TSTP Solution File: SEV303^5 by cocATP---0.2.0
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : cocATP---0.2.0
% Problem : SEV303^5 : TPTP v6.2.0. Bugfixed v6.2.0.
% Transfm : none
% Format : tptp:raw
% Command : python CASC.py /export/starexec/sandbox/benchmark/theBenchmark.p
% Computer : n089.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 2.6.32-504.8.1.el6.x86_64
% CPULimit : 300s
% DateTime : Tue Apr 21 16:51:42 EDT 2015
% Result : Theorem 21.01s
% Output : Proof 21.11s
% Verified :
% SZS Type : None (Parsing solution fails)
% Syntax : Number of formulae : 0
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.03 % Problem : SEV303^5 : TPTP v6.2.0. Bugfixed v6.2.0.
% 0.00/0.03 % Command : python CASC.py /export/starexec/sandbox/benchmark/theBenchmark.p
% 0.03/1.07 % Computer : n089.star.cs.uiowa.edu
% 0.03/1.07 % Model : x86_64 x86_64
% 0.03/1.07 % CPU : Intel(R) Xeon(R) CPU E5-2609 0 @ 2.40GHz
% 0.03/1.07 % Memory : 32286.75MB
% 0.03/1.07 % OS : Linux 2.6.32-504.8.1.el6.x86_64
% 0.03/1.07 % CPULimit : 300
% 0.03/1.07 % DateTime : Thu Apr 16 12:29:12 CDT 2015
% 0.03/1.07 % CPUTime :
% 0.03/1.09 Python 2.7.5
% 0.06/1.42 Using paths ['/home/cristobal/cocATP/CASC/TPTP/', '/export/starexec/sandbox/benchmark/', '/export/starexec/sandbox/benchmark/']
% 0.06/1.42 FOF formula (<kernel.Constant object at 0x1e89050>, <kernel.DependentProduct object at 0x1e89c20>) of role type named cNAT_type
% 0.06/1.42 Using role type
% 0.06/1.42 Declaring cNAT:(((fofType->Prop)->Prop)->Prop)
% 0.06/1.42 FOF formula (<kernel.Constant object at 0x1aa7908>, <kernel.DependentProduct object at 0x1e89320>) of role type named cSUCC_type
% 0.06/1.42 Using role type
% 0.06/1.42 Declaring cSUCC:(((fofType->Prop)->Prop)->((fofType->Prop)->Prop))
% 0.06/1.42 FOF formula (<kernel.Constant object at 0x1aa7908>, <kernel.DependentProduct object at 0x1e89050>) of role type named cZERO_type
% 0.06/1.42 Using role type
% 0.06/1.42 Declaring cZERO:((fofType->Prop)->Prop)
% 0.06/1.42 FOF formula (((eq ((fofType->Prop)->Prop)) cZERO) (fun (Xp:(fofType->Prop))=> (((ex fofType) (fun (Xx:fofType)=> (Xp Xx)))->False))) of role definition named cZERO_def
% 0.06/1.42 A new definition: (((eq ((fofType->Prop)->Prop)) cZERO) (fun (Xp:(fofType->Prop))=> (((ex fofType) (fun (Xx:fofType)=> (Xp Xx)))->False)))
% 0.06/1.42 Defined: cZERO:=(fun (Xp:(fofType->Prop))=> (((ex fofType) (fun (Xx:fofType)=> (Xp Xx)))->False))
% 0.06/1.42 FOF formula (((eq (((fofType->Prop)->Prop)->((fofType->Prop)->Prop))) cSUCC) (fun (Xn:((fofType->Prop)->Prop)) (Xp:(fofType->Prop))=> ((ex fofType) (fun (Xx:fofType)=> ((and (Xp Xx)) (Xn (fun (Xt:fofType)=> ((and (not (((eq fofType) Xt) Xx))) (Xp Xt))))))))) of role definition named cSUCC_def
% 0.06/1.42 A new definition: (((eq (((fofType->Prop)->Prop)->((fofType->Prop)->Prop))) cSUCC) (fun (Xn:((fofType->Prop)->Prop)) (Xp:(fofType->Prop))=> ((ex fofType) (fun (Xx:fofType)=> ((and (Xp Xx)) (Xn (fun (Xt:fofType)=> ((and (not (((eq fofType) Xt) Xx))) (Xp Xt)))))))))
% 0.06/1.42 Defined: cSUCC:=(fun (Xn:((fofType->Prop)->Prop)) (Xp:(fofType->Prop))=> ((ex fofType) (fun (Xx:fofType)=> ((and (Xp Xx)) (Xn (fun (Xt:fofType)=> ((and (not (((eq fofType) Xt) Xx))) (Xp Xt))))))))
% 0.06/1.42 FOF formula (((eq (((fofType->Prop)->Prop)->Prop)) cNAT) (fun (Xn:((fofType->Prop)->Prop))=> (forall (Xp:(((fofType->Prop)->Prop)->Prop)), (((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp Xx)->(Xp (cSUCC Xx)))))->(Xp Xn))))) of role definition named cNAT_def
% 0.06/1.42 A new definition: (((eq (((fofType->Prop)->Prop)->Prop)) cNAT) (fun (Xn:((fofType->Prop)->Prop))=> (forall (Xp:(((fofType->Prop)->Prop)->Prop)), (((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp Xx)->(Xp (cSUCC Xx)))))->(Xp Xn)))))
% 0.06/1.42 Defined: cNAT:=(fun (Xn:((fofType->Prop)->Prop))=> (forall (Xp:(((fofType->Prop)->Prop)->Prop)), (((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp Xx)->(Xp (cSUCC Xx)))))->(Xp Xn))))
% 0.06/1.42 FOF formula (forall (Xp:(((fofType->Prop)->Prop)->Prop)), (((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))->(forall (Xm:((fofType->Prop)->Prop)), ((((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm)))->(Xp Xm))))) of role conjecture named cX6102_C
% 0.06/1.42 Conjecture to prove = (forall (Xp:(((fofType->Prop)->Prop)->Prop)), (((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))->(forall (Xm:((fofType->Prop)->Prop)), ((((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm)))->(Xp Xm))))):Prop
% 3.00/4.19 Parameter fofType_DUMMY:fofType.
% 3.00/4.19 We need to prove ['(forall (Xp:(((fofType->Prop)->Prop)->Prop)), (((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))->(forall (Xm:((fofType->Prop)->Prop)), ((((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm)))->(Xp Xm)))))']
% 3.00/4.19 Parameter fofType:Type.
% 3.00/4.19 Definition cNAT:=(fun (Xn:((fofType->Prop)->Prop))=> (forall (Xp:(((fofType->Prop)->Prop)->Prop)), (((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp Xx)->(Xp (cSUCC Xx)))))->(Xp Xn)))):(((fofType->Prop)->Prop)->Prop).
% 3.00/4.19 Definition cSUCC:=(fun (Xn:((fofType->Prop)->Prop)) (Xp:(fofType->Prop))=> ((ex fofType) (fun (Xx:fofType)=> ((and (Xp Xx)) (Xn (fun (Xt:fofType)=> ((and (not (((eq fofType) Xt) Xx))) (Xp Xt)))))))):(((fofType->Prop)->Prop)->((fofType->Prop)->Prop)).
% 3.00/4.19 Definition cZERO:=(fun (Xp:(fofType->Prop))=> (((ex fofType) (fun (Xx:fofType)=> (Xp Xx)))->False)):((fofType->Prop)->Prop).
% 3.00/4.19 Trying to prove (forall (Xp:(((fofType->Prop)->Prop)->Prop)), (((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))->(forall (Xm:((fofType->Prop)->Prop)), ((((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm)))->(Xp Xm)))))
% 3.00/4.19 Found x4:(Xp Xm)
% 3.00/4.19 Found (fun (x4:(Xp Xm))=> x4) as proof of (Xp Xm)
% 3.00/4.19 Found (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4) as proof of ((Xp Xm)->(Xp Xm))
% 3.00/4.19 Found (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4) as proof of ((cNAT Xm)->((Xp Xm)->(Xp Xm)))
% 3.00/4.19 Found (and_rect10 (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)) as proof of (Xp Xm)
% 3.00/4.19 Found ((and_rect1 (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)) as proof of (Xp Xm)
% 3.00/4.19 Found (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)) as proof of (Xp Xm)
% 3.00/4.19 Found (fun (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4))) as proof of (Xp Xm)
% 3.00/4.19 Found (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4))) as proof of ((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->(Xp Xm))
% 3.00/4.19 Found (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4))) as proof of ((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->(Xp Xm)))
% 3.00/4.19 Found (and_rect00 (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)))) as proof of (Xp Xm)
% 4.71/5.81 Found ((and_rect0 (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)))) as proof of (Xp Xm)
% 4.71/5.81 Found (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)))) as proof of (Xp Xm)
% 4.71/5.81 Found (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)))) as proof of (Xp Xm)
% 4.71/5.81 Found x1:(Xp cZERO)
% 4.71/5.81 Found x1 as proof of (Xp cZERO)
% 4.71/5.81 Found x1:(Xp cZERO)
% 4.71/5.81 Found x1 as proof of (Xp cZERO)
% 4.71/5.81 Found x1:(Xp cZERO)
% 4.71/5.81 Found x1 as proof of (Xp cZERO)
% 4.71/5.81 Found x1:(Xp cZERO)
% 4.71/5.81 Found x1 as proof of (Xp cZERO)
% 4.71/5.81 Found x4:(Xp Xm)
% 4.71/5.81 Found (fun (x4:(Xp Xm))=> x4) as proof of (Xp Xm)
% 4.71/5.81 Found (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4) as proof of ((Xp Xm)->(Xp Xm))
% 4.71/5.81 Found (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4) as proof of ((cNAT Xm)->((Xp Xm)->(Xp Xm)))
% 4.71/5.81 Found (and_rect10 (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)) as proof of (Xp Xm)
% 4.71/5.81 Found ((and_rect1 (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)) as proof of (Xp Xm)
% 4.71/5.81 Found (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)) as proof of (Xp Xm)
% 4.71/5.81 Found (fun (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4))) as proof of (Xp Xm)
% 4.71/5.81 Found (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4))) as proof of ((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->(Xp Xm))
% 4.71/5.81 Found (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4))) as proof of ((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->(Xp Xm)))
% 4.71/5.81 Found (and_rect00 (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)))) as proof of (Xp Xm)
% 4.71/5.81 Found ((and_rect0 (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)))) as proof of (Xp Xm)
% 4.71/5.81 Found (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)))) as proof of (Xp Xm)
% 7.10/8.26 Found (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) x00)) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)))) as proof of (Xp Xm)
% 7.10/8.26 Found x1:(Xp cZERO)
% 7.10/8.26 Found x1 as proof of (Xp cZERO)
% 7.10/8.26 Found x1:(Xp cZERO)
% 7.10/8.26 Found x1 as proof of (Xp cZERO)
% 7.10/8.26 Found x1:(Xp cZERO)
% 7.10/8.26 Found x1 as proof of (Xp cZERO)
% 7.10/8.26 Found x1:(Xp cZERO)
% 7.10/8.26 Found x1 as proof of (Xp cZERO)
% 7.10/8.26 Found x4:(Xp0 cZERO)
% 7.10/8.26 Found (fun (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4) as proof of (Xp0 cZERO)
% 7.10/8.26 Found (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4) as proof of ((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->(Xp0 cZERO))
% 7.10/8.26 Found (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4) as proof of ((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->(Xp0 cZERO)))
% 7.10/8.26 Found (and_rect10 (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)) as proof of (Xp0 cZERO)
% 7.10/8.26 Found ((and_rect1 (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)) as proof of (Xp0 cZERO)
% 7.10/8.26 Found (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)) as proof of (Xp0 cZERO)
% 7.10/8.26 Found (fun (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4))) as proof of (Xp0 cZERO)
% 7.10/8.26 Found (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4))) as proof of (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO))
% 7.10/8.26 Found (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4))) as proof of (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))
% 7.10/8.26 Found ((conj10 (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)))) x1) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))
% 7.40/8.53 Found (((conj1 (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)))) x1) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))
% 7.40/8.53 Found ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)))) x1) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))
% 7.40/8.53 Found ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)))) x1) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))
% 7.40/8.53 Found x20:=(x2 Xx):((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))
% 7.40/8.53 Found (x2 Xx) as proof of ((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->(Xp (cSUCC Xx))))
% 7.40/8.53 Found (x2 Xx) as proof of ((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->(Xp (cSUCC Xx))))
% 7.40/8.53 Found (and_rect10 (x2 Xx)) as proof of (Xp (cSUCC Xx))
% 7.40/8.53 Found ((and_rect1 (Xp (cSUCC Xx))) (x2 Xx)) as proof of (Xp (cSUCC Xx))
% 7.40/8.53 Found (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x3)) (Xp (cSUCC Xx))) (x2 Xx)) as proof of (Xp (cSUCC Xx))
% 7.40/8.53 Found (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x3)) (Xp (cSUCC Xx))) (x2 Xx)) as proof of (Xp (cSUCC Xx))
% 9.70/10.87 Found x2000:=(x200 x5):(Xp (cSUCC Xx))
% 9.70/10.87 Found (x200 x5) as proof of (Xp (cSUCC Xx))
% 9.70/10.87 Found ((x20 x4) x5) as proof of (Xp (cSUCC Xx))
% 9.70/10.87 Found (((x2 Xx) x4) x5) as proof of (Xp (cSUCC Xx))
% 9.70/10.87 Found (((x2 Xx) x4) x5) as proof of (Xp (cSUCC Xx))
% 9.70/10.87 Found x1:(Xp cZERO)
% 9.70/10.87 Found (fun (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1) as proof of (Xp cZERO)
% 9.70/10.87 Found (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1) as proof of ((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->(Xp cZERO))
% 9.70/10.87 Found (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1) as proof of ((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->(Xp cZERO)))
% 9.70/10.88 Found (and_rect00 (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)) as proof of (Xp cZERO)
% 9.70/10.88 Found ((and_rect0 (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)) as proof of (Xp cZERO)
% 9.70/10.88 Found (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)) as proof of (Xp cZERO)
% 9.70/10.88 Found (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)) as proof of (Xp cZERO)
% 9.70/10.88 Found x2:(Xp0 cZERO)
% 9.70/10.88 Found (fun (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2) as proof of (Xp0 cZERO)
% 9.70/10.88 Found (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2) as proof of ((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->(Xp0 cZERO))
% 9.70/10.88 Found (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2) as proof of ((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->(Xp0 cZERO)))
% 9.70/10.88 Found (and_rect00 (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)) as proof of (Xp0 cZERO)
% 9.70/10.88 Found ((and_rect0 (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)) as proof of (Xp0 cZERO)
% 9.70/10.88 Found (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)) as proof of (Xp0 cZERO)
% 9.70/10.88 Found (fun (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2))) as proof of (Xp0 cZERO)
% 9.70/10.88 Found (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2))) as proof of (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO))
% 9.70/10.88 Found (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2))) as proof of (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))
% 9.70/10.88 Found ((conj10 (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1))) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC
% Xx)))))->(Xp0 cZERO)))) (Xp cZERO))
% 9.70/10.88 Found (((conj1 (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1))) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0
% (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))
% 9.70/10.88 Found ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC
% Xx))))))=> x1))) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))
% 16.81/17.98 Found ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC
% Xx))))))=> x1))) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))
% 16.81/17.98 Found x30:=(x3 Xx):((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))
% 16.81/17.98 Found (x3 Xx) as proof of ((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->(Xp (cSUCC Xx))))
% 16.81/17.98 Found (x3 Xx) as proof of ((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->(Xp (cSUCC Xx))))
% 16.81/17.98 Found (and_rect10 (x3 Xx)) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found ((and_rect1 (Xp (cSUCC Xx))) (x3 Xx)) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found x3000:=(x300 x5):(Xp (cSUCC Xx))
% 16.81/17.98 Found (x300 x5) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found ((x30 x4) x5) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found (((x3 Xx) x4) x5) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found (((x3 Xx) x4) x5) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found x5000:=(x500 x3):(Xp (cSUCC Xx))
% 16.81/17.98 Found (x500 x3) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found ((x50 x2) x3) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found (((x5 Xx) x2) x3) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found (((x5 Xx) x2) x3) as proof of (Xp (cSUCC Xx))
% 16.81/17.98 Found x4:(Xp0 cZERO)
% 16.81/17.98 Found (fun (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4) as proof of (Xp0 cZERO)
% 16.81/17.98 Found (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4) as proof of ((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->(Xp0 cZERO))
% 16.81/17.98 Found (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4) as proof of ((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->(Xp0 cZERO)))
% 16.81/17.98 Found (and_rect10 (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)) as proof of (Xp0 cZERO)
% 16.81/17.99 Found ((and_rect1 (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)) as proof of (Xp0 cZERO)
% 16.81/17.99 Found (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)) as proof of (Xp0 cZERO)
% 16.81/17.99 Found (fun (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4))) as proof of (Xp0 cZERO)
% 16.81/17.99 Found (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4))) as proof of (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO))
% 16.81/17.99 Found (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4))) as proof of (cNAT cZERO)
% 16.81/17.99 Found ((conj10 (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)))) x1) as proof of ((and (cNAT cZERO)) (Xp cZERO))
% 16.81/17.99 Found (((conj1 (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)))) x1) as proof of ((and (cNAT cZERO)) (Xp cZERO))
% 16.81/17.99 Found ((((conj (cNAT cZERO)) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)))) x1) as proof of ((and (cNAT cZERO)) (Xp cZERO))
% 16.81/17.99 Found ((((conj (cNAT cZERO)) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x3:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x4:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x4) x3)) (Xp0 cZERO)) (fun (x4:(Xp0 cZERO)) (x5:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x4)))) x1) as proof of ((and (cNAT cZERO)) (Xp cZERO))
% 19.41/20.50 Found x20:=(x2 Xx):((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))
% 19.41/20.50 Found (x2 Xx) as proof of ((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->(Xp (cSUCC Xx))))
% 19.41/20.50 Found (x2 Xx) as proof of ((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->(Xp (cSUCC Xx))))
% 19.41/20.50 Found (and_rect10 (x2 Xx)) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found ((and_rect1 (Xp (cSUCC Xx))) (x2 Xx)) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found (((fun (P:Type) (x3:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x3) x00)) (Xp (cSUCC Xx))) (x2 Xx)) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found (((fun (P:Type) (x3:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x3) x00)) (Xp (cSUCC Xx))) (x2 Xx)) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found x2000:=(x200 x4):(Xp (cSUCC Xx))
% 19.41/20.50 Found (x200 x4) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found ((x20 x3) x4) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found (((x2 Xx) x3) x4) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found (((x2 Xx) x3) x4) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found x30:=(x3 Xx):((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))
% 19.41/20.50 Found (x3 Xx) as proof of ((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->(Xp (cSUCC Xx))))
% 19.41/20.50 Found (x3 Xx) as proof of ((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->(Xp (cSUCC Xx))))
% 19.41/20.50 Found (and_rect10 (x3 Xx)) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found ((and_rect1 (Xp (cSUCC Xx))) (x3 Xx)) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found (fun (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx))) as proof of (Xp (cSUCC Xx))
% 19.41/20.50 Found (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx))) as proof of ((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->(Xp (cSUCC Xx)))
% 20.70/21.89 Found (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx))) as proof of ((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->(Xp (cSUCC Xx))))
% 20.70/21.89 Found (and_rect00 (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)))) as proof of (Xp (cSUCC Xx))
% 20.70/21.89 Found ((and_rect0 (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)))) as proof of (Xp (cSUCC Xx))
% 20.70/21.89 Found (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)))) as proof of (Xp (cSUCC Xx))
% 20.70/21.89 Found (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)))) as proof of (Xp (cSUCC Xx))
% 20.70/21.89 Found x500:=(x50 x2):(Xp0 Xx)
% 20.70/21.89 Found (x50 x2) as proof of (Xp0 Xx)
% 20.70/21.89 Found ((x5 Xp0) x2) as proof of (Xp0 Xx)
% 20.70/21.89 Found ((x5 Xp0) x2) as proof of (Xp0 Xx)
% 20.70/21.89 Found (x40 ((x5 Xp0) x2)) as proof of (Xp0 (cSUCC Xx))
% 20.70/21.89 Found ((x4 Xx) ((x5 Xp0) x2)) as proof of (Xp0 (cSUCC Xx))
% 20.70/21.89 Found (fun (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2))) as proof of (Xp0 (cSUCC Xx))
% 20.70/21.89 Found (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2))) as proof of ((Xp Xx)->(Xp0 (cSUCC Xx)))
% 20.70/21.89 Found (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2))) as proof of ((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->(Xp0 (cSUCC Xx))))
% 20.70/21.90 Found (and_rect10 (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))) as proof of (Xp0 (cSUCC Xx))
% 20.70/21.90 Found ((and_rect1 (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))) as proof of (Xp0 (cSUCC Xx))
% 20.70/21.90 Found (((fun (P:Type) (x5:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))) as proof of (Xp0 (cSUCC Xx))
% 20.70/21.90 Found (fun (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2))))) as proof of (Xp0 (cSUCC Xx))
% 20.70/21.90 Found (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2))))) as proof of ((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->(Xp0 (cSUCC Xx)))
% 20.70/21.90 Found (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2))))) as proof of ((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->(Xp0 (cSUCC Xx))))
% 20.70/21.90 Found (and_rect00 (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))) as proof of (Xp0 (cSUCC Xx))
% 20.82/21.91 Found ((and_rect0 (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))) as proof of (Xp0 (cSUCC Xx))
% 20.82/21.91 Found (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))) as proof of (Xp0 (cSUCC Xx))
% 20.82/21.91 Found (fun (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC
% Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2))))))) as proof of (Xp0 (cSUCC Xx))
% 20.82/21.91 Found (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall
% (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2))))))) as proof of (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx)))
% 20.82/21.94 Found (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall
% (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2))))))) as proof of (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))
% 20.82/21.94 Found ((conj10 (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall
% (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx))))) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)),
% ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))
% 20.82/21.94 Found (((conj1 (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall
% (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx))))) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall
% (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))
% 20.82/21.95 Found ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00
% Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx))))
% (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx))))) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))
% 20.82/21.96 Found (fun (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00
% (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp
% Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)))))) as proof of ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))
% 20.82/21.96 Found (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall
% (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)),
% ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)))))) as proof of (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))
% 20.82/21.98 Found (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall
% (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)),
% ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)))))) as proof of (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))))
% 20.82/21.98 Found ((conj00 ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC
% Xx))))))=> x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall
% (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)),
% ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx))))))) as proof of ((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))
% 20.82/21.99 Found (((conj0 (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))))) ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall
% (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall
% (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC
% Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx))))))) as proof of ((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0
% Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))
% 20.92/22.01 Found ((((conj ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))))) ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=>
% (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun
% (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00
% (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx))))))) as proof of ((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0
% cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))
% 20.92/22.02 Found ((((conj ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))))) ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=>
% (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun
% (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00
% (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx))))))) as proof of ((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0
% cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))
% 20.92/22.03 Found (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) (x0 ((((conj ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx)))))
% (Xp (cSUCC Xx)))))) ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=>
% x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00
% Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0
% Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)))))))))) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)))) as proof of (Xp Xm)
% 20.92/22.05 Found (fun (x0:(((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm))))=> (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp
% Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) (x0 ((((conj ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))))) ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0
% Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun
% (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00
% (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)))))))))) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4))))) as proof of (Xp Xm)
% 20.92/22.07 Found (fun (Xm:((fofType->Prop)->Prop)) (x0:(((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm))))=> (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun
% (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) (x0 ((((conj ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))))) ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall
% (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0
% (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall
% (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3 Xx)))))))))) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4))))) as proof of ((((and ((and (forall
% (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm)))->(Xp Xm))
% 20.92/22.09 Found (fun (x:((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))) (Xm:((fofType->Prop)->Prop)) (x0:(((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm))))=> (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp Xm)) (fun (x1:(Xp
% cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) (x0 ((((conj ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))))) ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and (Xp0 cZERO)) (forall
% (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall
% (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp
% Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3
% Xx)))))))))) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4))))) as proof of (forall (Xm:((fofType->Prop)->Prop)), ((((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm)))->(Xp Xm)))
% 21.01/22.11 Found (fun (Xp:(((fofType->Prop)->Prop)->Prop)) (x:((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))) (Xm:((fofType->Prop)->Prop)) (x0:(((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm))))=> (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC
% Xx)))))) P) x1) x)) (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) (x0 ((((conj ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))))) ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop))
% (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall
% (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp
% Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3
% Xx)))))))))) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4))))) as proof of (((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))->(forall (Xm:((fofType->Prop)->Prop)), ((((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm)))->(Xp Xm))))
% 21.01/22.13 Found (fun (Xp:(((fofType->Prop)->Prop)->Prop)) (x:((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))) (Xm:((fofType->Prop)->Prop)) (x0:(((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm))))=> (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC
% Xx)))))) P) x1) x)) (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) (x0 ((((conj ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))))) ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop))
% (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall
% (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp
% Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3
% Xx)))))))))) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4))))) as proof of (forall (Xp:(((fofType->Prop)->Prop)->Prop)), (((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))->(forall (Xm:((fofType->Prop)->Prop)), ((((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm)))->(Xp Xm)))))
% 21.01/22.13 Got proof (fun (Xp:(((fofType->Prop)->Prop)->Prop)) (x:((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))) (Xm:((fofType->Prop)->Prop)) (x0:(((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm))))=> (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC
% Xx)))))) P) x1) x)) (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) (x0 ((((conj ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))))) ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop))
% (x1:((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall
% (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp
% Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3
% Xx)))))))))) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)))))
% 21.01/22.15 Time elapsed = 20.706673s
% 21.01/22.15 node=1782 cost=1508.000000 depth=35
% 21.01/22.15::::::::::::::::::::::
% 21.01/22.15 % SZS status Theorem for /export/starexec/sandbox/benchmark/theBenchmark.p
% 21.01/22.15 % SZS output start Proof for /export/starexec/sandbox/benchmark/theBenchmark.p
% 21.01/22.15 (fun (Xp:(((fofType->Prop)->Prop)->Prop)) (x:((and (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))) (Xm:((fofType->Prop)->Prop)) (x0:(((and ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))))))->((and (cNAT Xm)) (Xp Xm))))=> (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))
% P) x1) x)) (Xp Xm)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> (((fun (P:Type) (x3:((cNAT Xm)->((Xp Xm)->P)))=> (((((and_rect (cNAT Xm)) (Xp Xm)) P) x3) (x0 ((((conj ((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO))) (forall (Xx:((fofType->Prop)->Prop)), (((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx))->((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx)))))) ((((conj (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))->(Xp0 cZERO)))) (Xp cZERO)) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x1:((and
% (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))))=> (((fun (P:Type) (x2:((Xp0 cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx))))) P) x2) x1)) (Xp0 cZERO)) (fun (x2:(Xp0 cZERO)) (x3:(forall (Xx:((fofType->Prop)->Prop)), ((Xp0 Xx)->(Xp0 (cSUCC Xx)))))=> x2)))) (((fun (P:Type) (x1:((Xp cZERO)->((forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx)))))) P) x1) x)) (Xp cZERO)) (fun (x1:(Xp cZERO)) (x2:(forall (Xx:((fofType->Prop)->Prop)), ((cNAT Xx)->((Xp Xx)->(Xp (cSUCC Xx))))))=> x1)))) (fun (Xx:((fofType->Prop)->Prop)) (x1:((and (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)))=> ((((conj (forall
% (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 (cSUCC Xx))))) (Xp (cSUCC Xx))) (fun (Xp0:(((fofType->Prop)->Prop)->Prop)) (x2:((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))))=> (((fun (P:Type) (x3:((Xp0 cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))->P)))=> (((((and_rect (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0))))) P) x3) x2)) (Xp0 (cSUCC Xx))) (fun (x3:(Xp0 cZERO)) (x4:(forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))=> (((fun (P:Type) (x5:((forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (Xp
% Xx)) P) x5) x1)) (Xp0 (cSUCC Xx))) (fun (x5:(forall (Xp00:(((fofType->Prop)->Prop)->Prop)), (((and (Xp00 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp00 Xx0)->(Xp00 (cSUCC Xx0)))))->(Xp00 Xx)))) (x6:(Xp Xx))=> ((x4 Xx) ((x5 Xp0) x2)))))))) (((fun (P:Type) (x2:((Xp cZERO)->((forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))->P)))=> (((((and_rect (Xp cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0)))))) P) x2) x)) (Xp (cSUCC Xx))) (fun (x2:(Xp cZERO)) (x3:(forall (Xx0:((fofType->Prop)->Prop)), ((cNAT Xx0)->((Xp Xx0)->(Xp (cSUCC Xx0))))))=> (((fun (P:Type) (x4:((forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))->((Xp Xx)->P)))=> (((((and_rect (forall (Xp0:(((fofType->Prop)->Prop)->Prop)), (((and (Xp0 cZERO)) (forall (Xx0:((fofType->Prop)->Prop)), ((Xp0 Xx0)->(Xp0 (cSUCC Xx0)))))->(Xp0 Xx)))) (Xp Xx)) P) x4) x1)) (Xp (cSUCC Xx))) (x3
% Xx)))))))))) (Xp Xm)) (fun (x3:(cNAT Xm)) (x4:(Xp Xm))=> x4)))))
% 21.11/22.25 % SZS output end Proof for /export/starexec/sandbox/benchmark/theBenchmark.p
%------------------------------------------------------------------------------