin Xx) A))))
% Defined: setadjoinSub:=(forall (Xx:fofType) (A:fofType), ((subset A) ((setadjoin Xx) A)))
% FOF formula (<kernel.Constant object at 0x25d9440>, <kernel.Sort object at 0x20d5f38>) of role type named setadjoinSub2_type
% Using role type
% Declaring setadjoinSub2:Prop
% FOF formula (((eq Prop) setadjoinSub2) (forall (A:fofType) (Xx:fofType) (B:fofType), (((subset A) B)->((subset A) ((setadjoin Xx) B))))) of role definition named setadjoinSub2
% A new definition: (((eq Prop) setadjoinSub2) (forall (A:fofType) (Xx:fofType) (B:fofType), (((subset A) B)->((subset A) ((setadjoin Xx) B)))))
% Defined: setadjoinSub2:=(forall (A:fofType) (Xx:fofType) (B:fofType), (((subset A) B)->((subset A) ((setadjoin Xx) B))))
% FOF formula (<kernel.Constant object at 0x25d9680>, <kernel.Sort object at 0x20d5f38>) of role type named subset2powerset_type
% Using role type
% Declaring subset2powerset:Prop
% FOF formula (((eq Prop) subset2powerset) (forall (A:fofType) (B:fofType), (((subset A) B)->((in A) (powerset B))))) of role definition named subset2powerset
% A new definition: (((eq Prop) subset2powerset) (forall (A:fofType) (B:fofType), (((subset A) B)->((in A) (powerset B)))))
% Defined: subset2powerset:=(forall (A:fofType) (B:fofType), (((subset A) B)->((in A) (powerset B))))
% FOF formula (<kernel.Constant object at 0x25d9908>, <kernel.Sort object at 0x20d5f38>) of role type named setextsub_type
% Using role type
% Declaring setextsub:Prop
% FOF formula (((eq Prop) setextsub) (forall (A:fofType) (B:fofType), (((subset A) B)->(((subset B) A)->(((eq fofType) A) B))))) of role definition named setextsub
% A new definition: (((eq Prop) setextsub) (forall (A:fofType) (B:fofType), (((subset A) B)->(((subset B) A)->(((eq fofType) A) B)))))
% Defined: setextsub:=(forall (A:fofType) (B:fofType), (((subset A) B)->(((subset B) A)->(((eq fofType) A) B))))
% FOF formula (<kernel.Constant object at 0x25d96c8>, <kernel.Sort object at 0x20d5f38>) of role type named subsetemptysetimpeq_type
% Using role type
% Declaring subsetemptysetimpeq:Prop
% FOF formula (((eq Prop) subsetemptysetimpeq) (forall (A:fofType), (((subset A) emptyset)->(((eq fofType) A) emptyset)))) of role definition named subsetemptysetimpeq
% A new definition: (((eq Prop) subsetemptysetimpeq) (forall (A:fofType), (((subset A) emptyset)->(((eq fofType) A) emptyset))))
% Defined: subsetemptysetimpeq:=(forall (A:fofType), (((subset A) emptyset)->(((eq fofType) A) emptyset)))
% FOF formula (<kernel.Constant object at 0x25d9050>, <kernel.Sort object at 0x20d5f38>) of role type named powersetI1_type
% Using role type
% Declaring powersetI1:Prop
% FOF formula (((eq Prop) powersetI1) (forall (A:fofType) (B:fofType), (((subset B) A)->((in B) (powerset A))))) of role definition named powersetI1
% A new definition: (((eq Prop) powersetI1) (forall (A:fofType) (B:fofType), (((subset B) A)->((in B) (powerset A)))))
% Defined: powersetI1:=(forall (A:fofType) (B:fofType), (((subset B) A)->((in B) (powerset A))))
% FOF formula (<kernel.Constant object at 0x25d9998>, <kernel.Sort object at 0x20d5f38>) of role type named powersetE1_type
% Using role type
% Declaring powersetE1:Prop
% FOF formula (((eq Prop) powersetE1) (forall (A:fofType) (B:fofType), (((in B) (powerset A))->((subset B) A)))) of role definition named powersetE1
% A new definition: (((eq Prop) powersetE1) (forall (A:fofType) (B:fofType), (((in B) (powerset A))->((subset B) A))))
% Defined: powersetE1:=(forall (A:fofType) (B:fofType), (((in B) (powerset A))->((subset B) A)))
% FOF formula (<kernel.Constant object at 0x25d9098>, <kernel.Sort object at 0x20d5f38>) of role type named inPowerset_type
% Using role type
% Declaring inPowerset:Prop
% FOF formula (((eq Prop) inPowerset) (forall (A:fofType), ((in A) (powerset A)))) of role definition named inPowerset
% A new definition: (((eq Prop) inPowerset) (forall (A:fofType), ((in A) (powerset A))))
% Defined: inPowerset:=(forall (A:fofType), ((in A) (powerset A)))
% FOF formula (<kernel.Constant object at 0x25d92d8>, <kernel.Sort object at 0x20d5f38>) of role type named powersetsubset_type
% Using role type
% Declaring powersetsubset:Prop
% FOF formula (((eq Prop) powersetsubset) (forall (A:fofType) (B:fofType), (((subset A) B)->((subset (powerset A)) (powerset B))))) of role definition named powersetsubset
% A new definition: (((eq Prop) powersetsubset) (forall (A:fofType) (B:fofType), (((subset A) B)->((subset (powerset A)) (powerset B)))))
% Defined: powersetsubset:=(forall (A:fofType) (B:fofType), (((subset A) B)->((subset (powerset A)) (powerset B))))
% FOF formula (<kernel.Constant object at 0x25d9518>, <kernel.Sort object at 0x20d5f38>) of role type named sepInPowerset_type
% Using role type
% Declaring sepInPowerset:Prop
% FOF formula (((eq Prop) sepInPowerset) (forall (A:fofType) (Xphi:(fofType->Prop)), ((in ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) (powerset A)))) of role definition named sepInPowerset
% A new definition: (((eq Prop) sepInPowerset) (forall (A:fofType) (Xphi:(fofType->Prop)), ((in ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) (powerset A))))
% Defined: sepInPowerset:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((in ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) (powerset A)))
% FOF formula (<kernel.Constant object at 0x25d90e0>, <kernel.Sort object at 0x20d5f38>) of role type named sepSubset_type
% Using role type
% Declaring sepSubset:Prop
% FOF formula (((eq Prop) sepSubset) (forall (A:fofType) (Xphi:(fofType->Prop)), ((subset ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) A))) of role definition named sepSubset
% A new definition: (((eq Prop) sepSubset) (forall (A:fofType) (Xphi:(fofType->Prop)), ((subset ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) A)))
% Defined: sepSubset:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((subset ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) A))
% FOF formula (<kernel.Constant object at 0x25d9b48>, <kernel.DependentProduct object at 0x25d97e8>) of role type named binunion_type
% Using role type
% Declaring binunion:(fofType->(fofType->fofType))
% FOF formula (<kernel.Constant object at 0x25d9128>, <kernel.Sort object at 0x20d5f38>) of role type named binunionIL_type
% Using role type
% Declaring binunionIL:Prop
% FOF formula (((eq Prop) binunionIL) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((in Xx) ((binunion A) B))))) of role definition named binunionIL
% A new definition: (((eq Prop) binunionIL) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((in Xx) ((binunion A) B)))))
% Defined: binunionIL:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((in Xx) ((binunion A) B))))
% FOF formula (<kernel.Constant object at 0x25d90e0>, <kernel.Sort object at 0x20d5f38>) of role type named upairset2IR_type
% Using role type
% Declaring upairset2IR:Prop
% FOF formula (((eq Prop) upairset2IR) (forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset))))) of role definition named upairset2IR
% A new definition: (((eq Prop) upairset2IR) (forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset)))))
% Defined: upairset2IR:=(forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset))))
% FOF formula (<kernel.Constant object at 0x25d9f38>, <kernel.Sort object at 0x20d5f38>) of role type named binunionIR_type
% Using role type
% Declaring binunionIR:Prop
% FOF formula (((eq Prop) binunionIR) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) B)->((in Xx) ((binunion A) B))))) of role definition named binunionIR
% A new definition: (((eq Prop) binunionIR) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) B)->((in Xx) ((binunion A) B)))))
% Defined: binunionIR:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) B)->((in Xx) ((binunion A) B))))
% FOF formula (<kernel.Constant object at 0x25d9ef0>, <kernel.Sort object at 0x20d5f38>) of role type named binunionEcases_type
% Using role type
% Declaring binunionEcases:Prop
% FOF formula (((eq Prop) binunionEcases) (forall (A:fofType) (B:fofType) (Xx:fofType) (Xphi:Prop), (((in Xx) ((binunion A) B))->((((in Xx) A)->Xphi)->((((in Xx) B)->Xphi)->Xphi))))) of role definition named binunionEcases
% A new definition: (((eq Prop) binunionEcases) (forall (A:fofType) (B:fofType) (Xx:fofType) (Xphi:Prop), (((in Xx) ((binunion A) B))->((((in Xx) A)->Xphi)->((((in Xx) B)->Xphi)->Xphi)))))
% Defined: binunionEcases:=(forall (A:fofType) (B:fofType) (Xx:fofType) (Xphi:Prop), (((in Xx) ((binunion A) B))->((((in Xx) A)->Xphi)->((((in Xx) B)->Xphi)->Xphi))))
% FOF formula (<kernel.Constant object at 0x25d9f80>, <kernel.Sort object at 0x20d5f38>) of role type named binunionE_type
% Using role type
% Declaring binunionE:Prop
% FOF formula (((eq Prop) binunionE) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binunion A) B))->((or ((in Xx) A)) ((in Xx) B))))) of role definition named binunionE
% A new definition: (((eq Prop) binunionE) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binunion A) B))->((or ((in Xx) A)) ((in Xx) B)))))
% Defined: binunionE:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binunion A) B))->((or ((in Xx) A)) ((in Xx) B))))
% FOF formula (<kernel.Constant object at 0x25d9950>, <kernel.Sort object at 0x20d5f38>) of role type named binunionLsub_type
% Using role type
% Declaring binunionLsub:Prop
% FOF formula (((eq Prop) binunionLsub) (forall (A:fofType) (B:fofType), ((subset A) ((binunion A) B)))) of role definition named binunionLsub
% A new definition: (((eq Prop) binunionLsub) (forall (A:fofType) (B:fofType), ((subset A) ((binunion A) B))))
% Defined: binunionLsub:=(forall (A:fofType) (B:fofType), ((subset A) ((binunion A) B)))
% FOF formula (<kernel.Constant object at 0x25d9bd8>, <kernel.Sort object at 0x20d5f38>) of role type named binunionRsub_type
% Using role type
% Declaring binunionRsub:Prop
% FOF formula (((eq Prop) binunionRsub) (forall (A:fofType) (B:fofType), ((subset B) ((binunion A) B)))) of role definition named binunionRsub
% A new definition: (((eq Prop) binunionRsub) (forall (A:fofType) (B:fofType), ((subset B) ((binunion A) B))))
% Defined: binunionRsub:=(forall (A:fofType) (B:fofType), ((subset B) ((binunion A) B)))
% FOF formula (<kernel.Constant object at 0x25d9d40>, <kernel.DependentProduct object at 0x25d9dd0>) of role type named binintersect_type
% Using role type
% Declaring binintersect:(fofType->(fofType->fofType))
% FOF formula (<kernel.Constant object at 0x25d9290>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectI_type
% Using role type
% Declaring binintersectI:Prop
% FOF formula (((eq Prop) binintersectI) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(((in Xx) B)->((in Xx) ((binintersect A) B)))))) of role definition named binintersectI
% A new definition: (((eq Prop) binintersectI) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(((in Xx) B)->((in Xx) ((binintersect A) B))))))
% Defined: binintersectI:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(((in Xx) B)->((in Xx) ((binintersect A) B)))))
% FOF formula (<kernel.Constant object at 0x25d9bd8>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectSubset5_type
% Using role type
% Declaring binintersectSubset5:Prop
% FOF formula (((eq Prop) binintersectSubset5) (forall (A:fofType) (B:fofType) (C:fofType), (((subset C) A)->(((subset C) B)->((subset C) ((binintersect A) B)))))) of role definition named binintersectSubset5
% A new definition: (((eq Prop) binintersectSubset5) (forall (A:fofType) (B:fofType) (C:fofType), (((subset C) A)->(((subset C) B)->((subset C) ((binintersect A) B))))))
% Defined: binintersectSubset5:=(forall (A:fofType) (B:fofType) (C:fofType), (((subset C) A)->(((subset C) B)->((subset C) ((binintersect A) B)))))
% FOF formula (<kernel.Constant object at 0x25d9d40>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectEL_type
% Using role type
% Declaring binintersectEL:Prop
% FOF formula (((eq Prop) binintersectEL) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binintersect A) B))->((in Xx) A)))) of role definition named binintersectEL
% A new definition: (((eq Prop) binintersectEL) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binintersect A) B))->((in Xx) A))))
% Defined: binintersectEL:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binintersect A) B))->((in Xx) A)))
% FOF formula (<kernel.Constant object at 0x25d9ea8>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectLsub_type
% Using role type
% Declaring binintersectLsub:Prop
% FOF formula (((eq Prop) binintersectLsub) (forall (A:fofType) (B:fofType), ((subset ((binintersect A) B)) A))) of role definition named binintersectLsub
% A new definition: (((eq Prop) binintersectLsub) (forall (A:fofType) (B:fofType), ((subset ((binintersect A) B)) A)))
% Defined: binintersectLsub:=(forall (A:fofType) (B:fofType), ((subset ((binintersect A) B)) A))
% FOF formula (<kernel.Constant object at 0x25d99e0>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectSubset2_type
% Using role type
% Declaring binintersectSubset2:Prop
% FOF formula (((eq Prop) binintersectSubset2) (forall (A:fofType) (B:fofType), (((subset A) B)->(((eq fofType) ((binintersect A) B)) A)))) of role definition named binintersectSubset2
% A new definition: (((eq Prop) binintersectSubset2) (forall (A:fofType) (B:fofType), (((subset A) B)->(((eq fofType) ((binintersect A) B)) A))))
% Defined: binintersectSubset2:=(forall (A:fofType) (B:fofType), (((subset A) B)->(((eq fofType) ((binintersect A) B)) A)))
% FOF formula (<kernel.Constant object at 0x25d99e0>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectSubset3_type
% Using role type
% Declaring binintersectSubset3:Prop
% FOF formula (((eq Prop) binintersectSubset3) (forall (A:fofType) (B:fofType), ((((eq fofType) ((binintersect A) B)) B)->((subset B) A)))) of role definition named binintersectSubset3
% A new definition: (((eq Prop) binintersectSubset3) (forall (A:fofType) (B:fofType), ((((eq fofType) ((binintersect A) B)) B)->((subset B) A))))
% Defined: binintersectSubset3:=(forall (A:fofType) (B:fofType), ((((eq fofType) ((binintersect A) B)) B)->((subset B) A)))
% FOF formula (<kernel.Constant object at 0x25d9d40>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectER_type
% Using role type
% Declaring binintersectER:Prop
% FOF formula (((eq Prop) binintersectER) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binintersect A) B))->((in Xx) B)))) of role definition named binintersectER
% A new definition: (((eq Prop) binintersectER) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binintersect A) B))->((in Xx) B))))
% Defined: binintersectER:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binintersect A) B))->((in Xx) B)))
% FOF formula (<kernel.Constant object at 0x25e1050>, <kernel.Sort object at 0x20d5f38>) of role type named disjointsetsI1_type
% Using role type
% Declaring disjointsetsI1:Prop
% FOF formula (((eq Prop) disjointsetsI1) (forall (A:fofType) (B:fofType), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((in Xx) B))))->False)->(((eq fofType) ((binintersect A) B)) emptyset)))) of role definition named disjointsetsI1
% A new definition: (((eq Prop) disjointsetsI1) (forall (A:fofType) (B:fofType), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((in Xx) B))))->False)->(((eq fofType) ((binintersect A) B)) emptyset))))
% Defined: disjointsetsI1:=(forall (A:fofType) (B:fofType), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((in Xx) B))))->False)->(((eq fofType) ((binintersect A) B)) emptyset)))
% FOF formula (<kernel.Constant object at 0x25e1488>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectRsub_type
% Using role type
% Declaring binintersectRsub:Prop
% FOF formula (((eq Prop) binintersectRsub) (forall (A:fofType) (B:fofType), ((subset ((binintersect A) B)) B))) of role definition named binintersectRsub
% A new definition: (((eq Prop) binintersectRsub) (forall (A:fofType) (B:fofType), ((subset ((binintersect A) B)) B)))
% Defined: binintersectRsub:=(forall (A:fofType) (B:fofType), ((subset ((binintersect A) B)) B))
% FOF formula (<kernel.Constant object at 0x25e1290>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectSubset4_type
% Using role type
% Declaring binintersectSubset4:Prop
% FOF formula (((eq Prop) binintersectSubset4) (forall (A:fofType) (B:fofType), (((subset B) A)->(((eq fofType) ((binintersect A) B)) B)))) of role definition named binintersectSubset4
% A new definition: (((eq Prop) binintersectSubset4) (forall (A:fofType) (B:fofType), (((subset B) A)->(((eq fofType) ((binintersect A) B)) B))))
% Defined: binintersectSubset4:=(forall (A:fofType) (B:fofType), (((subset B) A)->(((eq fofType) ((binintersect A) B)) B)))
% FOF formula (<kernel.Constant object at 0x25e1440>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectSubset1_type
% Using role type
% Declaring binintersectSubset1:Prop
% FOF formula (((eq Prop) binintersectSubset1) (forall (A:fofType) (B:fofType), ((((eq fofType) ((binintersect A) B)) A)->((subset A) B)))) of role definition named binintersectSubset1
% A new definition: (((eq Prop) binintersectSubset1) (forall (A:fofType) (B:fofType), ((((eq fofType) ((binintersect A) B)) A)->((subset A) B))))
% Defined: binintersectSubset1:=(forall (A:fofType) (B:fofType), ((((eq fofType) ((binintersect A) B)) A)->((subset A) B)))
% FOF formula (<kernel.Constant object at 0x25e1638>, <kernel.Sort object at 0x20d5f38>) of role type named bs114d_type
% Using role type
% Declaring bs114d:Prop
% FOF formula (((eq Prop) bs114d) (forall (A:fofType) (B:fofType) (C:fofType), (((eq fofType) ((binintersect A) ((binunion B) C))) ((binunion ((binintersect A) B)) ((binintersect A) C))))) of role definition named bs114d
% A new definition: (((eq Prop) bs114d) (forall (A:fofType) (B:fofType) (C:fofType), (((eq fofType) ((binintersect A) ((binunion B) C))) ((binunion ((binintersect A) B)) ((binintersect A) C)))))
% Defined: bs114d:=(forall (A:fofType) (B:fofType) (C:fofType), (((eq fofType) ((binintersect A) ((binunion B) C))) ((binunion ((binintersect A) B)) ((binintersect A) C))))
% FOF formula (<kernel.Constant object at 0x25e1758>, <kernel.DependentProduct object at 0x25e17e8>) of role type named regular_type
% Using role type
% Declaring regular:(fofType->Prop)
% FOF formula (<kernel.Constant object at 0x25e14d0>, <kernel.DependentProduct object at 0x25e1170>) of role type named setminus_type
% Using role type
% Declaring setminus:(fofType->(fofType->fofType))
% FOF formula (<kernel.Constant object at 0x25e1638>, <kernel.Sort object at 0x20d5f38>) of role type named setminusI_type
% Using role type
% Declaring setminusI:Prop
% FOF formula (((eq Prop) setminusI) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->((in Xx) ((setminus A) B)))))) of role definition named setminusI
% A new definition: (((eq Prop) setminusI) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->((in Xx) ((setminus A) B))))))
% Defined: setminusI:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->((in Xx) ((setminus A) B)))))
% FOF formula (<kernel.Constant object at 0x25e16c8>, <kernel.Sort object at 0x20d5f38>) of role type named setminusEL_type
% Using role type
% Declaring setminusEL:Prop
% FOF formula (((eq Prop) setminusEL) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((setminus A) B))->((in Xx) A)))) of role definition named setminusEL
% A new definition: (((eq Prop) setminusEL) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((setminus A) B))->((in Xx) A))))
% Defined: setminusEL:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((setminus A) B))->((in Xx) A)))
% FOF formula (<kernel.Constant object at 0x25e18c0>, <kernel.Sort object at 0x20d5f38>) of role type named setminusER_type
% Using role type
% Declaring setminusER:Prop
% FOF formula (((eq Prop) setminusER) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((setminus A) B))->(((in Xx) B)->False)))) of role definition named setminusER
% A new definition: (((eq Prop) setminusER) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((setminus A) B))->(((in Xx) B)->False))))
% Defined: setminusER:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((setminus A) B))->(((in Xx) B)->False)))
% FOF formula (<kernel.Constant object at 0x25e1a70>, <kernel.Sort object at 0x20d5f38>) of role type named setminusSubset2_type
% Using role type
% Declaring setminusSubset2:Prop
% FOF formula (((eq Prop) setminusSubset2) (forall (A:fofType) (B:fofType), (((subset A) B)->(((eq fofType) ((setminus A) B)) emptyset)))) of role definition named setminusSubset2
% A new definition: (((eq Prop) setminusSubset2) (forall (A:fofType) (B:fofType), (((subset A) B)->(((eq fofType) ((setminus A) B)) emptyset))))
% Defined: setminusSubset2:=(forall (A:fofType) (B:fofType), (((subset A) B)->(((eq fofType) ((setminus A) B)) emptyset)))
% FOF formula (<kernel.Constant object at 0x25e1998>, <kernel.Sort object at 0x20d5f38>) of role type named setminusERneg_type
% Using role type
% Declaring setminusERneg:Prop
% FOF formula (((eq Prop) setminusERneg) (forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) ((setminus A) B))->False)->(((in Xx) A)->((in Xx) B))))) of role definition named setminusERneg
% A new definition: (((eq Prop) setminusERneg) (forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) ((setminus A) B))->False)->(((in Xx) A)->((in Xx) B)))))
% Defined: setminusERneg:=(forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) ((setminus A) B))->False)->(((in Xx) A)->((in Xx) B))))
% FOF formula (<kernel.Constant object at 0x25e1c68>, <kernel.Sort object at 0x20d5f38>) of role type named setminusELneg_type
% Using role type
% Declaring setminusELneg:Prop
% FOF formula (((eq Prop) setminusELneg) (forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) ((setminus A) B))->False)->((((in Xx) B)->False)->(((in Xx) A)->False))))) of role definition named setminusELneg
% A new definition: (((eq Prop) setminusELneg) (forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) ((setminus A) B))->False)->((((in Xx) B)->False)->(((in Xx) A)->False)))))
% Defined: setminusELneg:=(forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) ((setminus A) B))->False)->((((in Xx) B)->False)->(((in Xx) A)->False))))
% FOF formula (<kernel.Constant object at 0x25e1560>, <kernel.Sort object at 0x20d5f38>) of role type named setminusILneg_type
% Using role type
% Declaring setminusILneg:Prop
% FOF formula (((eq Prop) setminusILneg) (forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->(((in Xx) ((setminus A) B))->False)))) of role definition named setminusILneg
% A new definition: (((eq Prop) setminusILneg) (forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->(((in Xx) ((setminus A) B))->False))))
% Defined: setminusILneg:=(forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->(((in Xx) ((setminus A) B))->False)))
% FOF formula (<kernel.Constant object at 0x25e1248>, <kernel.Sort object at 0x20d5f38>) of role type named setminusIRneg_type
% Using role type
% Declaring setminusIRneg:Prop
% FOF formula (((eq Prop) setminusIRneg) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) B)->(((in Xx) ((setminus A) B))->False)))) of role definition named setminusIRneg
% A new definition: (((eq Prop) setminusIRneg) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) B)->(((in Xx) ((setminus A) B))->False))))
% Defined: setminusIRneg:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) B)->(((in Xx) ((setminus A) B))->False)))
% FOF formula (<kernel.Constant object at 0x25e1b90>, <kernel.Sort object at 0x20d5f38>) of role type named setminusLsub_type
% Using role type
% Declaring setminusLsub:Prop
% FOF formula (((eq Prop) setminusLsub) (forall (A:fofType) (B:fofType), ((subset ((setminus A) B)) A))) of role definition named setminusLsub
% A new definition: (((eq Prop) setminusLsub) (forall (A:fofType) (B:fofType), ((subset ((setminus A) B)) A)))
% Defined: setminusLsub:=(forall (A:fofType) (B:fofType), ((subset ((setminus A) B)) A))
% FOF formula (<kernel.Constant object at 0x25e1680>, <kernel.Sort object at 0x20d5f38>) of role type named setminusSubset1_type
% Using role type
% Declaring setminusSubset1:Prop
% FOF formula (((eq Prop) setminusSubset1) (forall (A:fofType) (B:fofType), ((((eq fofType) ((setminus A) B)) emptyset)->((subset A) B)))) of role definition named setminusSubset1
% A new definition: (((eq Prop) setminusSubset1) (forall (A:fofType) (B:fofType), ((((eq fofType) ((setminus A) B)) emptyset)->((subset A) B))))
% Defined: setminusSubset1:=(forall (A:fofType) (B:fofType), ((((eq fofType) ((setminus A) B)) emptyset)->((subset A) B)))
% FOF formula (<kernel.Constant object at 0x25e1dd0>, <kernel.DependentProduct object at 0x25e14d0>) of role type named symdiff_type
% Using role type
% Declaring symdiff:(fofType->(fofType->fofType))
% FOF formula (<kernel.Constant object at 0x25e1d40>, <kernel.Sort object at 0x20d5f38>) of role type named symdiffE_type
% Using role type
% Declaring symdiffE:Prop
% FOF formula (((eq Prop) symdiffE) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((symdiff A) B))->(forall (Xphi:Prop), ((((in Xx) A)->((((in Xx) B)->False)->Xphi))->(((((in Xx) A)->False)->(((in Xx) B)->Xphi))->Xphi)))))) of role definition named symdiffE
% A new definition: (((eq Prop) symdiffE) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((symdiff A) B))->(forall (Xphi:Prop), ((((in Xx) A)->((((in Xx) B)->False)->Xphi))->(((((in Xx) A)->False)->(((in Xx) B)->Xphi))->Xphi))))))
% Defined: symdiffE:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((symdiff A) B))->(forall (Xphi:Prop), ((((in Xx) A)->((((in Xx) B)->False)->Xphi))->(((((in Xx) A)->False)->(((in Xx) B)->Xphi))->Xphi)))))
% FOF formula (<kernel.Constant object at 0x25e1680>, <kernel.Sort object at 0x20d5f38>) of role type named symdiffI1_type
% Using role type
% Declaring symdiffI1:Prop
% FOF formula (((eq Prop) symdiffI1) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->((in Xx) ((symdiff A) B)))))) of role definition named symdiffI1
% A new definition: (((eq Prop) symdiffI1) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->((in Xx) ((symdiff A) B))))))
% Defined: symdiffI1:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->((in Xx) ((symdiff A) B)))))
% FOF formula (<kernel.Constant object at 0x25e17e8>, <kernel.Sort object at 0x20d5f38>) of role type named symdiffI2_type
% Using role type
% Declaring symdiffI2:Prop
% FOF formula (((eq Prop) symdiffI2) (forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->(((in Xx) B)->((in Xx) ((symdiff A) B)))))) of role definition named symdiffI2
% A new definition: (((eq Prop) symdiffI2) (forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->(((in Xx) B)->((in Xx) ((symdiff A) B))))))
% Defined: symdiffI2:=(forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->(((in Xx) B)->((in Xx) ((symdiff A) B)))))
% FOF formula (<kernel.Constant object at 0x25e1ef0>, <kernel.Sort object at 0x20d5f38>) of role type named symdiffIneg1_type
% Using role type
% Declaring symdiffIneg1:Prop
% FOF formula (((eq Prop) symdiffIneg1) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(((in Xx) B)->(((in Xx) ((symdiff A) B))->False))))) of role definition named symdiffIneg1
% A new definition: (((eq Prop) symdiffIneg1) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(((in Xx) B)->(((in Xx) ((symdiff A) B))->False)))))
% Defined: symdiffIneg1:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(((in Xx) B)->(((in Xx) ((symdiff A) B))->False))))
% FOF formula (<kernel.Constant object at 0x25e1758>, <kernel.Sort object at 0x20d5f38>) of role type named symdiffIneg2_type
% Using role type
% Declaring symdiffIneg2:Prop
% FOF formula (((eq Prop) symdiffIneg2) (forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->((((in Xx) B)->False)->(((in Xx) ((symdiff A) B))->False))))) of role definition named symdiffIneg2
% A new definition: (((eq Prop) symdiffIneg2) (forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->((((in Xx) B)->False)->(((in Xx) ((symdiff A) B))->False)))))
% Defined: symdiffIneg2:=(forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->((((in Xx) B)->False)->(((in Xx) ((symdiff A) B))->False))))
% FOF formula (<kernel.Constant object at 0x25e1f80>, <kernel.DependentProduct object at 0x25e1830>) of role type named iskpair_type
% Using role type
% Declaring iskpair:(fofType->Prop)
% FOF formula (<kernel.Constant object at 0x25e1bd8>, <kernel.Sort object at 0x20d5f38>) of role type named secondinupair_type
% Using role type
% Declaring secondinupair:Prop
% FOF formula (((eq Prop) secondinupair) (forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset))))) of role definition named secondinupair
% A new definition: (((eq Prop) secondinupair) (forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset)))))
% Defined: secondinupair:=(forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset))))
% FOF formula (<kernel.Constant object at 0x25e1758>, <kernel.Sort object at 0x20d5f38>) of role type named setukpairIL_type
% Using role type
% Declaring setukpairIL:Prop
% FOF formula (((eq Prop) setukpairIL) (forall (Xx:fofType) (Xy:fofType), ((in Xx) (setunion ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset)))))) of role definition named setukpairIL
% A new definition: (((eq Prop) setukpairIL) (forall (Xx:fofType) (Xy:fofType), ((in Xx) (setunion ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))))))
% Defined: setukpairIL:=(forall (Xx:fofType) (Xy:fofType), ((in Xx) (setunion ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset)))))
% FOF formula (<kernel.Constant object at 0x25e1320>, <kernel.Sort object at 0x20d5f38>) of role type named setukpairIR_type
% Using role type
% Declaring setukpairIR:Prop
% FOF formula (((eq Prop) setukpairIR) (forall (Xx:fofType) (Xy:fofType), ((in Xy) (setunion ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset)))))) of role definition named setukpairIR
% A new definition: (((eq Prop) setukpairIR) (forall (Xx:fofType) (Xy:fofType), ((in Xy) (setunion ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))))))
% Defined: setukpairIR:=(forall (Xx:fofType) (Xy:fofType), ((in Xy) (setunion ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset)))))
% FOF formula (<kernel.Constant object at 0x25e1dd0>, <kernel.Sort object at 0x20d5f38>) of role type named kpairiskpair_type
% Using role type
% Declaring kpairiskpair:Prop
% FOF formula (((eq Prop) kpairiskpair) (forall (Xx:fofType) (Xy:fofType), (iskpair ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))))) of role definition named kpairiskpair
% A new definition: (((eq Prop) kpairiskpair) (forall (Xx:fofType) (Xy:fofType), (iskpair ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset)))))
% Defined: kpairiskpair:=(forall (Xx:fofType) (Xy:fofType), (iskpair ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))))
% FOF formula (<kernel.Constant object at 0x25e1dd0>, <kernel.DependentProduct object at 0x22132d8>) of role type named kpair_type
% Using role type
% Declaring kpair:(fofType->(fofType->fofType))
% FOF formula (<kernel.Constant object at 0x25e1758>, <kernel.Sort object at 0x20d5f38>) of role type named kpairp_type
% Using role type
% Declaring kpairp:Prop
% FOF formula (((eq Prop) kpairp) (forall (Xx:fofType) (Xy:fofType), (iskpair ((kpair Xx) Xy)))) of role definition named kpairp
% A new definition: (((eq Prop) kpairp) (forall (Xx:fofType) (Xy:fofType), (iskpair ((kpair Xx) Xy))))
% Defined: kpairp:=(forall (Xx:fofType) (Xy:fofType), (iskpair ((kpair Xx) Xy)))
% FOF formula (<kernel.Constant object at 0x22131b8>, <kernel.DependentProduct object at 0x2213170>) of role type named cartprod_type
% Using role type
% Declaring cartprod:(fofType->(fofType->fofType))
% FOF formula (<kernel.Constant object at 0x2213098>, <kernel.Sort object at 0x20d5f38>) of role type named singletonsubset_type
% Using role type
% Declaring singletonsubset:Prop
% FOF formula (((eq Prop) singletonsubset) (forall (A:fofType) (Xx:fofType), (((in Xx) A)->((subset ((setadjoin Xx) emptyset)) A)))) of role definition named singletonsubset
% A new definition: (((eq Prop) singletonsubset) (forall (A:fofType) (Xx:fofType), (((in Xx) A)->((subset ((setadjoin Xx) emptyset)) A))))
% Defined: singletonsubset:=(forall (A:fofType) (Xx:fofType), (((in Xx) A)->((subset ((setadjoin Xx) emptyset)) A)))
% FOF formula (<kernel.Constant object at 0x2213248>, <kernel.Sort object at 0x20d5f38>) of role type named singletoninpowerset_type
% Using role type
% Declaring singletoninpowerset:Prop
% FOF formula (((eq Prop) singletoninpowerset) (forall (A:fofType) (Xx:fofType), (((in Xx) A)->((in ((setadjoin Xx) emptyset)) (powerset A))))) of role definition named singletoninpowerset
% A new definition: (((eq Prop) singletoninpowerset) (forall (A:fofType) (Xx:fofType), (((in Xx) A)->((in ((setadjoin Xx) emptyset)) (powerset A)))))
% Defined: singletoninpowerset:=(forall (A:fofType) (Xx:fofType), (((in Xx) A)->((in ((setadjoin Xx) emptyset)) (powerset A))))
% FOF formula (<kernel.Constant object at 0x22134d0>, <kernel.Sort object at 0x20d5f38>) of role type named singletoninpowunion_type
% Using role type
% Declaring singletoninpowunion:Prop
% FOF formula (((eq Prop) singletoninpowunion) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((in ((setadjoin Xx) emptyset)) (powerset ((binunion A) B)))))) of role definition named singletoninpowunion
% A new definition: (((eq Prop) singletoninpowunion) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((in ((setadjoin Xx) emptyset)) (powerset ((binunion A) B))))))
% Defined: singletoninpowunion:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((in ((setadjoin Xx) emptyset)) (powerset ((binunion A) B)))))
% FOF formula (<kernel.Constant object at 0x2213200>, <kernel.Sort object at 0x20d5f38>) of role type named upairset2E_type
% Using role type
% Declaring upairset2E:Prop
% FOF formula (((eq Prop) upairset2E) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in Xz) ((setadjoin Xx) ((setadjoin Xy) emptyset)))->((or (((eq fofType) Xz) Xx)) (((eq fofType) Xz) Xy))))) of role definition named upairset2E
% A new definition: (((eq Prop) upairset2E) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in Xz) ((setadjoin Xx) ((setadjoin Xy) emptyset)))->((or (((eq fofType) Xz) Xx)) (((eq fofType) Xz) Xy)))))
% Defined: upairset2E:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in Xz) ((setadjoin Xx) ((setadjoin Xy) emptyset)))->((or (((eq fofType) Xz) Xx)) (((eq fofType) Xz) Xy))))
% FOF formula (<kernel.Constant object at 0x2213050>, <kernel.Sort object at 0x20d5f38>) of role type named upairsubunion_type
% Using role type
% Declaring upairsubunion:Prop
% FOF formula (((eq Prop) upairsubunion) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((subset ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((binunion A) B))))))) of role definition named upairsubunion
% A new definition: (((eq Prop) upairsubunion) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((subset ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((binunion A) B)))))))
% Defined: upairsubunion:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((subset ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((binunion A) B))))))
% FOF formula (<kernel.Constant object at 0x2213758>, <kernel.Sort object at 0x20d5f38>) of role type named upairinpowunion_type
% Using role type
% Declaring upairinpowunion:Prop
% FOF formula (((eq Prop) upairinpowunion) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((setadjoin Xx) ((setadjoin Xy) emptyset))) (powerset ((binunion A) B)))))))) of role definition named upairinpowunion
% A new definition: (((eq Prop) upairinpowunion) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((setadjoin Xx) ((setadjoin Xy) emptyset))) (powerset ((binunion A) B))))))))
% Defined: upairinpowunion:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((setadjoin Xx) ((setadjoin Xy) emptyset))) (powerset ((binunion A) B)))))))
% FOF formula (<kernel.Constant object at 0x22131b8>, <kernel.Sort object at 0x20d5f38>) of role type named ubforcartprodlem1_type
% Using role type
% Declaring ubforcartprodlem1:Prop
% FOF formula (((eq Prop) ubforcartprodlem1) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((subset ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) (powerset ((binunion A) B)))))))) of role definition named ubforcartprodlem1
% A new definition: (((eq Prop) ubforcartprodlem1) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((subset ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) (powerset ((binunion A) B))))))))
% Defined: ubforcartprodlem1:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((subset ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) (powerset ((binunion A) B)))))))
% FOF formula (<kernel.Constant object at 0x22137e8>, <kernel.Sort object at 0x20d5f38>) of role type named ubforcartprodlem2_type
% Using role type
% Declaring ubforcartprodlem2:Prop
% FOF formula (((eq Prop) ubforcartprodlem2) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) (powerset (powerset ((binunion A) B))))))))) of role definition named ubforcartprodlem2
% A new definition: (((eq Prop) ubforcartprodlem2) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) (powerset (powerset ((binunion A) B)))))))))
% Defined: ubforcartprodlem2:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) (powerset (powerset ((binunion A) B))))))))
% FOF formula (<kernel.Constant object at 0x2213488>, <kernel.Sort object at 0x20d5f38>) of role type named ubforcartprodlem3_type
% Using role type
% Declaring ubforcartprodlem3:Prop
% FOF formula (((eq Prop) ubforcartprodlem3) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((kpair Xx) Xy)) (powerset (powerset ((binunion A) B))))))))) of role definition named ubforcartprodlem3
% A new definition: (((eq Prop) ubforcartprodlem3) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((kpair Xx) Xy)) (powerset (powerset ((binunion A) B)))))))))
% Defined: ubforcartprodlem3:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((kpair Xx) Xy)) (powerset (powerset ((binunion A) B))))))))
% FOF formula (<kernel.Constant object at 0x22133b0>, <kernel.Sort object at 0x20d5f38>) of role type named cartprodpairin_type
% Using role type
% Declaring cartprodpairin:Prop
% FOF formula (((eq Prop) cartprodpairin) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((kpair Xx) Xy)) ((cartprod A) B))))))) of role definition named cartprodpairin
% A new definition: (((eq Prop) cartprodpairin) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((kpair Xx) Xy)) ((cartprod A) B)))))))
% Defined: cartprodpairin:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((kpair Xx) Xy)) ((cartprod A) B))))))
% FOF formula (<kernel.Constant object at 0x22135a8>, <kernel.Sort object at 0x20d5f38>) of role type named cartprodmempair1_type
% Using role type
% Declaring cartprodmempair1:Prop
% FOF formula (((eq Prop) cartprodmempair1) (forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) B)) (((eq fofType) Xu) ((kpair Xx) Xy))))))))))) of role definition named cartprodmempair1
% A new definition: (((eq Prop) cartprodmempair1) (forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) B)) (((eq fofType) Xu) ((kpair Xx) Xy)))))))))))
% Defined: cartprodmempair1:=(forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) B)) (((eq fofType) Xu) ((kpair Xx) Xy))))))))))
% FOF formula (<kernel.Constant object at 0x2213950>, <kernel.Sort object at 0x20d5f38>) of role type named cartprodmempair_type
% Using role type
% Declaring cartprodmempair:Prop
% FOF formula (((eq Prop) cartprodmempair) (forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->(iskpair Xu)))) of role definition named cartprodmempair
% A new definition: (((eq Prop) cartprodmempair) (forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->(iskpair Xu))))
% Defined: cartprodmempair:=(forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->(iskpair Xu)))
% FOF formula (<kernel.Constant object at 0x2213a28>, <kernel.Sort object at 0x20d5f38>) of role type named setunionE2_type
% Using role type
% Declaring setunionE2:Prop
% FOF formula (((eq Prop) setunionE2) (forall (A:fofType) (Xx:fofType), (((in Xx) (setunion A))->((ex fofType) (fun (X:fofType)=> ((and ((in X) A)) ((in Xx) X))))))) of role definition named setunionE2
% A new definition: (((eq Prop) setunionE2) (forall (A:fofType) (Xx:fofType), (((in Xx) (setunion A))->((ex fofType) (fun (X:fofType)=> ((and ((in X) A)) ((in Xx) X)))))))
% Defined: setunionE2:=(forall (A:fofType) (Xx:fofType), (((in Xx) (setunion A))->((ex fofType) (fun (X:fofType)=> ((and ((in X) A)) ((in Xx) X))))))
% FOF formula (<kernel.Constant object at 0x2213560>, <kernel.Sort object at 0x20d5f38>) of role type named setunionsingleton1_type
% Using role type
% Declaring setunionsingleton1:Prop
% FOF formula (((eq Prop) setunionsingleton1) (forall (A:fofType), ((subset (setunion ((setadjoin A) emptyset))) A))) of role definition named setunionsingleton1
% A new definition: (((eq Prop) setunionsingleton1) (forall (A:fofType), ((subset (setunion ((setadjoin A) emptyset))) A)))
% Defined: setunionsingleton1:=(forall (A:fofType), ((subset (setunion ((setadjoin A) emptyset))) A))
% FOF formula (<kernel.Constant object at 0x2213a70>, <kernel.Sort object at 0x20d5f38>) of role type named setunionsingleton2_type
% Using role type
% Declaring setunionsingleton2:Prop
% FOF formula (((eq Prop) setunionsingleton2) (forall (A:fofType), ((subset A) (setunion ((setadjoin A) emptyset))))) of role definition named setunionsingleton2
% A new definition: (((eq Prop) setunionsingleton2) (forall (A:fofType), ((subset A) (setunion ((setadjoin A) emptyset)))))
% Defined: setunionsingleton2:=(forall (A:fofType), ((subset A) (setunion ((setadjoin A) emptyset))))
% FOF formula (<kernel.Constant object at 0x2213ea8>, <kernel.Sort object at 0x20d5f38>) of role type named setunionsingleton_type
% Using role type
% Declaring setunionsingleton:Prop
% FOF formula (((eq Prop) setunionsingleton) (forall (Xx:fofType), (((eq fofType) (setunion ((setadjoin Xx) emptyset))) Xx))) of role definition named setunionsingleton
% A new definition: (((eq Prop) setunionsingleton) (forall (Xx:fofType), (((eq fofType) (setunion ((setadjoin Xx) emptyset))) Xx)))
% Defined: setunionsingleton:=(forall (Xx:fofType), (((eq fofType) (setunion ((setadjoin Xx) emptyset))) Xx))
% FOF formula (<kernel.Constant object at 0x2213cb0>, <kernel.DependentProduct object at 0x2213fc8>) of role type named singleton_type
% Using role type
% Declaring singleton:(fofType->Prop)
% FOF formula (<kernel.Constant object at 0x2213f38>, <kernel.Sort object at 0x20d5f38>) of role type named singletonprop_type
% Using role type
% Declaring singletonprop:Prop
% FOF formula (((eq Prop) singletonprop) (forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->(singleton ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))))))) of role definition named singletonprop
% A new definition: (((eq Prop) singletonprop) (forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->(singleton ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx))))))))
% Defined: singletonprop:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->(singleton ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))))))
% FOF formula (<kernel.Constant object at 0x2213ea8>, <kernel.DependentProduct object at 0x2213bd8>) of role type named ex1_type
% Using role type
% Declaring ex1:(fofType->((fofType->Prop)->Prop))
% FOF formula (<kernel.Constant object at 0x2213c20>, <kernel.Sort object at 0x20d5f38>) of role type named ex1E1_type
% Using role type
% Declaring ex1E1:Prop
% FOF formula (((eq Prop) ex1E1) (forall (A:fofType) (Xphi:(fofType->Prop)), (((ex1 A) (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))))) of role definition named ex1E1
% A new definition: (((eq Prop) ex1E1) (forall (A:fofType) (Xphi:(fofType->Prop)), (((ex1 A) (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx)))))))
% Defined: ex1E1:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((ex1 A) (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))))
% FOF formula (<kernel.Constant object at 0x2213f38>, <kernel.Sort object at 0x20d5f38>) of role type named ex1I_type
% Using role type
% Declaring ex1I:Prop
% FOF formula (((eq Prop) ex1I) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->((forall (Xy:fofType), (((in Xy) A)->((Xphi Xy)->(((eq fofType) Xy) Xx))))->((ex1 A) (fun (Xy:fofType)=> (Xphi Xy)))))))) of role definition named ex1I
% A new definition: (((eq Prop) ex1I) (forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->((forall (Xy:fofType), (((in Xy) A)->((Xphi Xy)->(((eq fofType) Xy) Xx))))->((ex1 A) (fun (Xy:fofType)=> (Xphi Xy))))))))
% Defined: ex1I:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->((forall (Xy:fofType), (((in Xy) A)->((Xphi Xy)->(((eq fofType) Xy) Xx))))->((ex1 A) (fun (Xy:fofType)=> (Xphi Xy)))))))
% FOF formula (<kernel.Constant object at 0x2213878>, <kernel.Sort object at 0x20d5f38>) of role type named ex1I2_type
% Using role type
% Declaring ex1I2:Prop
% FOF formula (((eq Prop) ex1I2) (forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->((ex1 A) (fun (Xx:fofType)=> (Xphi Xx))))))) of role definition named ex1I2
% A new definition: (((eq Prop) ex1I2) (forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->((ex1 A) (fun (Xx:fofType)=> (Xphi Xx)))))))
% Defined: ex1I2:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->((ex1 A) (fun (Xx:fofType)=> (Xphi Xx))))))
% FOF formula (<kernel.Constant object at 0x22139e0>, <kernel.Sort object at 0x20d5f38>) of role type named singletonsuniq_type
% Using role type
% Declaring singletonsuniq:Prop
% FOF formula (((eq Prop) singletonsuniq) (forall (Xx:fofType) (Xy:fofType), ((((eq fofType) ((setadjoin Xx) emptyset)) ((setadjoin Xy) emptyset))->(((eq fofType) Xx) Xy)))) of role definition named singletonsuniq
% A new definition: (((eq Prop) singletonsuniq) (forall (Xx:fofType) (Xy:fofType), ((((eq fofType) ((setadjoin Xx) emptyset)) ((setadjoin Xy) emptyset))->(((eq fofType) Xx) Xy))))
% Defined: singletonsuniq:=(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) ((setadjoin Xx) emptyset)) ((setadjoin Xy) emptyset))->(((eq fofType) Xx) Xy)))
% FOF formula (<kernel.Constant object at 0x2213c68>, <kernel.DependentProduct object at 0x2213ef0>) of role type named atmost1p_type
% Using role type
% Declaring atmost1p:(fofType->Prop)
% FOF formula (<kernel.Constant object at 0x2213ab8>, <kernel.DependentProduct object at 0x2213d88>) of role type named atleast2p_type
% Using role type
% Declaring atleast2p:(fofType->Prop)
% FOF formula (<kernel.Constant object at 0x22139e0>, <kernel.DependentProduct object at 0x22163f8>) of role type named atmost2p_type
% Using role type
% Declaring atmost2p:(fofType->Prop)
% FOF formula (<kernel.Constant object at 0x2213e60>, <kernel.DependentProduct object at 0x2216488>) of role type named upairsetp_type
% Using role type
% Declaring upairsetp:(fofType->Prop)
% FOF formula (<kernel.Constant object at 0x2213ea8>, <kernel.Sort object at 0x20d5f38>) of role type named setukpairinjL1_type
% Using role type
% Declaring setukpairinjL1:Prop
% FOF formula (((eq Prop) setukpairinjL1) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset)))->(((eq fofType) Xx) Xz)))) of role definition named setukpairinjL1
% A new definition: (((eq Prop) setukpairinjL1) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset)))->(((eq fofType) Xx) Xz))))
% Defined: setukpairinjL1:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset)))->(((eq fofType) Xx) Xz)))
% FOF formula (<kernel.Constant object at 0x2213d88>, <kernel.Sort object at 0x20d5f38>) of role type named kfstsingleton_type
% Using role type
% Declaring kfstsingleton:Prop
% FOF formula (((eq Prop) kfstsingleton) (forall (Xu:fofType), ((iskpair Xu)->(singleton ((dsetconstr (setunion Xu)) (fun (Xx:fofType)=> ((in ((setadjoin Xx) emptyset)) Xu))))))) of role definition named kfstsingleton
% A new definition: (((eq Prop) kfstsingleton) (forall (Xu:fofType), ((iskpair Xu)->(singleton ((dsetconstr (setunion Xu)) (fun (Xx:fofType)=> ((in ((setadjoin Xx) emptyset)) Xu)))))))
% Defined: kfstsingleton:=(forall (Xu:fofType), ((iskpair Xu)->(singleton ((dsetconstr (setunion Xu)) (fun (Xx:fofType)=> ((in ((setadjoin Xx) emptyset)) Xu))))))
% FOF formula (<kernel.Constant object at 0x2213d88>, <kernel.Sort object at 0x20d5f38>) of role type named theprop_type
% Using role type
% Declaring theprop:Prop
% FOF formula (((eq Prop) theprop) (forall (X:fofType), ((singleton X)->((in (setunion X)) X)))) of role definition named theprop
% A new definition: (((eq Prop) theprop) (forall (X:fofType), ((singleton X)->((in (setunion X)) X))))
% Defined: theprop:=(forall (X:fofType), ((singleton X)->((in (setunion X)) X)))
% FOF formula (<kernel.Constant object at 0x2213ab8>, <kernel.DependentProduct object at 0x2216248>) of role type named kfst_type
% Using role type
% Declaring kfst:(fofType->fofType)
% FOF formula (<kernel.Constant object at 0x2216638>, <kernel.Sort object at 0x20d5f38>) of role type named kfstpairEq_type
% Using role type
% Declaring kfstpairEq:Prop
% FOF formula (((eq Prop) kfstpairEq) (forall (Xx:fofType) (Xy:fofType), (((eq fofType) (kfst ((kpair Xx) Xy))) Xx))) of role definition named kfstpairEq
% A new definition: (((eq Prop) kfstpairEq) (forall (Xx:fofType) (Xy:fofType), (((eq fofType) (kfst ((kpair Xx) Xy))) Xx)))
% Defined: kfstpairEq:=(forall (Xx:fofType) (Xy:fofType), (((eq fofType) (kfst ((kpair Xx) Xy))) Xx))
% FOF formula (<kernel.Constant object at 0x22160e0>, <kernel.Sort object at 0x20d5f38>) of role type named cartprodfstin_type
% Using role type
% Declaring cartprodfstin:Prop
% FOF formula (((eq Prop) cartprodfstin) (forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((in (kfst Xu)) A)))) of role definition named cartprodfstin
% A new definition: (((eq Prop) cartprodfstin) (forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((in (kfst Xu)) A))))
% Defined: cartprodfstin:=(forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((in (kfst Xu)) A)))
% FOF formula (<kernel.Constant object at 0x22162d8>, <kernel.Sort object at 0x20d5f38>) of role type named setukpairinjL2_type
% Using role type
% Declaring setukpairinjL2:Prop
% FOF formula (((eq Prop) setukpairinjL2) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->(((eq fofType) Xx) Xz)))) of role definition named setukpairinjL2
% A new definition: (((eq Prop) setukpairinjL2) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->(((eq fofType) Xx) Xz))))
% Defined: setukpairinjL2:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->(((eq fofType) Xx) Xz)))
% FOF formula (<kernel.Constant object at 0x22167a0>, <kernel.Sort object at 0x20d5f38>) of role type named setukpairinjL_type
% Using role type
% Declaring setukpairinjL:Prop
% FOF formula (((eq Prop) setukpairinjL) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((kpair Xx) Xy)) ((kpair Xz) Xu))->(((eq fofType) Xx) Xz)))) of role definition named setukpairinjL
% A new definition: (((eq Prop) setukpairinjL) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((kpair Xx) Xy)) ((kpair Xz) Xu))->(((eq fofType) Xx) Xz))))
% Defined: setukpairinjL:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((kpair Xx) Xy)) ((kpair Xz) Xu))->(((eq fofType) Xx) Xz)))
% FOF formula (<kernel.Constant object at 0x2216170>, <kernel.Sort object at 0x20d5f38>) of role type named setukpairinjR11_type
% Using role type
% Declaring setukpairinjR11:Prop
% FOF formula (((eq Prop) setukpairinjR11) (forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((eq fofType) ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((setadjoin Xx) emptyset))))) of role definition named setukpairinjR11
% A new definition: (((eq Prop) setukpairinjR11) (forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((eq fofType) ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((setadjoin Xx) emptyset)))))
% Defined: setukpairinjR11:=(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((eq fofType) ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((setadjoin Xx) emptyset))))
% FOF formula (<kernel.Constant object at 0x2216518>, <kernel.Sort object at 0x20d5f38>) of role type named setukpairinjR12_type
% Using role type
% Declaring setukpairinjR12:Prop
% FOF formula (((eq Prop) setukpairinjR12) (forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xx) emptyset)) emptyset))))) of role definition named setukpairinjR12
% A new definition: (((eq Prop) setukpairinjR12) (forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xx) emptyset)) emptyset)))))
% Defined: setukpairinjR12:=(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xx) emptyset)) emptyset))))
% FOF formula (<kernel.Constant object at 0x2216488>, <kernel.Sort object at 0x20d5f38>) of role type named setukpairinjR1_type
% Using role type
% Declaring setukpairinjR1:Prop
% FOF formula (((eq Prop) setukpairinjR1) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->((((eq fofType) Xz) Xu)->(((eq fofType) Xy) Xu))))) of role definition named setukpairinjR1
% A new definition: (((eq Prop) setukpairinjR1) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->((((eq fofType) Xz) Xu)->(((eq fofType) Xy) Xu)))))
% Defined: setukpairinjR1:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->((((eq fofType) Xz) Xu)->(((eq fofType) Xy) Xu))))
% FOF formula (<kernel.Constant object at 0x2216128>, <kernel.Sort object at 0x20d5f38>) of role type named upairequniteq_type
% Using role type
% Declaring upairequniteq:Prop
% FOF formula (((eq Prop) upairequniteq) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType), ((((eq fofType) ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((setadjoin Xz) emptyset))->(((eq fofType) Xx) Xy)))) of role definition named upairequniteq
% A new definition: (((eq Prop) upairequniteq) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType), ((((eq fofType) ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((setadjoin Xz) emptyset))->(((eq fofType) Xx) Xy))))
% Defined: upairequniteq:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType), ((((eq fofType) ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((setadjoin Xz) emptyset))->(((eq fofType) Xx) Xy)))
% FOF formula (<kernel.Constant object at 0x22169e0>, <kernel.Sort object at 0x20d5f38>) of role type named setukpairinjR2_type
% Using role type
% Declaring setukpairinjR2:Prop
% FOF formula (((eq Prop) setukpairinjR2) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->(((eq fofType) Xy) Xu)))) of role definition named setukpairinjR2
% A new definition: (((eq Prop) setukpairinjR2) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->(((eq fofType) Xy) Xu))))
% Defined: setukpairinjR2:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->(((eq fofType) Xy) Xu)))
% FOF formula (<kernel.Constant object at 0x2216710>, <kernel.Sort object at 0x20d5f38>) of role type named setukpairinjR_type
% Using role type
% Declaring setukpairinjR:Prop
% FOF formula (((eq Prop) setukpairinjR) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((kpair Xx) Xy)) ((kpair Xz) Xu))->(((eq fofType) Xy) Xu)))) of role definition named setukpairinjR
% A new definition: (((eq Prop) setukpairinjR) (forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((kpair Xx) Xy)) ((kpair Xz) Xu))->(((eq fofType) Xy) Xu))))
% Defined: setukpairinjR:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((kpair Xx) Xy)) ((kpair Xz) Xu))->(((eq fofType) Xy) Xu)))
% FOF formula (<kernel.Constant object at 0x2216950>, <kernel.Sort object at 0x20d5f38>) of role type named ksndsingleton_type
% Using role type
% Declaring ksndsingleton:Prop
% FOF formula (((eq Prop) ksndsingleton) (forall (Xu:fofType), ((iskpair Xu)->(singleton ((dsetconstr (setunion Xu)) (fun (Xx:fofType)=> (((eq fofType) Xu) ((kpair (kfst Xu)) Xx)))))))) of role definition named ksndsingleton
% A new definition: (((eq Prop) ksndsingleton) (forall (Xu:fofType), ((iskpair Xu)->(singleton ((dsetconstr (setunion Xu)) (fun (Xx:fofType)=> (((eq fofType) Xu) ((kpair (kfst Xu)) Xx))))))))
% Defined: ksndsingleton:=(forall (Xu:fofType), ((iskpair Xu)->(singleton ((dsetconstr (setunion Xu)) (fun (Xx:fofType)=> (((eq fofType) Xu) ((kpair (kfst Xu)) Xx)))))))
% FOF formula (<kernel.Constant object at 0x2216998>, <kernel.DependentProduct object at 0x22168c0>) of role type named ksnd_type
% Using role type
% Declaring ksnd:(fofType->fofType)
% FOF formula (<kernel.Constant object at 0x2216200>, <kernel.Sort object at 0x20d5f38>) of role type named ksndpairEq_type
% Using role type
% Declaring ksndpairEq:Prop
% FOF formula (((eq Prop) ksndpairEq) (forall (Xx:fofType) (Xy:fofType), (((eq fofType) (ksnd ((kpair Xx) Xy))) Xy))) of role definition named ksndpairEq
% A new definition: (((eq Prop) ksndpairEq) (forall (Xx:fofType) (Xy:fofType), (((eq fofType) (ksnd ((kpair Xx) Xy))) Xy)))
% Defined: ksndpairEq:=(forall (Xx:fofType) (Xy:fofType), (((eq fofType) (ksnd ((kpair Xx) Xy))) Xy))
% FOF formula (<kernel.Constant object at 0x2216950>, <kernel.Sort object at 0x20d5f38>) of role type named kpairsurjEq_type
% Using role type
% Declaring kpairsurjEq:Prop
% FOF formula (((eq Prop) kpairsurjEq) (forall (Xu:fofType), ((iskpair Xu)->(((eq fofType) ((kpair (kfst Xu)) (ksnd Xu))) Xu)))) of role definition named kpairsurjEq
% A new definition: (((eq Prop) kpairsurjEq) (forall (Xu:fofType), ((iskpair Xu)->(((eq fofType) ((kpair (kfst Xu)) (ksnd Xu))) Xu))))
% Defined: kpairsurjEq:=(forall (Xu:fofType), ((iskpair Xu)->(((eq fofType) ((kpair (kfst Xu)) (ksnd Xu))) Xu)))
% FOF formula (<kernel.Constant object at 0x2216998>, <kernel.Sort object at 0x20d5f38>) of role type named cartprodsndin_type
% Using role type
% Declaring cartprodsndin:Prop
% FOF formula (((eq Prop) cartprodsndin) (forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((in (ksnd Xu)) B)))) of role definition named cartprodsndin
% A new definition: (((eq Prop) cartprodsndin) (forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((in (ksnd Xu)) B))))
% Defined: cartprodsndin:=(forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((in (ksnd Xu)) B)))
% FOF formula (<kernel.Constant object at 0x2216c20>, <kernel.Sort object at 0x20d5f38>) of role type named cartprodpairmemEL_type
% Using role type
% Declaring cartprodpairmemEL:Prop
% FOF formula (((eq Prop) cartprodpairmemEL) (forall (A:fofType) (B:fofType) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) ((cartprod A) B))->((in Xx) A)))) of role definition named cartprodpairmemEL
% A new definition: (((eq Prop) cartprodpairmemEL) (forall (A:fofType) (B:fofType) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) ((cartprod A) B))->((in Xx) A))))
% Defined: cartprodpairmemEL:=(forall (A:fofType) (B:fofType) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) ((cartprod A) B))->((in Xx) A)))
% FOF formula (<kernel.Constant object at 0x22165a8>, <kernel.Sort object at 0x20d5f38>) of role type named cartprodpairmemER_type
% Using role type
% Declaring cartprodpairmemER:Prop
% FOF formula (((eq Prop) cartprodpairmemER) (forall (A:fofType) (B:fofType) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) ((cartprod A) B))->((in Xy) B)))) of role definition named cartprodpairmemER
% A new definition: (((eq Prop) cartprodpairmemER) (forall (A:fofType) (B:fofType) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) ((cartprod A) B))->((in Xy) B))))
% Defined: cartprodpairmemER:=(forall (A:fofType) (B:fofType) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) ((cartprod A) B))->((in Xy) B)))
% FOF formula (<kernel.Constant object at 0x2216b90>, <kernel.Sort object at 0x20d5f38>) of role type named cartprodmempaircEq_type
% Using role type
% Declaring cartprodmempaircEq:Prop
% FOF formula (((eq Prop) cartprodmempaircEq) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) ((kpair Xx) Xy)) ((kpair Xx) Xy))))))) of role definition named cartprodmempaircEq
% A new definition: (((eq Prop) cartprodmempaircEq) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) ((kpair Xx) Xy)) ((kpair Xx) Xy)))))))
% Defined: cartprodmempaircEq:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) ((kpair Xx) Xy)) ((kpair Xx) Xy))))))
% FOF formula (<kernel.Constant object at 0x2216560>, <kernel.Sort object at 0x20d5f38>) of role type named cartprodfstpairEq_type
% Using role type
% Declaring cartprodfstpairEq:Prop
% FOF formula (((eq Prop) cartprodfstpairEq) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) (kfst ((kpair Xx) Xy))) Xx)))))) of role definition named cartprodfstpairEq
% A new definition: (((eq Prop) cartprodfstpairEq) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) (kfst ((kpair Xx) Xy))) Xx))))))
% Defined: cartprodfstpairEq:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) (kfst ((kpair Xx) Xy))) Xx)))))
% FOF formula (<kernel.Constant object at 0x2216290>, <kernel.Sort object at 0x20d5f38>) of role type named cartprodsndpairEq_type
% Using role type
% Declaring cartprodsndpairEq:Prop
% FOF formula (((eq Prop) cartprodsndpairEq) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) (ksnd ((kpair Xx) Xy))) Xy)))))) of role definition named cartprodsndpairEq
% A new definition: (((eq Prop) cartprodsndpairEq) (forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) (ksnd ((kpair Xx) Xy))) Xy))))))
% Defined: cartprodsndpairEq:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) (ksnd ((kpair Xx) Xy))) Xy)))))
% FOF formula (<kernel.Constant object at 0x22167e8>, <kernel.Sort object at 0x20d5f38>) of role type named cartprodpairsurjEq_type
% Using role type
% Declaring cartprodpairsurjEq:Prop
% FOF formula (((eq Prop) cartprodpairsurjEq) (forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->(((eq fofType) ((kpair (kfst Xu)) (ksnd Xu))) Xu)))) of role definition named cartprodpairsurjEq
% A new definition: (((eq Prop) cartprodpairsurjEq) (forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->(((eq fofType) ((kpair (kfst Xu)) (ksnd Xu))) Xu))))
% Defined: cartprodpairsurjEq:=(forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->(((eq fofType) ((kpair (kfst Xu)) (ksnd Xu))) Xu)))
% FOF formula (<kernel.Constant object at 0x2216f38>, <kernel.DependentProduct object at 0x2216ef0>) of role type named breln_type
% Using role type
% Declaring breln:(fofType->(fofType->(fofType->Prop)))
% FOF formula (<kernel.Constant object at 0x2216fc8>, <kernel.DependentProduct object at 0x2216a70>) of role type named dpsetconstr_type
% Using role type
% Declaring dpsetconstr:(fofType->(fofType->((fofType->(fofType->Prop))->fofType)))
% FOF formula (<kernel.Constant object at 0x22167e8>, <kernel.Sort object at 0x20d5f38>) of role type named dpsetconstrI_type
% Using role type
% Declaring dpsetconstrI:Prop
% FOF formula (((eq Prop) dpsetconstrI) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((Xphi Xx) Xy)->((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu)))))))))) of role definition named dpsetconstrI
% A new definition: (((eq Prop) dpsetconstrI) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((Xphi Xx) Xy)->((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))))))))
% Defined: dpsetconstrI:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((Xphi Xx) Xy)->((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu)))))))))
% FOF formula (<kernel.Constant object at 0x2216050>, <kernel.Sort object at 0x20d5f38>) of role type named dpsetconstrSub_type
% Using role type
% Declaring dpsetconstrSub:Prop
% FOF formula (((eq Prop) dpsetconstrSub) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), ((subset (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy)))) ((cartprod A) B)))) of role definition named dpsetconstrSub
% A new definition: (((eq Prop) dpsetconstrSub) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), ((subset (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy)))) ((cartprod A) B))))
% Defined: dpsetconstrSub:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), ((subset (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy)))) ((cartprod A) B)))
% FOF formula (<kernel.Constant object at 0x2216f38>, <kernel.Sort object at 0x20d5f38>) of role type named setOfPairsIsBReln_type
% Using role type
% Declaring setOfPairsIsBReln:Prop
% FOF formula (((eq Prop) setOfPairsIsBReln) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), (((breln A) B) (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy)))))) of role definition named setOfPairsIsBReln
% A new definition: (((eq Prop) setOfPairsIsBReln) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), (((breln A) B) (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy))))))
% Defined: setOfPairsIsBReln:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), (((breln A) B) (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy)))))
% FOF formula (<kernel.Constant object at 0x2216f80>, <kernel.Sort object at 0x20d5f38>) of role type named dpsetconstrERa_type
% Using role type
% Declaring dpsetconstrERa:Prop
% FOF formula (((eq Prop) dpsetconstrERa) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((Xphi Xx) Xy))))))) of role definition named dpsetconstrERa
% A new definition: (((eq Prop) dpsetconstrERa) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((Xphi Xx) Xy)))))))
% Defined: dpsetconstrERa:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((Xphi Xx) Xy))))))
% FOF formula (<kernel.Constant object at 0x2216dd0>, <kernel.Sort object at 0x20d5f38>) of role type named dpsetconstrEL1_type
% Using role type
% Declaring dpsetconstrEL1:Prop
% FOF formula (((eq Prop) dpsetconstrEL1) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((in Xx) A)))) of role definition named dpsetconstrEL1
% A new definition: (((eq Prop) dpsetconstrEL1) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((in Xx) A))))
% Defined: dpsetconstrEL1:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((in Xx) A)))
% FOF formula (<kernel.Constant object at 0x2216dd0>, <kernel.Sort object at 0x20d5f38>) of role type named dpsetconstrEL2_type
% Using role type
% Declaring dpsetconstrEL2:Prop
% FOF formula (((eq Prop) dpsetconstrEL2) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((in Xy) B)))) of role definition named dpsetconstrEL2
% A new definition: (((eq Prop) dpsetconstrEL2) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((in Xy) B))))
% Defined: dpsetconstrEL2:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((in Xy) B)))
% FOF formula (<kernel.Constant object at 0x2216f38>, <kernel.Sort object at 0x20d5f38>) of role type named dpsetconstrER_type
% Using role type
% Declaring dpsetconstrER:Prop
% FOF formula (((eq Prop) dpsetconstrER) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((Xphi Xx) Xy)))) of role definition named dpsetconstrER
% A new definition: (((eq Prop) dpsetconstrER) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((Xphi Xx) Xy))))
% Defined: dpsetconstrER:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((Xphi Xx) Xy)))
% FOF formula (<kernel.Constant object at 0x22195a8>, <kernel.DependentProduct object at 0x2219878>) of role type named func_type
% Using role type
% Declaring func:(fofType->(fofType->(fofType->Prop)))
% FOF formula (<kernel.Constant object at 0x2219a28>, <kernel.DependentProduct object at 0x22196c8>) of role type named funcSet_type
% Using role type
% Declaring funcSet:(fofType->(fofType->fofType))
% FOF formula (<kernel.Constant object at 0x22198c0>, <kernel.Sort object at 0x20d5f38>) of role type named funcImageSingleton_type
% Using role type
% Declaring funcImageSingleton:Prop
% FOF formula (((eq Prop) funcImageSingleton) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(singleton ((dsetconstr B) (fun (Xy:fofType)=> ((in ((kpair Xx) Xy)) Xf))))))))) of role definition named funcImageSingleton
% A new definition: (((eq Prop) funcImageSingleton) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(singleton ((dsetconstr B) (fun (Xy:fofType)=> ((in ((kpair Xx) Xy)) Xf)))))))))
% Defined: funcImageSingleton:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(singleton ((dsetconstr B) (fun (Xy:fofType)=> ((in ((kpair Xx) Xy)) Xf))))))))
% FOF formula (<kernel.Constant object at 0x22194d0>, <kernel.Sort object at 0x20d5f38>) of role type named apProp_type
% Using role type
% Declaring apProp:Prop
% FOF formula (((eq Prop) apProp) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in (setunion ((dsetconstr B) (fun (Xy:fofType)=> ((in ((kpair Xx) Xy)) Xf))))) B)))))) of role definition named apProp
% A new definition: (((eq Prop) apProp) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in (setunion ((dsetconstr B) (fun (Xy:fofType)=> ((in ((kpair Xx) Xy)) Xf))))) B))))))
% Defined: apProp:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in (setunion ((dsetconstr B) (fun (Xy:fofType)=> ((in ((kpair Xx) Xy)) Xf))))) B)))))
% FOF formula (<kernel.Constant object at 0x2219170>, <kernel.DependentProduct object at 0x2219320>) of role type named ap_type
% Using role type
% Declaring ap:(fofType->(fofType->(fofType->(fofType->fofType))))
% FOF formula (<kernel.Constant object at 0x2219908>, <kernel.Sort object at 0x20d5f38>) of role type named app_type
% Using role type
% Declaring app:Prop
% FOF formula (((eq Prop) app) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in ((((ap A) B) Xf) Xx)) B)))))) of role definition named app
% A new definition: (((eq Prop) app) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in ((((ap A) B) Xf) Xx)) B))))))
% Defined: app:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in ((((ap A) B) Xf) Xx)) B)))))
% FOF formula (<kernel.Constant object at 0x2219560>, <kernel.Sort object at 0x20d5f38>) of role type named infuncsetfunc_type
% Using role type
% Declaring infuncsetfunc:Prop
% FOF formula (((eq Prop) infuncsetfunc) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(((func A) B) Xf)))) of role definition named infuncsetfunc
% A new definition: (((eq Prop) infuncsetfunc) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(((func A) B) Xf))))
% Defined: infuncsetfunc:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(((func A) B) Xf)))
% FOF formula (<kernel.Constant object at 0x2219878>, <kernel.Sort object at 0x20d5f38>) of role type named ap2p_type
% Using role type
% Declaring ap2p:Prop
% FOF formula (((eq Prop) ap2p) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->((in ((((ap A) B) Xf) Xx)) B)))))) of role definition named ap2p
% A new definition: (((eq Prop) ap2p) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->((in ((((ap A) B) Xf) Xx)) B))))))
% Defined: ap2p:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->((in ((((ap A) B) Xf) Xx)) B)))))
% FOF formula (<kernel.Constant object at 0x2219830>, <kernel.Sort object at 0x20d5f38>) of role type named funcinfuncset_type
% Using role type
% Declaring funcinfuncset:Prop
% FOF formula (((eq Prop) funcinfuncset) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->((in Xf) ((funcSet A) B))))) of role definition named funcinfuncset
% A new definition: (((eq Prop) funcinfuncset) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->((in Xf) ((funcSet A) B)))))
% Defined: funcinfuncset:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->((in Xf) ((funcSet A) B))))
% FOF formula (<kernel.Constant object at 0x2219518>, <kernel.Sort object at 0x20d5f38>) of role type named lamProp_type
% Using role type
% Declaring lamProp:Prop
% FOF formula (((eq Prop) lamProp) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((func A) B) (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> (((eq fofType) (Xf Xx)) Xy))))))) of role definition named lamProp
% A new definition: (((eq Prop) lamProp) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((func A) B) (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> (((eq fofType) (Xf Xx)) Xy)))))))
% Defined: lamProp:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((func A) B) (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> (((eq fofType) (Xf Xx)) Xy))))))
% FOF formula (<kernel.Constant object at 0x2219b90>, <kernel.DependentProduct object at 0x2219758>) of role type named lam_type
% Using role type
% Declaring lam:(fofType->(fofType->((fofType->fofType)->fofType)))
% FOF formula (<kernel.Constant object at 0x2219d40>, <kernel.Sort object at 0x20d5f38>) of role type named lamp_type
% Using role type
% Declaring lamp:Prop
% FOF formula (((eq Prop) lamp) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((func A) B) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx))))))) of role definition named lamp
% A new definition: (((eq Prop) lamp) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((func A) B) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))))))
% Defined: lamp:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((func A) B) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx))))))
% FOF formula (<kernel.Constant object at 0x22191b8>, <kernel.Sort object at 0x20d5f38>) of role type named lam2p_type
% Using role type
% Declaring lam2p:Prop
% FOF formula (((eq Prop) lam2p) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->((in (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))) ((funcSet A) B))))) of role definition named lam2p
% A new definition: (((eq Prop) lam2p) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->((in (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))) ((funcSet A) B)))))
% Defined: lam2p:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->((in (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))) ((funcSet A) B))))
% FOF formula (<kernel.Constant object at 0x2219a70>, <kernel.Sort object at 0x20d5f38>) of role type named brelnall1_type
% Using role type
% Declaring brelnall1:Prop
% FOF formula (((eq Prop) brelnall1) (forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx)))))))) of role definition named brelnall1
% A new definition: (((eq Prop) brelnall1) (forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx))))))))
% Defined: brelnall1:=(forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx)))))))
% FOF formula (<kernel.Constant object at 0x2219a28>, <kernel.Sort object at 0x20d5f38>) of role type named brelnall2_type
% Using role type
% Declaring brelnall2:Prop
% FOF formula (((eq Prop) brelnall2) (forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx)))))))) of role definition named brelnall2
% A new definition: (((eq Prop) brelnall2) (forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx))))))))
% Defined: brelnall2:=(forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx)))))))
% FOF formula (<kernel.Constant object at 0x2219cb0>, <kernel.Sort object at 0x20d5f38>) of role type named ex1E2_type
% Using role type
% Declaring ex1E2:Prop
% FOF formula (((eq Prop) ex1E2) (forall (A:fofType) (Xphi:(fofType->Prop)), (((ex1 A) (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))))) of role definition named ex1E2
% A new definition: (((eq Prop) ex1E2) (forall (A:fofType) (Xphi:(fofType->Prop)), (((ex1 A) (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy))))))))))
% Defined: ex1E2:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((ex1 A) (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))))
% FOF formula (<kernel.Constant object at 0x2219518>, <kernel.Sort object at 0x20d5f38>) of role type named funcGraphProp1_type
% Using role type
% Declaring funcGraphProp1:Prop
% FOF formula (((eq Prop) funcGraphProp1) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in ((kpair Xx) ((((ap A) B) Xf) Xx))) Xf)))))) of role definition named funcGraphProp1
% A new definition: (((eq Prop) funcGraphProp1) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in ((kpair Xx) ((((ap A) B) Xf) Xx))) Xf))))))
% Defined: funcGraphProp1:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in ((kpair Xx) ((((ap A) B) Xf) Xx))) Xf)))))
% FOF formula (<kernel.Constant object at 0x2219cf8>, <kernel.Sort object at 0x20d5f38>) of role type named funcGraphProp3_type
% Using role type
% Declaring funcGraphProp3:Prop
% FOF formula (((eq Prop) funcGraphProp3) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->((in ((kpair Xx) ((((ap A) B) Xf) Xx))) Xf)))))) of role definition named funcGraphProp3
% A new definition: (((eq Prop) funcGraphProp3) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->((in ((kpair Xx) ((((ap A) B) Xf) Xx))) Xf))))))
% Defined: funcGraphProp3:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->((in ((kpair Xx) ((((ap A) B) Xf) Xx))) Xf)))))
% FOF formula (<kernel.Constant object at 0x2219170>, <kernel.Sort object at 0x20d5f38>) of role type named funcGraphProp2_type
% Using role type
% Declaring funcGraphProp2:Prop
% FOF formula (((eq Prop) funcGraphProp2) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xf)->(((eq fofType) ((((ap A) B) Xf) Xx)) Xy))))))))) of role definition named funcGraphProp2
% A new definition: (((eq Prop) funcGraphProp2) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xf)->(((eq fofType) ((((ap A) B) Xf) Xx)) Xy)))))))))
% Defined: funcGraphProp2:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xf)->(((eq fofType) ((((ap A) B) Xf) Xx)) Xy))))))))
% FOF formula (<kernel.Constant object at 0x2219638>, <kernel.Sort object at 0x20d5f38>) of role type named funcextLem_type
% Using role type
% Declaring funcextLem:Prop
% FOF formula (((eq Prop) funcextLem) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xg:fofType), ((((func A) B) Xg)->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xg)->((in ((kpair Xx) Xy)) Xf)))))))))))) of role definition named funcextLem
% A new definition: (((eq Prop) funcextLem) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xg:fofType), ((((func A) B) Xg)->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xg)->((in ((kpair Xx) Xy)) Xf))))))))))))
% Defined: funcextLem:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xg:fofType), ((((func A) B) Xg)->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xg)->((in ((kpair Xx) Xy)) Xf)))))))))))
% FOF formula (<kernel.Constant object at 0x2219b00>, <kernel.Sort object at 0x20d5f38>) of role type named funcGraphProp4_type
% Using role type
% Declaring funcGraphProp4:Prop
% FOF formula (((eq Prop) funcGraphProp4) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xf)->(((eq fofType) ((((ap A) B) Xf) Xx)) Xy))))))))) of role definition named funcGraphProp4
% A new definition: (((eq Prop) funcGraphProp4) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xf)->(((eq fofType) ((((ap A) B) Xf) Xx)) Xy)))))))))
% Defined: funcGraphProp4:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xf)->(((eq fofType) ((((ap A) B) Xf) Xx)) Xy))))))))
% FOF formula (<kernel.Constant object at 0x2219fc8>, <kernel.Sort object at 0x20d5f38>) of role type named subbreln_type
% Using role type
% Declaring subbreln:Prop
% FOF formula (((eq Prop) subbreln) (forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (S:fofType), ((((breln A) B) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((subset R) S))))))) of role definition named subbreln
% A new definition: (((eq Prop) subbreln) (forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (S:fofType), ((((breln A) B) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((subset R) S)))))))
% Defined: subbreln:=(forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (S:fofType), ((((breln A) B) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((subset R) S))))))
% FOF formula (<kernel.Constant object at 0x2219050>, <kernel.Sort object at 0x20d5f38>) of role type named eqbreln_type
% Using role type
% Declaring eqbreln:Prop
% FOF formula (((eq Prop) eqbreln) (forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (S:fofType), ((((breln A) B) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) R))))))->(((eq fofType) R) S)))))))) of role definition named eqbreln
% A new definition: (((eq Prop) eqbreln) (forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (S:fofType), ((((breln A) B) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) R))))))->(((eq fofType) R) S))))))))
% Defined: eqbreln:=(forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (S:fofType), ((((breln A) B) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) R))))))->(((eq fofType) R) S)))))))
% FOF formula (<kernel.Constant object at 0x2219f80>, <kernel.Sort object at 0x20d5f38>) of role type named funcext_type
% Using role type
% Declaring funcext:Prop
% FOF formula (((eq Prop) funcext) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xg:fofType), ((((func A) B) Xg)->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(((eq fofType) Xf) Xg))))))) of role definition named funcext
% A new definition: (((eq Prop) funcext) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xg:fofType), ((((func A) B) Xg)->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(((eq fofType) Xf) Xg)))))))
% Defined: funcext:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xg:fofType), ((((func A) B) Xg)->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(((eq fofType) Xf) Xg))))))
% FOF formula (<kernel.Constant object at 0x22195a8>, <kernel.Sort object at 0x20d5f38>) of role type named funcext2_type
% Using role type
% Declaring funcext2:Prop
% FOF formula (((eq Prop) funcext2) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xg:fofType), (((in Xg) ((funcSet A) B))->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(((eq fofType) Xf) Xg))))))) of role definition named funcext2
% A new definition: (((eq Prop) funcext2) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xg:fofType), (((in Xg) ((funcSet A) B))->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(((eq fofType) Xf) Xg)))))))
% Defined: funcext2:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xg:fofType), (((in Xg) ((funcSet A) B))->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(((eq fofType) Xf) Xg))))))
% FOF formula (<kernel.Constant object at 0x2219e18>, <kernel.Sort object at 0x20d5f38>) of role type named ap2apEq1_type
% Using role type
% Declaring ap2apEq1:Prop
% FOF formula (((eq Prop) ap2apEq1) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xf) Xx))))))) of role definition named ap2apEq1
% A new definition: (((eq Prop) ap2apEq1) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xf) Xx)))))))
% Defined: ap2apEq1:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xf) Xx))))))
% FOF formula (<kernel.Constant object at 0x2219128>, <kernel.Sort object at 0x20d5f38>) of role type named ap2apEq2_type
% Using role type
% Declaring ap2apEq2:Prop
% FOF formula (((eq Prop) ap2apEq2) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xf) Xx))))))) of role definition named ap2apEq2
% A new definition: (((eq Prop) ap2apEq2) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xf) Xx)))))))
% Defined: ap2apEq2:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xf) Xx))))))
% FOF formula (<kernel.Constant object at 0x22195a8>, <kernel.Sort object at 0x20d5f38>) of role type named beta1_type
% Using role type
% Declaring beta1:Prop
% FOF formula (((eq Prop) beta1) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) (((lam A) B) (fun (Xy:fofType)=> (Xf Xy)))) Xx)) (Xf Xx))))))) of role definition named beta1
% A new definition: (((eq Prop) beta1) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) (((lam A) B) (fun (Xy:fofType)=> (Xf Xy)))) Xx)) (Xf Xx)))))))
% Defined: beta1:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) (((lam A) B) (fun (Xy:fofType)=> (Xf Xy)))) Xx)) (Xf Xx))))))
% FOF formula (<kernel.Constant object at 0x22195a8>, <kernel.Sort object at 0x20d5f38>) of role type named eta1_type
% Using role type
% Declaring eta1:Prop
% FOF formula (((eq Prop) eta1) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> ((((ap A) B) Xf) Xx)))) Xf)))) of role definition named eta1
% A new definition: (((eq Prop) eta1) (forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> ((((ap A) B) Xf) Xx)))) Xf))))
% Defined: eta1:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> ((((ap A) B) Xf) Xx)))) Xf)))
% FOF formula (<kernel.Constant object at 0x2219e18>, <kernel.Sort object at 0x20d5f38>) of role type named lam2lamEq_type
% Using role type
% Declaring lam2lamEq:Prop
% FOF formula (((eq Prop) lam2lamEq) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx))))))) of role definition named lam2lamEq
% A new definition: (((eq Prop) lam2lamEq) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))))))
% Defined: lam2lamEq:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx))))))
% FOF formula (<kernel.Constant object at 0x221d368>, <kernel.Sort object at 0x20d5f38>) of role type named beta2_type
% Using role type
% Declaring beta2:Prop
% FOF formula (((eq Prop) beta2) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) (((lam A) B) (fun (Xy:fofType)=> (Xf Xy)))) Xx)) (Xf Xx))))))) of role definition named beta2
% A new definition: (((eq Prop) beta2) (forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) (((lam A) B) (fun (Xy:fofType)=> (Xf Xy)))) Xx)) (Xf Xx)))))))
% Defined: beta2:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) (((lam A) B) (fun (Xy:fofType)=> (Xf Xy)))) Xx)) (Xf Xx))))))
% FOF formula (<kernel.Constant object at 0x221d320>, <kernel.Sort object at 0x20d5f38>) of role type named eta2_type
% Using role type
% Declaring eta2:Prop
% FOF formula (((eq Prop) eta2) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> ((((ap A) B) Xf) Xx)))) Xf)))) of role definition named eta2
% A new definition: (((eq Prop) eta2) (forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> ((((ap A) B) Xf) Xx)))) Xf))))
% Defined: eta2:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> ((((ap A) B) Xf) Xx)))) Xf)))
% FOF formula (<kernel.Constant object at 0x221d440>, <kernel.Sort object at 0x20d5f38>) of role type named iffalseProp1_type
% Using role type
% Declaring iffalseProp1:Prop
% FOF formula (((eq Prop) iffalseProp1) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->((in Xy) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))))))))) of role definition named iffalseProp1
% A new definition: (((eq Prop) iffalseProp1) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->((in Xy) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy))))))))))))
% Defined: iffalseProp1:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->((in Xy) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))))))))
% FOF formula (<kernel.Constant object at 0x221d3b0>, <kernel.Sort object at 0x20d5f38>) of role type named iffalseProp2_type
% Using role type
% Declaring iffalseProp2:Prop
% FOF formula (((eq Prop) iffalseProp2) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->(((eq fofType) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))) ((setadjoin Xy) emptyset)))))))) of role definition named iffalseProp2
% A new definition: (((eq Prop) iffalseProp2) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->(((eq fofType) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))) ((setadjoin Xy) emptyset))))))))
% Defined: iffalseProp2:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->(((eq fofType) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))) ((setadjoin Xy) emptyset)))))))
% FOF formula (<kernel.Constant object at 0x221d9e0>, <kernel.Sort object at 0x20d5f38>) of role type named iftrueProp1_type
% Using role type
% Declaring iftrueProp1:Prop
% FOF formula (((eq Prop) iftrueProp1) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->((in Xx) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))))))))) of role definition named iftrueProp1
% A new definition: (((eq Prop) iftrueProp1) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->((in Xx) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy))))))))))))
% Defined: iftrueProp1:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->((in Xx) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))))))))
% FOF formula (<kernel.Constant object at 0x221d998>, <kernel.Sort object at 0x20d5f38>) of role type named iftrueProp2_type
% Using role type
% Declaring iftrueProp2:Prop
% FOF formula (((eq Prop) iftrueProp2) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->(((eq fofType) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))) ((setadjoin Xx) emptyset)))))))) of role definition named iftrueProp2
% A new definition: (((eq Prop) iftrueProp2) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->(((eq fofType) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))) ((setadjoin Xx) emptyset))))))))
% Defined: iftrueProp2:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->(((eq fofType) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))) ((setadjoin Xx) emptyset)))))))
% FOF formula (<kernel.Constant object at 0x221de18>, <kernel.Sort object at 0x20d5f38>) of role type named ifSingleton_type
% Using role type
% Declaring ifSingleton:Prop
% FOF formula (((eq Prop) ifSingleton) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(singleton ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy))))))))))) of role definition named ifSingleton
% A new definition: (((eq Prop) ifSingleton) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(singleton ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))))))))
% Defined: ifSingleton:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(singleton ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy))))))))))
% FOF formula (<kernel.Constant object at 0x221d488>, <kernel.DependentProduct object at 0x221d710>) of role type named if_type
% Using role type
% Declaring if:(fofType->(Prop->(fofType->(fofType->fofType))))
% FOF formula (<kernel.Constant object at 0x221dcb0>, <kernel.Sort object at 0x20d5f38>) of role type named ifp_type
% Using role type
% Declaring ifp:Prop
% FOF formula (((eq Prop) ifp) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((in ((((if A) Xphi) Xx) Xy)) A)))))) of role definition named ifp
% A new definition: (((eq Prop) ifp) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((in ((((if A) Xphi) Xx) Xy)) A))))))
% Defined: ifp:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((in ((((if A) Xphi) Xx) Xy)) A)))))
% FOF formula (<kernel.Constant object at 0x221d5f0>, <kernel.Sort object at 0x20d5f38>) of role type named theeq_type
% Using role type
% Declaring theeq:Prop
% FOF formula (((eq Prop) theeq) (forall (X:fofType), ((singleton X)->(forall (Xx:fofType), (((in Xx) X)->(((eq fofType) (setunion X)) Xx)))))) of role definition named theeq
% A new definition: (((eq Prop) theeq) (forall (X:fofType), ((singleton X)->(forall (Xx:fofType), (((in Xx) X)->(((eq fofType) (setunion X)) Xx))))))
% Defined: theeq:=(forall (X:fofType), ((singleton X)->(forall (Xx:fofType), (((in Xx) X)->(((eq fofType) (setunion X)) Xx)))))
% FOF formula (<kernel.Constant object at 0x221d5a8>, <kernel.Sort object at 0x20d5f38>) of role type named iftrue_type
% Using role type
% Declaring iftrue:Prop
% FOF formula (((eq Prop) iftrue) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->(((eq fofType) ((((if A) Xphi) Xx) Xy)) Xx))))))) of role definition named iftrue
% A new definition: (((eq Prop) iftrue) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->(((eq fofType) ((((if A) Xphi) Xx) Xy)) Xx)))))))
% Defined: iftrue:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->(((eq fofType) ((((if A) Xphi) Xx) Xy)) Xx))))))
% FOF formula (<kernel.Constant object at 0x221dea8>, <kernel.Sort object at 0x20d5f38>) of role type named iffalse_type
% Using role type
% Declaring iffalse:Prop
% FOF formula (((eq Prop) iffalse) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->(((eq fofType) ((((if A) Xphi) Xx) Xy)) Xy))))))) of role definition named iffalse
% A new definition: (((eq Prop) iffalse) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->(((eq fofType) ((((if A) Xphi) Xx) Xy)) Xy)))))))
% Defined: iffalse:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->(((eq fofType) ((((if A) Xphi) Xx) Xy)) Xy))))))
% FOF formula (<kernel.Constant object at 0x221dab8>, <kernel.Sort object at 0x20d5f38>) of role type named iftrueorfalse_type
% Using role type
% Declaring iftrueorfalse:Prop
% FOF formula (((eq Prop) iftrueorfalse) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((in ((((if A) Xphi) Xx) Xy)) ((setadjoin Xx) ((setadjoin Xy) emptyset)))))))) of role definition named iftrueorfalse
% A new definition: (((eq Prop) iftrueorfalse) (forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((in ((((if A) Xphi) Xx) Xy)) ((setadjoin Xx) ((setadjoin Xy) emptyset))))))))
% Defined: iftrueorfalse:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((in ((((if A) Xphi) Xx) Xy)) ((setadjoin Xx) ((setadjoin Xy) emptyset)))))))
% FOF formula (<kernel.Constant object at 0x221da28>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectT_lem_type
% Using role type
% Declaring binintersectT_lem:Prop
% FOF formula (((eq Prop) binintersectT_lem) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((binintersect X) Y)) (powerset A))))))) of role definition named binintersectT_lem
% A new definition: (((eq Prop) binintersectT_lem) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((binintersect X) Y)) (powerset A)))))))
% Defined: binintersectT_lem:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((binintersect X) Y)) (powerset A))))))
% FOF formula (<kernel.Constant object at 0x221dd88>, <kernel.Sort object at 0x20d5f38>) of role type named binunionT_lem_type
% Using role type
% Declaring binunionT_lem:Prop
% FOF formula (((eq Prop) binunionT_lem) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((binunion X) Y)) (powerset A))))))) of role definition named binunionT_lem
% A new definition: (((eq Prop) binunionT_lem) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((binunion X) Y)) (powerset A)))))))
% Defined: binunionT_lem:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((binunion X) Y)) (powerset A))))))
% FOF formula (<kernel.Constant object at 0x221de18>, <kernel.Sort object at 0x20d5f38>) of role type named powersetT_lem_type
% Using role type
% Declaring powersetT_lem:Prop
% FOF formula (((eq Prop) powersetT_lem) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->((in (powerset X)) (powerset (powerset A)))))) of role definition named powersetT_lem
% A new definition: (((eq Prop) powersetT_lem) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->((in (powerset X)) (powerset (powerset A))))))
% Defined: powersetT_lem:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->((in (powerset X)) (powerset (powerset A)))))
% FOF formula (<kernel.Constant object at 0x221d170>, <kernel.Sort object at 0x20d5f38>) of role type named setminusT_lem_type
% Using role type
% Declaring setminusT_lem:Prop
% FOF formula (((eq Prop) setminusT_lem) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus X) Y)) (powerset A))))))) of role definition named setminusT_lem
% A new definition: (((eq Prop) setminusT_lem) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus X) Y)) (powerset A)))))))
% Defined: setminusT_lem:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus X) Y)) (powerset A))))))
% FOF formula (<kernel.Constant object at 0x221dd40>, <kernel.Sort object at 0x20d5f38>) of role type named complementT_lem_type
% Using role type
% Declaring complementT_lem:Prop
% FOF formula (((eq Prop) complementT_lem) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->((in ((setminus A) X)) (powerset A))))) of role definition named complementT_lem
% A new definition: (((eq Prop) complementT_lem) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->((in ((setminus A) X)) (powerset A)))))
% Defined: complementT_lem:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->((in ((setminus A) X)) (powerset A))))
% FOF formula (<kernel.Constant object at 0x221de60>, <kernel.Sort object at 0x20d5f38>) of role type named setextT_type
% Using role type
% Declaring setextT:Prop
% FOF formula (((eq Prop) setextT) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) Y)->((in Xx) X))))->(((eq fofType) X) Y)))))))) of role definition named setextT
% A new definition: (((eq Prop) setextT) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) Y)->((in Xx) X))))->(((eq fofType) X) Y))))))))
% Defined: setextT:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) Y)->((in Xx) X))))->(((eq fofType) X) Y)))))))
% FOF formula (<kernel.Constant object at 0x221d2d8>, <kernel.Sort object at 0x20d5f38>) of role type named subsetTI_type
% Using role type
% Declaring subsetTI:Prop
% FOF formula (((eq Prop) subsetTI) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((subset X) Y))))))) of role definition named subsetTI
% A new definition: (((eq Prop) subsetTI) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((subset X) Y)))))))
% Defined: subsetTI:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((subset X) Y))))))
% FOF formula (<kernel.Constant object at 0x221d560>, <kernel.Sort object at 0x20d5f38>) of role type named powersetTI1_type
% Using role type
% Declaring powersetTI1:Prop
% FOF formula (((eq Prop) powersetTI1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((in X) (powerset Y)))))))) of role definition named powersetTI1
% A new definition: (((eq Prop) powersetTI1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((in X) (powerset Y))))))))
% Defined: powersetTI1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((in X) (powerset Y)))))))
% FOF formula (<kernel.Constant object at 0x221db48>, <kernel.Sort object at 0x20d5f38>) of role type named powersetTE1_type
% Using role type
% Declaring powersetTE1:Prop
% FOF formula (((eq Prop) powersetTE1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in X) (powerset Y))->(((in Xx) X)->((in Xx) Y)))))))))) of role definition named powersetTE1
% A new definition: (((eq Prop) powersetTE1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in X) (powerset Y))->(((in Xx) X)->((in Xx) Y))))))))))
% Defined: powersetTE1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in X) (powerset Y))->(((in Xx) X)->((in Xx) Y)))))))))
% FOF formula (<kernel.Constant object at 0x221dc68>, <kernel.Sort object at 0x20d5f38>) of role type named complementTI1_type
% Using role type
% Declaring complementTI1:Prop
% FOF formula (((eq Prop) complementTI1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->(((in Xx) ((setminus A) X))->False))))))) of role definition named complementTI1
% A new definition: (((eq Prop) complementTI1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->(((in Xx) ((setminus A) X))->False)))))))
% Defined: complementTI1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->(((in Xx) ((setminus A) X))->False))))))
% FOF formula (<kernel.Constant object at 0x221db00>, <kernel.Sort object at 0x20d5f38>) of role type named complementTE1_type
% Using role type
% Declaring complementTE1:Prop
% FOF formula (((eq Prop) complementTE1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((setminus A) X))->False)->((in Xx) X))))))) of role definition named complementTE1
% A new definition: (((eq Prop) complementTE1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((setminus A) X))->False)->((in Xx) X)))))))
% Defined: complementTE1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((setminus A) X))->False)->((in Xx) X))))))
% FOF formula (<kernel.Constant object at 0x221d878>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectTELcontra_type
% Using role type
% Declaring binintersectTELcontra:Prop
% FOF formula (((eq Prop) binintersectTELcontra) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) X)->False)->(((in Xx) ((binintersect X) Y))->False))))))))) of role definition named binintersectTELcontra
% A new definition: (((eq Prop) binintersectTELcontra) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) X)->False)->(((in Xx) ((binintersect X) Y))->False)))))))))
% Defined: binintersectTELcontra:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) X)->False)->(((in Xx) ((binintersect X) Y))->False))))))))
% FOF formula (<kernel.Constant object at 0x221df80>, <kernel.Sort object at 0x20d5f38>) of role type named binintersectTERcontra_type
% Using role type
% Declaring binintersectTERcontra:Prop
% FOF formula (((eq Prop) binintersectTERcontra) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) Y)->False)->(((in Xx) ((binintersect X) Y))->False))))))))) of role definition named binintersectTERcontra
% A new definition: (((eq Prop) binintersectTERcontra) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) Y)->False)->(((in Xx) ((binintersect X) Y))->False)))))))))
% Defined: binintersectTERcontra:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) Y)->False)->(((in Xx) ((binintersect X) Y))->False))))))))
% FOF formula (<kernel.Constant object at 0x221df80>, <kernel.Sort object at 0x20d5f38>) of role type named contrasubsetT_type
% Using role type
% Declaring contrasubsetT:Prop
% FOF formula (((eq Prop) contrasubsetT) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((subset X) ((setminus A) Y))->(((in Xx) Y)->(((in Xx) X)->False)))))))))) of role definition named contrasubsetT
% A new definition: (((eq Prop) contrasubsetT) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((subset X) ((setminus A) Y))->(((in Xx) Y)->(((in Xx) X)->False))))))))))
% Defined: contrasubsetT:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((subset X) ((setminus A) Y))->(((in Xx) Y)->(((in Xx) X)->False)))))))))
% FOF formula (<kernel.Constant object at 0x221df80>, <kernel.Sort object at 0x20d5f38>) of role type named contrasubsetT1_type
% Using role type
% Declaring contrasubsetT1:Prop
% FOF formula (((eq Prop) contrasubsetT1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((subset X) Y)->((((in Xx) Y)->False)->(((in Xx) X)->False)))))))))) of role definition named contrasubsetT1
% A new definition: (((eq Prop) contrasubsetT1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((subset X) Y)->((((in Xx) Y)->False)->(((in Xx) X)->False))))))))))
% Defined: contrasubsetT1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((subset X) Y)->((((in Xx) Y)->False)->(((in Xx) X)->False)))))))))
% FOF formula (<kernel.Constant object at 0x221f368>, <kernel.Sort object at 0x20d5f38>) of role type named contrasubsetT2_type
% Using role type
% Declaring contrasubsetT2:Prop
% FOF formula (((eq Prop) contrasubsetT2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) Y)->((subset ((setminus A) Y)) ((setminus A) X)))))))) of role definition named contrasubsetT2
% A new definition: (((eq Prop) contrasubsetT2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) Y)->((subset ((setminus A) Y)) ((setminus A) X))))))))
% Defined: contrasubsetT2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) Y)->((subset ((setminus A) Y)) ((setminus A) X)))))))
% FOF formula (<kernel.Constant object at 0x221f3b0>, <kernel.Sort object at 0x20d5f38>) of role type named contrasubsetT3_type
% Using role type
% Declaring contrasubsetT3:Prop
% FOF formula (((eq Prop) contrasubsetT3) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset ((setminus A) Y)) ((setminus A) X))->((subset X) Y))))))) of role definition named contrasubsetT3
% A new definition: (((eq Prop) contrasubsetT3) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset ((setminus A) Y)) ((setminus A) X))->((subset X) Y)))))))
% Defined: contrasubsetT3:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset ((setminus A) Y)) ((setminus A) X))->((subset X) Y))))))
% FOF formula (<kernel.Constant object at 0x221f878>, <kernel.Sort object at 0x20d5f38>) of role type named doubleComplementI1_type
% Using role type
% Declaring doubleComplementI1:Prop
% FOF formula (((eq Prop) doubleComplementI1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) ((setminus A) ((setminus A) X))))))))) of role definition named doubleComplementI1
% A new definition: (((eq Prop) doubleComplementI1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) ((setminus A) ((setminus A) X)))))))))
% Defined: doubleComplementI1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) ((setminus A) ((setminus A) X))))))))
% FOF formula (<kernel.Constant object at 0x221f758>, <kernel.Sort object at 0x20d5f38>) of role type named doubleComplementE1_type
% Using role type
% Declaring doubleComplementE1:Prop
% FOF formula (((eq Prop) doubleComplementE1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((setminus A) X)))->((in Xx) X))))))) of role definition named doubleComplementE1
% A new definition: (((eq Prop) doubleComplementE1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((setminus A) X)))->((in Xx) X)))))))
% Defined: doubleComplementE1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((setminus A) X)))->((in Xx) X))))))
% FOF formula (<kernel.Constant object at 0x221f7a0>, <kernel.Sort object at 0x20d5f38>) of role type named doubleComplementSub1_type
% Using role type
% Declaring doubleComplementSub1:Prop
% FOF formula (((eq Prop) doubleComplementSub1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->((subset X) ((setminus A) ((setminus A) X)))))) of role definition named doubleComplementSub1
% A new definition: (((eq Prop) doubleComplementSub1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->((subset X) ((setminus A) ((setminus A) X))))))
% Defined: doubleComplementSub1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->((subset X) ((setminus A) ((setminus A) X)))))
% FOF formula (<kernel.Constant object at 0x221fa70>, <kernel.Sort object at 0x20d5f38>) of role type named doubleComplementSub2_type
% Using role type
% Declaring doubleComplementSub2:Prop
% FOF formula (((eq Prop) doubleComplementSub2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->((subset ((setminus A) ((setminus A) X))) X)))) of role definition named doubleComplementSub2
% A new definition: (((eq Prop) doubleComplementSub2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->((subset ((setminus A) ((setminus A) X))) X))))
% Defined: doubleComplementSub2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->((subset ((setminus A) ((setminus A) X))) X)))
% FOF formula (<kernel.Constant object at 0x221f950>, <kernel.Sort object at 0x20d5f38>) of role type named doubleComplementEq_type
% Using role type
% Declaring doubleComplementEq:Prop
% FOF formula (((eq Prop) doubleComplementEq) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(((eq fofType) X) ((setminus A) ((setminus A) X)))))) of role definition named doubleComplementEq
% A new definition: (((eq Prop) doubleComplementEq) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(((eq fofType) X) ((setminus A) ((setminus A) X))))))
% Defined: doubleComplementEq:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(((eq fofType) X) ((setminus A) ((setminus A) X)))))
% FOF formula (<kernel.Constant object at 0x221f440>, <kernel.Sort object at 0x20d5f38>) of role type named complementTnotintersectT_type
% Using role type
% Declaring complementTnotintersectT:Prop
% FOF formula (((eq Prop) complementTnotintersectT) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->(((in Xx) ((binintersect X) Y))->False))))))))) of role definition named complementTnotintersectT
% A new definition: (((eq Prop) complementTnotintersectT) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->(((in Xx) ((binintersect X) Y))->False)))))))))
% Defined: complementTnotintersectT:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->(((in Xx) ((binintersect X) Y))->False))))))))
% FOF formula (<kernel.Constant object at 0x221fc68>, <kernel.Sort object at 0x20d5f38>) of role type named complementImpComplementIntersect_type
% Using role type
% Declaring complementImpComplementIntersect:Prop
% FOF formula (((eq Prop) complementImpComplementIntersect) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->((in Xx) ((setminus A) ((binintersect X) Y))))))))))) of role definition named complementImpComplementIntersect
% A new definition: (((eq Prop) complementImpComplementIntersect) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->((in Xx) ((setminus A) ((binintersect X) Y)))))))))))
% Defined: complementImpComplementIntersect:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->((in Xx) ((setminus A) ((binintersect X) Y))))))))))
% FOF formula (<kernel.Constant object at 0x221f908>, <kernel.Sort object at 0x20d5f38>) of role type named complementSubsetComplementIntersect_type
% Using role type
% Declaring complementSubsetComplementIntersect:Prop
% FOF formula (((eq Prop) complementSubsetComplementIntersect) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((subset ((setminus A) X)) ((setminus A) ((binintersect X) Y)))))))) of role definition named complementSubsetComplementIntersect
% A new definition: (((eq Prop) complementSubsetComplementIntersect) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((subset ((setminus A) X)) ((setminus A) ((binintersect X) Y))))))))
% Defined: complementSubsetComplementIntersect:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((subset ((setminus A) X)) ((setminus A) ((binintersect X) Y)))))))
% FOF formula (<kernel.Constant object at 0x221f488>, <kernel.Sort object at 0x20d5f38>) of role type named complementInPowersetComplementIntersect_type
% Using role type
% Declaring complementInPowersetComplementIntersect:Prop
% FOF formula (((eq Prop) complementInPowersetComplementIntersect) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) X)) (powerset ((setminus A) ((binintersect X) Y))))))))) of role definition named complementInPowersetComplementIntersect
% A new definition: (((eq Prop) complementInPowersetComplementIntersect) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) X)) (powerset ((setminus A) ((binintersect X) Y)))))))))
% Defined: complementInPowersetComplementIntersect:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) X)) (powerset ((setminus A) ((binintersect X) Y))))))))
% FOF formula (<kernel.Constant object at 0x221f908>, <kernel.Sort object at 0x20d5f38>) of role type named contraSubsetComplement_type
% Using role type
% Declaring contraSubsetComplement:Prop
% FOF formula (((eq Prop) contraSubsetComplement) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) Y)->((in Xx) ((setminus A) X))))))))))) of role definition named contraSubsetComplement
% A new definition: (((eq Prop) contraSubsetComplement) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) Y)->((in Xx) ((setminus A) X)))))))))))
% Defined: contraSubsetComplement:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) Y)->((in Xx) ((setminus A) X))))))))))
% FOF formula (<kernel.Constant object at 0x221fb48>, <kernel.Sort object at 0x20d5f38>) of role type named complementTcontraSubset_type
% Using role type
% Declaring complementTcontraSubset:Prop
% FOF formula (((eq Prop) complementTcontraSubset) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->((subset Y) ((setminus A) X)))))))) of role definition named complementTcontraSubset
% A new definition: (((eq Prop) complementTcontraSubset) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->((subset Y) ((setminus A) X))))))))
% Defined: complementTcontraSubset:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->((subset Y) ((setminus A) X)))))))
% FOF formula (<kernel.Constant object at 0x221fe18>, <kernel.Sort object at 0x20d5f38>) of role type named binunionTILcontra_type
% Using role type
% Declaring binunionTILcontra:Prop
% FOF formula (((eq Prop) binunionTILcontra) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((binunion X) Y))->False)->(((in Xx) X)->False))))))))) of role definition named binunionTILcontra
% A new definition: (((eq Prop) binunionTILcontra) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((binunion X) Y))->False)->(((in Xx) X)->False)))))))))
% Defined: binunionTILcontra:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((binunion X) Y))->False)->(((in Xx) X)->False))))))))
% FOF formula (<kernel.Constant object at 0x221fb48>, <kernel.Sort object at 0x20d5f38>) of role type named binunionTIRcontra_type
% Using role type
% Declaring binunionTIRcontra:Prop
% FOF formula (((eq Prop) binunionTIRcontra) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((binunion X) Y))->False)->(((in Xx) Y)->False))))))))) of role definition named binunionTIRcontra
% A new definition: (((eq Prop) binunionTIRcontra) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((binunion X) Y))->False)->(((in Xx) Y)->False)))))))))
% Defined: binunionTIRcontra:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((binunion X) Y))->False)->(((in Xx) Y)->False))))))))
% FOF formula (<kernel.Constant object at 0x221fdd0>, <kernel.Sort object at 0x20d5f38>) of role type named inIntersectImpInUnion_type
% Using role type
% Declaring inIntersectImpInUnion:Prop
% FOF formula (((eq Prop) inIntersectImpInUnion) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binunion X) Z)))))))))))) of role definition named inIntersectImpInUnion
% A new definition: (((eq Prop) inIntersectImpInUnion) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binunion X) Z))))))))))))
% Defined: inIntersectImpInUnion:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binunion X) Z)))))))))))
% FOF formula (<kernel.Constant object at 0x221f050>, <kernel.Sort object at 0x20d5f38>) of role type named inIntersectImpInUnion2_type
% Using role type
% Declaring inIntersectImpInUnion2:Prop
% FOF formula (((eq Prop) inIntersectImpInUnion2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binunion Y) Z)))))))))))) of role definition named inIntersectImpInUnion2
% A new definition: (((eq Prop) inIntersectImpInUnion2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binunion Y) Z))))))))))))
% Defined: inIntersectImpInUnion2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binunion Y) Z)))))))))))
% FOF formula (<kernel.Constant object at 0x221f050>, <kernel.Sort object at 0x20d5f38>) of role type named inIntersectImpInIntersectUnions_type
% Using role type
% Declaring inIntersectImpInIntersectUnions:Prop
% FOF formula (((eq Prop) inIntersectImpInIntersectUnions) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binintersect ((binunion X) Z)) ((binunion Y) Z))))))))))))) of role definition named inIntersectImpInIntersectUnions
% A new definition: (((eq Prop) inIntersectImpInIntersectUnions) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binintersect ((binunion X) Z)) ((binunion Y) Z)))))))))))))
% Defined: inIntersectImpInIntersectUnions:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binintersect ((binunion X) Z)) ((binunion Y) Z))))))))))))
% FOF formula (<kernel.Constant object at 0x221f998>, <kernel.Sort object at 0x20d5f38>) of role type named intersectInPowersetIntersectUnions_type
% Using role type
% Declaring intersectInPowersetIntersectUnions:Prop
% FOF formula (((eq Prop) intersectInPowersetIntersectUnions) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->((in ((binintersect X) Y)) (powerset ((binintersect ((binunion X) Z)) ((binunion Y) Z))))))))))) of role definition named intersectInPowersetIntersectUnions
% A new definition: (((eq Prop) intersectInPowersetIntersectUnions) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->((in ((binintersect X) Y)) (powerset ((binintersect ((binunion X) Z)) ((binunion Y) Z)))))))))))
% Defined: intersectInPowersetIntersectUnions:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->((in ((binintersect X) Y)) (powerset ((binintersect ((binunion X) Z)) ((binunion Y) Z))))))))))
% FOF formula (<kernel.Constant object at 0x221ff80>, <kernel.Sort object at 0x20d5f38>) of role type named inComplementUnionImpNotIn1_type
% Using role type
% Declaring inComplementUnionImpNotIn1:Prop
% FOF formula (((eq Prop) inComplementUnionImpNotIn1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->(((in Xx) X)->False))))))))) of role definition named inComplementUnionImpNotIn1
% A new definition: (((eq Prop) inComplementUnionImpNotIn1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->(((in Xx) X)->False)))))))))
% Defined: inComplementUnionImpNotIn1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->(((in Xx) X)->False))))))))
% FOF formula (<kernel.Constant object at 0x221f998>, <kernel.Sort object at 0x20d5f38>) of role type named inComplementUnionImpInComplement1_type
% Using role type
% Declaring inComplementUnionImpInComplement1:Prop
% FOF formula (((eq Prop) inComplementUnionImpInComplement1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) X)))))))))) of role definition named inComplementUnionImpInComplement1
% A new definition: (((eq Prop) inComplementUnionImpInComplement1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) X))))))))))
% Defined: inComplementUnionImpInComplement1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) X)))))))))
% FOF formula (<kernel.Constant object at 0x221fc20>, <kernel.Sort object at 0x20d5f38>) of role type named binunionTE_type
% Using role type
% Declaring binunionTE:Prop
% FOF formula (((eq Prop) binunionTE) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(((in Xx) ((binunion X) Y))->((((in Xx) X)->Xphi)->((((in Xx) Y)->Xphi)->Xphi)))))))))) of role definition named binunionTE
% A new definition: (((eq Prop) binunionTE) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(((in Xx) ((binunion X) Y))->((((in Xx) X)->Xphi)->((((in Xx) Y)->Xphi)->Xphi))))))))))
% Defined: binunionTE:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(((in Xx) ((binunion X) Y))->((((in Xx) X)->Xphi)->((((in Xx) Y)->Xphi)->Xphi)))))))))
% FOF formula (<kernel.Constant object at 0x221fab8>, <kernel.Sort object at 0x20d5f38>) of role type named binunionTEcontra_type
% Using role type
% Declaring binunionTEcontra:Prop
% FOF formula (((eq Prop) binunionTEcontra) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) X)->False)->((((in Xx) Y)->False)->(((in Xx) ((binunion X) Y))->False)))))))))) of role definition named binunionTEcontra
% A new definition: (((eq Prop) binunionTEcontra) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) X)->False)->((((in Xx) Y)->False)->(((in Xx) ((binunion X) Y))->False))))))))))
% Defined: binunionTEcontra:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) X)->False)->((((in Xx) Y)->False)->(((in Xx) ((binunion X) Y))->False)))))))))
% FOF formula (<kernel.Constant object at 0x221ff80>, <kernel.Sort object at 0x20d5f38>) of role type named demorgan2a1_type
% Using role type
% Declaring demorgan2a1:Prop
% FOF formula (((eq Prop) demorgan2a1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) X)))))))))) of role definition named demorgan2a1
% A new definition: (((eq Prop) demorgan2a1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) X))))))))))
% Defined: demorgan2a1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) X)))))))))
% FOF formula (<kernel.Constant object at 0x2222170>, <kernel.Sort object at 0x20d5f38>) of role type named complementUnionInPowersetComplement_type
% Using role type
% Declaring complementUnionInPowersetComplement:Prop
% FOF formula (((eq Prop) complementUnionInPowersetComplement) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) ((binunion X) Y))) (powerset ((setminus A) X)))))))) of role definition named complementUnionInPowersetComplement
% A new definition: (((eq Prop) complementUnionInPowersetComplement) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) ((binunion X) Y))) (powerset ((setminus A) X))))))))
% Defined: complementUnionInPowersetComplement:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) ((binunion X) Y))) (powerset ((setminus A) X)))))))
% FOF formula (<kernel.Constant object at 0x221fc20>, <kernel.Sort object at 0x20d5f38>) of role type named demorgan2a2_type
% Using role type
% Declaring demorgan2a2:Prop
% FOF formula (((eq Prop) demorgan2a2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) Y)))))))))) of role definition named demorgan2a2
% A new definition: (((eq Prop) demorgan2a2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) Y))))))))))
% Defined: demorgan2a2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) Y)))))))))
% FOF formula (<kernel.Constant object at 0x2222290>, <kernel.Sort object at 0x20d5f38>) of role type named demorgan1a_type
% Using role type
% Declaring demorgan1a:Prop
% FOF formula (((eq Prop) demorgan1a) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binintersect X) Y)))->((in Xx) ((binunion ((setminus A) X)) ((setminus A) Y))))))))))) of role definition named demorgan1a
% A new definition: (((eq Prop) demorgan1a) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binintersect X) Y)))->((in Xx) ((binunion ((setminus A) X)) ((setminus A) Y)))))))))))
% Defined: demorgan1a:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binintersect X) Y)))->((in Xx) ((binunion ((setminus A) X)) ((setminus A) Y))))))))))
% FOF formula (<kernel.Constant object at 0x2222758>, <kernel.Sort object at 0x20d5f38>) of role type named demorgan1b_type
% Using role type
% Declaring demorgan1b:Prop
% FOF formula (((eq Prop) demorgan1b) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binunion ((setminus A) X)) ((setminus A) Y)))->((in Xx) ((setminus A) ((binintersect X) Y))))))))))) of role definition named demorgan1b
% A new definition: (((eq Prop) demorgan1b) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binunion ((setminus A) X)) ((setminus A) Y)))->((in Xx) ((setminus A) ((binintersect X) Y)))))))))))
% Defined: demorgan1b:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binunion ((setminus A) X)) ((setminus A) Y)))->((in Xx) ((setminus A) ((binintersect X) Y))))))))))
% FOF formula (<kernel.Constant object at 0x2222320>, <kernel.Sort object at 0x20d5f38>) of role type named demorgan1_type
% Using role type
% Declaring demorgan1:Prop
% FOF formula (((eq Prop) demorgan1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((eq fofType) ((setminus A) ((binintersect X) Y))) ((binunion ((setminus A) X)) ((setminus A) Y)))))))) of role definition named demorgan1
% A new definition: (((eq Prop) demorgan1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((eq fofType) ((setminus A) ((binintersect X) Y))) ((binunion ((setminus A) X)) ((setminus A) Y))))))))
% Defined: demorgan1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((eq fofType) ((setminus A) ((binintersect X) Y))) ((binunion ((setminus A) X)) ((setminus A) Y)))))))
% FOF formula (<kernel.Constant object at 0x2222170>, <kernel.Sort object at 0x20d5f38>) of role type named demorgan2a_type
% Using role type
% Declaring demorgan2a:Prop
% FOF formula (((eq Prop) demorgan2a) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((binintersect ((setminus A) X)) ((setminus A) Y))))))))))) of role definition named demorgan2a
% A new definition: (((eq Prop) demorgan2a) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((binintersect ((setminus A) X)) ((setminus A) Y)))))))))))
% Defined: demorgan2a:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((binintersect ((setminus A) X)) ((setminus A) Y))))))))))
% FOF formula (<kernel.Constant object at 0x22228c0>, <kernel.Sort object at 0x20d5f38>) of role type named demorgan2b2_type
% Using role type
% Declaring demorgan2b2:Prop
% FOF formula (((eq Prop) demorgan2b2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->(((in Xx) ((setminus A) Y))->((in Xx) ((setminus A) ((binunion X) Y)))))))))))) of role definition named demorgan2b2
% A new definition: (((eq Prop) demorgan2b2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->(((in Xx) ((setminus A) Y))->((in Xx) ((setminus A) ((binunion X) Y))))))))))))
% Defined: demorgan2b2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->(((in Xx) ((setminus A) Y))->((in Xx) ((setminus A) ((binunion X) Y)))))))))))
% FOF formula (<kernel.Constant object at 0x2222638>, <kernel.Sort object at 0x20d5f38>) of role type named demorgan2b_type
% Using role type
% Declaring demorgan2b:Prop
% FOF formula (((eq Prop) demorgan2b) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect ((setminus A) X)) ((setminus A) Y)))->((in Xx) ((setminus A) ((binunion X) Y))))))))))) of role definition named demorgan2b
% A new definition: (((eq Prop) demorgan2b) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect ((setminus A) X)) ((setminus A) Y)))->((in Xx) ((setminus A) ((binunion X) Y)))))))))))
% Defined: demorgan2b:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect ((setminus A) X)) ((setminus A) Y)))->((in Xx) ((setminus A) ((binunion X) Y))))))))))
% FOF formula (<kernel.Constant object at 0x2222cb0>, <kernel.Sort object at 0x20d5f38>) of role type named demorgan2_type
% Using role type
% Declaring demorgan2:Prop
% FOF formula (((eq Prop) demorgan2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((eq fofType) ((setminus A) ((binunion X) Y))) ((binintersect ((setminus A) X)) ((setminus A) Y)))))))) of role definition named demorgan2
% A new definition: (((eq Prop) demorgan2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((eq fofType) ((setminus A) ((binunion X) Y))) ((binintersect ((setminus A) X)) ((setminus A) Y))))))))
% Defined: demorgan2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((eq fofType) ((setminus A) ((binunion X) Y))) ((binintersect ((setminus A) X)) ((setminus A) Y)))))))
% FOF formula (<kernel.Constant object at 0x22223b0>, <kernel.Sort object at 0x20d5f38>) of role type named woz13rule0_type
% Using role type
% Declaring woz13rule0:Prop
% FOF formula (((eq Prop) woz13rule0) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) ((binintersect X) Y))->((in Xx) A)))))))) of role definition named woz13rule0
% A new definition: (((eq Prop) woz13rule0) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) ((binintersect X) Y))->((in Xx) A))))))))
% Defined: woz13rule0:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) ((binintersect X) Y))->((in Xx) A)))))))
% FOF formula (<kernel.Constant object at 0x2222dd0>, <kernel.Sort object at 0x20d5f38>) of role type named woz13rule1_type
% Using role type
% Declaring woz13rule1:Prop
% FOF formula (((eq Prop) woz13rule1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset X) Z)->((subset ((binintersect X) Y)) Z))))))))) of role definition named woz13rule1
% A new definition: (((eq Prop) woz13rule1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset X) Z)->((subset ((binintersect X) Y)) Z)))))))))
% Defined: woz13rule1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset X) Z)->((subset ((binintersect X) Y)) Z))))))))
% FOF formula (<kernel.Constant object at 0x2222878>, <kernel.Sort object at 0x20d5f38>) of role type named woz13rule2_type
% Using role type
% Declaring woz13rule2:Prop
% FOF formula (((eq Prop) woz13rule2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset Y) Z)->((subset ((binintersect X) Y)) Z))))))))) of role definition named woz13rule2
% A new definition: (((eq Prop) woz13rule2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset Y) Z)->((subset ((binintersect X) Y)) Z)))))))))
% Defined: woz13rule2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset Y) Z)->((subset ((binintersect X) Y)) Z))))))))
% FOF formula (<kernel.Constant object at 0x2222e18>, <kernel.Sort object at 0x20d5f38>) of role type named woz13rule3_type
% Using role type
% Declaring woz13rule3:Prop
% FOF formula (((eq Prop) woz13rule3) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset X) Y)->(((subset X) Z)->((subset X) ((binintersect Y) Z))))))))))) of role definition named woz13rule3
% A new definition: (((eq Prop) woz13rule3) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset X) Y)->(((subset X) Z)->((subset X) ((binintersect Y) Z)))))))))))
% Defined: woz13rule3:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset X) Y)->(((subset X) Z)->((subset X) ((binintersect Y) Z))))))))))
% FOF formula (<kernel.Constant object at 0x2222710>, <kernel.Sort object at 0x20d5f38>) of role type named woz13rule4_type
% Using role type
% Declaring woz13rule4:Prop
% FOF formula (((eq Prop) woz13rule4) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (W:fofType), (((in W) (powerset A))->(((subset X) Z)->(((subset Y) W)->((subset ((binintersect X) Y)) ((binintersect Z) W))))))))))))) of role definition named woz13rule4
% A new definition: (((eq Prop) woz13rule4) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (W:fofType), (((in W) (powerset A))->(((subset X) Z)->(((subset Y) W)->((subset ((binintersect X) Y)) ((binintersect Z) W)))))))))))))
% Defined: woz13rule4:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (W:fofType), (((in W) (powerset A))->(((subset X) Z)->(((subset Y) W)->((subset ((binintersect X) Y)) ((binintersect Z) W))))))))))))
% FOF formula (<kernel.Constant object at 0x2222440>, <kernel.Sort object at 0x20d5f38>) of role type named woz1_1_type
% Using role type
% Declaring woz1_1:Prop
% FOF formula (((eq Prop) woz1_1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) X)) (powerset ((setminus A) ((binintersect X) Y))))))))) of role definition named woz1_1
% A new definition: (((eq Prop) woz1_1) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) X)) (powerset ((setminus A) ((binintersect X) Y)))))))))
% Defined: woz1_1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) X)) (powerset ((setminus A) ((binintersect X) Y))))))))
% FOF formula (<kernel.Constant object at 0x22222d8>, <kernel.Sort object at 0x20d5f38>) of role type named woz1_2_type
% Using role type
% Declaring woz1_2:Prop
% FOF formula (((eq Prop) woz1_2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (W:fofType), (((in W) (powerset A))->(((eq fofType) ((setminus A) ((binintersect ((binunion X) Y)) ((binunion Z) W)))) ((binunion ((binintersect ((setminus A) X)) ((setminus A) Y))) ((binintersect ((setminus A) Z)) ((setminus A) W))))))))))))) of role definition named woz1_2
% A new definition: (((eq Prop) woz1_2) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (W:fofType), (((in W) (powerset A))->(((eq fofType) ((setminus A) ((binintersect ((binunion X) Y)) ((binunion Z) W)))) ((binunion ((binintersect ((setminus A) X)) ((setminus A) Y))) ((binintersect ((setminus A) Z)) ((setminus A) W)))))))))))))
% Defined: woz1_2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (W:fofType), (((in W) (powerset A))->(((eq fofType) ((setminus A) ((binintersect ((binunion X) Y)) ((binunion Z) W)))) ((binunion ((binintersect ((setminus A) X)) ((setminus A) Y))) ((binintersect ((setminus A) Z)) ((setminus A) W))))))))))))
% FOF formula (<kernel.Constant object at 0x2222c20>, <kernel.Sort object at 0x20d5f38>) of role type named woz1_3_type
% Using role type
% Declaring woz1_3:Prop
% FOF formula (((eq Prop) woz1_3) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->((in ((binintersect X) Y)) (powerset ((binintersect ((binunion X) Z)) ((binunion Y) Z))))))))))) of role definition named woz1_3
% A new definition: (((eq Prop) woz1_3) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->((in ((binintersect X) Y)) (powerset ((binintersect ((binunion X) Z)) ((binunion Y) Z)))))))))))
% Defined: woz1_3:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->((in ((binintersect X) Y)) (powerset ((binintersect ((binunion X) Z)) ((binunion Y) Z))))))))))
% FOF formula (<kernel.Constant object at 0x2222d40>, <kernel.Sort object at 0x20d5f38>) of role type named woz1_4_type
% Using role type
% Declaring woz1_4:Prop
% FOF formula (((eq Prop) woz1_4) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->((subset Y) ((setminus A) X)))))))) of role definition named woz1_4
% A new definition: (((eq Prop) woz1_4) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->((subset Y) ((setminus A) X))))))))
% Defined: woz1_4:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->((subset Y) ((setminus A) X)))))))
% FOF formula (<kernel.Constant object at 0x22225a8>, <kernel.Sort object at 0x20d5f38>) of role type named woz1_5_type
% Using role type
% Declaring woz1_5:Prop
% FOF formula (((eq Prop) woz1_5) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) ((binunion X) Y))) (powerset ((setminus A) X)))))))) of role definition named woz1_5
% A new definition: (((eq Prop) woz1_5) (forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) ((binunion X) Y))) (powerset ((setminus A) X))))))))
% Defined: woz1_5:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) ((binunion X) Y))) (powerset ((setminus A) X)))))))
% FOF formula (<kernel.Constant object at 0x2222248>, <kernel.DependentProduct object at 0x2222ab8>) of role type named breln1_type
% Using role type
% Declaring breln1:(fofType->(fofType->Prop))
% FOF formula (<kernel.Constant object at 0x2222950>, <kernel.Sort object at 0x20d5f38>) of role type named breln1all2_type
% Using role type
% Declaring breln1all2:Prop
% FOF formula (((eq Prop) breln1all2) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx)))))))) of role definition named breln1all2
% A new definition: (((eq Prop) breln1all2) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx))))))))
% Defined: breln1all2:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx)))))))
% FOF formula (<kernel.Constant object at 0x22225a8>, <kernel.DependentProduct object at 0x2222a28>) of role type named breln1Set_type
% Using role type
% Declaring breln1Set:(fofType->fofType)
% FOF formula (<kernel.Constant object at 0x2222248>, <kernel.Sort object at 0x20d5f38>) of role type named breln1SetBreln1_type
% Using role type
% Declaring breln1SetBreln1:Prop
% FOF formula (((eq Prop) breln1SetBreln1) (forall (A:fofType) (R:fofType), (((in R) (breln1Set A))->((breln1 A) R)))) of role definition named breln1SetBreln1
% A new definition: (((eq Prop) breln1SetBreln1) (forall (A:fofType) (R:fofType), (((in R) (breln1Set A))->((breln1 A) R))))
% Defined: breln1SetBreln1:=(forall (A:fofType) (R:fofType), (((in R) (breln1Set A))->((breln1 A) R)))
% FOF formula (<kernel.Constant object at 0x2222950>, <kernel.DependentProduct object at 0x2222ef0>) of role type named transitive_type
% Using role type
% Declaring transitive:(fofType->(fofType->Prop))
% FOF formula (<kernel.Constant object at 0x22225a8>, <kernel.DependentProduct object at 0x2222998>) of role type named antisymmetric_type
% Using role type
% Declaring antisymmetric:(fofType->(fofType->Prop))
% FOF formula (<kernel.Constant object at 0x2222248>, <kernel.DependentProduct object at 0x2222950>) of role type named reflexive_type
% Using role type
% Declaring reflexive:(fofType->(fofType->Prop))
% FOF formula (<kernel.Constant object at 0x2222908>, <kernel.DependentProduct object at 0x22225a8>) of role type named refltransitive_type
% Using role type
% Declaring refltransitive:(fofType->(fofType->Prop))
% FOF formula (<kernel.Constant object at 0x2222c68>, <kernel.DependentProduct object at 0x2222248>) of role type named refllinearorder_type
% Using role type
% Declaring refllinearorder:(fofType->(fofType->Prop))
% FOF formula (<kernel.Constant object at 0x2222ef0>, <kernel.DependentProduct object at 0x2225248>) of role type named reflwellordering_type
% Using role type
% Declaring reflwellordering:(fofType->(fofType->Prop))
% FOF formula (<kernel.Constant object at 0x2222998>, <kernel.Sort object at 0x20d5f38>) of role type named choice2fnsingleton_type
% Using role type
% Declaring choice2fnsingleton:Prop
% FOF formula (((eq Prop) choice2fnsingleton) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), ((forall (Xx:fofType), (((in Xx) A)->((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) B)) ((Xphi Xx) Xy))))))->(forall (R:fofType), (((in R) (breln1Set B))->(((reflwellordering B) R)->(forall (Xx:fofType), (((in Xx) A)->(singleton ((dsetconstr B) (fun (Xy:fofType)=> ((and ((Xphi Xx) Xy)) (forall (Xz:fofType), (((in Xz) B)->(((Xphi Xx) Xz)->((in ((kpair Xy) Xz)) R)))))))))))))))) of role definition named choice2fnsingleton
% A new definition: (((eq Prop) choice2fnsingleton) (forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), ((forall (Xx:fofType), (((in Xx) A)->((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) B)) ((Xphi Xx) Xy))))))->(forall (R:fofType), (((in R) (breln1Set B))->(((reflwellordering B) R)->(forall (Xx:fofType), (((in Xx) A)->(singleton ((dsetconstr B) (fun (Xy:fofType)=> ((and ((Xphi Xx) Xy)) (forall (Xz:fofType), (((in Xz) B)->(((Xphi Xx) Xz)->((in ((kpair Xy) Xz)) R))))))))))))))))
% Defined: choice2fnsingleton:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), ((forall (Xx:fofType), (((in Xx) A)->((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) B)) ((Xphi Xx) Xy))))))->(forall (R:fofType), (((in R) (breln1Set B))->(((reflwellordering B) R)->(forall (Xx:fofType), (((in Xx) A)->(singleton ((dsetconstr B) (fun (Xy:fofType)=> ((and ((Xphi Xx) Xy)) (forall (Xz:fofType), (((in Xz) B)->(((Xphi Xx) Xz)->((in ((kpair Xy) Xz)) R)))))))))))))))
% FOF formula (<kernel.Constant object at 0x2222248>, <kernel.Sort object at 0x20d5f38>) of role type named setOfPairsIsBReln1_type
% Using role type
% Declaring setOfPairsIsBReln1:Prop
% FOF formula (((eq Prop) setOfPairsIsBReln1) (forall (A:fofType) (Xphi:(fofType->(fofType->Prop))), ((breln1 A) (((dpsetconstr A) A) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy)))))) of role definition named setOfPairsIsBReln1
% A new definition: (((eq Prop) setOfPairsIsBReln1) (forall (A:fofType) (Xphi:(fofType->(fofType->Prop))), ((breln1 A) (((dpsetconstr A) A) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy))))))
% Defined: setOfPairsIsBReln1:=(forall (A:fofType) (Xphi:(fofType->(fofType->Prop))), ((breln1 A) (((dpsetconstr A) A) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy)))))
% FOF formula (<kernel.Constant object at 0x2222248>, <kernel.Sort object at 0x20d5f38>) of role type named breln1all1_type
% Using role type
% Declaring breln1all1:Prop
% FOF formula (((eq Prop) breln1all1) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx)))))))) of role definition named breln1all1
% A new definition: (((eq Prop) breln1all1) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx))))))))
% Defined: breln1all1:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx)))))))
% FOF formula (<kernel.Constant object at 0x2222248>, <kernel.Sort object at 0x20d5f38>) of role type named subbreln1_type
% Using role type
% Declaring subbreln1:Prop
% FOF formula (((eq Prop) subbreln1) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((subset R) S))))))) of role definition named subbreln1
% A new definition: (((eq Prop) subbreln1) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((subset R) S)))))))
% Defined: subbreln1:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((subset R) S))))))
% FOF formula (<kernel.Constant object at 0x2228098>, <kernel.Sort object at 0x20d5f38>) of role type named eqbreln1_type
% Using role type
% Declaring eqbreln1:Prop
% FOF formula (((eq Prop) eqbreln1) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) R))))))->(((eq fofType) R) S)))))))) of role definition named eqbreln1
% A new definition: (((eq Prop) eqbreln1) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) R))))))->(((eq fofType) R) S))))))))
% Defined: eqbreln1:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) R))))))->(((eq fofType) R) S)))))))
% FOF formula (<kernel.Constant object at 0x2228200>, <kernel.DependentProduct object at 0x22282d8>) of role type named breln1invset_type
% Using role type
% Declaring breln1invset:(fofType->(fofType->fofType))
% FOF formula (<kernel.Constant object at 0x22281b8>, <kernel.Sort object at 0x20d5f38>) of role type named breln1invprop_type
% Using role type
% Declaring breln1invprop:Prop
% FOF formula (((eq Prop) breln1invprop) (forall (A:fofType) (R:fofType), (((breln1 A) R)->((breln1 A) ((breln1invset A) R))))) of role definition named breln1invprop
% A new definition: (((eq Prop) breln1invprop) (forall (A:fofType) (R:fofType), (((breln1 A) R)->((breln1 A) ((breln1invset A) R)))))
% Defined: breln1invprop:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->((breln1 A) ((breln1invset A) R))))
% FOF formula (<kernel.Constant object at 0x2228098>, <kernel.Sort object at 0x20d5f38>) of role type named breln1invI_type
% Using role type
% Declaring breln1invI:Prop
% FOF formula (((eq Prop) breln1invI) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xy) Xx)) ((breln1invset A) R)))))))))) of role definition named breln1invI
% A new definition: (((eq Prop) breln1invI) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xy) Xx)) ((breln1invset A) R))))))))))
% Defined: breln1invI:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xy) Xx)) ((breln1invset A) R)))))))))
% FOF formula (<kernel.Constant object at 0x2228200>, <kernel.Sort object at 0x20d5f38>) of role type named breln1invE_type
% Using role type
% Declaring breln1invE:Prop
% FOF formula (((eq Prop) breln1invE) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xy) Xx)) ((breln1invset A) R))->((in ((kpair Xx) Xy)) R))))))))) of role definition named breln1invE
% A new definition: (((eq Prop) breln1invE) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xy) Xx)) ((breln1invset A) R))->((in ((kpair Xx) Xy)) R)))))))))
% Defined: breln1invE:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xy) Xx)) ((breln1invset A) R))->((in ((kpair Xx) Xy)) R))))))))
% FOF formula (<kernel.Constant object at 0x2228560>, <kernel.DependentProduct object at 0x2228290>) of role type named breln1compset_type
% Using role type
% Declaring breln1compset:(fofType->(fofType->(fofType->fofType)))
% FOF formula (<kernel.Constant object at 0x2228a28>, <kernel.Sort object at 0x20d5f38>) of role type named breln1compprop_type
% Using role type
% Declaring breln1compprop:Prop
% FOF formula (((eq Prop) breln1compprop) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((breln1 A) (((breln1compset A) R) S))))))) of role definition named breln1compprop
% A new definition: (((eq Prop) breln1compprop) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((breln1 A) (((breln1compset A) R) S)))))))
% Defined: breln1compprop:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((breln1 A) (((breln1compset A) R) S))))))
% FOF formula (<kernel.Constant object at 0x2228710>, <kernel.Sort object at 0x20d5f38>) of role type named breln1compI_type
% Using role type
% Declaring breln1compI:Prop
% FOF formula (((eq Prop) breln1compI) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(forall (Xz:fofType), (((in Xz) A)->(((in ((kpair Xx) Xz)) R)->(((in ((kpair Xz) Xy)) S)->((in ((kpair Xx) Xy)) (((breln1compset A) R) S))))))))))))))) of role definition named breln1compI
% A new definition: (((eq Prop) breln1compI) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(forall (Xz:fofType), (((in Xz) A)->(((in ((kpair Xx) Xz)) R)->(((in ((kpair Xz) Xy)) S)->((in ((kpair Xx) Xy)) (((breln1compset A) R) S)))))))))))))))
% Defined: breln1compI:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(forall (Xz:fofType), (((in Xz) A)->(((in ((kpair Xx) Xz)) R)->(((in ((kpair Xz) Xy)) S)->((in ((kpair Xx) Xy)) (((breln1compset A) R) S))))))))))))))
% FOF formula (<kernel.Constant object at 0x2228440>, <kernel.Sort object at 0x20d5f38>) of role type named breln1compE_type
% Using role type
% Declaring breln1compE:Prop
% FOF formula (((eq Prop) breln1compE) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) (((breln1compset A) R) S))->((ex fofType) (fun (Xz:fofType)=> ((and ((and ((in Xz) A)) ((in ((kpair Xx) Xz)) R))) ((in ((kpair Xz) Xy)) S)))))))))))))) of role definition named breln1compE
% A new definition: (((eq Prop) breln1compE) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) (((breln1compset A) R) S))->((ex fofType) (fun (Xz:fofType)=> ((and ((and ((in Xz) A)) ((in ((kpair Xx) Xz)) R))) ((in ((kpair Xz) Xy)) S))))))))))))))
% Defined: breln1compE:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) (((breln1compset A) R) S))->((ex fofType) (fun (Xz:fofType)=> ((and ((and ((in Xz) A)) ((in ((kpair Xx) Xz)) R))) ((in ((kpair Xz) Xy)) S)))))))))))))
% FOF formula (<kernel.Constant object at 0x2228758>, <kernel.Sort object at 0x20d5f38>) of role type named breln1compEex_type
% Using role type
% Declaring breln1compEex:Prop
% FOF formula (((eq Prop) breln1compEex) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) (((breln1compset A) R) S))->(forall (Xphi:Prop), ((forall (Xz:fofType), (((in Xz) A)->(((in ((kpair Xx) Xz)) R)->(((in ((kpair Xz) Xy)) S)->Xphi))))->Xphi)))))))))))) of role definition named breln1compEex
% A new definition: (((eq Prop) breln1compEex) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) (((breln1compset A) R) S))->(forall (Xphi:Prop), ((forall (Xz:fofType), (((in Xz) A)->(((in ((kpair Xx) Xz)) R)->(((in ((kpair Xz) Xy)) S)->Xphi))))->Xphi))))))))))))
% Defined: breln1compEex:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) (((breln1compset A) R) S))->(forall (Xphi:Prop), ((forall (Xz:fofType), (((in Xz) A)->(((in ((kpair Xx) Xz)) R)->(((in ((kpair Xz) Xy)) S)->Xphi))))->Xphi)))))))))))
% FOF formula (<kernel.Constant object at 0x2228560>, <kernel.Sort object at 0x20d5f38>) of role type named breln1unionprop_type
% Using role type
% Declaring breln1unionprop:Prop
% FOF formula (((eq Prop) breln1unionprop) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((breln1 A) ((binunion R) S))))))) of role definition named breln1unionprop
% A new definition: (((eq Prop) breln1unionprop) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((breln1 A) ((binunion R) S)))))))
% Defined: breln1unionprop:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((breln1 A) ((binunion R) S))))))
% FOF formula (<kernel.Constant object at 0x2228d40>, <kernel.Sort object at 0x20d5f38>) of role type named breln1unionIL_type
% Using role type
% Declaring breln1unionIL:Prop
% FOF formula (((eq Prop) breln1unionIL) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) ((binunion R) S)))))))))))) of role definition named breln1unionIL
% A new definition: (((eq Prop) breln1unionIL) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) ((binunion R) S))))))))))))
% Defined: breln1unionIL:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) ((binunion R) S)))))))))))
% FOF formula (<kernel.Constant object at 0x22285a8>, <kernel.Sort object at 0x20d5f38>) of role type named breln1unionIR_type
% Using role type
% Declaring breln1unionIR:Prop
% FOF formula (((eq Prop) breln1unionIR) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) ((binunion R) S)))))))))))) of role definition named breln1unionIR
% A new definition: (((eq Prop) breln1unionIR) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) ((binunion R) S))))))))))))
% Defined: breln1unionIR:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) ((binunion R) S)))))))))))
% FOF formula (<kernel.Constant object at 0x2228f38>, <kernel.Sort object at 0x20d5f38>) of role type named breln1unionI_type
% Using role type
% Declaring breln1unionI:Prop
% FOF formula (((eq Prop) breln1unionI) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((or ((in ((kpair Xx) Xy)) R)) ((in ((kpair Xx) Xy)) S))->((in ((kpair Xx) Xy)) ((binunion R) S)))))))))))) of role definition named breln1unionI
% A new definition: (((eq Prop) breln1unionI) (forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((or ((in ((kpair Xx) Xy)) R)) ((in ((kpair Xx) Xy)) S))->((in ((kpair Xx) Xy)) ((binunion R) S))))))))))))
% Defined: breln1unionI:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((or ((in ((kpair Xx) Xy)) R)) ((in ((kpair Xx) Xy)) S))->((in ((kpair Xx) Xy)) ((binunion R) S)))))))))))
% FOF formula (setextAx->(emptysetAx->(setadjoinAx->(powersetAx->(setunionAx->(omega0Ax->(omegaSAx->(omegaIndAx->(replAx->(foundationAx->(wellorderingAx->(descrp->(dsetconstrI->(dsetconstrEL->(dsetconstrER->(exuE1->(prop2setE->(emptysetE->(emptysetimpfalse->(notinemptyset->(exuE3e->(setext->(emptyI->(noeltsimpempty->(setbeta->(nonemptyE1->(nonemptyI->(nonemptyI1->(setadjoinIL->(emptyinunitempty->(setadjoinIR->(setadjoinE->(setadjoinOr->(setoftrueEq->(powersetI->(emptyinPowerset->(emptyInPowerset->(powersetE->(setunionI->(setunionE->(subPowSU->(exuE2->(nonemptyImpWitness->(uniqinunit->(notinsingleton->(eqinunit->(singletonsswitch->(upairsetE->(upairsetIL->(upairsetIR->(emptyE1->(vacuousDall->(quantDeMorgan1->(quantDeMorgan2->(quantDeMorgan3->(quantDeMorgan4->(prop2setI->(prop2set2propI->(notdexE->(notdallE->(exuI1->(exuI3->(exuI2->(inCongP->(in__Cong->(exuE3u->(exu__Cong->(emptyset__Cong->(setadjoin__Cong->(powerset__Cong->(setunion__Cong->(omega__Cong->(exuEu->(descr__Cong->(dsetconstr__Cong->(subsetI1->(eqimpsubset2->(eqimpsubset1->(subsetI2->(emptysetsubset->(subsetE->(subsetE2->(notsubsetI->(notequalI1->(notequalI2->(subsetRefl->(subsetTrans->(setadjoinSub->(setadjoinSub2->(subset2powerset->(setextsub->(subsetemptysetimpeq->(powersetI1->(powersetE1->(inPowerset->(powersetsubset->(sepInPowerset->(sepSubset->(binunionIL->(upairset2IR->(binunionIR->(binunionEcases->(binunionE->(binunionLsub->(binunionRsub->(binintersectI->(binintersectSubset5->(binintersectEL->(binintersectLsub->(binintersectSubset2->(binintersectSubset3->(binintersectER->(disjointsetsI1->(binintersectRsub->(binintersectSubset4->(binintersectSubset1->(bs114d->(setminusI->(setminusEL->(setminusER->(setminusSubset2->(setminusERneg->(setminusELneg->(setminusILneg->(setminusIRneg->(setminusLsub->(setminusSubset1->(symdiffE->(symdiffI1->(symdiffI2->(symdiffIneg1->(symdiffIneg2->(secondinupair->(setukpairIL->(setukpairIR->(kpairiskpair->(kpairp->(singletonsubset->(singletoninpowerset->(singletoninpowunion->(upairset2E->(upairsubunion->(upairinpowunion->(ubforcartprodlem1->(ubforcartprodlem2->(ubforcartprodlem3->(cartprodpairin->(cartprodmempair1->(cartprodmempair->(setunionE2->(setunionsingleton1->(setunionsingleton2->(setunionsingleton->(singletonprop->(ex1E1->(ex1I->(ex1I2->(singletonsuniq->(setukpairinjL1->(kfstsingleton->(theprop->(kfstpairEq->(cartprodfstin->(setukpairinjL2->(setukpairinjL->(setukpairinjR11->(setukpairinjR12->(setukpairinjR1->(upairequniteq->(setukpairinjR2->(setukpairinjR->(ksndsingleton->(ksndpairEq->(kpairsurjEq->(cartprodsndin->(cartprodpairmemEL->(cartprodpairmemER->(cartprodmempaircEq->(cartprodfstpairEq->(cartprodsndpairEq->(cartprodpairsurjEq->(dpsetconstrI->(dpsetconstrSub->(setOfPairsIsBReln->(dpsetconstrERa->(dpsetconstrEL1->(dpsetconstrEL2->(dpsetconstrER->(funcImageSingleton->(apProp->(app->(infuncsetfunc->(ap2p->(funcinfuncset->(lamProp->(lamp->(lam2p->(brelnall1->(brelnall2->(ex1E2->(funcGraphProp1->(funcGraphProp3->(funcGraphProp2->(funcextLem->(funcGraphProp4->(subbreln->(eqbreln->(funcext->(funcext2->(ap2apEq1->(ap2apEq2->(beta1->(eta1->(lam2lamEq->(beta2->(eta2->(iffalseProp1->(iffalseProp2->(iftrueProp1->(iftrueProp2->(ifSingleton->(ifp->(theeq->(iftrue->(iffalse->(iftrueorfalse->(binintersectT_lem->(binunionT_lem->(powersetT_lem->(setminusT_lem->(complementT_lem->(setextT->(subsetTI->(powersetTI1->(powersetTE1->(complementTI1->(complementTE1->(binintersectTELcontra->(binintersectTERcontra->(contrasubsetT->(contrasubsetT1->(contrasubsetT2->(contrasubsetT3->(doubleComplementI1->(doubleComplementE1->(doubleComplementSub1->(doubleComplementSub2->(doubleComplementEq->(complementTnotintersectT->(complementImpComplementIntersect->(complementSubsetComplementIntersect->(complementInPowersetComplementIntersect->(contraSubsetComplement->(complementTcontraSubset->(binunionTILcontra->(binunionTIRcontra->(inIntersectImpInUnion->(inIntersectImpInUnion2->(inIntersectImpInIntersectUnions->(intersectInPowersetIntersectUnions->(inComplementUnionImpNotIn1->(inComplementUnionImpInComplement1->(binunionTE->(binunionTEcontra->(demorgan2a1->(complementUnionInPowersetComplement->(demorgan2a2->(demorgan1a->(demorgan1b->(demorgan1->(demorgan2a->(demorgan2b2->(demorgan2b->(demorgan2->(woz13rule0->(woz13rule1->(woz13rule2->(woz13rule3->(woz13rule4->(woz1_1->(woz1_2->(woz1_3->(woz1_4->(woz1_5->(breln1all2->(breln1SetBreln1->(choice2fnsingleton->(setOfPairsIsBReln1->(breln1all1->(subbreln1->(eqbreln1->(breln1invprop->(breln1invI->(breln1invE->(breln1compprop->(breln1compI->(breln1compE->(breln1compEex->(breln1unionprop->(breln1unionIL->(breln1unionIR->(breln1unionI->(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) ((binunion R) S))->((or ((in ((kpair Xx) Xy)) R)) ((in ((kpair Xx) Xy)) S))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) of role conjecture named breln1unionE
% Conjecture to prove = (setextAx->(emptysetAx->(setadjoinAx->(powersetAx->(setunionAx->(omega0Ax->(omegaSAx->(omegaIndAx->(replAx->(foundationAx->(wellorderingAx->(descrp->(dsetconstrI->(dsetconstrEL->(dsetconstrER->(exuE1->(prop2setE->(emptysetE->(emptysetimpfalse->(notinemptyset->(exuE3e->(setext->(emptyI->(noeltsimpempty->(setbeta->(nonemptyE1->(nonemptyI->(nonemptyI1->(setadjoinIL->(emptyinunitempty->(setadjoinIR->(setadjoinE->(setadjoinOr->(setoftrueEq->(powersetI->(emptyinPowerset->(emptyInPowerset->(powersetE->(setunionI->(setunionE->(subPowSU->(exuE2->(nonemptyImpWitness->(uniqinunit->(notinsingleton->(eqinunit->(singletonsswitch->(upairsetE->(upairsetIL->(upairsetIR->(emptyE1->(vacuousDall->(quantDeMorgan1->(quantDeMorgan2->(quantDeMorgan3->(quantDeMorgan4->(prop2setI->(prop2set2propI->(notdexE->(notdallE->(exuI1->(exuI3->(exuI2->(inCongP->(in__Cong->(exuE3u->(exu__Cong->(emptyset__Cong->(setadjoin__Cong->(powerset__Cong->(setunion__Cong->(omega__Cong->(exuEu->(descr__Cong->(dsetconstr__Cong->(subsetI1->(eqimpsubset2->(eqimpsubset1->(subsetI2->(emptysetsubset->(subsetE->(subsetE2->(notsubsetI->(notequalI1->(notequalI2->(subsetRefl->(subsetTrans->(setadjoinSub->(setadjoinSub2->(subset2powerset->(setextsub->(subsetemptysetimpeq->(powersetI1->(powersetE1->(inPowerset->(powersetsubset->(sepInPowerset->(sepSubset->(binunionIL->(upairset2IR->(binunionIR->(binunionEcases->(binunionE->(binunionLsub->(binunionRsub->(binintersectI->(binintersectSubset5->(binintersectEL->(binintersectLsub->(binintersectSubset2->(binintersectSubset3->(binintersectER->(disjointsetsI1->(binintersectRsub->(binintersectSubset4->(binintersectSubset1->(bs114d->(setminusI->(setminusEL->(setminusER->(setminusSubset2->(setminusERneg->(setminusELneg->(setminusILneg->(setminusIRneg->(setminusLsub->(setminusSubset1->(symdiffE->(symdiffI1->(symdiffI2->(symdiffIneg1->(symdiffIneg2->(secondinupair->(setukpairIL->(setukpairIR->(kpairiskpair->(kpairp->(singletonsubset->(singletoninpowerset->(singletoninpowunion->(upairset2E->(upairsubunion->(upairinpowunion->(ubforcartprodlem1->(ubforcartprodlem2->(ubforcartprodlem3->(cartprodpairin->(cartprodmempair1->(cartprodmempair->(setunionE2->(setunionsingleton1->(setunionsingleton2->(setunionsingleton->(singletonprop->(ex1E1->(ex1I->(ex1I2->(singletonsuniq->(setukpairinjL1->(kfstsingleton->(theprop->(kfstpairEq->(cartprodfstin->(setukpairinjL2->(setukpairinjL->(setukpairinjR11->(setukpairinjR12->(setukpairinjR1->(upairequniteq->(setukpairinjR2->(setukpairinjR->(ksndsingleton->(ksndpairEq->(kpairsurjEq->(cartprodsndin->(cartprodpairmemEL->(cartprodpairmemER->(cartprodmempaircEq->(cartprodfstpairEq->(cartprodsndpairEq->(cartprodpairsurjEq->(dpsetconstrI->(dpsetconstrSub->(setOfPairsIsBReln->(dpsetconstrERa->(dpsetconstrEL1->(dpsetconstrEL2->(dpsetconstrER->(funcImageSingleton->(apProp->(app->(infuncsetfunc->(ap2p->(funcinfuncset->(lamProp->(lamp->(lam2p->(brelnall1->(brelnall2->(ex1E2->(funcGraphProp1->(funcGraphProp3->(funcGraphProp2->(funcextLem->(funcGraphProp4->(subbreln->(eqbreln->(funcext->(funcext2->(ap2apEq1->(ap2apEq2->(beta1->(eta1->(lam2lamEq->(beta2->(eta2->(iffalseProp1->(iffalseProp2->(iftrueProp1->(iftrueProp2->(ifSingleton->(ifp->(theeq->(iftrue->(iffalse->(iftrueorfalse->(binintersectT_lem->(binunionT_lem->(powersetT_lem->(setminusT_lem->(complementT_lem->(setextT->(subsetTI->(powersetTI1->(powersetTE1->(complementTI1->(complementTE1->(binintersectTELcontra->(binintersectTERcontra->(contrasubsetT->(contrasubsetT1->(contrasubsetT2->(contrasubsetT3->(doubleComplementI1->(doubleComplementE1->(doubleComplementSub1->(doubleComplementSub2->(doubleComplementEq->(complementTnotintersectT->(complementImpComplementIntersect->(complementSubsetComplementIntersect->(complementInPowersetComplementIntersect->(contraSubsetComplement->(complementTcontraSubset->(binunionTILcontra->(binunionTIRcontra->(inIntersectImpInUnion->(inIntersectImpInUnion2->(inIntersectImpInIntersectUnions->(intersectInPowersetIntersectUnions->(inComplementUnionImpNotIn1->(inComplementUnionImpInComplement1->(binunionTE->(binunionTEcontra->(demorgan2a1->(complementUnionInPowersetComplement->(demorgan2a2->(demorgan1a->(demorgan1b->(demorgan1->(demorgan2a->(demorgan2b2->(demorgan2b->(demorgan2->(woz13rule0->(woz13rule1->(woz13rule2->(woz13rule3->(woz13rule4->(woz1_1->(woz1_2->(woz1_3->(woz1_4->(woz1_5->(breln1all2->(breln1SetBreln1->(choice2fnsingleton->(setOfPairsIsBReln1->(breln1all1->(subbreln1->(eqbreln1->(breln1invprop->(breln1invI->(breln1invE->(breln1compprop->(breln1compI->(breln1compE->(breln1compEex->(breln1unionprop->(breln1unionIL->(breln1unionIR->(breln1unionI->(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) ((binunion R) S))->((or ((in ((kpair Xx) Xy)) R)) ((in ((kpair Xx) Xy)) S))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))):Prop
% We need to prove ['(setextAx->(emptysetAx->(setadjoinAx->(powersetAx->(setunionAx->(omega0Ax->(omegaSAx->(omegaIndAx->(replAx->(foundationAx->(wellorderingAx->(descrp->(dsetconstrI->(dsetconstrEL->(dsetconstrER->(exuE1->(prop2setE->(emptysetE->(emptysetimpfalse->(notinemptyset->(exuE3e->(setext->(emptyI->(noeltsimpempty->(setbeta->(nonemptyE1->(nonemptyI->(nonemptyI1->(setadjoinIL->(emptyinunitempty->(setadjoinIR->(setadjoinE->(setadjoinOr->(setoftrueEq->(powersetI->(emptyinPowerset->(emptyInPowerset->(powersetE->(setunionI->(setunionE->(subPowSU->(exuE2->(nonemptyImpWitness->(uniqinunit->(notinsingleton->(eqinunit->(singletonsswitch->(upairsetE->(upairsetIL->(upairsetIR->(emptyE1->(vacuousDall->(quantDeMorgan1->(quantDeMorgan2->(quantDeMorgan3->(quantDeMorgan4->(prop2setI->(prop2set2propI->(notdexE->(notdallE->(exuI1->(exuI3->(exuI2->(inCongP->(in__Cong->(exuE3u->(exu__Cong->(emptyset__Cong->(setadjoin__Cong->(powerset__Cong->(setunion__Cong->(omega__Cong->(exuEu->(descr__Cong->(dsetconstr__Cong->(subsetI1->(eqimpsubset2->(eqimpsubset1->(subsetI2->(emptysetsubset->(subsetE->(subsetE2->(notsubsetI->(notequalI1->(notequalI2->(subsetRefl->(subsetTrans->(setadjoinSub->(setadjoinSub2->(subset2powerset->(setextsub->(subsetemptysetimpeq->(powersetI1->(powersetE1->(inPowerset->(powersetsubset->(sepInPowerset->(sepSubset->(binunionIL->(upairset2IR->(binunionIR->(binunionEcases->(binunionE->(binunionLsub->(binunionRsub->(binintersectI->(binintersectSubset5->(binintersectEL->(binintersectLsub->(binintersectSubset2->(binintersectSubset3->(binintersectER->(disjointsetsI1->(binintersectRsub->(binintersectSubset4->(binintersectSubset1->(bs114d->(setminusI->(setminusEL->(setminusER->(setminusSubset2->(setminusERneg->(setminusELneg->(setminusILneg->(setminusIRneg->(setminusLsub->(setminusSubset1->(symdiffE->(symdiffI1->(symdiffI2->(symdiffIneg1->(symdiffIneg2->(secondinupair->(setukpairIL->(setukpairIR->(kpairiskpair->(kpairp->(singletonsubset->(singletoninpowerset->(singletoninpowunion->(upairset2E->(upairsubunion->(upairinpowunion->(ubforcartprodlem1->(ubforcartprodlem2->(ubforcartprodlem3->(cartprodpairin->(cartprodmempair1->(cartprodmempair->(setunionE2->(setunionsingleton1->(setunionsingleton2->(setunionsingleton->(singletonprop->(ex1E1->(ex1I->(ex1I2->(singletonsuniq->(setukpairinjL1->(kfstsingleton->(theprop->(kfstpairEq->(cartprodfstin->(setukpairinjL2->(setukpairinjL->(setukpairinjR11->(setukpairinjR12->(setukpairinjR1->(upairequniteq->(setukpairinjR2->(setukpairinjR->(ksndsingleton->(ksndpairEq->(kpairsurjEq->(cartprodsndin->(cartprodpairmemEL->(cartprodpairmemER->(cartprodmempaircEq->(cartprodfstpairEq->(cartprodsndpairEq->(cartprodpairsurjEq->(dpsetconstrI->(dpsetconstrSub->(setOfPairsIsBReln->(dpsetconstrERa->(dpsetconstrEL1->(dpsetconstrEL2->(dpsetconstrER->(funcImageSingleton->(apProp->(app->(infuncsetfunc->(ap2p->(funcinfuncset->(lamProp->(lamp->(lam2p->(brelnall1->(brelnall2->(ex1E2->(funcGraphProp1->(funcGraphProp3->(funcGraphProp2->(funcextLem->(funcGraphProp4->(subbreln->(eqbreln->(funcext->(funcext2->(ap2apEq1->(ap2apEq2->(beta1->(eta1->(lam2lamEq->(beta2->(eta2->(iffalseProp1->(iffalseProp2->(iftrueProp1->(iftrueProp2->(ifSingleton->(ifp->(theeq->(iftrue->(iffalse->(iftrueorfalse->(binintersectT_lem->(binunionT_lem->(powersetT_lem->(setminusT_lem->(complementT_lem->(setextT->(subsetTI->(powersetTI1->(powersetTE1->(complementTI1->(complementTE1->(binintersectTELcontra->(binintersectTERcontra->(contrasubsetT->(contrasubsetT1->(contrasubsetT2->(contrasubsetT3->(doubleComplementI1->(doubleComplementE1->(doubleComplementSub1->(doubleComplementSub2->(doubleComplementEq->(complementTnotintersectT->(complementImpComplementIntersect->(complementSubsetComplementIntersect->(complementInPowersetComplementIntersect->(contraSubsetComplement->(complementTcontraSubset->(binunionTILcontra->(binunionTIRcontra->(inIntersectImpInUnion->(inIntersectImpInUnion2->(inIntersectImpInIntersectUnions->(intersectInPowersetIntersectUnions->(inComplementUnionImpNotIn1->(inComplementUnionImpInComplement1->(binunionTE->(binunionTEcontra->(demorgan2a1->(complementUnionInPowersetComplement->(demorgan2a2->(demorgan1a->(demorgan1b->(demorgan1->(demorgan2a->(demorgan2b2->(demorgan2b->(demorgan2->(woz13rule0->(woz13rule1->(woz13rule2->(woz13rule3->(woz13rule4->(woz1_1->(woz1_2->(woz1_3->(woz1_4->(woz1_5->(breln1all2->(breln1SetBreln1->(choice2fnsingleton->(setOfPairsIsBReln1->(breln1all1->(subbreln1->(eqbreln1->(breln1invprop->(breln1invI->(breln1invE->(breln1compprop->(breln1compI->(breln1compE->(breln1compEex->(breln1unionprop->(breln1unionIL->(breln1unionIR->(breln1unionI->(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) ((binunion R) S))->((or ((in ((kpair Xx) Xy)) R)) ((in ((kpair Xx) Xy)) S)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))']
% Parameter fofType:Type.
% Parameter in:(fofType->(fofType->Prop)).
% Definition exu:=(fun (Xphi:(fofType->Prop))=> ((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy))))))):((fofType->Prop)->Prop).
% Definition setextAx:=(forall (A:fofType) (B:fofType), ((forall (Xx:fofType), ((iff ((in Xx) A)) ((in Xx) B)))->(((eq fofType) A) B))):Prop.
% Parameter emptyset:fofType.
% Definition emptysetAx:=(forall (Xx:fofType), (((in Xx) emptyset)->False)):Prop.
% Parameter setadjoin:(fofType->(fofType->fofType)).
% Definition setadjoinAx:=(forall (Xx:fofType) (A:fofType) (Xy:fofType), ((iff ((in Xy) ((setadjoin Xx) A))) ((or (((eq fofType) Xy) Xx)) ((in Xy) A)))):Prop.
% Parameter powerset:(fofType->fofType).
% Definition powersetAx:=(forall (A:fofType) (B:fofType), ((iff ((in B) (powerset A))) (forall (Xx:fofType), (((in Xx) B)->((in Xx) A))))):Prop.
% Parameter setunion:(fofType->fofType).
% Definition setunionAx:=(forall (A:fofType) (Xx:fofType), ((iff ((in Xx) (setunion A))) ((ex fofType) (fun (B:fofType)=> ((and ((in Xx) B)) ((in B) A)))))):Prop.
% Parameter omega:fofType.
% Definition omega0Ax:=((in emptyset) omega):Prop.
% Definition omegaSAx:=(forall (Xx:fofType), (((in Xx) omega)->((in ((setadjoin Xx) Xx)) omega))):Prop.
% Definition omegaIndAx:=(forall (A:fofType), (((and ((in emptyset) A)) (forall (Xx:fofType), (((and ((in Xx) omega)) ((in Xx) A))->((in ((setadjoin Xx) Xx)) A))))->(forall (Xx:fofType), (((in Xx) omega)->((in Xx) A))))):Prop.
% Definition replAx:=(forall (Xphi:(fofType->(fofType->Prop))) (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->(exu (fun (Xy:fofType)=> ((Xphi Xx) Xy)))))->((ex fofType) (fun (B:fofType)=> (forall (Xx:fofType), ((iff ((in Xx) B)) ((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) A)) ((Xphi Xy) Xx)))))))))):Prop.
% Definition foundationAx:=(forall (A:fofType), (((ex fofType) (fun (Xx:fofType)=> ((in Xx) A)))->((ex fofType) (fun (B:fofType)=> ((and ((in B) A)) (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) B)) ((in Xx) A))))->False)))))):Prop.
% Definition wellorderingAx:=(forall (A:fofType), ((ex fofType) (fun (B:fofType)=> ((and ((and ((and (forall (C:fofType), (((in C) B)->(forall (Xx:fofType), (((in Xx) C)->((in Xx) A)))))) (forall (Xx:fofType) (Xy:fofType), (((and ((in Xx) A)) ((in Xy) A))->((forall (C:fofType), (((in C) B)->((iff ((in Xx) C)) ((in Xy) C))))->(((eq fofType) Xx) Xy)))))) (forall (C:fofType) (D:fofType), (((and ((in C) B)) ((in D) B))->((or (forall (Xx:fofType), (((in Xx) C)->((in Xx) D)))) (forall (Xx:fofType), (((in Xx) D)->((in Xx) C)))))))) (forall (C:fofType), (((and (forall (Xx:fofType), (((in Xx) C)->((in Xx) A)))) ((ex fofType) (fun (Xx:fofType)=> ((in Xx) C))))->((ex fofType) (fun (D:fofType)=> ((ex fofType) (fun (Xx:fofType)=> ((and ((and ((and ((in D) B)) ((in Xx) C))) (((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) D)) ((in Xy) C))))->False))) (forall (E:fofType), (((in E) B)->((or (forall (Xy:fofType), (((in Xy) E)->((in Xy) D)))) ((in Xx) E))))))))))))))):Prop.
% Parameter descr:((fofType->Prop)->fofType).
% Definition descrp:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(Xphi (descr (fun (Xx:fofType)=> (Xphi Xx)))))):Prop.
% Parameter dsetconstr:(fofType->((fofType->Prop)->fofType)).
% Definition dsetconstrI:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))))):Prop.
% Definition dsetconstrEL:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))->((in Xx) A))):Prop.
% Definition dsetconstrER:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))->(Xphi Xx))):Prop.
% Definition exuE1:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy)))))))):Prop.
% Parameter prop2set:(Prop->fofType).
% Definition prop2setE:=(forall (Xphi:Prop) (Xx:fofType), (((in Xx) (prop2set Xphi))->Xphi)):Prop.
% Definition emptysetE:=(forall (Xx:fofType), (((in Xx) emptyset)->(forall (Xphi:Prop), Xphi))):Prop.
% Definition emptysetimpfalse:=(forall (Xx:fofType), (((in Xx) emptyset)->False)):Prop.
% Definition notinemptyset:=(forall (Xx:fofType), (((in Xx) emptyset)->False)):Prop.
% Definition exuE3e:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> (Xphi Xx))))):Prop.
% Definition setext:=(forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((forall (Xx:fofType), (((in Xx) B)->((in Xx) A)))->(((eq fofType) A) B)))):Prop.
% Definition emptyI:=(forall (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->False))->(((eq fofType) A) emptyset))):Prop.
% Definition noeltsimpempty:=(forall (A:fofType), ((forall (Xx:fofType), (((in Xx) A)->False))->(((eq fofType) A) emptyset))):Prop.
% Definition setbeta:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((iff ((in Xx) ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))) (Xphi Xx)))):Prop.
% Definition nonempty:=(fun (Xx:fofType)=> (not (((eq fofType) Xx) emptyset))):(fofType->Prop).
% Definition nonemptyE1:=(forall (A:fofType), ((nonempty A)->((ex fofType) (fun (Xx:fofType)=> ((in Xx) A))))):Prop.
% Definition nonemptyI:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->(nonempty ((dsetconstr A) (fun (Xy:fofType)=> (Xphi Xy))))))):Prop.
% Definition nonemptyI1:=(forall (A:fofType), (((ex fofType) (fun (Xx:fofType)=> ((in Xx) A)))->(nonempty A))):Prop.
% Definition setadjoinIL:=(forall (Xx:fofType) (Xy:fofType), ((in Xx) ((setadjoin Xx) Xy))):Prop.
% Definition emptyinunitempty:=((in emptyset) ((setadjoin emptyset) emptyset)):Prop.
% Definition setadjoinIR:=(forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) A)->((in Xy) ((setadjoin Xx) A)))):Prop.
% Definition setadjoinE:=(forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) ((setadjoin Xx) A))->(forall (Xphi:Prop), (((((eq fofType) Xy) Xx)->Xphi)->((((in Xy) A)->Xphi)->Xphi))))):Prop.
% Definition setadjoinOr:=(forall (Xx:fofType) (A:fofType) (Xy:fofType), (((in Xy) ((setadjoin Xx) A))->((or (((eq fofType) Xy) Xx)) ((in Xy) A)))):Prop.
% Definition setoftrueEq:=(forall (A:fofType), (((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> True))) A)):Prop.
% Definition powersetI:=(forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) B)->((in Xx) A)))->((in B) (powerset A)))):Prop.
% Definition emptyinPowerset:=(forall (A:fofType), ((in emptyset) (powerset A))):Prop.
% Definition emptyInPowerset:=(forall (A:fofType), ((in emptyset) (powerset A))):Prop.
% Definition powersetE:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in B) (powerset A))->(((in Xx) B)->((in Xx) A)))):Prop.
% Definition setunionI:=(forall (A:fofType) (Xx:fofType) (B:fofType), (((in Xx) B)->(((in B) A)->((in Xx) (setunion A))))):Prop.
% Definition setunionE:=(forall (A:fofType) (Xx:fofType), (((in Xx) (setunion A))->(forall (Xphi:Prop), ((forall (B:fofType), (((in Xx) B)->(((in B) A)->Xphi)))->Xphi)))):Prop.
% Definition subPowSU:=(forall (A:fofType) (Xx:fofType), (((in Xx) A)->((in Xx) (powerset (setunion A))))):Prop.
% Definition exuE2:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> (forall (Xy:fofType), ((iff (Xphi Xy)) (((eq fofType) Xy) Xx))))))):Prop.
% Definition nonemptyImpWitness:=(forall (A:fofType), ((nonempty A)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) True))))):Prop.
% Definition uniqinunit:=(forall (Xx:fofType) (Xy:fofType), (((in Xx) ((setadjoin Xy) emptyset))->(((eq fofType) Xx) Xy))):Prop.
% Definition notinsingleton:=(forall (Xx:fofType) (Xy:fofType), ((not (((eq fofType) Xx) Xy))->(((in Xy) ((setadjoin Xx) emptyset))->False))):Prop.
% Definition eqinunit:=(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((in Xx) ((setadjoin Xy) emptyset)))):Prop.
% Definition singletonsswitch:=(forall (Xx:fofType) (Xy:fofType), (((in Xx) ((setadjoin Xy) emptyset))->((in Xy) ((setadjoin Xx) emptyset)))):Prop.
% Definition upairsetE:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in Xz) ((setadjoin Xx) ((setadjoin Xy) emptyset)))->((or (((eq fofType) Xz) Xx)) (((eq fofType) Xz) Xy)))):Prop.
% Definition upairsetIL:=(forall (Xx:fofType) (Xy:fofType), ((in Xx) ((setadjoin Xx) ((setadjoin Xy) emptyset)))):Prop.
% Definition upairsetIR:=(forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset)))):Prop.
% Definition emptyE1:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->((((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) emptyset)->False))):Prop.
% Definition vacuousDall:=(forall (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) emptyset)->(Xphi Xx))):Prop.
% Definition quantDeMorgan1:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False)))))):Prop.
% Definition quantDeMorgan2:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False)))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False))):Prop.
% Definition quantDeMorgan3:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False)->(forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False))))):Prop.
% Definition quantDeMorgan4:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False))))->((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False))):Prop.
% Definition prop2setI:=(forall (Xphi:Prop), (Xphi->((in emptyset) (prop2set Xphi)))):Prop.
% Parameter set2prop:(fofType->Prop).
% Definition prop2set2propI:=(forall (Xphi:Prop), (Xphi->(set2prop (prop2set Xphi)))):Prop.
% Definition notdexE:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->False)->(forall (Xx:fofType), (((in Xx) A)->((Xphi Xx)->False))))):Prop.
% Definition notdallE:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((forall (Xx:fofType), (((in Xx) A)->(Xphi Xx)))->False)->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((Xphi Xx)->False)))))):Prop.
% Definition exuI1:=(forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> ((and (Xphi Xx)) (forall (Xy:fofType), ((Xphi Xy)->(((eq fofType) Xx) Xy))))))->(exu (fun (Xx:fofType)=> (Xphi Xx))))):Prop.
% Definition exuI3:=(forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> (Xphi Xx)))->((forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy))))->(exu (fun (Xx:fofType)=> (Xphi Xx)))))):Prop.
% Definition exuI2:=(forall (Xphi:(fofType->Prop)), (((ex fofType) (fun (Xx:fofType)=> (forall (Xy:fofType), ((iff (Xphi Xy)) (((eq fofType) Xy) Xx)))))->(exu (fun (Xx:fofType)=> (Xphi Xx))))):Prop.
% Definition inCongP:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((in Xx) A)->((in Xy) B)))))):Prop.
% Definition in__Cong:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff ((in Xx) A)) ((in Xy) B)))))):Prop.
% Definition exuE3u:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))):Prop.
% Definition exu__Cong:=(forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy))))->((iff (exu (fun (Xx:fofType)=> (Xphi Xx)))) (exu (fun (Xx:fofType)=> (Xpsi Xx)))))):Prop.
% Definition emptyset__Cong:=(((eq fofType) emptyset) emptyset):Prop.
% Definition setadjoin__Cong:=(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(forall (Xz:fofType) (Xu:fofType), ((((eq fofType) Xz) Xu)->(((eq fofType) ((setadjoin Xx) Xz)) ((setadjoin Xy) Xu)))))):Prop.
% Definition powerset__Cong:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(((eq fofType) (powerset A)) (powerset B)))):Prop.
% Definition setunion__Cong:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(((eq fofType) (setunion A)) (setunion B)))):Prop.
% Definition omega__Cong:=(((eq fofType) omega) omega):Prop.
% Definition exuEu:=(forall (Xphi:(fofType->Prop)), ((exu (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType) (Xy:fofType), ((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))):Prop.
% Definition descr__Cong:=(forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy))))->((exu (fun (Xx:fofType)=> (Xphi Xx)))->((exu (fun (Xx:fofType)=> (Xpsi Xx)))->(((eq fofType) (descr (fun (Xx:fofType)=> (Xphi Xx)))) (descr (fun (Xx:fofType)=> (Xpsi Xx)))))))):Prop.
% Definition dsetconstr__Cong:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->(forall (Xphi:(fofType->Prop)) (Xpsi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((((eq fofType) Xx) Xy)->((iff (Xphi Xx)) (Xpsi Xy)))))))->(((eq fofType) ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) ((dsetconstr B) (fun (Xx:fofType)=> (Xpsi Xx)))))))):Prop.
% Parameter subset:(fofType->(fofType->Prop)).
% Parameter disjoint:(fofType->(fofType->Prop)).
% Parameter setsmeet:(fofType->(fofType->Prop)).
% Definition subsetI1:=(forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((subset A) B))):Prop.
% Definition eqimpsubset2:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->((subset B) A))):Prop.
% Definition eqimpsubset1:=(forall (A:fofType) (B:fofType), ((((eq fofType) A) B)->((subset A) B))):Prop.
% Definition subsetI2:=(forall (A:fofType) (B:fofType), ((forall (Xx:fofType), (((in Xx) A)->((in Xx) B)))->((subset A) B))):Prop.
% Definition emptysetsubset:=(forall (A:fofType), ((subset emptyset) A)):Prop.
% Definition subsetE:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((subset A) B)->(((in Xx) A)->((in Xx) B)))):Prop.
% Definition subsetE2:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((subset A) B)->((((in Xx) B)->False)->(((in Xx) A)->False)))):Prop.
% Definition notsubsetI:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->(((subset A) B)->False)))):Prop.
% Definition notequalI1:=(forall (A:fofType) (B:fofType), ((((subset A) B)->False)->(not (((eq fofType) A) B)))):Prop.
% Definition notequalI2:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->(not (((eq fofType) A) B))))):Prop.
% Definition subsetRefl:=(forall (A:fofType), ((subset A) A)):Prop.
% Definition subsetTrans:=(forall (A:fofType) (B:fofType) (C:fofType), (((subset A) B)->(((subset B) C)->((subset A) C)))):Prop.
% Definition setadjoinSub:=(forall (Xx:fofType) (A:fofType), ((subset A) ((setadjoin Xx) A))):Prop.
% Definition setadjoinSub2:=(forall (A:fofType) (Xx:fofType) (B:fofType), (((subset A) B)->((subset A) ((setadjoin Xx) B)))):Prop.
% Definition subset2powerset:=(forall (A:fofType) (B:fofType), (((subset A) B)->((in A) (powerset B)))):Prop.
% Definition setextsub:=(forall (A:fofType) (B:fofType), (((subset A) B)->(((subset B) A)->(((eq fofType) A) B)))):Prop.
% Definition subsetemptysetimpeq:=(forall (A:fofType), (((subset A) emptyset)->(((eq fofType) A) emptyset))):Prop.
% Definition powersetI1:=(forall (A:fofType) (B:fofType), (((subset B) A)->((in B) (powerset A)))):Prop.
% Definition powersetE1:=(forall (A:fofType) (B:fofType), (((in B) (powerset A))->((subset B) A))):Prop.
% Definition inPowerset:=(forall (A:fofType), ((in A) (powerset A))):Prop.
% Definition powersetsubset:=(forall (A:fofType) (B:fofType), (((subset A) B)->((subset (powerset A)) (powerset B)))):Prop.
% Definition sepInPowerset:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((in ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) (powerset A))):Prop.
% Definition sepSubset:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((subset ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx)))) A)):Prop.
% Parameter binunion:(fofType->(fofType->fofType)).
% Definition binunionIL:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((in Xx) ((binunion A) B)))):Prop.
% Definition upairset2IR:=(forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset)))):Prop.
% Definition binunionIR:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) B)->((in Xx) ((binunion A) B)))):Prop.
% Definition binunionEcases:=(forall (A:fofType) (B:fofType) (Xx:fofType) (Xphi:Prop), (((in Xx) ((binunion A) B))->((((in Xx) A)->Xphi)->((((in Xx) B)->Xphi)->Xphi)))):Prop.
% Definition binunionE:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binunion A) B))->((or ((in Xx) A)) ((in Xx) B)))):Prop.
% Definition binunionLsub:=(forall (A:fofType) (B:fofType), ((subset A) ((binunion A) B))):Prop.
% Definition binunionRsub:=(forall (A:fofType) (B:fofType), ((subset B) ((binunion A) B))):Prop.
% Parameter binintersect:(fofType->(fofType->fofType)).
% Definition binintersectI:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(((in Xx) B)->((in Xx) ((binintersect A) B))))):Prop.
% Definition binintersectSubset5:=(forall (A:fofType) (B:fofType) (C:fofType), (((subset C) A)->(((subset C) B)->((subset C) ((binintersect A) B))))):Prop.
% Definition binintersectEL:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binintersect A) B))->((in Xx) A))):Prop.
% Definition binintersectLsub:=(forall (A:fofType) (B:fofType), ((subset ((binintersect A) B)) A)):Prop.
% Definition binintersectSubset2:=(forall (A:fofType) (B:fofType), (((subset A) B)->(((eq fofType) ((binintersect A) B)) A))):Prop.
% Definition binintersectSubset3:=(forall (A:fofType) (B:fofType), ((((eq fofType) ((binintersect A) B)) B)->((subset B) A))):Prop.
% Definition binintersectER:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((binintersect A) B))->((in Xx) B))):Prop.
% Definition disjointsetsI1:=(forall (A:fofType) (B:fofType), ((((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((in Xx) B))))->False)->(((eq fofType) ((binintersect A) B)) emptyset))):Prop.
% Definition binintersectRsub:=(forall (A:fofType) (B:fofType), ((subset ((binintersect A) B)) B)):Prop.
% Definition binintersectSubset4:=(forall (A:fofType) (B:fofType), (((subset B) A)->(((eq fofType) ((binintersect A) B)) B))):Prop.
% Definition binintersectSubset1:=(forall (A:fofType) (B:fofType), ((((eq fofType) ((binintersect A) B)) A)->((subset A) B))):Prop.
% Definition bs114d:=(forall (A:fofType) (B:fofType) (C:fofType), (((eq fofType) ((binintersect A) ((binunion B) C))) ((binunion ((binintersect A) B)) ((binintersect A) C)))):Prop.
% Parameter regular:(fofType->Prop).
% Parameter setminus:(fofType->(fofType->fofType)).
% Definition setminusI:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->((in Xx) ((setminus A) B))))):Prop.
% Definition setminusEL:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((setminus A) B))->((in Xx) A))):Prop.
% Definition setminusER:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((setminus A) B))->(((in Xx) B)->False))):Prop.
% Definition setminusSubset2:=(forall (A:fofType) (B:fofType), (((subset A) B)->(((eq fofType) ((setminus A) B)) emptyset))):Prop.
% Definition setminusERneg:=(forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) ((setminus A) B))->False)->(((in Xx) A)->((in Xx) B)))):Prop.
% Definition setminusELneg:=(forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) ((setminus A) B))->False)->((((in Xx) B)->False)->(((in Xx) A)->False)))):Prop.
% Definition setminusILneg:=(forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->(((in Xx) ((setminus A) B))->False))):Prop.
% Definition setminusIRneg:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) B)->(((in Xx) ((setminus A) B))->False))):Prop.
% Definition setminusLsub:=(forall (A:fofType) (B:fofType), ((subset ((setminus A) B)) A)):Prop.
% Definition setminusSubset1:=(forall (A:fofType) (B:fofType), ((((eq fofType) ((setminus A) B)) emptyset)->((subset A) B))):Prop.
% Parameter symdiff:(fofType->(fofType->fofType)).
% Definition symdiffE:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) ((symdiff A) B))->(forall (Xphi:Prop), ((((in Xx) A)->((((in Xx) B)->False)->Xphi))->(((((in Xx) A)->False)->(((in Xx) B)->Xphi))->Xphi))))):Prop.
% Definition symdiffI1:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((((in Xx) B)->False)->((in Xx) ((symdiff A) B))))):Prop.
% Definition symdiffI2:=(forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->(((in Xx) B)->((in Xx) ((symdiff A) B))))):Prop.
% Definition symdiffIneg1:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(((in Xx) B)->(((in Xx) ((symdiff A) B))->False)))):Prop.
% Definition symdiffIneg2:=(forall (A:fofType) (B:fofType) (Xx:fofType), ((((in Xx) A)->False)->((((in Xx) B)->False)->(((in Xx) ((symdiff A) B))->False)))):Prop.
% Parameter iskpair:(fofType->Prop).
% Definition secondinupair:=(forall (Xx:fofType) (Xy:fofType), ((in Xy) ((setadjoin Xx) ((setadjoin Xy) emptyset)))):Prop.
% Definition setukpairIL:=(forall (Xx:fofType) (Xy:fofType), ((in Xx) (setunion ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))))):Prop.
% Definition setukpairIR:=(forall (Xx:fofType) (Xy:fofType), ((in Xy) (setunion ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))))):Prop.
% Definition kpairiskpair:=(forall (Xx:fofType) (Xy:fofType), (iskpair ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset)))):Prop.
% Parameter kpair:(fofType->(fofType->fofType)).
% Definition kpairp:=(forall (Xx:fofType) (Xy:fofType), (iskpair ((kpair Xx) Xy))):Prop.
% Parameter cartprod:(fofType->(fofType->fofType)).
% Definition singletonsubset:=(forall (A:fofType) (Xx:fofType), (((in Xx) A)->((subset ((setadjoin Xx) emptyset)) A))):Prop.
% Definition singletoninpowerset:=(forall (A:fofType) (Xx:fofType), (((in Xx) A)->((in ((setadjoin Xx) emptyset)) (powerset A)))):Prop.
% Definition singletoninpowunion:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->((in ((setadjoin Xx) emptyset)) (powerset ((binunion A) B))))):Prop.
% Definition upairset2E:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in Xz) ((setadjoin Xx) ((setadjoin Xy) emptyset)))->((or (((eq fofType) Xz) Xx)) (((eq fofType) Xz) Xy)))):Prop.
% Definition upairsubunion:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((subset ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((binunion A) B)))))):Prop.
% Definition upairinpowunion:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((setadjoin Xx) ((setadjoin Xy) emptyset))) (powerset ((binunion A) B))))))):Prop.
% Definition ubforcartprodlem1:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((subset ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) (powerset ((binunion A) B))))))):Prop.
% Definition ubforcartprodlem2:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) (powerset (powerset ((binunion A) B)))))))):Prop.
% Definition ubforcartprodlem3:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((kpair Xx) Xy)) (powerset (powerset ((binunion A) B)))))))):Prop.
% Definition cartprodpairin:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->((in ((kpair Xx) Xy)) ((cartprod A) B)))))):Prop.
% Definition cartprodmempair1:=(forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) ((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) B)) (((eq fofType) Xu) ((kpair Xx) Xy)))))))))):Prop.
% Definition cartprodmempair:=(forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->(iskpair Xu))):Prop.
% Definition setunionE2:=(forall (A:fofType) (Xx:fofType), (((in Xx) (setunion A))->((ex fofType) (fun (X:fofType)=> ((and ((in X) A)) ((in Xx) X)))))):Prop.
% Definition setunionsingleton1:=(forall (A:fofType), ((subset (setunion ((setadjoin A) emptyset))) A)):Prop.
% Definition setunionsingleton2:=(forall (A:fofType), ((subset A) (setunion ((setadjoin A) emptyset)))):Prop.
% Definition setunionsingleton:=(forall (Xx:fofType), (((eq fofType) (setunion ((setadjoin Xx) emptyset))) Xx)):Prop.
% Parameter singleton:(fofType->Prop).
% Definition singletonprop:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->(singleton ((dsetconstr A) (fun (Xx:fofType)=> (Xphi Xx))))))):Prop.
% Parameter ex1:(fofType->((fofType->Prop)->Prop)).
% Definition ex1E1:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((ex1 A) (fun (Xx:fofType)=> (Xphi Xx)))->((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx)))))):Prop.
% Definition ex1I:=(forall (A:fofType) (Xphi:(fofType->Prop)) (Xx:fofType), (((in Xx) A)->((Xphi Xx)->((forall (Xy:fofType), (((in Xy) A)->((Xphi Xy)->(((eq fofType) Xy) Xx))))->((ex1 A) (fun (Xy:fofType)=> (Xphi Xy))))))):Prop.
% Definition ex1I2:=(forall (A:fofType) (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy)))))))->(((ex fofType) (fun (Xx:fofType)=> ((and ((in Xx) A)) (Xphi Xx))))->((ex1 A) (fun (Xx:fofType)=> (Xphi Xx)))))):Prop.
% Definition singletonsuniq:=(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) ((setadjoin Xx) emptyset)) ((setadjoin Xy) emptyset))->(((eq fofType) Xx) Xy))):Prop.
% Parameter atmost1p:(fofType->Prop).
% Parameter atleast2p:(fofType->Prop).
% Parameter atmost2p:(fofType->Prop).
% Parameter upairsetp:(fofType->Prop).
% Definition setukpairinjL1:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType), (((in ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset)))->(((eq fofType) Xx) Xz))):Prop.
% Definition kfstsingleton:=(forall (Xu:fofType), ((iskpair Xu)->(singleton ((dsetconstr (setunion Xu)) (fun (Xx:fofType)=> ((in ((setadjoin Xx) emptyset)) Xu)))))):Prop.
% Definition theprop:=(forall (X:fofType), ((singleton X)->((in (setunion X)) X))):Prop.
% Parameter kfst:(fofType->fofType).
% Definition kfstpairEq:=(forall (Xx:fofType) (Xy:fofType), (((eq fofType) (kfst ((kpair Xx) Xy))) Xx)):Prop.
% Definition cartprodfstin:=(forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((in (kfst Xu)) A))):Prop.
% Definition setukpairinjL2:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->(((eq fofType) Xx) Xz))):Prop.
% Definition setukpairinjL:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((kpair Xx) Xy)) ((kpair Xz) Xu))->(((eq fofType) Xx) Xz))):Prop.
% Definition setukpairinjR11:=(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((eq fofType) ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((setadjoin Xx) emptyset)))):Prop.
% Definition setukpairinjR12:=(forall (Xx:fofType) (Xy:fofType), ((((eq fofType) Xx) Xy)->(((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xx) emptyset)) emptyset)))):Prop.
% Definition setukpairinjR1:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->((((eq fofType) Xz) Xu)->(((eq fofType) Xy) Xu)))):Prop.
% Definition upairequniteq:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType), ((((eq fofType) ((setadjoin Xx) ((setadjoin Xy) emptyset))) ((setadjoin Xz) emptyset))->(((eq fofType) Xx) Xy))):Prop.
% Definition setukpairinjR2:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((setadjoin ((setadjoin Xx) emptyset)) ((setadjoin ((setadjoin Xx) ((setadjoin Xy) emptyset))) emptyset))) ((setadjoin ((setadjoin Xz) emptyset)) ((setadjoin ((setadjoin Xz) ((setadjoin Xu) emptyset))) emptyset)))->(((eq fofType) Xy) Xu))):Prop.
% Definition setukpairinjR:=(forall (Xx:fofType) (Xy:fofType) (Xz:fofType) (Xu:fofType), ((((eq fofType) ((kpair Xx) Xy)) ((kpair Xz) Xu))->(((eq fofType) Xy) Xu))):Prop.
% Definition ksndsingleton:=(forall (Xu:fofType), ((iskpair Xu)->(singleton ((dsetconstr (setunion Xu)) (fun (Xx:fofType)=> (((eq fofType) Xu) ((kpair (kfst Xu)) Xx))))))):Prop.
% Parameter ksnd:(fofType->fofType).
% Definition ksndpairEq:=(forall (Xx:fofType) (Xy:fofType), (((eq fofType) (ksnd ((kpair Xx) Xy))) Xy)):Prop.
% Definition kpairsurjEq:=(forall (Xu:fofType), ((iskpair Xu)->(((eq fofType) ((kpair (kfst Xu)) (ksnd Xu))) Xu))):Prop.
% Definition cartprodsndin:=(forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->((in (ksnd Xu)) B))):Prop.
% Definition cartprodpairmemEL:=(forall (A:fofType) (B:fofType) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) ((cartprod A) B))->((in Xx) A))):Prop.
% Definition cartprodpairmemER:=(forall (A:fofType) (B:fofType) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) ((cartprod A) B))->((in Xy) B))):Prop.
% Definition cartprodmempaircEq:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) ((kpair Xx) Xy)) ((kpair Xx) Xy)))))):Prop.
% Definition cartprodfstpairEq:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) (kfst ((kpair Xx) Xy))) Xx))))):Prop.
% Definition cartprodsndpairEq:=(forall (A:fofType) (B:fofType) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((eq fofType) (ksnd ((kpair Xx) Xy))) Xy))))):Prop.
% Definition cartprodpairsurjEq:=(forall (A:fofType) (B:fofType) (Xu:fofType), (((in Xu) ((cartprod A) B))->(((eq fofType) ((kpair (kfst Xu)) (ksnd Xu))) Xu))):Prop.
% Parameter breln:(fofType->(fofType->(fofType->Prop))).
% Parameter dpsetconstr:(fofType->(fofType->((fofType->(fofType->Prop))->fofType))).
% Definition dpsetconstrI:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((Xphi Xx) Xy)->((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))))))):Prop.
% Definition dpsetconstrSub:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), ((subset (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy)))) ((cartprod A) B))):Prop.
% Definition setOfPairsIsBReln:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), (((breln A) B) (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy))))):Prop.
% Definition dpsetconstrERa:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((Xphi Xx) Xy)))))):Prop.
% Definition dpsetconstrEL1:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((in Xx) A))):Prop.
% Definition dpsetconstrEL2:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((in Xy) B))):Prop.
% Definition dpsetconstrER:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))) (Xx:fofType) (Xy:fofType), (((in ((kpair Xx) Xy)) (((dpsetconstr A) B) (fun (Xz:fofType) (Xu:fofType)=> ((Xphi Xz) Xu))))->((Xphi Xx) Xy))):Prop.
% Parameter func:(fofType->(fofType->(fofType->Prop))).
% Parameter funcSet:(fofType->(fofType->fofType)).
% Definition funcImageSingleton:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(singleton ((dsetconstr B) (fun (Xy:fofType)=> ((in ((kpair Xx) Xy)) Xf)))))))):Prop.
% Definition apProp:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in (setunion ((dsetconstr B) (fun (Xy:fofType)=> ((in ((kpair Xx) Xy)) Xf))))) B))))):Prop.
% Parameter ap:(fofType->(fofType->(fofType->(fofType->fofType)))).
% Definition app:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in ((((ap A) B) Xf) Xx)) B))))):Prop.
% Definition infuncsetfunc:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(((func A) B) Xf))):Prop.
% Definition ap2p:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->((in ((((ap A) B) Xf) Xx)) B))))):Prop.
% Definition funcinfuncset:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->((in Xf) ((funcSet A) B)))):Prop.
% Definition lamProp:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((func A) B) (((dpsetconstr A) B) (fun (Xx:fofType) (Xy:fofType)=> (((eq fofType) (Xf Xx)) Xy)))))):Prop.
% Parameter lam:(fofType->(fofType->((fofType->fofType)->fofType))).
% Definition lamp:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((func A) B) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))))):Prop.
% Definition lam2p:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->((in (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))) ((funcSet A) B)))):Prop.
% Definition brelnall1:=(forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx))))))):Prop.
% Definition brelnall2:=(forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx))))))):Prop.
% Definition ex1E2:=(forall (A:fofType) (Xphi:(fofType->Prop)), (((ex1 A) (fun (Xx:fofType)=> (Xphi Xx)))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi Xx)->((Xphi Xy)->(((eq fofType) Xx) Xy))))))))):Prop.
% Definition funcGraphProp1:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->((in ((kpair Xx) ((((ap A) B) Xf) Xx))) Xf))))):Prop.
% Definition funcGraphProp3:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->((in ((kpair Xx) ((((ap A) B) Xf) Xx))) Xf))))):Prop.
% Definition funcGraphProp2:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xf)->(((eq fofType) ((((ap A) B) Xf) Xx)) Xy)))))))):Prop.
% Definition funcextLem:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xg:fofType), ((((func A) B) Xg)->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xg)->((in ((kpair Xx) Xy)) Xf))))))))))):Prop.
% Definition funcGraphProp4:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) Xf)->(((eq fofType) ((((ap A) B) Xf) Xx)) Xy)))))))):Prop.
% Definition subbreln:=(forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (S:fofType), ((((breln A) B) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((subset R) S)))))):Prop.
% Definition eqbreln:=(forall (A:fofType) (B:fofType) (R:fofType), ((((breln A) B) R)->(forall (S:fofType), ((((breln A) B) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) B)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) R))))))->(((eq fofType) R) S))))))):Prop.
% Definition funcext:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xg:fofType), ((((func A) B) Xg)->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(((eq fofType) Xf) Xg)))))):Prop.
% Definition funcext2:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xg:fofType), (((in Xg) ((funcSet A) B))->((forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xg) Xx))))->(((eq fofType) Xf) Xg)))))):Prop.
% Definition ap2apEq1:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xf) Xx)))))):Prop.
% Definition ap2apEq2:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) Xf) Xx)) ((((ap A) B) Xf) Xx)))))):Prop.
% Definition beta1:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) (((lam A) B) (fun (Xy:fofType)=> (Xf Xy)))) Xx)) (Xf Xx)))))):Prop.
% Definition eta1:=(forall (A:fofType) (B:fofType) (Xf:fofType), ((((func A) B) Xf)->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> ((((ap A) B) Xf) Xx)))) Xf))):Prop.
% Definition lam2lamEq:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))) (((lam A) B) (fun (Xx:fofType)=> (Xf Xx)))))):Prop.
% Definition beta2:=(forall (A:fofType) (B:fofType) (Xf:(fofType->fofType)), ((forall (Xx:fofType), (((in Xx) A)->((in (Xf Xx)) B)))->(forall (Xx:fofType), (((in Xx) A)->(((eq fofType) ((((ap A) B) (((lam A) B) (fun (Xy:fofType)=> (Xf Xy)))) Xx)) (Xf Xx)))))):Prop.
% Definition eta2:=(forall (A:fofType) (B:fofType) (Xf:fofType), (((in Xf) ((funcSet A) B))->(((eq fofType) (((lam A) B) (fun (Xx:fofType)=> ((((ap A) B) Xf) Xx)))) Xf))):Prop.
% Definition iffalseProp1:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->((in Xy) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy))))))))))):Prop.
% Definition iffalseProp2:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->(((eq fofType) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))) ((setadjoin Xy) emptyset))))))):Prop.
% Definition iftrueProp1:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->((in Xx) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy))))))))))):Prop.
% Definition iftrueProp2:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->(((eq fofType) ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))) ((setadjoin Xx) emptyset))))))):Prop.
% Definition ifSingleton:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(singleton ((dsetconstr A) (fun (Xz:fofType)=> ((or ((and Xphi) (((eq fofType) Xz) Xx))) ((and (Xphi->False)) (((eq fofType) Xz) Xy)))))))))):Prop.
% Parameter if:(fofType->(Prop->(fofType->(fofType->fofType)))).
% Definition ifp:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((in ((((if A) Xphi) Xx) Xy)) A))))):Prop.
% Definition theeq:=(forall (X:fofType), ((singleton X)->(forall (Xx:fofType), (((in Xx) X)->(((eq fofType) (setunion X)) Xx))))):Prop.
% Definition iftrue:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(Xphi->(((eq fofType) ((((if A) Xphi) Xx) Xy)) Xx)))))):Prop.
% Definition iffalse:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((Xphi->False)->(((eq fofType) ((((if A) Xphi) Xx) Xy)) Xy)))))):Prop.
% Definition iftrueorfalse:=(forall (A:fofType) (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->((in ((((if A) Xphi) Xx) Xy)) ((setadjoin Xx) ((setadjoin Xy) emptyset))))))):Prop.
% Definition binintersectT_lem:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((binintersect X) Y)) (powerset A)))))):Prop.
% Definition binunionT_lem:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((binunion X) Y)) (powerset A)))))):Prop.
% Definition powersetT_lem:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->((in (powerset X)) (powerset (powerset A))))):Prop.
% Definition setminusT_lem:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus X) Y)) (powerset A)))))):Prop.
% Definition complementT_lem:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->((in ((setminus A) X)) (powerset A)))):Prop.
% Definition setextT:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) Y)->((in Xx) X))))->(((eq fofType) X) Y))))))):Prop.
% Definition subsetTI:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((subset X) Y)))))):Prop.
% Definition powersetTI1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) Y))))->((in X) (powerset Y))))))):Prop.
% Definition powersetTE1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in X) (powerset Y))->(((in Xx) X)->((in Xx) Y))))))))):Prop.
% Definition complementTI1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->(((in Xx) ((setminus A) X))->False)))))):Prop.
% Definition complementTE1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((setminus A) X))->False)->((in Xx) X)))))):Prop.
% Definition binintersectTELcontra:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) X)->False)->(((in Xx) ((binintersect X) Y))->False)))))))):Prop.
% Definition binintersectTERcontra:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) Y)->False)->(((in Xx) ((binintersect X) Y))->False)))))))):Prop.
% Definition contrasubsetT:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((subset X) ((setminus A) Y))->(((in Xx) Y)->(((in Xx) X)->False))))))))):Prop.
% Definition contrasubsetT1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((subset X) Y)->((((in Xx) Y)->False)->(((in Xx) X)->False))))))))):Prop.
% Definition contrasubsetT2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) Y)->((subset ((setminus A) Y)) ((setminus A) X))))))):Prop.
% Definition contrasubsetT3:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset ((setminus A) Y)) ((setminus A) X))->((subset X) Y)))))):Prop.
% Definition doubleComplementI1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) X)->((in Xx) ((setminus A) ((setminus A) X)))))))):Prop.
% Definition doubleComplementE1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((setminus A) X)))->((in Xx) X)))))):Prop.
% Definition doubleComplementSub1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->((subset X) ((setminus A) ((setminus A) X))))):Prop.
% Definition doubleComplementSub2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->((subset ((setminus A) ((setminus A) X))) X))):Prop.
% Definition doubleComplementEq:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(((eq fofType) X) ((setminus A) ((setminus A) X))))):Prop.
% Definition complementTnotintersectT:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->(((in Xx) ((binintersect X) Y))->False)))))))):Prop.
% Definition complementImpComplementIntersect:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->((in Xx) ((setminus A) ((binintersect X) Y)))))))))):Prop.
% Definition complementSubsetComplementIntersect:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((subset ((setminus A) X)) ((setminus A) ((binintersect X) Y))))))):Prop.
% Definition complementInPowersetComplementIntersect:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) X)) (powerset ((setminus A) ((binintersect X) Y)))))))):Prop.
% Definition contraSubsetComplement:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) Y)->((in Xx) ((setminus A) X)))))))))):Prop.
% Definition complementTcontraSubset:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->((subset Y) ((setminus A) X))))))):Prop.
% Definition binunionTILcontra:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((binunion X) Y))->False)->(((in Xx) X)->False)))))))):Prop.
% Definition binunionTIRcontra:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) ((binunion X) Y))->False)->(((in Xx) Y)->False)))))))):Prop.
% Definition inIntersectImpInUnion:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binunion X) Z))))))))))):Prop.
% Definition inIntersectImpInUnion2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binunion Y) Z))))))))))):Prop.
% Definition inIntersectImpInIntersectUnions:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect X) Y))->((in Xx) ((binintersect ((binunion X) Z)) ((binunion Y) Z)))))))))))):Prop.
% Definition intersectInPowersetIntersectUnions:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->((in ((binintersect X) Y)) (powerset ((binintersect ((binunion X) Z)) ((binunion Y) Z)))))))))):Prop.
% Definition inComplementUnionImpNotIn1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->(((in Xx) X)->False)))))))):Prop.
% Definition inComplementUnionImpInComplement1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) X))))))))):Prop.
% Definition binunionTE:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xphi:Prop) (Xx:fofType), (((in Xx) A)->(((in Xx) ((binunion X) Y))->((((in Xx) X)->Xphi)->((((in Xx) Y)->Xphi)->Xphi))))))))):Prop.
% Definition binunionTEcontra:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->((((in Xx) X)->False)->((((in Xx) Y)->False)->(((in Xx) ((binunion X) Y))->False))))))))):Prop.
% Definition demorgan2a1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) X))))))))):Prop.
% Definition complementUnionInPowersetComplement:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) ((binunion X) Y))) (powerset ((setminus A) X))))))):Prop.
% Definition demorgan2a2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((setminus A) Y))))))))):Prop.
% Definition demorgan1a:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binintersect X) Y)))->((in Xx) ((binunion ((setminus A) X)) ((setminus A) Y)))))))))):Prop.
% Definition demorgan1b:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binunion ((setminus A) X)) ((setminus A) Y)))->((in Xx) ((setminus A) ((binintersect X) Y)))))))))):Prop.
% Definition demorgan1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((eq fofType) ((setminus A) ((binintersect X) Y))) ((binunion ((setminus A) X)) ((setminus A) Y))))))):Prop.
% Definition demorgan2a:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) ((binunion X) Y)))->((in Xx) ((binintersect ((setminus A) X)) ((setminus A) Y)))))))))):Prop.
% Definition demorgan2b2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((setminus A) X))->(((in Xx) ((setminus A) Y))->((in Xx) ((setminus A) ((binunion X) Y))))))))))):Prop.
% Definition demorgan2b:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) A)->(((in Xx) ((binintersect ((setminus A) X)) ((setminus A) Y)))->((in Xx) ((setminus A) ((binunion X) Y)))))))))):Prop.
% Definition demorgan2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((eq fofType) ((setminus A) ((binunion X) Y))) ((binintersect ((setminus A) X)) ((setminus A) Y))))))):Prop.
% Definition woz13rule0:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Xx:fofType), (((in Xx) ((binintersect X) Y))->((in Xx) A))))))):Prop.
% Definition woz13rule1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset X) Z)->((subset ((binintersect X) Y)) Z)))))))):Prop.
% Definition woz13rule2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset Y) Z)->((subset ((binintersect X) Y)) Z)))))))):Prop.
% Definition woz13rule3:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(((subset X) Y)->(((subset X) Z)->((subset X) ((binintersect Y) Z)))))))))):Prop.
% Definition woz13rule4:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (W:fofType), (((in W) (powerset A))->(((subset X) Z)->(((subset Y) W)->((subset ((binintersect X) Y)) ((binintersect Z) W)))))))))))):Prop.
% Definition woz1_1:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) X)) (powerset ((setminus A) ((binintersect X) Y)))))))):Prop.
% Definition woz1_2:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->(forall (W:fofType), (((in W) (powerset A))->(((eq fofType) ((setminus A) ((binintersect ((binunion X) Y)) ((binunion Z) W)))) ((binunion ((binintersect ((setminus A) X)) ((setminus A) Y))) ((binintersect ((setminus A) Z)) ((setminus A) W)))))))))))):Prop.
% Definition woz1_3:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(forall (Z:fofType), (((in Z) (powerset A))->((in ((binintersect X) Y)) (powerset ((binintersect ((binunion X) Z)) ((binunion Y) Z)))))))))):Prop.
% Definition woz1_4:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->(((subset X) ((setminus A) Y))->((subset Y) ((setminus A) X))))))):Prop.
% Definition woz1_5:=(forall (A:fofType) (X:fofType), (((in X) (powerset A))->(forall (Y:fofType), (((in Y) (powerset A))->((in ((setminus A) ((binunion X) Y))) (powerset ((setminus A) X))))))):Prop.
% Parameter breln1:(fofType->(fofType->Prop)).
% Definition breln1all2:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx))))))):Prop.
% Parameter breln1Set:(fofType->fofType).
% Definition breln1SetBreln1:=(forall (A:fofType) (R:fofType), (((in R) (breln1Set A))->((breln1 A) R))):Prop.
% Parameter transitive:(fofType->(fofType->Prop)).
% Parameter antisymmetric:(fofType->(fofType->Prop)).
% Parameter reflexive:(fofType->(fofType->Prop)).
% Parameter refltransitive:(fofType->(fofType->Prop)).
% Parameter refllinearorder:(fofType->(fofType->Prop)).
% Parameter reflwellordering:(fofType->(fofType->Prop)).
% Definition choice2fnsingleton:=(forall (A:fofType) (B:fofType) (Xphi:(fofType->(fofType->Prop))), ((forall (Xx:fofType), (((in Xx) A)->((ex fofType) (fun (Xy:fofType)=> ((and ((in Xy) B)) ((Xphi Xx) Xy))))))->(forall (R:fofType), (((in R) (breln1Set B))->(((reflwellordering B) R)->(forall (Xx:fofType), (((in Xx) A)->(singleton ((dsetconstr B) (fun (Xy:fofType)=> ((and ((Xphi Xx) Xy)) (forall (Xz:fofType), (((in Xz) B)->(((Xphi Xx) Xz)->((in ((kpair Xy) Xz)) R))))))))))))))):Prop.
% Definition setOfPairsIsBReln1:=(forall (A:fofType) (Xphi:(fofType->(fofType->Prop))), ((breln1 A) (((dpsetconstr A) A) (fun (Xx:fofType) (Xy:fofType)=> ((Xphi Xx) Xy))))):Prop.
% Definition breln1all1:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xphi:(fofType->Prop)), ((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->(Xphi ((kpair Xx) Xy)))))))->(forall (Xx:fofType), (((in Xx) R)->(Xphi Xx))))))):Prop.
% Definition subbreln1:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((subset R) S)))))):Prop.
% Definition eqbreln1:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) S))))))->((forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) R))))))->(((eq fofType) R) S))))))):Prop.
% Parameter breln1invset:(fofType->(fofType->fofType)).
% Definition breln1invprop:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->((breln1 A) ((breln1invset A) R)))):Prop.
% Definition breln1invI:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xy) Xx)) ((breln1invset A) R))))))))):Prop.
% Definition breln1invE:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xy) Xx)) ((breln1invset A) R))->((in ((kpair Xx) Xy)) R)))))))):Prop.
% Parameter breln1compset:(fofType->(fofType->(fofType->fofType))).
% Definition breln1compprop:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((breln1 A) (((breln1compset A) R) S)))))):Prop.
% Definition breln1compI:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(forall (Xz:fofType), (((in Xz) A)->(((in ((kpair Xx) Xz)) R)->(((in ((kpair Xz) Xy)) S)->((in ((kpair Xx) Xy)) (((breln1compset A) R) S)))))))))))))):Prop.
% Definition breln1compE:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) (((breln1compset A) R) S))->((ex fofType) (fun (Xz:fofType)=> ((and ((and ((in Xz) A)) ((in ((kpair Xx) Xz)) R))) ((in ((kpair Xz) Xy)) S))))))))))))):Prop.
% Definition breln1compEex:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) (((breln1compset A) R) S))->(forall (Xphi:Prop), ((forall (Xz:fofType), (((in Xz) A)->(((in ((kpair Xx) Xz)) R)->(((in ((kpair Xz) Xy)) S)->Xphi))))->Xphi))))))))))):Prop.
% Definition breln1unionprop:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->((breln1 A) ((binunion R) S)))))):Prop.
% Definition breln1unionIL:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) R)->((in ((kpair Xx) Xy)) ((binunion R) S))))))))))):Prop.
% Definition breln1unionIR:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) S)->((in ((kpair Xx) Xy)) ((binunion R) S))))))))))):Prop.
% Definition breln1unionI:=(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((or ((in ((kpair Xx) Xy)) R)) ((in ((kpair Xx) Xy)) S))->((in ((kpair Xx) Xy)) ((binunion R) S))))))))))):Prop.
% Trying to prove (setextAx->(emptysetAx->(setadjoinAx->(powersetAx->(setunionAx->(omega0Ax->(omegaSAx->(omegaIndAx->(replAx->(foundationAx->(wellorderingAx->(descrp->(dsetconstrI->(dsetconstrEL->(dsetconstrER->(exuE1->(prop2setE->(emptysetE->(emptysetimpfalse->(notinemptyset->(exuE3e->(setext->(emptyI->(noeltsimpempty->(setbeta->(nonemptyE1->(nonemptyI->(nonemptyI1->(setadjoinIL->(emptyinunitempty->(setadjoinIR->(setadjoinE->(setadjoinOr->(setoftrueEq->(powersetI->(emptyinPowerset->(emptyInPowerset->(powersetE->(setunionI->(setunionE->(subPowSU->(exuE2->(nonemptyImpWitness->(uniqinunit->(notinsingleton->(eqinunit->(singletonsswitch->(upairsetE->(upairsetIL->(upairsetIR->(emptyE1->(vacuousDall->(quantDeMorgan1->(quantDeMorgan2->(quantDeMorgan3->(quantDeMorgan4->(prop2setI->(prop2set2propI->(notdexE->(notdallE->(exuI1->(exuI3->(exuI2->(inCongP->(in__Cong->(exuE3u->(exu__Cong->(emptyset__Cong->(setadjoin__Cong->(powerset__Cong->(setunion__Cong->(omega__Cong->(exuEu->(descr__Cong->(dsetconstr__Cong->(subsetI1->(eqimpsubset2->(eqimpsubset1->(subsetI2->(emptysetsubset->(subsetE->(subsetE2->(notsubsetI->(notequalI1->(notequalI2->(subsetRefl->(subsetTrans->(setadjoinSub->(setadjoinSub2->(subset2powerset->(setextsub->(subsetemptysetimpeq->(powersetI1->(powersetE1->(inPowerset->(powersetsubset->(sepInPowerset->(sepSubset->(binunionIL->(upairset2IR->(binunionIR->(binunionEcases->(binunionE->(binunionLsub->(binunionRsub->(binintersectI->(binintersectSubset5->(binintersectEL->(binintersectLsub->(binintersectSubset2->(binintersectSubset3->(binintersectER->(disjointsetsI1->(binintersectRsub->(binintersectSubset4->(binintersectSubset1->(bs114d->(setminusI->(setminusEL->(setminusER->(setminusSubset2->(setminusERneg->(setminusELneg->(setminusILneg->(setminusIRneg->(setminusLsub->(setminusSubset1->(symdiffE->(symdiffI1->(symdiffI2->(symdiffIneg1->(symdiffIneg2->(secondinupair->(setukpairIL->(setukpairIR->(kpairiskpair->(kpairp->(singletonsubset->(singletoninpowerset->(singletoninpowunion->(upairset2E->(upairsubunion->(upairinpowunion->(ubforcartprodlem1->(ubforcartprodlem2->(ubforcartprodlem3->(cartprodpairin->(cartprodmempair1->(cartprodmempair->(setunionE2->(setunionsingleton1->(setunionsingleton2->(setunionsingleton->(singletonprop->(ex1E1->(ex1I->(ex1I2->(singletonsuniq->(setukpairinjL1->(kfstsingleton->(theprop->(kfstpairEq->(cartprodfstin->(setukpairinjL2->(setukpairinjL->(setukpairinjR11->(setukpairinjR12->(setukpairinjR1->(upairequniteq->(setukpairinjR2->(setukpairinjR->(ksndsingleton->(ksndpairEq->(kpairsurjEq->(cartprodsndin->(cartprodpairmemEL->(cartprodpairmemER->(cartprodmempaircEq->(cartprodfstpairEq->(cartprodsndpairEq->(cartprodpairsurjEq->(dpsetconstrI->(dpsetconstrSub->(setOfPairsIsBReln->(dpsetconstrERa->(dpsetconstrEL1->(dpsetconstrEL2->(dpsetconstrER->(funcImageSingleton->(apProp->(app->(infuncsetfunc->(ap2p->(funcinfuncset->(lamProp->(lamp->(lam2p->(brelnall1->(brelnall2->(ex1E2->(funcGraphProp1->(funcGraphProp3->(funcGraphProp2->(funcextLem->(funcGraphProp4->(subbreln->(eqbreln->(funcext->(funcext2->(ap2apEq1->(ap2apEq2->(beta1->(eta1->(lam2lamEq->(beta2->(eta2->(iffalseProp1->(iffalseProp2->(iftrueProp1->(iftrueProp2->(ifSingleton->(ifp->(theeq->(iftrue->(iffalse->(iftrueorfalse->(binintersectT_lem->(binunionT_lem->(powersetT_lem->(setminusT_lem->(complementT_lem->(setextT->(subsetTI->(powersetTI1->(powersetTE1->(complementTI1->(complementTE1->(binintersectTELcontra->(binintersectTERcontra->(contrasubsetT->(contrasubsetT1->(contrasubsetT2->(contrasubsetT3->(doubleComplementI1->(doubleComplementE1->(doubleComplementSub1->(doubleComplementSub2->(doubleComplementEq->(complementTnotintersectT->(complementImpComplementIntersect->(complementSubsetComplementIntersect->(complementInPowersetComplementIntersect->(contraSubsetComplement->(complementTcontraSubset->(binunionTILcontra->(binunionTIRcontra->(inIntersectImpInUnion->(inIntersectImpInUnion2->(inIntersectImpInIntersectUnions->(intersectInPowersetIntersectUnions->(inComplementUnionImpNotIn1->(inComplementUnionImpInComplement1->(binunionTE->(binunionTEcontra->(demorgan2a1->(complementUnionInPowersetComplement->(demorgan2a2->(demorgan1a->(demorgan1b->(demorgan1->(demorgan2a->(demorgan2b2->(demorgan2b->(demorgan2->(woz13rule0->(woz13rule1->(woz13rule2->(woz13rule3->(woz13rule4->(woz1_1->(woz1_2->(woz1_3->(woz1_4->(woz1_5->(breln1all2->(breln1SetBreln1->(choice2fnsingleton->(setOfPairsIsBReln1->(breln1all1->(subbreln1->(eqbreln1->(breln1invprop->(breln1invI->(breln1invE->(breln1compprop->(breln1compI->(breln1compE->(breln1compEex->(breln1unionprop->(breln1unionIL->(breln1unionIR->(breln1unionI->(forall (A:fofType) (R:fofType), (((breln1 A) R)->(forall (S:fofType), (((breln1 A) S)->(forall (Xx:fofType), (((in Xx) A)->(forall (Xy:fofType), (((in Xy) A)->(((in ((kpair Xx) Xy)) ((binunion R) S))->((or ((i
% EOF
%------------------------------------------------------------------------------