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|
structure Implicits :
sig
val implicit_defs: Proof.context -> (term * term) Symtab.table
val implicit_defs_attr: attribute
val make_holes: Proof.context -> term -> term
end = struct
structure Defs = Generic_Data (
type T = (term * term) Symtab.table
val empty = Symtab.empty
val extend = I
val merge = Symtab.merge (Term.aconv o #1)
)
val implicit_defs = Defs.get o Context.Proof
val implicit_defs_attr = Thm.declaration_attribute (fn th =>
let
val (t, def) = Lib.dest_eq (Thm.prop_of th)
val (head, args) = Term.strip_comb t
val def' = fold_rev lambda args def
in
Defs.map (Symtab.update (Term.term_name head, (head, def')))
end)
fun make_holes ctxt =
let
fun iarg_to_hole (Const (\<^const_name>\<open>iarg\<close>, T)) =
Const (\<^const_name>\<open>hole\<close>, T)
| iarg_to_hole t = t
fun expand head args =
let
fun betapplys (head', args') =
Term.betapplys (map_aterms iarg_to_hole head', args')
in
case head of
Abs (x, T, t) =>
list_comb (Abs (x, T, Lib.traverse_term expand t), args)
| _ =>
case Symtab.lookup (implicit_defs ctxt) (Term.term_name head) of
SOME (t, def) => betapplys
(Envir.expand_atom
(Term.fastype_of head)
(Term.fastype_of t, def),
args)
| NONE => list_comb (head, args)
end
fun holes_to_vars t =
let
val count = Lib.subterm_count (Const (\<^const_name>\<open>hole\<close>, dummyT))
fun subst (Const (\<^const_name>\<open>hole\<close>, T)) (Var (idx, _)::_) Ts =
let
val bounds = map Bound (0 upto (length Ts - 1))
val T' = foldr1 (op -->) (Ts @ [T])
in
foldl1 (op $) (Var (idx, T')::bounds)
end
| subst (Abs (x, T, t)) vs Ts = Abs (x, T, subst t vs (T::Ts))
| subst (t $ u) vs Ts =
let val n = count t
in subst t (take n vs) Ts $ subst u (drop n vs) Ts end
| subst t _ _ = t
val vars = map (fn n => Var ((n, 0), dummyT))
(Name.invent (Variable.names_of ctxt) "*" (count t))
in
subst t vars []
end
in
Lib.traverse_term expand #> holes_to_vars
end
end
|