src/Tools/Code/code_thingol.ML
author haftmann
Thu Jun 17 15:59:46 2010 +0200 (2010-06-17)
changeset 37448 3bd4b3809bee
parent 37447 ad3e04f289b6
child 37640 fc27be4c6b1c
permissions -rw-r--r--
explicit type variable arguments for constructors
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(*  Title:      Tools/code/code_thingol.ML
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    Author:     Florian Haftmann, TU Muenchen
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Intermediate language ("Thin-gol") representing executable code.
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Representation and translation.
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*)
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infix 8 `%%;
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infix 4 `$;
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infix 4 `$$;
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infixr 3 `|=>;
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infixr 3 `|==>;
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signature BASIC_CODE_THINGOL =
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sig
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  type vname = string;
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  datatype dict =
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      DictConst of string * dict list list
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    | DictVar of string list * (vname * (int * int));
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  datatype itype =
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      `%% of string * itype list
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    | ITyVar of vname;
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  type const = string * ((itype list * dict list list) * itype list (*types of arguments*))
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  datatype iterm =
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      IConst of const
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    | IVar of vname option
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    | `$ of iterm * iterm
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    | `|=> of (vname option * itype) * iterm
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    | ICase of ((iterm * itype) * (iterm * iterm) list) * iterm;
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        (*((term, type), [(selector pattern, body term )]), primitive term)*)
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  val `$$ : iterm * iterm list -> iterm;
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  val `|==> : (vname option * itype) list * iterm -> iterm;
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  type typscheme = (vname * sort) list * itype;
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end;
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signature CODE_THINGOL =
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sig
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  include BASIC_CODE_THINGOL
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  val fun_tyco: string
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  val unfoldl: ('a -> ('a * 'b) option) -> 'a -> 'a * 'b list
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  val unfoldr: ('a -> ('b * 'a) option) -> 'a -> 'b list * 'a
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  val unfold_fun: itype -> itype list * itype
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  val unfold_app: iterm -> iterm * iterm list
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  val unfold_abs: iterm -> (vname option * itype) list * iterm
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  val split_let: iterm -> (((iterm * itype) * iterm) * iterm) option
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  val unfold_let: iterm -> ((iterm * itype) * iterm) list * iterm
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  val split_pat_abs: iterm -> ((iterm * itype) * iterm) option
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  val unfold_pat_abs: iterm -> (iterm * itype) list * iterm
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  val unfold_const_app: iterm -> (const * iterm list) option
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  val is_IVar: iterm -> bool
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  val eta_expand: int -> const * iterm list -> iterm
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  val contains_dictvar: iterm -> bool
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  val locally_monomorphic: iterm -> bool
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  val add_constnames: iterm -> string list -> string list
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  val add_tyconames: iterm -> string list -> string list
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  val fold_varnames: (string -> 'a -> 'a) -> iterm -> 'a -> 'a
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  type naming
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  val empty_naming: naming
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  val lookup_class: naming -> class -> string option
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  val lookup_classrel: naming -> class * class -> string option
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  val lookup_tyco: naming -> string -> string option
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  val lookup_instance: naming -> class * string -> string option
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  val lookup_const: naming -> string -> string option
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  val ensure_declared_const: theory -> string -> naming -> string * naming
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  datatype stmt =
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      NoStmt
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    | Fun of string * ((typscheme * ((iterm list * iterm) * (thm option * bool)) list) * thm option)
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    | Datatype of string * ((vname * sort) list *
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        ((string * vname list (*type argument wrt. canonical order*)) * itype list) list)
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    | Datatypecons of string * string
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    | Class of class * (vname * ((class * string) list * (string * itype) list))
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    | Classrel of class * class
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    | Classparam of string * class
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    | Classinst of (class * (string * (vname * sort) list) (*class and arity*))
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          * ((class * (string * (string * dict list list))) list (*super instances*)
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        * (((string * const) * (thm * bool)) list (*class parameter instances*)
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          * ((string * const) * (thm * bool)) list (*super class parameter instances*)))
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  type program = stmt Graph.T
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  val empty_funs: program -> string list
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  val map_terms_bottom_up: (iterm -> iterm) -> iterm -> iterm
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  val map_terms_stmt: (iterm -> iterm) -> stmt -> stmt
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  val is_cons: program -> string -> bool
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  val is_case: stmt -> bool
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  val contr_classparam_typs: program -> string -> itype option list
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  val labelled_name: theory -> program -> string -> string
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  val group_stmts: theory -> program
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    -> ((string * stmt) list * (string * stmt) list
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      * ((string * stmt) list * (string * stmt) list)) list
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  val read_const_exprs: theory -> string list -> string list * string list
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  val consts_program: theory -> bool -> string list -> string list * (naming * program)
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  val eval_conv: theory
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    -> (naming -> program -> ((string * sort) list * typscheme) * iterm -> string list -> cterm -> thm)
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    -> cterm -> thm
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  val eval: theory -> ((term -> term) -> 'a -> 'a)
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    -> (naming -> program -> ((string * sort) list * typscheme) * iterm -> string list -> 'a)
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    -> term -> 'a
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end;
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structure Code_Thingol: CODE_THINGOL =
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struct
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(** auxiliary **)
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fun unfoldl dest x =
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  case dest x
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   of NONE => (x, [])
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    | SOME (x1, x2) =>
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        let val (x', xs') = unfoldl dest x1 in (x', xs' @ [x2]) end;
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fun unfoldr dest x =
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  case dest x
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   of NONE => ([], x)
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    | SOME (x1, x2) =>
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        let val (xs', x') = unfoldr dest x2 in (x1::xs', x') end;
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(** language core - types, terms **)
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type vname = string;
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datatype dict =
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    DictConst of string * dict list list
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  | DictVar of string list * (vname * (int * int));
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datatype itype =
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    `%% of string * itype list
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  | ITyVar of vname;
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type const = string * ((itype list * dict list list) * itype list (*types of arguments*))
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datatype iterm =
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    IConst of const
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  | IVar of vname option
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  | `$ of iterm * iterm
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  | `|=> of (vname option * itype) * iterm
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  | ICase of ((iterm * itype) * (iterm * iterm) list) * iterm;
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    (*see also signature*)
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fun is_IVar (IVar _) = true
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  | is_IVar _ = false;
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val op `$$ = Library.foldl (op `$);
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val op `|==> = Library.foldr (op `|=>);
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val unfold_app = unfoldl
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  (fn op `$ t => SOME t
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    | _ => NONE);
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val unfold_abs = unfoldr
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  (fn op `|=> t => SOME t
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    | _ => NONE);
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val split_let = 
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  (fn ICase (((td, ty), [(p, t)]), _) => SOME (((p, ty), td), t)
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    | _ => NONE);
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val unfold_let = unfoldr split_let;
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fun unfold_const_app t =
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 case unfold_app t
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  of (IConst c, ts) => SOME (c, ts)
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   | _ => NONE;
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fun fold_constexprs f =
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  let
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    fun fold' (IConst c) = f c
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      | fold' (IVar _) = I
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      | fold' (t1 `$ t2) = fold' t1 #> fold' t2
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      | fold' (_ `|=> t) = fold' t
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      | fold' (ICase (((t, _), ds), _)) = fold' t
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          #> fold (fn (pat, body) => fold' pat #> fold' body) ds
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  in fold' end;
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val add_constnames = fold_constexprs (fn (c, _) => insert (op =) c);
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fun add_tycos (tyco `%% tys) = insert (op =) tyco #> fold add_tycos tys
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  | add_tycos (ITyVar _) = I;
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val add_tyconames = fold_constexprs (fn (_, ((tys, _), _)) => fold add_tycos tys);
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fun fold_varnames f =
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  let
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    fun fold_aux add f =
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      let
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        fun fold_term _ (IConst _) = I
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          | fold_term vs (IVar (SOME v)) = if member (op =) vs v then I else f v
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          | fold_term _ (IVar NONE) = I
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          | fold_term vs (t1 `$ t2) = fold_term vs t1 #> fold_term vs t2
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          | fold_term vs ((SOME v, _) `|=> t) = fold_term (insert (op =) v vs) t
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          | fold_term vs ((NONE, _) `|=> t) = fold_term vs t
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          | fold_term vs (ICase (((t, _), ds), _)) = fold_term vs t #> fold (fold_case vs) ds
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        and fold_case vs (p, t) = fold_term (add p vs) t;
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      in fold_term [] end;
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    fun add t = fold_aux add (insert (op =)) t;
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  in fold_aux add f end;
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fun exists_var t v = fold_varnames (fn w => fn b => v = w orelse b) t false;
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fun split_pat_abs ((NONE, ty) `|=> t) = SOME ((IVar NONE, ty), t)
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  | split_pat_abs ((SOME v, ty) `|=> t) = SOME (case t
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     of ICase (((IVar (SOME w), _), [(p, t')]), _) =>
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          if v = w andalso (exists_var p v orelse not (exists_var t' v))
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          then ((p, ty), t')
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          else ((IVar (SOME v), ty), t)
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      | _ => ((IVar (SOME v), ty), t))
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  | split_pat_abs _ = NONE;
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val unfold_pat_abs = unfoldr split_pat_abs;
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fun unfold_abs_eta [] t = ([], t)
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  | unfold_abs_eta (_ :: tys) (v_ty `|=> t) =
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      let
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        val (vs_tys, t') = unfold_abs_eta tys t;
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      in (v_ty :: vs_tys, t') end
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  | unfold_abs_eta tys t =
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      let
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        val ctxt = fold_varnames Name.declare t Name.context;
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        val vs_tys = (map o apfst) SOME (Name.names ctxt "a" tys);
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      in (vs_tys, t `$$ map (IVar o fst) vs_tys) end;
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fun eta_expand k (c as (_, (_, tys)), ts) =
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  let
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    val j = length ts;
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    val l = k - j;
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    val ctxt = (fold o fold_varnames) Name.declare ts Name.context;
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    val vs_tys = (map o apfst) SOME
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      (Name.names ctxt "a" ((take l o drop j) tys));
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  in vs_tys `|==> IConst c `$$ ts @ map (IVar o fst) vs_tys end;
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fun contains_dictvar t =
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  let
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    fun cont_dict (DictConst (_, dss)) = (exists o exists) cont_dict dss
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      | cont_dict (DictVar _) = true;
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    fun cont_term (IConst (_, ((_, dss), _))) = (exists o exists) cont_dict dss
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      | cont_term (IVar _) = false
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      | cont_term (t1 `$ t2) = cont_term t1 orelse cont_term t2
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      | cont_term (_ `|=> t) = cont_term t
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      | cont_term (ICase (_, t)) = cont_term t;
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  in cont_term t end;
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fun locally_monomorphic (IConst _) = false
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  | locally_monomorphic (IVar _) = true
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  | locally_monomorphic (t `$ _) = locally_monomorphic t
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  | locally_monomorphic (_ `|=> t) = locally_monomorphic t
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  | locally_monomorphic (ICase ((_, ds), _)) = exists (locally_monomorphic o snd) ds;
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(** namings **)
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(* policies *)
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local
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  fun thyname_of_class thy = #theory_name o Name_Space.the_entry (Sign.class_space thy);
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  fun thyname_of_instance thy inst = case AxClass.thynames_of_arity thy inst
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   of [] => error ("No such instance: " ^ quote (snd inst ^ " :: " ^ fst inst))
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    | thyname :: _ => thyname;
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  fun thyname_of_const thy c = case AxClass.class_of_param thy c
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   of SOME class => thyname_of_class thy class
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    | NONE => (case Code.get_type_of_constr_or_abstr thy c
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       of SOME (tyco, _) => Codegen.thyname_of_type thy tyco
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        | NONE => Codegen.thyname_of_const thy c);
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  fun purify_base "==>" = "follows"
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    | purify_base "op &" = "and"
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    | purify_base "op |" = "or"
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    | purify_base "op -->" = "implies"
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    | purify_base "op :" = "member"
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    | purify_base "op =" = "eq"
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    | purify_base "*" = "product"
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    | purify_base "+" = "sum"
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    | purify_base s = Name.desymbolize false s;
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  fun namify thy get_basename get_thyname name =
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    let
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      val prefix = get_thyname thy name;
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      val base = (purify_base o get_basename) name;
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    in Long_Name.append prefix base end;
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in
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fun namify_class thy = namify thy Long_Name.base_name thyname_of_class;
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fun namify_classrel thy = namify thy (fn (sub_class, super_class) => 
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    Long_Name.base_name super_class ^ "_" ^ Long_Name.base_name sub_class)
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  (fn thy => thyname_of_class thy o fst);
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  (*order fits nicely with composed projections*)
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fun namify_tyco thy "fun" = "Pure.fun"
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  | namify_tyco thy tyco = namify thy Long_Name.base_name Codegen.thyname_of_type tyco;
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fun namify_instance thy = namify thy (fn (class, tyco) => 
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  Long_Name.base_name class ^ "_" ^ Long_Name.base_name tyco) thyname_of_instance;
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fun namify_const thy = namify thy Long_Name.base_name thyname_of_const;
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end; (* local *)
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(* data *)
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datatype naming = Naming of {
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  class: class Symtab.table * Name.context,
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  classrel: string Symreltab.table * Name.context,
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  tyco: string Symtab.table * Name.context,
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  instance: string Symreltab.table * Name.context,
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  const: string Symtab.table * Name.context
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}
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fun dest_Naming (Naming naming) = naming;
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val empty_naming = Naming {
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  class = (Symtab.empty, Name.context),
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  classrel = (Symreltab.empty, Name.context),
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  tyco = (Symtab.empty, Name.context),
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  instance = (Symreltab.empty, Name.context),
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  const = (Symtab.empty, Name.context)
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};
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local
haftmann@28663
   316
  fun mk_naming (class, classrel, tyco, instance, const) =
haftmann@28663
   317
    Naming { class = class, classrel = classrel,
haftmann@28663
   318
      tyco = tyco, instance = instance, const = const };
haftmann@28663
   319
  fun map_naming f (Naming { class, classrel, tyco, instance, const }) =
haftmann@28663
   320
    mk_naming (f (class, classrel, tyco, instance, const));
haftmann@28663
   321
in
haftmann@28663
   322
  fun map_class f = map_naming
haftmann@28663
   323
    (fn (class, classrel, tyco, inst, const) =>
haftmann@28663
   324
      (f class, classrel, tyco, inst, const));
haftmann@28663
   325
  fun map_classrel f = map_naming
haftmann@28663
   326
    (fn (class, classrel, tyco, inst, const) =>
haftmann@28663
   327
      (class, f classrel, tyco, inst, const));
haftmann@28663
   328
  fun map_tyco f = map_naming
haftmann@28663
   329
    (fn (class, classrel, tyco, inst, const) =>
haftmann@28663
   330
      (class, classrel, f tyco, inst, const));
haftmann@28663
   331
  fun map_instance f = map_naming
haftmann@28663
   332
    (fn (class, classrel, tyco, inst, const) =>
haftmann@28663
   333
      (class, classrel, tyco, f inst, const));
haftmann@28663
   334
  fun map_const f = map_naming
haftmann@28663
   335
    (fn (class, classrel, tyco, inst, const) =>
haftmann@28663
   336
      (class, classrel, tyco, inst, f const));
haftmann@28663
   337
end; (*local*)
haftmann@28663
   338
haftmann@28663
   339
fun add_variant update (thing, name) (tab, used) =
haftmann@28663
   340
  let
haftmann@28663
   341
    val (name', used') = yield_singleton Name.variants name used;
haftmann@28663
   342
    val tab' = update (thing, name') tab;
haftmann@28663
   343
  in (tab', used') end;
haftmann@28663
   344
haftmann@28663
   345
fun declare thy mapp lookup update namify thing =
haftmann@28663
   346
  mapp (add_variant update (thing, namify thy thing))
haftmann@28663
   347
  #> `(fn naming => the (lookup naming thing));
haftmann@28663
   348
haftmann@28688
   349
haftmann@28688
   350
(* lookup and declare *)
haftmann@28688
   351
haftmann@28688
   352
local
haftmann@28688
   353
haftmann@28688
   354
val suffix_class = "class";
haftmann@28688
   355
val suffix_classrel = "classrel"
haftmann@28688
   356
val suffix_tyco = "tyco";
haftmann@28688
   357
val suffix_instance = "inst";
haftmann@28688
   358
val suffix_const = "const";
haftmann@28688
   359
haftmann@28688
   360
fun add_suffix nsp NONE = NONE
wenzelm@30364
   361
  | add_suffix nsp (SOME name) = SOME (Long_Name.append name nsp);
haftmann@28688
   362
haftmann@28688
   363
in
haftmann@28688
   364
haftmann@28663
   365
val lookup_class = add_suffix suffix_class
haftmann@28663
   366
  oo Symtab.lookup o fst o #class o dest_Naming;
haftmann@28663
   367
val lookup_classrel = add_suffix suffix_classrel
haftmann@30648
   368
  oo Symreltab.lookup o fst o #classrel o dest_Naming;
haftmann@28663
   369
val lookup_tyco = add_suffix suffix_tyco
haftmann@28663
   370
  oo Symtab.lookup o fst o #tyco o dest_Naming;
haftmann@28663
   371
val lookup_instance = add_suffix suffix_instance
haftmann@30648
   372
  oo Symreltab.lookup o fst o #instance o dest_Naming;
haftmann@28663
   373
val lookup_const = add_suffix suffix_const
haftmann@28663
   374
  oo Symtab.lookup o fst o #const o dest_Naming;
haftmann@28663
   375
haftmann@28663
   376
fun declare_class thy = declare thy map_class
haftmann@28663
   377
  lookup_class Symtab.update_new namify_class;
haftmann@28663
   378
fun declare_classrel thy = declare thy map_classrel
haftmann@30648
   379
  lookup_classrel Symreltab.update_new namify_classrel;
haftmann@28663
   380
fun declare_tyco thy = declare thy map_tyco
haftmann@28663
   381
  lookup_tyco Symtab.update_new namify_tyco;
haftmann@28663
   382
fun declare_instance thy = declare thy map_instance
haftmann@30648
   383
  lookup_instance Symreltab.update_new namify_instance;
haftmann@28663
   384
fun declare_const thy = declare thy map_const
haftmann@28663
   385
  lookup_const Symtab.update_new namify_const;
haftmann@28663
   386
haftmann@31054
   387
fun ensure_declared_const thy const naming =
haftmann@31054
   388
  case lookup_const naming const
haftmann@31054
   389
   of SOME const' => (const', naming)
haftmann@31054
   390
    | NONE => declare_const thy const naming;
haftmann@31054
   391
haftmann@37384
   392
val fun_tyco = Long_Name.append (namify_tyco Pure.thy "fun") suffix_tyco
haftmann@37384
   393
  (*depends on add_suffix*);
haftmann@34084
   394
haftmann@28688
   395
val unfold_fun = unfoldr
haftmann@34084
   396
  (fn tyco `%% [ty1, ty2] => if tyco = fun_tyco then SOME (ty1, ty2) else NONE
haftmann@37384
   397
    | _ => NONE);
haftmann@28688
   398
haftmann@28688
   399
end; (* local *)
haftmann@28688
   400
haftmann@24219
   401
haftmann@27103
   402
(** statements, abstract programs **)
haftmann@24219
   403
haftmann@24219
   404
type typscheme = (vname * sort) list * itype;
haftmann@37447
   405
datatype stmt =
haftmann@27024
   406
    NoStmt
haftmann@37437
   407
  | Fun of string * ((typscheme * ((iterm list * iterm) * (thm option * bool)) list) * thm option)
haftmann@37448
   408
  | Datatype of string * ((vname * sort) list * ((string * vname list) * itype list) list)
haftmann@28663
   409
  | Datatypecons of string * string
haftmann@37447
   410
  | Class of class * (vname * ((class * string) list * (string * itype) list))
haftmann@24219
   411
  | Classrel of class * class
haftmann@28663
   412
  | Classparam of string * class
haftmann@24219
   413
  | Classinst of (class * (string * (vname * sort) list))
haftmann@37445
   414
        * ((class * (string * (string * dict list list))) list
haftmann@37448
   415
      * (((string * const) * (thm * bool)) list
haftmann@37448
   416
        * ((string * const) * (thm * bool)) list))
haftmann@37448
   417
      (*see also signature*);
haftmann@24219
   418
haftmann@27103
   419
type program = stmt Graph.T;
haftmann@24219
   420
haftmann@27103
   421
fun empty_funs program =
haftmann@37437
   422
  Graph.fold (fn (name, (Fun (c, ((_, []), _)), _)) => cons c
haftmann@27103
   423
               | _ => I) program [];
haftmann@24219
   424
haftmann@27711
   425
fun map_terms_bottom_up f (t as IConst _) = f t
haftmann@27711
   426
  | map_terms_bottom_up f (t as IVar _) = f t
haftmann@27711
   427
  | map_terms_bottom_up f (t1 `$ t2) = f
haftmann@27711
   428
      (map_terms_bottom_up f t1 `$ map_terms_bottom_up f t2)
haftmann@31724
   429
  | map_terms_bottom_up f ((v, ty) `|=> t) = f
haftmann@31724
   430
      ((v, ty) `|=> map_terms_bottom_up f t)
haftmann@27711
   431
  | map_terms_bottom_up f (ICase (((t, ty), ps), t0)) = f
haftmann@27711
   432
      (ICase (((map_terms_bottom_up f t, ty), (map o pairself)
haftmann@27711
   433
        (map_terms_bottom_up f) ps), map_terms_bottom_up f t0));
haftmann@27711
   434
haftmann@37448
   435
fun map_classparam_instances_as_term f =
haftmann@37448
   436
  (map o apfst o apsnd) (fn const => case f (IConst const) of IConst const' => const')
haftmann@37448
   437
haftmann@27711
   438
fun map_terms_stmt f NoStmt = NoStmt
haftmann@37437
   439
  | map_terms_stmt f (Fun (c, ((tysm, eqs), case_cong))) = Fun (c, ((tysm, (map o apfst)
haftmann@37437
   440
      (fn (ts, t) => (map f ts, f t)) eqs), case_cong))
haftmann@27711
   441
  | map_terms_stmt f (stmt as Datatype _) = stmt
haftmann@27711
   442
  | map_terms_stmt f (stmt as Datatypecons _) = stmt
haftmann@27711
   443
  | map_terms_stmt f (stmt as Class _) = stmt
haftmann@27711
   444
  | map_terms_stmt f (stmt as Classrel _) = stmt
haftmann@27711
   445
  | map_terms_stmt f (stmt as Classparam _) = stmt
haftmann@37448
   446
  | map_terms_stmt f (Classinst (arity, (super_instances, classparam_instances))) =
haftmann@37448
   447
      Classinst (arity, (super_instances, (pairself o map_classparam_instances_as_term) f classparam_instances));
haftmann@27711
   448
haftmann@27103
   449
fun is_cons program name = case Graph.get_node program name
haftmann@24219
   450
 of Datatypecons _ => true
haftmann@24219
   451
  | _ => false;
haftmann@24219
   452
haftmann@37440
   453
fun is_case (Fun (_, (_, SOME _))) = true
haftmann@37440
   454
  | is_case _ = false;
haftmann@37440
   455
haftmann@27103
   456
fun contr_classparam_typs program name = case Graph.get_node program name
haftmann@28663
   457
 of Classparam (_, class) => let
haftmann@28663
   458
        val Class (_, (_, (_, params))) = Graph.get_node program class;
haftmann@25621
   459
        val SOME ty = AList.lookup (op =) params name;
haftmann@25621
   460
        val (tys, res_ty) = unfold_fun ty;
haftmann@25621
   461
        fun no_tyvar (_ `%% tys) = forall no_tyvar tys
haftmann@25621
   462
          | no_tyvar (ITyVar _) = false;
haftmann@25621
   463
      in if no_tyvar res_ty
haftmann@25621
   464
        then map (fn ty => if no_tyvar ty then NONE else SOME ty) tys
haftmann@25621
   465
        else []
haftmann@25621
   466
      end
haftmann@25621
   467
  | _ => [];
haftmann@25621
   468
haftmann@32895
   469
fun labelled_name thy program name = case Graph.get_node program name
haftmann@32895
   470
 of Fun (c, _) => quote (Code.string_of_const thy c)
haftmann@32895
   471
  | Datatype (tyco, _) => "type " ^ quote (Sign.extern_type thy tyco)
haftmann@32895
   472
  | Datatypecons (c, _) => quote (Code.string_of_const thy c)
haftmann@32895
   473
  | Class (class, _) => "class " ^ quote (Sign.extern_class thy class)
haftmann@32895
   474
  | Classrel (sub, super) => let
haftmann@32895
   475
        val Class (sub, _) = Graph.get_node program sub
haftmann@32895
   476
        val Class (super, _) = Graph.get_node program super
haftmann@32895
   477
      in quote (Sign.extern_class thy sub ^ " < " ^ Sign.extern_class thy super) end
haftmann@32895
   478
  | Classparam (c, _) => quote (Code.string_of_const thy c)
haftmann@32895
   479
  | Classinst ((class, (tyco, _)), _) => let
haftmann@32895
   480
        val Class (class, _) = Graph.get_node program class
haftmann@32895
   481
        val Datatype (tyco, _) = Graph.get_node program tyco
haftmann@32895
   482
      in quote (Sign.extern_type thy tyco ^ " :: " ^ Sign.extern_class thy class) end
haftmann@32895
   483
haftmann@37440
   484
fun linear_stmts program =
haftmann@37440
   485
  rev (Graph.strong_conn program)
haftmann@37440
   486
  |> map (AList.make (Graph.get_node program));
haftmann@37440
   487
haftmann@32895
   488
fun group_stmts thy program =
haftmann@32895
   489
  let
haftmann@32895
   490
    fun is_fun (_, Fun _) = true | is_fun _ = false;
haftmann@32895
   491
    fun is_datatypecons (_, Datatypecons _) = true | is_datatypecons _ = false;
haftmann@32895
   492
    fun is_datatype (_, Datatype _) = true | is_datatype _ = false;
haftmann@32895
   493
    fun is_class (_, Class _) = true | is_class _ = false;
haftmann@32895
   494
    fun is_classrel (_, Classrel _) = true | is_classrel _ = false;
haftmann@32895
   495
    fun is_classparam (_, Classparam _) = true | is_classparam _ = false;
haftmann@32895
   496
    fun is_classinst (_, Classinst _) = true | is_classinst _ = false;
haftmann@32895
   497
    fun group stmts =
haftmann@32895
   498
      if forall (is_datatypecons orf is_datatype) stmts
haftmann@32895
   499
      then (filter is_datatype stmts, [], ([], []))
haftmann@32895
   500
      else if forall (is_class orf is_classrel orf is_classparam) stmts
haftmann@32895
   501
      then ([], filter is_class stmts, ([], []))
haftmann@32895
   502
      else if forall (is_fun orf is_classinst) stmts
haftmann@32895
   503
      then ([], [], List.partition is_fun stmts)
haftmann@32895
   504
      else error ("Illegal mutual dependencies: " ^
haftmann@32895
   505
        (commas o map (labelled_name thy program o fst)) stmts)
haftmann@32895
   506
  in
haftmann@37440
   507
    linear_stmts program
haftmann@32895
   508
    |> map group
haftmann@32895
   509
  end;
haftmann@32895
   510
haftmann@24219
   511
haftmann@27103
   512
(** translation kernel **)
haftmann@24219
   513
haftmann@28724
   514
(* generic mechanisms *)
haftmann@28724
   515
haftmann@28663
   516
fun ensure_stmt lookup declare generate thing (dep, (naming, program)) =
haftmann@24219
   517
  let
haftmann@28706
   518
    fun add_dep name = case dep of NONE => I
haftmann@28706
   519
      | SOME dep => Graph.add_edge (dep, name);
haftmann@28706
   520
    val (name, naming') = case lookup naming thing
haftmann@28706
   521
     of SOME name => (name, naming)
haftmann@28706
   522
      | NONE => declare thing naming;
haftmann@28706
   523
  in case try (Graph.get_node program) name
haftmann@28706
   524
   of SOME stmt => program
haftmann@28663
   525
        |> add_dep name
haftmann@28706
   526
        |> pair naming'
haftmann@28663
   527
        |> pair dep
haftmann@28663
   528
        |> pair name
haftmann@28706
   529
    | NONE => program
haftmann@28706
   530
        |> Graph.default_node (name, NoStmt)
haftmann@28706
   531
        |> add_dep name
haftmann@28706
   532
        |> pair naming'
haftmann@28706
   533
        |> curry generate (SOME name)
haftmann@28706
   534
        ||> snd
haftmann@28706
   535
        |-> (fn stmt => (apsnd o Graph.map_node name) (K stmt))
haftmann@28706
   536
        |> pair dep
haftmann@28706
   537
        |> pair name
haftmann@24219
   538
  end;
haftmann@24219
   539
haftmann@36272
   540
exception PERMISSIVE of unit;
haftmann@36272
   541
haftmann@36272
   542
fun translation_error thy permissive some_thm msg sub_msg =
haftmann@36272
   543
  if permissive
haftmann@36272
   544
  then raise PERMISSIVE ()
haftmann@36272
   545
  else let
haftmann@35226
   546
    val err_thm = case some_thm
haftmann@36272
   547
     of SOME thm => "\n(in code equation " ^ Display.string_of_thm_global thy thm ^ ")"
haftmann@36272
   548
      | NONE => "";
haftmann@35226
   549
  in error (msg ^ err_thm ^ ":\n" ^ sub_msg) end;
haftmann@35226
   550
haftmann@36272
   551
fun not_wellsorted thy permissive some_thm ty sort e =
haftmann@26972
   552
  let
haftmann@26972
   553
    val err_class = Sorts.class_error (Syntax.pp_global thy) e;
haftmann@26972
   554
    val err_typ = "Type " ^ Syntax.string_of_typ_global thy ty ^ " not of sort "
haftmann@26972
   555
      ^ Syntax.string_of_sort_global thy sort;
haftmann@36272
   556
  in translation_error thy permissive some_thm "Wellsortedness error" (err_typ ^ "\n" ^ err_class) end;
haftmann@26972
   557
haftmann@28724
   558
haftmann@28724
   559
(* translation *)
haftmann@28724
   560
haftmann@36272
   561
fun ensure_tyco thy algbr eqngr permissive tyco =
haftmann@30932
   562
  let
haftmann@36272
   563
    val (vs, cos) = Code.get_type thy tyco;
haftmann@30932
   564
    val stmt_datatype =
haftmann@36272
   565
      fold_map (translate_tyvar_sort thy algbr eqngr permissive) vs
haftmann@37448
   566
      ##>> fold_map (fn ((c, vs), tys) =>
haftmann@36272
   567
        ensure_const thy algbr eqngr permissive c
haftmann@37448
   568
        ##>> pair (map (unprefix "'") vs)
haftmann@36272
   569
        ##>> fold_map (translate_typ thy algbr eqngr permissive) tys) cos
haftmann@36272
   570
      #>> (fn info => Datatype (tyco, info));
haftmann@30932
   571
  in ensure_stmt lookup_tyco (declare_tyco thy) stmt_datatype tyco end
haftmann@36272
   572
and ensure_const thy algbr eqngr permissive c =
haftmann@30932
   573
  let
haftmann@30932
   574
    fun stmt_datatypecons tyco =
haftmann@36272
   575
      ensure_tyco thy algbr eqngr permissive tyco
haftmann@30932
   576
      #>> (fn tyco => Datatypecons (c, tyco));
haftmann@30932
   577
    fun stmt_classparam class =
haftmann@36272
   578
      ensure_class thy algbr eqngr permissive class
haftmann@30932
   579
      #>> (fn class => Classparam (c, class));
haftmann@34891
   580
    fun stmt_fun cert =
haftmann@32872
   581
      let
haftmann@35226
   582
        val ((vs, ty), eqns) = Code.equations_of_cert thy cert;
haftmann@37440
   583
        val some_case_cong = Code.get_case_cong thy c;
haftmann@32872
   584
      in
haftmann@36272
   585
        fold_map (translate_tyvar_sort thy algbr eqngr permissive) vs
haftmann@36272
   586
        ##>> translate_typ thy algbr eqngr permissive ty
haftmann@37440
   587
        ##>> translate_eqns thy algbr eqngr permissive eqns
haftmann@37440
   588
        #>> (fn info => Fun (c, (info, some_case_cong)))
haftmann@32872
   589
      end;
haftmann@35299
   590
    val stmt_const = case Code.get_type_of_constr_or_abstr thy c
haftmann@35226
   591
     of SOME (tyco, _) => stmt_datatypecons tyco
haftmann@30932
   592
      | NONE => (case AxClass.class_of_param thy c
haftmann@30932
   593
         of SOME class => stmt_classparam class
haftmann@34891
   594
          | NONE => stmt_fun (Code_Preproc.cert eqngr c))
haftmann@30932
   595
  in ensure_stmt lookup_const (declare_const thy) stmt_const c end
haftmann@36272
   596
and ensure_class thy (algbr as (_, algebra)) eqngr permissive class =
haftmann@24918
   597
  let
haftmann@37384
   598
    val super_classes = (Sorts.minimize_sort algebra o Sorts.super_classes algebra) class;
wenzelm@24969
   599
    val cs = #params (AxClass.get_info thy class);
haftmann@24918
   600
    val stmt_class =
haftmann@37384
   601
      fold_map (fn super_class => ensure_class thy algbr eqngr permissive super_class
haftmann@37384
   602
        ##>> ensure_classrel thy algbr eqngr permissive (class, super_class)) super_classes
haftmann@36272
   603
      ##>> fold_map (fn (c, ty) => ensure_const thy algbr eqngr permissive c
haftmann@36272
   604
        ##>> translate_typ thy algbr eqngr permissive ty) cs
haftmann@28663
   605
      #>> (fn info => Class (class, (unprefix "'" Name.aT, info)))
haftmann@28663
   606
  in ensure_stmt lookup_class (declare_class thy) stmt_class class end
haftmann@37384
   607
and ensure_classrel thy algbr eqngr permissive (sub_class, super_class) =
haftmann@24918
   608
  let
haftmann@24918
   609
    val stmt_classrel =
haftmann@37384
   610
      ensure_class thy algbr eqngr permissive sub_class
haftmann@37384
   611
      ##>> ensure_class thy algbr eqngr permissive super_class
haftmann@24918
   612
      #>> Classrel;
haftmann@37384
   613
  in ensure_stmt lookup_classrel (declare_classrel thy) stmt_classrel (sub_class, super_class) end
haftmann@36272
   614
and ensure_inst thy (algbr as (_, algebra)) eqngr permissive (class, tyco) =
haftmann@24918
   615
  let
haftmann@37384
   616
    val super_classes = (Sorts.minimize_sort algebra o Sorts.super_classes algebra) class;
haftmann@37448
   617
    val these_classparams = these o try (#params o AxClass.get_info thy);
haftmann@37448
   618
    val classparams = these_classparams class;
haftmann@37448
   619
    val further_classparams = maps these_classparams
haftmann@37448
   620
      ((Sorts.complete_sort algebra o Sorts.super_classes algebra) class);
haftmann@24918
   621
    val vs = Name.names Name.context "'a" (Sorts.mg_domain algebra tyco [class]);
haftmann@24918
   622
    val sorts' = Sorts.mg_domain (Sign.classes_of thy) tyco [class];
haftmann@24918
   623
    val vs' = map2 (fn (v, sort1) => fn sort2 => (v,
haftmann@24918
   624
      Sorts.inter_sort (Sign.classes_of thy) (sort1, sort2))) vs sorts';
haftmann@24918
   625
    val arity_typ = Type (tyco, map TFree vs);
haftmann@24918
   626
    val arity_typ' = Type (tyco, map (fn (v, sort) => TVar ((v, 0), sort)) vs');
haftmann@37384
   627
    fun translate_super_instance super_class =
haftmann@37384
   628
      ensure_class thy algbr eqngr permissive super_class
haftmann@37384
   629
      ##>> ensure_classrel thy algbr eqngr permissive (class, super_class)
haftmann@37384
   630
      ##>> translate_dicts thy algbr eqngr permissive NONE (arity_typ, [super_class])
haftmann@37384
   631
      #>> (fn ((super_class, classrel), [DictConst (inst, dss)]) =>
haftmann@37384
   632
            (super_class, (classrel, (inst, dss))));
haftmann@37384
   633
    fun translate_classparam_instance (c, ty) =
haftmann@24918
   634
      let
haftmann@37384
   635
        val raw_const = Const (c, map_type_tfree (K arity_typ') ty);
haftmann@37384
   636
        val thm = AxClass.unoverload_conv thy (Thm.cterm_of thy raw_const);
haftmann@37384
   637
        val const = (apsnd Logic.unvarifyT_global o dest_Const o snd
haftmann@24918
   638
          o Logic.dest_equals o Thm.prop_of) thm;
haftmann@24918
   639
      in
haftmann@36272
   640
        ensure_const thy algbr eqngr permissive c
haftmann@37384
   641
        ##>> translate_const thy algbr eqngr permissive (SOME thm) (const, NONE)
haftmann@37384
   642
        #>> (fn (c, IConst const') => ((c, const'), (thm, true)))
haftmann@24918
   643
      end;
haftmann@24918
   644
    val stmt_inst =
haftmann@36272
   645
      ensure_class thy algbr eqngr permissive class
haftmann@36272
   646
      ##>> ensure_tyco thy algbr eqngr permissive tyco
haftmann@36272
   647
      ##>> fold_map (translate_tyvar_sort thy algbr eqngr permissive) vs
haftmann@37384
   648
      ##>> fold_map translate_super_instance super_classes
haftmann@37384
   649
      ##>> fold_map translate_classparam_instance classparams
haftmann@37448
   650
      ##>> fold_map translate_classparam_instance further_classparams
haftmann@37448
   651
      #>> (fn (((((class, tyco), arity_args), super_instances),
haftmann@37448
   652
        classparam_instances), further_classparam_instances) =>
haftmann@37448
   653
          Classinst ((class, (tyco, arity_args)), (super_instances,
haftmann@37448
   654
            (classparam_instances, further_classparam_instances))));
haftmann@28663
   655
  in ensure_stmt lookup_instance (declare_instance thy) stmt_inst (class, tyco) end
haftmann@36272
   656
and translate_typ thy algbr eqngr permissive (TFree (v, _)) =
haftmann@30932
   657
      pair (ITyVar (unprefix "'" v))
haftmann@36272
   658
  | translate_typ thy algbr eqngr permissive (Type (tyco, tys)) =
haftmann@36272
   659
      ensure_tyco thy algbr eqngr permissive tyco
haftmann@36272
   660
      ##>> fold_map (translate_typ thy algbr eqngr permissive) tys
haftmann@30932
   661
      #>> (fn (tyco, tys) => tyco `%% tys)
haftmann@36272
   662
and translate_term thy algbr eqngr permissive some_thm (Const (c, ty), some_abs) =
haftmann@36272
   663
      translate_app thy algbr eqngr permissive some_thm (((c, ty), []), some_abs)
haftmann@36272
   664
  | translate_term thy algbr eqngr permissive some_thm (Free (v, _), some_abs) =
haftmann@31889
   665
      pair (IVar (SOME v))
haftmann@36272
   666
  | translate_term thy algbr eqngr permissive some_thm (Abs (v, ty, t), some_abs) =
haftmann@24918
   667
      let
haftmann@32273
   668
        val (v', t') = Syntax.variant_abs (Name.desymbolize false v, ty, t);
haftmann@32273
   669
        val v'' = if member (op =) (Term.add_free_names t' []) v'
haftmann@32273
   670
          then SOME v' else NONE
haftmann@24918
   671
      in
haftmann@36272
   672
        translate_typ thy algbr eqngr permissive ty
haftmann@36272
   673
        ##>> translate_term thy algbr eqngr permissive some_thm (t', some_abs)
haftmann@32273
   674
        #>> (fn (ty, t) => (v'', ty) `|=> t)
haftmann@24918
   675
      end
haftmann@36272
   676
  | translate_term thy algbr eqngr permissive some_thm (t as _ $ _, some_abs) =
haftmann@24918
   677
      case strip_comb t
haftmann@24918
   678
       of (Const (c, ty), ts) =>
haftmann@36272
   679
            translate_app thy algbr eqngr permissive some_thm (((c, ty), ts), some_abs)
haftmann@24918
   680
        | (t', ts) =>
haftmann@36272
   681
            translate_term thy algbr eqngr permissive some_thm (t', some_abs)
haftmann@36272
   682
            ##>> fold_map (translate_term thy algbr eqngr permissive some_thm o rpair NONE) ts
haftmann@24918
   683
            #>> (fn (t, ts) => t `$$ ts)
haftmann@36272
   684
and translate_eqn thy algbr eqngr permissive ((args, (rhs, some_abs)), (some_thm, proper)) =
haftmann@36272
   685
  fold_map (translate_term thy algbr eqngr permissive some_thm) args
haftmann@36272
   686
  ##>> translate_term thy algbr eqngr permissive some_thm (rhs, some_abs)
haftmann@35226
   687
  #>> rpair (some_thm, proper)
haftmann@37440
   688
and translate_eqns thy algbr eqngr permissive eqns prgrm =
haftmann@37440
   689
  prgrm |> fold_map (translate_eqn thy algbr eqngr permissive) eqns
haftmann@37440
   690
    handle PERMISSIVE () => ([], prgrm)
haftmann@36272
   691
and translate_const thy algbr eqngr permissive some_thm ((c, ty), some_abs) =
haftmann@30932
   692
  let
haftmann@35226
   693
    val _ = if (case some_abs of NONE => true | SOME abs => not (c = abs))
haftmann@35226
   694
        andalso Code.is_abstr thy c
haftmann@36272
   695
        then translation_error thy permissive some_thm
haftmann@35226
   696
          "Abstraction violation" ("constant " ^ Code.string_of_const thy c)
haftmann@35226
   697
      else ()
haftmann@37448
   698
    val arg_typs = Sign.const_typargs thy (c, ty);
haftmann@32873
   699
    val sorts = Code_Preproc.sortargs eqngr c;
haftmann@37448
   700
    val function_typs = (fst o Term.strip_type) ty;
haftmann@26972
   701
  in
haftmann@36272
   702
    ensure_const thy algbr eqngr permissive c
haftmann@37448
   703
    ##>> fold_map (translate_typ thy algbr eqngr permissive) arg_typs
haftmann@37448
   704
    ##>> fold_map (translate_dicts thy algbr eqngr permissive some_thm) (arg_typs ~~ sorts)
haftmann@37448
   705
    ##>> fold_map (translate_typ thy algbr eqngr permissive) function_typs
haftmann@37448
   706
    #>> (fn (((c, arg_typs), dss), function_typs) => IConst (c, ((arg_typs, dss), function_typs)))
haftmann@26972
   707
  end
haftmann@36272
   708
and translate_app_const thy algbr eqngr permissive some_thm ((c_ty, ts), some_abs) =
haftmann@36272
   709
  translate_const thy algbr eqngr permissive some_thm (c_ty, some_abs)
haftmann@36272
   710
  ##>> fold_map (translate_term thy algbr eqngr permissive some_thm o rpair NONE) ts
haftmann@24918
   711
  #>> (fn (t, ts) => t `$$ ts)
haftmann@36272
   712
and translate_case thy algbr eqngr permissive some_thm (num_args, (t_pos, case_pats)) (c_ty, ts) =
haftmann@24918
   713
  let
haftmann@31892
   714
    fun arg_types num_args ty = (fst o chop num_args o fst o strip_type) ty;
haftmann@31892
   715
    val tys = arg_types num_args (snd c_ty);
haftmann@29952
   716
    val ty = nth tys t_pos;
haftmann@31957
   717
    fun mk_constr c t = let val n = Code.args_number thy c
haftmann@31957
   718
      in ((c, arg_types n (fastype_of t) ---> ty), n) end;
haftmann@31892
   719
    val constrs = if null case_pats then []
haftmann@31892
   720
      else map2 mk_constr case_pats (nth_drop t_pos ts);
haftmann@31892
   721
    fun casify naming constrs ty ts =
haftmann@24918
   722
      let
haftmann@31935
   723
        val undefineds = map_filter (lookup_const naming) (Code.undefineds thy);
haftmann@31935
   724
        fun collapse_clause vs_map ts body =
haftmann@31935
   725
          let
haftmann@31935
   726
          in case body
haftmann@31935
   727
           of IConst (c, _) => if member (op =) undefineds c
haftmann@31935
   728
                then []
haftmann@31935
   729
                else [(ts, body)]
haftmann@31935
   730
            | ICase (((IVar (SOME v), _), subclauses), _) =>
haftmann@31935
   731
                if forall (fn (pat', body') => exists_var pat' v
haftmann@31935
   732
                  orelse not (exists_var body' v)) subclauses
haftmann@31935
   733
                then case AList.lookup (op =) vs_map v
haftmann@31935
   734
                 of SOME i => maps (fn (pat', body') =>
haftmann@31935
   735
                      collapse_clause (AList.delete (op =) v vs_map)
haftmann@31935
   736
                        (nth_map i (K pat') ts) body') subclauses
haftmann@31935
   737
                  | NONE => [(ts, body)]
haftmann@31935
   738
                else [(ts, body)]
haftmann@31935
   739
            | _ => [(ts, body)]
haftmann@31935
   740
          end;
haftmann@31935
   741
        fun mk_clause mk tys t =
haftmann@31935
   742
          let
haftmann@31935
   743
            val (vs, body) = unfold_abs_eta tys t;
haftmann@31935
   744
            val vs_map = fold_index (fn (i, (SOME v, _)) => cons (v, i) | _ => I) vs [];
haftmann@31935
   745
            val ts = map (IVar o fst) vs;
haftmann@31935
   746
          in map mk (collapse_clause vs_map ts body) end;
haftmann@31892
   747
        val t = nth ts t_pos;
haftmann@31892
   748
        val ts_clause = nth_drop t_pos ts;
haftmann@31935
   749
        val clauses = if null case_pats
haftmann@31935
   750
          then mk_clause (fn ([t], body) => (t, body)) [ty] (the_single ts_clause)
haftmann@31935
   751
          else maps (fn ((constr as IConst (_, (_, tys)), n), t) =>
haftmann@33957
   752
            mk_clause (fn (ts, body) => (constr `$$ ts, body)) (take n tys) t)
haftmann@31935
   753
              (constrs ~~ ts_clause);
haftmann@31892
   754
      in ((t, ty), clauses) end;
haftmann@24918
   755
  in
haftmann@36272
   756
    translate_const thy algbr eqngr permissive some_thm (c_ty, NONE)
haftmann@36272
   757
    ##>> fold_map (fn (constr, n) => translate_const thy algbr eqngr permissive some_thm (constr, NONE)
haftmann@36272
   758
      #>> rpair n) constrs
haftmann@36272
   759
    ##>> translate_typ thy algbr eqngr permissive ty
haftmann@36272
   760
    ##>> fold_map (translate_term thy algbr eqngr permissive some_thm o rpair NONE) ts
haftmann@31892
   761
    #-> (fn (((t, constrs), ty), ts) =>
haftmann@31892
   762
      `(fn (_, (naming, _)) => ICase (casify naming constrs ty ts, t `$$ ts)))
haftmann@24918
   763
  end
haftmann@36272
   764
and translate_app_case thy algbr eqngr permissive some_thm (case_scheme as (num_args, _)) ((c, ty), ts) =
haftmann@29973
   765
  if length ts < num_args then
haftmann@29973
   766
    let
haftmann@29973
   767
      val k = length ts;
haftmann@33957
   768
      val tys = (take (num_args - k) o drop k o fst o strip_type) ty;
haftmann@29973
   769
      val ctxt = (fold o fold_aterms) Term.declare_term_frees ts Name.context;
haftmann@29973
   770
      val vs = Name.names ctxt "a" tys;
haftmann@29973
   771
    in
haftmann@36272
   772
      fold_map (translate_typ thy algbr eqngr permissive) tys
haftmann@36272
   773
      ##>> translate_case thy algbr eqngr permissive some_thm case_scheme ((c, ty), ts @ map Free vs)
haftmann@31888
   774
      #>> (fn (tys, t) => map2 (fn (v, _) => pair (SOME v)) vs tys `|==> t)
haftmann@29973
   775
    end
haftmann@29973
   776
  else if length ts > num_args then
haftmann@36272
   777
    translate_case thy algbr eqngr permissive some_thm case_scheme ((c, ty), take num_args ts)
haftmann@36272
   778
    ##>> fold_map (translate_term thy algbr eqngr permissive some_thm o rpair NONE) (drop num_args ts)
haftmann@29973
   779
    #>> (fn (t, ts) => t `$$ ts)
haftmann@29973
   780
  else
haftmann@36272
   781
    translate_case thy algbr eqngr permissive some_thm case_scheme ((c, ty), ts)
haftmann@36272
   782
and translate_app thy algbr eqngr permissive some_thm (c_ty_ts as ((c, _), _), some_abs) =
haftmann@29973
   783
  case Code.get_case_scheme thy c
haftmann@36272
   784
   of SOME case_scheme => translate_app_case thy algbr eqngr permissive some_thm case_scheme c_ty_ts
haftmann@36272
   785
    | NONE => translate_app_const thy algbr eqngr permissive some_thm (c_ty_ts, some_abs)
haftmann@36272
   786
and translate_tyvar_sort thy (algbr as (proj_sort, _)) eqngr permissive (v, sort) =
haftmann@36272
   787
  fold_map (ensure_class thy algbr eqngr permissive) (proj_sort sort)
haftmann@30932
   788
  #>> (fn sort => (unprefix "'" v, sort))
haftmann@36272
   789
and translate_dicts thy (algbr as (proj_sort, algebra)) eqngr permissive some_thm (ty, sort) =
haftmann@30932
   790
  let
haftmann@30932
   791
    datatype typarg =
haftmann@30932
   792
        Global of (class * string) * typarg list list
haftmann@30932
   793
      | Local of (class * class) list * (string * (int * sort));
haftmann@30932
   794
    fun class_relation (Global ((_, tyco), yss), _) class =
haftmann@30932
   795
          Global ((class, tyco), yss)
haftmann@37384
   796
      | class_relation (Local (classrels, v), sub_class) super_class =
haftmann@37384
   797
          Local ((sub_class, super_class) :: classrels, v);
wenzelm@36102
   798
    fun type_constructor (tyco, _) yss class =
haftmann@30932
   799
      Global ((class, tyco), (map o map) fst yss);
haftmann@30932
   800
    fun type_variable (TFree (v, sort)) =
haftmann@30932
   801
      let
haftmann@30932
   802
        val sort' = proj_sort sort;
haftmann@30932
   803
      in map_index (fn (n, class) => (Local ([], (v, (n, sort'))), class)) sort' end;
wenzelm@32795
   804
    val typargs = Sorts.of_sort_derivation algebra
wenzelm@36102
   805
      {class_relation = K (Sorts.classrel_derivation algebra class_relation),
wenzelm@35961
   806
       type_constructor = type_constructor,
haftmann@30932
   807
       type_variable = type_variable} (ty, proj_sort sort)
haftmann@36272
   808
      handle Sorts.CLASS_ERROR e => not_wellsorted thy permissive some_thm ty sort e;
haftmann@30932
   809
    fun mk_dict (Global (inst, yss)) =
haftmann@36272
   810
          ensure_inst thy algbr eqngr permissive inst
haftmann@30932
   811
          ##>> (fold_map o fold_map) mk_dict yss
haftmann@30932
   812
          #>> (fn (inst, dss) => DictConst (inst, dss))
haftmann@31962
   813
      | mk_dict (Local (classrels, (v, (n, sort)))) =
haftmann@36272
   814
          fold_map (ensure_classrel thy algbr eqngr permissive) classrels
haftmann@31962
   815
          #>> (fn classrels => DictVar (classrels, (unprefix "'" v, (n, length sort))))
haftmann@30932
   816
  in fold_map mk_dict typargs end;
haftmann@24918
   817
haftmann@25969
   818
haftmann@27103
   819
(* store *)
haftmann@27103
   820
haftmann@34173
   821
structure Program = Code_Data
haftmann@27103
   822
(
haftmann@28663
   823
  type T = naming * program;
haftmann@28663
   824
  val empty = (empty_naming, Graph.empty);
haftmann@27103
   825
);
haftmann@27103
   826
haftmann@36272
   827
fun cache_generation thy (algebra, eqngr) f name =
haftmann@34251
   828
  Program.change_yield thy (fn naming_program => (NONE, naming_program)
haftmann@32873
   829
    |> f thy algebra eqngr name
haftmann@28663
   830
    |-> (fn name => fn (_, naming_program) => (name, naming_program)));
haftmann@27103
   831
haftmann@36272
   832
fun transient_generation thy (algebra, eqngr) f name =
haftmann@36272
   833
  (NONE, (empty_naming, Graph.empty))
haftmann@36272
   834
  |> f thy algebra eqngr name
haftmann@36272
   835
  |-> (fn name => fn (_, naming_program) => (name, naming_program));
haftmann@36272
   836
haftmann@27103
   837
haftmann@27103
   838
(* program generation *)
haftmann@27103
   839
haftmann@36272
   840
fun consts_program thy permissive cs =
haftmann@27103
   841
  let
haftmann@28663
   842
    fun project_consts cs (naming, program) =
haftmann@27103
   843
      let
haftmann@27103
   844
        val cs_all = Graph.all_succs program cs;
haftmann@28663
   845
      in (cs, (naming, Graph.subgraph (member (op =) cs_all) program)) end;
haftmann@32873
   846
    fun generate_consts thy algebra eqngr =
haftmann@36272
   847
      fold_map (ensure_const thy algebra eqngr permissive);
haftmann@36272
   848
    val invoke_generation = if permissive
haftmann@36272
   849
      then transient_generation else cache_generation
haftmann@27103
   850
  in
haftmann@31125
   851
    invoke_generation thy (Code_Preproc.obtain thy cs []) generate_consts cs
haftmann@27103
   852
    |-> project_consts
haftmann@27103
   853
  end;
haftmann@27103
   854
haftmann@27103
   855
haftmann@27103
   856
(* value evaluation *)
haftmann@25969
   857
haftmann@32873
   858
fun ensure_value thy algbr eqngr t =
haftmann@24918
   859
  let
haftmann@24918
   860
    val ty = fastype_of t;
haftmann@24918
   861
    val vs = fold_term_types (K (fold_atyps (insert (eq_fst op =)
haftmann@24918
   862
      o dest_TFree))) t [];
haftmann@24918
   863
    val stmt_value =
haftmann@36272
   864
      fold_map (translate_tyvar_sort thy algbr eqngr false) vs
haftmann@36272
   865
      ##>> translate_typ thy algbr eqngr false ty
haftmann@36272
   866
      ##>> translate_term thy algbr eqngr false NONE (Code.subst_signatures thy t, NONE)
haftmann@28663
   867
      #>> (fn ((vs, ty), t) => Fun
haftmann@37437
   868
        (Term.dummy_patternN, (((vs, ty), [(([], t), (NONE, true))]), NONE)));
haftmann@31063
   869
    fun term_value (dep, (naming, program1)) =
haftmann@25969
   870
      let
haftmann@37437
   871
        val Fun (_, ((vs_ty, [(([], t), _)]), _)) =
haftmann@28663
   872
          Graph.get_node program1 Term.dummy_patternN;
haftmann@28663
   873
        val deps = Graph.imm_succs program1 Term.dummy_patternN;
haftmann@28663
   874
        val program2 = Graph.del_nodes [Term.dummy_patternN] program1;
haftmann@27103
   875
        val deps_all = Graph.all_succs program2 deps;
haftmann@27103
   876
        val program3 = Graph.subgraph (member (op =) deps_all) program2;
haftmann@31063
   877
      in (((naming, program3), ((vs_ty, t), deps)), (dep, (naming, program2))) end;
haftmann@26011
   878
  in
haftmann@28663
   879
    ensure_stmt ((K o K) NONE) pair stmt_value Term.dummy_patternN
haftmann@26011
   880
    #> snd
haftmann@31063
   881
    #> term_value
haftmann@26011
   882
  end;
haftmann@24219
   883
haftmann@32873
   884
fun base_evaluator thy evaluator algebra eqngr vs t =
haftmann@30942
   885
  let
haftmann@31063
   886
    val (((naming, program), (((vs', ty'), t'), deps)), _) =
haftmann@36272
   887
      cache_generation thy (algebra, eqngr) ensure_value t;
haftmann@30947
   888
    val vs'' = map (fn (v, _) => (v, (the o AList.lookup (op =) vs o prefix "'") v)) vs';
haftmann@31063
   889
  in evaluator naming program ((vs'', (vs', ty')), t') deps end;
haftmann@30942
   890
haftmann@32123
   891
fun eval_conv thy = Code_Preproc.eval_conv thy o base_evaluator thy;
haftmann@32123
   892
fun eval thy postproc = Code_Preproc.eval thy postproc o base_evaluator thy;
haftmann@30942
   893
haftmann@30942
   894
haftmann@30942
   895
(** diagnostic commands **)
haftmann@30942
   896
haftmann@31036
   897
fun read_const_exprs thy =
haftmann@31036
   898
  let
haftmann@36272
   899
    fun consts_of thy' = Symtab.fold (fn (c, (_, NONE)) => cons c | _ => I)
haftmann@36272
   900
      ((snd o #constants o Consts.dest o #consts o Sign.rep_sg) thy') [];
haftmann@36272
   901
    fun belongs_here thy' c = forall
haftmann@36272
   902
      (fn thy'' => not (Sign.declared_const thy'' c)) (Theory.parents_of thy');
haftmann@36272
   903
    fun consts_of_select thy' = filter (belongs_here thy') (consts_of thy');
haftmann@36272
   904
    fun read_const_expr "*" = ([], consts_of thy)
haftmann@31036
   905
      | read_const_expr s = if String.isSuffix ".*" s
wenzelm@37216
   906
          then ([], consts_of_select (Thy_Info.the_theory (unsuffix ".*" s) thy))
haftmann@31156
   907
          else ([Code.read_const thy s], []);
haftmann@31036
   908
  in pairself flat o split_list o map read_const_expr end;
haftmann@31036
   909
haftmann@30942
   910
fun code_depgr thy consts =
haftmann@30942
   911
  let
haftmann@31125
   912
    val (_, eqngr) = Code_Preproc.obtain thy consts [];
haftmann@34173
   913
    val all_consts = Graph.all_succs eqngr consts;
haftmann@34891
   914
  in Graph.subgraph (member (op =) all_consts) eqngr end;
haftmann@30942
   915
haftmann@31125
   916
fun code_thms thy = Pretty.writeln o Code_Preproc.pretty thy o code_depgr thy;
haftmann@30942
   917
haftmann@30942
   918
fun code_deps thy consts =
haftmann@27103
   919
  let
haftmann@30942
   920
    val eqngr = code_depgr thy consts;
haftmann@30942
   921
    val constss = Graph.strong_conn eqngr;
haftmann@30942
   922
    val mapping = Symtab.empty |> fold (fn consts => fold (fn const =>
haftmann@30942
   923
      Symtab.update (const, consts)) consts) constss;
haftmann@30942
   924
    fun succs consts = consts
haftmann@30942
   925
      |> maps (Graph.imm_succs eqngr)
haftmann@30942
   926
      |> subtract (op =) consts
haftmann@30942
   927
      |> map (the o Symtab.lookup mapping)
haftmann@30942
   928
      |> distinct (op =);
haftmann@30942
   929
    val conn = [] |> fold (fn consts => cons (consts, succs consts)) constss;
haftmann@31156
   930
    fun namify consts = map (Code.string_of_const thy) consts
haftmann@30942
   931
      |> commas;
haftmann@30942
   932
    val prgr = map (fn (consts, constss) =>
haftmann@30942
   933
      { name = namify consts, ID = namify consts, dir = "", unfold = true,
haftmann@30942
   934
        path = "", parents = map namify constss }) conn;
haftmann@30942
   935
  in Present.display_graph prgr end;
haftmann@30942
   936
haftmann@30942
   937
local
haftmann@27103
   938
haftmann@31036
   939
fun code_thms_cmd thy = code_thms thy o op @ o read_const_exprs thy;
haftmann@31036
   940
fun code_deps_cmd thy = code_deps thy o op @ o read_const_exprs thy;
haftmann@30942
   941
haftmann@30942
   942
in
haftmann@30942
   943
haftmann@30942
   944
val _ =
wenzelm@36960
   945
  Outer_Syntax.improper_command "code_thms" "print system of code equations for code" Keyword.diag
wenzelm@36960
   946
    (Scan.repeat1 Parse.term_group
haftmann@30942
   947
      >> (fn cs => Toplevel.no_timing o Toplevel.unknown_theory
haftmann@30942
   948
        o Toplevel.keep ((fn thy => code_thms_cmd thy cs) o Toplevel.theory_of)));
haftmann@30942
   949
haftmann@30942
   950
val _ =
wenzelm@36960
   951
  Outer_Syntax.improper_command "code_deps" "visualize dependencies of code equations for code"
wenzelm@36960
   952
    Keyword.diag
wenzelm@36960
   953
    (Scan.repeat1 Parse.term_group
haftmann@30942
   954
      >> (fn cs => Toplevel.no_timing o Toplevel.unknown_theory
haftmann@30942
   955
        o Toplevel.keep ((fn thy => code_deps_cmd thy cs) o Toplevel.theory_of)));
haftmann@30942
   956
haftmann@30942
   957
end;
haftmann@27103
   958
haftmann@24219
   959
end; (*struct*)
haftmann@24219
   960
haftmann@24219
   961
haftmann@28054
   962
structure Basic_Code_Thingol: BASIC_CODE_THINGOL = Code_Thingol;