1 (**************************************************************************)
4 (* ||A|| A project by Andrea Asperti *)
6 (* ||I|| Developers: *)
7 (* ||T|| The HELM team. *)
8 (* ||A|| http://helm.cs.unibo.it *)
10 (* \ / This file is distributed under the terms of the *)
11 (* v GNU General Public License Version 2 *)
13 (**************************************************************************)
15 include "ground/lib/ltc.ma".
16 include "static_2/relocation/seq_seq.ma".
18 (* GENERIC SLICING FOR LOCAL ENVIRONMENTS ***********************************)
20 (* Properties with labeled transitive closure *******************************)
22 lemma d2_liftable_sn_ltc: ∀A,f. associative … f →
23 ∀C,S,R. (∀n. d_liftable2_sn C S (λL. R L n)) →
24 ∀n. d_liftable2_sn C S (λL. ltc A f … (R L) n).
25 #A #g #Hg #C #S #R #HR #n #K #T1 #T2 #H
26 @(ltc_ind_dx … Hg ???? H) -n -T2
27 [ #n #T2 #HT12 #b #g #L #HLK #U1 #HTU1
28 elim (HR … HT12 … HLK … HTU1) -b -K -T1 -HR
29 /3 width=3 by ltc_rc, ex2_intro/
30 | #n1 #n2 #T #T2 #_ #IHT1 #HT2 #b #f #L #HLK #U1 #HTU1
31 elim (IHT1 … HLK … HTU1) -T1 #U #HTU #HU1
32 elim (HR … HT2 … HLK … HTU) -HR -K -T
33 /3 width=5 by ltc_dx, ex2_intro/
37 lemma d2_deliftable_sn_ltc: ∀A,f. associative … f →
38 ∀C,S,R. (∀n. d_deliftable2_sn C S (λL. R L n)) →
39 ∀n. d_deliftable2_sn C S (λL. ltc A f … (R L) n).
40 #A #g #Hg #C #S #R #HR #n #L #U1 #U2 #H
41 @(ltc_ind_dx … Hg ???? H) -n -U2
42 [ #n #U2 #HU12 #b #g #K #HLK #T1 #HTU1
43 elim (HR … HU12 … HLK … HTU1) -b -L -U1 -HR
44 /3 width=3 by ltc_rc, ex2_intro/
45 | #n1 #n2 #U #U2 #_ #IHU1 #HU2 #b #f #K #HLK #T1 #HTU1
46 elim (IHU1 … HLK … HTU1) -IHU1 -U1 #T #HTU #HT1
47 elim (HR … HU2 … HLK … HTU) -L -U -HR
48 /3 width=5 by ltc_dx, ex2_intro/
52 lemma co_dropable_sn_ltc: ∀A,f. associative … f →
53 ∀R. (∀n. co_dropable_sn (λL. R L n)) →
54 ∀n. co_dropable_sn (λL. ltc A f … (R L) n).
55 #A #g #Hg #R #HR #n #b #f #L1 #K1 #HLK1 #Hf #f2 #L2 #H
56 @(ltc_ind_dx … Hg ???? H) -n -L2
58 elim (HR … HLK1 … Hf … HL12 … H) -f2 -L1 -HR -Hf
59 /3 width=3 by ltc_rc, ex2_intro/
60 | #n1 #n2 #L #L2 #_ #IH #HL2 #f1 #H
61 elim (IH … H) -IH #K #HK1 #HLK
62 elim (HR … HLK … HL2 … H) -f2 -L -HR
63 /3 width=3 by ltc_dx, ex2_intro/
67 lemma co_dropable_dx_ltc: ∀A,f. associative … f →
68 ∀R. (∀n. co_dropable_dx (λL. R L n)) →
69 ∀n. co_dropable_dx (λL. ltc A f … (R L) n).
70 #A #g #Hg #R #HR #n #f2 #L1 #L2 #H
71 @(ltc_ind_dx … Hg ???? H) -n -L2
72 [ #n #L2 #HL12 #b #f #K2 #HLK2 #Hf #f1 #Hf2
73 elim (HR … HL12 … HLK2 … Hf … Hf2) -f2 -L2 -HR -Hf
74 /3 width=3 by ltc_rc, ex2_intro/
75 | #n1 #n2 #L #L2 #_ #IHL1 #HL2 #b #f #K2 #HLK2 #Hf #f1 #Hf2
76 elim (HR … HL2 … HLK2 … Hf … Hf2) -L2 -HR #K #HLK #HK2
77 elim (IHL1 … HLK … Hf … Hf2) -Hf -f2 -L
78 /3 width=5 by ltc_dx, ex2_intro/
82 lemma co_dedropable_sn_ltc: ∀A,f. associative … f →
83 ∀R. (∀n. co_dedropable_sn (λL. R L n)) →
84 ∀n. co_dedropable_sn (λL. ltc A f … (R L) n).
85 #A #g #Hg #R #HR #n #b #f #L1 #K1 #HLK1 #f1 #K2 #H
86 @(ltc_ind_dx … Hg ???? H) -n -K2
87 [ #n #K2 #HK12 #f2 #Hf
88 elim (HR … HLK1 … HK12 … Hf) -f1 -K1 -HR
89 /3 width=4 by ltc_rc, ex3_intro/
90 | #n1 #n2 #K #K2 #_ #IH #HK2 #f2 #Hf
91 elim (IH … Hf) -K1 -IH #L #H1L1 #HLK #H2L1
92 elim (HR … HLK … HK2 … Hf) -f1 -K -HR
93 /3 width=6 by seq_trans, ltc_dx, ex3_intro/