src/HOL/Tools/datatype_codegen.ML
author berghofe
Fri Sep 22 14:36:23 2006 +0200 (2006-09-22)
changeset 20681 0e4df994ad34
parent 20608 86cb35b93f01
child 20835 27d049062b56
permissions -rw-r--r--
Fixed bug concerning the generation of identifiers for
datatypes, which caused the code generator to fail for
mutually recursive datatypes.
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(*  Title:      HOL/datatype_codegen.ML
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    ID:         $Id$
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    Author:     Stefan Berghofer & Florian Haftmann, TU Muenchen
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Code generator for inductive datatypes and type copies ("code types").
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*)
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signature DATATYPE_CODEGEN =
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sig
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  val get_eq: theory -> string -> thm list
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  val get_eq_datatype: theory -> string -> thm list
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  val get_eq_typecopy: theory -> string -> thm list
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  val get_cert: theory -> bool * string -> thm list
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  val get_cert_datatype: theory -> string -> thm list
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  val get_cert_typecopy: theory -> string -> thm list
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  val dest_case_expr: theory -> term
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    -> ((string * typ) list * ((term * typ) * (term * term) list)) option
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  val add_datatype_case_const: string -> theory -> theory
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  val add_datatype_case_defs: string -> theory -> theory
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  type hook = (string * (bool * ((string * sort) list * (string * typ list) list))) list
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    -> theory -> theory
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  val codetype_hook: hook
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  val eq_hook: hook
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  val codetypes_dependency: theory -> (string * bool) list list
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  val add_codetypes_hook_bootstrap: hook -> theory -> theory
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  val the_codetypes_mut_specs: theory -> (string * bool) list
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    -> ((string * sort) list * (string * (bool * (string * typ list) list)) list)
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  val get_codetypes_arities: theory -> (string * bool) list -> sort
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    -> (string * (((string * sort list) * sort) * term list)) list option
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  val prove_codetypes_arities: (thm list -> tactic) -> (string * bool) list -> sort
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    -> (theory -> ((string * sort list) * sort) list -> (string * term list) list
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    -> ((bstring * attribute list) * term) list) -> (theory -> theory) -> theory -> theory
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  val setup: theory -> theory
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  val setup2: theory -> theory
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end;
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structure DatatypeCodegen : DATATYPE_CODEGEN =
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struct
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open Codegen;
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fun mk_tuple [p] = p
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  | mk_tuple ps = Pretty.block (Pretty.str "(" ::
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      List.concat (separate [Pretty.str ",", Pretty.brk 1] (map single ps)) @
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        [Pretty.str ")"]);
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(**** datatype definition ****)
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(* find shortest path to constructor with no recursive arguments *)
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fun find_nonempty (descr: DatatypeAux.descr) is i =
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  let
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    val (_, _, constrs) = valOf (AList.lookup (op =) descr i);
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    fun arg_nonempty (_, DatatypeAux.DtRec i) = if i mem is then NONE
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          else Option.map (curry op + 1 o snd) (find_nonempty descr (i::is) i)
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      | arg_nonempty _ = SOME 0;
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    fun max xs = Library.foldl
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      (fn (NONE, _) => NONE
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        | (SOME i, SOME j) => SOME (Int.max (i, j))
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        | (_, NONE) => NONE) (SOME 0, xs);
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    val xs = sort (int_ord o pairself snd)
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      (List.mapPartial (fn (s, dts) => Option.map (pair s)
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        (max (map (arg_nonempty o DatatypeAux.strip_dtyp) dts))) constrs)
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  in case xs of [] => NONE | x :: _ => SOME x end;
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fun add_dt_defs thy defs dep module gr (descr: DatatypeAux.descr) =
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  let
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    val sg = sign_of thy;
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    val tab = DatatypePackage.get_datatypes thy;
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    val descr' = List.filter (can (map DatatypeAux.dest_DtTFree o #2 o snd)) descr;
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    val rtnames = map (#1 o snd) (List.filter (fn (_, (_, _, cs)) =>
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      exists (exists DatatypeAux.is_rec_type o snd) cs) descr');
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    val (_, (tname, _, _)) :: _ = descr';
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    val node_id = tname ^ " (type)";
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    val module' = if_library (thyname_of_type tname thy) module;
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    fun mk_dtdef gr prfx [] = (gr, [])
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      | mk_dtdef gr prfx ((_, (tname, dts, cs))::xs) =
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          let
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            val tvs = map DatatypeAux.dest_DtTFree dts;
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            val sorts = map (rpair []) tvs;
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            val cs' = map (apsnd (map (DatatypeAux.typ_of_dtyp descr sorts))) cs;
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            val (gr', (_, type_id)) = mk_type_id module' tname gr;
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            val (gr'', ps) =
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              foldl_map (fn (gr, (cname, cargs)) =>
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                foldl_map (invoke_tycodegen thy defs node_id module' false)
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                  (gr, cargs) |>>>
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                mk_const_id module' cname) (gr', cs');
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            val (gr''', rest) = mk_dtdef gr'' "and " xs
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          in
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            (gr''',
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             Pretty.block (Pretty.str prfx ::
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               (if null tvs then [] else
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                  [mk_tuple (map Pretty.str tvs), Pretty.str " "]) @
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               [Pretty.str (type_id ^ " ="), Pretty.brk 1] @
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               List.concat (separate [Pretty.brk 1, Pretty.str "| "]
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                 (map (fn (ps', (_, cname)) => [Pretty.block
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                   (Pretty.str cname ::
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                    (if null ps' then [] else
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                     List.concat ([Pretty.str " of", Pretty.brk 1] ::
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                       separate [Pretty.str " *", Pretty.brk 1]
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                         (map single ps'))))]) ps))) :: rest)
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          end;
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    fun mk_term_of_def gr prfx [] = []
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      | mk_term_of_def gr prfx ((_, (tname, dts, cs)) :: xs) =
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          let
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            val tvs = map DatatypeAux.dest_DtTFree dts;
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            val sorts = map (rpair []) tvs;
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            val cs' = map (apsnd (map (DatatypeAux.typ_of_dtyp descr sorts))) cs;
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            val dts' = map (DatatypeAux.typ_of_dtyp descr sorts) dts;
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            val T = Type (tname, dts');
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            val rest = mk_term_of_def gr "and " xs;
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            val (_, eqs) = foldl_map (fn (prfx, (cname, Ts)) =>
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              let val args = map (fn i =>
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                Pretty.str ("x" ^ string_of_int i)) (1 upto length Ts)
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              in ("  | ", Pretty.blk (4,
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                [Pretty.str prfx, mk_term_of gr module' false T, Pretty.brk 1,
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                 if null Ts then Pretty.str (snd (get_const_id cname gr))
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                 else parens (Pretty.block
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                   [Pretty.str (snd (get_const_id cname gr)),
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                    Pretty.brk 1, mk_tuple args]),
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                 Pretty.str " =", Pretty.brk 1] @
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                 List.concat (separate [Pretty.str " $", Pretty.brk 1]
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                   ([Pretty.str ("Const (\"" ^ cname ^ "\","), Pretty.brk 1,
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                     mk_type false (Ts ---> T), Pretty.str ")"] ::
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                    map (fn (x, U) => [Pretty.block [mk_term_of gr module' false U,
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                      Pretty.brk 1, x]]) (args ~~ Ts)))))
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              end) (prfx, cs')
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          in eqs @ rest end;
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    fun mk_gen_of_def gr prfx [] = []
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      | mk_gen_of_def gr prfx ((i, (tname, dts, cs)) :: xs) =
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          let
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            val tvs = map DatatypeAux.dest_DtTFree dts;
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            val sorts = map (rpair []) tvs;
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            val (cs1, cs2) =
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              List.partition (exists DatatypeAux.is_rec_type o snd) cs;
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            val SOME (cname, _) = find_nonempty descr [i] i;
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            fun mk_delay p = Pretty.block
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              [Pretty.str "fn () =>", Pretty.brk 1, p];
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            fun mk_constr s b (cname, dts) =
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              let
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                val gs = map (fn dt => mk_app false (mk_gen gr module' false rtnames s
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                    (DatatypeAux.typ_of_dtyp descr sorts dt))
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                  [Pretty.str (if b andalso DatatypeAux.is_rec_type dt then "0"
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                     else "j")]) dts;
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                val (_, id) = get_const_id cname gr
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              in case gs of
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                  _ :: _ :: _ => Pretty.block
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                    [Pretty.str id, Pretty.brk 1, mk_tuple gs]
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                | _ => mk_app false (Pretty.str id) (map parens gs)
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              end;
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            fun mk_choice [c] = mk_constr "(i-1)" false c
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              | mk_choice cs = Pretty.block [Pretty.str "one_of",
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                  Pretty.brk 1, Pretty.blk (1, Pretty.str "[" ::
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                  List.concat (separate [Pretty.str ",", Pretty.fbrk]
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                    (map (single o mk_delay o mk_constr "(i-1)" false) cs)) @
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                  [Pretty.str "]"]), Pretty.brk 1, Pretty.str "()"];
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            val gs = map (Pretty.str o suffix "G" o strip_tname) tvs;
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            val gen_name = "gen_" ^ snd (get_type_id tname gr)
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          in
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            Pretty.blk (4, separate (Pretty.brk 1) 
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                (Pretty.str (prfx ^ gen_name ^
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                   (if null cs1 then "" else "'")) :: gs @
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                 (if null cs1 then [] else [Pretty.str "i"]) @
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                 [Pretty.str "j"]) @
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              [Pretty.str " =", Pretty.brk 1] @
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              (if not (null cs1) andalso not (null cs2)
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               then [Pretty.str "frequency", Pretty.brk 1,
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                 Pretty.blk (1, [Pretty.str "[",
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                   mk_tuple [Pretty.str "i", mk_delay (mk_choice cs1)],
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                   Pretty.str ",", Pretty.fbrk,
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                   mk_tuple [Pretty.str "1", mk_delay (mk_choice cs2)],
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                   Pretty.str "]"]), Pretty.brk 1, Pretty.str "()"]
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               else if null cs2 then
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                 [Pretty.block [Pretty.str "(case", Pretty.brk 1,
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                   Pretty.str "i", Pretty.brk 1, Pretty.str "of",
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                   Pretty.brk 1, Pretty.str "0 =>", Pretty.brk 1,
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                   mk_constr "0" true (cname, valOf (AList.lookup (op =) cs cname)),
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                   Pretty.brk 1, Pretty.str "| _ =>", Pretty.brk 1,
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                   mk_choice cs1, Pretty.str ")"]]
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               else [mk_choice cs2])) ::
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            (if null cs1 then []
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             else [Pretty.blk (4, separate (Pretty.brk 1) 
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                 (Pretty.str ("and " ^ gen_name) :: gs @ [Pretty.str "i"]) @
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               [Pretty.str " =", Pretty.brk 1] @
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               separate (Pretty.brk 1) (Pretty.str (gen_name ^ "'") :: gs @
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                 [Pretty.str "i", Pretty.str "i"]))]) @
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            mk_gen_of_def gr "and " xs
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          end
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  in
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    ((add_edge_acyclic (node_id, dep) gr
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        handle Graph.CYCLES _ => gr) handle Graph.UNDEF _ =>
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         let
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           val gr1 = add_edge (node_id, dep)
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             (new_node (node_id, (NONE, "", "")) gr);
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           val (gr2, dtdef) = mk_dtdef gr1 "datatype " descr';
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         in
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           map_node node_id (K (NONE, module',
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             Pretty.string_of (Pretty.blk (0, separate Pretty.fbrk dtdef @
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               [Pretty.str ";"])) ^ "\n\n" ^
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             (if "term_of" mem !mode then
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                Pretty.string_of (Pretty.blk (0, separate Pretty.fbrk
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                  (mk_term_of_def gr2 "fun " descr') @ [Pretty.str ";"])) ^ "\n\n"
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              else "") ^
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             (if "test" mem !mode then
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                Pretty.string_of (Pretty.blk (0, separate Pretty.fbrk
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                  (mk_gen_of_def gr2 "fun " descr') @ [Pretty.str ";"])) ^ "\n\n"
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              else ""))) gr2
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         end,
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     module')
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  end;
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(**** case expressions ****)
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fun pretty_case thy defs gr dep module brack constrs (c as Const (_, T)) ts =
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  let val i = length constrs
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  in if length ts <= i then
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       invoke_codegen thy defs dep module brack (gr, eta_expand c ts (i+1))
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    else
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      let
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        val ts1 = Library.take (i, ts);
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        val t :: ts2 = Library.drop (i, ts);
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        val names = foldr add_term_names
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          (map (fst o fst o dest_Var) (foldr add_term_vars [] ts1)) ts1;
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        val (Ts, dT) = split_last (Library.take (i+1, fst (strip_type T)));
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        fun pcase gr [] [] [] = ([], gr)
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          | pcase gr ((cname, cargs)::cs) (t::ts) (U::Us) =
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              let
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                val j = length cargs;
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                val xs = Name.variant_list names (replicate j "x");
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                val Us' = Library.take (j, fst (strip_type U));
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                val frees = map Free (xs ~~ Us');
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                val (gr0, cp) = invoke_codegen thy defs dep module false
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                  (gr, list_comb (Const (cname, Us' ---> dT), frees));
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                val t' = Envir.beta_norm (list_comb (t, frees));
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                val (gr1, p) = invoke_codegen thy defs dep module false (gr0, t');
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                val (ps, gr2) = pcase gr1 cs ts Us;
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              in
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                ([Pretty.block [cp, Pretty.str " =>", Pretty.brk 1, p]] :: ps, gr2)
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              end;
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        val (ps1, gr1) = pcase gr constrs ts1 Ts;
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        val ps = List.concat (separate [Pretty.brk 1, Pretty.str "| "] ps1);
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        val (gr2, p) = invoke_codegen thy defs dep module false (gr1, t);
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        val (gr3, ps2) = foldl_map (invoke_codegen thy defs dep module true) (gr2, ts2)
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      in (gr3, (if not (null ts2) andalso brack then parens else I)
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        (Pretty.block (separate (Pretty.brk 1)
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          (Pretty.block ([Pretty.str "(case ", p, Pretty.str " of",
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             Pretty.brk 1] @ ps @ [Pretty.str ")"]) :: ps2))))
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      end
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  end;
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(**** constructors ****)
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fun pretty_constr thy defs gr dep module brack args (c as Const (s, T)) ts =
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  let val i = length args
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  in if i > 1 andalso length ts < i then
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      invoke_codegen thy defs dep module brack (gr, eta_expand c ts i)
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     else
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       let
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         val id = mk_qual_id module (get_const_id s gr);
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         val (gr', ps) = foldl_map
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           (invoke_codegen thy defs dep module (i = 1)) (gr, ts);
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       in (case args of
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          _ :: _ :: _ => (gr', (if brack then parens else I)
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            (Pretty.block [Pretty.str id, Pretty.brk 1, mk_tuple ps]))
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        | _ => (gr', mk_app brack (Pretty.str id) ps))
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       end
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  end;
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(**** code generators for terms and types ****)
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fun datatype_codegen thy defs gr dep module brack t = (case strip_comb t of
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   (c as Const (s, T), ts) =>
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       (case Library.find_first (fn (_, {index, descr, case_name, ...}) =>
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         s = case_name orelse
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           AList.defined (op =) ((#3 o the o AList.lookup (op =) descr) index) s)
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             (Symtab.dest (DatatypePackage.get_datatypes thy)) of
skalberg@15531
   295
          NONE => NONE
skalberg@15531
   296
        | SOME (tname, {index, descr, ...}) =>
haftmann@18247
   297
           if is_some (get_assoc_code thy s T) then NONE else
haftmann@17521
   298
           let val SOME (_, _, constrs) = AList.lookup (op =) descr index
haftmann@17521
   299
           in (case (AList.lookup (op =) constrs s, strip_type T) of
berghofe@17144
   300
               (NONE, _) => SOME (pretty_case thy defs gr dep module brack
haftmann@18247
   301
                 ((#3 o the o AList.lookup (op =) descr) index) c ts)
berghofe@16645
   302
             | (SOME args, (_, Type _)) => SOME (pretty_constr thy defs
berghofe@17144
   303
                 (fst (invoke_tycodegen thy defs dep module false
berghofe@16645
   304
                    (gr, snd (strip_type T))))
berghofe@17144
   305
                 dep module brack args c ts)
skalberg@15531
   306
             | _ => NONE)
berghofe@12445
   307
           end)
skalberg@15531
   308
 |  _ => NONE);
berghofe@12445
   309
berghofe@17144
   310
fun datatype_tycodegen thy defs gr dep module brack (Type (s, Ts)) =
wenzelm@17412
   311
      (case Symtab.lookup (DatatypePackage.get_datatypes thy) s of
skalberg@15531
   312
         NONE => NONE
skalberg@15531
   313
       | SOME {descr, ...} =>
skalberg@15570
   314
           if isSome (get_assoc_type thy s) then NONE else
berghofe@16645
   315
           let
berghofe@16645
   316
             val (gr', ps) = foldl_map
berghofe@17144
   317
               (invoke_tycodegen thy defs dep module false) (gr, Ts);
berghofe@20681
   318
             val (gr'', module') = add_dt_defs thy defs dep module gr' descr;
berghofe@20681
   319
             val (gr''', tyid) = mk_type_id module' s gr''
berghofe@20681
   320
           in SOME (gr''',
berghofe@12445
   321
             Pretty.block ((if null Ts then [] else
berghofe@12445
   322
               [mk_tuple ps, Pretty.str " "]) @
berghofe@20681
   323
               [Pretty.str (mk_qual_id module tyid)]))
berghofe@12445
   324
           end)
berghofe@16645
   325
  | datatype_tycodegen _ _ _ _ _ _ _ = NONE;
berghofe@12445
   326
haftmann@18247
   327
haftmann@20426
   328
(** datatypes for code 2nd generation **)
haftmann@20177
   329
haftmann@20105
   330
fun dtyp_of_case_const thy c =
haftmann@20105
   331
  get_first (fn (dtco, { case_name, ... }) => if case_name = c then SOME dtco else NONE)
haftmann@20105
   332
    ((Symtab.dest o DatatypePackage.get_datatypes) thy);
haftmann@20105
   333
haftmann@20105
   334
fun dest_case_app cs ts tys =
haftmann@20105
   335
  let
haftmann@20192
   336
    val abs = Name.names Name.context "a" (Library.drop (length ts, tys));
haftmann@20105
   337
    val (ts', t) = split_last (ts @ map Free abs);
haftmann@20105
   338
    val (tys', sty) = split_last tys;
haftmann@20105
   339
    fun freenames_of t = fold_aterms
haftmann@20105
   340
      (fn Free (v, _) => insert (op =) v | _ => I) t [];
haftmann@20105
   341
    fun dest_case ((c, tys_decl), ty) t =
haftmann@20105
   342
      let
haftmann@20105
   343
        val (vs, t') = Term.strip_abs_eta (length tys_decl) t;
haftmann@20105
   344
        val c' = list_comb (Const (c, map snd vs ---> sty), map Free vs);
haftmann@20105
   345
      in (c', t') end;
haftmann@20105
   346
  in (abs, ((t, sty), map2 dest_case (cs ~~ tys') ts')) end;
haftmann@20105
   347
haftmann@20105
   348
fun dest_case_expr thy t =
haftmann@20105
   349
  case strip_comb t
haftmann@20105
   350
   of (Const (c, ty), ts) =>
haftmann@20105
   351
        (case dtyp_of_case_const thy c
haftmann@20105
   352
         of SOME dtco =>
haftmann@20105
   353
              let val (vs, cs) = (the o DatatypePackage.get_datatype_spec thy) dtco;
haftmann@20105
   354
              in SOME (dest_case_app cs ts (Library.take (length cs + 1, (fst o strip_type) ty))) end
haftmann@20105
   355
          | _ => NONE)
haftmann@20105
   356
    | _ => NONE;
haftmann@20105
   357
haftmann@20426
   358
fun mk_distinct cos =
haftmann@20426
   359
  let
haftmann@20426
   360
    fun sym_product [] = []
haftmann@20426
   361
      | sym_product (x::xs) = map (pair x) xs @ sym_product xs;
haftmann@20426
   362
    fun mk_co_args (co, tys) ctxt =
haftmann@20426
   363
      let
haftmann@20426
   364
        val names = Name.invents ctxt "a" (length tys);
haftmann@20426
   365
        val ctxt' = fold Name.declare names ctxt;
haftmann@20426
   366
        val vs = map2 (curry Free) names tys;
haftmann@20426
   367
      in (vs, ctxt) end;
haftmann@20426
   368
    fun mk_dist ((co1, tys1), (co2, tys2)) =
haftmann@20426
   369
      let
haftmann@20426
   370
        val ((xs1, xs2), _) = Name.context
haftmann@20426
   371
          |> mk_co_args (co1, tys1)
haftmann@20426
   372
          ||>> mk_co_args (co2, tys2);
haftmann@20426
   373
        val prem = HOLogic.mk_eq
haftmann@20426
   374
          (list_comb (co1, xs1), list_comb (co2, xs2));
haftmann@20426
   375
        val t = HOLogic.mk_not prem;
haftmann@20426
   376
      in HOLogic.mk_Trueprop t end;
haftmann@20426
   377
  in map mk_dist (sym_product cos) end;
haftmann@20426
   378
haftmann@20426
   379
local
haftmann@20597
   380
  val bool_eq_implies = thm "iffD1";
haftmann@20597
   381
  val rew_eq = thm "HOL.atomize_eq" |> Thm.symmetric;
haftmann@20597
   382
  val rew_conj = thm "HOL.atomize_conj" |> Thm.symmetric;
haftmann@20426
   383
  val not_false_true = iffD2 OF [nth (thms "HOL.simp_thms") 7, TrueI];
haftmann@20597
   384
  val not_eq_quodlibet = thm "not_eq_quodlibet";
haftmann@20597
   385
in fun get_cert_datatype thy dtco =
haftmann@20426
   386
  let
haftmann@20426
   387
    val SOME (vs, cs) = DatatypePackage.get_datatype_spec thy dtco;
haftmann@20597
   388
    val inject = (#inject o DatatypePackage.the_datatype thy) dtco
haftmann@20597
   389
      |> map (fn thm => bool_eq_implies OF [thm] )
haftmann@20597
   390
      |> map (Tactic.rewrite_rule [rew_eq, rew_conj]);
haftmann@20426
   391
    val ctxt = Context.init_proof thy;
haftmann@20426
   392
    val simpset = Simplifier.context ctxt
haftmann@20597
   393
      (MetaSimplifier.empty_ss addsimprocs [DatatypePackage.distinct_simproc]);
haftmann@20426
   394
    val cos = map (fn (co, tys) =>
haftmann@20426
   395
        (Const (co, tys ---> Type (dtco, map TFree vs)), tys)) cs;
haftmann@20426
   396
    val tac = ALLGOALS (simp_tac simpset)
haftmann@20426
   397
      THEN ALLGOALS (ProofContext.fact_tac [not_false_true, TrueI]);
haftmann@20426
   398
    val distinct =
haftmann@20426
   399
      mk_distinct cos
haftmann@20426
   400
      |> map (fn t => Goal.prove_global thy [] [] t (K tac))
haftmann@20597
   401
      |> map (fn thm => not_eq_quodlibet OF [thm])
haftmann@20597
   402
  in inject @ distinct end
haftmann@20597
   403
and get_cert_typecopy thy dtco =
haftmann@20597
   404
  let
haftmann@20597
   405
    val SOME { inject, ... } = TypecopyPackage.get_typecopy_info thy dtco;
haftmann@20597
   406
    val thm = Tactic.rewrite_rule [rew_eq] (bool_eq_implies OF [inject]);
haftmann@20597
   407
  in
haftmann@20597
   408
    [thm]
haftmann@20597
   409
  end;
haftmann@20426
   410
end (*local*);
haftmann@20426
   411
haftmann@20597
   412
fun get_cert thy (true, dtco) = get_cert_datatype thy dtco
haftmann@20597
   413
  | get_cert thy (false, dtco) = get_cert_typecopy thy dtco;
haftmann@19346
   414
haftmann@19599
   415
fun add_datatype_case_const dtco thy =
haftmann@19599
   416
  let
haftmann@20105
   417
    val {case_name, index, descr, ...} = DatatypePackage.the_datatype thy dtco;
haftmann@19599
   418
  in
haftmann@20439
   419
    CodegenPackage.add_appconst (case_name, CodegenPackage.appgen_case dest_case_expr) thy
haftmann@19599
   420
  end;
haftmann@19346
   421
haftmann@19818
   422
fun add_datatype_case_defs dtco thy =
haftmann@19818
   423
  let
haftmann@19818
   424
    val {case_rewrites, ...} = DatatypePackage.the_datatype thy dtco
haftmann@19818
   425
  in
haftmann@20597
   426
    fold_rev CodegenData.add_func case_rewrites thy
haftmann@19818
   427
  end;
haftmann@19818
   428
haftmann@20426
   429
haftmann@20426
   430
(** codetypes for code 2nd generation **)
haftmann@20426
   431
haftmann@20426
   432
type hook = (string * (bool * ((string * sort) list * (string * typ list) list))) list
haftmann@20426
   433
  -> theory -> theory;
haftmann@20426
   434
haftmann@20426
   435
fun codetypes_dependency thy =
haftmann@20426
   436
  let
haftmann@20426
   437
    val names =
haftmann@20426
   438
      map (rpair true) (Symtab.keys (DatatypePackage.get_datatypes thy))
haftmann@20426
   439
        @ map (rpair false) (TypecopyPackage.get_typecopies thy);
haftmann@20426
   440
    fun add_node (name, is_dt) =
haftmann@20426
   441
      let
haftmann@20426
   442
        fun add_tycos (Type (tyco, tys)) = insert (op =) tyco #> fold add_tycos tys
haftmann@20426
   443
          | add_tycos _ = I;
haftmann@20426
   444
        val tys = if is_dt then
haftmann@20426
   445
            (maps snd o snd o the o DatatypePackage.get_datatype_spec thy) name
haftmann@20426
   446
          else
haftmann@20426
   447
            [(#typ o the o TypecopyPackage.get_typecopy_info thy) name]
haftmann@20426
   448
        val deps = (filter (AList.defined (op =) names) o maps (fn ty =>
haftmann@20426
   449
          add_tycos ty [])) tys;
haftmann@20426
   450
      in
haftmann@20426
   451
        Graph.default_node (name, ())
haftmann@20426
   452
        #> fold (fn name' =>
haftmann@20426
   453
             Graph.default_node (name', ())
haftmann@20426
   454
             #> Graph.add_edge (name', name)
haftmann@20426
   455
           ) deps
haftmann@20426
   456
      end
haftmann@20426
   457
  in
haftmann@20426
   458
    Graph.empty
haftmann@20426
   459
    |> fold add_node names
haftmann@20426
   460
    |> Graph.strong_conn
haftmann@20426
   461
    |> map (AList.make (the o AList.lookup (op =) names))
haftmann@20426
   462
  end;
haftmann@20426
   463
haftmann@20426
   464
fun mk_typecopy_spec ({ vs, constr, typ, ... } : TypecopyPackage.info) =
haftmann@20426
   465
  (vs, [(constr, [typ])]);
haftmann@20426
   466
haftmann@20426
   467
fun get_spec thy (dtco, true) =
haftmann@20426
   468
      (the o DatatypePackage.get_datatype_spec thy) dtco
haftmann@20426
   469
  | get_spec thy (tyco, false) =
haftmann@20426
   470
      (mk_typecopy_spec o the o TypecopyPackage.get_typecopy_info thy) tyco;
haftmann@20426
   471
haftmann@20426
   472
fun add_spec thy (tyco, is_dt) =
haftmann@20426
   473
  (tyco, (is_dt, get_spec thy (tyco, is_dt)));
haftmann@20426
   474
haftmann@20426
   475
fun add_codetypes_hook_bootstrap hook thy =
haftmann@20426
   476
  let
haftmann@20426
   477
    fun datatype_hook dtcos thy =
haftmann@20426
   478
      hook (map (add_spec thy) (map (rpair true) dtcos)) thy;
haftmann@20426
   479
    fun typecopy_hook ((tyco, info )) thy =
haftmann@20426
   480
      hook ([(tyco, (false, mk_typecopy_spec info))]) thy;
haftmann@20426
   481
  in
haftmann@20426
   482
    thy
haftmann@20426
   483
    |> fold hook ((map o map) (add_spec thy) (codetypes_dependency thy))
haftmann@20426
   484
    |> DatatypeHooks.add datatype_hook
haftmann@20426
   485
    |> TypecopyPackage.add_hook typecopy_hook
haftmann@20426
   486
  end;
haftmann@20426
   487
haftmann@20426
   488
fun the_codetypes_mut_specs thy ([(tyco, is_dt)]) =
haftmann@20426
   489
      let
haftmann@20426
   490
        val (vs, cs) = get_spec thy (tyco, is_dt)
haftmann@20426
   491
      in (vs, [(tyco, (is_dt, cs))]) end
haftmann@20426
   492
  | the_codetypes_mut_specs thy (tycos' as (tyco, true) :: _) =
haftmann@20426
   493
      let
haftmann@20426
   494
        val tycos = map fst tycos';
haftmann@20426
   495
        val tycos'' = (map (#1 o snd) o #descr o DatatypePackage.the_datatype thy) tyco;
haftmann@20426
   496
        val _ = if gen_subset (op =) (tycos, tycos'') then () else
haftmann@20426
   497
          error ("datatype constructors are not mutually recursive: " ^ (commas o map quote) tycos);
haftmann@20426
   498
        val (vs::_, css) = split_list (map (the o DatatypePackage.get_datatype_spec thy) tycos);
haftmann@20426
   499
      in (vs, map2 (fn (tyco, is_dt) => fn cs => (tyco, (is_dt, cs))) tycos' css) end;
haftmann@20426
   500
haftmann@20426
   501
fun get_codetypes_arities thy tycos sort =
haftmann@20426
   502
  let
haftmann@20426
   503
    val algebra = Sign.classes_of thy;
haftmann@20426
   504
    val (vs_proto, css_proto) = the_codetypes_mut_specs thy tycos;
haftmann@20426
   505
    val vs = map (fn (v, vsort) => (v, Sorts.inter_sort algebra (vsort, sort))) vs_proto;
haftmann@20426
   506
    fun inst_type tyco (c, tys) =
haftmann@20426
   507
      let
haftmann@20426
   508
        val tys' = (map o map_atyps)
haftmann@20426
   509
          (fn TFree (v, _) => TFree (v, the (AList.lookup (op =) vs v))) tys
haftmann@20426
   510
      in (c, tys') end;
haftmann@20426
   511
    val css = map (fn (tyco, (_, cs)) => (tyco, (map (inst_type tyco) cs))) css_proto;
haftmann@20426
   512
    fun mk_arity tyco =
haftmann@20426
   513
      ((tyco, map snd vs), sort);
haftmann@20426
   514
    fun typ_of_sort ty =
haftmann@20426
   515
      let
haftmann@20426
   516
        val arities = map (fn (tyco, _) => ((tyco, map snd vs), sort)) css;
haftmann@20426
   517
      in ClassPackage.assume_arities_of_sort thy arities (ty, sort) end;
haftmann@20426
   518
    fun mk_cons tyco (c, tys) =
haftmann@20426
   519
      let
haftmann@20426
   520
        val ts = Name.names Name.context "a" tys;
haftmann@20426
   521
        val ty = tys ---> Type (tyco, map TFree vs);
haftmann@20426
   522
      in list_comb (Const (c, ty), map Free ts) end;
haftmann@20426
   523
  in if forall (fn (_, cs) => forall (fn (_, tys) => forall typ_of_sort tys) cs) css
haftmann@20426
   524
    then SOME (
haftmann@20426
   525
      map (fn (tyco, cs) => (tyco, (mk_arity tyco, map (mk_cons tyco) cs))) css
haftmann@20426
   526
    ) else NONE
haftmann@20426
   527
  end;
haftmann@20426
   528
haftmann@20597
   529
fun prove_codetypes_arities tac tycos sort f after_qed thy =
haftmann@20426
   530
  case get_codetypes_arities thy tycos sort
haftmann@20426
   531
   of NONE => thy
haftmann@20426
   532
    | SOME insts => let
haftmann@20426
   533
        fun proven ((tyco, asorts), sort) =
haftmann@20426
   534
          Sorts.of_sort (Sign.classes_of thy)
haftmann@20426
   535
            (Type (tyco, map TFree (Name.names Name.context "'a" asorts)), sort);
haftmann@20426
   536
        val (arities, css) = (split_list o map_filter
haftmann@20426
   537
          (fn (tyco, (arity, cs)) => if proven arity
haftmann@20426
   538
            then NONE else SOME (arity, (tyco, cs)))) insts;
haftmann@20426
   539
      in
haftmann@20426
   540
        thy
haftmann@20597
   541
        |> K ((not o null) arities) ? (ClassPackage.prove_instance_arity tac
haftmann@20597
   542
             arities ("", []) (f thy arities css) #> after_qed)
haftmann@20426
   543
      end;
haftmann@20426
   544
haftmann@20597
   545
local
haftmann@20597
   546
  val class_eq = "OperationalEquality.eq";
haftmann@20597
   547
in fun add_eq_instance specs =
haftmann@20597
   548
  prove_codetypes_arities
haftmann@20597
   549
    (K (ClassPackage.intro_classes_tac []))
haftmann@20597
   550
    (map (fn (tyco, (is_dt, _)) => (tyco, is_dt)) specs)
haftmann@20597
   551
    [class_eq] ((K o K o K) [])
haftmann@20597
   552
end; (*local*)
haftmann@20597
   553
haftmann@20597
   554
local
haftmann@20597
   555
  val not_sym = thm "HOL.not_sym";
haftmann@20597
   556
  val not_false_true = iffD2 OF [nth (thms "HOL.simp_thms") 7, TrueI];
haftmann@20597
   557
in fun get_eq_datatype thy dtco =
haftmann@20597
   558
  let
haftmann@20608
   559
(*     val _ = writeln "01";  *)
haftmann@20597
   560
    val SOME (vs, cs) = DatatypePackage.get_datatype_spec (Context.check_thy thy) dtco;
haftmann@20608
   561
(*     val _ = writeln "02";  *)
haftmann@20597
   562
    fun mk_triv_inject co =
haftmann@20597
   563
      let
haftmann@20597
   564
        val ct' = Thm.cterm_of (Context.check_thy thy)
haftmann@20597
   565
          (Const (co, Type (dtco, map (fn (v, sort) => TVar ((v, 0), sort)) vs)))
haftmann@20597
   566
        val cty' = Thm.ctyp_of_term ct';
haftmann@20597
   567
        val refl = Thm.prop_of HOL.refl;
haftmann@20597
   568
        val SOME (ct, cty) = fold_aterms (fn Var (v, ty) =>
haftmann@20597
   569
          (K o SOME) (Thm.cterm_of (Context.check_thy thy) (Var (v, Thm.typ_of cty')), Thm.ctyp_of (Context.check_thy thy) ty) | _ => I)
haftmann@20597
   570
          refl NONE;
haftmann@20597
   571
      in eqTrueI OF [Thm.instantiate ([(cty, cty')], [(ct, ct')]) HOL.refl] end;
haftmann@20608
   572
(*     val _ = writeln "03";  *)
haftmann@20597
   573
    val inject1 = map_filter (fn (co, []) => SOME (mk_triv_inject co) | _ => NONE) cs
haftmann@20608
   574
(*     val _ = writeln "04";  *)
haftmann@20597
   575
    val inject2 = (#inject o DatatypePackage.the_datatype (Context.check_thy thy)) dtco;
haftmann@20608
   576
(*     val _ = writeln "05";  *)
haftmann@20597
   577
    val ctxt = Context.init_proof (Context.check_thy thy);
haftmann@20608
   578
(*     val _ = writeln "06";  *)
haftmann@20597
   579
    val simpset = Simplifier.context ctxt
haftmann@20597
   580
      (MetaSimplifier.empty_ss addsimprocs [distinct_simproc]);
haftmann@20608
   581
(*     val _ = writeln "07";  *)
haftmann@20597
   582
    val cos = map (fn (co, tys) =>
haftmann@20597
   583
        (Const (co, tys ---> Type (dtco, map TFree vs)), tys)) cs;
haftmann@20597
   584
    val tac = ALLGOALS (simp_tac simpset)
haftmann@20597
   585
      THEN ALLGOALS (ProofContext.fact_tac [not_false_true, TrueI]);
haftmann@20608
   586
(*     val _ = writeln "08";  *)
haftmann@20597
   587
    val distinct =
haftmann@20597
   588
      mk_distinct cos
haftmann@20597
   589
      |> map (fn t => Goal.prove_global (Context.check_thy thy) [] [] t (K tac))
haftmann@20597
   590
      |> (fn thms => thms @ map (fn thm => not_sym OF [thm]) thms)
haftmann@20608
   591
(*     val _ = writeln "09";  *)
haftmann@20597
   592
  in inject1 @ inject2 @ distinct end;
haftmann@20597
   593
haftmann@20597
   594
fun get_eq_typecopy thy tyco =
haftmann@20597
   595
  case TypecopyPackage.get_typecopy_info thy tyco
haftmann@20597
   596
   of SOME { inject, ... } => [inject]
haftmann@20597
   597
    | NONE => [];
haftmann@20597
   598
haftmann@20597
   599
local
haftmann@20597
   600
  val lift_not_thm = thm "HOL.Eq_FalseI";
haftmann@20597
   601
  val lift_thm = thm "HOL.eq_reflection";
haftmann@20597
   602
  val eq_def_sym = thm "eq_def" |> Thm.symmetric;
haftmann@20597
   603
  fun get_eq_thms thy tyco = case DatatypePackage.get_datatype (Context.check_thy thy) tyco
haftmann@20597
   604
   of SOME _ => get_eq_datatype (Context.check_thy thy) tyco
haftmann@20597
   605
    | NONE => case TypecopyPackage.get_typecopy_info thy tyco
haftmann@20597
   606
       of SOME _ => get_eq_typecopy thy tyco
haftmann@20597
   607
        | NONE => [];
haftmann@20597
   608
in
haftmann@20597
   609
  fun get_eq thy tyco =
haftmann@20597
   610
    get_eq_thms (Context.check_thy thy) tyco
haftmann@20608
   611
(*     |> tap (fn _ => writeln "10")  *)
haftmann@20597
   612
    |> maps ((#mk o #mk_rews o snd o MetaSimplifier.rep_ss o Simplifier.simpset_of) (Context.check_thy thy))
haftmann@20608
   613
(*     |> tap (fn _ => writeln "11")  *)
haftmann@20597
   614
    |> constrain_op_eq (Context.check_thy thy)
haftmann@20608
   615
(*     |> tap (fn _ => writeln "12")  *)
haftmann@20597
   616
    |> map (Tactic.rewrite_rule [eq_def_sym])
haftmann@20608
   617
(*     |> tap (fn _ => writeln "13")  *)
haftmann@20597
   618
end;
haftmann@20597
   619
haftmann@20597
   620
end;
haftmann@20597
   621
haftmann@20597
   622
fun add_eq_thms (dtco, (_, (vs, cs))) thy =
haftmann@20597
   623
  let
haftmann@20597
   624
    val thy_ref = Theory.self_ref thy;
haftmann@20597
   625
    val ty = Type (dtco, map TFree vs) |> Logic.varifyT;
haftmann@20597
   626
    val c = CodegenConsts.norm thy ("OperationalEquality.eq", [ty]);
haftmann@20608
   627
    val get_thms = (fn () => get_eq (Theory.deref thy_ref) dtco |> rev);
haftmann@20597
   628
  in
haftmann@20597
   629
    CodegenData.add_funcl
haftmann@20597
   630
      (c, CodegenData.lazy get_thms) thy
haftmann@20597
   631
  end;
haftmann@20597
   632
haftmann@20597
   633
fun codetype_hook dtcos theory =
haftmann@20597
   634
  let
haftmann@20597
   635
    fun add (dtco, (flag, spec)) thy =
haftmann@20597
   636
      let
haftmann@20597
   637
        fun cert thy_ref = (fn () => get_cert (Theory.deref thy_ref) (flag, dtco));
haftmann@20597
   638
      in
haftmann@20597
   639
        CodegenData.add_datatype
haftmann@20597
   640
          (dtco, (spec, CodegenData.lazy (cert (Theory.self_ref thy)))) thy
haftmann@20597
   641
      end;
haftmann@20597
   642
  in
haftmann@20597
   643
    theory
haftmann@20597
   644
    |> fold add dtcos
haftmann@20597
   645
  end;
haftmann@20597
   646
haftmann@20597
   647
fun eq_hook dtcos =
haftmann@20597
   648
  add_eq_instance dtcos (fold add_eq_thms dtcos);
haftmann@20597
   649
haftmann@20426
   650
haftmann@20426
   651
haftmann@20426
   652
(** theory setup **)
haftmann@20426
   653
haftmann@19008
   654
val setup = 
haftmann@20597
   655
  add_codegen "datatype" datatype_codegen
haftmann@20597
   656
  #> add_tycodegen "datatype" datatype_tycodegen 
haftmann@20597
   657
  #> DatatypeHooks.add (fold add_datatype_case_const)
haftmann@20597
   658
  #> DatatypeHooks.add (fold add_datatype_case_defs)
haftmann@20597
   659
haftmann@20597
   660
val setup2 =
haftmann@20597
   661
  add_codetypes_hook_bootstrap codetype_hook
haftmann@20597
   662
  #> add_codetypes_hook_bootstrap eq_hook
haftmann@20597
   663
berghofe@12445
   664
berghofe@12445
   665
end;