X-Git-Url: http://matita.cs.unibo.it/gitweb/?p=helm.git;a=blobdiff_plain;f=matita%2Fmatita%2Fcontribs%2Flambdadelta%2Fground_2%2Frelocation%2Fmr2_minus.ma;h=81544fe29e3e7add2a7beab566475537d339a0b9;hp=f118cf12971541691568228c7aab1e7a23b0ae95;hb=bd53c4e895203eb049e75434f638f26b5a161a2b;hpb=3b7b8afcb429a60d716d5226a5b6ab0d003228b1 diff --git a/matita/matita/contribs/lambdadelta/ground_2/relocation/mr2_minus.ma b/matita/matita/contribs/lambdadelta/ground_2/relocation/mr2_minus.ma index f118cf129..81544fe29 100644 --- a/matita/matita/contribs/lambdadelta/ground_2/relocation/mr2_minus.ma +++ b/matita/matita/contribs/lambdadelta/ground_2/relocation/mr2_minus.ma @@ -20,9 +20,9 @@ include "ground_2/relocation/mr2.ma". inductive minuss: nat → relation mr2 ≝ | minuss_nil: ∀i. minuss i (◊) (◊) | minuss_lt : ∀cs1,cs2,l,m,i. i < l → minuss i cs1 cs2 → - minuss i ({l, m};cs1) ({l - i, m};cs2) + minuss i (❨l, m❩;cs1) (❨l - i, m❩;cs2) | minuss_ge : ∀cs1,cs2,l,m,i. l ≤ i → minuss (m + i) cs1 cs2 → - minuss i ({l, m};cs1) cs2 + minuss i (❨l, m❩;cs1) cs2 . interpretation "minus (multiple relocation with pairs)" @@ -42,10 +42,10 @@ lemma minuss_inv_nil1: ∀cs2,i. ◊ ▭ i ≘ cs2 → cs2 = ◊. /2 width=4 by minuss_inv_nil1_aux/ qed-. fact minuss_inv_cons1_aux: ∀cs1,cs2,i. cs1 ▭ i ≘ cs2 → - ∀l,m,cs. cs1 = {l, m};cs → + ∀l,m,cs. cs1 = ❨l, m❩;cs → l ≤ i ∧ cs ▭ m + i ≘ cs2 ∨ ∃∃cs0. i < l & cs ▭ i ≘ cs0 & - cs2 = {l - i, m};cs0. + cs2 = ❨l - i, m❩;cs0. #cs1 #cs2 #i * -cs1 -cs2 -i [ #i #l #m #cs #H destruct | #cs1 #cs #l1 #m1 #i1 #Hil1 #Hcs #l2 #m2 #cs2 #H destruct /3 width=3 by ex3_intro, or_intror/ @@ -53,22 +53,22 @@ fact minuss_inv_cons1_aux: ∀cs1,cs2,i. cs1 ▭ i ≘ cs2 → ] qed-. -lemma minuss_inv_cons1: ∀cs1,cs2,l,m,i. {l, m};cs1 ▭ i ≘ cs2 → +lemma minuss_inv_cons1: ∀cs1,cs2,l,m,i. ❨l, m❩;cs1 ▭ i ≘ cs2 → l ≤ i ∧ cs1 ▭ m + i ≘ cs2 ∨ ∃∃cs. i < l & cs1 ▭ i ≘ cs & - cs2 = {l - i, m};cs. + cs2 = ❨l - i, m❩;cs. /2 width=3 by minuss_inv_cons1_aux/ qed-. -lemma minuss_inv_cons1_ge: ∀cs1,cs2,l,m,i. {l, m};cs1 ▭ i ≘ cs2 → +lemma minuss_inv_cons1_ge: ∀cs1,cs2,l,m,i. ❨l, m❩;cs1 ▭ i ≘ cs2 → l ≤ i → cs1 ▭ m + i ≘ cs2. #cs1 #cs2 #l #m #i #H elim (minuss_inv_cons1 … H) -H * // #cs #Hil #_ #_ #Hli elim (lt_le_false … Hil Hli) qed-. -lemma minuss_inv_cons1_lt: ∀cs1,cs2,l,m,i. {l, m};cs1 ▭ i ≘ cs2 → +lemma minuss_inv_cons1_lt: ∀cs1,cs2,l,m,i. ❨l, m❩;cs1 ▭ i ≘ cs2 → i < l → - ∃∃cs. cs1 ▭ i ≘ cs & cs2 = {l - i, m};cs. + ∃∃cs. cs1 ▭ i ≘ cs & cs2 = ❨l - i, m❩;cs. #cs1 #cs2 #l #m #i #H elim (minuss_inv_cons1 … H) -H * /2 width=3 by ex2_intro/ #Hli #_ #Hil elim (lt_le_false … Hil Hli) qed-.