X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Fmatita%2Flibrary%2Fnat%2Fminimization.ma;h=22d5030ddb37a12d032f66b489cd87aa7bc01780;hb=fe40d64367a3105b09696557c256f5a78d4b7384;hp=8b4b83c2fbc7d910fc9c3d91dbd4dc130e713c30;hpb=21d7aa4df8d5d4bfe1073720ea4f9410e9cec879;p=helm.git diff --git a/helm/software/matita/library/nat/minimization.ma b/helm/software/matita/library/nat/minimization.ma index 8b4b83c2f..22d5030dd 100644 --- a/helm/software/matita/library/nat/minimization.ma +++ b/helm/software/matita/library/nat/minimization.ma @@ -72,6 +72,76 @@ intro.simplify.rewrite < H3. rewrite > H2.simplify.apply le_n. qed. +theorem max_f_g: \forall f,g,n. (\forall i. i \le n \to f i = g i) \to +max n f = max n g. +intros 3. +elim n + [simplify. + rewrite > (H O) + [reflexivity + |apply le_n + ] + |simplify. + rewrite > H + [rewrite > H1 + [reflexivity + |apply le_n + ] + |intros. + apply H1. + apply le_S. + assumption + ] + ] +qed. + +theorem le_max_f_max_g: \forall f,g,n. (\forall i. i \le n \to f i = true \to g i =true) \to +max n f \le max n g. +intros 3. +elim n + [simplify. + elim (f O);apply le_O_n + |simplify. + apply (bool_elim ? (f (S n1)));intro + [rewrite > (H1 (S n1) ? H2) + [apply le_n + |apply le_n + ] + |cases (g(S n1)) + [simplify. + apply le_S. + apply le_max_n + |simplify. + apply H. + intros. + apply H1 + [apply le_S.assumption + |assumption + ] + ] + ] + ] +qed. + + +theorem max_O : \forall f:nat \to bool. \forall n:nat. +(\forall i:nat. le i n \to f i = false) \to max n f = O. +intros 2.elim n + [simplify.rewrite > H + [reflexivity + |apply le_O_n + ] + |simplify.rewrite > H1 + [simplify.apply H. + intros. + apply H1. + apply le_S. + assumption + |apply le_n + ] + ] +qed. + theorem f_max_true : \forall f:nat \to bool. \forall n:nat. (\exists i:nat. le i n \land f i = true) \to f (max n f) = true. intros 2. @@ -95,6 +165,73 @@ rewrite < H2.rewrite < H7.rewrite > H6. reflexivity. reflexivity. qed. +theorem exists_forall_le:\forall f,n. +(\exists i. i \le n \land f i = true) \lor +(\forall i. i \le n \to f i = false). +intros. +elim n + [apply (bool_elim ? (f O));intro + [left.apply (ex_intro ? ? O). + split[apply le_n|assumption] + |right.intros. + apply (le_n_O_elim ? H1). + assumption + ] + |elim H + [elim H1.elim H2. + left.apply (ex_intro ? ? a). + split[apply le_S.assumption|assumption] + |apply (bool_elim ? (f (S n1)));intro + [left.apply (ex_intro ? ? (S n1)). + split[apply le_n|assumption] + |right.intros. + elim (le_to_or_lt_eq ? ? H3) + [apply H1. + apply le_S_S_to_le. + apply H4 + |rewrite > H4. + assumption + ] + ] + ] + ] +qed. + +theorem exists_max_forall_false:\forall f,n. +((\exists i. i \le n \land f i = true) \land (f (max n f) = true))\lor +((\forall i. i \le n \to f i = false) \land (max n f) = O). +intros. +elim (exists_forall_le f n) + [left.split + [assumption + |apply f_max_true.assumption + ] + |right.split + [assumption + |apply max_O.assumption + ] + ] +qed. + +theorem false_to_lt_max: \forall f,n,m.O < n \to +f n = false \to max m f \le n \to max m f < n. +intros. +elim (le_to_or_lt_eq ? ? H2) + [assumption + |elim (exists_max_forall_false f m) + [elim H4. + apply False_ind. + apply not_eq_true_false. + rewrite < H6. + rewrite > H3. + assumption + |elim H4. + rewrite > H6. + assumption + ] + ] +qed. + theorem lt_max_to_false : \forall f:nat \to bool. \forall n,m:nat. (max n f) < m \to m \leq n \to f m = false. intros 2. @@ -114,6 +251,18 @@ apply le_S_S_to_le.assumption. intro.rewrite > H7.assumption. qed. +theorem f_false_to_le_max: \forall f,n,p. (∃i:nat.i≤n∧f i=true) \to +(\forall m. p < m \to f m = false) +\to max n f \le p. +intros. +apply not_lt_to_le.intro. +apply not_eq_true_false. +rewrite < (H1 ? H2). +apply sym_eq. +apply f_max_true. +assumption. +qed. + definition max_spec \def \lambda f:nat \to bool.\lambda n,m: nat. m \le n \land (f m)=true \land (\forall i. m < i \to i \le n \to (f i = false)).