author | paulson <lp15@cam.ac.uk> |
Tue, 30 May 2023 12:33:06 +0100 | |
changeset 78127 | 24b70433c2e8 |
parent 69913 | ca515cf61651 |
permissions | -rw-r--r-- |
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(* Title: HOL/Typedef.thy |
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Author: Markus Wenzel, TU Munich |
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*) |
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section \<open>HOL type definitions\<close> |
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theory Typedef |
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imports Set |
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keywords |
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"typedef" :: thy_goal_defn and |
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"morphisms" :: quasi_command |
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begin |
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locale type_definition = |
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fixes Rep and Abs and A |
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assumes Rep: "Rep x \<in> A" |
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and Rep_inverse: "Abs (Rep x) = x" |
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and Abs_inverse: "y \<in> A \<Longrightarrow> Rep (Abs y) = y" |
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\<comment> \<open>This will be axiomatized for each typedef!\<close> |
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begin |
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lemma Rep_inject: "Rep x = Rep y \<longleftrightarrow> x = y" |
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proof |
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assume "Rep x = Rep y" |
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a8ac2305eaf2
removed proof dependency on transitivity theorems
haftmann
parents:
23433
diff
changeset
|
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then have "Abs (Rep x) = Abs (Rep y)" by (simp only:) |
a8ac2305eaf2
removed proof dependency on transitivity theorems
haftmann
parents:
23433
diff
changeset
|
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moreover have "Abs (Rep x) = x" by (rule Rep_inverse) |
a8ac2305eaf2
removed proof dependency on transitivity theorems
haftmann
parents:
23433
diff
changeset
|
27 |
moreover have "Abs (Rep y) = y" by (rule Rep_inverse) |
a8ac2305eaf2
removed proof dependency on transitivity theorems
haftmann
parents:
23433
diff
changeset
|
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ultimately show "x = y" by simp |
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next |
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assume "x = y" |
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then show "Rep x = Rep y" by (simp only:) |
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qed |
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lemma Abs_inject: |
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assumes "x \<in> A" and "y \<in> A" |
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shows "Abs x = Abs y \<longleftrightarrow> x = y" |
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proof |
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assume "Abs x = Abs y" |
|
23710
a8ac2305eaf2
removed proof dependency on transitivity theorems
haftmann
parents:
23433
diff
changeset
|
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then have "Rep (Abs x) = Rep (Abs y)" by (simp only:) |
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moreover from \<open>x \<in> A\<close> have "Rep (Abs x) = x" by (rule Abs_inverse) |
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moreover from \<open>y \<in> A\<close> have "Rep (Abs y) = y" by (rule Abs_inverse) |
|
23710
a8ac2305eaf2
removed proof dependency on transitivity theorems
haftmann
parents:
23433
diff
changeset
|
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ultimately show "x = y" by simp |
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next |
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assume "x = y" |
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then show "Abs x = Abs y" by (simp only:) |
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qed |
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||
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lemma Rep_cases [cases set]: |
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assumes "y \<in> A" |
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and hyp: "\<And>x. y = Rep x \<Longrightarrow> P" |
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shows P |
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proof (rule hyp) |
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from \<open>y \<in> A\<close> have "Rep (Abs y) = y" by (rule Abs_inverse) |
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then show "y = Rep (Abs y)" .. |
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qed |
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||
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lemma Abs_cases [cases type]: |
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assumes r: "\<And>y. x = Abs y \<Longrightarrow> y \<in> A \<Longrightarrow> P" |
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shows P |
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proof (rule r) |
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have "Abs (Rep x) = x" by (rule Rep_inverse) |
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then show "x = Abs (Rep x)" .. |
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show "Rep x \<in> A" by (rule Rep) |
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qed |
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||
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lemma Rep_induct [induct set]: |
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assumes y: "y \<in> A" |
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and hyp: "\<And>x. P (Rep x)" |
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shows "P y" |
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proof - |
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have "P (Rep (Abs y))" by (rule hyp) |
23710
a8ac2305eaf2
removed proof dependency on transitivity theorems
haftmann
parents:
23433
diff
changeset
|
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moreover from y have "Rep (Abs y) = y" by (rule Abs_inverse) |
a8ac2305eaf2
removed proof dependency on transitivity theorems
haftmann
parents:
23433
diff
changeset
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ultimately show "P y" by simp |
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qed |
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||
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lemma Abs_induct [induct type]: |
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assumes r: "\<And>y. y \<in> A \<Longrightarrow> P (Abs y)" |
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shows "P x" |
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proof - |
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have "Rep x \<in> A" by (rule Rep) |
23710
a8ac2305eaf2
removed proof dependency on transitivity theorems
haftmann
parents:
23433
diff
changeset
|
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then have "P (Abs (Rep x))" by (rule r) |
a8ac2305eaf2
removed proof dependency on transitivity theorems
haftmann
parents:
23433
diff
changeset
|
82 |
moreover have "Abs (Rep x) = x" by (rule Rep_inverse) |
a8ac2305eaf2
removed proof dependency on transitivity theorems
haftmann
parents:
23433
diff
changeset
|
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ultimately show "P x" by simp |
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qed |
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||
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lemma Rep_range: "range Rep = A" |
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proof |
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show "range Rep \<subseteq> A" using Rep by (auto simp add: image_def) |
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show "A \<subseteq> range Rep" |
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proof |
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fix x assume "x \<in> A" |
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then have "x = Rep (Abs x)" by (rule Abs_inverse [symmetric]) |
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then show "x \<in> range Rep" by (rule range_eqI) |
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qed |
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qed |
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lemma Abs_image: "Abs ` A = UNIV" |
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proof |
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show "Abs ` A \<subseteq> UNIV" by (rule subset_UNIV) |
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show "UNIV \<subseteq> Abs ` A" |
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proof |
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fix x |
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have "x = Abs (Rep x)" by (rule Rep_inverse [symmetric]) |
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moreover have "Rep x \<in> A" by (rule Rep) |
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ultimately show "x \<in> Abs ` A" by (rule image_eqI) |
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qed |
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qed |
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end |
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ML_file \<open>Tools/typedef.ML\<close> |
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end |