X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=matita%2Fmatita%2Fcontribs%2Flambdadelta%2Fstatic_2%2Fstatic%2Ffsle_fsle.ma;h=e9ebfb3811409c5865dd46c5f61bf3ec2bcb51d7;hb=dc605ae41c39773f55381f241b1ed3db4acf5edd;hp=580051ceacbf72758f6723c22050235edce0eb94;hpb=f308429a0fde273605a2330efc63268b4ac36c99;p=helm.git

diff --git a/matita/matita/contribs/lambdadelta/static_2/static/fsle_fsle.ma b/matita/matita/contribs/lambdadelta/static_2/static/fsle_fsle.ma
index 580051cea..e9ebfb381 100644
--- a/matita/matita/contribs/lambdadelta/static_2/static/fsle_fsle.ma
+++ b/matita/matita/contribs/lambdadelta/static_2/static/fsle_fsle.ma
@@ -19,10 +19,10 @@ include "static_2/static/fsle_fqup.ma".
 
 (* Advanced inversion lemmas ************************************************)
 
-lemma fsle_frees_trans: âL1,L2,T1,T2. â¦L1,T1â¦ â â¦L2,T2â¦ â
-                        âf2. L2 â¢ ð*â¦T2â¦ â f2 â
-                        âân1,n2,f1. L1 â¢ ð*â¦T1â¦ â f1 &
-                                    L1 ââ§*[n1,n2] L2 & â«±*[n1]f1 â â«±*[n2]f2.
+lemma fsle_frees_trans:
+      âL1,L2,T1,T2. âªL1,T1â« â âªL2,T2â« â
+      âf2. L2 â¢ ð+âªT2â« â f2 â
+      âân1,n2,f1. L1 â¢ ð+âªT1â« â f1 & L1 ââ§*[n1,n2] L2 & â«°*[n1]f1 â â«°*[n2]f2.
 #L1 #L2 #T1 #T2 * #n1 #n2 #f1 #g2 #Hf1 #Hg2 #HL #Hn #f2 #Hf2
 lapply (frees_mono â¦ Hg2 â¦ Hf2) -Hg2 -Hf2 #Hgf2
 lapply (tls_eq_repl n2 â¦ Hgf2) -Hgf2 #Hgf2
@@ -30,28 +30,52 @@ lapply (sle_eq_repl_back2 â¦ Hn â¦ Hgf2) -g2
 /2 width=6 by ex3_3_intro/
 qed-.
 
-lemma fsle_frees_trans_eq: âL1,L2. |L1| = |L2| â
-                           âT1,T2. â¦L1,T1â¦ â â¦L2,T2â¦ â âf2. L2 â¢ ð*â¦T2â¦ â f2 â
-                           ââf1. L1 â¢ ð*â¦T1â¦ â f1 & f1 â f2.
+lemma fsle_frees_trans_eq:
+      âL1,L2. |L1| = |L2| â
+      âT1,T2. âªL1,T1â« â âªL2,T2â« â âf2. L2 â¢ ð+âªT2â« â f2 â
+      ââf1. L1 â¢ ð+âªT1â« â f1 & f1 â f2.
 #L1 #L2 #H1L #T1 #T2 #H2L #f2 #Hf2
 elim (fsle_frees_trans â¦ H2L â¦ Hf2) -T2 #n1 #n2 #f1 #Hf1 #H2L #Hf12
 elim (lveq_inj_length â¦ H2L) // -L2 #H1 #H2 destruct
 /2 width=3 by ex2_intro/
 qed-.
 
-lemma fsle_inv_frees_eq: âL1,L2. |L1| = |L2| â
-                         âT1,T2. â¦L1,T1â¦ â â¦L2,T2â¦ â
-                         âf1. L1 â¢ ð*â¦T1â¦ â f1 â âf2. L2 â¢ ð*â¦T2â¦ â f2 â
-                         f1 â f2.
+lemma fsle_inv_frees_eq:
+      âL1,L2. |L1| = |L2| â
+      âT1,T2. âªL1,T1â« â âªL2,T2â« â
+      âf1. L1 â¢ ð+âªT1â« â f1 â âf2. L2 â¢ ð+âªT2â« â f2 â
+      f1 â f2.
 #L1 #L2 #H1L #T1 #T2 #H2L #f1 #Hf1 #f2 #Hf2
 elim (fsle_frees_trans_eq â¦ H2L â¦ Hf2) // -L2 -T2
 /3 width=6 by frees_mono, sle_eq_repl_back1/
 qed-.
 
+lemma fsle_frees_conf:
+      âL1,L2,T1,T2. âªL1,T1â« â âªL2,T2â« â
+      âf1. L1 â¢ ð+âªT1â« â f1 â
+      âân1,n2,f2. L2 â¢ ð+âªT2â« â f2 & L1 ââ§*[n1,n2] L2 & â«°*[n1]f1 â â«°*[n2]f2.
+#L1 #L2 #T1 #T2 * #n1 #n2 #g1 #g2 #Hg1 #Hg2 #HL #Hn #f1 #Hf1
+lapply (frees_mono â¦ Hg1 â¦ Hf1) -Hg1 -Hf1 #Hgf1
+lapply (tls_eq_repl n1 â¦ Hgf1) -Hgf1 #Hgf1
+lapply (sle_eq_repl_back1 â¦ Hn â¦ Hgf1) -g1
+/2 width=6 by ex3_3_intro/
+qed-.
+
+lemma fsle_frees_conf_eq:
+      âL1,L2. |L1| = |L2| â
+      âT1,T2. âªL1,T1â« â âªL2,T2â« â âf1. L1 â¢ ð+âªT1â« â f1 â
+      ââf2. L2 â¢ ð+âªT2â« â f2 & f1 â f2.
+#L1 #L2 #H1L #T1 #T2 #H2L #f1 #Hf1
+elim (fsle_frees_conf â¦ H2L â¦ Hf1) -T1 #n1 #n2 #f2 #Hf2 #H2L #Hf12
+elim (lveq_inj_length â¦ H2L) // -L1 #H1 #H2 destruct
+/2 width=3 by ex2_intro/
+qed-.
+
 (* Main properties **********************************************************)
 
-theorem fsle_trans_sn: âL1,L2,T1,T. â¦L1,T1â¦ â â¦L2,Tâ¦ â
-                       âT2. â¦L2,Tâ¦ â â¦L2,T2â¦ â â¦L1,T1â¦ â â¦L2,T2â¦.
+theorem fsle_trans_sn:
+        âL1,L2,T1,T. âªL1,T1â« â âªL2,Tâ« â
+        âT2. âªL2,Tâ« â âªL2,T2â« â âªL1,T1â« â âªL2,T2â«.
 #L1 #L2 #T1 #T
 * #m1 #m0 #g1 #g0 #Hg1 #Hg0 #Hm #Hg
 #T2
@@ -62,8 +86,9 @@ lapply (sle_eq_repl_back1 â¦ Hf â¦ Hfg0) -f0
 /4 width=10 by sle_tls, sle_trans, ex4_4_intro/
 qed-.
 
-theorem fsle_trans_dx: âL1,T1,T. â¦L1,T1â¦ â â¦L1,Tâ¦ â
-                       âL2,T2. â¦L1,Tâ¦ â â¦L2,T2â¦ â â¦L1,T1â¦ â â¦L2,T2â¦.
+theorem fsle_trans_dx:
+        âL1,T1,T. âªL1,T1â« â âªL1,Tâ« â
+        âL2,T2. âªL1,Tâ« â âªL2,T2â« â âªL1,T1â« â âªL2,T2â«.
 #L1 #T1 #T
 * #m1 #m0 #g1 #g0 #Hg1 #Hg0 #Hm #Hg
 #L2 #T2
@@ -74,8 +99,9 @@ lapply (sle_eq_repl_back2 â¦ Hg â¦ Hgf0) -g0
 /4 width=10 by sle_tls, sle_trans, ex4_4_intro/
 qed-.
 
-theorem fsle_trans_rc: âL1,L,T1,T. |L1| = |L| â â¦L1,T1â¦ â â¦L,Tâ¦ â
-                       âL2,T2. |L| = |L2| â â¦L,Tâ¦ â â¦L2,T2â¦ â â¦L1,T1â¦ â â¦L2,T2â¦.
+theorem fsle_trans_rc:
+        âL1,L,T1,T. |L1| = |L| â âªL1,T1â« â âªL,Tâ« â
+        âL2,T2. |L| = |L2| â âªL,Tâ« â âªL2,T2â« â âªL1,T1â« â âªL2,T2â«.
 #L1 #L #T1 #T #HL1
 * #m1 #m0 #g1 #g0 #Hg1 #Hg0 #Hm #Hg
 #L2 #T2 #HL2
@@ -87,19 +113,21 @@ lapply (sle_eq_repl_back2 â¦ Hg â¦ Hgf0) -g0
 /3 width=10 by lveq_length_eq, sle_trans, ex4_4_intro/
 qed-.
 
-theorem fsle_bind_sn_ge: âL1,L2. |L2| â¤ |L1| â
-                         âV1,T1,T. â¦L1,V1â¦ â â¦L2,Tâ¦ â â¦L1.â§,T1â¦ â â¦L2,Tâ¦ â
-                         âp,I. â¦L1,â{p,I}V1.T1â¦ â â¦L2,Tâ¦.
+theorem fsle_bind_sn_ge:
+        âL1,L2. |L2| â¤ |L1| â
+        âV1,T1,T. âªL1,V1â« â âªL2,Tâ« â âªL1.â§,T1â« â âªL2,Tâ« â
+        âp,I. âªL1,â[p,I]V1.T1â« â âªL2,Tâ«.
 #L1 #L2 #HL #V1 #T1 #T * #n1 #x #f1 #g #Hf1 #Hg #H1n1 #H2n1 #H #p #I
 elim (fsle_frees_trans â¦ H â¦ Hg) -H #n2 #n #f2 #Hf2 #H1n2 #H2n2
 elim (lveq_inj_void_sn_ge â¦ H1n1 â¦ H1n2) -H1n2 // #H1 #H2 #H3 destruct
-elim (sor_isfin_ex f1 (â«±f2)) /3 width=3 by frees_fwd_isfin, isfin_tl/ #f #Hf #_
+elim (sor_isfin_ex f1 (â«°f2)) /3 width=3 by frees_fwd_isfin, isfin_tl/ #f #Hf #_
 <tls_xn in H2n2; #H2n2
 /4 width=12 by frees_bind_void, sor_inv_sle, sor_tls, ex4_4_intro/
 qed.
 
-theorem fsle_flat_sn: âL1,L2,V1,T1,T. â¦L1,V1â¦ â â¦L2,Tâ¦ â â¦L1,T1â¦ â â¦L2,Tâ¦ â
-                      âI. â¦L1,â{I}V1.T1â¦ â â¦L2,Tâ¦.
+theorem fsle_flat_sn:
+        âL1,L2,V1,T1,T. âªL1,V1â« â âªL2,Tâ« â âªL1,T1â« â âªL2,Tâ« â
+        âI. âªL1,â[I]V1.T1â« â âªL2,Tâ«.
 #L1 #L2 #V1 #T1 #T * #n1 #x #f1 #g #Hf1 #Hg #H1n1 #H2n1 #H #I
 elim (fsle_frees_trans â¦ H â¦ Hg) -H #n2 #n #f2 #Hf2 #H1n2 #H2n2
 elim (lveq_inj â¦ H1n1 â¦ H1n2) -H1n2 #H1 #H2 destruct
@@ -107,33 +135,36 @@ elim (sor_isfin_ex f1 f2) /2 width=3 by frees_fwd_isfin/ #f #Hf #_
 /4 width=12 by frees_flat, sor_inv_sle, sor_tls, ex4_4_intro/
 qed.
 
-theorem fsle_bind_eq: âL1,L2. |L1| = |L2| â âV1,V2. â¦L1,V1â¦ â â¦L2,V2â¦ â
-                      âI2,T1,T2. â¦L1.â§,T1â¦ â â¦L2.â{I2}V2,T2â¦ â
-                      âp,I1. â¦L1,â{p,I1}V1.T1â¦ â â¦L2,â{p,I2}V2.T2â¦.
+theorem fsle_bind_eq:
+        âL1,L2. |L1| = |L2| â âV1,V2. âªL1,V1â« â âªL2,V2â« â
+        âI2,T1,T2. âªL1.â§,T1â« â âªL2.â[I2]V2,T2â« â
+        âp,I1. âªL1,â[p,I1]V1.T1â« â âªL2,â[p,I2]V2.T2â«.
 #L1 #L2 #HL #V1 #V2
 * #n1 #m1 #f1 #g1 #Hf1 #Hg1 #H1L #Hfg1 #I2 #T1 #T2
 * #n2 #m2 #f2 #g2 #Hf2 #Hg2 #H2L #Hfg2 #p #I1
 elim (lveq_inj_length â¦ H1L) // #H1 #H2 destruct
 elim (lveq_inj_length â¦ H2L) // -HL -H2L #H1 #H2 destruct
-elim (sor_isfin_ex f1 (â«±f2)) /3 width=3 by frees_fwd_isfin, isfin_tl/ #f #Hf #_
-elim (sor_isfin_ex g1 (â«±g2)) /3 width=3 by frees_fwd_isfin, isfin_tl/ #g #Hg #_
+elim (sor_isfin_ex f1 (â«°f2)) /3 width=3 by frees_fwd_isfin, isfin_tl/ #f #Hf #_
+elim (sor_isfin_ex g1 (â«°g2)) /3 width=3 by frees_fwd_isfin, isfin_tl/ #g #Hg #_
 /4 width=15 by frees_bind_void, frees_bind, monotonic_sle_sor, sle_tl, ex4_4_intro/
 qed.
 
-theorem fsle_bind: âL1,L2,V1,V2. â¦L1,V1â¦ â â¦L2,V2â¦ â
-                   âI1,I2,T1,T2. â¦L1.â{I1}V1,T1â¦ â â¦L2.â{I2}V2,T2â¦ â
-                   âp. â¦L1,â{p,I1}V1.T1â¦ â â¦L2,â{p,I2}V2.T2â¦.
+theorem fsle_bind:
+        âL1,L2,V1,V2. âªL1,V1â« â âªL2,V2â« â
+        âI1,I2,T1,T2. âªL1.â[I1]V1,T1â« â âªL2.â[I2]V2,T2â« â
+        âp. âªL1,â[p,I1]V1.T1â« â âªL2,â[p,I2]V2.T2â«.
 #L1 #L2 #V1 #V2
 * #n1 #m1 #f1 #g1 #Hf1 #Hg1 #H1L #Hfg1 #I1 #I2 #T1 #T2
 * #n2 #m2 #f2 #g2 #Hf2 #Hg2 #H2L #Hfg2 #p
 elim (lveq_inv_pair_pair â¦ H2L) -H2L #H2L #H1 #H2 destruct
 elim (lveq_inj â¦ H2L â¦ H1L) -H1L #H1 #H2 destruct
-elim (sor_isfin_ex f1 (â«±f2)) /3 width=3 by frees_fwd_isfin, isfin_tl/ #f #Hf #_
-elim (sor_isfin_ex g1 (â«±g2)) /3 width=3 by frees_fwd_isfin, isfin_tl/ #g #Hg #_
+elim (sor_isfin_ex f1 (â«°f2)) /3 width=3 by frees_fwd_isfin, isfin_tl/ #f #Hf #_
+elim (sor_isfin_ex g1 (â«°g2)) /3 width=3 by frees_fwd_isfin, isfin_tl/ #g #Hg #_
 /4 width=15 by frees_bind, monotonic_sle_sor, sle_tl, ex4_4_intro/
 qed.
 
-theorem fsle_flat: âL1,L2,V1,V2. â¦L1,V1â¦ â â¦L2,V2â¦ â
-                   âT1,T2. â¦L1,T1â¦ â â¦L2,T2â¦ â
-                   âI1,I2. â¦L1,â{I1}V1.T1â¦ â â¦L2,â{I2}V2.T2â¦.
+theorem fsle_flat:
+        âL1,L2,V1,V2. âªL1,V1â« â âªL2,V2â« â
+        âT1,T2. âªL1,T1â« â âªL2,T2â« â
+        âI1,I2. âªL1,â[I1]V1.T1â« â âªL2,â[I2]V2.T2â«.
 /3 width=1 by fsle_flat_sn, fsle_flat_dx_dx, fsle_flat_dx_sn/ qed-.