Theory Collections.ListSetImpl_Invar
section ‹\isaheader{Set Implementation by List with explicit invariants}›
theory ListSetImpl_Invar
imports
"../spec/SetSpec"
"../gen_algo/SetGA"
"../../Lib/Dlist_add"
begin
text_raw ‹\label{thy:ListSetImpl_Invar}›
type_synonym
'a lsi = "'a list"
subsection "Definitions"
definition lsi_ins :: "'a ⇒ 'a lsi ⇒ 'a lsi" where "lsi_ins x l == if List.member l x then l else x#l"
definition lsi_basic_ops :: "('a,'a lsi) set_basic_ops" where
[icf_rec_def]: "lsi_basic_ops ≡ ⦇
bset_op_α = set,
bset_op_invar = distinct,
bset_op_empty = λ_. [],
bset_op_memb = (λx s. List.member s x),
bset_op_ins = lsi_ins,
bset_op_ins_dj = (#),
bset_op_delete = λx l. Dlist_add.dlist_remove1' x [] l,
bset_op_list_it = foldli
⦈"
setup Locale_Code.open_block
interpretation lsi_basic: StdBasicSet lsi_basic_ops
apply unfold_locales
unfolding lsi_basic_ops_def lsi_ins_def[abs_def]
apply (auto simp: List.member_def set_dlist_remove1'
distinct_remove1')
done
setup Locale_Code.close_block
definition [icf_rec_def]: "lsi_ops ≡ lsi_basic.dflt_ops ⦇
set_op_union_dj := (@),
set_op_to_list := id
⦈"
setup Locale_Code.open_block
interpretation lsi: StdSet lsi_ops
proof -
interpret aux: StdSet lsi_basic.dflt_ops by (rule lsi_basic.dflt_ops_impl)
show "StdSet lsi_ops"
unfolding lsi_ops_def
apply (rule StdSet_intro)
apply icf_locales
apply (simp_all add: icf_rec_unf)
apply (unfold_locales, auto)
done
qed
setup Locale_Code.close_block
setup ‹ICF_Tools.revert_abbrevs "lsi"›
lemma pi_lsi[proper_it]:
"proper_it' foldli foldli"
by (intro icf_proper_iteratorI proper_it'I)
interpretation pi_lsi: proper_it_loc foldli foldli
apply unfold_locales by (rule pi_lsi)
definition test_codegen where "test_codegen ≡ (
lsi.empty,
lsi.memb,
lsi.ins,
lsi.delete,
lsi.list_it,
lsi.sng,
lsi.isEmpty,
lsi.isSng,
lsi.ball,
lsi.bex,
lsi.size,
lsi.size_abort,
lsi.union,
lsi.union_dj,
lsi.diff,
lsi.filter,
lsi.inter,
lsi.subset,
lsi.equal,
lsi.disjoint,
lsi.disjoint_witness,
lsi.sel,
lsi.to_list,
lsi.from_list
)"
export_code test_codegen checking SML
end