(* Title: HOL/Library/RBT.thy
Author: Lukas Bulwahn and Ondrej Kuncar
*)
section {* Abstract type of RBT trees *}
theory RBT
imports Main RBT_Impl
begin
subsection {* Type definition *}
typedef ('a, 'b) rbt = "{t :: ('a\<Colon>linorder, 'b) RBT_Impl.rbt. is_rbt t}"
morphisms impl_of RBT
proof -
have "RBT_Impl.Empty \<in> ?rbt" by simp
then show ?thesis ..
qed
lemma rbt_eq_iff:
"t1 = t2 \<longleftrightarrow> impl_of t1 = impl_of t2"
by (simp add: impl_of_inject)
lemma rbt_eqI:
"impl_of t1 = impl_of t2 \<Longrightarrow> t1 = t2"
by (simp add: rbt_eq_iff)
lemma is_rbt_impl_of [simp, intro]:
"is_rbt (impl_of t)"
using impl_of [of t] by simp
lemma RBT_impl_of [simp, code abstype]:
"RBT (impl_of t) = t"
by (simp add: impl_of_inverse)
subsection {* Primitive operations *}
setup_lifting type_definition_rbt
lift_definition lookup :: "('a\<Colon>linorder, 'b) rbt \<Rightarrow> 'a \<rightharpoonup> 'b" is "rbt_lookup" .
lift_definition empty :: "('a\<Colon>linorder, 'b) rbt" is RBT_Impl.Empty
by (simp add: empty_def)
lift_definition insert :: "'a\<Colon>linorder \<Rightarrow> 'b \<Rightarrow> ('a, 'b) rbt \<Rightarrow> ('a, 'b) rbt" is "rbt_insert"
by simp
lift_definition delete :: "'a\<Colon>linorder \<Rightarrow> ('a, 'b) rbt \<Rightarrow> ('a, 'b) rbt" is "rbt_delete"
by simp
lift_definition entries :: "('a\<Colon>linorder, 'b) rbt \<Rightarrow> ('a \<times> 'b) list" is RBT_Impl.entries .
lift_definition keys :: "('a\<Colon>linorder, 'b) rbt \<Rightarrow> 'a list" is RBT_Impl.keys .
lift_definition bulkload :: "('a\<Colon>linorder \<times> 'b) list \<Rightarrow> ('a, 'b) rbt" is "rbt_bulkload" ..
lift_definition map_entry :: "'a \<Rightarrow> ('b \<Rightarrow> 'b) \<Rightarrow> ('a\<Colon>linorder, 'b) rbt \<Rightarrow> ('a, 'b) rbt" is rbt_map_entry
by simp
lift_definition map :: "('a \<Rightarrow> 'b \<Rightarrow> 'c) \<Rightarrow> ('a\<Colon>linorder, 'b) rbt \<Rightarrow> ('a, 'c) rbt" is RBT_Impl.map
by simp
lift_definition fold :: "('a \<Rightarrow> 'b \<Rightarrow> 'c \<Rightarrow> 'c) \<Rightarrow> ('a\<Colon>linorder, 'b) rbt \<Rightarrow> 'c \<Rightarrow> 'c" is RBT_Impl.fold .
lift_definition union :: "('a\<Colon>linorder, 'b) rbt \<Rightarrow> ('a, 'b) rbt \<Rightarrow> ('a, 'b) rbt" is "rbt_union"
by (simp add: rbt_union_is_rbt)
lift_definition foldi :: "('c \<Rightarrow> bool) \<Rightarrow> ('a \<Rightarrow> 'b \<Rightarrow> 'c \<Rightarrow> 'c) \<Rightarrow> ('a :: linorder, 'b) rbt \<Rightarrow> 'c \<Rightarrow> 'c"
is RBT_Impl.foldi .
subsection {* Derived operations *}
definition is_empty :: "('a\<Colon>linorder, 'b) rbt \<Rightarrow> bool" where
[code]: "is_empty t = (case impl_of t of RBT_Impl.Empty \<Rightarrow> True | _ \<Rightarrow> False)"
subsection {* Abstract lookup properties *}
lemma lookup_RBT:
"is_rbt t \<Longrightarrow> lookup (RBT t) = rbt_lookup t"
by (simp add: lookup_def RBT_inverse)
lemma lookup_impl_of:
"rbt_lookup (impl_of t) = lookup t"
by transfer (rule refl)
lemma entries_impl_of:
"RBT_Impl.entries (impl_of t) = entries t"
by transfer (rule refl)
lemma keys_impl_of:
"RBT_Impl.keys (impl_of t) = keys t"
by transfer (rule refl)
lemma lookup_keys:
"dom (lookup t) = set (keys t)"
by transfer (simp add: rbt_lookup_keys)
lemma lookup_empty [simp]:
"lookup empty = Map.empty"
by (simp add: empty_def lookup_RBT fun_eq_iff)
lemma lookup_insert [simp]:
"lookup (insert k v t) = (lookup t)(k \<mapsto> v)"
by transfer (rule rbt_lookup_rbt_insert)
lemma lookup_delete [simp]:
"lookup (delete k t) = (lookup t)(k := None)"
by transfer (simp add: rbt_lookup_rbt_delete restrict_complement_singleton_eq)
lemma map_of_entries [simp]:
"map_of (entries t) = lookup t"
by transfer (simp add: map_of_entries)
lemma entries_lookup:
"entries t1 = entries t2 \<longleftrightarrow> lookup t1 = lookup t2"
by transfer (simp add: entries_rbt_lookup)
lemma lookup_bulkload [simp]:
"lookup (bulkload xs) = map_of xs"
by transfer (rule rbt_lookup_rbt_bulkload)
lemma lookup_map_entry [simp]:
"lookup (map_entry k f t) = (lookup t)(k := map_option f (lookup t k))"
by transfer (rule rbt_lookup_rbt_map_entry)
lemma lookup_map [simp]:
"lookup (map f t) k = map_option (f k) (lookup t k)"
by transfer (rule rbt_lookup_map)
lemma fold_fold:
"fold f t = List.fold (case_prod f) (entries t)"
by transfer (rule RBT_Impl.fold_def)
lemma impl_of_empty:
"impl_of empty = RBT_Impl.Empty"
by transfer (rule refl)
lemma is_empty_empty [simp]:
"is_empty t \<longleftrightarrow> t = empty"
unfolding is_empty_def by transfer (simp split: rbt.split)
lemma RBT_lookup_empty [simp]: (*FIXME*)
"rbt_lookup t = Map.empty \<longleftrightarrow> t = RBT_Impl.Empty"
by (cases t) (auto simp add: fun_eq_iff)
lemma lookup_empty_empty [simp]:
"lookup t = Map.empty \<longleftrightarrow> t = empty"
by transfer (rule RBT_lookup_empty)
lemma sorted_keys [iff]:
"sorted (keys t)"
by transfer (simp add: RBT_Impl.keys_def rbt_sorted_entries)
lemma distinct_keys [iff]:
"distinct (keys t)"
by transfer (simp add: RBT_Impl.keys_def distinct_entries)
lemma finite_dom_lookup [simp, intro!]: "finite (dom (lookup t))"
by transfer simp
lemma lookup_union: "lookup (union s t) = lookup s ++ lookup t"
by transfer (simp add: rbt_lookup_rbt_union)
lemma lookup_in_tree: "(lookup t k = Some v) = ((k, v) \<in> set (entries t))"
by transfer (simp add: rbt_lookup_in_tree)
lemma keys_entries: "(k \<in> set (keys t)) = (\<exists>v. (k, v) \<in> set (entries t))"
by transfer (simp add: keys_entries)
lemma fold_def_alt:
"fold f t = List.fold (case_prod f) (entries t)"
by transfer (auto simp: RBT_Impl.fold_def)
lemma distinct_entries: "distinct (List.map fst (entries t))"
by transfer (simp add: distinct_entries)
lemma non_empty_keys: "t \<noteq> empty \<Longrightarrow> keys t \<noteq> []"
by transfer (simp add: non_empty_rbt_keys)
lemma keys_def_alt:
"keys t = List.map fst (entries t)"
by transfer (simp add: RBT_Impl.keys_def)
subsection {* Quickcheck generators *}
quickcheck_generator rbt predicate: is_rbt constructors: empty, insert
subsection {* Hide implementation details *}
lifting_update rbt.lifting
lifting_forget rbt.lifting
hide_const (open) impl_of empty lookup keys entries bulkload delete map fold union insert map_entry foldi
is_empty
hide_fact (open) empty_def lookup_def keys_def entries_def bulkload_def delete_def map_def fold_def
union_def insert_def map_entry_def foldi_def is_empty_def
end