src/Pure/context.ML
author wenzelm
Mon Feb 06 20:58:57 2006 +0100 (2006-02-06)
changeset 18931 427df66052a1
parent 18731 3989c3c41983
child 19028 6c238953f66c
permissions -rw-r--r--
TableFun: renamed xxx_multi to xxx_list;
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(*  Title:      Pure/context.ML
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    ID:         $Id$
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    Author:     Markus Wenzel, TU Muenchen
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Generic theory contexts with unique identity, arbitrarily typed data,
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development graph and history support.  Implicit theory contexts in ML.
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Generic proof contexts with arbitrarily typed data.
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*)
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signature BASIC_CONTEXT =
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sig
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  type theory
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  type theory_ref
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  exception THEORY of string * theory list
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  val context: theory -> unit
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  val the_context: unit -> theory
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end;
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signature CONTEXT =
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sig
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  include BASIC_CONTEXT
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  (*theory context*)
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  val theory_name: theory -> string
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  val parents_of: theory -> theory list
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  val ancestors_of: theory -> theory list
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  val is_stale: theory -> bool
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  val ProtoPureN: string
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  val PureN: string
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  val CPureN: string
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  val draftN: string
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  val exists_name: string -> theory -> bool
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  val names_of: theory -> string list
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  val pretty_thy: theory -> Pretty.T
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  val string_of_thy: theory -> string
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  val pprint_thy: theory -> pprint_args -> unit
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  val pretty_abbrev_thy: theory -> Pretty.T
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  val str_of_thy: theory -> string
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  val check_thy: theory -> theory
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  val eq_thy: theory * theory -> bool
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  val subthy: theory * theory -> bool
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  val joinable: theory * theory -> bool
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  val merge: theory * theory -> theory                     (*exception TERM*)
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  val merge_refs: theory_ref * theory_ref -> theory_ref    (*exception TERM*)
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  val self_ref: theory -> theory_ref
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  val deref: theory_ref -> theory
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  val copy_thy: theory -> theory
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  val checkpoint_thy: theory -> theory
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  val finish_thy: theory -> theory
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  val theory_data_of: theory -> string list
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  val pre_pure_thy: theory
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  val begin_thy: (theory -> Pretty.pp) -> string -> theory list -> theory
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  (*ML theory context*)
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  val get_context: unit -> theory option
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  val set_context: theory option -> unit
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  val reset_context: unit -> unit
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  val setmp: theory option -> ('a -> 'b) -> 'a -> 'b
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  val pass: theory option -> ('a -> 'b) -> 'a -> 'b * theory option
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  val pass_theory: theory -> ('a -> 'b) -> 'a -> 'b * theory
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  val save: ('a -> 'b) -> 'a -> 'b
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  val >> : (theory -> theory) -> unit
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  val ml_output: (string -> unit) * (string -> unit)
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  val use_mltext: string -> bool -> theory option -> unit
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  val use_mltext_theory: string -> bool -> theory -> theory
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  val use_let: string -> string -> string -> theory -> theory
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  val add_setup: (theory -> theory) -> unit
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  val setup: unit -> theory -> theory
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  (*proof context*)
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  type proof
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  val theory_of_proof: proof -> theory
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  val transfer_proof: theory -> proof -> proof
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  val init_proof: theory -> proof
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  val proof_data_of: theory -> string list
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  (*generic context*)
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  datatype generic = Theory of theory | Proof of proof
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  val cases: (theory -> 'a) -> (proof -> 'a) -> generic -> 'a
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  val the_theory: generic -> theory
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  val the_proof: generic -> proof
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  val map_theory: (theory -> theory) -> generic -> generic
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  val map_proof: (proof -> proof) -> generic -> generic
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  val theory_map: (generic -> generic) -> theory -> theory
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  val proof_map: (generic -> generic) -> proof -> proof
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  val theory_of: generic -> theory   (*total*)
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  val proof_of: generic -> proof     (*total*)
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end;
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signature PRIVATE_CONTEXT =
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sig
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  include CONTEXT
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  structure TheoryData:
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  sig
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    val declare: string -> Object.T -> (Object.T -> Object.T) -> (Object.T -> Object.T) ->
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      (Pretty.pp -> Object.T * Object.T -> Object.T) -> serial
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    val init: serial -> theory -> theory
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    val get: serial -> (Object.T -> 'a) -> theory -> 'a
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    val put: serial -> ('a -> Object.T) -> 'a -> theory -> theory
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  end
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  structure ProofData:
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  sig
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    val declare: string -> (theory -> Object.T) -> serial
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    val init: serial -> theory -> theory
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    val get: serial -> (Object.T -> 'a) -> proof -> 'a
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    val put: serial -> ('a -> Object.T) -> 'a -> proof -> proof
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  end
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end;
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structure Context: PRIVATE_CONTEXT =
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struct
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(*** theory context ***)
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(** theory data **)
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(* data kinds and access methods *)
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local
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type kind =
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 {name: string,
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  empty: Object.T,
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  copy: Object.T -> Object.T,
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  extend: Object.T -> Object.T,
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  merge: Pretty.pp -> Object.T * Object.T -> Object.T};
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val kinds = ref (Inttab.empty: kind Inttab.table);
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fun invoke meth_name meth_fn k =
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  (case Inttab.lookup (! kinds) k of
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    SOME kind => meth_fn kind |> transform_failure (fn exn =>
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      EXCEPTION (exn, "Theory data method " ^ #name kind ^ "." ^ meth_name ^ " failed"))
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  | NONE => sys_error ("Invalid theory data identifier " ^ string_of_int k));
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in
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fun invoke_name k    = invoke "name" (K o #name) k ();
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fun invoke_empty k   = invoke "empty" (K o #empty) k ();
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val invoke_copy      = invoke "copy" #copy;
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val invoke_extend    = invoke "extend" #extend;
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fun invoke_merge pp  = invoke "merge" (fn kind => #merge kind pp);
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fun declare_theory_data name empty copy extend merge =
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  let
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    val k = serial ();
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    val kind = {name = name, empty = empty, copy = copy, extend = extend, merge = merge};
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    val _ = conditional (Inttab.exists (equal name o #name o #2) (! kinds)) (fn () =>
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      warning ("Duplicate declaration of theory data " ^ quote name));
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    val _ = change kinds (Inttab.update (k, kind));
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  in k end;
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val copy_data = Inttab.map' invoke_copy;
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val extend_data = Inttab.map' invoke_extend;
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fun merge_data pp = Inttab.join (SOME oo invoke_merge pp) o pairself extend_data;
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end;
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(** datatype theory **)
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datatype theory =
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  Theory of
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   (*identity*)
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   {self: theory ref option,            (*dynamic self reference -- follows theory changes*)
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    id: serial * string,                (*identifier of this theory*)
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    ids: string Inttab.table,           (*identifiers of ancestors*)
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    iids: string Inttab.table} *        (*identifiers of intermediate checkpoints*)
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   (*data*)
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   {theory: Object.T Inttab.table,      (*theory data record*)
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    proof: unit Inttab.table} *         (*proof data kinds*)
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   (*ancestry*)
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   {parents: theory list,               (*immediate predecessors*)
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    ancestors: theory list} *           (*all predecessors*)
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   (*history*)
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   {name: string,                       (*prospective name of finished theory*)
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    version: int,                       (*checkpoint counter*)
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    intermediates: theory list};        (*intermediate checkpoints*)
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exception THEORY of string * theory list;
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fun rep_theory (Theory args) = args;
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val identity_of = #1 o rep_theory;
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val data_of     = #2 o rep_theory;
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val ancestry_of = #3 o rep_theory;
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val history_of  = #4 o rep_theory;
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fun make_identity self id ids iids = {self = self, id = id, ids = ids, iids = iids};
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fun make_data theory proof = {theory = theory, proof = proof};
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fun make_ancestry parents ancestors = {parents = parents, ancestors = ancestors};
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fun make_history name vers ints = {name = name, version = vers, intermediates = ints};
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fun map_theory_data f {theory, proof} = make_data (f theory) proof;
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fun map_proof_data f {theory, proof} = make_data theory (f proof);
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val the_self = the o #self o identity_of;
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val parents_of = #parents o ancestry_of;
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val ancestors_of = #ancestors o ancestry_of;
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val theory_name = #name o history_of;
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(* staleness *)
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fun eq_id ((i: int, _), (j, _)) = (i = j);
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fun is_stale
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    (Theory ({self = SOME (ref (Theory ({id = id', ...}, _, _, _))), id, ...}, _, _, _)) =
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      not (eq_id (id, id'))
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  | is_stale (Theory ({self = NONE, ...}, _, _, _)) = true;
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fun vitalize (thy as Theory ({self = SOME r, ...}, _, _, _)) = (r := thy; thy)
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  | vitalize (thy as Theory ({self = NONE, id, ids, iids}, data, ancestry, history)) =
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      let
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        val r = ref thy;
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        val thy' = Theory (make_identity (SOME r) id ids iids, data, ancestry, history);
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      in r := thy'; thy' end;
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(* names *)
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val ProtoPureN = "ProtoPure";
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val PureN = "Pure";
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val CPureN = "CPure";
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val draftN = "#";
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fun draft_id (_, name) = (name = draftN);
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val is_draft = draft_id o #id o identity_of;
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fun exists_name name (Theory ({id, ids, iids, ...}, _, _, _)) =
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  name = #2 id orelse
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  Inttab.exists (equal name o #2) ids orelse
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  Inttab.exists (equal name o #2) iids;
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fun names_of (Theory ({id, ids, iids, ...}, _, _, _)) =
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  rev (#2 id :: Inttab.fold (cons o #2) iids (Inttab.fold (cons o #2) ids []));
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fun pretty_thy thy =
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  Pretty.str_list "{" "}" (names_of thy @ (if is_stale thy then ["!"] else []));
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val string_of_thy = Pretty.string_of o pretty_thy;
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val pprint_thy = Pretty.pprint o pretty_thy;
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fun pretty_abbrev_thy thy =
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  let
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    val names = names_of thy;
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    val n = length names;
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    val abbrev = if n > 5 then "..." :: List.drop (names, n - 5) else names;
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  in Pretty.str_list "{" "}" abbrev end;
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val str_of_thy = Pretty.str_of o pretty_abbrev_thy;
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(* consistency *)    (*exception TERM*)
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fun check_thy thy =
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  if is_stale thy then
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    raise TERM ("Stale theory encountered:\n" ^ string_of_thy thy, [])
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  else thy;
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fun check_ins id ids =
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  if draft_id id orelse Inttab.defined ids (#1 id) then ids
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  else if Inttab.exists (equal (#2 id) o #2) ids then
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    raise TERM ("Different versions of theory component " ^ quote (#2 id), [])
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  else Inttab.update id ids;
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fun check_insert intermediate id (ids, iids) =
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  let val ids' = check_ins id ids and iids' = check_ins id iids
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  in if intermediate then (ids, iids') else (ids', iids) end;
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fun check_merge
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    (Theory ({id = id1, ids = ids1, iids = iids1, ...}, _, _, history1))
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    (Theory ({id = id2, ids = ids2, iids = iids2, ...}, _, _, history2)) =
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  (Inttab.fold check_ins ids2 ids1, Inttab.fold check_ins iids2 iids1)
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  |> check_insert (#version history1 > 0) id1
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  |> check_insert (#version history2 > 0) id2;
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(* equality and inclusion *)
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val eq_thy = eq_id o pairself (#id o identity_of o check_thy);
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fun proper_subthy
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    (Theory ({id = (i, _), ...}, _, _, _), Theory ({ids, iids, ...}, _, _, _)) =
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  Inttab.defined ids i orelse Inttab.defined iids i;
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fun subthy thys = eq_thy thys orelse proper_subthy thys;
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fun joinable (thy1, thy2) = subthy (thy1, thy2) orelse subthy (thy2, thy1);
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(* theory references *)
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(*theory_ref provides a safe way to store dynamic references to a
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  theory in external data structures -- a plain theory value would
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  become stale as the self reference moves on*)
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datatype theory_ref = TheoryRef of theory ref;
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val self_ref = TheoryRef o the_self o check_thy;
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fun deref (TheoryRef (ref thy)) = thy;
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(* trivial merge *)    (*exception TERM*)
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fun merge (thy1, thy2) =
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  if eq_thy (thy1, thy2) then thy1
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  else if proper_subthy (thy2, thy1) then thy1
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  else if proper_subthy (thy1, thy2) then thy2
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  else (check_merge thy1 thy2;
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    raise TERM (cat_lines ["Attempt to perform non-trivial merge of theories:",
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      str_of_thy thy1, str_of_thy thy2], []));
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fun merge_refs (ref1, ref2) =
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  if ref1 = ref2 then ref1
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  else self_ref (merge (deref ref1, deref ref2));
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(** build theories **)
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(* primitives *)
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fun create_thy name self id ids iids data ancestry history =
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  let
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    val {version, name = _, intermediates = _} = history;
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    val intermediate = version > 0;
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    val (ids', iids') = check_insert intermediate id (ids, iids);
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    val id' = (serial (), name);
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    val _ = check_insert intermediate id' (ids', iids');
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    val identity' = make_identity self id' ids' iids';
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  in vitalize (Theory (identity', data, ancestry, history)) end;
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fun change_thy name f (thy as Theory ({self, id, ids, iids}, data, ancestry, history)) =
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  let
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    val _ = check_thy thy;
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    val (self', data', ancestry') =
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      if is_draft thy then (self, data, ancestry)    (*destructive change!*)
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      else if #version history > 0
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      then (NONE, map_theory_data copy_data data, ancestry)
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      else (NONE, map_theory_data extend_data data,
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        make_ancestry [thy] (thy :: #ancestors ancestry));
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    val data'' = f data';
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  in create_thy name self' id ids iids data'' ancestry' history end;
wenzelm@16489
   342
wenzelm@16489
   343
fun name_thy name = change_thy name I;
wenzelm@16489
   344
val modify_thy = change_thy draftN;
wenzelm@16489
   345
val extend_thy = modify_thy I;
wenzelm@16489
   346
wenzelm@16489
   347
fun copy_thy (thy as Theory ({id, ids, iids, ...}, data, ancestry, history)) =
wenzelm@16719
   348
  (check_thy thy;
wenzelm@18731
   349
    create_thy draftN NONE id ids iids (map_theory_data copy_data data) ancestry history);
wenzelm@16489
   350
wenzelm@16489
   351
val pre_pure_thy = create_thy draftN NONE (serial (), draftN) Inttab.empty Inttab.empty
wenzelm@16533
   352
  (make_data Inttab.empty Inttab.empty) (make_ancestry [] []) (make_history ProtoPureN 0 []);
wenzelm@16489
   353
wenzelm@16489
   354
wenzelm@16489
   355
(* named theory nodes *)
wenzelm@16489
   356
wenzelm@16489
   357
fun merge_thys pp (thy1, thy2) =
wenzelm@16533
   358
  if exists_name CPureN thy1 <> exists_name CPureN thy2 then
wenzelm@16436
   359
    error "Cannot merge Pure and CPure developments"
wenzelm@16436
   360
  else
wenzelm@16436
   361
    let
wenzelm@16489
   362
      val (ids, iids) = check_merge thy1 thy2;
wenzelm@16533
   363
      val data1 = data_of thy1 and data2 = data_of thy2;
wenzelm@16533
   364
      val data = make_data
wenzelm@16533
   365
        (merge_data (pp thy1) (#theory data1, #theory data2))
wenzelm@16533
   366
        (Inttab.merge (K true) (#proof data1, #proof data2));
wenzelm@16489
   367
      val ancestry = make_ancestry [] [];
wenzelm@16436
   368
      val history = make_history "" 0 [];
wenzelm@16489
   369
    in create_thy draftN NONE (serial (), draftN) ids iids data ancestry history end;
wenzelm@16489
   370
wenzelm@16533
   371
fun maximal_thys thys =
wenzelm@16533
   372
  thys |> filter (fn thy => not (exists (fn thy' => proper_subthy (thy, thy')) thys));
wenzelm@16533
   373
wenzelm@16489
   374
fun begin_thy pp name imports =
wenzelm@16489
   375
  if name = draftN then error ("Illegal theory name: " ^ quote draftN)
wenzelm@16489
   376
  else
wenzelm@16489
   377
    let
wenzelm@16533
   378
      val parents =
wenzelm@16719
   379
        maximal_thys (gen_distinct eq_thy (map check_thy imports));
wenzelm@16489
   380
      val ancestors = gen_distinct eq_thy (parents @ List.concat (map ancestors_of parents));
wenzelm@16489
   381
      val Theory ({id, ids, iids, ...}, data, _, _) =
wenzelm@16489
   382
        (case parents of
wenzelm@16489
   383
          [] => error "No parent theories"
wenzelm@16533
   384
        | [thy] => extend_thy thy
wenzelm@16533
   385
        | thy :: thys => Library.foldl (merge_thys pp) (thy, thys));
wenzelm@16489
   386
      val ancestry = make_ancestry parents ancestors;
wenzelm@16489
   387
      val history = make_history name 0 [];
wenzelm@16489
   388
    in create_thy draftN NONE id ids iids data ancestry history end;
wenzelm@16436
   389
wenzelm@16436
   390
wenzelm@16489
   391
(* undoable checkpoints *)
wenzelm@16436
   392
wenzelm@16489
   393
fun checkpoint_thy thy =
wenzelm@16489
   394
  if not (is_draft thy) then thy
wenzelm@16436
   395
  else
wenzelm@16436
   396
    let
wenzelm@16489
   397
      val {name, version, intermediates} = history_of thy;
wenzelm@16489
   398
      val thy' as Theory (identity', data', ancestry', _) =
wenzelm@16489
   399
        name_thy (name ^ ":" ^ string_of_int version) thy;
wenzelm@16489
   400
      val history' = make_history name (version + 1) (thy' :: intermediates);
wenzelm@16489
   401
    in vitalize (Theory (identity', data', ancestry', history')) end;
wenzelm@16489
   402
wenzelm@16489
   403
fun finish_thy thy =
wenzelm@16489
   404
  let
wenzelm@16489
   405
    val {name, version, intermediates} = history_of thy;
wenzelm@16719
   406
    val rs = map (the_self o check_thy) intermediates;
wenzelm@16489
   407
    val thy' as Theory ({self, id, ids, ...}, data', ancestry', _) = name_thy name thy;
wenzelm@16489
   408
    val identity' = make_identity self id ids Inttab.empty;
wenzelm@16489
   409
    val history' = make_history name 0 [];
wenzelm@16489
   410
    val thy'' = vitalize (Theory (identity', data', ancestry', history'));
wenzelm@16533
   411
    val _ = List.app (fn r => r := thy'') rs;
wenzelm@16533
   412
  in thy'' end;
wenzelm@16489
   413
wenzelm@16489
   414
wenzelm@16489
   415
(* theory data *)
wenzelm@16436
   416
wenzelm@16533
   417
fun dest_data name_of tab =
wenzelm@16533
   418
  map name_of (Inttab.keys tab)
wenzelm@18931
   419
  |> map (rpair ()) |> Symtab.make_list |> Symtab.dest
wenzelm@16489
   420
  |> map (apsnd length)
wenzelm@16489
   421
  |> map (fn (name, 1) => name | (name, n) => name ^ enclose "[" "]" (string_of_int n));
wenzelm@16489
   422
wenzelm@16533
   423
val theory_data_of = dest_data invoke_name o #theory o data_of;
wenzelm@16533
   424
wenzelm@16489
   425
structure TheoryData =
wenzelm@16489
   426
struct
wenzelm@16489
   427
wenzelm@16489
   428
val declare = declare_theory_data;
wenzelm@16489
   429
wenzelm@16489
   430
fun get k dest thy =
wenzelm@17412
   431
  (case Inttab.lookup (#theory (data_of thy)) k of
wenzelm@16489
   432
    SOME x => (dest x handle Match =>
wenzelm@16489
   433
      error ("Failed to access theory data " ^ quote (invoke_name k)))
wenzelm@16489
   434
  | NONE => error ("Uninitialized theory data " ^ quote (invoke_name k)));
wenzelm@16489
   435
wenzelm@18731
   436
fun put k mk x = modify_thy (map_theory_data (Inttab.update (k, mk x)));
wenzelm@16489
   437
fun init k = put k I (invoke_empty k);
wenzelm@16489
   438
wenzelm@16489
   439
end;
wenzelm@16436
   440
wenzelm@16436
   441
wenzelm@16436
   442
wenzelm@16533
   443
(*** ML theory context ***)
wenzelm@6185
   444
wenzelm@6185
   445
local
skalberg@15531
   446
  val current_theory = ref (NONE: theory option);
wenzelm@6185
   447
in
wenzelm@6185
   448
  fun get_context () = ! current_theory;
wenzelm@6185
   449
  fun set_context opt_thy = current_theory := opt_thy;
wenzelm@6238
   450
  fun setmp opt_thy f x = Library.setmp current_theory opt_thy f x;
wenzelm@6185
   451
end;
wenzelm@6185
   452
wenzelm@6185
   453
fun the_context () =
wenzelm@6185
   454
  (case get_context () of
skalberg@15531
   455
    SOME thy => thy
wenzelm@6185
   456
  | _ => error "Unknown theory context");
wenzelm@6185
   457
skalberg@15531
   458
fun context thy = set_context (SOME thy);
skalberg@15531
   459
fun reset_context () = set_context NONE;
wenzelm@6185
   460
wenzelm@6310
   461
fun pass opt_thy f x =
wenzelm@6261
   462
  setmp opt_thy (fn x => let val y = f x in (y, get_context ()) end) x;
wenzelm@6261
   463
wenzelm@6310
   464
fun pass_theory thy f x =
skalberg@15531
   465
  (case pass (SOME thy) f x of
skalberg@15531
   466
    (y, SOME thy') => (y, thy')
skalberg@15531
   467
  | (_, NONE) => error "Lost theory context in ML");
wenzelm@6261
   468
wenzelm@6238
   469
fun save f x = setmp (get_context ()) f x;
wenzelm@6238
   470
wenzelm@6185
   471
wenzelm@6185
   472
(* map context *)
wenzelm@6185
   473
wenzelm@6185
   474
nonfix >>;
skalberg@15531
   475
fun >> f = set_context (SOME (f (the_context ())));
wenzelm@6185
   476
wenzelm@6185
   477
wenzelm@8348
   478
(* use ML text *)
wenzelm@8348
   479
wenzelm@18678
   480
val ml_output = (writeln, Output.error_msg);
wenzelm@14976
   481
wenzelm@18711
   482
fun use_output verbose txt =
wenzelm@18711
   483
  Output.ML_errors (use_text ml_output verbose) (Symbol.escape txt);
wenzelm@10914
   484
wenzelm@17060
   485
fun use_mltext txt verbose opt_thy = setmp opt_thy (fn () => use_output verbose txt) ();
wenzelm@17060
   486
fun use_mltext_theory txt verbose thy = #2 (pass_theory thy (use_output verbose) txt);
wenzelm@8348
   487
wenzelm@8348
   488
fun use_context txt = use_mltext_theory ("Context.>> (" ^ txt ^ ");") false;
wenzelm@8348
   489
wenzelm@9586
   490
fun use_let bind body txt =
wenzelm@9586
   491
  use_context ("let " ^ bind ^ " = " ^ txt ^ " in\n" ^ body ^ " end");
wenzelm@8348
   492
wenzelm@15801
   493
wenzelm@16436
   494
(* delayed theory setup *)
wenzelm@15801
   495
wenzelm@15801
   496
local
wenzelm@18711
   497
  val setup_fn = ref (I: theory -> theory);
wenzelm@15801
   498
in
wenzelm@18711
   499
  fun add_setup f = setup_fn := (! setup_fn #> f);
wenzelm@18711
   500
  fun setup () = let val f = ! setup_fn in setup_fn := I; f end;
wenzelm@15801
   501
end;
wenzelm@8348
   502
wenzelm@16533
   503
wenzelm@16533
   504
wenzelm@16533
   505
(*** proof context ***)
wenzelm@16533
   506
wenzelm@16533
   507
(* datatype proof *)
wenzelm@16533
   508
wenzelm@17060
   509
datatype proof = Proof of theory_ref * Object.T Inttab.table;
wenzelm@17060
   510
wenzelm@17060
   511
fun theory_of_proof (Proof (thy_ref, _)) = deref thy_ref;
wenzelm@16533
   512
fun data_of_proof (Proof (_, data)) = data;
wenzelm@17060
   513
fun map_prf f (Proof (thy_ref, data)) = Proof (thy_ref, f data);
wenzelm@17060
   514
wenzelm@17060
   515
fun transfer_proof thy' (prf as Proof (thy_ref, data)) =
wenzelm@17060
   516
  if not (subthy (deref thy_ref, thy')) then
wenzelm@18678
   517
    error "transfer proof context: no a super theory"
wenzelm@17060
   518
  else Proof (self_ref thy', data);
wenzelm@16533
   519
wenzelm@16533
   520
wenzelm@16533
   521
(* proof data kinds *)
wenzelm@16533
   522
wenzelm@16533
   523
local
wenzelm@16533
   524
wenzelm@16533
   525
type kind =
wenzelm@16533
   526
 {name: string,
wenzelm@16533
   527
  init: theory -> Object.T};
wenzelm@16533
   528
wenzelm@16533
   529
val kinds = ref (Inttab.empty: kind Inttab.table);
wenzelm@16533
   530
wenzelm@16533
   531
fun invoke meth_name meth_fn k =
wenzelm@17412
   532
  (case Inttab.lookup (! kinds) k of
wenzelm@16533
   533
    SOME kind => meth_fn kind |> transform_failure (fn exn =>
wenzelm@17340
   534
      EXCEPTION (exn, "Proof data method " ^ #name kind ^ "." ^ meth_name ^ " failed"))
wenzelm@16533
   535
  | NONE => sys_error ("Invalid proof data identifier " ^ string_of_int k));
wenzelm@16533
   536
wenzelm@16533
   537
fun invoke_name k = invoke "name" (K o #name) k ();
wenzelm@16533
   538
val invoke_init   = invoke "init" #init;
wenzelm@16533
   539
wenzelm@16533
   540
in
wenzelm@16533
   541
wenzelm@16533
   542
val proof_data_of = dest_data invoke_name o #proof o data_of;
wenzelm@16533
   543
wenzelm@16533
   544
fun init_proof thy =
wenzelm@17060
   545
  Proof (self_ref thy, Inttab.map' (fn k => fn _ => invoke_init k thy) (#proof (data_of thy)));
wenzelm@16533
   546
wenzelm@16533
   547
structure ProofData =
wenzelm@16533
   548
struct
wenzelm@16533
   549
wenzelm@16533
   550
fun declare name init =
wenzelm@16533
   551
  let
wenzelm@16533
   552
    val k = serial ();
wenzelm@16533
   553
    val kind = {name = name, init = init};
wenzelm@16533
   554
    val _ = conditional (Inttab.exists (equal name o #name o #2) (! kinds)) (fn () =>
wenzelm@16533
   555
      warning ("Duplicate declaration of proof data " ^ quote name));
wenzelm@17412
   556
    val _ = change kinds (Inttab.update (k, kind));
wenzelm@16533
   557
  in k end;
wenzelm@16533
   558
wenzelm@18731
   559
fun init k = modify_thy (map_proof_data (Inttab.update (k, ())));
wenzelm@16533
   560
wenzelm@16533
   561
fun get k dest prf =
wenzelm@17412
   562
  (case Inttab.lookup (data_of_proof prf) k of
wenzelm@16533
   563
    SOME x => (dest x handle Match =>
wenzelm@16533
   564
      error ("Failed to access proof data " ^ quote (invoke_name k)))
wenzelm@16533
   565
  | NONE => error ("Uninitialized proof data " ^ quote (invoke_name k)));
wenzelm@16533
   566
wenzelm@17412
   567
fun put k mk x = map_prf (Inttab.update (k, mk x));
wenzelm@16533
   568
wenzelm@16533
   569
end;
wenzelm@16533
   570
wenzelm@16533
   571
end;
wenzelm@16533
   572
wenzelm@16533
   573
wenzelm@18632
   574
wenzelm@16533
   575
(*** generic context ***)
wenzelm@16533
   576
wenzelm@18632
   577
datatype generic = Theory of theory | Proof of proof;
wenzelm@18632
   578
wenzelm@18632
   579
fun cases f _ (Theory thy) = f thy
wenzelm@18632
   580
  | cases _ g (Proof prf) = g prf;
wenzelm@16533
   581
wenzelm@18731
   582
val the_theory = cases I (fn _ => raise Fail "Ill-typed context: theory expected");
wenzelm@18731
   583
val the_proof = cases (fn _ => raise Fail "Ill-typed context: proof expected") I;
wenzelm@16533
   584
wenzelm@18731
   585
fun map_theory f = Theory o f o the_theory;
wenzelm@18731
   586
fun map_proof f = Proof o f o the_proof;
wenzelm@18731
   587
wenzelm@18731
   588
fun theory_map f = the_theory o f o Theory;
wenzelm@18731
   589
fun proof_map f = the_proof o f o Proof;
wenzelm@18665
   590
wenzelm@18632
   591
val theory_of = cases I theory_of_proof;
wenzelm@18632
   592
val proof_of = cases init_proof I;
wenzelm@16533
   593
wenzelm@6185
   594
end;
wenzelm@6185
   595
wenzelm@6185
   596
structure BasicContext: BASIC_CONTEXT = Context;
wenzelm@6185
   597
open BasicContext;
wenzelm@16436
   598
wenzelm@16436
   599
wenzelm@16436
   600
wenzelm@16533
   601
(*** type-safe interfaces for data declarations ***)
wenzelm@16533
   602
wenzelm@16533
   603
(** theory data **)
wenzelm@16436
   604
wenzelm@16436
   605
signature THEORY_DATA_ARGS =
wenzelm@16436
   606
sig
wenzelm@16436
   607
  val name: string
wenzelm@16436
   608
  type T
wenzelm@16436
   609
  val empty: T
wenzelm@16436
   610
  val copy: T -> T
wenzelm@16436
   611
  val extend: T -> T
wenzelm@16436
   612
  val merge: Pretty.pp -> T * T -> T
wenzelm@16436
   613
  val print: theory -> T -> unit
wenzelm@16436
   614
end;
wenzelm@16436
   615
wenzelm@16436
   616
signature THEORY_DATA =
wenzelm@16436
   617
sig
wenzelm@16436
   618
  type T
wenzelm@16436
   619
  val init: theory -> theory
wenzelm@16436
   620
  val print: theory -> unit
wenzelm@16436
   621
  val get: theory -> T
wenzelm@16489
   622
  val get_sg: theory -> T    (*obsolete*)
wenzelm@16436
   623
  val put: T -> theory -> theory
wenzelm@16436
   624
  val map: (T -> T) -> theory -> theory
wenzelm@16436
   625
end;
wenzelm@16436
   626
wenzelm@16436
   627
functor TheoryDataFun(Data: THEORY_DATA_ARGS): THEORY_DATA =
wenzelm@16436
   628
struct
wenzelm@16436
   629
wenzelm@16436
   630
structure TheoryData = Context.TheoryData;
wenzelm@16436
   631
wenzelm@16436
   632
type T = Data.T;
wenzelm@16436
   633
exception Data of T;
wenzelm@16436
   634
wenzelm@16436
   635
val kind = TheoryData.declare Data.name
wenzelm@16436
   636
  (Data Data.empty)
wenzelm@16436
   637
  (fn Data x => Data (Data.copy x))
wenzelm@16436
   638
  (fn Data x => Data (Data.extend x))
wenzelm@16489
   639
  (fn pp => fn (Data x1, Data x2) => Data (Data.merge pp (x1, x2)));
wenzelm@16436
   640
wenzelm@16436
   641
val init = TheoryData.init kind;
wenzelm@16436
   642
val get = TheoryData.get kind (fn Data x => x);
wenzelm@16489
   643
val get_sg = get;
wenzelm@16489
   644
fun print thy = Data.print thy (get thy);
wenzelm@16436
   645
val put = TheoryData.put kind Data;
wenzelm@16436
   646
fun map f thy = put (f (get thy)) thy;
wenzelm@16436
   647
wenzelm@16436
   648
end;
wenzelm@16436
   649
wenzelm@16533
   650
wenzelm@16533
   651
wenzelm@16533
   652
(** proof data **)
wenzelm@16533
   653
wenzelm@16533
   654
signature PROOF_DATA_ARGS =
wenzelm@16533
   655
sig
wenzelm@16533
   656
  val name: string
wenzelm@16533
   657
  type T
wenzelm@16533
   658
  val init: theory -> T
wenzelm@16533
   659
  val print: Context.proof -> T -> unit
wenzelm@16533
   660
end;
wenzelm@16533
   661
wenzelm@16533
   662
signature PROOF_DATA =
wenzelm@16533
   663
sig
wenzelm@16533
   664
  type T
wenzelm@16533
   665
  val init: theory -> theory
wenzelm@16533
   666
  val print: Context.proof -> unit
wenzelm@16533
   667
  val get: Context.proof -> T
wenzelm@16533
   668
  val put: T -> Context.proof -> Context.proof
wenzelm@16533
   669
  val map: (T -> T) -> Context.proof -> Context.proof
wenzelm@16533
   670
end;
wenzelm@16533
   671
wenzelm@16533
   672
functor ProofDataFun(Data: PROOF_DATA_ARGS): PROOF_DATA =
wenzelm@16533
   673
struct
wenzelm@16533
   674
wenzelm@16533
   675
structure ProofData = Context.ProofData;
wenzelm@16533
   676
wenzelm@16533
   677
type T = Data.T;
wenzelm@16533
   678
exception Data of T;
wenzelm@16533
   679
wenzelm@16533
   680
val kind = ProofData.declare Data.name (Data o Data.init);
wenzelm@16533
   681
wenzelm@16533
   682
val init = ProofData.init kind;
wenzelm@16533
   683
val get = ProofData.get kind (fn Data x => x);
wenzelm@16533
   684
fun print prf = Data.print prf (get prf);
wenzelm@16533
   685
val put = ProofData.put kind Data;
wenzelm@16533
   686
fun map f prf = put (f (get prf)) prf;
wenzelm@16533
   687
wenzelm@16533
   688
end;
wenzelm@16533
   689
wenzelm@18632
   690
wenzelm@18632
   691
wenzelm@18632
   692
(** generic data **)
wenzelm@18632
   693
wenzelm@18632
   694
signature GENERIC_DATA_ARGS =
wenzelm@18632
   695
sig
wenzelm@18632
   696
  val name: string
wenzelm@18632
   697
  type T
wenzelm@18632
   698
  val empty: T
wenzelm@18632
   699
  val extend: T -> T
wenzelm@18632
   700
  val merge: Pretty.pp -> T * T -> T
wenzelm@18632
   701
  val print: Context.generic -> T -> unit
wenzelm@18632
   702
end;
wenzelm@18632
   703
wenzelm@18632
   704
signature GENERIC_DATA =
wenzelm@18632
   705
sig
wenzelm@18632
   706
  type T
wenzelm@18632
   707
  val init: theory -> theory
wenzelm@18632
   708
  val get: Context.generic -> T
wenzelm@18632
   709
  val put: T -> Context.generic -> Context.generic
wenzelm@18632
   710
  val map: (T -> T) -> Context.generic -> Context.generic
wenzelm@18632
   711
  val print: Context.generic -> unit
wenzelm@18632
   712
end;
wenzelm@18632
   713
wenzelm@18632
   714
functor GenericDataFun(Data: GENERIC_DATA_ARGS): GENERIC_DATA =
wenzelm@18632
   715
struct
wenzelm@18632
   716
wenzelm@18632
   717
structure ThyData = TheoryDataFun(open Data val copy = I fun print _ _ = ());
wenzelm@18632
   718
structure PrfData =
wenzelm@18632
   719
  ProofDataFun(val name = Data.name type T = Data.T val init = ThyData.get fun print _ _ = ());
wenzelm@18632
   720
wenzelm@18632
   721
type T = Data.T;
wenzelm@18632
   722
val init = ThyData.init #> PrfData.init;
wenzelm@18632
   723
wenzelm@18632
   724
fun get (Context.Theory thy) = ThyData.get thy
wenzelm@18632
   725
  | get (Context.Proof prf) = PrfData.get prf;
wenzelm@18632
   726
wenzelm@18632
   727
fun put x (Context.Theory thy) = Context.Theory (ThyData.put x thy)
wenzelm@18632
   728
  | put x (Context.Proof prf) = Context.Proof (PrfData.put x prf);
wenzelm@18632
   729
wenzelm@18632
   730
fun map f ctxt = put (f (get ctxt)) ctxt;
wenzelm@18632
   731
wenzelm@18632
   732
fun print ctxt = Data.print ctxt (get ctxt);
wenzelm@18632
   733
wenzelm@18632
   734
end;
wenzelm@18632
   735
wenzelm@18632
   736
wenzelm@16533
   737
(*hide private interface*)
wenzelm@16436
   738
structure Context: CONTEXT = Context;