X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Fmatita%2Fcontribs%2Fdama%2Fdama%2Funiform.ma;h=a89a42ba81de31ba5d771c2378a923efad6b81c1;hb=4924f99796029eecb58e920ca7a6a366efe2373e;hp=ed9e6fe5d1d60a66ddf205d8e1bbcbe7f0ffd113;hpb=ada8695ba51b2ecbd4a955f990e8d06f038aac6b;p=helm.git diff --git a/helm/software/matita/contribs/dama/dama/uniform.ma b/helm/software/matita/contribs/dama/dama/uniform.ma index ed9e6fe5d..a89a42ba8 100644 --- a/helm/software/matita/contribs/dama/dama/uniform.ma +++ b/helm/software/matita/contribs/dama/dama/uniform.ma @@ -14,31 +14,27 @@ include "supremum.ma". - (* Definition 2.13 *) alias symbol "square" = "bishop set square". -alias symbol "pair" = "pair". +alias symbol "pair" = "Pair construction". alias symbol "exists" = "exists". alias symbol "and" = "logical and". definition compose_bs_relations ≝ λC:bishop_set.λU,V:C square → Prop. - λx:C square.∃y:C. U 〈fst x,y〉 ∧ V 〈y,snd x〉. + λx:C square.∃y:C. U 〈\fst x,y〉 ∧ V 〈y,\snd x〉. definition compose_os_relations ≝ λC:ordered_set.λU,V:C square → Prop. - λx:C square.∃y:C. U 〈fst x,y〉 ∧ V 〈y,snd x〉. + λx:C square.∃y:C. U 〈\fst x,y〉 ∧ V 〈y,\snd x〉. interpretation "bishop set relations composition" 'compose a b = (compose_bs_relations _ a b). interpretation "ordered set relations composition" 'compose a b = (compose_os_relations _ a b). definition invert_bs_relation ≝ λC:bishop_set.λU:C square → Prop. - λx:C square. U 〈snd x,fst x〉. - -notation < "s \sup (-1)" with precedence 70 for @{ 'invert $s }. -notation < "s \sup (-1) x" with precedence 70 - for @{ 'invert_appl $s $x}. -notation > "'inv'" with precedence 70 for @{ 'invert_symbol }. + λx:C square. U 〈\snd x,\fst x〉. + +notation > "\inv" with precedence 60 for @{ 'invert_symbol }. interpretation "relation invertion" 'invert a = (invert_bs_relation _ a). interpretation "relation invertion" 'invert_symbol = (invert_bs_relation _). interpretation "relation invertion" 'invert_appl a x = (invert_bs_relation _ a x). @@ -52,12 +48,12 @@ record uniform_space : Type ≝ { us_carr:> bishop_set; us_unifbase: (us_carr square → Prop) → CProp; us_phi1: ∀U:us_carr square → Prop. us_unifbase U → - (λx:us_carr square.fst x ≈ snd x) ⊆ U; + (λx:us_carr square.\fst x ≈ \snd x) ⊆ U; us_phi2: ∀U,V:us_carr square → Prop. us_unifbase U → us_unifbase V → ∃W:us_carr square → Prop.us_unifbase W ∧ (W ⊆ (λx.U x ∧ V x)); us_phi3: ∀U:us_carr square → Prop. us_unifbase U → ∃W:us_carr square → Prop.us_unifbase W ∧ (W ∘ W) ⊆ U; - us_phi4: ∀U:us_carr square → Prop. us_unifbase U → ∀x.(U x → (inv U) x) ∧ ((inv U) x → U x) + us_phi4: ∀U:us_carr square → Prop. us_unifbase U → ∀x.(U x → (\inv U) x) ∧ ((\inv U) x → U x) }. (* Definition 2.14 *) @@ -66,9 +62,9 @@ definition cauchy ≝ λC:uniform_space.λa:sequence C.∀U.us_unifbase C U → ∃n. ∀i,j. n ≤ i → n ≤ j → U 〈a i,a j〉. -notation < "a \nbsp 'is_cauchy'" non associative with precedence 50 +notation < "a \nbsp 'is_cauchy'" non associative with precedence 45 for @{'cauchy $a}. -notation > "a 'is_cauchy'" non associative with precedence 50 +notation > "a 'is_cauchy'" non associative with precedence 45 for @{'cauchy $a}. interpretation "Cauchy sequence" 'cauchy s = (cauchy _ s). @@ -77,9 +73,9 @@ definition uniform_converge ≝ λC:uniform_space.λa:sequence C.λu:C. ∀U.us_unifbase C U → ∃n. ∀i. n ≤ i → U 〈u,a i〉. -notation < "a \nbsp (\u \atop (\horbar\triangleright)) \nbsp x" non associative with precedence 50 +notation < "a \nbsp (\u \atop (\horbar\triangleright)) \nbsp x" non associative with precedence 45 for @{'uniform_converge $a $x}. -notation > "a 'uniform_converges' x" non associative with precedence 50 +notation > "a 'uniform_converges' x" non associative with precedence 45 for @{'uniform_converge $a $x}. interpretation "Uniform convergence" 'uniform_converge s u = (uniform_converge _ s u).