author | huffman |
Mon, 26 Apr 2010 09:45:22 -0700 | |
changeset 36365 | 18bf20d0c2df |
parent 36364 | 0e2679025aeb |
parent 36350 | bc7982c54e37 |
child 36755 | d1b498f2f50b |
permissions | -rw-r--r-- |
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(* Title: HOL/SetInterval.thy |
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Author: Tobias Nipkow |
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Author: Clemens Ballarin |
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Author: Jeremy Avigad |
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lessThan, greaterThan, atLeast, atMost and two-sided intervals |
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*) |
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header {* Set intervals *} |
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theory SetInterval |
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imports Int Nat_Transfer |
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begin |
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context ord |
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begin |
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definition |
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lessThan :: "'a => 'a set" ("(1{..<_})") where |
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"{..<u} == {x. x < u}" |
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definition |
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atMost :: "'a => 'a set" ("(1{.._})") where |
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"{..u} == {x. x \<le> u}" |
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definition |
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greaterThan :: "'a => 'a set" ("(1{_<..})") where |
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"{l<..} == {x. l<x}" |
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definition |
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atLeast :: "'a => 'a set" ("(1{_..})") where |
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"{l..} == {x. l\<le>x}" |
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definition |
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greaterThanLessThan :: "'a => 'a => 'a set" ("(1{_<..<_})") where |
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"{l<..<u} == {l<..} Int {..<u}" |
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definition |
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atLeastLessThan :: "'a => 'a => 'a set" ("(1{_..<_})") where |
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"{l..<u} == {l..} Int {..<u}" |
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definition |
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greaterThanAtMost :: "'a => 'a => 'a set" ("(1{_<.._})") where |
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"{l<..u} == {l<..} Int {..u}" |
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definition |
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atLeastAtMost :: "'a => 'a => 'a set" ("(1{_.._})") where |
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"{l..u} == {l..} Int {..u}" |
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end |
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text{* A note of warning when using @{term"{..<n}"} on type @{typ |
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nat}: it is equivalent to @{term"{0::nat..<n}"} but some lemmas involving |
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@{term"{m..<n}"} may not exist in @{term"{..<n}"}-form as well. *} |
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syntax |
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"_UNION_le" :: "'a => 'a => 'b set => 'b set" ("(3UN _<=_./ _)" [0, 0, 10] 10) |
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"_UNION_less" :: "'a => 'a => 'b set => 'b set" ("(3UN _<_./ _)" [0, 0, 10] 10) |
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"_INTER_le" :: "'a => 'a => 'b set => 'b set" ("(3INT _<=_./ _)" [0, 0, 10] 10) |
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"_INTER_less" :: "'a => 'a => 'b set => 'b set" ("(3INT _<_./ _)" [0, 0, 10] 10) |
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syntax (xsymbols) |
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"_UNION_le" :: "'a => 'a => 'b set => 'b set" ("(3\<Union> _\<le>_./ _)" [0, 0, 10] 10) |
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"_UNION_less" :: "'a => 'a => 'b set => 'b set" ("(3\<Union> _<_./ _)" [0, 0, 10] 10) |
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"_INTER_le" :: "'a => 'a => 'b set => 'b set" ("(3\<Inter> _\<le>_./ _)" [0, 0, 10] 10) |
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"_INTER_less" :: "'a => 'a => 'b set => 'b set" ("(3\<Inter> _<_./ _)" [0, 0, 10] 10) |
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syntax (latex output) |
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"_UNION_le" :: "'a \<Rightarrow> 'a => 'b set => 'b set" ("(3\<Union>(00_ \<le> _)/ _)" [0, 0, 10] 10) |
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"_UNION_less" :: "'a \<Rightarrow> 'a => 'b set => 'b set" ("(3\<Union>(00_ < _)/ _)" [0, 0, 10] 10) |
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"_INTER_le" :: "'a \<Rightarrow> 'a => 'b set => 'b set" ("(3\<Inter>(00_ \<le> _)/ _)" [0, 0, 10] 10) |
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"_INTER_less" :: "'a \<Rightarrow> 'a => 'b set => 'b set" ("(3\<Inter>(00_ < _)/ _)" [0, 0, 10] 10) |
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translations |
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"UN i<=n. A" == "UN i:{..n}. A" |
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"UN i<n. A" == "UN i:{..<n}. A" |
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"INT i<=n. A" == "INT i:{..n}. A" |
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"INT i<n. A" == "INT i:{..<n}. A" |
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subsection {* Various equivalences *} |
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lemma (in ord) lessThan_iff [iff]: "(i: lessThan k) = (i<k)" |
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by (simp add: lessThan_def) |
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lemma Compl_lessThan [simp]: |
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"!!k:: 'a::linorder. -lessThan k = atLeast k" |
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apply (auto simp add: lessThan_def atLeast_def) |
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done |
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lemma single_Diff_lessThan [simp]: "!!k:: 'a::order. {k} - lessThan k = {k}" |
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by auto |
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lemma (in ord) greaterThan_iff [iff]: "(i: greaterThan k) = (k<i)" |
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by (simp add: greaterThan_def) |
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lemma Compl_greaterThan [simp]: |
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"!!k:: 'a::linorder. -greaterThan k = atMost k" |
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by (auto simp add: greaterThan_def atMost_def) |
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lemma Compl_atMost [simp]: "!!k:: 'a::linorder. -atMost k = greaterThan k" |
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apply (subst Compl_greaterThan [symmetric]) |
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apply (rule double_complement) |
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done |
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lemma (in ord) atLeast_iff [iff]: "(i: atLeast k) = (k<=i)" |
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by (simp add: atLeast_def) |
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lemma Compl_atLeast [simp]: |
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"!!k:: 'a::linorder. -atLeast k = lessThan k" |
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by (auto simp add: lessThan_def atLeast_def) |
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lemma (in ord) atMost_iff [iff]: "(i: atMost k) = (i<=k)" |
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by (simp add: atMost_def) |
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lemma atMost_Int_atLeast: "!!n:: 'a::order. atMost n Int atLeast n = {n}" |
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by (blast intro: order_antisym) |
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subsection {* Logical Equivalences for Set Inclusion and Equality *} |
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lemma atLeast_subset_iff [iff]: |
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"(atLeast x \<subseteq> atLeast y) = (y \<le> (x::'a::order))" |
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by (blast intro: order_trans) |
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lemma atLeast_eq_iff [iff]: |
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"(atLeast x = atLeast y) = (x = (y::'a::linorder))" |
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by (blast intro: order_antisym order_trans) |
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lemma greaterThan_subset_iff [iff]: |
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"(greaterThan x \<subseteq> greaterThan y) = (y \<le> (x::'a::linorder))" |
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apply (auto simp add: greaterThan_def) |
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apply (subst linorder_not_less [symmetric], blast) |
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done |
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lemma greaterThan_eq_iff [iff]: |
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"(greaterThan x = greaterThan y) = (x = (y::'a::linorder))" |
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apply (rule iffI) |
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apply (erule equalityE) |
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apply simp_all |
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done |
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lemma atMost_subset_iff [iff]: "(atMost x \<subseteq> atMost y) = (x \<le> (y::'a::order))" |
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by (blast intro: order_trans) |
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lemma atMost_eq_iff [iff]: "(atMost x = atMost y) = (x = (y::'a::linorder))" |
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by (blast intro: order_antisym order_trans) |
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lemma lessThan_subset_iff [iff]: |
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"(lessThan x \<subseteq> lessThan y) = (x \<le> (y::'a::linorder))" |
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apply (auto simp add: lessThan_def) |
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apply (subst linorder_not_less [symmetric], blast) |
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done |
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lemma lessThan_eq_iff [iff]: |
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"(lessThan x = lessThan y) = (x = (y::'a::linorder))" |
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apply (rule iffI) |
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apply (erule equalityE) |
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apply simp_all |
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done |
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subsection {*Two-sided intervals*} |
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context ord |
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begin |
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lemma greaterThanLessThan_iff [simp,no_atp]: |
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"(i : {l<..<u}) = (l < i & i < u)" |
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by (simp add: greaterThanLessThan_def) |
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lemma atLeastLessThan_iff [simp,no_atp]: |
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"(i : {l..<u}) = (l <= i & i < u)" |
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by (simp add: atLeastLessThan_def) |
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lemma greaterThanAtMost_iff [simp,no_atp]: |
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"(i : {l<..u}) = (l < i & i <= u)" |
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by (simp add: greaterThanAtMost_def) |
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lemma atLeastAtMost_iff [simp,no_atp]: |
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"(i : {l..u}) = (l <= i & i <= u)" |
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by (simp add: atLeastAtMost_def) |
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text {* The above four lemmas could be declared as iffs. Unfortunately this |
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breaks many proofs. Since it only helps blast, it is better to leave well |
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alone *} |
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end |
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subsubsection{* Emptyness, singletons, subset *} |
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context order |
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begin |
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lemma atLeastatMost_empty[simp]: |
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"b < a \<Longrightarrow> {a..b} = {}" |
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by(auto simp: atLeastAtMost_def atLeast_def atMost_def) |
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lemma atLeastatMost_empty_iff[simp]: |
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"{a..b} = {} \<longleftrightarrow> (~ a <= b)" |
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by auto (blast intro: order_trans) |
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lemma atLeastatMost_empty_iff2[simp]: |
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"{} = {a..b} \<longleftrightarrow> (~ a <= b)" |
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by auto (blast intro: order_trans) |
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lemma atLeastLessThan_empty[simp]: |
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"b <= a \<Longrightarrow> {a..<b} = {}" |
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by(auto simp: atLeastLessThan_def) |
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lemma atLeastLessThan_empty_iff[simp]: |
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"{a..<b} = {} \<longleftrightarrow> (~ a < b)" |
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by auto (blast intro: le_less_trans) |
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lemma atLeastLessThan_empty_iff2[simp]: |
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"{} = {a..<b} \<longleftrightarrow> (~ a < b)" |
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by auto (blast intro: le_less_trans) |
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lemma greaterThanAtMost_empty[simp]: "l \<le> k ==> {k<..l} = {}" |
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by(auto simp:greaterThanAtMost_def greaterThan_def atMost_def) |
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lemma greaterThanAtMost_empty_iff[simp]: "{k<..l} = {} \<longleftrightarrow> ~ k < l" |
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by auto (blast intro: less_le_trans) |
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lemma greaterThanAtMost_empty_iff2[simp]: "{} = {k<..l} \<longleftrightarrow> ~ k < l" |
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by auto (blast intro: less_le_trans) |
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lemma greaterThanLessThan_empty[simp]:"l \<le> k ==> {k<..<l} = {}" |
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by(auto simp:greaterThanLessThan_def greaterThan_def lessThan_def) |
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lemma atLeastAtMost_singleton [simp]: "{a..a} = {a}" |
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by (auto simp add: atLeastAtMost_def atMost_def atLeast_def) |
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lemma atLeastatMost_subset_iff[simp]: |
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"{a..b} <= {c..d} \<longleftrightarrow> (~ a <= b) | c <= a & b <= d" |
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unfolding atLeastAtMost_def atLeast_def atMost_def |
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by (blast intro: order_trans) |
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lemma atLeastatMost_psubset_iff: |
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"{a..b} < {c..d} \<longleftrightarrow> |
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((~ a <= b) | c <= a & b <= d & (c < a | b < d)) & c <= d" |
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by(simp add: psubset_eq expand_set_eq less_le_not_le)(blast intro: order_trans) |
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end |
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lemma (in linorder) atLeastLessThan_subset_iff: |
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"{a..<b} <= {c..<d} \<Longrightarrow> b <= a | c<=a & b<=d" |
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apply (auto simp:subset_eq Ball_def) |
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apply(frule_tac x=a in spec) |
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apply(erule_tac x=d in allE) |
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apply (simp add: less_imp_le) |
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done |
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subsubsection {* Intersection *} |
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|
255 |
|
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|
256 |
context linorder |
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|
257 |
begin |
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|
258 |
|
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|
259 |
lemma Int_atLeastAtMost[simp]: "{a..b} Int {c..d} = {max a c .. min b d}" |
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|
260 |
by auto |
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changeset
|
261 |
|
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|
262 |
lemma Int_atLeastAtMostR1[simp]: "{..b} Int {c..d} = {c .. min b d}" |
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|
263 |
by auto |
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parents:
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diff
changeset
|
264 |
|
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|
265 |
lemma Int_atLeastAtMostR2[simp]: "{a..} Int {c..d} = {max a c .. d}" |
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|
266 |
by auto |
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parents:
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diff
changeset
|
267 |
|
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diff
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|
268 |
lemma Int_atLeastAtMostL1[simp]: "{a..b} Int {..d} = {a .. min b d}" |
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diff
changeset
|
269 |
by auto |
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parents:
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diff
changeset
|
270 |
|
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|
271 |
lemma Int_atLeastAtMostL2[simp]: "{a..b} Int {c..} = {max a c .. b}" |
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changeset
|
272 |
by auto |
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parents:
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diff
changeset
|
273 |
|
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|
274 |
lemma Int_atLeastLessThan[simp]: "{a..<b} Int {c..<d} = {max a c ..< min b d}" |
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|
275 |
by auto |
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parents:
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diff
changeset
|
276 |
|
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|
277 |
lemma Int_greaterThanAtMost[simp]: "{a<..b} Int {c<..d} = {max a c <.. min b d}" |
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changeset
|
278 |
by auto |
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parents:
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changeset
|
279 |
|
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|
280 |
lemma Int_greaterThanLessThan[simp]: "{a<..<b} Int {c<..<d} = {max a c <..< min b d}" |
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changeset
|
281 |
by auto |
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|
282 |
|
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|
283 |
end |
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|
284 |
|
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|
285 |
|
14485 | 286 |
subsection {* Intervals of natural numbers *} |
287 |
||
15047 | 288 |
subsubsection {* The Constant @{term lessThan} *} |
289 |
||
14485 | 290 |
lemma lessThan_0 [simp]: "lessThan (0::nat) = {}" |
291 |
by (simp add: lessThan_def) |
|
292 |
||
293 |
lemma lessThan_Suc: "lessThan (Suc k) = insert k (lessThan k)" |
|
294 |
by (simp add: lessThan_def less_Suc_eq, blast) |
|
295 |
||
296 |
lemma lessThan_Suc_atMost: "lessThan (Suc k) = atMost k" |
|
297 |
by (simp add: lessThan_def atMost_def less_Suc_eq_le) |
|
298 |
||
299 |
lemma UN_lessThan_UNIV: "(UN m::nat. lessThan m) = UNIV" |
|
300 |
by blast |
|
301 |
||
15047 | 302 |
subsubsection {* The Constant @{term greaterThan} *} |
303 |
||
14485 | 304 |
lemma greaterThan_0 [simp]: "greaterThan 0 = range Suc" |
305 |
apply (simp add: greaterThan_def) |
|
306 |
apply (blast dest: gr0_conv_Suc [THEN iffD1]) |
|
307 |
done |
|
308 |
||
309 |
lemma greaterThan_Suc: "greaterThan (Suc k) = greaterThan k - {Suc k}" |
|
310 |
apply (simp add: greaterThan_def) |
|
311 |
apply (auto elim: linorder_neqE) |
|
312 |
done |
|
313 |
||
314 |
lemma INT_greaterThan_UNIV: "(INT m::nat. greaterThan m) = {}" |
|
315 |
by blast |
|
316 |
||
15047 | 317 |
subsubsection {* The Constant @{term atLeast} *} |
318 |
||
14485 | 319 |
lemma atLeast_0 [simp]: "atLeast (0::nat) = UNIV" |
320 |
by (unfold atLeast_def UNIV_def, simp) |
|
321 |
||
322 |
lemma atLeast_Suc: "atLeast (Suc k) = atLeast k - {k}" |
|
323 |
apply (simp add: atLeast_def) |
|
324 |
apply (simp add: Suc_le_eq) |
|
325 |
apply (simp add: order_le_less, blast) |
|
326 |
done |
|
327 |
||
328 |
lemma atLeast_Suc_greaterThan: "atLeast (Suc k) = greaterThan k" |
|
329 |
by (auto simp add: greaterThan_def atLeast_def less_Suc_eq_le) |
|
330 |
||
331 |
lemma UN_atLeast_UNIV: "(UN m::nat. atLeast m) = UNIV" |
|
332 |
by blast |
|
333 |
||
15047 | 334 |
subsubsection {* The Constant @{term atMost} *} |
335 |
||
14485 | 336 |
lemma atMost_0 [simp]: "atMost (0::nat) = {0}" |
337 |
by (simp add: atMost_def) |
|
338 |
||
339 |
lemma atMost_Suc: "atMost (Suc k) = insert (Suc k) (atMost k)" |
|
340 |
apply (simp add: atMost_def) |
|
341 |
apply (simp add: less_Suc_eq order_le_less, blast) |
|
342 |
done |
|
343 |
||
344 |
lemma UN_atMost_UNIV: "(UN m::nat. atMost m) = UNIV" |
|
345 |
by blast |
|
346 |
||
15047 | 347 |
subsubsection {* The Constant @{term atLeastLessThan} *} |
348 |
||
28068 | 349 |
text{*The orientation of the following 2 rules is tricky. The lhs is |
24449 | 350 |
defined in terms of the rhs. Hence the chosen orientation makes sense |
351 |
in this theory --- the reverse orientation complicates proofs (eg |
|
352 |
nontermination). But outside, when the definition of the lhs is rarely |
|
353 |
used, the opposite orientation seems preferable because it reduces a |
|
354 |
specific concept to a more general one. *} |
|
28068 | 355 |
|
15047 | 356 |
lemma atLeast0LessThan: "{0::nat..<n} = {..<n}" |
15042 | 357 |
by(simp add:lessThan_def atLeastLessThan_def) |
24449 | 358 |
|
28068 | 359 |
lemma atLeast0AtMost: "{0..n::nat} = {..n}" |
360 |
by(simp add:atMost_def atLeastAtMost_def) |
|
361 |
||
31998
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31509
diff
changeset
|
362 |
declare atLeast0LessThan[symmetric, code_unfold] |
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
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diff
changeset
|
363 |
atLeast0AtMost[symmetric, code_unfold] |
24449 | 364 |
|
365 |
lemma atLeastLessThan0: "{m..<0::nat} = {}" |
|
15047 | 366 |
by (simp add: atLeastLessThan_def) |
24449 | 367 |
|
15047 | 368 |
subsubsection {* Intervals of nats with @{term Suc} *} |
369 |
||
370 |
text{*Not a simprule because the RHS is too messy.*} |
|
371 |
lemma atLeastLessThanSuc: |
|
372 |
"{m..<Suc n} = (if m \<le> n then insert n {m..<n} else {})" |
|
15418
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paulson
parents:
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diff
changeset
|
373 |
by (auto simp add: atLeastLessThan_def) |
15047 | 374 |
|
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
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diff
changeset
|
375 |
lemma atLeastLessThan_singleton [simp]: "{m..<Suc m} = {m}" |
15047 | 376 |
by (auto simp add: atLeastLessThan_def) |
16041 | 377 |
(* |
15047 | 378 |
lemma atLeast_sum_LessThan [simp]: "{m + k..<k::nat} = {}" |
379 |
by (induct k, simp_all add: atLeastLessThanSuc) |
|
380 |
||
381 |
lemma atLeastSucLessThan [simp]: "{Suc n..<n} = {}" |
|
382 |
by (auto simp add: atLeastLessThan_def) |
|
16041 | 383 |
*) |
15045 | 384 |
lemma atLeastLessThanSuc_atLeastAtMost: "{l..<Suc u} = {l..u}" |
14485 | 385 |
by (simp add: lessThan_Suc_atMost atLeastAtMost_def atLeastLessThan_def) |
386 |
||
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
387 |
lemma atLeastSucAtMost_greaterThanAtMost: "{Suc l..u} = {l<..u}" |
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
388 |
by (simp add: atLeast_Suc_greaterThan atLeastAtMost_def |
14485 | 389 |
greaterThanAtMost_def) |
390 |
||
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
391 |
lemma atLeastSucLessThan_greaterThanLessThan: "{Suc l..<u} = {l<..<u}" |
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
392 |
by (simp add: atLeast_Suc_greaterThan atLeastLessThan_def |
14485 | 393 |
greaterThanLessThan_def) |
394 |
||
15554 | 395 |
lemma atLeastAtMostSuc_conv: "m \<le> Suc n \<Longrightarrow> {m..Suc n} = insert (Suc n) {m..n}" |
396 |
by (auto simp add: atLeastAtMost_def) |
|
397 |
||
33044 | 398 |
lemma atLeastLessThan_add_Un: "i \<le> j \<Longrightarrow> {i..<j+k} = {i..<j} \<union> {j..<j+k::nat}" |
399 |
apply (induct k) |
|
400 |
apply (simp_all add: atLeastLessThanSuc) |
|
401 |
done |
|
402 |
||
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
403 |
subsubsection {* Image *} |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
404 |
|
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
405 |
lemma image_add_atLeastAtMost: |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
406 |
"(%n::nat. n+k) ` {i..j} = {i+k..j+k}" (is "?A = ?B") |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
407 |
proof |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
408 |
show "?A \<subseteq> ?B" by auto |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
409 |
next |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
410 |
show "?B \<subseteq> ?A" |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
411 |
proof |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
412 |
fix n assume a: "n : ?B" |
20217
25b068a99d2b
linear arithmetic splits certain operators (e.g. min, max, abs)
webertj
parents:
19538
diff
changeset
|
413 |
hence "n - k : {i..j}" by auto |
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
414 |
moreover have "n = (n - k) + k" using a by auto |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
415 |
ultimately show "n : ?A" by blast |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
416 |
qed |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
417 |
qed |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
418 |
|
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
419 |
lemma image_add_atLeastLessThan: |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
420 |
"(%n::nat. n+k) ` {i..<j} = {i+k..<j+k}" (is "?A = ?B") |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
421 |
proof |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
422 |
show "?A \<subseteq> ?B" by auto |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
423 |
next |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
424 |
show "?B \<subseteq> ?A" |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
425 |
proof |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
426 |
fix n assume a: "n : ?B" |
20217
25b068a99d2b
linear arithmetic splits certain operators (e.g. min, max, abs)
webertj
parents:
19538
diff
changeset
|
427 |
hence "n - k : {i..<j}" by auto |
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
428 |
moreover have "n = (n - k) + k" using a by auto |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
429 |
ultimately show "n : ?A" by blast |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
430 |
qed |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
431 |
qed |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
432 |
|
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
433 |
corollary image_Suc_atLeastAtMost[simp]: |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
434 |
"Suc ` {i..j} = {Suc i..Suc j}" |
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
29960
diff
changeset
|
435 |
using image_add_atLeastAtMost[where k="Suc 0"] by simp |
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
436 |
|
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
437 |
corollary image_Suc_atLeastLessThan[simp]: |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
438 |
"Suc ` {i..<j} = {Suc i..<Suc j}" |
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
29960
diff
changeset
|
439 |
using image_add_atLeastLessThan[where k="Suc 0"] by simp |
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
440 |
|
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
441 |
lemma image_add_int_atLeastLessThan: |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
442 |
"(%x. x + (l::int)) ` {0..<u-l} = {l..<u}" |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
443 |
apply (auto simp add: image_def) |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
444 |
apply (rule_tac x = "x - l" in bexI) |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
445 |
apply auto |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
446 |
done |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
447 |
|
35580 | 448 |
context ordered_ab_group_add |
449 |
begin |
|
450 |
||
451 |
lemma |
|
452 |
fixes x :: 'a |
|
453 |
shows image_uminus_greaterThan[simp]: "uminus ` {x<..} = {..<-x}" |
|
454 |
and image_uminus_atLeast[simp]: "uminus ` {x..} = {..-x}" |
|
455 |
proof safe |
|
456 |
fix y assume "y < -x" |
|
457 |
hence *: "x < -y" using neg_less_iff_less[of "-y" x] by simp |
|
458 |
have "- (-y) \<in> uminus ` {x<..}" |
|
459 |
by (rule imageI) (simp add: *) |
|
460 |
thus "y \<in> uminus ` {x<..}" by simp |
|
461 |
next |
|
462 |
fix y assume "y \<le> -x" |
|
463 |
have "- (-y) \<in> uminus ` {x..}" |
|
464 |
by (rule imageI) (insert `y \<le> -x`[THEN le_imp_neg_le], simp) |
|
465 |
thus "y \<in> uminus ` {x..}" by simp |
|
466 |
qed simp_all |
|
467 |
||
468 |
lemma |
|
469 |
fixes x :: 'a |
|
470 |
shows image_uminus_lessThan[simp]: "uminus ` {..<x} = {-x<..}" |
|
471 |
and image_uminus_atMost[simp]: "uminus ` {..x} = {-x..}" |
|
472 |
proof - |
|
473 |
have "uminus ` {..<x} = uminus ` uminus ` {-x<..}" |
|
474 |
and "uminus ` {..x} = uminus ` uminus ` {-x..}" by simp_all |
|
475 |
thus "uminus ` {..<x} = {-x<..}" and "uminus ` {..x} = {-x..}" |
|
476 |
by (simp_all add: image_image |
|
477 |
del: image_uminus_greaterThan image_uminus_atLeast) |
|
478 |
qed |
|
479 |
||
480 |
lemma |
|
481 |
fixes x :: 'a |
|
482 |
shows image_uminus_atLeastAtMost[simp]: "uminus ` {x..y} = {-y..-x}" |
|
483 |
and image_uminus_greaterThanAtMost[simp]: "uminus ` {x<..y} = {-y..<-x}" |
|
484 |
and image_uminus_atLeastLessThan[simp]: "uminus ` {x..<y} = {-y<..-x}" |
|
485 |
and image_uminus_greaterThanLessThan[simp]: "uminus ` {x<..<y} = {-y<..<-x}" |
|
486 |
by (simp_all add: atLeastAtMost_def greaterThanAtMost_def atLeastLessThan_def |
|
487 |
greaterThanLessThan_def image_Int[OF inj_uminus] Int_commute) |
|
488 |
end |
|
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
489 |
|
14485 | 490 |
subsubsection {* Finiteness *} |
491 |
||
15045 | 492 |
lemma finite_lessThan [iff]: fixes k :: nat shows "finite {..<k}" |
14485 | 493 |
by (induct k) (simp_all add: lessThan_Suc) |
494 |
||
495 |
lemma finite_atMost [iff]: fixes k :: nat shows "finite {..k}" |
|
496 |
by (induct k) (simp_all add: atMost_Suc) |
|
497 |
||
498 |
lemma finite_greaterThanLessThan [iff]: |
|
15045 | 499 |
fixes l :: nat shows "finite {l<..<u}" |
14485 | 500 |
by (simp add: greaterThanLessThan_def) |
501 |
||
502 |
lemma finite_atLeastLessThan [iff]: |
|
15045 | 503 |
fixes l :: nat shows "finite {l..<u}" |
14485 | 504 |
by (simp add: atLeastLessThan_def) |
505 |
||
506 |
lemma finite_greaterThanAtMost [iff]: |
|
15045 | 507 |
fixes l :: nat shows "finite {l<..u}" |
14485 | 508 |
by (simp add: greaterThanAtMost_def) |
509 |
||
510 |
lemma finite_atLeastAtMost [iff]: |
|
511 |
fixes l :: nat shows "finite {l..u}" |
|
512 |
by (simp add: atLeastAtMost_def) |
|
513 |
||
28068 | 514 |
text {* A bounded set of natural numbers is finite. *} |
14485 | 515 |
lemma bounded_nat_set_is_finite: |
24853 | 516 |
"(ALL i:N. i < (n::nat)) ==> finite N" |
28068 | 517 |
apply (rule finite_subset) |
518 |
apply (rule_tac [2] finite_lessThan, auto) |
|
519 |
done |
|
520 |
||
31044 | 521 |
text {* A set of natural numbers is finite iff it is bounded. *} |
522 |
lemma finite_nat_set_iff_bounded: |
|
523 |
"finite(N::nat set) = (EX m. ALL n:N. n<m)" (is "?F = ?B") |
|
524 |
proof |
|
525 |
assume f:?F show ?B |
|
526 |
using Max_ge[OF `?F`, simplified less_Suc_eq_le[symmetric]] by blast |
|
527 |
next |
|
528 |
assume ?B show ?F using `?B` by(blast intro:bounded_nat_set_is_finite) |
|
529 |
qed |
|
530 |
||
531 |
lemma finite_nat_set_iff_bounded_le: |
|
532 |
"finite(N::nat set) = (EX m. ALL n:N. n<=m)" |
|
533 |
apply(simp add:finite_nat_set_iff_bounded) |
|
534 |
apply(blast dest:less_imp_le_nat le_imp_less_Suc) |
|
535 |
done |
|
536 |
||
28068 | 537 |
lemma finite_less_ub: |
538 |
"!!f::nat=>nat. (!!n. n \<le> f n) ==> finite {n. f n \<le> u}" |
|
539 |
by (rule_tac B="{..u}" in finite_subset, auto intro: order_trans) |
|
14485 | 540 |
|
24853 | 541 |
text{* Any subset of an interval of natural numbers the size of the |
542 |
subset is exactly that interval. *} |
|
543 |
||
544 |
lemma subset_card_intvl_is_intvl: |
|
545 |
"A <= {k..<k+card A} \<Longrightarrow> A = {k..<k+card A}" (is "PROP ?P") |
|
546 |
proof cases |
|
547 |
assume "finite A" |
|
548 |
thus "PROP ?P" |
|
32006 | 549 |
proof(induct A rule:finite_linorder_max_induct) |
24853 | 550 |
case empty thus ?case by auto |
551 |
next |
|
33434 | 552 |
case (insert b A) |
24853 | 553 |
moreover hence "b ~: A" by auto |
554 |
moreover have "A <= {k..<k+card A}" and "b = k+card A" |
|
555 |
using `b ~: A` insert by fastsimp+ |
|
556 |
ultimately show ?case by auto |
|
557 |
qed |
|
558 |
next |
|
559 |
assume "~finite A" thus "PROP ?P" by simp |
|
560 |
qed |
|
561 |
||
562 |
||
32596
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
563 |
subsubsection {* Proving Inclusions and Equalities between Unions *} |
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
564 |
|
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
565 |
lemma UN_UN_finite_eq: "(\<Union>n::nat. \<Union>i\<in>{0..<n}. A i) = (\<Union>n. A n)" |
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
566 |
by (auto simp add: atLeast0LessThan) |
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
567 |
|
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
568 |
lemma UN_finite_subset: "(!!n::nat. (\<Union>i\<in>{0..<n}. A i) \<subseteq> C) \<Longrightarrow> (\<Union>n. A n) \<subseteq> C" |
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
569 |
by (subst UN_UN_finite_eq [symmetric]) blast |
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
570 |
|
33044 | 571 |
lemma UN_finite2_subset: |
572 |
"(!!n::nat. (\<Union>i\<in>{0..<n}. A i) \<subseteq> (\<Union>i\<in>{0..<n+k}. B i)) \<Longrightarrow> (\<Union>n. A n) \<subseteq> (\<Union>n. B n)" |
|
573 |
apply (rule UN_finite_subset) |
|
574 |
apply (subst UN_UN_finite_eq [symmetric, of B]) |
|
575 |
apply blast |
|
576 |
done |
|
32596
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
577 |
|
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
578 |
lemma UN_finite2_eq: |
33044 | 579 |
"(!!n::nat. (\<Union>i\<in>{0..<n}. A i) = (\<Union>i\<in>{0..<n+k}. B i)) \<Longrightarrow> (\<Union>n. A n) = (\<Union>n. B n)" |
580 |
apply (rule subset_antisym) |
|
581 |
apply (rule UN_finite2_subset, blast) |
|
582 |
apply (rule UN_finite2_subset [where k=k]) |
|
35216 | 583 |
apply (force simp add: atLeastLessThan_add_Un [of 0]) |
33044 | 584 |
done |
32596
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
585 |
|
bd68c04dace1
New theorems for proving equalities and inclusions involving unions
paulson
parents:
32456
diff
changeset
|
586 |
|
14485 | 587 |
subsubsection {* Cardinality *} |
588 |
||
15045 | 589 |
lemma card_lessThan [simp]: "card {..<u} = u" |
15251 | 590 |
by (induct u, simp_all add: lessThan_Suc) |
14485 | 591 |
|
592 |
lemma card_atMost [simp]: "card {..u} = Suc u" |
|
593 |
by (simp add: lessThan_Suc_atMost [THEN sym]) |
|
594 |
||
15045 | 595 |
lemma card_atLeastLessThan [simp]: "card {l..<u} = u - l" |
596 |
apply (subgoal_tac "card {l..<u} = card {..<u-l}") |
|
14485 | 597 |
apply (erule ssubst, rule card_lessThan) |
15045 | 598 |
apply (subgoal_tac "(%x. x + l) ` {..<u-l} = {l..<u}") |
14485 | 599 |
apply (erule subst) |
600 |
apply (rule card_image) |
|
601 |
apply (simp add: inj_on_def) |
|
602 |
apply (auto simp add: image_def atLeastLessThan_def lessThan_def) |
|
603 |
apply (rule_tac x = "x - l" in exI) |
|
604 |
apply arith |
|
605 |
done |
|
606 |
||
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
607 |
lemma card_atLeastAtMost [simp]: "card {l..u} = Suc u - l" |
14485 | 608 |
by (subst atLeastLessThanSuc_atLeastAtMost [THEN sym], simp) |
609 |
||
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
610 |
lemma card_greaterThanAtMost [simp]: "card {l<..u} = u - l" |
14485 | 611 |
by (subst atLeastSucAtMost_greaterThanAtMost [THEN sym], simp) |
612 |
||
15045 | 613 |
lemma card_greaterThanLessThan [simp]: "card {l<..<u} = u - Suc l" |
14485 | 614 |
by (subst atLeastSucLessThan_greaterThanLessThan [THEN sym], simp) |
615 |
||
26105
ae06618225ec
moved bij_betw from Library/FuncSet to Fun, redistributed some lemmas, and
nipkow
parents:
26072
diff
changeset
|
616 |
lemma ex_bij_betw_nat_finite: |
ae06618225ec
moved bij_betw from Library/FuncSet to Fun, redistributed some lemmas, and
nipkow
parents:
26072
diff
changeset
|
617 |
"finite M \<Longrightarrow> \<exists>h. bij_betw h {0..<card M} M" |
ae06618225ec
moved bij_betw from Library/FuncSet to Fun, redistributed some lemmas, and
nipkow
parents:
26072
diff
changeset
|
618 |
apply(drule finite_imp_nat_seg_image_inj_on) |
ae06618225ec
moved bij_betw from Library/FuncSet to Fun, redistributed some lemmas, and
nipkow
parents:
26072
diff
changeset
|
619 |
apply(auto simp:atLeast0LessThan[symmetric] lessThan_def[symmetric] card_image bij_betw_def) |
ae06618225ec
moved bij_betw from Library/FuncSet to Fun, redistributed some lemmas, and
nipkow
parents:
26072
diff
changeset
|
620 |
done |
ae06618225ec
moved bij_betw from Library/FuncSet to Fun, redistributed some lemmas, and
nipkow
parents:
26072
diff
changeset
|
621 |
|
ae06618225ec
moved bij_betw from Library/FuncSet to Fun, redistributed some lemmas, and
nipkow
parents:
26072
diff
changeset
|
622 |
lemma ex_bij_betw_finite_nat: |
ae06618225ec
moved bij_betw from Library/FuncSet to Fun, redistributed some lemmas, and
nipkow
parents:
26072
diff
changeset
|
623 |
"finite M \<Longrightarrow> \<exists>h. bij_betw h M {0..<card M}" |
ae06618225ec
moved bij_betw from Library/FuncSet to Fun, redistributed some lemmas, and
nipkow
parents:
26072
diff
changeset
|
624 |
by (blast dest: ex_bij_betw_nat_finite bij_betw_inv) |
ae06618225ec
moved bij_betw from Library/FuncSet to Fun, redistributed some lemmas, and
nipkow
parents:
26072
diff
changeset
|
625 |
|
31438 | 626 |
lemma finite_same_card_bij: |
627 |
"finite A \<Longrightarrow> finite B \<Longrightarrow> card A = card B \<Longrightarrow> EX h. bij_betw h A B" |
|
628 |
apply(drule ex_bij_betw_finite_nat) |
|
629 |
apply(drule ex_bij_betw_nat_finite) |
|
630 |
apply(auto intro!:bij_betw_trans) |
|
631 |
done |
|
632 |
||
633 |
lemma ex_bij_betw_nat_finite_1: |
|
634 |
"finite M \<Longrightarrow> \<exists>h. bij_betw h {1 .. card M} M" |
|
635 |
by (rule finite_same_card_bij) auto |
|
636 |
||
26105
ae06618225ec
moved bij_betw from Library/FuncSet to Fun, redistributed some lemmas, and
nipkow
parents:
26072
diff
changeset
|
637 |
|
14485 | 638 |
subsection {* Intervals of integers *} |
639 |
||
15045 | 640 |
lemma atLeastLessThanPlusOne_atLeastAtMost_int: "{l..<u+1} = {l..(u::int)}" |
14485 | 641 |
by (auto simp add: atLeastAtMost_def atLeastLessThan_def) |
642 |
||
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
643 |
lemma atLeastPlusOneAtMost_greaterThanAtMost_int: "{l+1..u} = {l<..(u::int)}" |
14485 | 644 |
by (auto simp add: atLeastAtMost_def greaterThanAtMost_def) |
645 |
||
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
646 |
lemma atLeastPlusOneLessThan_greaterThanLessThan_int: |
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
647 |
"{l+1..<u} = {l<..<u::int}" |
14485 | 648 |
by (auto simp add: atLeastLessThan_def greaterThanLessThan_def) |
649 |
||
650 |
subsubsection {* Finiteness *} |
|
651 |
||
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
652 |
lemma image_atLeastZeroLessThan_int: "0 \<le> u ==> |
15045 | 653 |
{(0::int)..<u} = int ` {..<nat u}" |
14485 | 654 |
apply (unfold image_def lessThan_def) |
655 |
apply auto |
|
656 |
apply (rule_tac x = "nat x" in exI) |
|
35216 | 657 |
apply (auto simp add: zless_nat_eq_int_zless [THEN sym]) |
14485 | 658 |
done |
659 |
||
15045 | 660 |
lemma finite_atLeastZeroLessThan_int: "finite {(0::int)..<u}" |
14485 | 661 |
apply (case_tac "0 \<le> u") |
662 |
apply (subst image_atLeastZeroLessThan_int, assumption) |
|
663 |
apply (rule finite_imageI) |
|
664 |
apply auto |
|
665 |
done |
|
666 |
||
15045 | 667 |
lemma finite_atLeastLessThan_int [iff]: "finite {l..<u::int}" |
668 |
apply (subgoal_tac "(%x. x + l) ` {0..<u-l} = {l..<u}") |
|
14485 | 669 |
apply (erule subst) |
670 |
apply (rule finite_imageI) |
|
671 |
apply (rule finite_atLeastZeroLessThan_int) |
|
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
672 |
apply (rule image_add_int_atLeastLessThan) |
14485 | 673 |
done |
674 |
||
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
675 |
lemma finite_atLeastAtMost_int [iff]: "finite {l..(u::int)}" |
14485 | 676 |
by (subst atLeastLessThanPlusOne_atLeastAtMost_int [THEN sym], simp) |
677 |
||
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
678 |
lemma finite_greaterThanAtMost_int [iff]: "finite {l<..(u::int)}" |
14485 | 679 |
by (subst atLeastPlusOneAtMost_greaterThanAtMost_int [THEN sym], simp) |
680 |
||
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
681 |
lemma finite_greaterThanLessThan_int [iff]: "finite {l<..<u::int}" |
14485 | 682 |
by (subst atLeastPlusOneLessThan_greaterThanLessThan_int [THEN sym], simp) |
683 |
||
24853 | 684 |
|
14485 | 685 |
subsubsection {* Cardinality *} |
686 |
||
15045 | 687 |
lemma card_atLeastZeroLessThan_int: "card {(0::int)..<u} = nat u" |
14485 | 688 |
apply (case_tac "0 \<le> u") |
689 |
apply (subst image_atLeastZeroLessThan_int, assumption) |
|
690 |
apply (subst card_image) |
|
691 |
apply (auto simp add: inj_on_def) |
|
692 |
done |
|
693 |
||
15045 | 694 |
lemma card_atLeastLessThan_int [simp]: "card {l..<u} = nat (u - l)" |
695 |
apply (subgoal_tac "card {l..<u} = card {0..<u-l}") |
|
14485 | 696 |
apply (erule ssubst, rule card_atLeastZeroLessThan_int) |
15045 | 697 |
apply (subgoal_tac "(%x. x + l) ` {0..<u-l} = {l..<u}") |
14485 | 698 |
apply (erule subst) |
699 |
apply (rule card_image) |
|
700 |
apply (simp add: inj_on_def) |
|
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
701 |
apply (rule image_add_int_atLeastLessThan) |
14485 | 702 |
done |
703 |
||
704 |
lemma card_atLeastAtMost_int [simp]: "card {l..u} = nat (u - l + 1)" |
|
29667 | 705 |
apply (subst atLeastLessThanPlusOne_atLeastAtMost_int [THEN sym]) |
706 |
apply (auto simp add: algebra_simps) |
|
707 |
done |
|
14485 | 708 |
|
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
709 |
lemma card_greaterThanAtMost_int [simp]: "card {l<..u} = nat (u - l)" |
29667 | 710 |
by (subst atLeastPlusOneAtMost_greaterThanAtMost_int [THEN sym], simp) |
14485 | 711 |
|
15045 | 712 |
lemma card_greaterThanLessThan_int [simp]: "card {l<..<u} = nat (u - (l + 1))" |
29667 | 713 |
by (subst atLeastPlusOneLessThan_greaterThanLessThan_int [THEN sym], simp) |
14485 | 714 |
|
27656
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
715 |
lemma finite_M_bounded_by_nat: "finite {k. P k \<and> k < (i::nat)}" |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
716 |
proof - |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
717 |
have "{k. P k \<and> k < i} \<subseteq> {..<i}" by auto |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
718 |
with finite_lessThan[of "i"] show ?thesis by (simp add: finite_subset) |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
719 |
qed |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
720 |
|
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
721 |
lemma card_less: |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
722 |
assumes zero_in_M: "0 \<in> M" |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
723 |
shows "card {k \<in> M. k < Suc i} \<noteq> 0" |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
724 |
proof - |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
725 |
from zero_in_M have "{k \<in> M. k < Suc i} \<noteq> {}" by auto |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
726 |
with finite_M_bounded_by_nat show ?thesis by (auto simp add: card_eq_0_iff) |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
727 |
qed |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
728 |
|
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
729 |
lemma card_less_Suc2: "0 \<notin> M \<Longrightarrow> card {k. Suc k \<in> M \<and> k < i} = card {k \<in> M. k < Suc i}" |
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
29960
diff
changeset
|
730 |
apply (rule card_bij_eq [of "Suc" _ _ "\<lambda>x. x - Suc 0"]) |
27656
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
731 |
apply simp |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
732 |
apply fastsimp |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
733 |
apply auto |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
734 |
apply (rule inj_on_diff_nat) |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
735 |
apply auto |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
736 |
apply (case_tac x) |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
737 |
apply auto |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
738 |
apply (case_tac xa) |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
739 |
apply auto |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
740 |
apply (case_tac xa) |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
741 |
apply auto |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
742 |
done |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
743 |
|
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
744 |
lemma card_less_Suc: |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
745 |
assumes zero_in_M: "0 \<in> M" |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
746 |
shows "Suc (card {k. Suc k \<in> M \<and> k < i}) = card {k \<in> M. k < Suc i}" |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
747 |
proof - |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
748 |
from assms have a: "0 \<in> {k \<in> M. k < Suc i}" by simp |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
749 |
hence c: "{k \<in> M. k < Suc i} = insert 0 ({k \<in> M. k < Suc i} - {0})" |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
750 |
by (auto simp only: insert_Diff) |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
751 |
have b: "{k \<in> M. k < Suc i} - {0} = {k \<in> M - {0}. k < Suc i}" by auto |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
752 |
from finite_M_bounded_by_nat[of "\<lambda>x. x \<in> M" "Suc i"] have "Suc (card {k. Suc k \<in> M \<and> k < i}) = card (insert 0 ({k \<in> M. k < Suc i} - {0}))" |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
753 |
apply (subst card_insert) |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
754 |
apply simp_all |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
755 |
apply (subst b) |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
756 |
apply (subst card_less_Suc2[symmetric]) |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
757 |
apply simp_all |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
758 |
done |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
759 |
with c show ?thesis by simp |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
760 |
qed |
d4f6e64ee7cc
added verification framework for the HeapMonad and quicksort as example for this framework
bulwahn
parents:
26105
diff
changeset
|
761 |
|
14485 | 762 |
|
13850 | 763 |
subsection {*Lemmas useful with the summation operator setsum*} |
764 |
||
16102
c5f6726d9bb1
Locale expressions: rename with optional mixfix syntax.
ballarin
parents:
16052
diff
changeset
|
765 |
text {* For examples, see Algebra/poly/UnivPoly2.thy *} |
13735 | 766 |
|
14577 | 767 |
subsubsection {* Disjoint Unions *} |
13735 | 768 |
|
14577 | 769 |
text {* Singletons and open intervals *} |
13735 | 770 |
|
771 |
lemma ivl_disj_un_singleton: |
|
15045 | 772 |
"{l::'a::linorder} Un {l<..} = {l..}" |
773 |
"{..<u} Un {u::'a::linorder} = {..u}" |
|
774 |
"(l::'a::linorder) < u ==> {l} Un {l<..<u} = {l..<u}" |
|
775 |
"(l::'a::linorder) < u ==> {l<..<u} Un {u} = {l<..u}" |
|
776 |
"(l::'a::linorder) <= u ==> {l} Un {l<..u} = {l..u}" |
|
777 |
"(l::'a::linorder) <= u ==> {l..<u} Un {u} = {l..u}" |
|
14398
c5c47703f763
Efficient, graph-based reasoner for linear and partial orders.
ballarin
parents:
13850
diff
changeset
|
778 |
by auto |
13735 | 779 |
|
14577 | 780 |
text {* One- and two-sided intervals *} |
13735 | 781 |
|
782 |
lemma ivl_disj_un_one: |
|
15045 | 783 |
"(l::'a::linorder) < u ==> {..l} Un {l<..<u} = {..<u}" |
784 |
"(l::'a::linorder) <= u ==> {..<l} Un {l..<u} = {..<u}" |
|
785 |
"(l::'a::linorder) <= u ==> {..l} Un {l<..u} = {..u}" |
|
786 |
"(l::'a::linorder) <= u ==> {..<l} Un {l..u} = {..u}" |
|
787 |
"(l::'a::linorder) <= u ==> {l<..u} Un {u<..} = {l<..}" |
|
788 |
"(l::'a::linorder) < u ==> {l<..<u} Un {u..} = {l<..}" |
|
789 |
"(l::'a::linorder) <= u ==> {l..u} Un {u<..} = {l..}" |
|
790 |
"(l::'a::linorder) <= u ==> {l..<u} Un {u..} = {l..}" |
|
14398
c5c47703f763
Efficient, graph-based reasoner for linear and partial orders.
ballarin
parents:
13850
diff
changeset
|
791 |
by auto |
13735 | 792 |
|
14577 | 793 |
text {* Two- and two-sided intervals *} |
13735 | 794 |
|
795 |
lemma ivl_disj_un_two: |
|
15045 | 796 |
"[| (l::'a::linorder) < m; m <= u |] ==> {l<..<m} Un {m..<u} = {l<..<u}" |
797 |
"[| (l::'a::linorder) <= m; m < u |] ==> {l<..m} Un {m<..<u} = {l<..<u}" |
|
798 |
"[| (l::'a::linorder) <= m; m <= u |] ==> {l..<m} Un {m..<u} = {l..<u}" |
|
799 |
"[| (l::'a::linorder) <= m; m < u |] ==> {l..m} Un {m<..<u} = {l..<u}" |
|
800 |
"[| (l::'a::linorder) < m; m <= u |] ==> {l<..<m} Un {m..u} = {l<..u}" |
|
801 |
"[| (l::'a::linorder) <= m; m <= u |] ==> {l<..m} Un {m<..u} = {l<..u}" |
|
802 |
"[| (l::'a::linorder) <= m; m <= u |] ==> {l..<m} Un {m..u} = {l..u}" |
|
803 |
"[| (l::'a::linorder) <= m; m <= u |] ==> {l..m} Un {m<..u} = {l..u}" |
|
14398
c5c47703f763
Efficient, graph-based reasoner for linear and partial orders.
ballarin
parents:
13850
diff
changeset
|
804 |
by auto |
13735 | 805 |
|
806 |
lemmas ivl_disj_un = ivl_disj_un_singleton ivl_disj_un_one ivl_disj_un_two |
|
807 |
||
14577 | 808 |
subsubsection {* Disjoint Intersections *} |
13735 | 809 |
|
14577 | 810 |
text {* One- and two-sided intervals *} |
13735 | 811 |
|
812 |
lemma ivl_disj_int_one: |
|
15045 | 813 |
"{..l::'a::order} Int {l<..<u} = {}" |
814 |
"{..<l} Int {l..<u} = {}" |
|
815 |
"{..l} Int {l<..u} = {}" |
|
816 |
"{..<l} Int {l..u} = {}" |
|
817 |
"{l<..u} Int {u<..} = {}" |
|
818 |
"{l<..<u} Int {u..} = {}" |
|
819 |
"{l..u} Int {u<..} = {}" |
|
820 |
"{l..<u} Int {u..} = {}" |
|
14398
c5c47703f763
Efficient, graph-based reasoner for linear and partial orders.
ballarin
parents:
13850
diff
changeset
|
821 |
by auto |
13735 | 822 |
|
14577 | 823 |
text {* Two- and two-sided intervals *} |
13735 | 824 |
|
825 |
lemma ivl_disj_int_two: |
|
15045 | 826 |
"{l::'a::order<..<m} Int {m..<u} = {}" |
827 |
"{l<..m} Int {m<..<u} = {}" |
|
828 |
"{l..<m} Int {m..<u} = {}" |
|
829 |
"{l..m} Int {m<..<u} = {}" |
|
830 |
"{l<..<m} Int {m..u} = {}" |
|
831 |
"{l<..m} Int {m<..u} = {}" |
|
832 |
"{l..<m} Int {m..u} = {}" |
|
833 |
"{l..m} Int {m<..u} = {}" |
|
14398
c5c47703f763
Efficient, graph-based reasoner for linear and partial orders.
ballarin
parents:
13850
diff
changeset
|
834 |
by auto |
13735 | 835 |
|
32456
341c83339aeb
tuned the simp rules for Int involving insert and intervals.
nipkow
parents:
32436
diff
changeset
|
836 |
lemmas ivl_disj_int = ivl_disj_int_one ivl_disj_int_two |
13735 | 837 |
|
15542 | 838 |
subsubsection {* Some Differences *} |
839 |
||
840 |
lemma ivl_diff[simp]: |
|
841 |
"i \<le> n \<Longrightarrow> {i..<m} - {i..<n} = {n..<(m::'a::linorder)}" |
|
842 |
by(auto) |
|
843 |
||
844 |
||
845 |
subsubsection {* Some Subset Conditions *} |
|
846 |
||
35828
46cfc4b8112e
now use "Named_Thms" for "noatp", and renamed "noatp" to "no_atp"
blanchet
parents:
35644
diff
changeset
|
847 |
lemma ivl_subset [simp,no_atp]: |
15542 | 848 |
"({i..<j} \<subseteq> {m..<n}) = (j \<le> i | m \<le> i & j \<le> (n::'a::linorder))" |
849 |
apply(auto simp:linorder_not_le) |
|
850 |
apply(rule ccontr) |
|
851 |
apply(insert linorder_le_less_linear[of i n]) |
|
852 |
apply(clarsimp simp:linorder_not_le) |
|
853 |
apply(fastsimp) |
|
854 |
done |
|
855 |
||
15041
a6b1f0cef7b3
Got rid of Summation and made it a translation into setsum instead.
nipkow
parents:
14846
diff
changeset
|
856 |
|
15042 | 857 |
subsection {* Summation indexed over intervals *} |
858 |
||
859 |
syntax |
|
860 |
"_from_to_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(SUM _ = _.._./ _)" [0,0,0,10] 10) |
|
15048 | 861 |
"_from_upto_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(SUM _ = _..<_./ _)" [0,0,0,10] 10) |
16052 | 862 |
"_upt_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(SUM _<_./ _)" [0,0,10] 10) |
863 |
"_upto_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(SUM _<=_./ _)" [0,0,10] 10) |
|
15042 | 864 |
syntax (xsymbols) |
865 |
"_from_to_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Sum>_ = _.._./ _)" [0,0,0,10] 10) |
|
15048 | 866 |
"_from_upto_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Sum>_ = _..<_./ _)" [0,0,0,10] 10) |
16052 | 867 |
"_upt_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Sum>_<_./ _)" [0,0,10] 10) |
868 |
"_upto_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Sum>_\<le>_./ _)" [0,0,10] 10) |
|
15042 | 869 |
syntax (HTML output) |
870 |
"_from_to_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Sum>_ = _.._./ _)" [0,0,0,10] 10) |
|
15048 | 871 |
"_from_upto_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Sum>_ = _..<_./ _)" [0,0,0,10] 10) |
16052 | 872 |
"_upt_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Sum>_<_./ _)" [0,0,10] 10) |
873 |
"_upto_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Sum>_\<le>_./ _)" [0,0,10] 10) |
|
15056 | 874 |
syntax (latex_sum output) |
15052 | 875 |
"_from_to_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" |
876 |
("(3\<^raw:$\sum_{>_ = _\<^raw:}^{>_\<^raw:}$> _)" [0,0,0,10] 10) |
|
877 |
"_from_upto_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" |
|
878 |
("(3\<^raw:$\sum_{>_ = _\<^raw:}^{<>_\<^raw:}$> _)" [0,0,0,10] 10) |
|
16052 | 879 |
"_upt_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" |
880 |
("(3\<^raw:$\sum_{>_ < _\<^raw:}$> _)" [0,0,10] 10) |
|
15052 | 881 |
"_upto_setsum" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" |
16052 | 882 |
("(3\<^raw:$\sum_{>_ \<le> _\<^raw:}$> _)" [0,0,10] 10) |
15041
a6b1f0cef7b3
Got rid of Summation and made it a translation into setsum instead.
nipkow
parents:
14846
diff
changeset
|
883 |
|
15048 | 884 |
translations |
28853
69eb69659bf3
Added new fold operator and renamed the old oe to fold_image.
nipkow
parents:
28068
diff
changeset
|
885 |
"\<Sum>x=a..b. t" == "CONST setsum (%x. t) {a..b}" |
69eb69659bf3
Added new fold operator and renamed the old oe to fold_image.
nipkow
parents:
28068
diff
changeset
|
886 |
"\<Sum>x=a..<b. t" == "CONST setsum (%x. t) {a..<b}" |
69eb69659bf3
Added new fold operator and renamed the old oe to fold_image.
nipkow
parents:
28068
diff
changeset
|
887 |
"\<Sum>i\<le>n. t" == "CONST setsum (\<lambda>i. t) {..n}" |
69eb69659bf3
Added new fold operator and renamed the old oe to fold_image.
nipkow
parents:
28068
diff
changeset
|
888 |
"\<Sum>i<n. t" == "CONST setsum (\<lambda>i. t) {..<n}" |
15041
a6b1f0cef7b3
Got rid of Summation and made it a translation into setsum instead.
nipkow
parents:
14846
diff
changeset
|
889 |
|
15052 | 890 |
text{* The above introduces some pretty alternative syntaxes for |
15056 | 891 |
summation over intervals: |
15052 | 892 |
\begin{center} |
893 |
\begin{tabular}{lll} |
|
15056 | 894 |
Old & New & \LaTeX\\ |
895 |
@{term[source]"\<Sum>x\<in>{a..b}. e"} & @{term"\<Sum>x=a..b. e"} & @{term[mode=latex_sum]"\<Sum>x=a..b. e"}\\ |
|
896 |
@{term[source]"\<Sum>x\<in>{a..<b}. e"} & @{term"\<Sum>x=a..<b. e"} & @{term[mode=latex_sum]"\<Sum>x=a..<b. e"}\\ |
|
16052 | 897 |
@{term[source]"\<Sum>x\<in>{..b}. e"} & @{term"\<Sum>x\<le>b. e"} & @{term[mode=latex_sum]"\<Sum>x\<le>b. e"}\\ |
15056 | 898 |
@{term[source]"\<Sum>x\<in>{..<b}. e"} & @{term"\<Sum>x<b. e"} & @{term[mode=latex_sum]"\<Sum>x<b. e"} |
15052 | 899 |
\end{tabular} |
900 |
\end{center} |
|
15056 | 901 |
The left column shows the term before introduction of the new syntax, |
902 |
the middle column shows the new (default) syntax, and the right column |
|
903 |
shows a special syntax. The latter is only meaningful for latex output |
|
904 |
and has to be activated explicitly by setting the print mode to |
|
21502 | 905 |
@{text latex_sum} (e.g.\ via @{text "mode = latex_sum"} in |
15056 | 906 |
antiquotations). It is not the default \LaTeX\ output because it only |
907 |
works well with italic-style formulae, not tt-style. |
|
15052 | 908 |
|
909 |
Note that for uniformity on @{typ nat} it is better to use |
|
910 |
@{term"\<Sum>x::nat=0..<n. e"} rather than @{text"\<Sum>x<n. e"}: @{text setsum} may |
|
911 |
not provide all lemmas available for @{term"{m..<n}"} also in the |
|
912 |
special form for @{term"{..<n}"}. *} |
|
913 |
||
15542 | 914 |
text{* This congruence rule should be used for sums over intervals as |
915 |
the standard theorem @{text[source]setsum_cong} does not work well |
|
916 |
with the simplifier who adds the unsimplified premise @{term"x:B"} to |
|
917 |
the context. *} |
|
918 |
||
919 |
lemma setsum_ivl_cong: |
|
920 |
"\<lbrakk>a = c; b = d; !!x. \<lbrakk> c \<le> x; x < d \<rbrakk> \<Longrightarrow> f x = g x \<rbrakk> \<Longrightarrow> |
|
921 |
setsum f {a..<b} = setsum g {c..<d}" |
|
922 |
by(rule setsum_cong, simp_all) |
|
15041
a6b1f0cef7b3
Got rid of Summation and made it a translation into setsum instead.
nipkow
parents:
14846
diff
changeset
|
923 |
|
16041 | 924 |
(* FIXME why are the following simp rules but the corresponding eqns |
925 |
on intervals are not? *) |
|
926 |
||
16052 | 927 |
lemma setsum_atMost_Suc[simp]: "(\<Sum>i \<le> Suc n. f i) = (\<Sum>i \<le> n. f i) + f(Suc n)" |
928 |
by (simp add:atMost_Suc add_ac) |
|
929 |
||
16041 | 930 |
lemma setsum_lessThan_Suc[simp]: "(\<Sum>i < Suc n. f i) = (\<Sum>i < n. f i) + f n" |
931 |
by (simp add:lessThan_Suc add_ac) |
|
15041
a6b1f0cef7b3
Got rid of Summation and made it a translation into setsum instead.
nipkow
parents:
14846
diff
changeset
|
932 |
|
15911 | 933 |
lemma setsum_cl_ivl_Suc[simp]: |
15561 | 934 |
"setsum f {m..Suc n} = (if Suc n < m then 0 else setsum f {m..n} + f(Suc n))" |
935 |
by (auto simp:add_ac atLeastAtMostSuc_conv) |
|
936 |
||
15911 | 937 |
lemma setsum_op_ivl_Suc[simp]: |
15561 | 938 |
"setsum f {m..<Suc n} = (if n < m then 0 else setsum f {m..<n} + f(n))" |
939 |
by (auto simp:add_ac atLeastLessThanSuc) |
|
16041 | 940 |
(* |
15561 | 941 |
lemma setsum_cl_ivl_add_one_nat: "(n::nat) <= m + 1 ==> |
942 |
(\<Sum>i=n..m+1. f i) = (\<Sum>i=n..m. f i) + f(m + 1)" |
|
943 |
by (auto simp:add_ac atLeastAtMostSuc_conv) |
|
16041 | 944 |
*) |
28068 | 945 |
|
946 |
lemma setsum_head: |
|
947 |
fixes n :: nat |
|
948 |
assumes mn: "m <= n" |
|
949 |
shows "(\<Sum>x\<in>{m..n}. P x) = P m + (\<Sum>x\<in>{m<..n}. P x)" (is "?lhs = ?rhs") |
|
950 |
proof - |
|
951 |
from mn |
|
952 |
have "{m..n} = {m} \<union> {m<..n}" |
|
953 |
by (auto intro: ivl_disj_un_singleton) |
|
954 |
hence "?lhs = (\<Sum>x\<in>{m} \<union> {m<..n}. P x)" |
|
955 |
by (simp add: atLeast0LessThan) |
|
956 |
also have "\<dots> = ?rhs" by simp |
|
957 |
finally show ?thesis . |
|
958 |
qed |
|
959 |
||
960 |
lemma setsum_head_Suc: |
|
961 |
"m \<le> n \<Longrightarrow> setsum f {m..n} = f m + setsum f {Suc m..n}" |
|
962 |
by (simp add: setsum_head atLeastSucAtMost_greaterThanAtMost) |
|
963 |
||
964 |
lemma setsum_head_upt_Suc: |
|
965 |
"m < n \<Longrightarrow> setsum f {m..<n} = f m + setsum f {Suc m..<n}" |
|
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
29960
diff
changeset
|
966 |
apply(insert setsum_head_Suc[of m "n - Suc 0" f]) |
29667 | 967 |
apply (simp add: atLeastLessThanSuc_atLeastAtMost[symmetric] algebra_simps) |
28068 | 968 |
done |
969 |
||
31501 | 970 |
lemma setsum_ub_add_nat: assumes "(m::nat) \<le> n + 1" |
971 |
shows "setsum f {m..n + p} = setsum f {m..n} + setsum f {n + 1..n + p}" |
|
972 |
proof- |
|
973 |
have "{m .. n+p} = {m..n} \<union> {n+1..n+p}" using `m \<le> n+1` by auto |
|
974 |
thus ?thesis by (auto simp: ivl_disj_int setsum_Un_disjoint |
|
975 |
atLeastSucAtMost_greaterThanAtMost) |
|
976 |
qed |
|
28068 | 977 |
|
15539 | 978 |
lemma setsum_add_nat_ivl: "\<lbrakk> m \<le> n; n \<le> p \<rbrakk> \<Longrightarrow> |
979 |
setsum f {m..<n} + setsum f {n..<p} = setsum f {m..<p::nat}" |
|
980 |
by (simp add:setsum_Un_disjoint[symmetric] ivl_disj_int ivl_disj_un) |
|
981 |
||
982 |
lemma setsum_diff_nat_ivl: |
|
983 |
fixes f :: "nat \<Rightarrow> 'a::ab_group_add" |
|
984 |
shows "\<lbrakk> m \<le> n; n \<le> p \<rbrakk> \<Longrightarrow> |
|
985 |
setsum f {m..<p} - setsum f {m..<n} = setsum f {n..<p}" |
|
986 |
using setsum_add_nat_ivl [of m n p f,symmetric] |
|
987 |
apply (simp add: add_ac) |
|
988 |
done |
|
989 |
||
31505 | 990 |
lemma setsum_natinterval_difff: |
991 |
fixes f:: "nat \<Rightarrow> ('a::ab_group_add)" |
|
992 |
shows "setsum (\<lambda>k. f k - f(k + 1)) {(m::nat) .. n} = |
|
993 |
(if m <= n then f m - f(n + 1) else 0)" |
|
994 |
by (induct n, auto simp add: algebra_simps not_le le_Suc_eq) |
|
995 |
||
31509 | 996 |
lemmas setsum_restrict_set' = setsum_restrict_set[unfolded Int_def] |
997 |
||
998 |
lemma setsum_setsum_restrict: |
|
999 |
"finite S \<Longrightarrow> finite T \<Longrightarrow> setsum (\<lambda>x. setsum (\<lambda>y. f x y) {y. y\<in> T \<and> R x y}) S = setsum (\<lambda>y. setsum (\<lambda>x. f x y) {x. x \<in> S \<and> R x y}) T" |
|
1000 |
by (simp add: setsum_restrict_set'[unfolded mem_def] mem_def) |
|
1001 |
(rule setsum_commute) |
|
1002 |
||
1003 |
lemma setsum_image_gen: assumes fS: "finite S" |
|
1004 |
shows "setsum g S = setsum (\<lambda>y. setsum g {x. x \<in> S \<and> f x = y}) (f ` S)" |
|
1005 |
proof- |
|
1006 |
{ fix x assume "x \<in> S" then have "{y. y\<in> f`S \<and> f x = y} = {f x}" by auto } |
|
1007 |
hence "setsum g S = setsum (\<lambda>x. setsum (\<lambda>y. g x) {y. y\<in> f`S \<and> f x = y}) S" |
|
1008 |
by simp |
|
1009 |
also have "\<dots> = setsum (\<lambda>y. setsum g {x. x \<in> S \<and> f x = y}) (f ` S)" |
|
1010 |
by (rule setsum_setsum_restrict[OF fS finite_imageI[OF fS]]) |
|
1011 |
finally show ?thesis . |
|
1012 |
qed |
|
1013 |
||
35171
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1014 |
lemma setsum_le_included: |
36307
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1015 |
fixes f :: "'a \<Rightarrow> 'b::ordered_comm_monoid_add" |
35171
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1016 |
assumes "finite s" "finite t" |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1017 |
and "\<forall>y\<in>t. 0 \<le> g y" "(\<forall>x\<in>s. \<exists>y\<in>t. i y = x \<and> f x \<le> g y)" |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1018 |
shows "setsum f s \<le> setsum g t" |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1019 |
proof - |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1020 |
have "setsum f s \<le> setsum (\<lambda>y. setsum g {x. x\<in>t \<and> i x = y}) s" |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1021 |
proof (rule setsum_mono) |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1022 |
fix y assume "y \<in> s" |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1023 |
with assms obtain z where z: "z \<in> t" "y = i z" "f y \<le> g z" by auto |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1024 |
with assms show "f y \<le> setsum g {x \<in> t. i x = y}" (is "?A y \<le> ?B y") |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1025 |
using order_trans[of "?A (i z)" "setsum g {z}" "?B (i z)", intro] |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1026 |
by (auto intro!: setsum_mono2) |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1027 |
qed |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1028 |
also have "... \<le> setsum (\<lambda>y. setsum g {x. x\<in>t \<and> i x = y}) (i ` t)" |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1029 |
using assms(2-4) by (auto intro!: setsum_mono2 setsum_nonneg) |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1030 |
also have "... \<le> setsum g t" |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1031 |
using assms by (auto simp: setsum_image_gen[symmetric]) |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1032 |
finally show ?thesis . |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1033 |
qed |
28f824c7addc
Moved setprod_mono, abs_setprod and setsum_le_included to the Main image. Is used in Multivariate_Analysis.
hoelzl
parents:
35115
diff
changeset
|
1034 |
|
31509 | 1035 |
lemma setsum_multicount_gen: |
1036 |
assumes "finite s" "finite t" "\<forall>j\<in>t. (card {i\<in>s. R i j} = k j)" |
|
1037 |
shows "setsum (\<lambda>i. (card {j\<in>t. R i j})) s = setsum k t" (is "?l = ?r") |
|
1038 |
proof- |
|
1039 |
have "?l = setsum (\<lambda>i. setsum (\<lambda>x.1) {j\<in>t. R i j}) s" by auto |
|
1040 |
also have "\<dots> = ?r" unfolding setsum_setsum_restrict[OF assms(1-2)] |
|
1041 |
using assms(3) by auto |
|
1042 |
finally show ?thesis . |
|
1043 |
qed |
|
1044 |
||
1045 |
lemma setsum_multicount: |
|
1046 |
assumes "finite S" "finite T" "\<forall>j\<in>T. (card {i\<in>S. R i j} = k)" |
|
1047 |
shows "setsum (\<lambda>i. card {j\<in>T. R i j}) S = k * card T" (is "?l = ?r") |
|
1048 |
proof- |
|
1049 |
have "?l = setsum (\<lambda>i. k) T" by(rule setsum_multicount_gen)(auto simp:assms) |
|
35216 | 1050 |
also have "\<dots> = ?r" by(simp add: mult_commute) |
31509 | 1051 |
finally show ?thesis by auto |
1052 |
qed |
|
1053 |
||
28068 | 1054 |
|
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1055 |
subsection{* Shifting bounds *} |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1056 |
|
15539 | 1057 |
lemma setsum_shift_bounds_nat_ivl: |
1058 |
"setsum f {m+k..<n+k} = setsum (%i. f(i + k)){m..<n::nat}" |
|
1059 |
by (induct "n", auto simp:atLeastLessThanSuc) |
|
1060 |
||
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1061 |
lemma setsum_shift_bounds_cl_nat_ivl: |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1062 |
"setsum f {m+k..n+k} = setsum (%i. f(i + k)){m..n::nat}" |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1063 |
apply (insert setsum_reindex[OF inj_on_add_nat, where h=f and B = "{m..n}"]) |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1064 |
apply (simp add:image_add_atLeastAtMost o_def) |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1065 |
done |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1066 |
|
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1067 |
corollary setsum_shift_bounds_cl_Suc_ivl: |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1068 |
"setsum f {Suc m..Suc n} = setsum (%i. f(Suc i)){m..n}" |
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
29960
diff
changeset
|
1069 |
by (simp add:setsum_shift_bounds_cl_nat_ivl[where k="Suc 0", simplified]) |
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1070 |
|
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1071 |
corollary setsum_shift_bounds_Suc_ivl: |
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1072 |
"setsum f {Suc m..<Suc n} = setsum (%i. f(Suc i)){m..<n}" |
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
29960
diff
changeset
|
1073 |
by (simp add:setsum_shift_bounds_nat_ivl[where k="Suc 0", simplified]) |
16733
236dfafbeb63
linear arithmetic now takes "&" in assumptions apart.
nipkow
parents:
16102
diff
changeset
|
1074 |
|
28068 | 1075 |
lemma setsum_shift_lb_Suc0_0: |
1076 |
"f(0::nat) = (0::nat) \<Longrightarrow> setsum f {Suc 0..k} = setsum f {0..k}" |
|
1077 |
by(simp add:setsum_head_Suc) |
|
19106
6e6b5b1fdc06
* added Library/ASeries (sum of arithmetic series with instantiation to nat and int)
kleing
parents:
19022
diff
changeset
|
1078 |
|
28068 | 1079 |
lemma setsum_shift_lb_Suc0_0_upt: |
1080 |
"f(0::nat) = 0 \<Longrightarrow> setsum f {Suc 0..<k} = setsum f {0..<k}" |
|
1081 |
apply(cases k)apply simp |
|
1082 |
apply(simp add:setsum_head_upt_Suc) |
|
1083 |
done |
|
19022
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1084 |
|
17149
e2b19c92ef51
Lemmas on dvd, power and finite summation added or strengthened.
ballarin
parents:
16733
diff
changeset
|
1085 |
subsection {* The formula for geometric sums *} |
e2b19c92ef51
Lemmas on dvd, power and finite summation added or strengthened.
ballarin
parents:
16733
diff
changeset
|
1086 |
|
e2b19c92ef51
Lemmas on dvd, power and finite summation added or strengthened.
ballarin
parents:
16733
diff
changeset
|
1087 |
lemma geometric_sum: |
36307
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1088 |
assumes "x \<noteq> 1" |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1089 |
shows "(\<Sum>i=0..<n. x ^ i) = (x ^ n - 1) / (x - 1::'a::field)" |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1090 |
proof - |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1091 |
from assms obtain y where "y = x - 1" and "y \<noteq> 0" by simp_all |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1092 |
moreover have "(\<Sum>i=0..<n. (y + 1) ^ i) = ((y + 1) ^ n - 1) / y" |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1093 |
proof (induct n) |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1094 |
case 0 then show ?case by simp |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1095 |
next |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1096 |
case (Suc n) |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1097 |
moreover with `y \<noteq> 0` have "(1 + y) ^ n = (y * inverse y) * (1 + y) ^ n" by simp |
36350 | 1098 |
ultimately show ?case by (simp add: field_simps divide_inverse) |
36307
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1099 |
qed |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1100 |
ultimately show ?thesis by simp |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1101 |
qed |
1732232f9b27
sharpened constraint (c.f. 4e7f5b22dd7d); explicit is better than implicit
haftmann
parents:
35828
diff
changeset
|
1102 |
|
17149
e2b19c92ef51
Lemmas on dvd, power and finite summation added or strengthened.
ballarin
parents:
16733
diff
changeset
|
1103 |
|
19469
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1104 |
subsection {* The formula for arithmetic sums *} |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1105 |
|
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1106 |
lemma gauss_sum: |
23277 | 1107 |
"((1::'a::comm_semiring_1) + 1)*(\<Sum>i\<in>{1..n}. of_nat i) = |
19469
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1108 |
of_nat n*((of_nat n)+1)" |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1109 |
proof (induct n) |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1110 |
case 0 |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1111 |
show ?case by simp |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1112 |
next |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1113 |
case (Suc n) |
29667 | 1114 |
then show ?case by (simp add: algebra_simps) |
19469
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1115 |
qed |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1116 |
|
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1117 |
theorem arith_series_general: |
23277 | 1118 |
"((1::'a::comm_semiring_1) + 1) * (\<Sum>i\<in>{..<n}. a + of_nat i * d) = |
19469
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1119 |
of_nat n * (a + (a + of_nat(n - 1)*d))" |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1120 |
proof cases |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1121 |
assume ngt1: "n > 1" |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1122 |
let ?I = "\<lambda>i. of_nat i" and ?n = "of_nat n" |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1123 |
have |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1124 |
"(\<Sum>i\<in>{..<n}. a+?I i*d) = |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1125 |
((\<Sum>i\<in>{..<n}. a) + (\<Sum>i\<in>{..<n}. ?I i*d))" |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1126 |
by (rule setsum_addf) |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1127 |
also from ngt1 have "\<dots> = ?n*a + (\<Sum>i\<in>{..<n}. ?I i*d)" by simp |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1128 |
also from ngt1 have "\<dots> = (?n*a + d*(\<Sum>i\<in>{1..<n}. ?I i))" |
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
29960
diff
changeset
|
1129 |
unfolding One_nat_def |
28068 | 1130 |
by (simp add: setsum_right_distrib atLeast0LessThan[symmetric] setsum_shift_lb_Suc0_0_upt mult_ac) |
19469
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1131 |
also have "(1+1)*\<dots> = (1+1)*?n*a + d*(1+1)*(\<Sum>i\<in>{1..<n}. ?I i)" |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1132 |
by (simp add: left_distrib right_distrib) |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1133 |
also from ngt1 have "{1..<n} = {1..n - 1}" |
28068 | 1134 |
by (cases n) (auto simp: atLeastLessThanSuc_atLeastAtMost) |
1135 |
also from ngt1 |
|
19469
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1136 |
have "(1+1)*?n*a + d*(1+1)*(\<Sum>i\<in>{1..n - 1}. ?I i) = ((1+1)*?n*a + d*?I (n - 1)*?I n)" |
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
29960
diff
changeset
|
1137 |
by (simp only: mult_ac gauss_sum [of "n - 1"], unfold One_nat_def) |
23431
25ca91279a9b
change simp rules for of_nat to work like int did previously (reorient of_nat_Suc, remove of_nat_mult [simp]); preserve original variable names in legacy int theorems
huffman
parents:
23413
diff
changeset
|
1138 |
(simp add: mult_ac trans [OF add_commute of_nat_Suc [symmetric]]) |
29667 | 1139 |
finally show ?thesis by (simp add: algebra_simps) |
19469
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1140 |
next |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1141 |
assume "\<not>(n > 1)" |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1142 |
hence "n = 1 \<or> n = 0" by auto |
29667 | 1143 |
thus ?thesis by (auto simp: algebra_simps) |
19469
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1144 |
qed |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1145 |
|
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1146 |
lemma arith_series_nat: |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1147 |
"Suc (Suc 0) * (\<Sum>i\<in>{..<n}. a+i*d) = n * (a + (a+(n - 1)*d))" |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1148 |
proof - |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1149 |
have |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1150 |
"((1::nat) + 1) * (\<Sum>i\<in>{..<n::nat}. a + of_nat(i)*d) = |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1151 |
of_nat(n) * (a + (a + of_nat(n - 1)*d))" |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1152 |
by (rule arith_series_general) |
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
29960
diff
changeset
|
1153 |
thus ?thesis |
35216 | 1154 |
unfolding One_nat_def by auto |
19469
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1155 |
qed |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1156 |
|
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1157 |
lemma arith_series_int: |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1158 |
"(2::int) * (\<Sum>i\<in>{..<n}. a + of_nat i * d) = |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1159 |
of_nat n * (a + (a + of_nat(n - 1)*d))" |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1160 |
proof - |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1161 |
have |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1162 |
"((1::int) + 1) * (\<Sum>i\<in>{..<n}. a + of_nat i * d) = |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1163 |
of_nat(n) * (a + (a + of_nat(n - 1)*d))" |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1164 |
by (rule arith_series_general) |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1165 |
thus ?thesis by simp |
958d2f2dd8d4
moved arithmetic series to geometric series in SetInterval
kleing
parents:
19376
diff
changeset
|
1166 |
qed |
15418
e28853da5df5
removed two looping simplifications in SetInterval.thy; deleted the .ML file
paulson
parents:
15402
diff
changeset
|
1167 |
|
19022
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1168 |
lemma sum_diff_distrib: |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1169 |
fixes P::"nat\<Rightarrow>nat" |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1170 |
shows |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1171 |
"\<forall>x. Q x \<le> P x \<Longrightarrow> |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1172 |
(\<Sum>x<n. P x) - (\<Sum>x<n. Q x) = (\<Sum>x<n. P x - Q x)" |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1173 |
proof (induct n) |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1174 |
case 0 show ?case by simp |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1175 |
next |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1176 |
case (Suc n) |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1177 |
|
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1178 |
let ?lhs = "(\<Sum>x<n. P x) - (\<Sum>x<n. Q x)" |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1179 |
let ?rhs = "\<Sum>x<n. P x - Q x" |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1180 |
|
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1181 |
from Suc have "?lhs = ?rhs" by simp |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1182 |
moreover |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1183 |
from Suc have "?lhs + P n - Q n = ?rhs + (P n - Q n)" by simp |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1184 |
moreover |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1185 |
from Suc have |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1186 |
"(\<Sum>x<n. P x) + P n - ((\<Sum>x<n. Q x) + Q n) = ?rhs + (P n - Q n)" |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1187 |
by (subst diff_diff_left[symmetric], |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1188 |
subst diff_add_assoc2) |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1189 |
(auto simp: diff_add_assoc2 intro: setsum_mono) |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1190 |
ultimately |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1191 |
show ?case by simp |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1192 |
qed |
0e6ec4fd204c
* moved ThreeDivides from Isar_examples to better suited HOL/ex
kleing
parents:
17719
diff
changeset
|
1193 |
|
29960
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1194 |
subsection {* Products indexed over intervals *} |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1195 |
|
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1196 |
syntax |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1197 |
"_from_to_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(PROD _ = _.._./ _)" [0,0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1198 |
"_from_upto_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(PROD _ = _..<_./ _)" [0,0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1199 |
"_upt_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(PROD _<_./ _)" [0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1200 |
"_upto_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(PROD _<=_./ _)" [0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1201 |
syntax (xsymbols) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1202 |
"_from_to_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Prod>_ = _.._./ _)" [0,0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1203 |
"_from_upto_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Prod>_ = _..<_./ _)" [0,0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1204 |
"_upt_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Prod>_<_./ _)" [0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1205 |
"_upto_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Prod>_\<le>_./ _)" [0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1206 |
syntax (HTML output) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1207 |
"_from_to_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Prod>_ = _.._./ _)" [0,0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1208 |
"_from_upto_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Prod>_ = _..<_./ _)" [0,0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1209 |
"_upt_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Prod>_<_./ _)" [0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1210 |
"_upto_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" ("(3\<Prod>_\<le>_./ _)" [0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1211 |
syntax (latex_prod output) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1212 |
"_from_to_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1213 |
("(3\<^raw:$\prod_{>_ = _\<^raw:}^{>_\<^raw:}$> _)" [0,0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1214 |
"_from_upto_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1215 |
("(3\<^raw:$\prod_{>_ = _\<^raw:}^{<>_\<^raw:}$> _)" [0,0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1216 |
"_upt_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1217 |
("(3\<^raw:$\prod_{>_ < _\<^raw:}$> _)" [0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1218 |
"_upto_setprod" :: "idt \<Rightarrow> 'a \<Rightarrow> 'b \<Rightarrow> 'b" |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1219 |
("(3\<^raw:$\prod_{>_ \<le> _\<^raw:}$> _)" [0,0,10] 10) |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1220 |
|
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1221 |
translations |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1222 |
"\<Prod>x=a..b. t" == "CONST setprod (%x. t) {a..b}" |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1223 |
"\<Prod>x=a..<b. t" == "CONST setprod (%x. t) {a..<b}" |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1224 |
"\<Prod>i\<le>n. t" == "CONST setprod (\<lambda>i. t) {..n}" |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1225 |
"\<Prod>i<n. t" == "CONST setprod (\<lambda>i. t) {..<n}" |
9d5c6f376768
Syntactic support for products over set intervals
paulson
parents:
29920
diff
changeset
|
1226 |
|
33318
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1227 |
subsection {* Transfer setup *} |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1228 |
|
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1229 |
lemma transfer_nat_int_set_functions: |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1230 |
"{..n} = nat ` {0..int n}" |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1231 |
"{m..n} = nat ` {int m..int n}" (* need all variants of these! *) |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1232 |
apply (auto simp add: image_def) |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1233 |
apply (rule_tac x = "int x" in bexI) |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1234 |
apply auto |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1235 |
apply (rule_tac x = "int x" in bexI) |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1236 |
apply auto |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1237 |
done |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1238 |
|
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1239 |
lemma transfer_nat_int_set_function_closures: |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1240 |
"x >= 0 \<Longrightarrow> nat_set {x..y}" |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1241 |
by (simp add: nat_set_def) |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1242 |
|
35644 | 1243 |
declare transfer_morphism_nat_int[transfer add |
33318
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1244 |
return: transfer_nat_int_set_functions |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1245 |
transfer_nat_int_set_function_closures |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1246 |
] |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1247 |
|
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1248 |
lemma transfer_int_nat_set_functions: |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1249 |
"is_nat m \<Longrightarrow> is_nat n \<Longrightarrow> {m..n} = int ` {nat m..nat n}" |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1250 |
by (simp only: is_nat_def transfer_nat_int_set_functions |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1251 |
transfer_nat_int_set_function_closures |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1252 |
transfer_nat_int_set_return_embed nat_0_le |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1253 |
cong: transfer_nat_int_set_cong) |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1254 |
|
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1255 |
lemma transfer_int_nat_set_function_closures: |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1256 |
"is_nat x \<Longrightarrow> nat_set {x..y}" |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1257 |
by (simp only: transfer_nat_int_set_function_closures is_nat_def) |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1258 |
|
35644 | 1259 |
declare transfer_morphism_int_nat[transfer add |
33318
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1260 |
return: transfer_int_nat_set_functions |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1261 |
transfer_int_nat_set_function_closures |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1262 |
] |
ddd97d9dfbfb
moved Nat_Transfer before Divides; distributed Nat_Transfer setup accordingly
haftmann
parents:
33044
diff
changeset
|
1263 |
|
8924 | 1264 |
end |