(* Title: ZF/Datatype.ML
ID: $Id$
Author: Lawrence C Paulson, Cambridge University Computer Laboratory
Copyright 1993 University of Cambridge
(Co)Datatype Definitions for Zermelo-Fraenkel Set Theory
*)
(*Typechecking rules for most datatypes involving univ*)
structure Data_Arg =
struct
val intrs =
[SigmaI, InlI, InrI,
Pair_in_univ, Inl_in_univ, Inr_in_univ,
zero_in_univ, A_into_univ, nat_into_univ, UnCI];
val elims = [make_elim InlD, make_elim InrD, (*for mutual recursion*)
SigmaE, sumE]; (*allows * and + in spec*)
end;
structure Data_Package =
Add_datatype_def_Fun
(structure Fp=Lfp and Pr=Standard_Prod and CP=Standard_CP
and Su=Standard_Sum
and Ind_Package = Ind_Package
and Datatype_Arg = Data_Arg
val coind = false);
(*Typechecking rules for most codatatypes involving quniv*)
structure CoData_Arg =
struct
val intrs =
[QSigmaI, QInlI, QInrI,
QPair_in_quniv, QInl_in_quniv, QInr_in_quniv,
zero_in_quniv, A_into_quniv, nat_into_quniv, UnCI];
val elims = [make_elim QInlD, make_elim QInrD, (*for mutual recursion*)
QSigmaE, qsumE]; (*allows * and + in spec*)
end;
structure CoData_Package =
Add_datatype_def_Fun
(structure Fp=Gfp and Pr=Quine_Prod and CP=Quine_CP
and Su=Quine_Sum
and Ind_Package = CoInd_Package
and Datatype_Arg = CoData_Arg
val coind = true);
(*Simproc for freeness reasoning: compare datatype constructors for equality*)
structure DataFree =
struct
val trace = ref false;
fun mk_new ([],[]) = Const("True",FOLogic.oT)
| mk_new (largs,rargs) =
fold_bal FOLogic.mk_conj
(map FOLogic.mk_eq (ListPair.zip (largs,rargs)));
val datatype_ss = simpset ();
fun proc sg ss old =
let val _ = if !trace then writeln ("data_free: OLD = " ^
string_of_cterm (cterm_of sg old))
else ()
val (lhs,rhs) = FOLogic.dest_eq old
val (lhead, largs) = strip_comb lhs
and (rhead, rargs) = strip_comb rhs
val lname = #1 (dest_Const lhead) handle TERM _ => raise Match;
val rname = #1 (dest_Const rhead) handle TERM _ => raise Match;
val lcon_info = the (Symtab.curried_lookup (ConstructorsData.get sg) lname)
handle Option => raise Match;
val rcon_info = the (Symtab.curried_lookup (ConstructorsData.get sg) rname)
handle Option => raise Match;
val new =
if #big_rec_name lcon_info = #big_rec_name rcon_info
andalso not (null (#free_iffs lcon_info)) then
if lname = rname then mk_new (largs, rargs)
else Const("False",FOLogic.oT)
else raise Match
val _ = if !trace then
writeln ("NEW = " ^ string_of_cterm (Thm.cterm_of sg new))
else ();
val goal = Logic.mk_equals (old, new)
val thm = Tactic.prove sg [] [] goal (fn _ => rtac iff_reflection 1 THEN
simp_tac (Simplifier.inherit_bounds ss datatype_ss addsimps #free_iffs lcon_info) 1)
handle ERROR_MESSAGE msg =>
(warning (msg ^ "\ndata_free simproc:\nfailed to prove " ^ Sign.string_of_term sg goal);
raise Match)
in SOME thm end
handle Match => NONE;
val conv = Simplifier.simproc (theory "ZF") "data_free" ["(x::i) = y"] proc;
end;
Addsimprocs [DataFree.conv];