src/Pure/variable.ML

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/src/Pure/variable.ML	Thu Jun 15 23:08:58 2006 +0200
@@ -0,0 +1,357 @@
+(*  Title:      Pure/variable.ML
+    ID:         $Id$
+    Author:     Makarius
+
+Fixed type/term variables and polymorphic term abbreviations.
+*)
+
+signature VARIABLE =
+sig
+  val is_body: Context.proof -> bool
+  val set_body: bool -> Context.proof -> Context.proof
+  val restore_body: Context.proof -> Context.proof -> Context.proof
+  val fixes_of: Context.proof -> (string * string) list
+  val fixed_names_of: Context.proof -> string list
+  val binds_of: Context.proof -> (typ * term) Vartab.table
+  val defaults_of: Context.proof ->
+    typ Vartab.table * sort Vartab.table * string list * term list Symtab.table
+  val used_types: Context.proof -> string list
+  val is_declared: Context.proof -> string -> bool
+  val is_fixed: Context.proof -> string -> bool
+  val def_sort: Context.proof -> indexname -> sort option
+  val def_type: Context.proof -> bool -> indexname -> typ option
+  val default_type: Context.proof -> string -> typ option
+  val declare_type: typ -> Context.proof -> Context.proof
+  val declare_syntax: term -> Context.proof -> Context.proof
+  val declare_term: term -> Context.proof -> Context.proof
+  val invent_types: sort list -> Context.proof -> (string * sort) list * Context.proof
+  val rename_wrt: Context.proof -> term list -> (string * 'a) list -> (string * 'a) list
+  val warn_extra_tfrees: Context.proof -> Context.proof -> unit
+  val generalize_tfrees: Context.proof -> Context.proof -> string list -> string list
+  val generalize: Context.proof -> Context.proof -> term list -> term list
+  val polymorphic: Context.proof -> term list -> term list
+  val hidden_polymorphism: term -> typ -> (indexname * sort) list
+  val monomorphic_inst: term list -> Context.proof ->
+    ((indexname * sort) * typ) list * Context.proof
+  val monomorphic: Context.proof -> term list -> term list
+  val add_binds: (indexname * term option) list -> Context.proof -> Context.proof
+  val expand_binds: Context.proof -> term -> term
+  val add_fixes: string list -> Context.proof -> string list * Context.proof
+  val invent_fixes: string list -> Context.proof -> string list * Context.proof
+  val import_types: bool -> typ list -> Context.proof -> typ list * Context.proof
+  val import_terms: bool -> term list -> Context.proof -> term list * Context.proof
+  val import: bool -> thm list -> Context.proof -> thm list * Context.proof
+end;
+
+structure Variable: VARIABLE =
+struct
+
+(** local context data **)
+
+datatype data = Data of
+ {is_body: bool,                          (*internal body mode*)
+  fixes: (string * string) list,          (*term fixes*)
+  binds: (typ * term) Vartab.table,       (*term bindings*)
+  defaults:
+    typ Vartab.table *                    (*type constraints*)
+    sort Vartab.table *                   (*default sorts*)
+    string list *                         (*used type variables*)
+    term list Symtab.table};              (*type variable occurrences*)
+
+fun make_data (is_body, fixes, binds, defaults) =
+  Data {is_body = is_body, fixes = fixes, binds = binds, defaults = defaults};
+
+structure Data = ProofDataFun
+(
+  val name = "Pure/variable";
+  type T = data;
+  fun init thy =
+    make_data (false, [], Vartab.empty, (Vartab.empty, Vartab.empty, [], Symtab.empty));
+  fun print _ _ = ();
+);
+
+val _ = Context.add_setup Data.init;
+
+fun map_data f =
+  Data.map (fn Data {is_body, fixes, binds, defaults} =>
+    make_data (f (is_body, fixes, binds, defaults)));
+
+fun map_fixes f = map_data (fn (is_body, fixes, binds, defaults) =>
+  (is_body, f fixes, binds, defaults));
+
+fun map_binds f = map_data (fn (is_body, fixes, binds, defaults) =>
+  (is_body, fixes, f binds, defaults));
+
+fun map_defaults f = map_data (fn (is_body, fixes, binds, defaults) =>
+  (is_body, fixes, binds, f defaults));
+
+fun rep_data ctxt = Data.get ctxt |> (fn Data args => args);
+
+val is_body = #is_body o rep_data;
+fun set_body b = map_data (fn (_, fixes, binds, defaults) => (b, fixes, binds, defaults));
+fun restore_body ctxt = set_body (is_body ctxt);
+
+val fixes_of = #fixes o rep_data;
+val fixed_names_of = map #2 o fixes_of;
+
+val binds_of = #binds o rep_data;
+
+val defaults_of = #defaults o rep_data;
+val used_types = #3 o defaults_of;
+val type_occs_of = #4 o defaults_of;
+
+fun is_declared ctxt x = Vartab.defined (#1 (defaults_of ctxt)) (x, ~1);
+fun is_fixed ctxt x = exists (fn (_, y) => x = y) (fixes_of ctxt);
+
+
+
+(** declarations **)
+
+(* default sorts and types *)
+
+val def_sort = Vartab.lookup o #2 o defaults_of;
+
+fun def_type ctxt pattern xi =
+  let val {binds, defaults = (types, _, _, _), ...} = rep_data ctxt in
+    (case Vartab.lookup types xi of
+      NONE =>
+        if pattern then NONE
+        else Vartab.lookup binds xi |> Option.map (TypeInfer.polymorphicT o #1)
+    | some => some)
+  end;
+
+fun default_type ctxt x = Vartab.lookup (#1 (defaults_of ctxt)) (x, ~1);
+
+
+(* declare types/terms *)
+
+local
+
+val ins_types = fold_aterms
+  (fn Free (x, T) => Vartab.update ((x, ~1), T)
+    | Var v => Vartab.update v
+    | _ => I);
+
+val ins_sorts = fold_atyps
+  (fn TFree (x, S) => Vartab.update ((x, ~1), S)
+    | TVar v => Vartab.update v
+    | _ => I);
+
+val ins_used = fold_atyps
+  (fn TFree (x, _) => insert (op =) x | _ => I);
+
+val ins_occs = fold_term_types (fn t =>
+  fold_atyps (fn TFree (x, _) => Symtab.update_list (x, t) | _ => I));
+
+fun ins_skolem def_ty = fold_rev (fn (x, x') =>
+  (case def_ty x' of
+    SOME T => Vartab.update ((x, ~1), T)
+  | NONE => I));
+
+in
+
+fun declare_type T = map_defaults (fn (types, sorts, used, occ) =>
+ (types,
+  ins_sorts T sorts,
+  ins_used T used,
+  occ));
+
+fun declare_syntax t = map_defaults (fn (types, sorts, used, occ) =>
+ (ins_types t types,
+  fold_types ins_sorts t sorts,
+  fold_types ins_used t used,
+  occ));
+
+fun declare_term t ctxt =
+  ctxt
+  |> declare_syntax t
+  |> map_defaults (fn (types, sorts, used, occ) =>
+     (ins_skolem (fn x => Vartab.lookup types (x, ~1)) (fixes_of ctxt) types,
+      sorts,
+      used,
+      ins_occs t occ));
+
+end;
+
+
+(* invent types *)
+
+fun invent_types Ss ctxt =
+  let
+    val tfrees = Term.invent_names (used_types ctxt) "'a" (length Ss) ~~ Ss;
+    val ctxt' = fold (declare_type o TFree) tfrees ctxt;
+  in (tfrees, ctxt') end;
+
+
+(* renaming term/type frees *)
+
+fun rename_wrt ctxt ts frees =
+  let
+    val (types, sorts, _, _) = defaults_of (ctxt |> fold declare_syntax ts);
+    fun ren (x, X) xs =
+      let
+        fun used y = y = "" orelse y = "'" orelse member (op =) xs y orelse
+          Vartab.defined types (y, ~1) orelse Vartab.defined sorts (y, ~1);
+        val x' = Term.variant_name used x;
+      in ((x', X), x' :: xs) end;
+  in #1 (fold_map ren frees []) end;
+
+
+
+(** Hindley-Milner polymorphism **)
+
+(* warn_extra_tfrees *)
+
+fun warn_extra_tfrees ctxt1 ctxt2 =
+  let
+    fun occs_typ a (Type (_, Ts)) = exists (occs_typ a) Ts
+      | occs_typ a (TFree (b, _)) = a = b
+      | occs_typ _ (TVar _) = false;
+    fun occs_free a (Free (x, _)) =
+          (case def_type ctxt1 false (x, ~1) of
+            SOME T => if occs_typ a T then I else cons (a, x)
+          | NONE => cons (a, x))
+      | occs_free _ _ = I;
+
+    val occs1 = type_occs_of ctxt1 and occs2 = type_occs_of ctxt2;
+    val extras = Symtab.fold (fn (a, ts) =>
+      if Symtab.defined occs1 a then I else fold (occs_free a) ts) occs2 [];
+    val tfrees = map #1 extras |> sort_distinct string_ord;
+    val frees = map #2 extras |> sort_distinct string_ord;
+  in
+    if null extras then ()
+    else warning ("Introduced fixed type variable(s): " ^ commas tfrees ^ " in " ^
+      space_implode " or " (map quote frees))
+  end;
+
+
+(* generalize type variables *)
+
+fun generalize_tfrees inner outer =
+  let
+    val extra_fixes = subtract (op =) (fixed_names_of outer) (fixed_names_of inner);
+    fun still_fixed (Free (x, _)) = not (member (op =) extra_fixes x)
+      | still_fixed _ = false;
+    val occs_inner = type_occs_of inner;
+    val occs_outer = type_occs_of outer;
+    fun add a gen =
+      if Symtab.defined occs_outer a orelse
+        exists still_fixed (Symtab.lookup_list occs_inner a)
+      then gen else a :: gen;
+  in fn tfrees => fold add tfrees [] end;
+
+fun generalize inner outer ts =
+  let
+    val tfrees = generalize_tfrees inner outer (map #1 (fold Term.add_tfrees ts []));
+    fun gen (x, S) = if member (op =) tfrees x then TVar ((x, 0), S) else TFree (x, S);
+  in map (Term.map_term_types (Term.map_type_tfree gen)) ts end;
+
+fun polymorphic ctxt ts =
+  generalize (fold declare_term ts ctxt) ctxt ts;
+
+fun hidden_polymorphism t T =
+  let
+    val tvarsT = Term.add_tvarsT T [];
+    val extra_tvars = Term.fold_types (Term.fold_atyps
+      (fn TVar v => if member (op =) tvarsT v then I else insert (op =) v | _ => I)) t [];
+  in extra_tvars end;
+
+
+(* monomorphic -- fixes type variables *)
+
+fun monomorphic_inst ts ctxt =
+  let
+    val tvars = rev (fold Term.add_tvars ts []);
+    val (tfrees, ctxt') = invent_types (map #2 tvars) ctxt;
+  in (tvars ~~ map TFree tfrees, ctxt') end;
+
+fun monomorphic ctxt ts =
+  map (Term.instantiate (#1 (monomorphic_inst ts (fold declare_term ts ctxt)), [])) ts;
+
+
+
+(** term abbreviations **)
+
+fun add_bind (xi, NONE) = map_binds (Vartab.delete_safe xi)
+  | add_bind ((x, i), SOME t) =
+      let
+        val T = Term.fastype_of t;
+        val t' =
+          if null (hidden_polymorphism t T) then t
+          else Var ((x ^ "_has_extra_type_vars_on_rhs", i), T);
+      in declare_term t' #> map_binds (Vartab.update ((x, i), (T, t'))) end;
+
+val add_binds = fold add_bind;
+
+fun expand_binds ctxt =
+  let
+    val binds = binds_of ctxt;
+    fun expand (t as Var (xi, T)) =
+          (case Vartab.lookup binds xi of
+            SOME u => Envir.expand_atom T u
+          | NONE => t)
+      | expand t = t;
+  in Envir.beta_norm o Term.map_aterms expand end;
+
+
+
+(** fixes **)
+
+fun no_dups [] = ()
+  | no_dups dups = error ("Duplicate fixed variable(s): " ^ commas_quote dups);
+
+fun add_fixes xs ctxt =
+  let
+    val (ys, zs) = split_list (fixes_of ctxt);
+    val _ = no_dups (duplicates (op =) xs);
+    val _ =
+      (case filter (can Syntax.dest_skolem) xs of [] => ()
+      | bads => error ("Illegal internal Skolem constant(s): " ^ commas_quote bads));
+    val xs' =
+      if is_body ctxt then Term.variantlist (map Syntax.skolem xs, zs)
+      else (no_dups (xs inter_string ys); no_dups (xs inter_string zs); xs);
+  in
+    ctxt
+    |> map_fixes (fn fixes => rev (xs ~~ xs') @ fixes)
+    |> fold (declare_syntax o Syntax.free) xs'
+    |> pair xs'
+  end;
+
+fun invent_fixes xs ctxt =
+  ctxt
+  |> set_body true
+  |> add_fixes (Term.variantlist (xs, []))
+  ||> restore_body ctxt;
+
+
+(* import -- fixes schematic variables *)
+
+fun import_inst is_open ts ctxt =
+  let
+    val (instT, ctxt') = monomorphic_inst ts ctxt;
+    val vars = map (apsnd (Term.instantiateT instT)) (rev (fold Term.add_vars ts []));
+    val ren = if is_open then I else Syntax.internal;
+    val (xs, ctxt'') = invent_fixes (map (ren o #1 o #1) vars) ctxt';
+    val inst = vars ~~ map Free (xs ~~ map #2 vars);
+  in ((instT, inst), ctxt'') end;
+
+fun import_terms is_open ts ctxt =
+  let val (inst, ctxt') = import_inst is_open ts ctxt
+  in (map (Term.instantiate inst) ts, ctxt') end;
+
+fun import_types is_open Ts ctxt =
+  import_terms is_open (map Logic.mk_type Ts) ctxt
+  |>> map Logic.dest_type;
+
+fun import is_open ths ctxt =
+  let
+    val thy = Context.theory_of_proof ctxt;
+    val cert = Thm.cterm_of thy;
+    val certT = Thm.ctyp_of thy;
+    val ((instT, inst), ctxt') = import_inst is_open (map Thm.full_prop_of ths) ctxt;
+    val instT' = map (fn (v, T) => (certT (TVar v), certT T)) instT;
+    val inst' = map (fn (v, t) => (cert (Var v), cert t)) inst;
+    val ths' = map (Thm.instantiate (instT', inst')) ths;
+  in (ths', ctxt') end;
+
+end;