X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=matita%2Fmatita%2Fcontribs%2Flambdadelta%2Fground_2%2Fynat%2Fynat_succ.ma;h=f08e632937ee67dd06dfb6bac7392125d1ce9389;hb=1604f2ee65c57eefb7c6b3122eab2a9f32e0552d;hp=a8d1946bea235170f6405cdcc962f660c1e789ae;hpb=b3f8b89278d193ed0aa0f39e7f8d74cf1de81d8d;p=helm.git diff --git a/matita/matita/contribs/lambdadelta/ground_2/ynat/ynat_succ.ma b/matita/matita/contribs/lambdadelta/ground_2/ynat/ynat_succ.ma index a8d1946be..f08e63293 100644 --- a/matita/matita/contribs/lambdadelta/ground_2/ynat/ynat_succ.ma +++ b/matita/matita/contribs/lambdadelta/ground_2/ynat/ynat_succ.ma @@ -12,25 +12,30 @@ (* *) (**************************************************************************) -include "ground_2/notation/functions/successor_1.ma". include "ground_2/ynat/ynat_pred.ma". (* NATURAL NUMBERS WITH INFINITY ********************************************) (* the successor function *) definition ysucc: ynat → ynat ≝ λm. match m with -[ yinj m ⇒ S m +[ yinj m ⇒ ⫯m | Y ⇒ Y ]. interpretation "ynat successor" 'Successor m = (ysucc m). +lemma ysucc_inj: ∀m:nat. ⫯(yinj m) = yinj (⫯m). +// qed. + +lemma ysucc_Y: ⫯(∞) = ∞. +// qed. + (* Properties ***************************************************************) lemma ypred_succ: ∀m. ⫰⫯m = m. * // qed. -lemma ynat_cases: ∀n:ynat. n = 0 ∨ ∃m. n = ⫯m. +lemma ynat_cases: ∀n:ynat. n = 0 ∨ ∃m:ynat. n = ⫯m. * [ * /2 width=1 by or_introl/ #n @or_intror @(ex_intro … n) // (**) (* explicit constructor *) @@ -45,12 +50,12 @@ qed. (* Inversion lemmas *********************************************************) -lemma ysucc_inj: ∀m,n. ⫯m = ⫯n → m = n. +lemma ysucc_inv_inj: ∀m,n. ⫯m = ⫯n → m = n. #m #n #H <(ypred_succ m) <(ypred_succ n) // qed-. lemma ysucc_inv_refl: ∀m. ⫯m = m → m = ∞. -* // normalize +* // #m #H lapply (yinj_inj … H) -H (**) (* destruct lemma needed *) #H elim (lt_refl_false m) // qed-. @@ -80,5 +85,13 @@ lemma ysucc_inv_O_sn: ∀m. yinj 0 = ⫯m → ⊥. (**) (* explicit coercion *) #n #_ #H destruct qed-. -lemma ysucc_inv_O_dx: ∀m. ⫯m = 0 → ⊥. +lemma ysucc_inv_O_dx: ∀m:ynat. ⫯m = 0 → ⊥. /2 width=2 by ysucc_inv_O_sn/ qed-. + +(* Eliminators **************************************************************) + +lemma ynat_ind: ∀R:predicate ynat. + R 0 → (∀n:nat. R n → R (⫯n)) → R (∞) → + ∀x. R x. +#R #H1 #H2 #H3 * // #n elim n -n /2 width=1 by/ +qed-.