(* Title: Pure/primitive_defs.ML
Author: Makarius
Primitive definition forms.
*)
signature PRIMITIVE_DEFS =
sig
val dest_def: Proof.context -> (term -> bool) -> (string -> bool) -> (string -> bool) ->
term -> (term * term) * term
val abs_def: term -> term * term
end;
structure Primitive_Defs: PRIMITIVE_DEFS =
struct
fun term_kind (Const _) = "existing constant "
| term_kind (Free _) = "free variable "
| term_kind (Bound _) = "bound variable "
| term_kind _ = "";
(*c x == t[x] to !!x. c x == t[x]*)
fun dest_def ctxt check_head is_fixed is_fixedT eq =
let
fun err msg = raise TERM (msg, [eq]);
val eq_vars = Term.strip_all_vars eq;
val eq_body = Term.strip_all_body eq;
val display_terms =
commas_quote o map (Syntax.string_of_term ctxt o Syntax_Trans.bound_vars eq_vars);
val display_types = commas_quote o map (Syntax.string_of_typ ctxt);
val (raw_lhs, rhs) = Logic.dest_equals eq_body handle TERM _ => err "Not a meta-equality (==)";
val lhs = Envir.beta_eta_contract raw_lhs;
val (head, args) = Term.strip_comb lhs;
val head_tfrees = Term.add_tfrees head [];
fun check_arg (Bound _) = true
| check_arg (Free (x, _)) = not (is_fixed x)
| check_arg (Const ("TYPE", Type ("itself", [TFree _]))) = true
| check_arg _ = false;
fun close_arg (Bound _) t = t
| close_arg x t = Logic.all x t;
val lhs_bads = filter_out check_arg args;
val lhs_dups = duplicates (op aconv) args;
val rhs_extras = Term.fold_aterms (fn v as Free (x, _) =>
if is_fixed x orelse member (op aconv) args v then I
else insert (op aconv) v | _ => I) rhs [];
val rhs_extrasT = Term.fold_aterms (Term.fold_types (fn v as TFree (a, S) =>
if is_fixedT a orelse member (op =) head_tfrees (a, S) then I
else insert (op =) v | _ => I)) rhs [];
in
if not (check_head head) then
err ("Bad head of lhs: " ^ term_kind head ^ display_terms [head])
else if not (null lhs_bads) then
err ("Bad arguments on lhs: " ^ display_terms lhs_bads)
else if not (null lhs_dups) then
err ("Duplicate arguments on lhs: " ^ display_terms lhs_dups)
else if not (null rhs_extras) then
err ("Extra variables on rhs: " ^ display_terms rhs_extras)
else if not (null rhs_extrasT) then
err ("Extra type variables on rhs: " ^ display_types rhs_extrasT)
else if exists_subterm (fn t => t aconv head) rhs then
err "Entity to be defined occurs on rhs"
else
((lhs, rhs), fold_rev close_arg args (Logic.list_all (eq_vars, (Logic.mk_equals (lhs, rhs)))))
end;
(*!!x. c x == t[x] to c == %x. t[x]*)
fun abs_def eq =
let
val body = Term.strip_all_body eq;
val vars = map Free (Term.rename_wrt_term body (Term.strip_all_vars eq));
val (lhs, rhs) = Logic.dest_equals (Term.subst_bounds (vars, body));
val (lhs', args) = Term.strip_comb lhs;
val rhs' = fold_rev (absfree o dest_Free) args rhs;
in (lhs', rhs') end;
end;