header {* The unit domain *}
theory One
imports Lift
begin
types one = "unit lift"
translations
"one" <= (type) "unit lift"
definition
ONE :: "one"
where
"ONE == Def ()"
text {* Exhaustion and Elimination for type @{typ one} *}
lemma Exh_one: "t = ⊥ ∨ t = ONE"
unfolding ONE_def by (induct t) simp_all
lemma oneE: "[|p = ⊥ ==> Q; p = ONE ==> Q|] ==> Q"
unfolding ONE_def by (induct p) simp_all
lemma one_induct: "[|P ⊥; P ONE|] ==> P x"
by (cases x rule: oneE) simp_all
lemma dist_less_one [simp]: "¬ ONE \<sqsubseteq> ⊥"
unfolding ONE_def by simp
lemma less_ONE [simp]: "x \<sqsubseteq> ONE"
by (induct x rule: one_induct) simp_all
lemma ONE_less_iff [simp]: "ONE \<sqsubseteq> x <-> x = ONE"
by (induct x rule: one_induct) simp_all
lemma dist_eq_one [simp]: "ONE ≠ ⊥" "⊥ ≠ ONE"
unfolding ONE_def by simp_all
lemma one_neq_iffs [simp]:
"x ≠ ONE <-> x = ⊥"
"ONE ≠ x <-> x = ⊥"
"x ≠ ⊥ <-> x = ONE"
"⊥ ≠ x <-> x = ONE"
by (induct x rule: one_induct) simp_all
lemma compact_ONE: "compact ONE"
by (rule compact_chfin)
text {* Case analysis function for type @{typ one} *}
definition
one_when :: "'a::pcpo -> one -> 'a" where
"one_when = (Λ a. strictify·(Λ _. a))"
translations
"case x of XCONST ONE => t" == "CONST one_when·t·x"
"Λ (XCONST ONE). t" == "CONST one_when·t"
lemma one_when1 [simp]: "(case ⊥ of ONE => t) = ⊥"
by (simp add: one_when_def)
lemma one_when2 [simp]: "(case ONE of ONE => t) = t"
by (simp add: one_when_def)
lemma one_when3 [simp]: "(case x of ONE => ONE) = x"
by (induct x rule: one_induct) simp_all
end