author | blanchet |
Mon, 03 Mar 2014 12:48:20 +0100 | |
changeset 55855 | 98ad5680173a |
parent 55737 | 84f6ac9f6e41 |
child 55945 | e96383acecf9 |
permissions | -rw-r--r-- |
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(* Title: HOL/Lifting.thy |
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Author: Brian Huffman and Ondrej Kuncar |
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Author: Cezary Kaliszyk and Christian Urban |
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*) |
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header {* Lifting package *} |
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theory Lifting |
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imports Equiv_Relations Transfer |
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keywords |
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"parametric" and |
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"print_quot_maps" "print_quotients" :: diag and |
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"lift_definition" :: thy_goal and |
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"setup_lifting" "lifting_forget" "lifting_update" :: thy_decl |
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begin |
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subsection {* Function map *} |
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|
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context |
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begin |
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interpretation lifting_syntax . |
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lemma map_fun_id: |
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"(id ---> id) = id" |
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by (simp add: fun_eq_iff) |
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subsection {* Other predicates on relations *} |
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definition left_total :: "('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> bool" |
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where "left_total R \<longleftrightarrow> (\<forall>x. \<exists>y. R x y)" |
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lemma left_totalI: |
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"(\<And>x. \<exists>y. R x y) \<Longrightarrow> left_total R" |
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unfolding left_total_def by blast |
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lemma left_totalE: |
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assumes "left_total R" |
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obtains "(\<And>x. \<exists>y. R x y)" |
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using assms unfolding left_total_def by blast |
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lemma bi_total_iff: "bi_total A = (right_total A \<and> left_total A)" |
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unfolding left_total_def right_total_def bi_total_def by blast |
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lemma bi_total_conv_left_right: "bi_total R \<longleftrightarrow> left_total R \<and> right_total R" |
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by(simp add: left_total_def right_total_def bi_total_def) |
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definition left_unique :: "('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> bool" |
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where "left_unique R \<longleftrightarrow> (\<forall>x y z. R x z \<longrightarrow> R y z \<longrightarrow> x = y)" |
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lemma left_unique_transfer [transfer_rule]: |
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assumes [transfer_rule]: "right_total A" |
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assumes [transfer_rule]: "right_total B" |
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assumes [transfer_rule]: "bi_unique A" |
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shows "((A ===> B ===> op=) ===> implies) left_unique left_unique" |
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using assms unfolding left_unique_def[abs_def] right_total_def bi_unique_def fun_rel_def |
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by metis |
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lemma bi_unique_iff: "bi_unique A = (right_unique A \<and> left_unique A)" |
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unfolding left_unique_def right_unique_def bi_unique_def by blast |
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lemma bi_unique_conv_left_right: "bi_unique R \<longleftrightarrow> left_unique R \<and> right_unique R" |
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by(auto simp add: left_unique_def right_unique_def bi_unique_def) |
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lemma left_uniqueI: "(\<And>x y z. \<lbrakk> A x z; A y z \<rbrakk> \<Longrightarrow> x = y) \<Longrightarrow> left_unique A" |
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unfolding left_unique_def by blast |
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lemma left_uniqueD: "\<lbrakk> left_unique A; A x z; A y z \<rbrakk> \<Longrightarrow> x = y" |
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unfolding left_unique_def by blast |
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lemma left_total_fun: |
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"\<lbrakk>left_unique A; left_total B\<rbrakk> \<Longrightarrow> left_total (A ===> B)" |
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unfolding left_total_def fun_rel_def |
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apply (rule allI, rename_tac f) |
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apply (rule_tac x="\<lambda>y. SOME z. B (f (THE x. A x y)) z" in exI) |
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apply clarify |
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apply (subgoal_tac "(THE x. A x y) = x", simp) |
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apply (rule someI_ex) |
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apply (simp) |
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apply (rule the_equality) |
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apply assumption |
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apply (simp add: left_unique_def) |
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done |
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lemma left_unique_fun: |
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"\<lbrakk>left_total A; left_unique B\<rbrakk> \<Longrightarrow> left_unique (A ===> B)" |
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unfolding left_total_def left_unique_def fun_rel_def |
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by (clarify, rule ext, fast) |
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lemma left_total_eq: "left_total op=" unfolding left_total_def by blast |
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lemma left_unique_eq: "left_unique op=" unfolding left_unique_def by blast |
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lemma [simp]: |
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shows left_unique_conversep: "left_unique A\<inverse>\<inverse> \<longleftrightarrow> right_unique A" |
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and right_unique_conversep: "right_unique A\<inverse>\<inverse> \<longleftrightarrow> left_unique A" |
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by(auto simp add: left_unique_def right_unique_def) |
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lemma [simp]: |
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shows left_total_conversep: "left_total A\<inverse>\<inverse> \<longleftrightarrow> right_total A" |
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and right_total_conversep: "right_total A\<inverse>\<inverse> \<longleftrightarrow> left_total A" |
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by(simp_all add: left_total_def right_total_def) |
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subsection {* Quotient Predicate *} |
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definition |
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"Quotient R Abs Rep T \<longleftrightarrow> |
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(\<forall>a. Abs (Rep a) = a) \<and> |
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(\<forall>a. R (Rep a) (Rep a)) \<and> |
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(\<forall>r s. R r s \<longleftrightarrow> R r r \<and> R s s \<and> Abs r = Abs s) \<and> |
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T = (\<lambda>x y. R x x \<and> Abs x = y)" |
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lemma QuotientI: |
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assumes "\<And>a. Abs (Rep a) = a" |
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and "\<And>a. R (Rep a) (Rep a)" |
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and "\<And>r s. R r s \<longleftrightarrow> R r r \<and> R s s \<and> Abs r = Abs s" |
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and "T = (\<lambda>x y. R x x \<and> Abs x = y)" |
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shows "Quotient R Abs Rep T" |
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using assms unfolding Quotient_def by blast |
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context |
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fixes R Abs Rep T |
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assumes a: "Quotient R Abs Rep T" |
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begin |
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lemma Quotient_abs_rep: "Abs (Rep a) = a" |
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using a unfolding Quotient_def |
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by simp |
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lemma Quotient_rep_reflp: "R (Rep a) (Rep a)" |
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using a unfolding Quotient_def |
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by blast |
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lemma Quotient_rel: |
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"R r r \<and> R s s \<and> Abs r = Abs s \<longleftrightarrow> R r s" -- {* orientation does not loop on rewriting *} |
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using a unfolding Quotient_def |
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by blast |
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lemma Quotient_cr_rel: "T = (\<lambda>x y. R x x \<and> Abs x = y)" |
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using a unfolding Quotient_def |
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by blast |
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lemma Quotient_refl1: "R r s \<Longrightarrow> R r r" |
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using a unfolding Quotient_def |
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by fast |
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lemma Quotient_refl2: "R r s \<Longrightarrow> R s s" |
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using a unfolding Quotient_def |
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by fast |
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lemma Quotient_rel_rep: "R (Rep a) (Rep b) \<longleftrightarrow> a = b" |
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using a unfolding Quotient_def |
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by metis |
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lemma Quotient_rep_abs: "R r r \<Longrightarrow> R (Rep (Abs r)) r" |
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using a unfolding Quotient_def |
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by blast |
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lemma Quotient_rep_abs_eq: "R t t \<Longrightarrow> R \<le> op= \<Longrightarrow> Rep (Abs t) = t" |
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using a unfolding Quotient_def |
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by blast |
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lemma Quotient_rep_abs_fold_unmap: |
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assumes "x' \<equiv> Abs x" and "R x x" and "Rep x' \<equiv> Rep' x'" |
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shows "R (Rep' x') x" |
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proof - |
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have "R (Rep x') x" using assms(1-2) Quotient_rep_abs by auto |
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then show ?thesis using assms(3) by simp |
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qed |
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|
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lemma Quotient_Rep_eq: |
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assumes "x' \<equiv> Abs x" |
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shows "Rep x' \<equiv> Rep x'" |
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by simp |
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lemma Quotient_rel_abs: "R r s \<Longrightarrow> Abs r = Abs s" |
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using a unfolding Quotient_def |
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by blast |
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||
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lemma Quotient_rel_abs2: |
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assumes "R (Rep x) y" |
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shows "x = Abs y" |
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proof - |
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from assms have "Abs (Rep x) = Abs y" by (auto intro: Quotient_rel_abs) |
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then show ?thesis using assms(1) by (simp add: Quotient_abs_rep) |
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qed |
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lemma Quotient_symp: "symp R" |
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using a unfolding Quotient_def using sympI by (metis (full_types)) |
189 |
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lemma Quotient_transp: "transp R" |
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using a unfolding Quotient_def using transpI by (metis (full_types)) |
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lemma Quotient_part_equivp: "part_equivp R" |
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by (metis Quotient_rep_reflp Quotient_symp Quotient_transp part_equivpI) |
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196 |
end |
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lemma identity_quotient: "Quotient (op =) id id (op =)" |
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unfolding Quotient_def by simp |
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text {* TODO: Use one of these alternatives as the real definition. *} |
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lemma Quotient_alt_def: |
204 |
"Quotient R Abs Rep T \<longleftrightarrow> |
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(\<forall>a b. T a b \<longrightarrow> Abs a = b) \<and> |
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(\<forall>b. T (Rep b) b) \<and> |
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(\<forall>x y. R x y \<longleftrightarrow> T x (Abs x) \<and> T y (Abs y) \<and> Abs x = Abs y)" |
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apply safe |
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apply (simp (no_asm_use) only: Quotient_def, fast) |
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apply (simp (no_asm_use) only: Quotient_def, fast) |
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apply (simp (no_asm_use) only: Quotient_def, fast) |
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apply (simp (no_asm_use) only: Quotient_def, fast) |
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apply (simp (no_asm_use) only: Quotient_def, fast) |
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apply (simp (no_asm_use) only: Quotient_def, fast) |
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apply (rule QuotientI) |
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apply simp |
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apply metis |
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apply simp |
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apply (rule ext, rule ext, metis) |
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done |
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lemma Quotient_alt_def2: |
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"Quotient R Abs Rep T \<longleftrightarrow> |
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(\<forall>a b. T a b \<longrightarrow> Abs a = b) \<and> |
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(\<forall>b. T (Rep b) b) \<and> |
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(\<forall>x y. R x y \<longleftrightarrow> T x (Abs y) \<and> T y (Abs x))" |
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unfolding Quotient_alt_def by (safe, metis+) |
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||
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lemma Quotient_alt_def3: |
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"Quotient R Abs Rep T \<longleftrightarrow> |
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(\<forall>a b. T a b \<longrightarrow> Abs a = b) \<and> (\<forall>b. T (Rep b) b) \<and> |
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(\<forall>x y. R x y \<longleftrightarrow> (\<exists>z. T x z \<and> T y z))" |
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unfolding Quotient_alt_def2 by (safe, metis+) |
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move alternative definition lemmas into Lifting.thy;
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234 |
|
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move alternative definition lemmas into Lifting.thy;
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235 |
lemma Quotient_alt_def4: |
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"Quotient R Abs Rep T \<longleftrightarrow> |
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(\<forall>a b. T a b \<longrightarrow> Abs a = b) \<and> (\<forall>b. T (Rep b) b) \<and> R = T OO conversep T" |
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238 |
unfolding Quotient_alt_def3 fun_eq_iff by auto |
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239 |
|
47308 | 240 |
lemma fun_quotient: |
241 |
assumes 1: "Quotient R1 abs1 rep1 T1" |
|
242 |
assumes 2: "Quotient R2 abs2 rep2 T2" |
|
243 |
shows "Quotient (R1 ===> R2) (rep1 ---> abs2) (abs1 ---> rep2) (T1 ===> T2)" |
|
244 |
using assms unfolding Quotient_alt_def2 |
|
245 |
unfolding fun_rel_def fun_eq_iff map_fun_apply |
|
246 |
by (safe, metis+) |
|
247 |
||
248 |
lemma apply_rsp: |
|
249 |
fixes f g::"'a \<Rightarrow> 'c" |
|
250 |
assumes q: "Quotient R1 Abs1 Rep1 T1" |
|
251 |
and a: "(R1 ===> R2) f g" "R1 x y" |
|
252 |
shows "R2 (f x) (g y)" |
|
253 |
using a by (auto elim: fun_relE) |
|
254 |
||
255 |
lemma apply_rsp': |
|
256 |
assumes a: "(R1 ===> R2) f g" "R1 x y" |
|
257 |
shows "R2 (f x) (g y)" |
|
258 |
using a by (auto elim: fun_relE) |
|
259 |
||
260 |
lemma apply_rsp'': |
|
261 |
assumes "Quotient R Abs Rep T" |
|
262 |
and "(R ===> S) f f" |
|
263 |
shows "S (f (Rep x)) (f (Rep x))" |
|
264 |
proof - |
|
265 |
from assms(1) have "R (Rep x) (Rep x)" by (rule Quotient_rep_reflp) |
|
266 |
then show ?thesis using assms(2) by (auto intro: apply_rsp') |
|
267 |
qed |
|
268 |
||
269 |
subsection {* Quotient composition *} |
|
270 |
||
271 |
lemma Quotient_compose: |
|
272 |
assumes 1: "Quotient R1 Abs1 Rep1 T1" |
|
273 |
assumes 2: "Quotient R2 Abs2 Rep2 T2" |
|
274 |
shows "Quotient (T1 OO R2 OO conversep T1) (Abs2 \<circ> Abs1) (Rep1 \<circ> Rep2) (T1 OO T2)" |
|
51994 | 275 |
using assms unfolding Quotient_alt_def4 by fastforce |
47308 | 276 |
|
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277 |
lemma equivp_reflp2: |
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278 |
"equivp R \<Longrightarrow> reflp R" |
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279 |
by (erule equivpE) |
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280 |
|
47544 | 281 |
subsection {* Respects predicate *} |
282 |
||
283 |
definition Respects :: "('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> 'a set" |
|
284 |
where "Respects R = {x. R x x}" |
|
285 |
||
286 |
lemma in_respects: "x \<in> Respects R \<longleftrightarrow> R x x" |
|
287 |
unfolding Respects_def by simp |
|
288 |
||
47308 | 289 |
subsection {* Invariant *} |
290 |
||
291 |
definition invariant :: "('a \<Rightarrow> bool) \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> bool" |
|
292 |
where "invariant R = (\<lambda>x y. R x \<and> x = y)" |
|
293 |
||
294 |
lemma invariant_to_eq: |
|
295 |
assumes "invariant P x y" |
|
296 |
shows "x = y" |
|
297 |
using assms by (simp add: invariant_def) |
|
298 |
||
55737 | 299 |
lemma fun_rel_eq_invariant: "(op= ===> Lifting.invariant P) = Lifting.invariant (\<lambda>f. \<forall>x. P(f x))" |
300 |
unfolding invariant_def fun_rel_def by auto |
|
301 |
||
302 |
lemma fun_rel_invariant_rel: |
|
47308 | 303 |
shows "((invariant R) ===> S) = (\<lambda>f g. \<forall>x. R x \<longrightarrow> S (f x) (g x))" |
304 |
by (auto simp add: invariant_def fun_rel_def) |
|
305 |
||
306 |
lemma invariant_same_args: |
|
307 |
shows "invariant P x x \<equiv> P x" |
|
308 |
using assms by (auto simp add: invariant_def) |
|
309 |
||
53952 | 310 |
lemma invariant_transfer [transfer_rule]: |
311 |
assumes [transfer_rule]: "bi_unique A" |
|
312 |
shows "((A ===> op=) ===> A ===> A ===> op=) Lifting.invariant Lifting.invariant" |
|
313 |
unfolding invariant_def[abs_def] by transfer_prover |
|
314 |
||
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315 |
lemma UNIV_typedef_to_Quotient: |
47308 | 316 |
assumes "type_definition Rep Abs UNIV" |
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|
317 |
and T_def: "T \<equiv> (\<lambda>x y. x = Rep y)" |
47308 | 318 |
shows "Quotient (op =) Abs Rep T" |
319 |
proof - |
|
320 |
interpret type_definition Rep Abs UNIV by fact |
|
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321 |
from Abs_inject Rep_inverse Abs_inverse T_def show ?thesis |
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|
322 |
by (fastforce intro!: QuotientI fun_eq_iff) |
47308 | 323 |
qed |
324 |
||
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|
325 |
lemma UNIV_typedef_to_equivp: |
47308 | 326 |
fixes Abs :: "'a \<Rightarrow> 'b" |
327 |
and Rep :: "'b \<Rightarrow> 'a" |
|
328 |
assumes "type_definition Rep Abs (UNIV::'a set)" |
|
329 |
shows "equivp (op=::'a\<Rightarrow>'a\<Rightarrow>bool)" |
|
330 |
by (rule identity_equivp) |
|
331 |
||
47354 | 332 |
lemma typedef_to_Quotient: |
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|
333 |
assumes "type_definition Rep Abs S" |
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|
334 |
and T_def: "T \<equiv> (\<lambda>x y. x = Rep y)" |
47501 | 335 |
shows "Quotient (invariant (\<lambda>x. x \<in> S)) Abs Rep T" |
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|
336 |
proof - |
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|
337 |
interpret type_definition Rep Abs S by fact |
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|
338 |
from Rep Abs_inject Rep_inverse Abs_inverse T_def show ?thesis |
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|
339 |
by (auto intro!: QuotientI simp: invariant_def fun_eq_iff) |
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|
340 |
qed |
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|
341 |
|
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|
342 |
lemma typedef_to_part_equivp: |
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|
343 |
assumes "type_definition Rep Abs S" |
47501 | 344 |
shows "part_equivp (invariant (\<lambda>x. x \<in> S))" |
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|
345 |
proof (intro part_equivpI) |
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|
346 |
interpret type_definition Rep Abs S by fact |
47501 | 347 |
show "\<exists>x. invariant (\<lambda>x. x \<in> S) x x" using Rep by (auto simp: invariant_def) |
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|
348 |
next |
47501 | 349 |
show "symp (invariant (\<lambda>x. x \<in> S))" by (auto intro: sympI simp: invariant_def) |
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|
350 |
next |
47501 | 351 |
show "transp (invariant (\<lambda>x. x \<in> S))" by (auto intro: transpI simp: invariant_def) |
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|
352 |
qed |
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|
353 |
|
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|
354 |
lemma open_typedef_to_Quotient: |
47308 | 355 |
assumes "type_definition Rep Abs {x. P x}" |
47354 | 356 |
and T_def: "T \<equiv> (\<lambda>x y. x = Rep y)" |
47308 | 357 |
shows "Quotient (invariant P) Abs Rep T" |
47651 | 358 |
using typedef_to_Quotient [OF assms] by simp |
47308 | 359 |
|
47361
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changeset
|
360 |
lemma open_typedef_to_part_equivp: |
47308 | 361 |
assumes "type_definition Rep Abs {x. P x}" |
362 |
shows "part_equivp (invariant P)" |
|
47651 | 363 |
using typedef_to_part_equivp [OF assms] by simp |
47308 | 364 |
|
47376 | 365 |
text {* Generating transfer rules for quotients. *} |
366 |
||
47537 | 367 |
context |
368 |
fixes R Abs Rep T |
|
369 |
assumes 1: "Quotient R Abs Rep T" |
|
370 |
begin |
|
47376 | 371 |
|
47537 | 372 |
lemma Quotient_right_unique: "right_unique T" |
373 |
using 1 unfolding Quotient_alt_def right_unique_def by metis |
|
374 |
||
375 |
lemma Quotient_right_total: "right_total T" |
|
376 |
using 1 unfolding Quotient_alt_def right_total_def by metis |
|
377 |
||
378 |
lemma Quotient_rel_eq_transfer: "(T ===> T ===> op =) R (op =)" |
|
379 |
using 1 unfolding Quotient_alt_def fun_rel_def by simp |
|
47376 | 380 |
|
47538 | 381 |
lemma Quotient_abs_induct: |
382 |
assumes "\<And>y. R y y \<Longrightarrow> P (Abs y)" shows "P x" |
|
383 |
using 1 assms unfolding Quotient_def by metis |
|
384 |
||
47537 | 385 |
end |
386 |
||
387 |
text {* Generating transfer rules for total quotients. *} |
|
47376 | 388 |
|
47537 | 389 |
context |
390 |
fixes R Abs Rep T |
|
391 |
assumes 1: "Quotient R Abs Rep T" and 2: "reflp R" |
|
392 |
begin |
|
47376 | 393 |
|
47537 | 394 |
lemma Quotient_bi_total: "bi_total T" |
395 |
using 1 2 unfolding Quotient_alt_def bi_total_def reflp_def by auto |
|
396 |
||
397 |
lemma Quotient_id_abs_transfer: "(op = ===> T) (\<lambda>x. x) Abs" |
|
398 |
using 1 2 unfolding Quotient_alt_def reflp_def fun_rel_def by simp |
|
399 |
||
47575 | 400 |
lemma Quotient_total_abs_induct: "(\<And>y. P (Abs y)) \<Longrightarrow> P x" |
401 |
using 1 2 assms unfolding Quotient_alt_def reflp_def by metis |
|
402 |
||
47889
29212a4bb866
lifting package produces abs_eq_iff rules for total quotients
huffman
parents:
47777
diff
changeset
|
403 |
lemma Quotient_total_abs_eq_iff: "Abs x = Abs y \<longleftrightarrow> R x y" |
29212a4bb866
lifting package produces abs_eq_iff rules for total quotients
huffman
parents:
47777
diff
changeset
|
404 |
using Quotient_rel [OF 1] 2 unfolding reflp_def by simp |
29212a4bb866
lifting package produces abs_eq_iff rules for total quotients
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parents:
47777
diff
changeset
|
405 |
|
47537 | 406 |
end |
47376 | 407 |
|
47368
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changeset
|
408 |
text {* Generating transfer rules for a type defined with @{text "typedef"}. *} |
4c522dff1f4d
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huffman
parents:
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diff
changeset
|
409 |
|
47534
06cc372a80ed
use context block to organize typedef lifting theorems
huffman
parents:
47521
diff
changeset
|
410 |
context |
06cc372a80ed
use context block to organize typedef lifting theorems
huffman
parents:
47521
diff
changeset
|
411 |
fixes Rep Abs A T |
47368
4c522dff1f4d
add lemmas for generating transfer rules for typedefs
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parents:
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diff
changeset
|
412 |
assumes type: "type_definition Rep Abs A" |
47534
06cc372a80ed
use context block to organize typedef lifting theorems
huffman
parents:
47521
diff
changeset
|
413 |
assumes T_def: "T \<equiv> (\<lambda>(x::'a) (y::'b). x = Rep y)" |
06cc372a80ed
use context block to organize typedef lifting theorems
huffman
parents:
47521
diff
changeset
|
414 |
begin |
06cc372a80ed
use context block to organize typedef lifting theorems
huffman
parents:
47521
diff
changeset
|
415 |
|
51994 | 416 |
lemma typedef_left_unique: "left_unique T" |
417 |
unfolding left_unique_def T_def |
|
418 |
by (simp add: type_definition.Rep_inject [OF type]) |
|
419 |
||
47534
06cc372a80ed
use context block to organize typedef lifting theorems
huffman
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changeset
|
420 |
lemma typedef_bi_unique: "bi_unique T" |
47368
4c522dff1f4d
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diff
changeset
|
421 |
unfolding bi_unique_def T_def |
4c522dff1f4d
add lemmas for generating transfer rules for typedefs
huffman
parents:
47354
diff
changeset
|
422 |
by (simp add: type_definition.Rep_inject [OF type]) |
4c522dff1f4d
add lemmas for generating transfer rules for typedefs
huffman
parents:
47354
diff
changeset
|
423 |
|
51374
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
424 |
(* the following two theorems are here only for convinience *) |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
425 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
426 |
lemma typedef_right_unique: "right_unique T" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
427 |
using T_def type Quotient_right_unique typedef_to_Quotient |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
428 |
by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
429 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
430 |
lemma typedef_right_total: "right_total T" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
431 |
using T_def type Quotient_right_total typedef_to_Quotient |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
432 |
by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
433 |
|
47535
0f94b02fda1c
lifting_setup generates transfer rule for rep of typedefs
huffman
parents:
47534
diff
changeset
|
434 |
lemma typedef_rep_transfer: "(T ===> op =) (\<lambda>x. x) Rep" |
0f94b02fda1c
lifting_setup generates transfer rule for rep of typedefs
huffman
parents:
47534
diff
changeset
|
435 |
unfolding fun_rel_def T_def by simp |
0f94b02fda1c
lifting_setup generates transfer rule for rep of typedefs
huffman
parents:
47534
diff
changeset
|
436 |
|
47534
06cc372a80ed
use context block to organize typedef lifting theorems
huffman
parents:
47521
diff
changeset
|
437 |
end |
06cc372a80ed
use context block to organize typedef lifting theorems
huffman
parents:
47521
diff
changeset
|
438 |
|
47368
4c522dff1f4d
add lemmas for generating transfer rules for typedefs
huffman
parents:
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diff
changeset
|
439 |
text {* Generating the correspondence rule for a constant defined with |
4c522dff1f4d
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huffman
parents:
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diff
changeset
|
440 |
@{text "lift_definition"}. *} |
4c522dff1f4d
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parents:
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changeset
|
441 |
|
47351 | 442 |
lemma Quotient_to_transfer: |
443 |
assumes "Quotient R Abs Rep T" and "R c c" and "c' \<equiv> Abs c" |
|
444 |
shows "T c c'" |
|
445 |
using assms by (auto dest: Quotient_cr_rel) |
|
446 |
||
47982
7aa35601ff65
prove reflexivity also for the quotient composition relation; reflp_preserve renamed to reflexivity_rule
kuncar
parents:
47937
diff
changeset
|
447 |
text {* Proving reflexivity *} |
7aa35601ff65
prove reflexivity also for the quotient composition relation; reflp_preserve renamed to reflexivity_rule
kuncar
parents:
47937
diff
changeset
|
448 |
|
7aa35601ff65
prove reflexivity also for the quotient composition relation; reflp_preserve renamed to reflexivity_rule
kuncar
parents:
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diff
changeset
|
449 |
lemma Quotient_to_left_total: |
7aa35601ff65
prove reflexivity also for the quotient composition relation; reflp_preserve renamed to reflexivity_rule
kuncar
parents:
47937
diff
changeset
|
450 |
assumes q: "Quotient R Abs Rep T" |
7aa35601ff65
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kuncar
parents:
47937
diff
changeset
|
451 |
and r_R: "reflp R" |
7aa35601ff65
prove reflexivity also for the quotient composition relation; reflp_preserve renamed to reflexivity_rule
kuncar
parents:
47937
diff
changeset
|
452 |
shows "left_total T" |
7aa35601ff65
prove reflexivity also for the quotient composition relation; reflp_preserve renamed to reflexivity_rule
kuncar
parents:
47937
diff
changeset
|
453 |
using r_R Quotient_cr_rel[OF q] unfolding left_total_def by (auto elim: reflpE) |
7aa35601ff65
prove reflexivity also for the quotient composition relation; reflp_preserve renamed to reflexivity_rule
kuncar
parents:
47937
diff
changeset
|
454 |
|
55563
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
455 |
lemma Quotient_composition_ge_eq: |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
456 |
assumes "left_total T" |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
457 |
assumes "R \<ge> op=" |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
458 |
shows "(T OO R OO T\<inverse>\<inverse>) \<ge> op=" |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
459 |
using assms unfolding left_total_def by fast |
51994 | 460 |
|
55563
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
461 |
lemma Quotient_composition_le_eq: |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
462 |
assumes "left_unique T" |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
463 |
assumes "R \<le> op=" |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
464 |
shows "(T OO R OO T\<inverse>\<inverse>) \<le> op=" |
55604 | 465 |
using assms unfolding left_unique_def by blast |
47982
7aa35601ff65
prove reflexivity also for the quotient composition relation; reflp_preserve renamed to reflexivity_rule
kuncar
parents:
47937
diff
changeset
|
466 |
|
52307 | 467 |
lemma left_total_composition: "left_total R \<Longrightarrow> left_total S \<Longrightarrow> left_total (R OO S)" |
468 |
unfolding left_total_def OO_def by fast |
|
469 |
||
470 |
lemma left_unique_composition: "left_unique R \<Longrightarrow> left_unique S \<Longrightarrow> left_unique (R OO S)" |
|
55604 | 471 |
unfolding left_unique_def OO_def by blast |
52307 | 472 |
|
55563
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
473 |
lemma invariant_le_eq: |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
474 |
"invariant P \<le> op=" unfolding invariant_def by blast |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
475 |
|
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
476 |
lemma reflp_ge_eq: |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
477 |
"reflp R \<Longrightarrow> R \<ge> op=" unfolding reflp_def by blast |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
478 |
|
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
479 |
lemma ge_eq_refl: |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
480 |
"R \<ge> op= \<Longrightarrow> R x x" by blast |
47982
7aa35601ff65
prove reflexivity also for the quotient composition relation; reflp_preserve renamed to reflexivity_rule
kuncar
parents:
47937
diff
changeset
|
481 |
|
51374
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
482 |
text {* Proving a parametrized correspondence relation *} |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
483 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
484 |
definition POS :: "('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> ('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> bool" where |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
485 |
"POS A B \<equiv> A \<le> B" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
486 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
487 |
definition NEG :: "('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> ('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> bool" where |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
488 |
"NEG A B \<equiv> B \<le> A" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
489 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
490 |
(* |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
491 |
The following two rules are here because we don't have any proper |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
492 |
left-unique ant left-total relations. Left-unique and left-total |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
493 |
assumptions show up in distributivity rules for the function type. |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
494 |
*) |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
495 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
496 |
lemma bi_unique_left_unique[transfer_rule]: "bi_unique R \<Longrightarrow> left_unique R" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
497 |
unfolding bi_unique_def left_unique_def by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
498 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
499 |
lemma bi_total_left_total[transfer_rule]: "bi_total R \<Longrightarrow> left_total R" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
500 |
unfolding bi_total_def left_total_def by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
501 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
502 |
lemma pos_OO_eq: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
503 |
shows "POS (A OO op=) A" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
504 |
unfolding POS_def OO_def by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
505 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
506 |
lemma pos_eq_OO: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
507 |
shows "POS (op= OO A) A" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
508 |
unfolding POS_def OO_def by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
509 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
510 |
lemma neg_OO_eq: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
511 |
shows "NEG (A OO op=) A" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
512 |
unfolding NEG_def OO_def by auto |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
513 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
514 |
lemma neg_eq_OO: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
515 |
shows "NEG (op= OO A) A" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
516 |
unfolding NEG_def OO_def by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
517 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
518 |
lemma POS_trans: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
519 |
assumes "POS A B" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
520 |
assumes "POS B C" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
521 |
shows "POS A C" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
522 |
using assms unfolding POS_def by auto |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
523 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
524 |
lemma NEG_trans: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
525 |
assumes "NEG A B" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
526 |
assumes "NEG B C" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
527 |
shows "NEG A C" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
528 |
using assms unfolding NEG_def by auto |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
529 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
530 |
lemma POS_NEG: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
531 |
"POS A B \<equiv> NEG B A" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
532 |
unfolding POS_def NEG_def by auto |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
533 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
534 |
lemma NEG_POS: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
535 |
"NEG A B \<equiv> POS B A" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
536 |
unfolding POS_def NEG_def by auto |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
537 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
538 |
lemma POS_pcr_rule: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
539 |
assumes "POS (A OO B) C" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
540 |
shows "POS (A OO B OO X) (C OO X)" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
541 |
using assms unfolding POS_def OO_def by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
542 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
543 |
lemma NEG_pcr_rule: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
544 |
assumes "NEG (A OO B) C" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
545 |
shows "NEG (A OO B OO X) (C OO X)" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
546 |
using assms unfolding NEG_def OO_def by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
547 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
548 |
lemma POS_apply: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
549 |
assumes "POS R R'" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
550 |
assumes "R f g" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
551 |
shows "R' f g" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
552 |
using assms unfolding POS_def by auto |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
553 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
554 |
text {* Proving a parametrized correspondence relation *} |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
555 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
556 |
lemma fun_mono: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
557 |
assumes "A \<ge> C" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
558 |
assumes "B \<le> D" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
559 |
shows "(A ===> B) \<le> (C ===> D)" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
560 |
using assms unfolding fun_rel_def by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
561 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
562 |
lemma pos_fun_distr: "((R ===> S) OO (R' ===> S')) \<le> ((R OO R') ===> (S OO S'))" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
563 |
unfolding OO_def fun_rel_def by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
564 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
565 |
lemma functional_relation: "right_unique R \<Longrightarrow> left_total R \<Longrightarrow> \<forall>x. \<exists>!y. R x y" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
566 |
unfolding right_unique_def left_total_def by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
567 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
568 |
lemma functional_converse_relation: "left_unique R \<Longrightarrow> right_total R \<Longrightarrow> \<forall>y. \<exists>!x. R x y" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
569 |
unfolding left_unique_def right_total_def by blast |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
570 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
571 |
lemma neg_fun_distr1: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
572 |
assumes 1: "left_unique R" "right_total R" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
573 |
assumes 2: "right_unique R'" "left_total R'" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
574 |
shows "(R OO R' ===> S OO S') \<le> ((R ===> S) OO (R' ===> S')) " |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
575 |
using functional_relation[OF 2] functional_converse_relation[OF 1] |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
576 |
unfolding fun_rel_def OO_def |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
577 |
apply clarify |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
578 |
apply (subst all_comm) |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
579 |
apply (subst all_conj_distrib[symmetric]) |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
580 |
apply (intro choice) |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
581 |
by metis |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
582 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
583 |
lemma neg_fun_distr2: |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
584 |
assumes 1: "right_unique R'" "left_total R'" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
585 |
assumes 2: "left_unique S'" "right_total S'" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
586 |
shows "(R OO R' ===> S OO S') \<le> ((R ===> S) OO (R' ===> S'))" |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
587 |
using functional_converse_relation[OF 2] functional_relation[OF 1] |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
588 |
unfolding fun_rel_def OO_def |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
589 |
apply clarify |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
590 |
apply (subst all_comm) |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
591 |
apply (subst all_conj_distrib[symmetric]) |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
592 |
apply (intro choice) |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
593 |
by metis |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
594 |
|
51956
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
595 |
subsection {* Domains *} |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
596 |
|
55731
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
597 |
lemma composed_equiv_rel_invariant: |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
598 |
assumes "left_unique R" |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
599 |
assumes "(R ===> op=) P P'" |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
600 |
assumes "Domainp R = P''" |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
601 |
shows "(R OO Lifting.invariant P' OO R\<inverse>\<inverse>) = Lifting.invariant (inf P'' P)" |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
602 |
using assms unfolding OO_def conversep_iff Domainp_iff[abs_def] left_unique_def fun_rel_def invariant_def |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
603 |
fun_eq_iff by blast |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
604 |
|
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
605 |
lemma composed_equiv_rel_eq_invariant: |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
606 |
assumes "left_unique R" |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
607 |
assumes "Domainp R = P" |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
608 |
shows "(R OO op= OO R\<inverse>\<inverse>) = Lifting.invariant P" |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
609 |
using assms unfolding OO_def conversep_iff Domainp_iff[abs_def] left_unique_def invariant_def |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
610 |
fun_eq_iff is_equality_def by metis |
66df76dd2640
rewrite composition of quotients to a more readable form in a respectfulness goal that is presented to a user
kuncar
parents:
55610
diff
changeset
|
611 |
|
51956
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
612 |
lemma pcr_Domainp_par_left_total: |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
613 |
assumes "Domainp B = P" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
614 |
assumes "left_total A" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
615 |
assumes "(A ===> op=) P' P" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
616 |
shows "Domainp (A OO B) = P'" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
617 |
using assms |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
618 |
unfolding Domainp_iff[abs_def] OO_def bi_unique_def left_total_def fun_rel_def |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
619 |
by (fast intro: fun_eq_iff) |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
620 |
|
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
621 |
lemma pcr_Domainp_par: |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
622 |
assumes "Domainp B = P2" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
623 |
assumes "Domainp A = P1" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
624 |
assumes "(A ===> op=) P2' P2" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
625 |
shows "Domainp (A OO B) = (inf P1 P2')" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
626 |
using assms unfolding fun_rel_def Domainp_iff[abs_def] OO_def |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
627 |
by (fast intro: fun_eq_iff) |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
628 |
|
53151 | 629 |
definition rel_pred_comp :: "('a => 'b => bool) => ('b => bool) => 'a => bool" |
51956
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
630 |
where "rel_pred_comp R P \<equiv> \<lambda>x. \<exists>y. R x y \<and> P y" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
631 |
|
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
632 |
lemma pcr_Domainp: |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
633 |
assumes "Domainp B = P" |
53151 | 634 |
shows "Domainp (A OO B) = (\<lambda>x. \<exists>y. A x y \<and> P y)" |
635 |
using assms by blast |
|
51956
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
636 |
|
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
637 |
lemma pcr_Domainp_total: |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
638 |
assumes "bi_total B" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
639 |
assumes "Domainp A = P" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
640 |
shows "Domainp (A OO B) = P" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
641 |
using assms unfolding bi_total_def |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
642 |
by fast |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
643 |
|
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
644 |
lemma Quotient_to_Domainp: |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
645 |
assumes "Quotient R Abs Rep T" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
646 |
shows "Domainp T = (\<lambda>x. R x x)" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
647 |
by (simp add: Domainp_iff[abs_def] Quotient_cr_rel[OF assms]) |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
648 |
|
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
649 |
lemma invariant_to_Domainp: |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
650 |
assumes "Quotient (Lifting.invariant P) Abs Rep T" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
651 |
shows "Domainp T = P" |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
652 |
by (simp add: invariant_def Domainp_iff[abs_def] Quotient_cr_rel[OF assms]) |
a4d81cdebf8b
better support for domains in Lifting/Transfer = replace Domainp T by the actual invariant in a transferred goal
kuncar
parents:
51374
diff
changeset
|
653 |
|
53011
aeee0a4be6cf
introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local
kuncar
parents:
52307
diff
changeset
|
654 |
end |
aeee0a4be6cf
introduce locale with syntax for fun_rel and map_fun and make thus ===> and ---> local
kuncar
parents:
52307
diff
changeset
|
655 |
|
47308 | 656 |
subsection {* ML setup *} |
657 |
||
48891 | 658 |
ML_file "Tools/Lifting/lifting_util.ML" |
47308 | 659 |
|
48891 | 660 |
ML_file "Tools/Lifting/lifting_info.ML" |
47308 | 661 |
setup Lifting_Info.setup |
662 |
||
51994 | 663 |
lemmas [reflexivity_rule] = |
55563
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
664 |
order_refl[of "op="] invariant_le_eq Quotient_composition_le_eq |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
665 |
Quotient_composition_ge_eq |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
666 |
left_total_eq left_unique_eq left_total_composition left_unique_composition |
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
667 |
left_total_fun left_unique_fun |
51374
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
668 |
|
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
669 |
(* setup for the function type *) |
47777
f29e7dcd7c40
use a quot_map theorem attribute instead of the complicated map attribute
kuncar
parents:
47698
diff
changeset
|
670 |
declare fun_quotient[quot_map] |
51374
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
671 |
declare fun_mono[relator_mono] |
84d01fd733cf
lift_definition and setup_lifting generate parametric transfer rules if parametricity theorems are provided
kuncar
parents:
51112
diff
changeset
|
672 |
lemmas [relator_distr] = pos_fun_distr neg_fun_distr1 neg_fun_distr2 |
47308 | 673 |
|
48891 | 674 |
ML_file "Tools/Lifting/lifting_term.ML" |
47308 | 675 |
|
48891 | 676 |
ML_file "Tools/Lifting/lifting_def.ML" |
47308 | 677 |
|
48891 | 678 |
ML_file "Tools/Lifting/lifting_setup.ML" |
47308 | 679 |
|
55563
a64d49f49ca3
implement the reflexivity prover as a monotonicity prover that proves R >= op=; derive "reflexivity" rules for relators from mono rules and eq rules
kuncar
parents:
55083
diff
changeset
|
680 |
hide_const (open) invariant POS NEG |
47308 | 681 |
|
682 |
end |