X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=matita%2Fmatita%2Fcontribs%2Flambdadelta%2Fground_2%2Fstar.ma;h=1358f8da242cab36a609fa84d86382c3641093e3;hb=e02bd4f3df78b5cc374d49d0ddf48b311188f514;hp=1e46a48c6d536e131a1d0bcf9ba7c3de414387a6;hpb=e8998d29ab83e7b6aa495a079193705b2f6743d3;p=helm.git diff --git a/matita/matita/contribs/lambdadelta/ground_2/star.ma b/matita/matita/contribs/lambdadelta/ground_2/star.ma index 1e46a48c6..1358f8da2 100644 --- a/matita/matita/contribs/lambdadelta/ground_2/star.ma +++ b/matita/matita/contribs/lambdadelta/ground_2/star.ma @@ -20,10 +20,6 @@ include "ground_2/notation.ma". definition Decidable: Prop → Prop ≝ λR. R ∨ (R → ⊥). -definition Confluent: ∀A. ∀R: relation A. Prop ≝ λA,R. - ∀a0,a1. R a0 a1 → ∀a2. R a0 a2 → - ∃∃a. R a1 a & R a2 a. - definition Transitive: ∀A. ∀R: relation A. Prop ≝ λA,R. ∀a1,a0. R a1 a0 → ∀a2. R a0 a2 → R a1 a2. @@ -39,6 +35,15 @@ definition bi_confluent: ∀A,B. ∀R: bi_relation A B. Prop ≝ λA,B,R. ∀a0,a1,b0,b1. R a0 b0 a1 b1 → ∀a2,b2. R a0 b0 a2 b2 → ∃∃a,b. R a1 b1 a b & R a2 b2 a b. +definition LTC: ∀A:Type[0]. ∀B. (A→relation B) → (A→relation B) ≝ + λA,B,R,a. TC … (R a). + +definition s_r_trans: ∀A,B. relation2 (A→relation B) (relation A) ≝ λA,B,R1,R2. + ∀L2,T1,T2. R1 L2 T1 T2 → ∀L1. R2 L1 L2 → LTC … R1 L1 T1 T2. + +definition s_rs_trans: ∀A,B. relation2 (A→relation B) (relation A) ≝ λA,B,R1,R2. + ∀L2,T1,T2. LTC … R1 L2 T1 T2 → ∀L1. R2 L1 L2 → LTC … R1 L1 T1 T2. + lemma TC_strip1: ∀A,R1,R2. confluent2 A R1 R2 → ∀a0,a1. TC … R1 a0 a1 → ∀a2. R2 a0 a2 → ∃∃a. R2 a1 a & TC … R1 a2 a. @@ -47,7 +52,7 @@ lemma TC_strip1: ∀A,R1,R2. confluent2 A R1 R2 → elim (HR12 … Ha01 … Ha02) -HR12 -a0 /3 width=3/ | #a #a1 #_ #Ha1 #IHa0 #a2 #Ha02 elim (IHa0 … Ha02) -a0 #a0 #Ha0 #Ha20 - elim (HR12 … Ha1 … Ha0) -HR12 -a /4 width=3/ + elim (HR12 … Ha1 … Ha0) -HR12 -a /4 width=5/ ] qed. @@ -70,7 +75,7 @@ lemma TC_confluent2: ∀A,R1,R2. elim (TC_strip2 … HR12 … Ha02 … Ha01) -HR12 -a0 /3 width=3/ | #a #a1 #_ #Ha1 #IHa0 #a2 #Ha02 elim (IHa0 … Ha02) -a0 #a0 #Ha0 #Ha20 - elim (TC_strip2 … HR12 … Ha0 … Ha1) -HR12 -a /4 width=3/ + elim (TC_strip2 … HR12 … Ha0 … Ha1) -HR12 -a /4 width=5/ ] qed. @@ -82,7 +87,7 @@ lemma TC_strap1: ∀A,R1,R2. transitive2 A R1 R2 → elim (HR12 … Ha10 … Ha02) -HR12 -a0 /3 width=3/ | #a #a0 #_ #Ha0 #IHa #a2 #Ha02 elim (HR12 … Ha0 … Ha02) -HR12 -a0 #a0 #Ha0 #Ha02 - elim (IHa … Ha0) -a /4 width=3/ + elim (IHa … Ha0) -a /4 width=5/ ] qed. @@ -105,7 +110,7 @@ lemma TC_transitive2: ∀A,R1,R2. elim (TC_strap2 … HR12 … Ha02 … Ha10) -HR12 -a0 /3 width=3/ | #a #a0 #_ #Ha0 #IHa #a2 #Ha02 elim (TC_strap2 … HR12 … Ha02 … Ha0) -HR12 -a0 #a0 #Ha0 #Ha02 - elim (IHa … Ha0) -a /4 width=3/ + elim (IHa … Ha0) -a /4 width=5/ ] qed. @@ -119,7 +124,7 @@ inductive SN (A) (R,S:relation A): predicate A ≝ lemma NF_to_SN: ∀A,R,S,a. NF A R S a → SN A R S a. #A #R #S #a1 #Ha1 @SN_intro #a2 #HRa12 #HSa12 -elim (HSa12 ?) -HSa12 /2 width=1/ +elim HSa12 -HSa12 /2 width=1/ qed. definition NF_sn: ∀A. relation A → relation A → predicate A ≝ @@ -132,7 +137,7 @@ inductive SN_sn (A) (R,S:relation A): predicate A ≝ lemma NF_to_SN_sn: ∀A,R,S,a. NF_sn A R S a → SN_sn A R S a. #A #R #S #a2 #Ha2 @SN_sn_intro #a1 #HRa12 #HSa12 -elim (HSa12 ?) -HSa12 /2 width=1/ +elim HSa12 -HSa12 /2 width=1/ qed. lemma bi_TC_strip: ∀A,B,R. bi_confluent A B R → @@ -156,3 +161,30 @@ lemma bi_TC_confluent: ∀A,B,R. bi_confluent A B R → elim (bi_TC_strip … HR … H13 … H10) -a1 -b1 /3 width=7/ ] qed. + +lemma bi_TC_decomp_r: ∀A,B. ∀R:bi_relation A B. + ∀a1,a2,b1,b2. bi_TC … R a1 b1 a2 b2 → + R a1 b1 a2 b2 ∨ + ∃∃a,b. bi_TC … R a1 b1 a b & R a b a2 b2. +#A #B #R #a1 #a2 #b1 #b2 * -a2 -b2 /2 width=1/ /3 width=4/ +qed-. + +lemma bi_TC_decomp_l: ∀A,B. ∀R:bi_relation A B. + ∀a1,a2,b1,b2. bi_TC … R a1 b1 a2 b2 → + R a1 b1 a2 b2 ∨ + ∃∃a,b. R a1 b1 a b & bi_TC … R a b a2 b2. +#A #B #R #a1 #a2 #b1 #b2 #H @(bi_TC_ind_dx … a1 b1 H) -a1 -b1 +[ /2 width=1/ +| #a1 #a #b1 #b #Hab1 #Hab2 #_ /3 width=4/ +] +qed-. + +lemma s_r_trans_TC1: ∀A,B,R,S. s_r_trans A B R S → s_rs_trans A B R S. +#A #B #R #S #HRS #L2 #T1 #T2 #H elim H -T2 [ /3 width=3/ ] +#T #T2 #_ #HT2 #IHT1 #L1 #HL12 +lapply (HRS … HT2 … HL12) -HRS -HT2 /3 width=3/ +qed-. + +lemma s_r_trans_TC2: ∀A,B,R,S. s_rs_trans A B R S → s_r_trans A B R (TC … S). +#A #B #R #S #HRS #L2 #T1 #T2 #HT12 #L1 #H @(TC_ind_dx … L1 H) -L1 /2 width=3/ /3 width=3/ +qed-.