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src/HOL/HOLCF/IMP/Denotational.thy
author blanchet
Mon, 06 Jun 2011 20:36:35 +0200
changeset 43171 37e1431cc213
parent 43143 1aeafba76f21
child 44890 22f665a2e91c
permissions -rw-r--r--
gracefully handle the case where a constant is partially or not instantiated at all, as may happen when reconstructing Metis proofs for polymorphic type encodings

(*  Title:      HOL/HOLCF/IMP/Denotational.thy
    Author:     Tobias Nipkow and Robert Sandner, TUM
    Copyright   1996 TUM
*)

header "Denotational Semantics of Commands in HOLCF"

theory Denotational imports HOLCF "~~/src/HOL/IMP/Big_Step" begin

subsection "Definition"

definition
  dlift :: "(('a::type) discr -> 'b::pcpo) => ('a lift -> 'b)" where
  "dlift f = (LAM x. case x of UU => UU | Def y => f\<cdot>(Discr y))"

primrec D :: "com => state discr -> state lift"
where
  "D(SKIP) = (LAM s. Def(undiscr s))"
| "D(X ::= a) = (LAM s. Def((undiscr s)(X := aval a (undiscr s))))"
| "D(c0 ; c1) = (dlift(D c1) oo (D c0))"
| "D(IF b THEN c1 ELSE c2) =
        (LAM s. if bval b (undiscr s) then (D c1)\<cdot>s else (D c2)\<cdot>s)"
| "D(WHILE b DO c) =
        fix\<cdot>(LAM w s. if bval b (undiscr s) then (dlift w)\<cdot>((D c)\<cdot>s)
                      else Def(undiscr s))"

subsection
  "Equivalence of Denotational Semantics in HOLCF and Evaluation Semantics in HOL"

lemma dlift_Def [simp]: "dlift f\<cdot>(Def x) = f\<cdot>(Discr x)"
  by (simp add: dlift_def)

lemma cont_dlift [iff]: "cont (%f. dlift f)"
  by (simp add: dlift_def)

lemma dlift_is_Def [simp]:
    "(dlift f\<cdot>l = Def y) = (\<exists>x. l = Def x \<and> f\<cdot>(Discr x) = Def y)"
  by (simp add: dlift_def split: lift.split)

lemma eval_implies_D: "(c,s) \<Rightarrow> t ==> D c\<cdot>(Discr s) = (Def t)"
apply (induct rule: big_step_induct)
      apply (auto)
 apply (subst fix_eq)
 apply simp
apply (subst fix_eq)
apply simp
done

lemma D_implies_eval: "!s t. D c\<cdot>(Discr s) = (Def t) --> (c,s) \<Rightarrow> t"
apply (induct c)
    apply fastsimp
   apply fastsimp
  apply force
 apply (simp (no_asm))
 apply force
apply (simp (no_asm))
apply (rule fix_ind)
  apply (fast intro!: adm_lemmas adm_chfindom ax_flat)
 apply (simp (no_asm))
apply (simp (no_asm))
apply force
done

theorem D_is_eval: "(D c\<cdot>(Discr s) = (Def t)) = ((c,s) \<Rightarrow> t)"
by (fast elim!: D_implies_eval [rule_format] eval_implies_D)

end
isabelle