more uniform treatment of syntax for types vs. consts;
(* Title: Pure/Syntax/type_ext.ML
Author: Tobias Nipkow and Markus Wenzel, TU Muenchen
Utilities for input and output of types. Also the concrete syntax of
types, which is required to bootstrap Pure.
*)
signature TYPE_EXT0 =
sig
val sort_of_term: (sort -> sort) -> term -> sort
val term_sorts: (sort -> sort) -> term -> (indexname * sort) list
val typ_of_term: (indexname -> sort) -> (sort -> sort) -> term -> typ
val type_constraint: typ -> term -> term
val decode_term: (((string * int) * sort) list -> string * int -> sort) ->
(string -> bool * string) -> (string -> string option) ->
(typ -> typ) -> (sort -> sort) -> term -> term
val term_of_typ: bool -> typ -> term
val no_brackets: unit -> bool
val no_type_brackets: unit -> bool
end;
signature TYPE_EXT =
sig
include TYPE_EXT0
val term_of_sort: sort -> term
val tappl_ast_tr': Ast.ast * Ast.ast list -> Ast.ast
val sortT: typ
val type_ext: SynExt.syn_ext
end;
structure TypeExt: TYPE_EXT =
struct
(** input utils **)
(* sort_of_term *)
fun sort_of_term (map_sort: sort -> sort) tm =
let
fun classes (Const (c, _)) = [c]
| classes (Free (c, _)) = [c]
| classes (Const ("_class", _) $ Free (c, _)) = [c]
| classes (Const ("_classes", _) $ Const (c, _) $ cs) = c :: classes cs
| classes (Const ("_classes", _) $ Free (c, _) $ cs) = c :: classes cs
| classes (Const ("_classes", _) $ (Const ("_class", _) $ Free (c, _)) $ cs) = c :: classes cs
| classes tm = raise TERM ("sort_of_term: bad encoding of classes", [tm]);
fun sort (Const ("_topsort", _)) = []
| sort (Const (c, _)) = [c]
| sort (Free (c, _)) = [c]
| sort (Const ("_class", _) $ Free (c, _)) = [c]
| sort (Const ("_sort", _) $ cs) = classes cs
| sort tm = raise TERM ("sort_of_term: bad encoding of sort", [tm]);
in map_sort (sort tm) end;
(* term_sorts *)
fun term_sorts map_sort tm =
let
val sort_of = sort_of_term map_sort;
fun add_env (Const ("_ofsort", _) $ Free (x, _) $ cs) =
insert (op =) ((x, ~1), sort_of cs)
| add_env (Const ("_ofsort", _) $ (Const ("_tfree", _) $ Free (x, _)) $ cs) =
insert (op =) ((x, ~1), sort_of cs)
| add_env (Const ("_ofsort", _) $ Var (xi, _) $ cs) =
insert (op =) (xi, sort_of cs)
| add_env (Const ("_ofsort", _) $ (Const ("_tvar", _) $ Var (xi, _)) $ cs) =
insert (op =) (xi, sort_of cs)
| add_env (Abs (_, _, t)) = add_env t
| add_env (t1 $ t2) = add_env t1 #> add_env t2
| add_env _ = I;
in add_env tm [] end;
(* typ_of_term *)
fun typ_of_term get_sort map_sort t =
let
fun typ_of (Free (x, _)) =
if Lexicon.is_tid x then TFree (x, get_sort (x, ~1))
else Type (x, [])
| typ_of (Var (xi, _)) = TVar (xi, get_sort xi)
| typ_of (Const ("_tfree",_) $ (t as Free _)) = typ_of t
| typ_of (Const ("_tvar",_) $ (t as Var _)) = typ_of t
| typ_of (Const ("_ofsort", _) $ Free (x, _) $ _) = TFree (x, get_sort (x, ~1))
| typ_of (Const ("_ofsort", _) $ (Const ("_tfree",_) $ Free (x, _)) $ _) =
TFree (x, get_sort (x, ~1))
| typ_of (Const ("_ofsort", _) $ Var (xi, _) $ _) = TVar (xi, get_sort xi)
| typ_of (Const ("_ofsort", _) $ (Const ("_tvar",_) $ Var (xi, _)) $ _) =
TVar (xi, get_sort xi)
| typ_of (Const ("_dummy_ofsort", _) $ t) = TFree ("'_dummy_", sort_of_term map_sort t)
| typ_of tm =
let
val (t, ts) = Term.strip_comb tm;
val a =
(case t of
Const (x, _) => x
| Free (x, _) => x
| _ => raise TERM ("typ_of_term: bad encoding of type", [tm]));
in Type (a, map typ_of ts) end;
in typ_of t end;
(* decode_term -- transform parse tree into raw term *)
fun type_constraint T t =
if T = dummyT then t
else Const ("_type_constraint_", T --> T) $ t;
fun decode_term get_sort map_const map_free map_type map_sort tm =
let
val sort_env = term_sorts map_sort tm;
val decodeT = map_type o typ_of_term (get_sort sort_env) map_sort;
fun decode (Const ("_constrain", _) $ t $ typ) =
type_constraint (decodeT typ) (decode t)
| decode (Const ("_constrainAbs", _) $ (Abs (x, T, t)) $ typ) =
if T = dummyT then Abs (x, decodeT typ, decode t)
else type_constraint (decodeT typ --> dummyT) (Abs (x, map_type T, decode t))
| decode (Abs (x, T, t)) = Abs (x, map_type T, decode t)
| decode (t $ u) = decode t $ decode u
| decode (Const (a, T)) =
let val c =
(case try Lexicon.unmark_const a of
SOME c => c
| NONE => snd (map_const a))
in Const (c, map_type T) end
| decode (Free (a, T)) =
(case (map_free a, map_const a) of
(SOME x, _) => Free (x, map_type T)
| (_, (true, c)) => Const (c, map_type T)
| (_, (false, c)) => (if Long_Name.is_qualified c then Const else Free) (c, map_type T))
| decode (Var (xi, T)) = Var (xi, map_type T)
| decode (t as Bound _) = t;
in decode tm end;
(** output utils **)
(* term_of_sort *)
fun term_of_sort S =
let
fun class c = Lexicon.const "_class" $ Lexicon.free c;
fun classes [] = sys_error "term_of_sort"
| classes [c] = class c
| classes (c :: cs) = Lexicon.const "_classes" $ class c $ classes cs;
in
(case S of
[] => Lexicon.const "_topsort"
| [c] => class c
| cs => Lexicon.const "_sort" $ classes cs)
end;
(* term_of_typ *)
fun term_of_typ show_sorts ty =
let
fun of_sort t S =
if show_sorts then Lexicon.const "_ofsort" $ t $ term_of_sort S
else t;
fun term_of (Type (a, Ts)) = Term.list_comb (Lexicon.const a, map term_of Ts)
| term_of (TFree (x, S)) = of_sort (Lexicon.const "_tfree" $ Lexicon.free x) S
| term_of (TVar (xi, S)) = of_sort (Lexicon.const "_tvar" $ Lexicon.var xi) S;
in term_of ty end;
(** the type syntax **)
(* print mode *)
val bracketsN = "brackets";
val no_bracketsN = "no_brackets";
fun no_brackets () =
find_first (fn mode => mode = bracketsN orelse mode = no_bracketsN)
(print_mode_value ()) = SOME no_bracketsN;
val type_bracketsN = "type_brackets";
val no_type_bracketsN = "no_type_brackets";
fun no_type_brackets () =
find_first (fn mode => mode = type_bracketsN orelse mode = no_type_bracketsN)
(print_mode_value ()) <> SOME type_bracketsN;
(* parse ast translations *)
fun tapp_ast_tr (*"_tapp"*) [ty, f] = Ast.Appl [f, ty]
| tapp_ast_tr (*"_tapp"*) asts = raise Ast.AST ("tapp_ast_tr", asts);
fun tappl_ast_tr (*"_tappl"*) [ty, tys, f] =
Ast.Appl (f :: ty :: Ast.unfold_ast "_types" tys)
| tappl_ast_tr (*"_tappl"*) asts = raise Ast.AST ("tappl_ast_tr", asts);
fun bracket_ast_tr (*"_bracket"*) [dom, cod] =
Ast.fold_ast_p "fun" (Ast.unfold_ast "_types" dom, cod)
| bracket_ast_tr (*"_bracket"*) asts = raise Ast.AST ("bracket_ast_tr", asts);
(* print ast translations *)
fun tappl_ast_tr' (f, []) = raise Ast.AST ("tappl_ast_tr'", [f])
| tappl_ast_tr' (f, [ty]) = Ast.Appl [Ast.Constant "_tapp", ty, f]
| tappl_ast_tr' (f, ty :: tys) =
Ast.Appl [Ast.Constant "_tappl", ty, Ast.fold_ast "_types" tys, f];
fun fun_ast_tr' (*"fun"*) asts =
if no_brackets () orelse no_type_brackets () then raise Match
else
(case Ast.unfold_ast_p "fun" (Ast.Appl (Ast.Constant "fun" :: asts)) of
(dom as _ :: _ :: _, cod)
=> Ast.Appl [Ast.Constant "_bracket", Ast.fold_ast "_types" dom, cod]
| _ => raise Match);
(* type_ext *)
val sortT = Type ("sort", []);
val classesT = Type ("classes", []);
val typesT = Type ("types", []);
local open Lexicon SynExt in
val type_ext = syn_ext' false (K false)
[Mfix ("_", tidT --> typeT, "", [], max_pri),
Mfix ("_", tvarT --> typeT, "", [], max_pri),
Mfix ("_", idT --> typeT, "", [], max_pri),
Mfix ("_", longidT --> typeT, "", [], max_pri),
Mfix ("_::_", [tidT, sortT] ---> typeT, "_ofsort", [max_pri, 0], max_pri),
Mfix ("_::_", [tvarT, sortT] ---> typeT, "_ofsort", [max_pri, 0], max_pri),
Mfix ("'_()::_", sortT --> typeT, "_dummy_ofsort", [0], max_pri),
Mfix ("_", idT --> sortT, "", [], max_pri),
Mfix ("_", longidT --> sortT, "", [], max_pri),
Mfix ("{}", sortT, "_topsort", [], max_pri),
Mfix ("{_}", classesT --> sortT, "_sort", [], max_pri),
Mfix ("_", idT --> classesT, "", [], max_pri),
Mfix ("_", longidT --> classesT, "", [], max_pri),
Mfix ("_,_", [idT, classesT] ---> classesT, "_classes", [], max_pri),
Mfix ("_,_", [longidT, classesT] ---> classesT, "_classes", [], max_pri),
Mfix ("_ _", [typeT, idT] ---> typeT, "_tapp", [max_pri, 0], max_pri),
Mfix ("_ _", [typeT, longidT] ---> typeT, "_tapp", [max_pri, 0], max_pri),
Mfix ("((1'(_,/ _')) _)", [typeT, typesT, idT] ---> typeT, "_tappl", [], max_pri),
Mfix ("((1'(_,/ _')) _)", [typeT, typesT, longidT] ---> typeT, "_tappl", [], max_pri),
Mfix ("_", typeT --> typesT, "", [], max_pri),
Mfix ("_,/ _", [typeT, typesT] ---> typesT, "_types", [], max_pri),
Mfix ("(_/ => _)", [typeT, typeT] ---> typeT, "fun", [1, 0], 0),
Mfix ("([_]/ => _)", [typesT, typeT] ---> typeT, "_bracket", [0, 0], 0),
Mfix ("'(_')", typeT --> typeT, "", [0], max_pri),
Mfix ("'_", typeT, "dummy", [], max_pri)]
[]
(map SynExt.mk_trfun
[("_tapp", K tapp_ast_tr), ("_tappl", K tappl_ast_tr), ("_bracket", K bracket_ast_tr)],
[],
[],
map SynExt.mk_trfun [("fun", K fun_ast_tr')])
[]
([], []);
end;
end;