a2)).(leq_ind g (\lambda (a: A).(\lambda (a0: A).(leq g (asucc g a) (asucc g
a0)))) (\lambda (h1: nat).(\lambda (h2: nat).(\lambda (n1: nat).(\lambda (n2:
nat).(\lambda (k: nat).(\lambda (H0: (eq A (aplus g (ASort h1 n1) k) (aplus g
-(ASort h2 n2) k))).((match h1 in nat return (\lambda (n: nat).((eq A (aplus g
-(ASort n n1) k) (aplus g (ASort h2 n2) k)) \to (leq g (match n with [O
-\Rightarrow (ASort O (next g n1)) | (S h) \Rightarrow (ASort h n1)]) (match
-h2 with [O \Rightarrow (ASort O (next g n2)) | (S h) \Rightarrow (ASort h
-n2)])))) with [O \Rightarrow (\lambda (H1: (eq A (aplus g (ASort O n1) k)
-(aplus g (ASort h2 n2) k))).((match h2 in nat return (\lambda (n: nat).((eq A
-(aplus g (ASort O n1) k) (aplus g (ASort n n2) k)) \to (leq g (ASort O (next
-g n1)) (match n with [O \Rightarrow (ASort O (next g n2)) | (S h) \Rightarrow
-(ASort h n2)])))) with [O \Rightarrow (\lambda (H2: (eq A (aplus g (ASort O
-n1) k) (aplus g (ASort O n2) k))).(leq_sort g O O (next g n1) (next g n2) k
-(eq_ind A (aplus g (ASort O n1) (S k)) (\lambda (a: A).(eq A a (aplus g
-(ASort O (next g n2)) k))) (eq_ind A (aplus g (ASort O n2) (S k)) (\lambda
-(a: A).(eq A (aplus g (ASort O n1) (S k)) a)) (eq_ind_r A (aplus g (ASort O
-n2) k) (\lambda (a: A).(eq A (asucc g a) (asucc g (aplus g (ASort O n2) k))))
+(ASort h2 n2) k))).(nat_ind (\lambda (n: nat).((eq A (aplus g (ASort n n1) k)
+(aplus g (ASort h2 n2) k)) \to (leq g (match n with [O \Rightarrow (ASort O
+(next g n1)) | (S h) \Rightarrow (ASort h n1)]) (match h2 with [O \Rightarrow
+(ASort O (next g n2)) | (S h) \Rightarrow (ASort h n2)])))) (\lambda (H1: (eq
+A (aplus g (ASort O n1) k) (aplus g (ASort h2 n2) k))).(nat_ind (\lambda (n:
+nat).((eq A (aplus g (ASort O n1) k) (aplus g (ASort n n2) k)) \to (leq g
+(ASort O (next g n1)) (match n with [O \Rightarrow (ASort O (next g n2)) | (S
+h) \Rightarrow (ASort h n2)])))) (\lambda (H2: (eq A (aplus g (ASort O n1) k)
+(aplus g (ASort O n2) k))).(leq_sort g O O (next g n1) (next g n2) k (eq_ind
+A (aplus g (ASort O n1) (S k)) (\lambda (a: A).(eq A a (aplus g (ASort O
+(next g n2)) k))) (eq_ind A (aplus g (ASort O n2) (S k)) (\lambda (a: A).(eq
+A (aplus g (ASort O n1) (S k)) a)) (eq_ind_r A (aplus g (ASort O n2) k)
+(\lambda (a: A).(eq A (asucc g a) (asucc g (aplus g (ASort O n2) k))))
(refl_equal A (asucc g (aplus g (ASort O n2) k))) (aplus g (ASort O n1) k)
H2) (aplus g (ASort O (next g n2)) k) (aplus_sort_O_S_simpl g n2 k)) (aplus g
-(ASort O (next g n1)) k) (aplus_sort_O_S_simpl g n1 k)))) | (S n) \Rightarrow
-(\lambda (H2: (eq A (aplus g (ASort O n1) k) (aplus g (ASort (S n) n2)
-k))).(leq_sort g O n (next g n1) n2 k (eq_ind A (aplus g (ASort O n1) (S k))
-(\lambda (a: A).(eq A a (aplus g (ASort n n2) k))) (eq_ind A (aplus g (ASort
-(S n) n2) (S k)) (\lambda (a: A).(eq A (aplus g (ASort O n1) (S k)) a))
-(eq_ind_r A (aplus g (ASort (S n) n2) k) (\lambda (a: A).(eq A (asucc g a)
-(asucc g (aplus g (ASort (S n) n2) k)))) (refl_equal A (asucc g (aplus g
-(ASort (S n) n2) k))) (aplus g (ASort O n1) k) H2) (aplus g (ASort n n2) k)
-(aplus_sort_S_S_simpl g n2 n k)) (aplus g (ASort O (next g n1)) k)
-(aplus_sort_O_S_simpl g n1 k))))]) H1)) | (S n) \Rightarrow (\lambda (H1: (eq
-A (aplus g (ASort (S n) n1) k) (aplus g (ASort h2 n2) k))).((match h2 in nat
-return (\lambda (n0: nat).((eq A (aplus g (ASort (S n) n1) k) (aplus g (ASort
-n0 n2) k)) \to (leq g (ASort n n1) (match n0 with [O \Rightarrow (ASort O
-(next g n2)) | (S h) \Rightarrow (ASort h n2)])))) with [O \Rightarrow
-(\lambda (H2: (eq A (aplus g (ASort (S n) n1) k) (aplus g (ASort O n2)
-k))).(leq_sort g n O n1 (next g n2) k (eq_ind A (aplus g (ASort O n2) (S k))
-(\lambda (a: A).(eq A (aplus g (ASort n n1) k) a)) (eq_ind A (aplus g (ASort
-(S n) n1) (S k)) (\lambda (a: A).(eq A a (aplus g (ASort O n2) (S k))))
-(eq_ind_r A (aplus g (ASort O n2) k) (\lambda (a: A).(eq A (asucc g a) (asucc
-g (aplus g (ASort O n2) k)))) (refl_equal A (asucc g (aplus g (ASort O n2)
-k))) (aplus g (ASort (S n) n1) k) H2) (aplus g (ASort n n1) k)
-(aplus_sort_S_S_simpl g n1 n k)) (aplus g (ASort O (next g n2)) k)
-(aplus_sort_O_S_simpl g n2 k)))) | (S n0) \Rightarrow (\lambda (H2: (eq A
-(aplus g (ASort (S n) n1) k) (aplus g (ASort (S n0) n2) k))).(leq_sort g n n0
-n1 n2 k (eq_ind A (aplus g (ASort (S n) n1) (S k)) (\lambda (a: A).(eq A a
-(aplus g (ASort n0 n2) k))) (eq_ind A (aplus g (ASort (S n0) n2) (S k))
-(\lambda (a: A).(eq A (aplus g (ASort (S n) n1) (S k)) a)) (eq_ind_r A (aplus
-g (ASort (S n0) n2) k) (\lambda (a: A).(eq A (asucc g a) (asucc g (aplus g
-(ASort (S n0) n2) k)))) (refl_equal A (asucc g (aplus g (ASort (S n0) n2)
-k))) (aplus g (ASort (S n) n1) k) H2) (aplus g (ASort n0 n2) k)
-(aplus_sort_S_S_simpl g n2 n0 k)) (aplus g (ASort n n1) k)
-(aplus_sort_S_S_simpl g n1 n k))))]) H1))]) H0))))))) (\lambda (a3:
-A).(\lambda (a4: A).(\lambda (H0: (leq g a3 a4)).(\lambda (_: (leq g (asucc g
-a3) (asucc g a4))).(\lambda (a5: A).(\lambda (a6: A).(\lambda (_: (leq g a5
-a6)).(\lambda (H3: (leq g (asucc g a5) (asucc g a6))).(leq_head g a3 a4 H0
-(asucc g a5) (asucc g a6) H3))))))))) a1 a2 H)))).
+(ASort O (next g n1)) k) (aplus_sort_O_S_simpl g n1 k)))) (\lambda (h3:
+nat).(\lambda (_: (((eq A (aplus g (ASort O n1) k) (aplus g (ASort h3 n2) k))
+\to (leq g (ASort O (next g n1)) (match h3 with [O \Rightarrow (ASort O (next
+g n2)) | (S h) \Rightarrow (ASort h n2)]))))).(\lambda (H2: (eq A (aplus g
+(ASort O n1) k) (aplus g (ASort (S h3) n2) k))).(leq_sort g O h3 (next g n1)
+n2 k (eq_ind A (aplus g (ASort O n1) (S k)) (\lambda (a: A).(eq A a (aplus g
+(ASort h3 n2) k))) (eq_ind A (aplus g (ASort (S h3) n2) (S k)) (\lambda (a:
+A).(eq A (aplus g (ASort O n1) (S k)) a)) (eq_ind_r A (aplus g (ASort (S h3)
+n2) k) (\lambda (a: A).(eq A (asucc g a) (asucc g (aplus g (ASort (S h3) n2)
+k)))) (refl_equal A (asucc g (aplus g (ASort (S h3) n2) k))) (aplus g (ASort
+O n1) k) H2) (aplus g (ASort h3 n2) k) (aplus_sort_S_S_simpl g n2 h3 k))
+(aplus g (ASort O (next g n1)) k) (aplus_sort_O_S_simpl g n1 k)))))) h2 H1))
+(\lambda (h3: nat).(\lambda (IHh1: (((eq A (aplus g (ASort h3 n1) k) (aplus g
+(ASort h2 n2) k)) \to (leq g (match h3 with [O \Rightarrow (ASort O (next g
+n1)) | (S h) \Rightarrow (ASort h n1)]) (match h2 with [O \Rightarrow (ASort
+O (next g n2)) | (S h) \Rightarrow (ASort h n2)]))))).(\lambda (H1: (eq A
+(aplus g (ASort (S h3) n1) k) (aplus g (ASort h2 n2) k))).(nat_ind (\lambda
+(n: nat).((eq A (aplus g (ASort (S h3) n1) k) (aplus g (ASort n n2) k)) \to
+((((eq A (aplus g (ASort h3 n1) k) (aplus g (ASort n n2) k)) \to (leq g
+(match h3 with [O \Rightarrow (ASort O (next g n1)) | (S h) \Rightarrow
+(ASort h n1)]) (match n with [O \Rightarrow (ASort O (next g n2)) | (S h)
+\Rightarrow (ASort h n2)])))) \to (leq g (ASort h3 n1) (match n with [O
+\Rightarrow (ASort O (next g n2)) | (S h) \Rightarrow (ASort h n2)])))))
+(\lambda (H2: (eq A (aplus g (ASort (S h3) n1) k) (aplus g (ASort O n2)
+k))).(\lambda (_: (((eq A (aplus g (ASort h3 n1) k) (aplus g (ASort O n2) k))
+\to (leq g (match h3 with [O \Rightarrow (ASort O (next g n1)) | (S h)
+\Rightarrow (ASort h n1)]) (ASort O (next g n2)))))).(leq_sort g h3 O n1
+(next g n2) k (eq_ind A (aplus g (ASort O n2) (S k)) (\lambda (a: A).(eq A
+(aplus g (ASort h3 n1) k) a)) (eq_ind A (aplus g (ASort (S h3) n1) (S k))
+(\lambda (a: A).(eq A a (aplus g (ASort O n2) (S k)))) (eq_ind_r A (aplus g
+(ASort O n2) k) (\lambda (a: A).(eq A (asucc g a) (asucc g (aplus g (ASort O
+n2) k)))) (refl_equal A (asucc g (aplus g (ASort O n2) k))) (aplus g (ASort
+(S h3) n1) k) H2) (aplus g (ASort h3 n1) k) (aplus_sort_S_S_simpl g n1 h3 k))
+(aplus g (ASort O (next g n2)) k) (aplus_sort_O_S_simpl g n2 k))))) (\lambda
+(h4: nat).(\lambda (_: (((eq A (aplus g (ASort (S h3) n1) k) (aplus g (ASort
+h4 n2) k)) \to ((((eq A (aplus g (ASort h3 n1) k) (aplus g (ASort h4 n2) k))
+\to (leq g (match h3 with [O \Rightarrow (ASort O (next g n1)) | (S h)
+\Rightarrow (ASort h n1)]) (match h4 with [O \Rightarrow (ASort O (next g
+n2)) | (S h) \Rightarrow (ASort h n2)])))) \to (leq g (ASort h3 n1) (match h4
+with [O \Rightarrow (ASort O (next g n2)) | (S h) \Rightarrow (ASort h
+n2)])))))).(\lambda (H2: (eq A (aplus g (ASort (S h3) n1) k) (aplus g (ASort
+(S h4) n2) k))).(\lambda (_: (((eq A (aplus g (ASort h3 n1) k) (aplus g
+(ASort (S h4) n2) k)) \to (leq g (match h3 with [O \Rightarrow (ASort O (next
+g n1)) | (S h) \Rightarrow (ASort h n1)]) (ASort h4 n2))))).(leq_sort g h3 h4
+n1 n2 k (eq_ind A (aplus g (ASort (S h3) n1) (S k)) (\lambda (a: A).(eq A a
+(aplus g (ASort h4 n2) k))) (eq_ind A (aplus g (ASort (S h4) n2) (S k))
+(\lambda (a: A).(eq A (aplus g (ASort (S h3) n1) (S k)) a)) (eq_ind_r A
+(aplus g (ASort (S h4) n2) k) (\lambda (a: A).(eq A (asucc g a) (asucc g
+(aplus g (ASort (S h4) n2) k)))) (refl_equal A (asucc g (aplus g (ASort (S
+h4) n2) k))) (aplus g (ASort (S h3) n1) k) H2) (aplus g (ASort h4 n2) k)
+(aplus_sort_S_S_simpl g n2 h4 k)) (aplus g (ASort h3 n1) k)
+(aplus_sort_S_S_simpl g n1 h3 k))))))) h2 H1 IHh1)))) h1 H0))))))) (\lambda
+(a3: A).(\lambda (a4: A).(\lambda (H0: (leq g a3 a4)).(\lambda (_: (leq g
+(asucc g a3) (asucc g a4))).(\lambda (a5: A).(\lambda (a6: A).(\lambda (_:
+(leq g a5 a6)).(\lambda (H3: (leq g (asucc g a5) (asucc g a6))).(leq_head g
+a3 a4 H0 (asucc g a5) (asucc g a6) H3))))))))) a1 a2 H)))).
theorem asucc_inj:
\forall (g: G).(\forall (a1: A).(\forall (a2: A).((leq g (asucc g a1) (asucc
nat).(\lambda (n0: nat).(\lambda (a2: A).(A_ind (\lambda (a: A).((leq g
(asucc g (ASort n n0)) (asucc g a)) \to (leq g (ASort n n0) a))) (\lambda
(n1: nat).(\lambda (n2: nat).(\lambda (H: (leq g (asucc g (ASort n n0))
-(asucc g (ASort n1 n2)))).((match n in nat return (\lambda (n3: nat).((leq g
-(asucc g (ASort n3 n0)) (asucc g (ASort n1 n2))) \to (leq g (ASort n3 n0)
-(ASort n1 n2)))) with [O \Rightarrow (\lambda (H0: (leq g (asucc g (ASort O
-n0)) (asucc g (ASort n1 n2)))).((match n1 in nat return (\lambda (n3:
-nat).((leq g (asucc g (ASort O n0)) (asucc g (ASort n3 n2))) \to (leq g
-(ASort O n0) (ASort n3 n2)))) with [O \Rightarrow (\lambda (H1: (leq g (asucc
-g (ASort O n0)) (asucc g (ASort O n2)))).(let H2 \def (match H1 in leq return
-(\lambda (a: A).(\lambda (a0: A).(\lambda (_: (leq ? a a0)).((eq A a (ASort O
-(next g n0))) \to ((eq A a0 (ASort O (next g n2))) \to (leq g (ASort O n0)
-(ASort O n2))))))) with [(leq_sort h1 h2 n3 n4 k H2) \Rightarrow (\lambda
-(H3: (eq A (ASort h1 n3) (ASort O (next g n0)))).(\lambda (H4: (eq A (ASort
-h2 n4) (ASort O (next g n2)))).((let H5 \def (f_equal A nat (\lambda (e:
+(asucc g (ASort n1 n2)))).(nat_ind (\lambda (n3: nat).((leq g (asucc g (ASort
+n3 n0)) (asucc g (ASort n1 n2))) \to (leq g (ASort n3 n0) (ASort n1 n2))))
+(\lambda (H0: (leq g (asucc g (ASort O n0)) (asucc g (ASort n1
+n2)))).(nat_ind (\lambda (n3: nat).((leq g (asucc g (ASort O n0)) (asucc g
+(ASort n3 n2))) \to (leq g (ASort O n0) (ASort n3 n2)))) (\lambda (H1: (leq g
+(asucc g (ASort O n0)) (asucc g (ASort O n2)))).(let H2 \def (match H1 in leq
+return (\lambda (a: A).(\lambda (a0: A).(\lambda (_: (leq ? a a0)).((eq A a
+(ASort O (next g n0))) \to ((eq A a0 (ASort O (next g n2))) \to (leq g (ASort
+O n0) (ASort O n2))))))) with [(leq_sort h1 h2 n3 n4 k H2) \Rightarrow
+(\lambda (H3: (eq A (ASort h1 n3) (ASort O (next g n0)))).(\lambda (H4: (eq A
+(ASort h2 n4) (ASort O (next g n2)))).((let H5 \def (f_equal A nat (\lambda
+(e: A).(match e in A return (\lambda (_: A).nat) with [(ASort _ n5)
+\Rightarrow n5 | (AHead _ _) \Rightarrow n3])) (ASort h1 n3) (ASort O (next g
+n0)) H3) in ((let H6 \def (f_equal A nat (\lambda (e: A).(match e in A return
+(\lambda (_: A).nat) with [(ASort n5 _) \Rightarrow n5 | (AHead _ _)
+\Rightarrow h1])) (ASort h1 n3) (ASort O (next g n0)) H3) in (eq_ind nat O
+(\lambda (n5: nat).((eq nat n3 (next g n0)) \to ((eq A (ASort h2 n4) (ASort O
+(next g n2))) \to ((eq A (aplus g (ASort n5 n3) k) (aplus g (ASort h2 n4) k))
+\to (leq g (ASort O n0) (ASort O n2)))))) (\lambda (H7: (eq nat n3 (next g
+n0))).(eq_ind nat (next g n0) (\lambda (n5: nat).((eq A (ASort h2 n4) (ASort
+O (next g n2))) \to ((eq A (aplus g (ASort O n5) k) (aplus g (ASort h2 n4)
+k)) \to (leq g (ASort O n0) (ASort O n2))))) (\lambda (H8: (eq A (ASort h2
+n4) (ASort O (next g n2)))).(let H9 \def (f_equal A nat (\lambda (e:
A).(match e in A return (\lambda (_: A).nat) with [(ASort _ n5) \Rightarrow
-n5 | (AHead _ _) \Rightarrow n3])) (ASort h1 n3) (ASort O (next g n0)) H3) in
-((let H6 \def (f_equal A nat (\lambda (e: A).(match e in A return (\lambda
-(_: A).nat) with [(ASort n5 _) \Rightarrow n5 | (AHead _ _) \Rightarrow h1]))
-(ASort h1 n3) (ASort O (next g n0)) H3) in (eq_ind nat O (\lambda (n5:
-nat).((eq nat n3 (next g n0)) \to ((eq A (ASort h2 n4) (ASort O (next g n2)))
-\to ((eq A (aplus g (ASort n5 n3) k) (aplus g (ASort h2 n4) k)) \to (leq g
-(ASort O n0) (ASort O n2)))))) (\lambda (H7: (eq nat n3 (next g n0))).(eq_ind
-nat (next g n0) (\lambda (n5: nat).((eq A (ASort h2 n4) (ASort O (next g
-n2))) \to ((eq A (aplus g (ASort O n5) k) (aplus g (ASort h2 n4) k)) \to (leq
-g (ASort O n0) (ASort O n2))))) (\lambda (H8: (eq A (ASort h2 n4) (ASort O
-(next g n2)))).(let H9 \def (f_equal A nat (\lambda (e: A).(match e in A
-return (\lambda (_: A).nat) with [(ASort _ n5) \Rightarrow n5 | (AHead _ _)
-\Rightarrow n4])) (ASort h2 n4) (ASort O (next g n2)) H8) in ((let H10 \def
-(f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat) with
-[(ASort n5 _) \Rightarrow n5 | (AHead _ _) \Rightarrow h2])) (ASort h2 n4)
-(ASort O (next g n2)) H8) in (eq_ind nat O (\lambda (n5: nat).((eq nat n4
-(next g n2)) \to ((eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort n5
-n4) k)) \to (leq g (ASort O n0) (ASort O n2))))) (\lambda (H11: (eq nat n4
-(next g n2))).(eq_ind nat (next g n2) (\lambda (n5: nat).((eq A (aplus g
-(ASort O (next g n0)) k) (aplus g (ASort O n5) k)) \to (leq g (ASort O n0)
-(ASort O n2)))) (\lambda (H12: (eq A (aplus g (ASort O (next g n0)) k) (aplus
-g (ASort O (next g n2)) k))).(let H13 \def (eq_ind_r A (aplus g (ASort O
-(next g n0)) k) (\lambda (a: A).(eq A a (aplus g (ASort O (next g n2)) k)))
-H12 (aplus g (ASort O n0) (S k)) (aplus_sort_O_S_simpl g n0 k)) in (let H14
-\def (eq_ind_r A (aplus g (ASort O (next g n2)) k) (\lambda (a: A).(eq A
-(aplus g (ASort O n0) (S k)) a)) H13 (aplus g (ASort O n2) (S k))
-(aplus_sort_O_S_simpl g n2 k)) in (leq_sort g O O n0 n2 (S k) H14)))) n4
+n5 | (AHead _ _) \Rightarrow n4])) (ASort h2 n4) (ASort O (next g n2)) H8) in
+((let H10 \def (f_equal A nat (\lambda (e: A).(match e in A return (\lambda
+(_: A).nat) with [(ASort n5 _) \Rightarrow n5 | (AHead _ _) \Rightarrow h2]))
+(ASort h2 n4) (ASort O (next g n2)) H8) in (eq_ind nat O (\lambda (n5:
+nat).((eq nat n4 (next g n2)) \to ((eq A (aplus g (ASort O (next g n0)) k)
+(aplus g (ASort n5 n4) k)) \to (leq g (ASort O n0) (ASort O n2))))) (\lambda
+(H11: (eq nat n4 (next g n2))).(eq_ind nat (next g n2) (\lambda (n5:
+nat).((eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort O n5) k)) \to
+(leq g (ASort O n0) (ASort O n2)))) (\lambda (H12: (eq A (aplus g (ASort O
+(next g n0)) k) (aplus g (ASort O (next g n2)) k))).(let H13 \def (eq_ind_r A
+(aplus g (ASort O (next g n0)) k) (\lambda (a: A).(eq A a (aplus g (ASort O
+(next g n2)) k))) H12 (aplus g (ASort O n0) (S k)) (aplus_sort_O_S_simpl g n0
+k)) in (let H14 \def (eq_ind_r A (aplus g (ASort O (next g n2)) k) (\lambda
+(a: A).(eq A (aplus g (ASort O n0) (S k)) a)) H13 (aplus g (ASort O n2) (S
+k)) (aplus_sort_O_S_simpl g n2 k)) in (leq_sort g O O n0 n2 (S k) H14)))) n4
(sym_eq nat n4 (next g n2) H11))) h2 (sym_eq nat h2 O H10))) H9))) n3 (sym_eq
nat n3 (next g n0) H7))) h1 (sym_eq nat h1 O H6))) H5)) H4 H2))) | (leq_head
a0 a3 H2 a4 a5 H3) \Rightarrow (\lambda (H4: (eq A (AHead a0 a4) (ASort O
(AHead a3 a5) (ASort O (next g n2))) \to ((leq g a0 a3) \to ((leq g a4 a5)
\to (leq g (ASort O n0) (ASort O n2))))) H6)) H5 H2 H3)))]) in (H2
(refl_equal A (ASort O (next g n0))) (refl_equal A (ASort O (next g n2))))))
-| (S n3) \Rightarrow (\lambda (H1: (leq g (asucc g (ASort O n0)) (asucc g
-(ASort (S n3) n2)))).(let H2 \def (match H1 in leq return (\lambda (a:
-A).(\lambda (a0: A).(\lambda (_: (leq ? a a0)).((eq A a (ASort O (next g
-n0))) \to ((eq A a0 (ASort n3 n2)) \to (leq g (ASort O n0) (ASort (S n3)
-n2))))))) with [(leq_sort h1 h2 n4 n5 k H2) \Rightarrow (\lambda (H3: (eq A
-(ASort h1 n4) (ASort O (next g n0)))).(\lambda (H4: (eq A (ASort h2 n5)
-(ASort n3 n2))).((let H5 \def (f_equal A nat (\lambda (e: A).(match e in A
-return (\lambda (_: A).nat) with [(ASort _ n6) \Rightarrow n6 | (AHead _ _)
-\Rightarrow n4])) (ASort h1 n4) (ASort O (next g n0)) H3) in ((let H6 \def
-(f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat) with
-[(ASort n6 _) \Rightarrow n6 | (AHead _ _) \Rightarrow h1])) (ASort h1 n4)
-(ASort O (next g n0)) H3) in (eq_ind nat O (\lambda (n6: nat).((eq nat n4
-(next g n0)) \to ((eq A (ASort h2 n5) (ASort n3 n2)) \to ((eq A (aplus g
-(ASort n6 n4) k) (aplus g (ASort h2 n5) k)) \to (leq g (ASort O n0) (ASort (S
-n3) n2)))))) (\lambda (H7: (eq nat n4 (next g n0))).(eq_ind nat (next g n0)
-(\lambda (n6: nat).((eq A (ASort h2 n5) (ASort n3 n2)) \to ((eq A (aplus g
-(ASort O n6) k) (aplus g (ASort h2 n5) k)) \to (leq g (ASort O n0) (ASort (S
-n3) n2))))) (\lambda (H8: (eq A (ASort h2 n5) (ASort n3 n2))).(let H9 \def
-(f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat) with
-[(ASort _ n6) \Rightarrow n6 | (AHead _ _) \Rightarrow n5])) (ASort h2 n5)
-(ASort n3 n2) H8) in ((let H10 \def (f_equal A nat (\lambda (e: A).(match e
-in A return (\lambda (_: A).nat) with [(ASort n6 _) \Rightarrow n6 | (AHead _
-_) \Rightarrow h2])) (ASort h2 n5) (ASort n3 n2) H8) in (eq_ind nat n3
-(\lambda (n6: nat).((eq nat n5 n2) \to ((eq A (aplus g (ASort O (next g n0))
-k) (aplus g (ASort n6 n5) k)) \to (leq g (ASort O n0) (ASort (S n3) n2)))))
-(\lambda (H11: (eq nat n5 n2)).(eq_ind nat n2 (\lambda (n6: nat).((eq A
-(aplus g (ASort O (next g n0)) k) (aplus g (ASort n3 n6) k)) \to (leq g
-(ASort O n0) (ASort (S n3) n2)))) (\lambda (H12: (eq A (aplus g (ASort O
-(next g n0)) k) (aplus g (ASort n3 n2) k))).(let H13 \def (eq_ind_r A (aplus
-g (ASort O (next g n0)) k) (\lambda (a: A).(eq A a (aplus g (ASort n3 n2)
-k))) H12 (aplus g (ASort O n0) (S k)) (aplus_sort_O_S_simpl g n0 k)) in (let
-H14 \def (eq_ind_r A (aplus g (ASort n3 n2) k) (\lambda (a: A).(eq A (aplus g
-(ASort O n0) (S k)) a)) H13 (aplus g (ASort (S n3) n2) (S k))
-(aplus_sort_S_S_simpl g n2 n3 k)) in (leq_sort g O (S n3) n0 n2 (S k) H14))))
-n5 (sym_eq nat n5 n2 H11))) h2 (sym_eq nat h2 n3 H10))) H9))) n4 (sym_eq nat
-n4 (next g n0) H7))) h1 (sym_eq nat h1 O H6))) H5)) H4 H2))) | (leq_head a0
-a3 H2 a4 a5 H3) \Rightarrow (\lambda (H4: (eq A (AHead a0 a4) (ASort O (next
-g n0)))).(\lambda (H5: (eq A (AHead a3 a5) (ASort n3 n2))).((let H6 \def
-(eq_ind A (AHead a0 a4) (\lambda (e: A).(match e in A return (\lambda (_:
-A).Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow
-True])) I (ASort O (next g n0)) H4) in (False_ind ((eq A (AHead a3 a5) (ASort
-n3 n2)) \to ((leq g a0 a3) \to ((leq g a4 a5) \to (leq g (ASort O n0) (ASort
-(S n3) n2))))) H6)) H5 H2 H3)))]) in (H2 (refl_equal A (ASort O (next g n0)))
-(refl_equal A (ASort n3 n2)))))]) H0)) | (S n3) \Rightarrow (\lambda (H0:
-(leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort n1 n2)))).((match n1 in
-nat return (\lambda (n4: nat).((leq g (asucc g (ASort (S n3) n0)) (asucc g
-(ASort n4 n2))) \to (leq g (ASort (S n3) n0) (ASort n4 n2)))) with [O
-\Rightarrow (\lambda (H1: (leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort
-O n2)))).(let H2 \def (match H1 in leq return (\lambda (a: A).(\lambda (a0:
-A).(\lambda (_: (leq ? a a0)).((eq A a (ASort n3 n0)) \to ((eq A a0 (ASort O
-(next g n2))) \to (leq g (ASort (S n3) n0) (ASort O n2))))))) with [(leq_sort
-h1 h2 n4 n5 k H2) \Rightarrow (\lambda (H3: (eq A (ASort h1 n4) (ASort n3
-n0))).(\lambda (H4: (eq A (ASort h2 n5) (ASort O (next g n2)))).((let H5 \def
+(\lambda (n3: nat).(\lambda (_: (((leq g (asucc g (ASort O n0)) (asucc g
+(ASort n3 n2))) \to (leq g (ASort O n0) (ASort n3 n2))))).(\lambda (H1: (leq
+g (asucc g (ASort O n0)) (asucc g (ASort (S n3) n2)))).(let H2 \def (match H1
+in leq return (\lambda (a: A).(\lambda (a0: A).(\lambda (_: (leq ? a
+a0)).((eq A a (ASort O (next g n0))) \to ((eq A a0 (ASort n3 n2)) \to (leq g
+(ASort O n0) (ASort (S n3) n2))))))) with [(leq_sort h1 h2 n4 n5 k H2)
+\Rightarrow (\lambda (H3: (eq A (ASort h1 n4) (ASort O (next g
+n0)))).(\lambda (H4: (eq A (ASort h2 n5) (ASort n3 n2))).((let H5 \def
(f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat) with
[(ASort _ n6) \Rightarrow n6 | (AHead _ _) \Rightarrow n4])) (ASort h1 n4)
-(ASort n3 n0) H3) in ((let H6 \def (f_equal A nat (\lambda (e: A).(match e in
-A return (\lambda (_: A).nat) with [(ASort n6 _) \Rightarrow n6 | (AHead _ _)
-\Rightarrow h1])) (ASort h1 n4) (ASort n3 n0) H3) in (eq_ind nat n3 (\lambda
-(n6: nat).((eq nat n4 n0) \to ((eq A (ASort h2 n5) (ASort O (next g n2))) \to
-((eq A (aplus g (ASort n6 n4) k) (aplus g (ASort h2 n5) k)) \to (leq g (ASort
-(S n3) n0) (ASort O n2)))))) (\lambda (H7: (eq nat n4 n0)).(eq_ind nat n0
-(\lambda (n6: nat).((eq A (ASort h2 n5) (ASort O (next g n2))) \to ((eq A
-(aplus g (ASort n3 n6) k) (aplus g (ASort h2 n5) k)) \to (leq g (ASort (S n3)
-n0) (ASort O n2))))) (\lambda (H8: (eq A (ASort h2 n5) (ASort O (next g
-n2)))).(let H9 \def (f_equal A nat (\lambda (e: A).(match e in A return
-(\lambda (_: A).nat) with [(ASort _ n6) \Rightarrow n6 | (AHead _ _)
-\Rightarrow n5])) (ASort h2 n5) (ASort O (next g n2)) H8) in ((let H10 \def
+(ASort O (next g n0)) H3) in ((let H6 \def (f_equal A nat (\lambda (e:
+A).(match e in A return (\lambda (_: A).nat) with [(ASort n6 _) \Rightarrow
+n6 | (AHead _ _) \Rightarrow h1])) (ASort h1 n4) (ASort O (next g n0)) H3) in
+(eq_ind nat O (\lambda (n6: nat).((eq nat n4 (next g n0)) \to ((eq A (ASort
+h2 n5) (ASort n3 n2)) \to ((eq A (aplus g (ASort n6 n4) k) (aplus g (ASort h2
+n5) k)) \to (leq g (ASort O n0) (ASort (S n3) n2)))))) (\lambda (H7: (eq nat
+n4 (next g n0))).(eq_ind nat (next g n0) (\lambda (n6: nat).((eq A (ASort h2
+n5) (ASort n3 n2)) \to ((eq A (aplus g (ASort O n6) k) (aplus g (ASort h2 n5)
+k)) \to (leq g (ASort O n0) (ASort (S n3) n2))))) (\lambda (H8: (eq A (ASort
+h2 n5) (ASort n3 n2))).(let H9 \def (f_equal A nat (\lambda (e: A).(match e
+in A return (\lambda (_: A).nat) with [(ASort _ n6) \Rightarrow n6 | (AHead _
+_) \Rightarrow n5])) (ASort h2 n5) (ASort n3 n2) H8) in ((let H10 \def
(f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat) with
[(ASort n6 _) \Rightarrow n6 | (AHead _ _) \Rightarrow h2])) (ASort h2 n5)
-(ASort O (next g n2)) H8) in (eq_ind nat O (\lambda (n6: nat).((eq nat n5
-(next g n2)) \to ((eq A (aplus g (ASort n3 n0) k) (aplus g (ASort n6 n5) k))
-\to (leq g (ASort (S n3) n0) (ASort O n2))))) (\lambda (H11: (eq nat n5 (next
-g n2))).(eq_ind nat (next g n2) (\lambda (n6: nat).((eq A (aplus g (ASort n3
-n0) k) (aplus g (ASort O n6) k)) \to (leq g (ASort (S n3) n0) (ASort O n2))))
-(\lambda (H12: (eq A (aplus g (ASort n3 n0) k) (aplus g (ASort O (next g n2))
-k))).(let H13 \def (eq_ind_r A (aplus g (ASort n3 n0) k) (\lambda (a: A).(eq
-A a (aplus g (ASort O (next g n2)) k))) H12 (aplus g (ASort (S n3) n0) (S k))
-(aplus_sort_S_S_simpl g n0 n3 k)) in (let H14 \def (eq_ind_r A (aplus g
-(ASort O (next g n2)) k) (\lambda (a: A).(eq A (aplus g (ASort (S n3) n0) (S
-k)) a)) H13 (aplus g (ASort O n2) (S k)) (aplus_sort_O_S_simpl g n2 k)) in
-(leq_sort g (S n3) O n0 n2 (S k) H14)))) n5 (sym_eq nat n5 (next g n2) H11)))
-h2 (sym_eq nat h2 O H10))) H9))) n4 (sym_eq nat n4 n0 H7))) h1 (sym_eq nat h1
-n3 H6))) H5)) H4 H2))) | (leq_head a0 a3 H2 a4 a5 H3) \Rightarrow (\lambda
-(H4: (eq A (AHead a0 a4) (ASort n3 n0))).(\lambda (H5: (eq A (AHead a3 a5)
-(ASort O (next g n2)))).((let H6 \def (eq_ind A (AHead a0 a4) (\lambda (e:
-A).(match e in A return (\lambda (_: A).Prop) with [(ASort _ _) \Rightarrow
-False | (AHead _ _) \Rightarrow True])) I (ASort n3 n0) H4) in (False_ind
-((eq A (AHead a3 a5) (ASort O (next g n2))) \to ((leq g a0 a3) \to ((leq g a4
-a5) \to (leq g (ASort (S n3) n0) (ASort O n2))))) H6)) H5 H2 H3)))]) in (H2
-(refl_equal A (ASort n3 n0)) (refl_equal A (ASort O (next g n2)))))) | (S n4)
-\Rightarrow (\lambda (H1: (leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort
-(S n4) n2)))).(let H2 \def (match H1 in leq return (\lambda (a: A).(\lambda
-(a0: A).(\lambda (_: (leq ? a a0)).((eq A a (ASort n3 n0)) \to ((eq A a0
-(ASort n4 n2)) \to (leq g (ASort (S n3) n0) (ASort (S n4) n2))))))) with
-[(leq_sort h1 h2 n5 n6 k H2) \Rightarrow (\lambda (H3: (eq A (ASort h1 n5)
-(ASort n3 n0))).(\lambda (H4: (eq A (ASort h2 n6) (ASort n4 n2))).((let H5
-\def (f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat)
-with [(ASort _ n7) \Rightarrow n7 | (AHead _ _) \Rightarrow n5])) (ASort h1
-n5) (ASort n3 n0) H3) in ((let H6 \def (f_equal A nat (\lambda (e: A).(match
-e in A return (\lambda (_: A).nat) with [(ASort n7 _) \Rightarrow n7 | (AHead
-_ _) \Rightarrow h1])) (ASort h1 n5) (ASort n3 n0) H3) in (eq_ind nat n3
-(\lambda (n7: nat).((eq nat n5 n0) \to ((eq A (ASort h2 n6) (ASort n4 n2))
-\to ((eq A (aplus g (ASort n7 n5) k) (aplus g (ASort h2 n6) k)) \to (leq g
-(ASort (S n3) n0) (ASort (S n4) n2)))))) (\lambda (H7: (eq nat n5
-n0)).(eq_ind nat n0 (\lambda (n7: nat).((eq A (ASort h2 n6) (ASort n4 n2))
-\to ((eq A (aplus g (ASort n3 n7) k) (aplus g (ASort h2 n6) k)) \to (leq g
-(ASort (S n3) n0) (ASort (S n4) n2))))) (\lambda (H8: (eq A (ASort h2 n6)
-(ASort n4 n2))).(let H9 \def (f_equal A nat (\lambda (e: A).(match e in A
-return (\lambda (_: A).nat) with [(ASort _ n7) \Rightarrow n7 | (AHead _ _)
-\Rightarrow n6])) (ASort h2 n6) (ASort n4 n2) H8) in ((let H10 \def (f_equal
-A nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat) with [(ASort
-n7 _) \Rightarrow n7 | (AHead _ _) \Rightarrow h2])) (ASort h2 n6) (ASort n4
-n2) H8) in (eq_ind nat n4 (\lambda (n7: nat).((eq nat n6 n2) \to ((eq A
-(aplus g (ASort n3 n0) k) (aplus g (ASort n7 n6) k)) \to (leq g (ASort (S n3)
-n0) (ASort (S n4) n2))))) (\lambda (H11: (eq nat n6 n2)).(eq_ind nat n2
-(\lambda (n7: nat).((eq A (aplus g (ASort n3 n0) k) (aplus g (ASort n4 n7)
-k)) \to (leq g (ASort (S n3) n0) (ASort (S n4) n2)))) (\lambda (H12: (eq A
-(aplus g (ASort n3 n0) k) (aplus g (ASort n4 n2) k))).(let H13 \def (eq_ind_r
-A (aplus g (ASort n3 n0) k) (\lambda (a: A).(eq A a (aplus g (ASort n4 n2)
-k))) H12 (aplus g (ASort (S n3) n0) (S k)) (aplus_sort_S_S_simpl g n0 n3 k))
-in (let H14 \def (eq_ind_r A (aplus g (ASort n4 n2) k) (\lambda (a: A).(eq A
-(aplus g (ASort (S n3) n0) (S k)) a)) H13 (aplus g (ASort (S n4) n2) (S k))
-(aplus_sort_S_S_simpl g n2 n4 k)) in (leq_sort g (S n3) (S n4) n0 n2 (S k)
-H14)))) n6 (sym_eq nat n6 n2 H11))) h2 (sym_eq nat h2 n4 H10))) H9))) n5
-(sym_eq nat n5 n0 H7))) h1 (sym_eq nat h1 n3 H6))) H5)) H4 H2))) | (leq_head
-a0 a3 H2 a4 a5 H3) \Rightarrow (\lambda (H4: (eq A (AHead a0 a4) (ASort n3
-n0))).(\lambda (H5: (eq A (AHead a3 a5) (ASort n4 n2))).((let H6 \def (eq_ind
-A (AHead a0 a4) (\lambda (e: A).(match e in A return (\lambda (_: A).Prop)
-with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True])) I
-(ASort n3 n0) H4) in (False_ind ((eq A (AHead a3 a5) (ASort n4 n2)) \to ((leq
-g a0 a3) \to ((leq g a4 a5) \to (leq g (ASort (S n3) n0) (ASort (S n4)
-n2))))) H6)) H5 H2 H3)))]) in (H2 (refl_equal A (ASort n3 n0)) (refl_equal A
-(ASort n4 n2)))))]) H0))]) H)))) (\lambda (a: A).(\lambda (H: (((leq g (asucc
-g (ASort n n0)) (asucc g a)) \to (leq g (ASort n n0) a)))).(\lambda (a0:
-A).(\lambda (H0: (((leq g (asucc g (ASort n n0)) (asucc g a0)) \to (leq g
-(ASort n n0) a0)))).(\lambda (H1: (leq g (asucc g (ASort n n0)) (asucc g
-(AHead a a0)))).((match n in nat return (\lambda (n1: nat).((((leq g (asucc g
-(ASort n1 n0)) (asucc g a)) \to (leq g (ASort n1 n0) a))) \to ((((leq g
-(asucc g (ASort n1 n0)) (asucc g a0)) \to (leq g (ASort n1 n0) a0))) \to
-((leq g (asucc g (ASort n1 n0)) (asucc g (AHead a a0))) \to (leq g (ASort n1
-n0) (AHead a a0)))))) with [O \Rightarrow (\lambda (_: (((leq g (asucc g
-(ASort O n0)) (asucc g a)) \to (leq g (ASort O n0) a)))).(\lambda (_: (((leq
-g (asucc g (ASort O n0)) (asucc g a0)) \to (leq g (ASort O n0)
-a0)))).(\lambda (H4: (leq g (asucc g (ASort O n0)) (asucc g (AHead a
-a0)))).(let H5 \def (match H4 in leq return (\lambda (a3: A).(\lambda (a4:
-A).(\lambda (_: (leq ? a3 a4)).((eq A a3 (ASort O (next g n0))) \to ((eq A a4
-(AHead a (asucc g a0))) \to (leq g (ASort O n0) (AHead a a0))))))) with
-[(leq_sort h1 h2 n1 n2 k H5) \Rightarrow (\lambda (H6: (eq A (ASort h1 n1)
-(ASort O (next g n0)))).(\lambda (H7: (eq A (ASort h2 n2) (AHead a (asucc g
-a0)))).((let H8 \def (f_equal A nat (\lambda (e: A).(match e in A return
-(\lambda (_: A).nat) with [(ASort _ n3) \Rightarrow n3 | (AHead _ _)
-\Rightarrow n1])) (ASort h1 n1) (ASort O (next g n0)) H6) in ((let H9 \def
+(ASort n3 n2) H8) in (eq_ind nat n3 (\lambda (n6: nat).((eq nat n5 n2) \to
+((eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort n6 n5) k)) \to (leq
+g (ASort O n0) (ASort (S n3) n2))))) (\lambda (H11: (eq nat n5 n2)).(eq_ind
+nat n2 (\lambda (n6: nat).((eq A (aplus g (ASort O (next g n0)) k) (aplus g
+(ASort n3 n6) k)) \to (leq g (ASort O n0) (ASort (S n3) n2)))) (\lambda (H12:
+(eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort n3 n2) k))).(let H13
+\def (eq_ind_r A (aplus g (ASort O (next g n0)) k) (\lambda (a: A).(eq A a
+(aplus g (ASort n3 n2) k))) H12 (aplus g (ASort O n0) (S k))
+(aplus_sort_O_S_simpl g n0 k)) in (let H14 \def (eq_ind_r A (aplus g (ASort
+n3 n2) k) (\lambda (a: A).(eq A (aplus g (ASort O n0) (S k)) a)) H13 (aplus g
+(ASort (S n3) n2) (S k)) (aplus_sort_S_S_simpl g n2 n3 k)) in (leq_sort g O
+(S n3) n0 n2 (S k) H14)))) n5 (sym_eq nat n5 n2 H11))) h2 (sym_eq nat h2 n3
+H10))) H9))) n4 (sym_eq nat n4 (next g n0) H7))) h1 (sym_eq nat h1 O H6)))
+H5)) H4 H2))) | (leq_head a0 a3 H2 a4 a5 H3) \Rightarrow (\lambda (H4: (eq A
+(AHead a0 a4) (ASort O (next g n0)))).(\lambda (H5: (eq A (AHead a3 a5)
+(ASort n3 n2))).((let H6 \def (eq_ind A (AHead a0 a4) (\lambda (e: A).(match
+e in A return (\lambda (_: A).Prop) with [(ASort _ _) \Rightarrow False |
+(AHead _ _) \Rightarrow True])) I (ASort O (next g n0)) H4) in (False_ind
+((eq A (AHead a3 a5) (ASort n3 n2)) \to ((leq g a0 a3) \to ((leq g a4 a5) \to
+(leq g (ASort O n0) (ASort (S n3) n2))))) H6)) H5 H2 H3)))]) in (H2
+(refl_equal A (ASort O (next g n0))) (refl_equal A (ASort n3 n2))))))) n1
+H0)) (\lambda (n3: nat).(\lambda (IHn: (((leq g (asucc g (ASort n3 n0))
+(asucc g (ASort n1 n2))) \to (leq g (ASort n3 n0) (ASort n1 n2))))).(\lambda
+(H0: (leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort n1 n2)))).(nat_ind
+(\lambda (n4: nat).((leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort n4
+n2))) \to ((((leq g (asucc g (ASort n3 n0)) (asucc g (ASort n4 n2))) \to (leq
+g (ASort n3 n0) (ASort n4 n2)))) \to (leq g (ASort (S n3) n0) (ASort n4
+n2))))) (\lambda (H1: (leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort O
+n2)))).(\lambda (_: (((leq g (asucc g (ASort n3 n0)) (asucc g (ASort O n2)))
+\to (leq g (ASort n3 n0) (ASort O n2))))).(let H2 \def (match H1 in leq
+return (\lambda (a: A).(\lambda (a0: A).(\lambda (_: (leq ? a a0)).((eq A a
+(ASort n3 n0)) \to ((eq A a0 (ASort O (next g n2))) \to (leq g (ASort (S n3)
+n0) (ASort O n2))))))) with [(leq_sort h1 h2 n4 n5 k H2) \Rightarrow (\lambda
+(H3: (eq A (ASort h1 n4) (ASort n3 n0))).(\lambda (H4: (eq A (ASort h2 n5)
+(ASort O (next g n2)))).((let H5 \def (f_equal A nat (\lambda (e: A).(match e
+in A return (\lambda (_: A).nat) with [(ASort _ n6) \Rightarrow n6 | (AHead _
+_) \Rightarrow n4])) (ASort h1 n4) (ASort n3 n0) H3) in ((let H6 \def
(f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat) with
-[(ASort n3 _) \Rightarrow n3 | (AHead _ _) \Rightarrow h1])) (ASort h1 n1)
-(ASort O (next g n0)) H6) in (eq_ind nat O (\lambda (n3: nat).((eq nat n1
+[(ASort n6 _) \Rightarrow n6 | (AHead _ _) \Rightarrow h1])) (ASort h1 n4)
+(ASort n3 n0) H3) in (eq_ind nat n3 (\lambda (n6: nat).((eq nat n4 n0) \to
+((eq A (ASort h2 n5) (ASort O (next g n2))) \to ((eq A (aplus g (ASort n6 n4)
+k) (aplus g (ASort h2 n5) k)) \to (leq g (ASort (S n3) n0) (ASort O n2))))))
+(\lambda (H7: (eq nat n4 n0)).(eq_ind nat n0 (\lambda (n6: nat).((eq A (ASort
+h2 n5) (ASort O (next g n2))) \to ((eq A (aplus g (ASort n3 n6) k) (aplus g
+(ASort h2 n5) k)) \to (leq g (ASort (S n3) n0) (ASort O n2))))) (\lambda (H8:
+(eq A (ASort h2 n5) (ASort O (next g n2)))).(let H9 \def (f_equal A nat
+(\lambda (e: A).(match e in A return (\lambda (_: A).nat) with [(ASort _ n6)
+\Rightarrow n6 | (AHead _ _) \Rightarrow n5])) (ASort h2 n5) (ASort O (next g
+n2)) H8) in ((let H10 \def (f_equal A nat (\lambda (e: A).(match e in A
+return (\lambda (_: A).nat) with [(ASort n6 _) \Rightarrow n6 | (AHead _ _)
+\Rightarrow h2])) (ASort h2 n5) (ASort O (next g n2)) H8) in (eq_ind nat O
+(\lambda (n6: nat).((eq nat n5 (next g n2)) \to ((eq A (aplus g (ASort n3 n0)
+k) (aplus g (ASort n6 n5) k)) \to (leq g (ASort (S n3) n0) (ASort O n2)))))
+(\lambda (H11: (eq nat n5 (next g n2))).(eq_ind nat (next g n2) (\lambda (n6:
+nat).((eq A (aplus g (ASort n3 n0) k) (aplus g (ASort O n6) k)) \to (leq g
+(ASort (S n3) n0) (ASort O n2)))) (\lambda (H12: (eq A (aplus g (ASort n3 n0)
+k) (aplus g (ASort O (next g n2)) k))).(let H13 \def (eq_ind_r A (aplus g
+(ASort n3 n0) k) (\lambda (a: A).(eq A a (aplus g (ASort O (next g n2)) k)))
+H12 (aplus g (ASort (S n3) n0) (S k)) (aplus_sort_S_S_simpl g n0 n3 k)) in
+(let H14 \def (eq_ind_r A (aplus g (ASort O (next g n2)) k) (\lambda (a:
+A).(eq A (aplus g (ASort (S n3) n0) (S k)) a)) H13 (aplus g (ASort O n2) (S
+k)) (aplus_sort_O_S_simpl g n2 k)) in (leq_sort g (S n3) O n0 n2 (S k)
+H14)))) n5 (sym_eq nat n5 (next g n2) H11))) h2 (sym_eq nat h2 O H10))) H9)))
+n4 (sym_eq nat n4 n0 H7))) h1 (sym_eq nat h1 n3 H6))) H5)) H4 H2))) |
+(leq_head a0 a3 H2 a4 a5 H3) \Rightarrow (\lambda (H4: (eq A (AHead a0 a4)
+(ASort n3 n0))).(\lambda (H5: (eq A (AHead a3 a5) (ASort O (next g
+n2)))).((let H6 \def (eq_ind A (AHead a0 a4) (\lambda (e: A).(match e in A
+return (\lambda (_: A).Prop) with [(ASort _ _) \Rightarrow False | (AHead _
+_) \Rightarrow True])) I (ASort n3 n0) H4) in (False_ind ((eq A (AHead a3 a5)
+(ASort O (next g n2))) \to ((leq g a0 a3) \to ((leq g a4 a5) \to (leq g
+(ASort (S n3) n0) (ASort O n2))))) H6)) H5 H2 H3)))]) in (H2 (refl_equal A
+(ASort n3 n0)) (refl_equal A (ASort O (next g n2))))))) (\lambda (n4:
+nat).(\lambda (_: (((leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort n4
+n2))) \to ((((leq g (asucc g (ASort n3 n0)) (asucc g (ASort n4 n2))) \to (leq
+g (ASort n3 n0) (ASort n4 n2)))) \to (leq g (ASort (S n3) n0) (ASort n4
+n2)))))).(\lambda (H1: (leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort (S
+n4) n2)))).(\lambda (_: (((leq g (asucc g (ASort n3 n0)) (asucc g (ASort (S
+n4) n2))) \to (leq g (ASort n3 n0) (ASort (S n4) n2))))).(let H2 \def (match
+H1 in leq return (\lambda (a: A).(\lambda (a0: A).(\lambda (_: (leq ? a
+a0)).((eq A a (ASort n3 n0)) \to ((eq A a0 (ASort n4 n2)) \to (leq g (ASort
+(S n3) n0) (ASort (S n4) n2))))))) with [(leq_sort h1 h2 n5 n6 k H2)
+\Rightarrow (\lambda (H3: (eq A (ASort h1 n5) (ASort n3 n0))).(\lambda (H4:
+(eq A (ASort h2 n6) (ASort n4 n2))).((let H5 \def (f_equal A nat (\lambda (e:
+A).(match e in A return (\lambda (_: A).nat) with [(ASort _ n7) \Rightarrow
+n7 | (AHead _ _) \Rightarrow n5])) (ASort h1 n5) (ASort n3 n0) H3) in ((let
+H6 \def (f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_:
+A).nat) with [(ASort n7 _) \Rightarrow n7 | (AHead _ _) \Rightarrow h1]))
+(ASort h1 n5) (ASort n3 n0) H3) in (eq_ind nat n3 (\lambda (n7: nat).((eq nat
+n5 n0) \to ((eq A (ASort h2 n6) (ASort n4 n2)) \to ((eq A (aplus g (ASort n7
+n5) k) (aplus g (ASort h2 n6) k)) \to (leq g (ASort (S n3) n0) (ASort (S n4)
+n2)))))) (\lambda (H7: (eq nat n5 n0)).(eq_ind nat n0 (\lambda (n7: nat).((eq
+A (ASort h2 n6) (ASort n4 n2)) \to ((eq A (aplus g (ASort n3 n7) k) (aplus g
+(ASort h2 n6) k)) \to (leq g (ASort (S n3) n0) (ASort (S n4) n2))))) (\lambda
+(H8: (eq A (ASort h2 n6) (ASort n4 n2))).(let H9 \def (f_equal A nat (\lambda
+(e: A).(match e in A return (\lambda (_: A).nat) with [(ASort _ n7)
+\Rightarrow n7 | (AHead _ _) \Rightarrow n6])) (ASort h2 n6) (ASort n4 n2)
+H8) in ((let H10 \def (f_equal A nat (\lambda (e: A).(match e in A return
+(\lambda (_: A).nat) with [(ASort n7 _) \Rightarrow n7 | (AHead _ _)
+\Rightarrow h2])) (ASort h2 n6) (ASort n4 n2) H8) in (eq_ind nat n4 (\lambda
+(n7: nat).((eq nat n6 n2) \to ((eq A (aplus g (ASort n3 n0) k) (aplus g
+(ASort n7 n6) k)) \to (leq g (ASort (S n3) n0) (ASort (S n4) n2))))) (\lambda
+(H11: (eq nat n6 n2)).(eq_ind nat n2 (\lambda (n7: nat).((eq A (aplus g
+(ASort n3 n0) k) (aplus g (ASort n4 n7) k)) \to (leq g (ASort (S n3) n0)
+(ASort (S n4) n2)))) (\lambda (H12: (eq A (aplus g (ASort n3 n0) k) (aplus g
+(ASort n4 n2) k))).(let H13 \def (eq_ind_r A (aplus g (ASort n3 n0) k)
+(\lambda (a: A).(eq A a (aplus g (ASort n4 n2) k))) H12 (aplus g (ASort (S
+n3) n0) (S k)) (aplus_sort_S_S_simpl g n0 n3 k)) in (let H14 \def (eq_ind_r A
+(aplus g (ASort n4 n2) k) (\lambda (a: A).(eq A (aplus g (ASort (S n3) n0) (S
+k)) a)) H13 (aplus g (ASort (S n4) n2) (S k)) (aplus_sort_S_S_simpl g n2 n4
+k)) in (leq_sort g (S n3) (S n4) n0 n2 (S k) H14)))) n6 (sym_eq nat n6 n2
+H11))) h2 (sym_eq nat h2 n4 H10))) H9))) n5 (sym_eq nat n5 n0 H7))) h1
+(sym_eq nat h1 n3 H6))) H5)) H4 H2))) | (leq_head a0 a3 H2 a4 a5 H3)
+\Rightarrow (\lambda (H4: (eq A (AHead a0 a4) (ASort n3 n0))).(\lambda (H5:
+(eq A (AHead a3 a5) (ASort n4 n2))).((let H6 \def (eq_ind A (AHead a0 a4)
+(\lambda (e: A).(match e in A return (\lambda (_: A).Prop) with [(ASort _ _)
+\Rightarrow False | (AHead _ _) \Rightarrow True])) I (ASort n3 n0) H4) in
+(False_ind ((eq A (AHead a3 a5) (ASort n4 n2)) \to ((leq g a0 a3) \to ((leq g
+a4 a5) \to (leq g (ASort (S n3) n0) (ASort (S n4) n2))))) H6)) H5 H2 H3)))])
+in (H2 (refl_equal A (ASort n3 n0)) (refl_equal A (ASort n4 n2)))))))) n1 H0
+IHn)))) n H)))) (\lambda (a: A).(\lambda (H: (((leq g (asucc g (ASort n n0))
+(asucc g a)) \to (leq g (ASort n n0) a)))).(\lambda (a0: A).(\lambda (H0:
+(((leq g (asucc g (ASort n n0)) (asucc g a0)) \to (leq g (ASort n n0)
+a0)))).(\lambda (H1: (leq g (asucc g (ASort n n0)) (asucc g (AHead a
+a0)))).(nat_ind (\lambda (n1: nat).((((leq g (asucc g (ASort n1 n0)) (asucc g
+a)) \to (leq g (ASort n1 n0) a))) \to ((((leq g (asucc g (ASort n1 n0))
+(asucc g a0)) \to (leq g (ASort n1 n0) a0))) \to ((leq g (asucc g (ASort n1
+n0)) (asucc g (AHead a a0))) \to (leq g (ASort n1 n0) (AHead a a0))))))
+(\lambda (_: (((leq g (asucc g (ASort O n0)) (asucc g a)) \to (leq g (ASort O
+n0) a)))).(\lambda (_: (((leq g (asucc g (ASort O n0)) (asucc g a0)) \to (leq
+g (ASort O n0) a0)))).(\lambda (H4: (leq g (asucc g (ASort O n0)) (asucc g
+(AHead a a0)))).(let H5 \def (match H4 in leq return (\lambda (a3:
+A).(\lambda (a4: A).(\lambda (_: (leq ? a3 a4)).((eq A a3 (ASort O (next g
+n0))) \to ((eq A a4 (AHead a (asucc g a0))) \to (leq g (ASort O n0) (AHead a
+a0))))))) with [(leq_sort h1 h2 n1 n2 k H5) \Rightarrow (\lambda (H6: (eq A
+(ASort h1 n1) (ASort O (next g n0)))).(\lambda (H7: (eq A (ASort h2 n2)
+(AHead a (asucc g a0)))).((let H8 \def (f_equal A nat (\lambda (e: A).(match
+e in A return (\lambda (_: A).nat) with [(ASort _ n3) \Rightarrow n3 | (AHead
+_ _) \Rightarrow n1])) (ASort h1 n1) (ASort O (next g n0)) H6) in ((let H9
+\def (f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat)
+with [(ASort n3 _) \Rightarrow n3 | (AHead _ _) \Rightarrow h1])) (ASort h1
+n1) (ASort O (next g n0)) H6) in (eq_ind nat O (\lambda (n3: nat).((eq nat n1
(next g n0)) \to ((eq A (ASort h2 n2) (AHead a (asucc g a0))) \to ((eq A
(aplus g (ASort n3 n1) k) (aplus g (ASort h2 n2) k)) \to (leq g (ASort O n0)
(AHead a a0)))))) (\lambda (H10: (eq nat n1 (next g n0))).(eq_ind nat (next g
True])) I (ASort O (next g n0)) H7) in (False_ind ((eq A (AHead a4 a6) (AHead
a (asucc g a0))) \to ((leq g a3 a4) \to ((leq g a5 a6) \to (leq g (ASort O
n0) (AHead a a0))))) H9)) H8 H5 H6)))]) in (H5 (refl_equal A (ASort O (next g
-n0))) (refl_equal A (AHead a (asucc g a0)))))))) | (S n1) \Rightarrow
-(\lambda (_: (((leq g (asucc g (ASort (S n1) n0)) (asucc g a)) \to (leq g
-(ASort (S n1) n0) a)))).(\lambda (_: (((leq g (asucc g (ASort (S n1) n0))
-(asucc g a0)) \to (leq g (ASort (S n1) n0) a0)))).(\lambda (H4: (leq g (asucc
-g (ASort (S n1) n0)) (asucc g (AHead a a0)))).(let H5 \def (match H4 in leq
-return (\lambda (a3: A).(\lambda (a4: A).(\lambda (_: (leq ? a3 a4)).((eq A
-a3 (ASort n1 n0)) \to ((eq A a4 (AHead a (asucc g a0))) \to (leq g (ASort (S
-n1) n0) (AHead a a0))))))) with [(leq_sort h1 h2 n2 n3 k H5) \Rightarrow
-(\lambda (H6: (eq A (ASort h1 n2) (ASort n1 n0))).(\lambda (H7: (eq A (ASort
-h2 n3) (AHead a (asucc g a0)))).((let H8 \def (f_equal A nat (\lambda (e:
-A).(match e in A return (\lambda (_: A).nat) with [(ASort _ n4) \Rightarrow
-n4 | (AHead _ _) \Rightarrow n2])) (ASort h1 n2) (ASort n1 n0) H6) in ((let
-H9 \def (f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_:
-A).nat) with [(ASort n4 _) \Rightarrow n4 | (AHead _ _) \Rightarrow h1]))
-(ASort h1 n2) (ASort n1 n0) H6) in (eq_ind nat n1 (\lambda (n4: nat).((eq nat
-n2 n0) \to ((eq A (ASort h2 n3) (AHead a (asucc g a0))) \to ((eq A (aplus g
-(ASort n4 n2) k) (aplus g (ASort h2 n3) k)) \to (leq g (ASort (S n1) n0)
-(AHead a a0)))))) (\lambda (H10: (eq nat n2 n0)).(eq_ind nat n0 (\lambda (n4:
-nat).((eq A (ASort h2 n3) (AHead a (asucc g a0))) \to ((eq A (aplus g (ASort
-n1 n4) k) (aplus g (ASort h2 n3) k)) \to (leq g (ASort (S n1) n0) (AHead a
-a0))))) (\lambda (H11: (eq A (ASort h2 n3) (AHead a (asucc g a0)))).(let H12
-\def (eq_ind A (ASort h2 n3) (\lambda (e: A).(match e in A return (\lambda
-(_: A).Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow
-False])) I (AHead a (asucc g a0)) H11) in (False_ind ((eq A (aplus g (ASort
-n1 n0) k) (aplus g (ASort h2 n3) k)) \to (leq g (ASort (S n1) n0) (AHead a
-a0))) H12))) n2 (sym_eq nat n2 n0 H10))) h1 (sym_eq nat h1 n1 H9))) H8)) H7
-H5))) | (leq_head a3 a4 H5 a5 a6 H6) \Rightarrow (\lambda (H7: (eq A (AHead
-a3 a5) (ASort n1 n0))).(\lambda (H8: (eq A (AHead a4 a6) (AHead a (asucc g
-a0)))).((let H9 \def (eq_ind A (AHead a3 a5) (\lambda (e: A).(match e in A
-return (\lambda (_: A).Prop) with [(ASort _ _) \Rightarrow False | (AHead _
-_) \Rightarrow True])) I (ASort n1 n0) H7) in (False_ind ((eq A (AHead a4 a6)
-(AHead a (asucc g a0))) \to ((leq g a3 a4) \to ((leq g a5 a6) \to (leq g
-(ASort (S n1) n0) (AHead a a0))))) H9)) H8 H5 H6)))]) in (H5 (refl_equal A
-(ASort n1 n0)) (refl_equal A (AHead a (asucc g a0))))))))]) H H0 H1))))))
-a2)))) (\lambda (a: A).(\lambda (_: ((\forall (a2: A).((leq g (asucc g a)
-(asucc g a2)) \to (leq g a a2))))).(\lambda (a0: A).(\lambda (H0: ((\forall
-(a2: A).((leq g (asucc g a0) (asucc g a2)) \to (leq g a0 a2))))).(\lambda
-(a2: A).(A_ind (\lambda (a3: A).((leq g (asucc g (AHead a a0)) (asucc g a3))
-\to (leq g (AHead a a0) a3))) (\lambda (n: nat).(\lambda (n0: nat).(\lambda
-(H1: (leq g (asucc g (AHead a a0)) (asucc g (ASort n n0)))).((match n in nat
-return (\lambda (n1: nat).((leq g (asucc g (AHead a a0)) (asucc g (ASort n1
-n0))) \to (leq g (AHead a a0) (ASort n1 n0)))) with [O \Rightarrow (\lambda
-(H2: (leq g (asucc g (AHead a a0)) (asucc g (ASort O n0)))).(let H3 \def
-(match H2 in leq return (\lambda (a3: A).(\lambda (a4: A).(\lambda (_: (leq ?
-a3 a4)).((eq A a3 (AHead a (asucc g a0))) \to ((eq A a4 (ASort O (next g
-n0))) \to (leq g (AHead a a0) (ASort O n0))))))) with [(leq_sort h1 h2 n1 n2
-k H3) \Rightarrow (\lambda (H4: (eq A (ASort h1 n1) (AHead a (asucc g
-a0)))).(\lambda (H5: (eq A (ASort h2 n2) (ASort O (next g n0)))).((let H6
-\def (eq_ind A (ASort h1 n1) (\lambda (e: A).(match e in A return (\lambda
-(_: A).Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow
-False])) I (AHead a (asucc g a0)) H4) in (False_ind ((eq A (ASort h2 n2)
-(ASort O (next g n0))) \to ((eq A (aplus g (ASort h1 n1) k) (aplus g (ASort
-h2 n2) k)) \to (leq g (AHead a a0) (ASort O n0)))) H6)) H5 H3))) | (leq_head
-a3 a4 H3 a5 a6 H4) \Rightarrow (\lambda (H5: (eq A (AHead a3 a5) (AHead a
-(asucc g a0)))).(\lambda (H6: (eq A (AHead a4 a6) (ASort O (next g
+n0))) (refl_equal A (AHead a (asucc g a0)))))))) (\lambda (n1: nat).(\lambda
+(_: (((((leq g (asucc g (ASort n1 n0)) (asucc g a)) \to (leq g (ASort n1 n0)
+a))) \to ((((leq g (asucc g (ASort n1 n0)) (asucc g a0)) \to (leq g (ASort n1
+n0) a0))) \to ((leq g (asucc g (ASort n1 n0)) (asucc g (AHead a a0))) \to
+(leq g (ASort n1 n0) (AHead a a0))))))).(\lambda (_: (((leq g (asucc g (ASort
+(S n1) n0)) (asucc g a)) \to (leq g (ASort (S n1) n0) a)))).(\lambda (_:
+(((leq g (asucc g (ASort (S n1) n0)) (asucc g a0)) \to (leq g (ASort (S n1)
+n0) a0)))).(\lambda (H4: (leq g (asucc g (ASort (S n1) n0)) (asucc g (AHead a
+a0)))).(let H5 \def (match H4 in leq return (\lambda (a3: A).(\lambda (a4:
+A).(\lambda (_: (leq ? a3 a4)).((eq A a3 (ASort n1 n0)) \to ((eq A a4 (AHead
+a (asucc g a0))) \to (leq g (ASort (S n1) n0) (AHead a a0))))))) with
+[(leq_sort h1 h2 n2 n3 k H5) \Rightarrow (\lambda (H6: (eq A (ASort h1 n2)
+(ASort n1 n0))).(\lambda (H7: (eq A (ASort h2 n3) (AHead a (asucc g
+a0)))).((let H8 \def (f_equal A nat (\lambda (e: A).(match e in A return
+(\lambda (_: A).nat) with [(ASort _ n4) \Rightarrow n4 | (AHead _ _)
+\Rightarrow n2])) (ASort h1 n2) (ASort n1 n0) H6) in ((let H9 \def (f_equal A
+nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat) with [(ASort n4
+_) \Rightarrow n4 | (AHead _ _) \Rightarrow h1])) (ASort h1 n2) (ASort n1 n0)
+H6) in (eq_ind nat n1 (\lambda (n4: nat).((eq nat n2 n0) \to ((eq A (ASort h2
+n3) (AHead a (asucc g a0))) \to ((eq A (aplus g (ASort n4 n2) k) (aplus g
+(ASort h2 n3) k)) \to (leq g (ASort (S n1) n0) (AHead a a0)))))) (\lambda
+(H10: (eq nat n2 n0)).(eq_ind nat n0 (\lambda (n4: nat).((eq A (ASort h2 n3)
+(AHead a (asucc g a0))) \to ((eq A (aplus g (ASort n1 n4) k) (aplus g (ASort
+h2 n3) k)) \to (leq g (ASort (S n1) n0) (AHead a a0))))) (\lambda (H11: (eq A
+(ASort h2 n3) (AHead a (asucc g a0)))).(let H12 \def (eq_ind A (ASort h2 n3)
+(\lambda (e: A).(match e in A return (\lambda (_: A).Prop) with [(ASort _ _)
+\Rightarrow True | (AHead _ _) \Rightarrow False])) I (AHead a (asucc g a0))
+H11) in (False_ind ((eq A (aplus g (ASort n1 n0) k) (aplus g (ASort h2 n3)
+k)) \to (leq g (ASort (S n1) n0) (AHead a a0))) H12))) n2 (sym_eq nat n2 n0
+H10))) h1 (sym_eq nat h1 n1 H9))) H8)) H7 H5))) | (leq_head a3 a4 H5 a5 a6
+H6) \Rightarrow (\lambda (H7: (eq A (AHead a3 a5) (ASort n1 n0))).(\lambda
+(H8: (eq A (AHead a4 a6) (AHead a (asucc g a0)))).((let H9 \def (eq_ind A
+(AHead a3 a5) (\lambda (e: A).(match e in A return (\lambda (_: A).Prop) with
+[(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True])) I (ASort n1
+n0) H7) in (False_ind ((eq A (AHead a4 a6) (AHead a (asucc g a0))) \to ((leq
+g a3 a4) \to ((leq g a5 a6) \to (leq g (ASort (S n1) n0) (AHead a a0)))))
+H9)) H8 H5 H6)))]) in (H5 (refl_equal A (ASort n1 n0)) (refl_equal A (AHead a
+(asucc g a0)))))))))) n H H0 H1)))))) a2)))) (\lambda (a: A).(\lambda (_:
+((\forall (a2: A).((leq g (asucc g a) (asucc g a2)) \to (leq g a
+a2))))).(\lambda (a0: A).(\lambda (H0: ((\forall (a2: A).((leq g (asucc g a0)
+(asucc g a2)) \to (leq g a0 a2))))).(\lambda (a2: A).(A_ind (\lambda (a3:
+A).((leq g (asucc g (AHead a a0)) (asucc g a3)) \to (leq g (AHead a a0) a3)))
+(\lambda (n: nat).(\lambda (n0: nat).(\lambda (H1: (leq g (asucc g (AHead a
+a0)) (asucc g (ASort n n0)))).(nat_ind (\lambda (n1: nat).((leq g (asucc g
+(AHead a a0)) (asucc g (ASort n1 n0))) \to (leq g (AHead a a0) (ASort n1
+n0)))) (\lambda (H2: (leq g (asucc g (AHead a a0)) (asucc g (ASort O
+n0)))).(let H3 \def (match H2 in leq return (\lambda (a3: A).(\lambda (a4:
+A).(\lambda (_: (leq ? a3 a4)).((eq A a3 (AHead a (asucc g a0))) \to ((eq A
+a4 (ASort O (next g n0))) \to (leq g (AHead a a0) (ASort O n0))))))) with
+[(leq_sort h1 h2 n1 n2 k H3) \Rightarrow (\lambda (H4: (eq A (ASort h1 n1)
+(AHead a (asucc g a0)))).(\lambda (H5: (eq A (ASort h2 n2) (ASort O (next g
+n0)))).((let H6 \def (eq_ind A (ASort h1 n1) (\lambda (e: A).(match e in A
+return (\lambda (_: A).Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _)
+\Rightarrow False])) I (AHead a (asucc g a0)) H4) in (False_ind ((eq A (ASort
+h2 n2) (ASort O (next g n0))) \to ((eq A (aplus g (ASort h1 n1) k) (aplus g
+(ASort h2 n2) k)) \to (leq g (AHead a a0) (ASort O n0)))) H6)) H5 H3))) |
+(leq_head a3 a4 H3 a5 a6 H4) \Rightarrow (\lambda (H5: (eq A (AHead a3 a5)
+(AHead a (asucc g a0)))).(\lambda (H6: (eq A (AHead a4 a6) (ASort O (next g
n0)))).((let H7 \def (f_equal A A (\lambda (e: A).(match e in A return
(\lambda (_: A).A) with [(ASort _ _) \Rightarrow a5 | (AHead _ a7)
\Rightarrow a7])) (AHead a3 a5) (AHead a (asucc g a0)) H5) in ((let H8 \def
((leq g a a4) \to ((leq g (asucc g a0) a6) \to (leq g (AHead a a0) (ASort O
n0)))) H11))) a5 (sym_eq A a5 (asucc g a0) H9))) a3 (sym_eq A a3 a H8))) H7))
H6 H3 H4)))]) in (H3 (refl_equal A (AHead a (asucc g a0))) (refl_equal A
-(ASort O (next g n0)))))) | (S n1) \Rightarrow (\lambda (H2: (leq g (asucc g
-(AHead a a0)) (asucc g (ASort (S n1) n0)))).(let H3 \def (match H2 in leq
-return (\lambda (a3: A).(\lambda (a4: A).(\lambda (_: (leq ? a3 a4)).((eq A
-a3 (AHead a (asucc g a0))) \to ((eq A a4 (ASort n1 n0)) \to (leq g (AHead a
-a0) (ASort (S n1) n0))))))) with [(leq_sort h1 h2 n2 n3 k H3) \Rightarrow
-(\lambda (H4: (eq A (ASort h1 n2) (AHead a (asucc g a0)))).(\lambda (H5: (eq
-A (ASort h2 n3) (ASort n1 n0))).((let H6 \def (eq_ind A (ASort h1 n2)
-(\lambda (e: A).(match e in A return (\lambda (_: A).Prop) with [(ASort _ _)
-\Rightarrow True | (AHead _ _) \Rightarrow False])) I (AHead a (asucc g a0))
-H4) in (False_ind ((eq A (ASort h2 n3) (ASort n1 n0)) \to ((eq A (aplus g
-(ASort h1 n2) k) (aplus g (ASort h2 n3) k)) \to (leq g (AHead a a0) (ASort (S
-n1) n0)))) H6)) H5 H3))) | (leq_head a3 a4 H3 a5 a6 H4) \Rightarrow (\lambda
-(H5: (eq A (AHead a3 a5) (AHead a (asucc g a0)))).(\lambda (H6: (eq A (AHead
-a4 a6) (ASort n1 n0))).((let H7 \def (f_equal A A (\lambda (e: A).(match e in
-A return (\lambda (_: A).A) with [(ASort _ _) \Rightarrow a5 | (AHead _ a7)
+(ASort O (next g n0)))))) (\lambda (n1: nat).(\lambda (_: (((leq g (asucc g
+(AHead a a0)) (asucc g (ASort n1 n0))) \to (leq g (AHead a a0) (ASort n1
+n0))))).(\lambda (H2: (leq g (asucc g (AHead a a0)) (asucc g (ASort (S n1)
+n0)))).(let H3 \def (match H2 in leq return (\lambda (a3: A).(\lambda (a4:
+A).(\lambda (_: (leq ? a3 a4)).((eq A a3 (AHead a (asucc g a0))) \to ((eq A
+a4 (ASort n1 n0)) \to (leq g (AHead a a0) (ASort (S n1) n0))))))) with
+[(leq_sort h1 h2 n2 n3 k H3) \Rightarrow (\lambda (H4: (eq A (ASort h1 n2)
+(AHead a (asucc g a0)))).(\lambda (H5: (eq A (ASort h2 n3) (ASort n1
+n0))).((let H6 \def (eq_ind A (ASort h1 n2) (\lambda (e: A).(match e in A
+return (\lambda (_: A).Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _)
+\Rightarrow False])) I (AHead a (asucc g a0)) H4) in (False_ind ((eq A (ASort
+h2 n3) (ASort n1 n0)) \to ((eq A (aplus g (ASort h1 n2) k) (aplus g (ASort h2
+n3) k)) \to (leq g (AHead a a0) (ASort (S n1) n0)))) H6)) H5 H3))) |
+(leq_head a3 a4 H3 a5 a6 H4) \Rightarrow (\lambda (H5: (eq A (AHead a3 a5)
+(AHead a (asucc g a0)))).(\lambda (H6: (eq A (AHead a4 a6) (ASort n1
+n0))).((let H7 \def (f_equal A A (\lambda (e: A).(match e in A return
+(\lambda (_: A).A) with [(ASort _ _) \Rightarrow a5 | (AHead _ a7)
\Rightarrow a7])) (AHead a3 a5) (AHead a (asucc g a0)) H5) in ((let H8 \def
(f_equal A A (\lambda (e: A).(match e in A return (\lambda (_: A).A) with
[(ASort _ _) \Rightarrow a3 | (AHead a7 _) \Rightarrow a7])) (AHead a3 a5)
((leq g (asucc g a0) a6) \to (leq g (AHead a a0) (ASort (S n1) n0)))) H11)))
a5 (sym_eq A a5 (asucc g a0) H9))) a3 (sym_eq A a3 a H8))) H7)) H6 H3 H4)))])
in (H3 (refl_equal A (AHead a (asucc g a0))) (refl_equal A (ASort n1
-n0)))))]) H1)))) (\lambda (a3: A).(\lambda (_: (((leq g (asucc g (AHead a
+n0))))))) n H1)))) (\lambda (a3: A).(\lambda (_: (((leq g (asucc g (AHead a
a0)) (asucc g a3)) \to (leq g (AHead a a0) a3)))).(\lambda (a4: A).(\lambda
(_: (((leq g (asucc g (AHead a a0)) (asucc g a4)) \to (leq g (AHead a a0)
a4)))).(\lambda (H3: (leq g (asucc g (AHead a a0)) (asucc g (AHead a3
A).((leq g (AHead a a2) (asucc g a)) \to (\forall (P: Prop).P)))) (\lambda
(n: nat).(\lambda (n0: nat).(\lambda (a2: A).(\lambda (H: (leq g (AHead
(ASort n n0) a2) (match n with [O \Rightarrow (ASort O (next g n0)) | (S h)
-\Rightarrow (ASort h n0)]))).(\lambda (P: Prop).((match n in nat return
-(\lambda (n1: nat).((leq g (AHead (ASort n1 n0) a2) (match n1 with [O
-\Rightarrow (ASort O (next g n0)) | (S h) \Rightarrow (ASort h n0)])) \to P))
-with [O \Rightarrow (\lambda (H0: (leq g (AHead (ASort O n0) a2) (ASort O
-(next g n0)))).(let H1 \def (match H0 in leq return (\lambda (a: A).(\lambda
-(a0: A).(\lambda (_: (leq ? a a0)).((eq A a (AHead (ASort O n0) a2)) \to ((eq
-A a0 (ASort O (next g n0))) \to P))))) with [(leq_sort h1 h2 n1 n2 k H1)
-\Rightarrow (\lambda (H2: (eq A (ASort h1 n1) (AHead (ASort O n0)
-a2))).(\lambda (H3: (eq A (ASort h2 n2) (ASort O (next g n0)))).((let H4 \def
-(eq_ind A (ASort h1 n1) (\lambda (e: A).(match e in A return (\lambda (_:
-A).Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow
-False])) I (AHead (ASort O n0) a2) H2) in (False_ind ((eq A (ASort h2 n2)
-(ASort O (next g n0))) \to ((eq A (aplus g (ASort h1 n1) k) (aplus g (ASort
-h2 n2) k)) \to P)) H4)) H3 H1))) | (leq_head a0 a3 H1 a4 a5 H2) \Rightarrow
-(\lambda (H3: (eq A (AHead a0 a4) (AHead (ASort O n0) a2))).(\lambda (H4: (eq
-A (AHead a3 a5) (ASort O (next g n0)))).((let H5 \def (f_equal A A (\lambda
+\Rightarrow (ASort h n0)]))).(\lambda (P: Prop).(nat_ind (\lambda (n1:
+nat).((leq g (AHead (ASort n1 n0) a2) (match n1 with [O \Rightarrow (ASort O
+(next g n0)) | (S h) \Rightarrow (ASort h n0)])) \to P)) (\lambda (H0: (leq g
+(AHead (ASort O n0) a2) (ASort O (next g n0)))).(let H1 \def (match H0 in leq
+return (\lambda (a: A).(\lambda (a0: A).(\lambda (_: (leq ? a a0)).((eq A a
+(AHead (ASort O n0) a2)) \to ((eq A a0 (ASort O (next g n0))) \to P))))) with
+[(leq_sort h1 h2 n1 n2 k H1) \Rightarrow (\lambda (H2: (eq A (ASort h1 n1)
+(AHead (ASort O n0) a2))).(\lambda (H3: (eq A (ASort h2 n2) (ASort O (next g
+n0)))).((let H4 \def (eq_ind A (ASort h1 n1) (\lambda (e: A).(match e in A
+return (\lambda (_: A).Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _)
+\Rightarrow False])) I (AHead (ASort O n0) a2) H2) in (False_ind ((eq A
+(ASort h2 n2) (ASort O (next g n0))) \to ((eq A (aplus g (ASort h1 n1) k)
+(aplus g (ASort h2 n2) k)) \to P)) H4)) H3 H1))) | (leq_head a0 a3 H1 a4 a5
+H2) \Rightarrow (\lambda (H3: (eq A (AHead a0 a4) (AHead (ASort O n0)
+a2))).(\lambda (H4: (eq A (AHead a3 a5) (ASort O (next g n0)))).((let H5 \def
+(f_equal A A (\lambda (e: A).(match e in A return (\lambda (_: A).A) with
+[(ASort _ _) \Rightarrow a4 | (AHead _ a) \Rightarrow a])) (AHead a0 a4)
+(AHead (ASort O n0) a2) H3) in ((let H6 \def (f_equal A A (\lambda (e:
+A).(match e in A return (\lambda (_: A).A) with [(ASort _ _) \Rightarrow a0 |
+(AHead a _) \Rightarrow a])) (AHead a0 a4) (AHead (ASort O n0) a2) H3) in
+(eq_ind A (ASort O n0) (\lambda (a: A).((eq A a4 a2) \to ((eq A (AHead a3 a5)
+(ASort O (next g n0))) \to ((leq g a a3) \to ((leq g a4 a5) \to P)))))
+(\lambda (H7: (eq A a4 a2)).(eq_ind A a2 (\lambda (a: A).((eq A (AHead a3 a5)
+(ASort O (next g n0))) \to ((leq g (ASort O n0) a3) \to ((leq g a a5) \to
+P)))) (\lambda (H8: (eq A (AHead a3 a5) (ASort O (next g n0)))).(let H9 \def
+(eq_ind A (AHead a3 a5) (\lambda (e: A).(match e in A return (\lambda (_:
+A).Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow
+True])) I (ASort O (next g n0)) H8) in (False_ind ((leq g (ASort O n0) a3)
+\to ((leq g a2 a5) \to P)) H9))) a4 (sym_eq A a4 a2 H7))) a0 (sym_eq A a0
+(ASort O n0) H6))) H5)) H4 H1 H2)))]) in (H1 (refl_equal A (AHead (ASort O
+n0) a2)) (refl_equal A (ASort O (next g n0)))))) (\lambda (n1: nat).(\lambda
+(_: (((leq g (AHead (ASort n1 n0) a2) (match n1 with [O \Rightarrow (ASort O
+(next g n0)) | (S h) \Rightarrow (ASort h n0)])) \to P))).(\lambda (H0: (leq
+g (AHead (ASort (S n1) n0) a2) (ASort n1 n0))).(let H1 \def (match H0 in leq
+return (\lambda (a: A).(\lambda (a0: A).(\lambda (_: (leq ? a a0)).((eq A a
+(AHead (ASort (S n1) n0) a2)) \to ((eq A a0 (ASort n1 n0)) \to P))))) with
+[(leq_sort h1 h2 n2 n3 k H1) \Rightarrow (\lambda (H2: (eq A (ASort h1 n2)
+(AHead (ASort (S n1) n0) a2))).(\lambda (H3: (eq A (ASort h2 n3) (ASort n1
+n0))).((let H4 \def (eq_ind A (ASort h1 n2) (\lambda (e: A).(match e in A
+return (\lambda (_: A).Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _)
+\Rightarrow False])) I (AHead (ASort (S n1) n0) a2) H2) in (False_ind ((eq A
+(ASort h2 n3) (ASort n1 n0)) \to ((eq A (aplus g (ASort h1 n2) k) (aplus g
+(ASort h2 n3) k)) \to P)) H4)) H3 H1))) | (leq_head a0 a3 H1 a4 a5 H2)
+\Rightarrow (\lambda (H3: (eq A (AHead a0 a4) (AHead (ASort (S n1) n0)
+a2))).(\lambda (H4: (eq A (AHead a3 a5) (ASort n1 n0))).((let H5 \def
+(f_equal A A (\lambda (e: A).(match e in A return (\lambda (_: A).A) with
+[(ASort _ _) \Rightarrow a4 | (AHead _ a) \Rightarrow a])) (AHead a0 a4)
+(AHead (ASort (S n1) n0) a2) H3) in ((let H6 \def (f_equal A A (\lambda (e:
+A).(match e in A return (\lambda (_: A).A) with [(ASort _ _) \Rightarrow a0 |
+(AHead a _) \Rightarrow a])) (AHead a0 a4) (AHead (ASort (S n1) n0) a2) H3)
+in (eq_ind A (ASort (S n1) n0) (\lambda (a: A).((eq A a4 a2) \to ((eq A
+(AHead a3 a5) (ASort n1 n0)) \to ((leq g a a3) \to ((leq g a4 a5) \to P)))))
+(\lambda (H7: (eq A a4 a2)).(eq_ind A a2 (\lambda (a: A).((eq A (AHead a3 a5)
+(ASort n1 n0)) \to ((leq g (ASort (S n1) n0) a3) \to ((leq g a a5) \to P))))
+(\lambda (H8: (eq A (AHead a3 a5) (ASort n1 n0))).(let H9 \def (eq_ind A
+(AHead a3 a5) (\lambda (e: A).(match e in A return (\lambda (_: A).Prop) with
+[(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True])) I (ASort n1
+n0) H8) in (False_ind ((leq g (ASort (S n1) n0) a3) \to ((leq g a2 a5) \to
+P)) H9))) a4 (sym_eq A a4 a2 H7))) a0 (sym_eq A a0 (ASort (S n1) n0) H6)))
+H5)) H4 H1 H2)))]) in (H1 (refl_equal A (AHead (ASort (S n1) n0) a2))
+(refl_equal A (ASort n1 n0))))))) n H)))))) (\lambda (a: A).(\lambda (_:
+((\forall (a2: A).((leq g (AHead a a2) (asucc g a)) \to (\forall (P:
+Prop).P))))).(\lambda (a0: A).(\lambda (_: ((\forall (a2: A).((leq g (AHead
+a0 a2) (asucc g a0)) \to (\forall (P: Prop).P))))).(\lambda (a2: A).(\lambda
+(H1: (leq g (AHead (AHead a a0) a2) (AHead a (asucc g a0)))).(\lambda (P:
+Prop).(let H2 \def (match H1 in leq return (\lambda (a3: A).(\lambda (a4:
+A).(\lambda (_: (leq ? a3 a4)).((eq A a3 (AHead (AHead a a0) a2)) \to ((eq A
+a4 (AHead a (asucc g a0))) \to P))))) with [(leq_sort h1 h2 n1 n2 k H2)
+\Rightarrow (\lambda (H3: (eq A (ASort h1 n1) (AHead (AHead a a0)
+a2))).(\lambda (H4: (eq A (ASort h2 n2) (AHead a (asucc g a0)))).((let H5
+\def (eq_ind A (ASort h1 n1) (\lambda (e: A).(match e in A return (\lambda
+(_: A).Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow
+False])) I (AHead (AHead a a0) a2) H3) in (False_ind ((eq A (ASort h2 n2)
+(AHead a (asucc g a0))) \to ((eq A (aplus g (ASort h1 n1) k) (aplus g (ASort
+h2 n2) k)) \to P)) H5)) H4 H2))) | (leq_head a3 a4 H2 a5 a6 H3) \Rightarrow
+(\lambda (H4: (eq A (AHead a3 a5) (AHead (AHead a a0) a2))).(\lambda (H5: (eq
+A (AHead a4 a6) (AHead a (asucc g a0)))).((let H6 \def (f_equal A A (\lambda
(e: A).(match e in A return (\lambda (_: A).A) with [(ASort _ _) \Rightarrow
-a4 | (AHead _ a) \Rightarrow a])) (AHead a0 a4) (AHead (ASort O n0) a2) H3)
-in ((let H6 \def (f_equal A A (\lambda (e: A).(match e in A return (\lambda
-(_: A).A) with [(ASort _ _) \Rightarrow a0 | (AHead a _) \Rightarrow a]))
-(AHead a0 a4) (AHead (ASort O n0) a2) H3) in (eq_ind A (ASort O n0) (\lambda
-(a: A).((eq A a4 a2) \to ((eq A (AHead a3 a5) (ASort O (next g n0))) \to
-((leq g a a3) \to ((leq g a4 a5) \to P))))) (\lambda (H7: (eq A a4
-a2)).(eq_ind A a2 (\lambda (a: A).((eq A (AHead a3 a5) (ASort O (next g n0)))
-\to ((leq g (ASort O n0) a3) \to ((leq g a a5) \to P)))) (\lambda (H8: (eq A
-(AHead a3 a5) (ASort O (next g n0)))).(let H9 \def (eq_ind A (AHead a3 a5)
-(\lambda (e: A).(match e in A return (\lambda (_: A).Prop) with [(ASort _ _)
-\Rightarrow False | (AHead _ _) \Rightarrow True])) I (ASort O (next g n0))
-H8) in (False_ind ((leq g (ASort O n0) a3) \to ((leq g a2 a5) \to P)) H9)))
-a4 (sym_eq A a4 a2 H7))) a0 (sym_eq A a0 (ASort O n0) H6))) H5)) H4 H1
-H2)))]) in (H1 (refl_equal A (AHead (ASort O n0) a2)) (refl_equal A (ASort O
-(next g n0)))))) | (S n1) \Rightarrow (\lambda (H0: (leq g (AHead (ASort (S
-n1) n0) a2) (ASort n1 n0))).(let H1 \def (match H0 in leq return (\lambda (a:
-A).(\lambda (a0: A).(\lambda (_: (leq ? a a0)).((eq A a (AHead (ASort (S n1)
-n0) a2)) \to ((eq A a0 (ASort n1 n0)) \to P))))) with [(leq_sort h1 h2 n2 n3
-k H1) \Rightarrow (\lambda (H2: (eq A (ASort h1 n2) (AHead (ASort (S n1) n0)
-a2))).(\lambda (H3: (eq A (ASort h2 n3) (ASort n1 n0))).((let H4 \def (eq_ind
-A (ASort h1 n2) (\lambda (e: A).(match e in A return (\lambda (_: A).Prop)
-with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False])) I
-(AHead (ASort (S n1) n0) a2) H2) in (False_ind ((eq A (ASort h2 n3) (ASort n1
-n0)) \to ((eq A (aplus g (ASort h1 n2) k) (aplus g (ASort h2 n3) k)) \to P))
-H4)) H3 H1))) | (leq_head a0 a3 H1 a4 a5 H2) \Rightarrow (\lambda (H3: (eq A
-(AHead a0 a4) (AHead (ASort (S n1) n0) a2))).(\lambda (H4: (eq A (AHead a3
-a5) (ASort n1 n0))).((let H5 \def (f_equal A A (\lambda (e: A).(match e in A
-return (\lambda (_: A).A) with [(ASort _ _) \Rightarrow a4 | (AHead _ a)
-\Rightarrow a])) (AHead a0 a4) (AHead (ASort (S n1) n0) a2) H3) in ((let H6
-\def (f_equal A A (\lambda (e: A).(match e in A return (\lambda (_: A).A)
-with [(ASort _ _) \Rightarrow a0 | (AHead a _) \Rightarrow a])) (AHead a0 a4)
-(AHead (ASort (S n1) n0) a2) H3) in (eq_ind A (ASort (S n1) n0) (\lambda (a:
-A).((eq A a4 a2) \to ((eq A (AHead a3 a5) (ASort n1 n0)) \to ((leq g a a3)
-\to ((leq g a4 a5) \to P))))) (\lambda (H7: (eq A a4 a2)).(eq_ind A a2
-(\lambda (a: A).((eq A (AHead a3 a5) (ASort n1 n0)) \to ((leq g (ASort (S n1)
-n0) a3) \to ((leq g a a5) \to P)))) (\lambda (H8: (eq A (AHead a3 a5) (ASort
-n1 n0))).(let H9 \def (eq_ind A (AHead a3 a5) (\lambda (e: A).(match e in A
-return (\lambda (_: A).Prop) with [(ASort _ _) \Rightarrow False | (AHead _
-_) \Rightarrow True])) I (ASort n1 n0) H8) in (False_ind ((leq g (ASort (S
-n1) n0) a3) \to ((leq g a2 a5) \to P)) H9))) a4 (sym_eq A a4 a2 H7))) a0
-(sym_eq A a0 (ASort (S n1) n0) H6))) H5)) H4 H1 H2)))]) in (H1 (refl_equal A
-(AHead (ASort (S n1) n0) a2)) (refl_equal A (ASort n1 n0)))))]) H))))))
-(\lambda (a: A).(\lambda (_: ((\forall (a2: A).((leq g (AHead a a2) (asucc g
-a)) \to (\forall (P: Prop).P))))).(\lambda (a0: A).(\lambda (_: ((\forall
-(a2: A).((leq g (AHead a0 a2) (asucc g a0)) \to (\forall (P:
-Prop).P))))).(\lambda (a2: A).(\lambda (H1: (leq g (AHead (AHead a a0) a2)
-(AHead a (asucc g a0)))).(\lambda (P: Prop).(let H2 \def (match H1 in leq
-return (\lambda (a3: A).(\lambda (a4: A).(\lambda (_: (leq ? a3 a4)).((eq A
-a3 (AHead (AHead a a0) a2)) \to ((eq A a4 (AHead a (asucc g a0))) \to P)))))
-with [(leq_sort h1 h2 n1 n2 k H2) \Rightarrow (\lambda (H3: (eq A (ASort h1
-n1) (AHead (AHead a a0) a2))).(\lambda (H4: (eq A (ASort h2 n2) (AHead a
-(asucc g a0)))).((let H5 \def (eq_ind A (ASort h1 n1) (\lambda (e: A).(match
-e in A return (\lambda (_: A).Prop) with [(ASort _ _) \Rightarrow True |
-(AHead _ _) \Rightarrow False])) I (AHead (AHead a a0) a2) H3) in (False_ind
-((eq A (ASort h2 n2) (AHead a (asucc g a0))) \to ((eq A (aplus g (ASort h1
-n1) k) (aplus g (ASort h2 n2) k)) \to P)) H5)) H4 H2))) | (leq_head a3 a4 H2
-a5 a6 H3) \Rightarrow (\lambda (H4: (eq A (AHead a3 a5) (AHead (AHead a a0)
-a2))).(\lambda (H5: (eq A (AHead a4 a6) (AHead a (asucc g a0)))).((let H6
-\def (f_equal A A (\lambda (e: A).(match e in A return (\lambda (_: A).A)
-with [(ASort _ _) \Rightarrow a5 | (AHead _ a7) \Rightarrow a7])) (AHead a3
-a5) (AHead (AHead a a0) a2) H4) in ((let H7 \def (f_equal A A (\lambda (e:
-A).(match e in A return (\lambda (_: A).A) with [(ASort _ _) \Rightarrow a3 |
-(AHead a7 _) \Rightarrow a7])) (AHead a3 a5) (AHead (AHead a a0) a2) H4) in
-(eq_ind A (AHead a a0) (\lambda (a7: A).((eq A a5 a2) \to ((eq A (AHead a4
-a6) (AHead a (asucc g a0))) \to ((leq g a7 a4) \to ((leq g a5 a6) \to P)))))
-(\lambda (H8: (eq A a5 a2)).(eq_ind A a2 (\lambda (a7: A).((eq A (AHead a4
-a6) (AHead a (asucc g a0))) \to ((leq g (AHead a a0) a4) \to ((leq g a7 a6)
-\to P)))) (\lambda (H9: (eq A (AHead a4 a6) (AHead a (asucc g a0)))).(let H10
-\def (f_equal A A (\lambda (e: A).(match e in A return (\lambda (_: A).A)
-with [(ASort _ _) \Rightarrow a6 | (AHead _ a7) \Rightarrow a7])) (AHead a4
-a6) (AHead a (asucc g a0)) H9) in ((let H11 \def (f_equal A A (\lambda (e:
-A).(match e in A return (\lambda (_: A).A) with [(ASort _ _) \Rightarrow a4 |
-(AHead a7 _) \Rightarrow a7])) (AHead a4 a6) (AHead a (asucc g a0)) H9) in
-(eq_ind A a (\lambda (a7: A).((eq A a6 (asucc g a0)) \to ((leq g (AHead a a0)
-a7) \to ((leq g a2 a6) \to P)))) (\lambda (H12: (eq A a6 (asucc g
-a0))).(eq_ind A (asucc g a0) (\lambda (a7: A).((leq g (AHead a a0) a) \to
-((leq g a2 a7) \to P))) (\lambda (H13: (leq g (AHead a a0) a)).(\lambda (_:
-(leq g a2 (asucc g a0))).(leq_ahead_false g a a0 H13 P))) a6 (sym_eq A a6
-(asucc g a0) H12))) a4 (sym_eq A a4 a H11))) H10))) a5 (sym_eq A a5 a2 H8)))
-a3 (sym_eq A a3 (AHead a a0) H7))) H6)) H5 H2 H3)))]) in (H2 (refl_equal A
-(AHead (AHead a a0) a2)) (refl_equal A (AHead a (asucc g a0)))))))))))) a1)).
+a5 | (AHead _ a7) \Rightarrow a7])) (AHead a3 a5) (AHead (AHead a a0) a2) H4)
+in ((let H7 \def (f_equal A A (\lambda (e: A).(match e in A return (\lambda
+(_: A).A) with [(ASort _ _) \Rightarrow a3 | (AHead a7 _) \Rightarrow a7]))
+(AHead a3 a5) (AHead (AHead a a0) a2) H4) in (eq_ind A (AHead a a0) (\lambda
+(a7: A).((eq A a5 a2) \to ((eq A (AHead a4 a6) (AHead a (asucc g a0))) \to
+((leq g a7 a4) \to ((leq g a5 a6) \to P))))) (\lambda (H8: (eq A a5
+a2)).(eq_ind A a2 (\lambda (a7: A).((eq A (AHead a4 a6) (AHead a (asucc g
+a0))) \to ((leq g (AHead a a0) a4) \to ((leq g a7 a6) \to P)))) (\lambda (H9:
+(eq A (AHead a4 a6) (AHead a (asucc g a0)))).(let H10 \def (f_equal A A
+(\lambda (e: A).(match e in A return (\lambda (_: A).A) with [(ASort _ _)
+\Rightarrow a6 | (AHead _ a7) \Rightarrow a7])) (AHead a4 a6) (AHead a (asucc
+g a0)) H9) in ((let H11 \def (f_equal A A (\lambda (e: A).(match e in A
+return (\lambda (_: A).A) with [(ASort _ _) \Rightarrow a4 | (AHead a7 _)
+\Rightarrow a7])) (AHead a4 a6) (AHead a (asucc g a0)) H9) in (eq_ind A a
+(\lambda (a7: A).((eq A a6 (asucc g a0)) \to ((leq g (AHead a a0) a7) \to
+((leq g a2 a6) \to P)))) (\lambda (H12: (eq A a6 (asucc g a0))).(eq_ind A
+(asucc g a0) (\lambda (a7: A).((leq g (AHead a a0) a) \to ((leq g a2 a7) \to
+P))) (\lambda (H13: (leq g (AHead a a0) a)).(\lambda (_: (leq g a2 (asucc g
+a0))).(leq_ahead_false g a a0 H13 P))) a6 (sym_eq A a6 (asucc g a0) H12))) a4
+(sym_eq A a4 a H11))) H10))) a5 (sym_eq A a5 a2 H8))) a3 (sym_eq A a3 (AHead
+a a0) H7))) H6)) H5 H2 H3)))]) in (H2 (refl_equal A (AHead (AHead a a0) a2))
+(refl_equal A (AHead a (asucc g a0)))))))))))) a1)).
theorem leq_asucc_false:
\forall (g: G).(\forall (a: A).((leq g (asucc g a) a) \to (\forall (P:
\lambda (g: G).(\lambda (a: A).(A_ind (\lambda (a0: A).((leq g (asucc g a0)
a0) \to (\forall (P: Prop).P))) (\lambda (n: nat).(\lambda (n0: nat).(\lambda
(H: (leq g (match n with [O \Rightarrow (ASort O (next g n0)) | (S h)
-\Rightarrow (ASort h n0)]) (ASort n n0))).(\lambda (P: Prop).((match n in nat
-return (\lambda (n1: nat).((leq g (match n1 with [O \Rightarrow (ASort O
-(next g n0)) | (S h) \Rightarrow (ASort h n0)]) (ASort n1 n0)) \to P)) with
-[O \Rightarrow (\lambda (H0: (leq g (ASort O (next g n0)) (ASort O n0))).(let
-H1 \def (match H0 in leq return (\lambda (a0: A).(\lambda (a1: A).(\lambda
-(_: (leq ? a0 a1)).((eq A a0 (ASort O (next g n0))) \to ((eq A a1 (ASort O
-n0)) \to P))))) with [(leq_sort h1 h2 n1 n2 k H1) \Rightarrow (\lambda (H2:
-(eq A (ASort h1 n1) (ASort O (next g n0)))).(\lambda (H3: (eq A (ASort h2 n2)
-(ASort O n0))).((let H4 \def (f_equal A nat (\lambda (e: A).(match e in A
-return (\lambda (_: A).nat) with [(ASort _ n3) \Rightarrow n3 | (AHead _ _)
+\Rightarrow (ASort h n0)]) (ASort n n0))).(\lambda (P: Prop).(nat_ind
+(\lambda (n1: nat).((leq g (match n1 with [O \Rightarrow (ASort O (next g
+n0)) | (S h) \Rightarrow (ASort h n0)]) (ASort n1 n0)) \to P)) (\lambda (H0:
+(leq g (ASort O (next g n0)) (ASort O n0))).(let H1 \def (match H0 in leq
+return (\lambda (a0: A).(\lambda (a1: A).(\lambda (_: (leq ? a0 a1)).((eq A
+a0 (ASort O (next g n0))) \to ((eq A a1 (ASort O n0)) \to P))))) with
+[(leq_sort h1 h2 n1 n2 k H1) \Rightarrow (\lambda (H2: (eq A (ASort h1 n1)
+(ASort O (next g n0)))).(\lambda (H3: (eq A (ASort h2 n2) (ASort O
+n0))).((let H4 \def (f_equal A nat (\lambda (e: A).(match e in A return
+(\lambda (_: A).nat) with [(ASort _ n3) \Rightarrow n3 | (AHead _ _)
\Rightarrow n1])) (ASort h1 n1) (ASort O (next g n0)) H2) in ((let H5 \def
(f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat) with
[(ASort n3 _) \Rightarrow n3 | (AHead _ _) \Rightarrow h1])) (ASort h1 n1)
(AHead _ _) \Rightarrow True])) I (ASort O (next g n0)) H3) in (False_ind
((eq A (AHead a2 a4) (ASort O n0)) \to ((leq g a1 a2) \to ((leq g a3 a4) \to
P))) H5)) H4 H1 H2)))]) in (H1 (refl_equal A (ASort O (next g n0)))
-(refl_equal A (ASort O n0))))) | (S n1) \Rightarrow (\lambda (H0: (leq g
-(ASort n1 n0) (ASort (S n1) n0))).(let H1 \def (match H0 in leq return
-(\lambda (a0: A).(\lambda (a1: A).(\lambda (_: (leq ? a0 a1)).((eq A a0
-(ASort n1 n0)) \to ((eq A a1 (ASort (S n1) n0)) \to P))))) with [(leq_sort h1
-h2 n2 n3 k H1) \Rightarrow (\lambda (H2: (eq A (ASort h1 n2) (ASort n1
-n0))).(\lambda (H3: (eq A (ASort h2 n3) (ASort (S n1) n0))).((let H4 \def
-(f_equal A nat (\lambda (e: A).(match e in A return (\lambda (_: A).nat) with
-[(ASort _ n4) \Rightarrow n4 | (AHead _ _) \Rightarrow n2])) (ASort h1 n2)
-(ASort n1 n0) H2) in ((let H5 \def (f_equal A nat (\lambda (e: A).(match e in
-A return (\lambda (_: A).nat) with [(ASort n4 _) \Rightarrow n4 | (AHead _ _)
+(refl_equal A (ASort O n0))))) (\lambda (n1: nat).(\lambda (_: (((leq g
+(match n1 with [O \Rightarrow (ASort O (next g n0)) | (S h) \Rightarrow
+(ASort h n0)]) (ASort n1 n0)) \to P))).(\lambda (H0: (leq g (ASort n1 n0)
+(ASort (S n1) n0))).(let H1 \def (match H0 in leq return (\lambda (a0:
+A).(\lambda (a1: A).(\lambda (_: (leq ? a0 a1)).((eq A a0 (ASort n1 n0)) \to
+((eq A a1 (ASort (S n1) n0)) \to P))))) with [(leq_sort h1 h2 n2 n3 k H1)
+\Rightarrow (\lambda (H2: (eq A (ASort h1 n2) (ASort n1 n0))).(\lambda (H3:
+(eq A (ASort h2 n3) (ASort (S n1) n0))).((let H4 \def (f_equal A nat (\lambda
+(e: A).(match e in A return (\lambda (_: A).nat) with [(ASort _ n4)
+\Rightarrow n4 | (AHead _ _) \Rightarrow n2])) (ASort h1 n2) (ASort n1 n0)
+H2) in ((let H5 \def (f_equal A nat (\lambda (e: A).(match e in A return
+(\lambda (_: A).nat) with [(ASort n4 _) \Rightarrow n4 | (AHead _ _)
\Rightarrow h1])) (ASort h1 n2) (ASort n1 n0) H2) in (eq_ind nat n1 (\lambda
(n4: nat).((eq nat n2 n0) \to ((eq A (ASort h2 n3) (ASort (S n1) n0)) \to
((eq A (aplus g (ASort n4 n2) k) (aplus g (ASort h2 n3) k)) \to P))))
_) \Rightarrow True])) I (ASort n1 n0) H3) in (False_ind ((eq A (AHead a2 a4)
(ASort (S n1) n0)) \to ((leq g a1 a2) \to ((leq g a3 a4) \to P))) H5)) H4 H1
H2)))]) in (H1 (refl_equal A (ASort n1 n0)) (refl_equal A (ASort (S n1)
-n0)))))]) H))))) (\lambda (a0: A).(\lambda (_: (((leq g (asucc g a0) a0) \to
-(\forall (P: Prop).P)))).(\lambda (a1: A).(\lambda (H0: (((leq g (asucc g a1)
-a1) \to (\forall (P: Prop).P)))).(\lambda (H1: (leq g (AHead a0 (asucc g a1))
-(AHead a0 a1))).(\lambda (P: Prop).(let H2 \def (match H1 in leq return
+n0))))))) n H))))) (\lambda (a0: A).(\lambda (_: (((leq g (asucc g a0) a0)
+\to (\forall (P: Prop).P)))).(\lambda (a1: A).(\lambda (H0: (((leq g (asucc g
+a1) a1) \to (\forall (P: Prop).P)))).(\lambda (H1: (leq g (AHead a0 (asucc g
+a1)) (AHead a0 a1))).(\lambda (P: Prop).(let H2 \def (match H1 in leq return
(\lambda (a2: A).(\lambda (a3: A).(\lambda (_: (leq ? a2 a3)).((eq A a2
(AHead a0 (asucc g a1))) \to ((eq A a3 (AHead a0 a1)) \to P))))) with
[(leq_sort h1 h2 n1 n2 k H2) \Rightarrow (\lambda (H3: (eq A (ASort h1 n1)
projects / helm.git / blobdiff