Theory Powerdomains

(*  Title:      HOL/HOLCF/Powerdomains.thy
    Author:     Brian Huffman
*)

section ‹Powerdomains›

theory Powerdomains
imports ConvexPD Domain
begin

subsection ‹Universal domain embeddings›

definition "upper_emb = udom_emb (λi. upper_map(udom_approx i))"
definition "upper_prj = udom_prj (λi. upper_map(udom_approx i))"

definition "lower_emb = udom_emb (λi. lower_map(udom_approx i))"
definition "lower_prj = udom_prj (λi. lower_map(udom_approx i))"

definition "convex_emb = udom_emb (λi. convex_map(udom_approx i))"
definition "convex_prj = udom_prj (λi. convex_map(udom_approx i))"

lemma ep_pair_upper: "ep_pair upper_emb upper_prj"
  unfolding upper_emb_def upper_prj_def
  by (simp add: ep_pair_udom approx_chain_upper_map)

lemma ep_pair_lower: "ep_pair lower_emb lower_prj"
  unfolding lower_emb_def lower_prj_def
  by (simp add: ep_pair_udom approx_chain_lower_map)

lemma ep_pair_convex: "ep_pair convex_emb convex_prj"
  unfolding convex_emb_def convex_prj_def
  by (simp add: ep_pair_udom approx_chain_convex_map)


subsection ‹Deflation combinators›

definition upper_defl :: "udom defl  udom defl"
  where "upper_defl = defl_fun1 upper_emb upper_prj upper_map"

definition lower_defl :: "udom defl  udom defl"
  where "lower_defl = defl_fun1 lower_emb lower_prj lower_map"

definition convex_defl :: "udom defl  udom defl"
  where "convex_defl = defl_fun1 convex_emb convex_prj convex_map"

lemma cast_upper_defl:
  "cast(upper_deflA) = upper_emb oo upper_map(castA) oo upper_prj"
using ep_pair_upper finite_deflation_upper_map
unfolding upper_defl_def by (rule cast_defl_fun1)

lemma cast_lower_defl:
  "cast(lower_deflA) = lower_emb oo lower_map(castA) oo lower_prj"
using ep_pair_lower finite_deflation_lower_map
unfolding lower_defl_def by (rule cast_defl_fun1)

lemma cast_convex_defl:
  "cast(convex_deflA) = convex_emb oo convex_map(castA) oo convex_prj"
using ep_pair_convex finite_deflation_convex_map
unfolding convex_defl_def by (rule cast_defl_fun1)


subsection ‹Domain class instances›

instantiation upper_pd :: ("domain") "domain"
begin

definition
  "emb = upper_emb oo upper_mapemb"

definition
  "prj = upper_mapprj oo upper_prj"

definition
  "defl (t::'a upper_pd itself) = upper_deflDEFL('a)"

definition
  "(liftemb :: 'a upper_pd u  udom u) = u_mapemb"

definition
  "(liftprj :: udom u  'a upper_pd u) = u_mapprj"

definition
  "liftdefl (t::'a upper_pd itself) = liftdefl_ofDEFL('a upper_pd)"

instance proof
  show "ep_pair emb (prj :: udom  'a upper_pd)"
    unfolding emb_upper_pd_def prj_upper_pd_def
    by (intro ep_pair_comp ep_pair_upper ep_pair_upper_map ep_pair_emb_prj)
next
  show "castDEFL('a upper_pd) = emb oo (prj :: udom  'a upper_pd)"
    unfolding emb_upper_pd_def prj_upper_pd_def defl_upper_pd_def cast_upper_defl
    by (simp add: cast_DEFL oo_def cfun_eq_iff upper_map_map)
qed (fact liftemb_upper_pd_def liftprj_upper_pd_def liftdefl_upper_pd_def)+

end

instantiation lower_pd :: ("domain") "domain"
begin

definition
  "emb = lower_emb oo lower_mapemb"

definition
  "prj = lower_mapprj oo lower_prj"

definition
  "defl (t::'a lower_pd itself) = lower_deflDEFL('a)"

definition
  "(liftemb :: 'a lower_pd u  udom u) = u_mapemb"

definition
  "(liftprj :: udom u  'a lower_pd u) = u_mapprj"

definition
  "liftdefl (t::'a lower_pd itself) = liftdefl_ofDEFL('a lower_pd)"

instance proof
  show "ep_pair emb (prj :: udom  'a lower_pd)"
    unfolding emb_lower_pd_def prj_lower_pd_def
    by (intro ep_pair_comp ep_pair_lower ep_pair_lower_map ep_pair_emb_prj)
next
  show "castDEFL('a lower_pd) = emb oo (prj :: udom  'a lower_pd)"
    unfolding emb_lower_pd_def prj_lower_pd_def defl_lower_pd_def cast_lower_defl
    by (simp add: cast_DEFL oo_def cfun_eq_iff lower_map_map)
qed (fact liftemb_lower_pd_def liftprj_lower_pd_def liftdefl_lower_pd_def)+

end

instantiation convex_pd :: ("domain") "domain"
begin

definition
  "emb = convex_emb oo convex_mapemb"

definition
  "prj = convex_mapprj oo convex_prj"

definition
  "defl (t::'a convex_pd itself) = convex_deflDEFL('a)"

definition
  "(liftemb :: 'a convex_pd u  udom u) = u_mapemb"

definition
  "(liftprj :: udom u  'a convex_pd u) = u_mapprj"

definition
  "liftdefl (t::'a convex_pd itself) = liftdefl_ofDEFL('a convex_pd)"

instance proof
  show "ep_pair emb (prj :: udom  'a convex_pd)"
    unfolding emb_convex_pd_def prj_convex_pd_def
    by (intro ep_pair_comp ep_pair_convex ep_pair_convex_map ep_pair_emb_prj)
next
  show "castDEFL('a convex_pd) = emb oo (prj :: udom  'a convex_pd)"
    unfolding emb_convex_pd_def prj_convex_pd_def defl_convex_pd_def cast_convex_defl
    by (simp add: cast_DEFL oo_def cfun_eq_iff convex_map_map)
qed (fact liftemb_convex_pd_def liftprj_convex_pd_def liftdefl_convex_pd_def)+

end

lemma DEFL_upper: "DEFL('a::domain upper_pd) = upper_deflDEFL('a)"
by (rule defl_upper_pd_def)

lemma DEFL_lower: "DEFL('a::domain lower_pd) = lower_deflDEFL('a)"
by (rule defl_lower_pd_def)

lemma DEFL_convex: "DEFL('a::domain convex_pd) = convex_deflDEFL('a)"
by (rule defl_convex_pd_def)


subsection ‹Isomorphic deflations›

lemma isodefl_upper:
  "isodefl d t  isodefl (upper_mapd) (upper_deflt)"
apply (rule isodeflI)
apply (simp add: cast_upper_defl cast_isodefl)
apply (simp add: emb_upper_pd_def prj_upper_pd_def)
apply (simp add: upper_map_map)
done

lemma isodefl_lower:
  "isodefl d t  isodefl (lower_mapd) (lower_deflt)"
apply (rule isodeflI)
apply (simp add: cast_lower_defl cast_isodefl)
apply (simp add: emb_lower_pd_def prj_lower_pd_def)
apply (simp add: lower_map_map)
done

lemma isodefl_convex:
  "isodefl d t  isodefl (convex_mapd) (convex_deflt)"
apply (rule isodeflI)
apply (simp add: cast_convex_defl cast_isodefl)
apply (simp add: emb_convex_pd_def prj_convex_pd_def)
apply (simp add: convex_map_map)
done


subsection ‹Domain package setup for powerdomains›

lemmas [domain_defl_simps] = DEFL_upper DEFL_lower DEFL_convex
lemmas [domain_map_ID] = upper_map_ID lower_map_ID convex_map_ID
lemmas [domain_isodefl] = isodefl_upper isodefl_lower isodefl_convex

lemmas [domain_deflation] =
  deflation_upper_map deflation_lower_map deflation_convex_map

setup fold Domain_Take_Proofs.add_rec_type
    [(type_nameupper_pd, [true]),
     (type_namelower_pd, [true]),
     (type_nameconvex_pd, [true])]

end