author | blanchet |
Mon, 03 Mar 2014 12:48:20 +0100 | |
changeset 55855 | 98ad5680173a |
parent 55467 | a5c9002bc54d |
child 56154 | f0a927235162 |
permissions | -rw-r--r-- |
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(* Title: HOL/Predicate.thy |
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Author: Lukas Bulwahn and Florian Haftmann, TU Muenchen |
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*) |
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header {* Predicates as enumerations *} |
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theory Predicate |
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imports String |
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begin |
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subsection {* The type of predicate enumerations (a monad) *} |
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datatype 'a pred = Pred "'a \<Rightarrow> bool" |
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primrec eval :: "'a pred \<Rightarrow> 'a \<Rightarrow> bool" where |
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eval_pred: "eval (Pred f) = f" |
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lemma Pred_eval [simp]: |
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"Pred (eval x) = x" |
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by (cases x) simp |
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lemma pred_eqI: |
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"(\<And>w. eval P w \<longleftrightarrow> eval Q w) \<Longrightarrow> P = Q" |
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by (cases P, cases Q) (auto simp add: fun_eq_iff) |
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lemma pred_eq_iff: |
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"P = Q \<Longrightarrow> (\<And>w. eval P w \<longleftrightarrow> eval Q w)" |
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by (simp add: pred_eqI) |
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instantiation pred :: (type) complete_lattice |
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begin |
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definition |
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"P \<le> Q \<longleftrightarrow> eval P \<le> eval Q" |
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definition |
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"P < Q \<longleftrightarrow> eval P < eval Q" |
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definition |
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"\<bottom> = Pred \<bottom>" |
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lemma eval_bot [simp]: |
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"eval \<bottom> = \<bottom>" |
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by (simp add: bot_pred_def) |
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definition |
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"\<top> = Pred \<top>" |
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lemma eval_top [simp]: |
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"eval \<top> = \<top>" |
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by (simp add: top_pred_def) |
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definition |
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"P \<sqinter> Q = Pred (eval P \<sqinter> eval Q)" |
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lemma eval_inf [simp]: |
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"eval (P \<sqinter> Q) = eval P \<sqinter> eval Q" |
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by (simp add: inf_pred_def) |
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definition |
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"P \<squnion> Q = Pred (eval P \<squnion> eval Q)" |
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lemma eval_sup [simp]: |
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"eval (P \<squnion> Q) = eval P \<squnion> eval Q" |
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by (simp add: sup_pred_def) |
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definition |
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"\<Sqinter>A = Pred (INFI A eval)" |
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lemma eval_Inf [simp]: |
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"eval (\<Sqinter>A) = INFI A eval" |
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by (simp add: Inf_pred_def) |
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definition |
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"\<Squnion>A = Pred (SUPR A eval)" |
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lemma eval_Sup [simp]: |
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"eval (\<Squnion>A) = SUPR A eval" |
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by (simp add: Sup_pred_def) |
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instance proof |
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qed (auto intro!: pred_eqI simp add: less_eq_pred_def less_pred_def le_fun_def less_fun_def) |
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end |
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lemma eval_INFI [simp]: |
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"eval (INFI A f) = INFI A (eval \<circ> f)" |
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by (simp only: INF_def eval_Inf image_compose) |
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lemma eval_SUPR [simp]: |
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"eval (SUPR A f) = SUPR A (eval \<circ> f)" |
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by (simp only: SUP_def eval_Sup image_compose) |
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instantiation pred :: (type) complete_boolean_algebra |
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begin |
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definition |
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"- P = Pred (- eval P)" |
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lemma eval_compl [simp]: |
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"eval (- P) = - eval P" |
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by (simp add: uminus_pred_def) |
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definition |
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"P - Q = Pred (eval P - eval Q)" |
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lemma eval_minus [simp]: |
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"eval (P - Q) = eval P - eval Q" |
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by (simp add: minus_pred_def) |
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instance proof |
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qed (auto intro!: pred_eqI) |
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end |
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definition single :: "'a \<Rightarrow> 'a pred" where |
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"single x = Pred ((op =) x)" |
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lemma eval_single [simp]: |
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"eval (single x) = (op =) x" |
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by (simp add: single_def) |
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definition bind :: "'a pred \<Rightarrow> ('a \<Rightarrow> 'b pred) \<Rightarrow> 'b pred" (infixl "\<guillemotright>=" 70) where |
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"P \<guillemotright>= f = (SUPR {x. eval P x} f)" |
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lemma eval_bind [simp]: |
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"eval (P \<guillemotright>= f) = eval (SUPR {x. eval P x} f)" |
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by (simp add: bind_def) |
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lemma bind_bind: |
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"(P \<guillemotright>= Q) \<guillemotright>= R = P \<guillemotright>= (\<lambda>x. Q x \<guillemotright>= R)" |
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by (rule pred_eqI) auto |
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lemma bind_single: |
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"P \<guillemotright>= single = P" |
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by (rule pred_eqI) auto |
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lemma single_bind: |
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"single x \<guillemotright>= P = P x" |
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by (rule pred_eqI) auto |
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lemma bottom_bind: |
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"\<bottom> \<guillemotright>= P = \<bottom>" |
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by (rule pred_eqI) auto |
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lemma sup_bind: |
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"(P \<squnion> Q) \<guillemotright>= R = P \<guillemotright>= R \<squnion> Q \<guillemotright>= R" |
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by (rule pred_eqI) auto |
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lemma Sup_bind: |
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"(\<Squnion>A \<guillemotright>= f) = \<Squnion>((\<lambda>x. x \<guillemotright>= f) ` A)" |
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by (rule pred_eqI) auto |
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lemma pred_iffI: |
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assumes "\<And>x. eval A x \<Longrightarrow> eval B x" |
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and "\<And>x. eval B x \<Longrightarrow> eval A x" |
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shows "A = B" |
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using assms by (auto intro: pred_eqI) |
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lemma singleI: "eval (single x) x" |
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by simp |
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lemma singleI_unit: "eval (single ()) x" |
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by simp |
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lemma singleE: "eval (single x) y \<Longrightarrow> (y = x \<Longrightarrow> P) \<Longrightarrow> P" |
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by simp |
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lemma singleE': "eval (single x) y \<Longrightarrow> (x = y \<Longrightarrow> P) \<Longrightarrow> P" |
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by simp |
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lemma bindI: "eval P x \<Longrightarrow> eval (Q x) y \<Longrightarrow> eval (P \<guillemotright>= Q) y" |
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by auto |
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lemma bindE: "eval (R \<guillemotright>= Q) y \<Longrightarrow> (\<And>x. eval R x \<Longrightarrow> eval (Q x) y \<Longrightarrow> P) \<Longrightarrow> P" |
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by auto |
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lemma botE: "eval \<bottom> x \<Longrightarrow> P" |
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by auto |
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lemma supI1: "eval A x \<Longrightarrow> eval (A \<squnion> B) x" |
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by auto |
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lemma supI2: "eval B x \<Longrightarrow> eval (A \<squnion> B) x" |
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by auto |
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lemma supE: "eval (A \<squnion> B) x \<Longrightarrow> (eval A x \<Longrightarrow> P) \<Longrightarrow> (eval B x \<Longrightarrow> P) \<Longrightarrow> P" |
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by auto |
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lemma single_not_bot [simp]: |
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"single x \<noteq> \<bottom>" |
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by (auto simp add: single_def bot_pred_def fun_eq_iff) |
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lemma not_bot: |
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assumes "A \<noteq> \<bottom>" |
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obtains x where "eval A x" |
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using assms by (cases A) (auto simp add: bot_pred_def) |
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199 |
|
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200 |
subsection {* Emptiness check and definite choice *} |
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|
201 |
|
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|
202 |
definition is_empty :: "'a pred \<Rightarrow> bool" where |
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|
203 |
"is_empty A \<longleftrightarrow> A = \<bottom>" |
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|
204 |
|
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|
205 |
lemma is_empty_bot: |
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|
206 |
"is_empty \<bottom>" |
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|
207 |
by (simp add: is_empty_def) |
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|
208 |
|
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|
209 |
lemma not_is_empty_single: |
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|
210 |
"\<not> is_empty (single x)" |
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|
211 |
by (auto simp add: is_empty_def single_def bot_pred_def fun_eq_iff) |
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|
212 |
|
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|
213 |
lemma is_empty_sup: |
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|
214 |
"is_empty (A \<squnion> B) \<longleftrightarrow> is_empty A \<and> is_empty B" |
36008 | 215 |
by (auto simp add: is_empty_def) |
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|
216 |
|
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|
217 |
definition singleton :: "(unit \<Rightarrow> 'a) \<Rightarrow> 'a pred \<Rightarrow> 'a" where |
33111 | 218 |
"singleton dfault A = (if \<exists>!x. eval A x then THE x. eval A x else dfault ())" |
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|
219 |
|
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|
220 |
lemma singleton_eqI: |
33110 | 221 |
"\<exists>!x. eval A x \<Longrightarrow> eval A x \<Longrightarrow> singleton dfault A = x" |
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|
222 |
by (auto simp add: singleton_def) |
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|
223 |
|
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|
224 |
lemma eval_singletonI: |
33110 | 225 |
"\<exists>!x. eval A x \<Longrightarrow> eval A (singleton dfault A)" |
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|
226 |
proof - |
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|
227 |
assume assm: "\<exists>!x. eval A x" |
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|
228 |
then obtain x where x: "eval A x" .. |
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|
229 |
with assm have "singleton dfault A = x" by (rule singleton_eqI) |
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|
230 |
with x show ?thesis by simp |
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|
231 |
qed |
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|
232 |
|
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|
233 |
lemma single_singleton: |
33110 | 234 |
"\<exists>!x. eval A x \<Longrightarrow> single (singleton dfault A) = A" |
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|
235 |
proof - |
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|
236 |
assume assm: "\<exists>!x. eval A x" |
33110 | 237 |
then have "eval A (singleton dfault A)" |
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|
238 |
by (rule eval_singletonI) |
33110 | 239 |
moreover from assm have "\<And>x. eval A x \<Longrightarrow> singleton dfault A = x" |
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|
240 |
by (rule singleton_eqI) |
33110 | 241 |
ultimately have "eval (single (singleton dfault A)) = eval A" |
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|
242 |
by (simp (no_asm_use) add: single_def fun_eq_iff) blast |
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|
243 |
then have "\<And>x. eval (single (singleton dfault A)) x = eval A x" |
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|
244 |
by simp |
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|
245 |
then show ?thesis by (rule pred_eqI) |
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|
246 |
qed |
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|
247 |
|
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|
248 |
lemma singleton_undefinedI: |
33111 | 249 |
"\<not> (\<exists>!x. eval A x) \<Longrightarrow> singleton dfault A = dfault ()" |
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|
250 |
by (simp add: singleton_def) |
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|
251 |
|
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|
252 |
lemma singleton_bot: |
33111 | 253 |
"singleton dfault \<bottom> = dfault ()" |
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|
254 |
by (auto simp add: bot_pred_def intro: singleton_undefinedI) |
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|
255 |
|
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|
256 |
lemma singleton_single: |
33110 | 257 |
"singleton dfault (single x) = x" |
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|
258 |
by (auto simp add: intro: singleton_eqI singleI elim: singleE) |
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|
259 |
|
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|
260 |
lemma singleton_sup_single_single: |
33111 | 261 |
"singleton dfault (single x \<squnion> single y) = (if x = y then x else dfault ())" |
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|
262 |
proof (cases "x = y") |
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|
263 |
case True then show ?thesis by (simp add: singleton_single) |
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|
264 |
next |
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|
265 |
case False |
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|
266 |
have "eval (single x \<squnion> single y) x" |
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|
267 |
and "eval (single x \<squnion> single y) y" |
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|
268 |
by (auto intro: supI1 supI2 singleI) |
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|
269 |
with False have "\<not> (\<exists>!z. eval (single x \<squnion> single y) z)" |
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|
270 |
by blast |
33111 | 271 |
then have "singleton dfault (single x \<squnion> single y) = dfault ()" |
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|
272 |
by (rule singleton_undefinedI) |
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|
273 |
with False show ?thesis by simp |
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|
274 |
qed |
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|
275 |
|
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|
276 |
lemma singleton_sup_aux: |
33110 | 277 |
"singleton dfault (A \<squnion> B) = (if A = \<bottom> then singleton dfault B |
278 |
else if B = \<bottom> then singleton dfault A |
|
279 |
else singleton dfault |
|
280 |
(single (singleton dfault A) \<squnion> single (singleton dfault B)))" |
|
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|
281 |
proof (cases "(\<exists>!x. eval A x) \<and> (\<exists>!y. eval B y)") |
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|
282 |
case True then show ?thesis by (simp add: single_singleton) |
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|
283 |
next |
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|
284 |
case False |
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|
285 |
from False have A_or_B: |
33111 | 286 |
"singleton dfault A = dfault () \<or> singleton dfault B = dfault ()" |
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changeset
|
287 |
by (auto intro!: singleton_undefinedI) |
33110 | 288 |
then have rhs: "singleton dfault |
33111 | 289 |
(single (singleton dfault A) \<squnion> single (singleton dfault B)) = dfault ()" |
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changeset
|
290 |
by (auto simp add: singleton_sup_single_single singleton_single) |
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|
291 |
from False have not_unique: |
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changeset
|
292 |
"\<not> (\<exists>!x. eval A x) \<or> \<not> (\<exists>!y. eval B y)" by simp |
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changeset
|
293 |
show ?thesis proof (cases "A \<noteq> \<bottom> \<and> B \<noteq> \<bottom>") |
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changeset
|
294 |
case True |
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|
295 |
then obtain a b where a: "eval A a" and b: "eval B b" |
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changeset
|
296 |
by (blast elim: not_bot) |
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changeset
|
297 |
with True not_unique have "\<not> (\<exists>!x. eval (A \<squnion> B) x)" |
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changeset
|
298 |
by (auto simp add: sup_pred_def bot_pred_def) |
33111 | 299 |
then have "singleton dfault (A \<squnion> B) = dfault ()" by (rule singleton_undefinedI) |
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|
300 |
with True rhs show ?thesis by simp |
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|
301 |
next |
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changeset
|
302 |
case False then show ?thesis by auto |
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|
303 |
qed |
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|
304 |
qed |
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changeset
|
305 |
|
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changeset
|
306 |
lemma singleton_sup: |
33110 | 307 |
"singleton dfault (A \<squnion> B) = (if A = \<bottom> then singleton dfault B |
308 |
else if B = \<bottom> then singleton dfault A |
|
33111 | 309 |
else if singleton dfault A = singleton dfault B then singleton dfault A else dfault ())" |
33110 | 310 |
using singleton_sup_aux [of dfault A B] by (simp only: singleton_sup_single_single) |
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|
311 |
|
30328 | 312 |
|
46664
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moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
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parents:
46638
diff
changeset
|
313 |
subsection {* Derived operations *} |
30328 | 314 |
|
315 |
definition if_pred :: "bool \<Rightarrow> unit pred" where |
|
316 |
if_pred_eq: "if_pred b = (if b then single () else \<bottom>)" |
|
317 |
||
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|
318 |
definition holds :: "unit pred \<Rightarrow> bool" where |
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changeset
|
319 |
holds_eq: "holds P = eval P ()" |
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changeset
|
320 |
|
30328 | 321 |
definition not_pred :: "unit pred \<Rightarrow> unit pred" where |
322 |
not_pred_eq: "not_pred P = (if eval P () then \<bottom> else single ())" |
|
323 |
||
324 |
lemma if_predI: "P \<Longrightarrow> eval (if_pred P) ()" |
|
325 |
unfolding if_pred_eq by (auto intro: singleI) |
|
326 |
||
327 |
lemma if_predE: "eval (if_pred b) x \<Longrightarrow> (b \<Longrightarrow> x = () \<Longrightarrow> P) \<Longrightarrow> P" |
|
328 |
unfolding if_pred_eq by (cases b) (auto elim: botE) |
|
329 |
||
330 |
lemma not_predI: "\<not> P \<Longrightarrow> eval (not_pred (Pred (\<lambda>u. P))) ()" |
|
331 |
unfolding not_pred_eq eval_pred by (auto intro: singleI) |
|
332 |
||
333 |
lemma not_predI': "\<not> eval P () \<Longrightarrow> eval (not_pred P) ()" |
|
334 |
unfolding not_pred_eq by (auto intro: singleI) |
|
335 |
||
336 |
lemma not_predE: "eval (not_pred (Pred (\<lambda>u. P))) x \<Longrightarrow> (\<not> P \<Longrightarrow> thesis) \<Longrightarrow> thesis" |
|
337 |
unfolding not_pred_eq |
|
338 |
by (auto split: split_if_asm elim: botE) |
|
339 |
||
340 |
lemma not_predE': "eval (not_pred P) x \<Longrightarrow> (\<not> eval P x \<Longrightarrow> thesis) \<Longrightarrow> thesis" |
|
341 |
unfolding not_pred_eq |
|
342 |
by (auto split: split_if_asm elim: botE) |
|
33754
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diff
changeset
|
343 |
lemma "f () = False \<or> f () = True" |
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changeset
|
344 |
by simp |
30328 | 345 |
|
37549 | 346 |
lemma closure_of_bool_cases [no_atp]: |
44007 | 347 |
fixes f :: "unit \<Rightarrow> bool" |
348 |
assumes "f = (\<lambda>u. False) \<Longrightarrow> P f" |
|
349 |
assumes "f = (\<lambda>u. True) \<Longrightarrow> P f" |
|
350 |
shows "P f" |
|
33754
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changeset
|
351 |
proof - |
44007 | 352 |
have "f = (\<lambda>u. False) \<or> f = (\<lambda>u. True)" |
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parents:
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diff
changeset
|
353 |
apply (cases "f ()") |
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changeset
|
354 |
apply (rule disjI2) |
f2957bd46faf
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diff
changeset
|
355 |
apply (rule ext) |
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changeset
|
356 |
apply (simp add: unit_eq) |
f2957bd46faf
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diff
changeset
|
357 |
apply (rule disjI1) |
f2957bd46faf
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parents:
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diff
changeset
|
358 |
apply (rule ext) |
f2957bd46faf
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diff
changeset
|
359 |
apply (simp add: unit_eq) |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
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parents:
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diff
changeset
|
360 |
done |
41550 | 361 |
from this assms show ?thesis by blast |
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f2957bd46faf
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bulwahn
parents:
33622
diff
changeset
|
362 |
qed |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
363 |
|
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
364 |
lemma unit_pred_cases: |
44007 | 365 |
assumes "P \<bottom>" |
366 |
assumes "P (single ())" |
|
367 |
shows "P Q" |
|
44415 | 368 |
using assms unfolding bot_pred_def bot_fun_def bot_bool_def empty_def single_def proof (cases Q) |
44007 | 369 |
fix f |
370 |
assume "P (Pred (\<lambda>u. False))" "P (Pred (\<lambda>u. () = u))" |
|
371 |
then have "P (Pred f)" |
|
372 |
by (cases _ f rule: closure_of_bool_cases) simp_all |
|
373 |
moreover assume "Q = Pred f" |
|
374 |
ultimately show "P Q" by simp |
|
375 |
qed |
|
376 |
||
33754
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
377 |
lemma holds_if_pred: |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
378 |
"holds (if_pred b) = b" |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
379 |
unfolding if_pred_eq holds_eq |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
380 |
by (cases b) (auto intro: singleI elim: botE) |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
381 |
|
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
382 |
lemma if_pred_holds: |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
383 |
"if_pred (holds P) = P" |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
384 |
unfolding if_pred_eq holds_eq |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
385 |
by (rule unit_pred_cases) (auto intro: singleI elim: botE) |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
386 |
|
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
387 |
lemma is_empty_holds: |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
388 |
"is_empty P \<longleftrightarrow> \<not> holds P" |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
389 |
unfolding is_empty_def holds_eq |
f2957bd46faf
adding derived constant Predicate.holds to Predicate theory; adopting the predicate compiler
bulwahn
parents:
33622
diff
changeset
|
390 |
by (rule unit_pred_cases) (auto elim: botE intro: singleI) |
30328 | 391 |
|
41311 | 392 |
definition map :: "('a \<Rightarrow> 'b) \<Rightarrow> 'a pred \<Rightarrow> 'b pred" where |
393 |
"map f P = P \<guillemotright>= (single o f)" |
|
394 |
||
395 |
lemma eval_map [simp]: |
|
44363 | 396 |
"eval (map f P) = (\<Squnion>x\<in>{x. eval P x}. (\<lambda>y. f x = y))" |
44415 | 397 |
by (auto simp add: map_def comp_def) |
41311 | 398 |
|
55467
a5c9002bc54d
renamed 'enriched_type' to more informative 'functor' (following the renaming of enriched type constructors to bounded natural functors)
blanchet
parents:
55416
diff
changeset
|
399 |
functor map: map |
44363 | 400 |
by (rule ext, rule pred_eqI, auto)+ |
41311 | 401 |
|
402 |
||
46664
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
403 |
subsection {* Implementation *} |
30328 | 404 |
|
405 |
datatype 'a seq = Empty | Insert "'a" "'a pred" | Join "'a pred" "'a seq" |
|
406 |
||
407 |
primrec pred_of_seq :: "'a seq \<Rightarrow> 'a pred" where |
|
44414 | 408 |
"pred_of_seq Empty = \<bottom>" |
409 |
| "pred_of_seq (Insert x P) = single x \<squnion> P" |
|
410 |
| "pred_of_seq (Join P xq) = P \<squnion> pred_of_seq xq" |
|
30328 | 411 |
|
412 |
definition Seq :: "(unit \<Rightarrow> 'a seq) \<Rightarrow> 'a pred" where |
|
413 |
"Seq f = pred_of_seq (f ())" |
|
414 |
||
415 |
code_datatype Seq |
|
416 |
||
417 |
primrec member :: "'a seq \<Rightarrow> 'a \<Rightarrow> bool" where |
|
418 |
"member Empty x \<longleftrightarrow> False" |
|
44414 | 419 |
| "member (Insert y P) x \<longleftrightarrow> x = y \<or> eval P x" |
420 |
| "member (Join P xq) x \<longleftrightarrow> eval P x \<or> member xq x" |
|
30328 | 421 |
|
422 |
lemma eval_member: |
|
423 |
"member xq = eval (pred_of_seq xq)" |
|
424 |
proof (induct xq) |
|
425 |
case Empty show ?case |
|
39302
d7728f65b353
renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents:
39198
diff
changeset
|
426 |
by (auto simp add: fun_eq_iff elim: botE) |
30328 | 427 |
next |
428 |
case Insert show ?case |
|
39302
d7728f65b353
renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents:
39198
diff
changeset
|
429 |
by (auto simp add: fun_eq_iff elim: supE singleE intro: supI1 supI2 singleI) |
30328 | 430 |
next |
431 |
case Join then show ?case |
|
39302
d7728f65b353
renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
nipkow
parents:
39198
diff
changeset
|
432 |
by (auto simp add: fun_eq_iff elim: supE intro: supI1 supI2) |
30328 | 433 |
qed |
434 |
||
46038
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
435 |
lemma eval_code [(* FIXME declare simp *)code]: "eval (Seq f) = member (f ())" |
30328 | 436 |
unfolding Seq_def by (rule sym, rule eval_member) |
437 |
||
438 |
lemma single_code [code]: |
|
439 |
"single x = Seq (\<lambda>u. Insert x \<bottom>)" |
|
440 |
unfolding Seq_def by simp |
|
441 |
||
41080 | 442 |
primrec "apply" :: "('a \<Rightarrow> 'b pred) \<Rightarrow> 'a seq \<Rightarrow> 'b seq" where |
44415 | 443 |
"apply f Empty = Empty" |
444 |
| "apply f (Insert x P) = Join (f x) (Join (P \<guillemotright>= f) Empty)" |
|
445 |
| "apply f (Join P xq) = Join (P \<guillemotright>= f) (apply f xq)" |
|
30328 | 446 |
|
447 |
lemma apply_bind: |
|
448 |
"pred_of_seq (apply f xq) = pred_of_seq xq \<guillemotright>= f" |
|
449 |
proof (induct xq) |
|
450 |
case Empty show ?case |
|
451 |
by (simp add: bottom_bind) |
|
452 |
next |
|
453 |
case Insert show ?case |
|
454 |
by (simp add: single_bind sup_bind) |
|
455 |
next |
|
456 |
case Join then show ?case |
|
457 |
by (simp add: sup_bind) |
|
458 |
qed |
|
459 |
||
460 |
lemma bind_code [code]: |
|
461 |
"Seq g \<guillemotright>= f = Seq (\<lambda>u. apply f (g ()))" |
|
462 |
unfolding Seq_def by (rule sym, rule apply_bind) |
|
463 |
||
464 |
lemma bot_set_code [code]: |
|
465 |
"\<bottom> = Seq (\<lambda>u. Empty)" |
|
466 |
unfolding Seq_def by simp |
|
467 |
||
30376 | 468 |
primrec adjunct :: "'a pred \<Rightarrow> 'a seq \<Rightarrow> 'a seq" where |
44415 | 469 |
"adjunct P Empty = Join P Empty" |
470 |
| "adjunct P (Insert x Q) = Insert x (Q \<squnion> P)" |
|
471 |
| "adjunct P (Join Q xq) = Join Q (adjunct P xq)" |
|
30376 | 472 |
|
473 |
lemma adjunct_sup: |
|
474 |
"pred_of_seq (adjunct P xq) = P \<squnion> pred_of_seq xq" |
|
475 |
by (induct xq) (simp_all add: sup_assoc sup_commute sup_left_commute) |
|
476 |
||
30328 | 477 |
lemma sup_code [code]: |
478 |
"Seq f \<squnion> Seq g = Seq (\<lambda>u. case f () |
|
479 |
of Empty \<Rightarrow> g () |
|
480 |
| Insert x P \<Rightarrow> Insert x (P \<squnion> Seq g) |
|
30376 | 481 |
| Join P xq \<Rightarrow> adjunct (Seq g) (Join P xq))" |
30328 | 482 |
proof (cases "f ()") |
483 |
case Empty |
|
484 |
thus ?thesis |
|
34007
aea892559fc5
tuned lattices theory fragements; generlized some lemmas from sets to lattices
haftmann
parents:
33988
diff
changeset
|
485 |
unfolding Seq_def by (simp add: sup_commute [of "\<bottom>"]) |
30328 | 486 |
next |
487 |
case Insert |
|
488 |
thus ?thesis |
|
489 |
unfolding Seq_def by (simp add: sup_assoc) |
|
490 |
next |
|
491 |
case Join |
|
492 |
thus ?thesis |
|
30376 | 493 |
unfolding Seq_def |
494 |
by (simp add: adjunct_sup sup_assoc sup_commute sup_left_commute) |
|
30328 | 495 |
qed |
496 |
||
46664
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
497 |
lemma [code]: |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
498 |
"size (P :: 'a Predicate.pred) = 0" by (cases P) simp |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
499 |
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
500 |
lemma [code]: |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
501 |
"pred_size f P = 0" by (cases P) simp |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
502 |
|
30430
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
503 |
primrec contained :: "'a seq \<Rightarrow> 'a pred \<Rightarrow> bool" where |
44415 | 504 |
"contained Empty Q \<longleftrightarrow> True" |
505 |
| "contained (Insert x P) Q \<longleftrightarrow> eval Q x \<and> P \<le> Q" |
|
506 |
| "contained (Join P xq) Q \<longleftrightarrow> P \<le> Q \<and> contained xq Q" |
|
30430
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
507 |
|
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
508 |
lemma single_less_eq_eval: |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
509 |
"single x \<le> P \<longleftrightarrow> eval P x" |
44415 | 510 |
by (auto simp add: less_eq_pred_def le_fun_def) |
30430
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
511 |
|
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
512 |
lemma contained_less_eq: |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
513 |
"contained xq Q \<longleftrightarrow> pred_of_seq xq \<le> Q" |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
514 |
by (induct xq) (simp_all add: single_less_eq_eval) |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
515 |
|
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
516 |
lemma less_eq_pred_code [code]: |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
517 |
"Seq f \<le> Q = (case f () |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
518 |
of Empty \<Rightarrow> True |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
519 |
| Insert x P \<Rightarrow> eval Q x \<and> P \<le> Q |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
520 |
| Join P xq \<Rightarrow> P \<le> Q \<and> contained xq Q)" |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
521 |
by (cases "f ()") |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
522 |
(simp_all add: Seq_def single_less_eq_eval contained_less_eq) |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
523 |
|
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
524 |
lemma eq_pred_code [code]: |
31133 | 525 |
fixes P Q :: "'a pred" |
38857
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38651
diff
changeset
|
526 |
shows "HOL.equal P Q \<longleftrightarrow> P \<le> Q \<and> Q \<le> P" |
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38651
diff
changeset
|
527 |
by (auto simp add: equal) |
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38651
diff
changeset
|
528 |
|
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38651
diff
changeset
|
529 |
lemma [code nbe]: |
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38651
diff
changeset
|
530 |
"HOL.equal (x :: 'a pred) x \<longleftrightarrow> True" |
97775f3e8722
renamed class/constant eq to equal; tuned some instantiations
haftmann
parents:
38651
diff
changeset
|
531 |
by (fact equal_refl) |
30430
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
532 |
|
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
533 |
lemma [code]: |
55416 | 534 |
"case_pred f P = f (eval P)" |
30430
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
535 |
by (cases P) simp |
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
536 |
|
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
537 |
lemma [code]: |
55416 | 538 |
"rec_pred f P = f (eval P)" |
30430
42ea5d85edcc
explicit code equations for some rarely used pred operations
haftmann
parents:
30378
diff
changeset
|
539 |
by (cases P) simp |
30328 | 540 |
|
31105
95f66b234086
added general preprocessing of equality in predicates for code generation
bulwahn
parents:
30430
diff
changeset
|
541 |
inductive eq :: "'a \<Rightarrow> 'a \<Rightarrow> bool" where "eq x x" |
95f66b234086
added general preprocessing of equality in predicates for code generation
bulwahn
parents:
30430
diff
changeset
|
542 |
|
95f66b234086
added general preprocessing of equality in predicates for code generation
bulwahn
parents:
30430
diff
changeset
|
543 |
lemma eq_is_eq: "eq x y \<equiv> (x = y)" |
31108 | 544 |
by (rule eq_reflection) (auto intro: eq.intros elim: eq.cases) |
30948 | 545 |
|
32578
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
546 |
primrec null :: "'a seq \<Rightarrow> bool" where |
44415 | 547 |
"null Empty \<longleftrightarrow> True" |
548 |
| "null (Insert x P) \<longleftrightarrow> False" |
|
549 |
| "null (Join P xq) \<longleftrightarrow> is_empty P \<and> null xq" |
|
32578
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
550 |
|
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
551 |
lemma null_is_empty: |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
552 |
"null xq \<longleftrightarrow> is_empty (pred_of_seq xq)" |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
553 |
by (induct xq) (simp_all add: is_empty_bot not_is_empty_single is_empty_sup) |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
554 |
|
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
555 |
lemma is_empty_code [code]: |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
556 |
"is_empty (Seq f) \<longleftrightarrow> null (f ())" |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
557 |
by (simp add: null_is_empty Seq_def) |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
558 |
|
33111 | 559 |
primrec the_only :: "(unit \<Rightarrow> 'a) \<Rightarrow> 'a seq \<Rightarrow> 'a" where |
560 |
[code del]: "the_only dfault Empty = dfault ()" |
|
44415 | 561 |
| "the_only dfault (Insert x P) = (if is_empty P then x else let y = singleton dfault P in if x = y then x else dfault ())" |
562 |
| "the_only dfault (Join P xq) = (if is_empty P then the_only dfault xq else if null xq then singleton dfault P |
|
33110 | 563 |
else let x = singleton dfault P; y = the_only dfault xq in |
33111 | 564 |
if x = y then x else dfault ())" |
32578
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
565 |
|
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
566 |
lemma the_only_singleton: |
33110 | 567 |
"the_only dfault xq = singleton dfault (pred_of_seq xq)" |
32578
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
568 |
by (induct xq) |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
569 |
(auto simp add: singleton_bot singleton_single is_empty_def |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
570 |
null_is_empty Let_def singleton_sup) |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
571 |
|
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
572 |
lemma singleton_code [code]: |
33110 | 573 |
"singleton dfault (Seq f) = (case f () |
33111 | 574 |
of Empty \<Rightarrow> dfault () |
32578
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
575 |
| Insert x P \<Rightarrow> if is_empty P then x |
33110 | 576 |
else let y = singleton dfault P in |
33111 | 577 |
if x = y then x else dfault () |
33110 | 578 |
| Join P xq \<Rightarrow> if is_empty P then the_only dfault xq |
579 |
else if null xq then singleton dfault P |
|
580 |
else let x = singleton dfault P; y = the_only dfault xq in |
|
33111 | 581 |
if x = y then x else dfault ())" |
32578
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
582 |
by (cases "f ()") |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
583 |
(auto simp add: Seq_def the_only_singleton is_empty_def |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
584 |
null_is_empty singleton_bot singleton_single singleton_sup Let_def) |
22117a76f943
added emptiness check predicate and singleton projection
haftmann
parents:
32372
diff
changeset
|
585 |
|
44414 | 586 |
definition the :: "'a pred \<Rightarrow> 'a" where |
37767 | 587 |
"the A = (THE x. eval A x)" |
33111 | 588 |
|
40674
54dbe6a1c349
adhere established Collect/mem convention more closely
haftmann
parents:
40616
diff
changeset
|
589 |
lemma the_eqI: |
41080 | 590 |
"(THE x. eval P x) = x \<Longrightarrow> the P = x" |
40674
54dbe6a1c349
adhere established Collect/mem convention more closely
haftmann
parents:
40616
diff
changeset
|
591 |
by (simp add: the_def) |
54dbe6a1c349
adhere established Collect/mem convention more closely
haftmann
parents:
40616
diff
changeset
|
592 |
|
53943 | 593 |
lemma the_eq [code]: "the A = singleton (\<lambda>x. Code.abort (STR ''not_unique'') (\<lambda>_. the A)) A" |
594 |
by (rule the_eqI) (simp add: singleton_def the_def) |
|
33110 | 595 |
|
36531
19f6e3b0d9b6
code_reflect: specify module name directly after keyword
haftmann
parents:
36513
diff
changeset
|
596 |
code_reflect Predicate |
36513 | 597 |
datatypes pred = Seq and seq = Empty | Insert | Join |
598 |
||
30948 | 599 |
ML {* |
600 |
signature PREDICATE = |
|
601 |
sig |
|
51126
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
602 |
val anamorph: ('a -> ('b * 'a) option) -> int -> 'a -> 'b list * 'a |
30948 | 603 |
datatype 'a pred = Seq of (unit -> 'a seq) |
604 |
and 'a seq = Empty | Insert of 'a * 'a pred | Join of 'a pred * 'a seq |
|
51126
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
605 |
val map: ('a -> 'b) -> 'a pred -> 'b pred |
30959
458e55fd0a33
fixed compilation of predicate types in ML environment
haftmann
parents:
30948
diff
changeset
|
606 |
val yield: 'a pred -> ('a * 'a pred) option |
458e55fd0a33
fixed compilation of predicate types in ML environment
haftmann
parents:
30948
diff
changeset
|
607 |
val yieldn: int -> 'a pred -> 'a list * 'a pred |
30948 | 608 |
end; |
609 |
||
610 |
structure Predicate : PREDICATE = |
|
611 |
struct |
|
612 |
||
51126
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
613 |
fun anamorph f k x = |
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
614 |
(if k = 0 then ([], x) |
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
615 |
else case f x |
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
616 |
of NONE => ([], x) |
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
617 |
| SOME (v, y) => let |
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
618 |
val k' = k - 1; |
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
619 |
val (vs, z) = anamorph f k' y |
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
620 |
in (v :: vs, z) end); |
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
621 |
|
36513 | 622 |
datatype pred = datatype Predicate.pred |
623 |
datatype seq = datatype Predicate.seq |
|
624 |
||
51126
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
625 |
fun map f = @{code Predicate.map} f; |
30959
458e55fd0a33
fixed compilation of predicate types in ML environment
haftmann
parents:
30948
diff
changeset
|
626 |
|
36513 | 627 |
fun yield (Seq f) = next (f ()) |
628 |
and next Empty = NONE |
|
629 |
| next (Insert (x, P)) = SOME (x, P) |
|
630 |
| next (Join (P, xq)) = (case yield P |
|
30959
458e55fd0a33
fixed compilation of predicate types in ML environment
haftmann
parents:
30948
diff
changeset
|
631 |
of NONE => next xq |
36513 | 632 |
| SOME (x, Q) => SOME (x, Seq (fn _ => Join (Q, xq)))); |
30959
458e55fd0a33
fixed compilation of predicate types in ML environment
haftmann
parents:
30948
diff
changeset
|
633 |
|
51126
df86080de4cb
reform of predicate compiler / quickcheck theories:
haftmann
parents:
51112
diff
changeset
|
634 |
fun yieldn k = anamorph yield k; |
30948 | 635 |
|
636 |
end; |
|
637 |
*} |
|
638 |
||
46038
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
639 |
text {* Conversion from and to sets *} |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
640 |
|
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
641 |
definition pred_of_set :: "'a set \<Rightarrow> 'a pred" where |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
642 |
"pred_of_set = Pred \<circ> (\<lambda>A x. x \<in> A)" |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
643 |
|
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
644 |
lemma eval_pred_of_set [simp]: |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
645 |
"eval (pred_of_set A) x \<longleftrightarrow> x \<in>A" |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
646 |
by (simp add: pred_of_set_def) |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
647 |
|
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
648 |
definition set_of_pred :: "'a pred \<Rightarrow> 'a set" where |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
649 |
"set_of_pred = Collect \<circ> eval" |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
650 |
|
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
651 |
lemma member_set_of_pred [simp]: |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
652 |
"x \<in> set_of_pred P \<longleftrightarrow> Predicate.eval P x" |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
653 |
by (simp add: set_of_pred_def) |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
654 |
|
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
655 |
definition set_of_seq :: "'a seq \<Rightarrow> 'a set" where |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
656 |
"set_of_seq = set_of_pred \<circ> pred_of_seq" |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
657 |
|
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
658 |
lemma member_set_of_seq [simp]: |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
659 |
"x \<in> set_of_seq xq = Predicate.member xq x" |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
660 |
by (simp add: set_of_seq_def eval_member) |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
661 |
|
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
662 |
lemma of_pred_code [code]: |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
663 |
"set_of_pred (Predicate.Seq f) = (case f () of |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
664 |
Predicate.Empty \<Rightarrow> {} |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
665 |
| Predicate.Insert x P \<Rightarrow> insert x (set_of_pred P) |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
666 |
| Predicate.Join P xq \<Rightarrow> set_of_pred P \<union> set_of_seq xq)" |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
667 |
by (auto split: seq.split simp add: eval_code) |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
668 |
|
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
669 |
lemma of_seq_code [code]: |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
670 |
"set_of_seq Predicate.Empty = {}" |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
671 |
"set_of_seq (Predicate.Insert x P) = insert x (set_of_pred P)" |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
672 |
"set_of_seq (Predicate.Join P xq) = set_of_pred P \<union> set_of_seq xq" |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
673 |
by auto |
bb2f7488a0f1
conversions from sets to predicates and vice versa; extensionality on predicates
haftmann
parents:
45970
diff
changeset
|
674 |
|
46664
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
675 |
text {* Lazy Evaluation of an indexed function *} |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
676 |
|
51143
0a2371e7ced3
two target language numeral types: integer and natural, as replacement for code_numeral;
haftmann
parents:
51126
diff
changeset
|
677 |
function iterate_upto :: "(natural \<Rightarrow> 'a) \<Rightarrow> natural \<Rightarrow> natural \<Rightarrow> 'a Predicate.pred" |
46664
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
678 |
where |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
679 |
"iterate_upto f n m = |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
680 |
Predicate.Seq (%u. if n > m then Predicate.Empty |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
681 |
else Predicate.Insert (f n) (iterate_upto f (n + 1) m))" |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
682 |
by pat_completeness auto |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
683 |
|
51143
0a2371e7ced3
two target language numeral types: integer and natural, as replacement for code_numeral;
haftmann
parents:
51126
diff
changeset
|
684 |
termination by (relation "measure (%(f, n, m). nat_of_natural (m + 1 - n))") |
0a2371e7ced3
two target language numeral types: integer and natural, as replacement for code_numeral;
haftmann
parents:
51126
diff
changeset
|
685 |
(auto simp add: less_natural_def) |
46664
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
686 |
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
687 |
text {* Misc *} |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
688 |
|
47399 | 689 |
declare Inf_set_fold [where 'a = "'a Predicate.pred", code] |
690 |
declare Sup_set_fold [where 'a = "'a Predicate.pred", code] |
|
46664
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
691 |
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
692 |
(* FIXME: better implement conversion by bisection *) |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
693 |
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
694 |
lemma pred_of_set_fold_sup: |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
695 |
assumes "finite A" |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
696 |
shows "pred_of_set A = Finite_Set.fold sup bot (Predicate.single ` A)" (is "?lhs = ?rhs") |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
697 |
proof (rule sym) |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
698 |
interpret comp_fun_idem "sup :: 'a Predicate.pred \<Rightarrow> 'a Predicate.pred \<Rightarrow> 'a Predicate.pred" |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
699 |
by (fact comp_fun_idem_sup) |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
700 |
from `finite A` show "?rhs = ?lhs" by (induct A) (auto intro!: pred_eqI) |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
701 |
qed |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
702 |
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
703 |
lemma pred_of_set_set_fold_sup: |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
704 |
"pred_of_set (set xs) = fold sup (List.map Predicate.single xs) bot" |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
705 |
proof - |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
706 |
interpret comp_fun_idem "sup :: 'a Predicate.pred \<Rightarrow> 'a Predicate.pred \<Rightarrow> 'a Predicate.pred" |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
707 |
by (fact comp_fun_idem_sup) |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
708 |
show ?thesis by (simp add: pred_of_set_fold_sup fold_set_fold [symmetric]) |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
709 |
qed |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
710 |
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
711 |
lemma pred_of_set_set_foldr_sup [code]: |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
712 |
"pred_of_set (set xs) = foldr sup (List.map Predicate.single xs) bot" |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
713 |
by (simp add: pred_of_set_set_fold_sup ac_simps foldr_fold fun_eq_iff) |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
714 |
|
30328 | 715 |
no_notation |
716 |
bind (infixl "\<guillemotright>=" 70) |
|
717 |
||
36176
3fe7e97ccca8
replaced generic 'hide' command by more conventional 'hide_class', 'hide_type', 'hide_const', 'hide_fact' -- frees some popular keywords;
wenzelm
parents:
36008
diff
changeset
|
718 |
hide_type (open) pred seq |
3fe7e97ccca8
replaced generic 'hide' command by more conventional 'hide_class', 'hide_type', 'hide_const', 'hide_fact' -- frees some popular keywords;
wenzelm
parents:
36008
diff
changeset
|
719 |
hide_const (open) Pred eval single bind is_empty singleton if_pred not_pred holds |
53943 | 720 |
Empty Insert Join Seq member pred_of_seq "apply" adjunct null the_only eq map the |
46664
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
721 |
iterate_upto |
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
722 |
hide_fact (open) null_def member_def |
30328 | 723 |
|
724 |
end |