src/Pure/sign.ML
author wenzelm
Mon Feb 06 20:59:08 2006 +0100 (2006-02-06)
changeset 18941 18cb1e2ab77d
parent 18928 042608ffa2ec
child 18967 ea42ab6c08d1
permissions -rw-r--r--
added add_abbrevs(_i);
moved const_of_class/class_of_const to logic.ML;
added no_vars (from theory.ML);
added cert_def;
added const_expansion;
certify: refer to Consts.certify, which includes expansion;
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(*  Title:      Pure/sign.ML
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    ID:         $Id$
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    Author:     Lawrence C Paulson and Markus Wenzel
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Logical signature content: naming conventions, concrete syntax, type
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signature, polymorphic constants.
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*)
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signature SIGN_THEORY =
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sig
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  val add_defsort: string -> theory -> theory
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  val add_defsort_i: sort -> theory -> theory
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  val add_types: (bstring * int * mixfix) list -> theory -> theory
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  val add_typedecls: (bstring * string list * mixfix) list -> theory -> theory
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  val add_nonterminals: bstring list -> theory -> theory
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  val add_tyabbrs: (bstring * string list * string * mixfix) list -> theory -> theory
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  val add_tyabbrs_i: (bstring * string list * typ * mixfix) list -> theory -> theory
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  val add_arities: (xstring * string list * string) list -> theory -> theory
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  val add_arities_i: (string * sort list * sort) list -> theory -> theory
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  val add_syntax: (bstring * string * mixfix) list -> theory -> theory
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  val add_syntax_i: (bstring * typ * mixfix) list -> theory -> theory
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  val add_modesyntax: (string * bool) -> (bstring * string * mixfix) list -> theory -> theory
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  val add_modesyntax_i: (string * bool) -> (bstring * typ * mixfix) list -> theory -> theory
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  val del_modesyntax: (string * bool) -> (bstring * string * mixfix) list -> theory -> theory
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  val del_modesyntax_i: (string * bool) -> (bstring * typ * mixfix) list -> theory -> theory
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  val add_consts: (bstring * string * mixfix) list -> theory -> theory
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  val add_consts_i: (bstring * typ * mixfix) list -> theory -> theory
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  val add_abbrevs: (bstring * string * mixfix) list -> theory -> theory
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  val add_abbrevs_i: (bstring * term * mixfix) list -> theory -> theory
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  val add_const_constraint: xstring * string -> theory -> theory
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  val add_const_constraint_i: string * typ -> theory -> theory
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  val add_classes: (bstring * xstring list) list -> theory -> theory
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  val add_classes_i: (bstring * class list) list -> theory -> theory
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  val add_classrel: (xstring * xstring) list -> theory -> theory
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  val add_classrel_i: (class * class) list -> theory -> theory
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  val add_trfuns:
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    (string * (ast list -> ast)) list *
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    (string * (term list -> term)) list *
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    (string * (term list -> term)) list *
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    (string * (ast list -> ast)) list -> theory -> theory
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  val add_trfunsT:
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    (string * (bool -> typ -> term list -> term)) list -> theory -> theory
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  val add_advanced_trfuns:
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    (string * (Context.generic -> ast list -> ast)) list *
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    (string * (Context.generic -> term list -> term)) list *
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    (string * (Context.generic -> term list -> term)) list *
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    (string * (Context.generic -> ast list -> ast)) list -> theory -> theory
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  val add_advanced_trfunsT:
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    (string * (Context.generic -> bool -> typ -> term list -> term)) list -> theory -> theory
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  val add_tokentrfuns:
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    (string * string * (string -> string * real)) list -> theory -> theory
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  val add_mode_tokentrfuns: string -> (string * (string -> string * real)) list
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    -> theory -> theory
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  val parse_ast_translation: bool * string -> theory -> theory
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  val parse_translation: bool * string -> theory -> theory
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  val print_translation: bool * string -> theory -> theory
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  val typed_print_translation: bool * string -> theory -> theory
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  val print_ast_translation: bool * string -> theory -> theory
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  val token_translation: string -> theory -> theory
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  val add_trrules: (xstring * string) Syntax.trrule list -> theory -> theory
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  val add_trrules_i: ast Syntax.trrule list -> theory -> theory
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  val add_path: string -> theory -> theory
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  val parent_path: theory -> theory
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  val root_path: theory -> theory
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  val absolute_path: theory -> theory
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  val local_path: theory -> theory
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  val qualified_names: theory -> theory
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  val no_base_names: theory -> theory
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  val custom_accesses: (string list -> string list list) -> theory -> theory
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  val set_policy: (string -> bstring -> string) * (string list -> string list list) ->
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    theory -> theory
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  val restore_naming: theory -> theory -> theory
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  val hide_classes: bool -> xstring list -> theory -> theory
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  val hide_classes_i: bool -> string list -> theory -> theory
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  val hide_types: bool -> xstring list -> theory -> theory
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  val hide_types_i: bool -> string list -> theory -> theory
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  val hide_consts: bool -> xstring list -> theory -> theory
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  val hide_consts_i: bool -> string list -> theory -> theory
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  val hide_names: bool -> string * xstring list -> theory -> theory
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  val hide_names_i: bool -> string * string list -> theory -> theory
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end
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signature SIGN =
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sig
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  type sg    (*obsolete*)
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  val init_data: theory -> theory
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  val rep_sg: theory ->
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   {naming: NameSpace.naming,
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    syn: Syntax.syntax,
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    tsig: Type.tsig,
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    consts: Consts.T}
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  val naming_of: theory -> NameSpace.naming
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  val base_name: string -> bstring
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  val full_name: theory -> bstring -> string
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  val full_name_path: theory -> string -> bstring -> string
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  val declare_name: theory -> string -> NameSpace.T -> NameSpace.T
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  val syn_of: theory -> Syntax.syntax
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  val tsig_of: theory -> Type.tsig
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  val classes_of: theory -> Sorts.classes
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  val classes_arities_of: theory -> Sorts.classes * Sorts.arities
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  val classes: theory -> class list
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  val defaultS: theory -> sort
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  val subsort: theory -> sort * sort -> bool
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  val of_sort: theory -> typ * sort -> bool
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  val witness_sorts: theory -> sort list -> sort list -> (typ * sort) list
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  val universal_witness: theory -> (typ * sort) option
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  val all_sorts_nonempty: theory -> bool
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  val typ_instance: theory -> typ * typ -> bool
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  val typ_match: theory -> typ * typ -> Type.tyenv -> Type.tyenv
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  val typ_unify: theory -> typ * typ -> Type.tyenv * int -> Type.tyenv * int
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  val is_logtype: theory -> string -> bool
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  val const_constraint: theory -> string -> typ option
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  val the_const_constraint: theory -> string -> typ
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  val const_type: theory -> string -> typ option
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  val the_const_type: theory -> string -> typ
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  val declared_tyname: theory -> string -> bool
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  val declared_const: theory -> string -> bool
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  val const_monomorphic: theory -> string -> bool
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  val const_typargs: theory -> string * typ -> typ list
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  val const_instance: theory -> string * typ list -> typ
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  val const_expansion: theory -> string * typ -> term option
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  val class_space: theory -> NameSpace.T
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  val type_space: theory -> NameSpace.T
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  val const_space: theory -> NameSpace.T
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  val intern_class: theory -> xstring -> string
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  val extern_class: theory -> string -> xstring
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  val intern_type: theory -> xstring -> string
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  val extern_type: theory -> string -> xstring
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  val intern_const: theory -> xstring -> string
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  val extern_const: theory -> string -> xstring
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  val intern_sort: theory -> sort -> sort
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  val extern_sort: theory -> sort -> sort
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  val intern_typ: theory -> typ -> typ
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  val extern_typ: theory -> typ -> typ
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  val intern_term: theory -> term -> term
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  val extern_term: theory -> term -> term
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  val intern_tycons: theory -> typ -> typ
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  val pretty_term': Syntax.syntax -> Context.generic -> term -> Pretty.T
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  val pretty_term: theory -> term -> Pretty.T
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  val pretty_typ: theory -> typ -> Pretty.T
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  val pretty_sort: theory -> sort -> Pretty.T
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  val pretty_classrel: theory -> class list -> Pretty.T
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  val pretty_arity: theory -> arity -> Pretty.T
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  val string_of_term: theory -> term -> string
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  val string_of_typ: theory -> typ -> string
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  val string_of_sort: theory -> sort -> string
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  val string_of_classrel: theory -> class list -> string
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  val string_of_arity: theory -> arity -> string
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  val pprint_term: theory -> term -> pprint_args -> unit
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  val pprint_typ: theory -> typ -> pprint_args -> unit
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  val pp: theory -> Pretty.pp
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  val certify_class: theory -> class -> class
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  val certify_sort: theory -> sort -> sort
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  val certify_typ: theory -> typ -> typ
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  val certify_typ_syntax: theory -> typ -> typ
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  val certify_typ_abbrev: theory -> typ -> typ
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  val certify_term: Pretty.pp -> theory -> term -> term * typ * int
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  val certify_prop: Pretty.pp -> theory -> term -> term * typ * int
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  val cert_term: theory -> term -> term
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  val cert_prop: theory -> term -> term
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  val no_vars: Pretty.pp -> term -> term
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  val cert_def: Pretty.pp -> term -> (string * typ) * term
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  val read_sort': Syntax.syntax -> Context.generic -> string -> sort
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  val read_sort: theory -> string -> sort
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  val read_typ': Syntax.syntax -> Context.generic ->
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    (indexname -> sort option) -> string -> typ
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  val read_typ_syntax': Syntax.syntax -> Context.generic ->
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    (indexname -> sort option) -> string -> typ
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  val read_typ_abbrev': Syntax.syntax -> Context.generic ->
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    (indexname -> sort option) -> string -> typ
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  val read_typ: theory * (indexname -> sort option) -> string -> typ
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  val read_typ_syntax: theory * (indexname -> sort option) -> string -> typ
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  val read_typ_abbrev: theory * (indexname -> sort option) -> string -> typ
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  val read_tyname: theory -> string -> typ
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  val read_const: theory -> string -> term
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  val infer_types_simult: Pretty.pp -> theory -> (indexname -> typ option) ->
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    (indexname -> sort option) -> string list -> bool
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    -> (term list * typ) list -> term list * (indexname * typ) list
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  val infer_types: Pretty.pp -> theory -> (indexname -> typ option) ->
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    (indexname -> sort option) -> string list -> bool
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    -> term list * typ -> term * (indexname * typ) list
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  val read_def_terms': Pretty.pp -> (string -> bool) -> Syntax.syntax -> Context.generic ->
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    (indexname -> typ option) * (indexname -> sort option) ->
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    string list -> bool -> (string * typ) list -> term list * (indexname * typ) list
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  val read_def_terms:
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    theory * (indexname -> typ option) * (indexname -> sort option) ->
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    string list -> bool -> (string * typ) list -> term list * (indexname * typ) list
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  val simple_read_term: theory -> typ -> string -> term
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  val read_term: theory -> string -> term
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  val read_prop: theory -> string -> term
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  include SIGN_THEORY
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end
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structure Sign: SIGN =
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struct
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type sg = theory;
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(** datatype sign **)
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datatype sign = Sign of
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 {naming: NameSpace.naming,     (*common naming conventions*)
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  syn: Syntax.syntax,           (*concrete syntax for terms, types, sorts*)
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  tsig: Type.tsig,              (*order-sorted signature of types*)
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  consts: Consts.T};            (*polymorphic constants*)
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fun make_sign (naming, syn, tsig, consts) =
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  Sign {naming = naming, syn = syn, tsig = tsig, consts = consts};
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structure SignData = TheoryDataFun
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(struct
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  val name = "Pure/sign";
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  type T = sign;
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  val copy = I;
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  fun extend (Sign {syn, tsig, consts, ...}) =
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    make_sign (NameSpace.default_naming, syn, tsig, consts);
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  val empty =
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    make_sign (NameSpace.default_naming, Syntax.basic_syn, Type.empty_tsig, Consts.empty);
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  fun merge pp (sign1, sign2) =
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    let
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      val Sign {naming = _, syn = syn1, tsig = tsig1, consts = consts1} = sign1;
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      val Sign {naming = _, syn = syn2, tsig = tsig2, consts = consts2} = sign2;
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      val naming = NameSpace.default_naming;
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      val syn = Syntax.merge_syntaxes syn1 syn2;
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      val tsig = Type.merge_tsigs pp (tsig1, tsig2);
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      val consts = Consts.merge (consts1, consts2);
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    in make_sign (naming, syn, tsig, consts) end;
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  fun print _ _ = ();
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end);
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val init_data = SignData.init;
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fun rep_sg thy = SignData.get thy |> (fn Sign args => args);
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fun map_sign f = SignData.map (fn Sign {naming, syn, tsig, consts} =>
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  make_sign (f (naming, syn, tsig, consts)));
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fun map_naming f = map_sign (fn (naming, syn, tsig, consts) => (f naming, syn, tsig, consts));
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fun map_syn f = map_sign (fn (naming, syn, tsig, consts) => (naming, f syn, tsig, consts));
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fun map_tsig f = map_sign (fn (naming, syn, tsig, consts) => (naming, syn, f tsig, consts));
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fun map_consts f = map_sign (fn (naming, syn, tsig, consts) => (naming, syn, tsig, f consts));
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(* naming *)
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val naming_of = #naming o rep_sg;
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val base_name = NameSpace.base;
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val full_name = NameSpace.full o naming_of;
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fun full_name_path thy elems = NameSpace.full (NameSpace.add_path elems (naming_of thy));
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val declare_name = NameSpace.declare o naming_of;
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(* syntax *)
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val syn_of = #syn o rep_sg;
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(* type signature *)
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val tsig_of = #tsig o rep_sg;
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val classes_of = snd o #classes o Type.rep_tsig o tsig_of;
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fun classes_arities_of thy = (classes_of thy, #arities (Type.rep_tsig (tsig_of thy)));
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val classes = Type.classes o tsig_of;
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val defaultS = Type.defaultS o tsig_of;
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val subsort = Type.subsort o tsig_of;
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val of_sort = Type.of_sort o tsig_of;
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val witness_sorts = Type.witness_sorts o tsig_of;
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val universal_witness = Type.universal_witness o tsig_of;
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val all_sorts_nonempty = is_some o universal_witness;
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val typ_instance = Type.typ_instance o tsig_of;
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val typ_match = Type.typ_match o tsig_of;
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val typ_unify = Type.unify o tsig_of;
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fun is_logtype thy c = c mem_string Type.logical_types (tsig_of thy);
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(* polymorphic constants *)
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val consts_of = #consts o rep_sg;
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val the_const_constraint = Consts.constraint o consts_of;
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val const_constraint = try o the_const_constraint;
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val the_const_type = Consts.declaration o consts_of;
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val const_type = try o the_const_type;
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val const_monomorphic = Consts.monomorphic o consts_of;
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val const_typargs = Consts.typargs o consts_of;
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val const_instance = Consts.instance o consts_of;
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fun const_expansion thy = Consts.expansion (tsig_of thy) (consts_of thy);
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val declared_tyname = Symtab.defined o #2 o #types o Type.rep_tsig o tsig_of;
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val declared_const = is_some oo const_type;
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(** intern / extern names **)
wenzelm@16337
   299
wenzelm@16368
   300
val class_space = #1 o #classes o Type.rep_tsig o tsig_of;
wenzelm@16368
   301
val type_space = #1 o #types o Type.rep_tsig o tsig_of;
wenzelm@18062
   302
val const_space = Consts.space o consts_of;
wenzelm@14645
   303
wenzelm@16368
   304
val intern_class = NameSpace.intern o class_space;
wenzelm@16368
   305
val extern_class = NameSpace.extern o class_space;
wenzelm@16368
   306
val intern_type = NameSpace.intern o type_space;
wenzelm@16368
   307
val extern_type = NameSpace.extern o type_space;
wenzelm@16368
   308
val intern_const = NameSpace.intern o const_space;
wenzelm@16368
   309
val extern_const = NameSpace.extern o const_space;
wenzelm@16337
   310
wenzelm@16337
   311
val intern_sort = map o intern_class;
wenzelm@16337
   312
val extern_sort = map o extern_class;
wenzelm@16337
   313
wenzelm@16337
   314
local
wenzelm@14645
   315
wenzelm@18892
   316
fun map_typ f g (Type (c, Ts)) = Type (g c, map (map_typ f g) Ts)
wenzelm@18892
   317
  | map_typ f _ (TFree (x, S)) = TFree (x, map f S)
wenzelm@18892
   318
  | map_typ f _ (TVar (xi, S)) = TVar (xi, map f S);
wenzelm@18892
   319
wenzelm@18892
   320
fun map_term f g h (Const (c, T)) = Const (h c, map_typ f g T)
wenzelm@18892
   321
  | map_term f g _ (Free (x, T)) = Free (x, map_typ f g T)
wenzelm@18892
   322
  | map_term f g _ (Var (xi, T)) = Var (xi, map_typ f g T)
wenzelm@18892
   323
  | map_term _ _ _ (t as Bound _) = t
wenzelm@18892
   324
  | map_term f g h (Abs (x, T, t)) = Abs (x, map_typ f g T, map_term f g h t)
wenzelm@18892
   325
  | map_term f g h (t $ u) = map_term f g h t $ map_term f g h u;
wenzelm@18892
   326
wenzelm@16337
   327
fun mapping add_names f t =
wenzelm@16337
   328
  let
wenzelm@16337
   329
    fun f' x = let val y = f x in if x = y then NONE else SOME (x, y) end;
wenzelm@16337
   330
    val tab = List.mapPartial f' (add_names (t, []));
wenzelm@18941
   331
    fun get x = the_default x (AList.lookup (op =) tab x);
wenzelm@16337
   332
  in get end;
wenzelm@16337
   333
wenzelm@16442
   334
fun typ_mapping f g thy T =
wenzelm@18892
   335
  T |> map_typ
wenzelm@16442
   336
    (mapping add_typ_classes (f thy) T)
wenzelm@16442
   337
    (mapping add_typ_tycons (g thy) T);
wenzelm@14645
   338
wenzelm@16442
   339
fun term_mapping f g h thy t =
wenzelm@18892
   340
  t |> map_term
wenzelm@16442
   341
    (mapping add_term_classes (f thy) t)
wenzelm@16442
   342
    (mapping add_term_tycons (g thy) t)
wenzelm@16442
   343
    (mapping add_term_consts (h thy) t);
wenzelm@16337
   344
wenzelm@16337
   345
in
wenzelm@14645
   346
wenzelm@16368
   347
val intern_typ = typ_mapping intern_class intern_type;
wenzelm@16368
   348
val extern_typ = typ_mapping extern_class extern_type;
wenzelm@16368
   349
val intern_term = term_mapping intern_class intern_type intern_const;
wenzelm@16368
   350
val extern_term = term_mapping extern_class extern_type extern_const;
wenzelm@16368
   351
val intern_tycons = typ_mapping (K I) intern_type;
wenzelm@16337
   352
wenzelm@16337
   353
end;
wenzelm@14645
   354
wenzelm@14645
   355
wenzelm@14645
   356
wenzelm@4249
   357
(** pretty printing of terms, types etc. **)
wenzelm@3937
   358
wenzelm@18857
   359
fun pretty_term' syn context t =
wenzelm@18857
   360
  let
wenzelm@18857
   361
    val thy = Context.theory_of context;
wenzelm@18857
   362
    val curried = Context.exists_name Context.CPureN thy;
wenzelm@18857
   363
  in Syntax.pretty_term context syn curried (extern_term thy t) end;
wenzelm@18857
   364
wenzelm@18857
   365
fun pretty_term thy t = pretty_term' (syn_of thy) (Context.Theory thy) t;
wenzelm@18857
   366
wenzelm@18857
   367
fun pretty_typ thy T = Syntax.pretty_typ (Context.Theory thy) (syn_of thy) (extern_typ thy T);
wenzelm@18857
   368
fun pretty_sort thy S = Syntax.pretty_sort (Context.Theory thy) (syn_of thy) (extern_sort thy S);
wenzelm@3937
   369
wenzelm@16442
   370
fun pretty_classrel thy cs = Pretty.block (List.concat
wenzelm@16442
   371
  (separate [Pretty.str " <", Pretty.brk 1] (map (single o pretty_sort thy o single) cs)));
wenzelm@3937
   372
wenzelm@16442
   373
fun pretty_arity thy (a, Ss, S) =
wenzelm@3937
   374
  let
wenzelm@16442
   375
    val a' = extern_type thy a;
wenzelm@3937
   376
    val dom =
wenzelm@3937
   377
      if null Ss then []
wenzelm@16442
   378
      else [Pretty.list "(" ")" (map (pretty_sort thy) Ss), Pretty.brk 1];
wenzelm@16442
   379
  in Pretty.block ([Pretty.str (a' ^ " ::"), Pretty.brk 1] @ dom @ [pretty_sort thy S]) end;
wenzelm@3937
   380
wenzelm@14828
   381
val string_of_term = Pretty.string_of oo pretty_term;
wenzelm@14828
   382
val string_of_typ = Pretty.string_of oo pretty_typ;
wenzelm@14828
   383
val string_of_sort = Pretty.string_of oo pretty_sort;
wenzelm@14828
   384
val string_of_classrel = Pretty.string_of oo pretty_classrel;
wenzelm@14828
   385
val string_of_arity = Pretty.string_of oo pretty_arity;
wenzelm@3937
   386
wenzelm@16337
   387
val pprint_term = (Pretty.pprint o Pretty.quote) oo pretty_term;
wenzelm@16337
   388
val pprint_typ = (Pretty.pprint o Pretty.quote) oo pretty_typ;
wenzelm@3937
   389
wenzelm@16442
   390
fun pp thy = Pretty.pp (pretty_term thy, pretty_typ thy, pretty_sort thy,
wenzelm@16442
   391
  pretty_classrel thy, pretty_arity thy);
wenzelm@14828
   392
wenzelm@3937
   393
wenzelm@3937
   394
wenzelm@16337
   395
(** certify entities **)    (*exception TYPE*)
wenzelm@8898
   396
wenzelm@16337
   397
(* certify wrt. type signature *)
wenzelm@8898
   398
wenzelm@16723
   399
fun certify cert = cert o tsig_of o Context.check_thy;
wenzelm@562
   400
wenzelm@16337
   401
val certify_class      = certify Type.cert_class;
wenzelm@16337
   402
val certify_sort       = certify Type.cert_sort;
wenzelm@16337
   403
val certify_typ        = certify Type.cert_typ;
wenzelm@16337
   404
val certify_typ_syntax = certify Type.cert_typ_syntax;
wenzelm@16337
   405
val certify_typ_abbrev = certify Type.cert_typ_abbrev;
wenzelm@10443
   406
wenzelm@4961
   407
wenzelm@4961
   408
(* certify_term *)
wenzelm@4961
   409
wenzelm@14987
   410
local
nipkow@1494
   411
wenzelm@16337
   412
(*determine and check the type of a term*)
wenzelm@16337
   413
fun type_check pp tm =
wenzelm@4961
   414
  let
wenzelm@4961
   415
    fun err_appl why bs t T u U =
wenzelm@4961
   416
      let
wenzelm@10404
   417
        val xs = map Free bs;           (*we do not rename here*)
wenzelm@4961
   418
        val t' = subst_bounds (xs, t);
wenzelm@4961
   419
        val u' = subst_bounds (xs, u);
wenzelm@16337
   420
        val msg = cat_lines
wenzelm@14828
   421
          (TypeInfer.appl_error (Syntax.pp_show_brackets pp) why t' T u' U);
wenzelm@16337
   422
      in raise TYPE (msg, [T, U], [t', u']) end;
wenzelm@4961
   423
wenzelm@4961
   424
    fun typ_of (_, Const (_, T)) = T
wenzelm@4961
   425
      | typ_of (_, Free  (_, T)) = T
wenzelm@4961
   426
      | typ_of (_, Var (_, T)) = T
skalberg@15570
   427
      | typ_of (bs, Bound i) = snd (List.nth (bs, i) handle Subscript =>
wenzelm@4961
   428
          raise TYPE ("Loose bound variable: B." ^ string_of_int i, [], [Bound i]))
wenzelm@4961
   429
      | typ_of (bs, Abs (x, T, body)) = T --> typ_of ((x, T) :: bs, body)
wenzelm@4961
   430
      | typ_of (bs, t $ u) =
wenzelm@4961
   431
          let val T = typ_of (bs, t) and U = typ_of (bs, u) in
wenzelm@4961
   432
            (case T of
wenzelm@4961
   433
              Type ("fun", [T1, T2]) =>
wenzelm@14828
   434
                if T1 = U then T2 else err_appl "Incompatible operand type" bs t T u U
wenzelm@14828
   435
            | _ => err_appl "Operator not of function type" bs t T u U)
wenzelm@4961
   436
          end;
wenzelm@4961
   437
wenzelm@4961
   438
  in typ_of ([], tm) end;
clasohm@0
   439
wenzelm@14987
   440
in
wenzelm@14987
   441
wenzelm@16442
   442
fun certify_term pp thy tm =
wenzelm@251
   443
  let
wenzelm@16723
   444
    val _ = Context.check_thy thy;
wenzelm@14784
   445
wenzelm@18941
   446
    fun check_vars (t $ u) = (check_vars t; check_vars u)
wenzelm@18941
   447
      | check_vars (Abs (_, _, t)) = check_vars t
wenzelm@18941
   448
      | check_vars (t as Var ((x, i), _)) =
wenzelm@18941
   449
          if i < 0 then raise TYPE ("Malformed variable: " ^ quote x, [], [t]) else ()
wenzelm@18941
   450
      | check_vars _ = ();
wenzelm@169
   451
wenzelm@18941
   452
    val tm' = tm
wenzelm@18941
   453
      |> map_term_types (certify_typ thy)
wenzelm@18941
   454
      |> Consts.certify pp (tsig_of thy) (consts_of thy)
wenzelm@18941
   455
      |> tap check_vars;
wenzelm@18941
   456
    val tm' = if tm = tm' then tm else tm';  (*avoid copying of already normal term*)
wenzelm@18941
   457
  in (tm', type_check pp tm', maxidx_of_term tm') end;
wenzelm@251
   458
wenzelm@14987
   459
end;
wenzelm@14987
   460
wenzelm@16494
   461
fun certify_prop pp thy tm =
wenzelm@16494
   462
  let val res as (tm', T, _) = certify_term pp thy tm
wenzelm@16494
   463
  in if T <> propT then raise TYPE ("Term not of type prop", [T], [tm']) else res end;
wenzelm@16494
   464
wenzelm@16494
   465
fun cert_term thy tm = #1 (certify_term (pp thy) thy tm);
wenzelm@16494
   466
fun cert_prop thy tm = #1 (certify_prop (pp thy) thy tm);
wenzelm@16494
   467
wenzelm@251
   468
wenzelm@18941
   469
(* specifications *)
wenzelm@18941
   470
wenzelm@18941
   471
fun no_vars pp tm =
wenzelm@18941
   472
  (case (Term.term_vars tm, Term.term_tvars tm) of
wenzelm@18941
   473
    ([], []) => tm
wenzelm@18941
   474
  | (ts, ixns) => error (Pretty.string_of (Pretty.block (Pretty.breaks
wenzelm@18941
   475
      (Pretty.str "Illegal schematic variable(s) in term:" ::
wenzelm@18941
   476
       map (Pretty.term pp) ts @ map (Pretty.typ pp o TVar) ixns)))));
wenzelm@18941
   477
wenzelm@18941
   478
fun cert_def pp tm =
wenzelm@18941
   479
  let val ((lhs, rhs), _) = tm
wenzelm@18941
   480
    |> no_vars pp
wenzelm@18941
   481
    |> Logic.strip_imp_concl
wenzelm@18941
   482
    |> Logic.dest_def pp Term.is_Const (K false) (K false)
wenzelm@18941
   483
  in (Term.dest_Const (Term.head_of lhs), rhs) end
wenzelm@18941
   484
  handle TERM (msg, _) => error msg;
wenzelm@18941
   485
wenzelm@18941
   486
wenzelm@16337
   487
wenzelm@16442
   488
(** read and certify entities **)    (*exception ERROR*)
wenzelm@16337
   489
wenzelm@16337
   490
(* sorts *)
wenzelm@16337
   491
wenzelm@18857
   492
fun read_sort' syn context str =
wenzelm@16337
   493
  let
wenzelm@18857
   494
    val thy = Context.theory_of context;
wenzelm@16723
   495
    val _ = Context.check_thy thy;
wenzelm@18857
   496
    val S = intern_sort thy (Syntax.read_sort context syn str);
wenzelm@16442
   497
  in certify_sort thy S handle TYPE (msg, _, _) => error msg end;
wenzelm@16337
   498
wenzelm@18857
   499
fun read_sort thy str = read_sort' (syn_of thy) (Context.Theory thy) str;
wenzelm@16337
   500
wenzelm@16337
   501
wenzelm@16337
   502
(* types *)
wenzelm@16337
   503
wenzelm@16337
   504
local
wenzelm@16337
   505
wenzelm@18857
   506
fun gen_read_typ' cert syn context def_sort str =
wenzelm@16337
   507
  let
wenzelm@18857
   508
    val thy = Context.theory_of context;
wenzelm@16723
   509
    val _ = Context.check_thy thy;
wenzelm@16442
   510
    val get_sort = TypeInfer.get_sort (tsig_of thy) def_sort (intern_sort thy);
wenzelm@18857
   511
    val T = intern_tycons thy (Syntax.read_typ context syn get_sort (intern_sort thy) str);
wenzelm@16442
   512
  in cert thy T handle TYPE (msg, _, _) => error msg end
wenzelm@18678
   513
  handle ERROR msg => cat_error msg ("The error(s) above occurred in type " ^ quote str);
wenzelm@16337
   514
wenzelm@16442
   515
fun gen_read_typ cert (thy, def_sort) str =
wenzelm@18857
   516
  gen_read_typ' cert (syn_of thy) (Context.Theory thy) def_sort str;
wenzelm@16337
   517
wenzelm@16337
   518
in
wenzelm@16337
   519
wenzelm@16442
   520
fun no_def_sort thy = (thy: theory, K NONE);
wenzelm@16337
   521
wenzelm@16442
   522
val read_typ'        = gen_read_typ' certify_typ;
wenzelm@16442
   523
val read_typ_syntax' = gen_read_typ' certify_typ_syntax;
wenzelm@16442
   524
val read_typ_abbrev' = gen_read_typ' certify_typ_abbrev;
wenzelm@16442
   525
val read_typ         = gen_read_typ certify_typ;
wenzelm@16442
   526
val read_typ_syntax  = gen_read_typ certify_typ_syntax;
wenzelm@16442
   527
val read_typ_abbrev  = gen_read_typ certify_typ_abbrev;
wenzelm@16337
   528
wenzelm@16337
   529
end;
wenzelm@16337
   530
wenzelm@16337
   531
wenzelm@16368
   532
(* type and constant names *)
wenzelm@15703
   533
wenzelm@16442
   534
fun read_tyname thy raw_c =
wenzelm@16442
   535
  let val c = intern_type thy raw_c in
wenzelm@17412
   536
    (case Symtab.lookup (#2 (#types (Type.rep_tsig (tsig_of thy)))) c of
wenzelm@15703
   537
      SOME (Type.LogicalType n, _) => Type (c, replicate n dummyT)
wenzelm@16368
   538
    | _ => error ("Undeclared type constructor: " ^ quote c))
wenzelm@15703
   539
  end;
wenzelm@15703
   540
wenzelm@16442
   541
fun read_const thy raw_c =
wenzelm@16368
   542
  let
wenzelm@16442
   543
    val c = intern_const thy raw_c;
wenzelm@16442
   544
    val _ = the_const_type thy c handle TYPE (msg, _, _) => error msg;
wenzelm@16368
   545
  in Const (c, dummyT) end;
wenzelm@15703
   546
wenzelm@15703
   547
wenzelm@251
   548
wenzelm@583
   549
(** infer_types **)         (*exception ERROR*)
wenzelm@251
   550
wenzelm@2979
   551
(*
wenzelm@16337
   552
  def_type: partial map from indexnames to types (constrains Frees and Vars)
wenzelm@16337
   553
  def_sort: partial map from indexnames to sorts (constrains TFrees and TVars)
wenzelm@2979
   554
  used: list of already used type variables
wenzelm@2979
   555
  freeze: if true then generated parameters are turned into TFrees, else TVars
wenzelm@4249
   556
wenzelm@4249
   557
  termss: lists of alternative parses (only one combination should be type-correct)
wenzelm@4249
   558
  typs: expected types
wenzelm@2979
   559
*)
wenzelm@2979
   560
wenzelm@16442
   561
fun infer_types_simult pp thy def_type def_sort used freeze args =
wenzelm@251
   562
  let
wenzelm@18146
   563
    val termss = fold_rev (multiply o fst) args [[]];
wenzelm@4249
   564
    val typs =
wenzelm@16442
   565
      map (fn (_, T) => certify_typ thy T handle TYPE (msg, _, _) => error msg) args;
wenzelm@169
   566
wenzelm@18678
   567
    fun infer ts = Result (TypeInfer.infer_types (Syntax.pp_show_brackets pp) (tsig_of thy)
wenzelm@16941
   568
        (const_constraint thy) def_type def_sort (intern_const thy) (intern_tycons thy)
wenzelm@16442
   569
        (intern_sort thy) used freeze typs ts)
wenzelm@18678
   570
      handle TYPE (msg, _, _) => Exn (ERROR msg);
clasohm@623
   571
wenzelm@4249
   572
    val err_results = map infer termss;
wenzelm@18678
   573
    val errs = List.mapPartial (fn Exn (ERROR msg) => SOME msg | _ => NONE) err_results;
wenzelm@18678
   574
    val results = List.mapPartial get_result err_results;
wenzelm@4249
   575
wenzelm@14645
   576
    val ambiguity = length termss;
wenzelm@4249
   577
    fun ambig_msg () =
wenzelm@18678
   578
      if ambiguity > 1 andalso ambiguity <= ! Syntax.ambiguity_level then
wenzelm@18678
   579
        "Got more than one parse tree.\n\
wenzelm@18678
   580
        \Retry with smaller Syntax.ambiguity_level for more information."
wenzelm@18678
   581
      else "";
wenzelm@4249
   582
  in
wenzelm@18678
   583
    if null results then (cat_error (ambig_msg ()) (cat_lines errs))
wenzelm@4249
   584
    else if length results = 1 then
wenzelm@4249
   585
      (if ambiguity > ! Syntax.ambiguity_level then
wenzelm@4249
   586
        warning "Fortunately, only one parse tree is type correct.\n\
wenzelm@4249
   587
          \You may still want to disambiguate your grammar or your input."
wenzelm@4249
   588
      else (); hd results)
wenzelm@18678
   589
    else (cat_error (ambig_msg ()) ("More than one term is type correct:\n" ^
skalberg@15570
   590
      cat_lines (map (Pretty.string_of_term pp) (List.concat (map fst results)))))
wenzelm@4249
   591
  end;
clasohm@623
   592
wenzelm@16442
   593
fun infer_types pp thy def_type def_sort used freeze tsT =
wenzelm@16442
   594
  apfst hd (infer_types_simult pp thy def_type def_sort used freeze [tsT]);
wenzelm@251
   595
wenzelm@251
   596
wenzelm@16494
   597
(* read_def_terms -- read terms and infer types *)    (*exception ERROR*)
wenzelm@16337
   598
wenzelm@18857
   599
fun read_def_terms' pp is_logtype syn context (types, sorts) used freeze sTs =
wenzelm@8607
   600
  let
wenzelm@18857
   601
    val thy = Context.theory_of context;
wenzelm@8607
   602
    fun read (s, T) =
wenzelm@16442
   603
      let val T' = certify_typ thy T handle TYPE (msg, _, _) => error msg
wenzelm@18857
   604
      in (Syntax.read context is_logtype syn T' s, T') end;
wenzelm@16442
   605
  in infer_types_simult pp thy types sorts used freeze (map read sTs) end;
wenzelm@8607
   606
wenzelm@16442
   607
fun read_def_terms (thy, types, sorts) =
wenzelm@18857
   608
  read_def_terms' (pp thy) (is_logtype thy) (syn_of thy) (Context.Theory thy) (types, sorts);
wenzelm@12068
   609
wenzelm@16442
   610
fun simple_read_term thy T s =
wenzelm@16442
   611
  let val ([t], _) = read_def_terms (thy, K NONE, K NONE) [] true [(s, T)]
wenzelm@16337
   612
  in t end
wenzelm@18678
   613
  handle ERROR msg => cat_error msg ("The error(s) above occurred for term " ^ s);
wenzelm@8802
   614
wenzelm@16494
   615
fun read_term thy = simple_read_term thy TypeInfer.logicT;
wenzelm@16494
   616
fun read_prop thy = simple_read_term thy propT;
wenzelm@16494
   617
wenzelm@8607
   618
wenzelm@2979
   619
wenzelm@16337
   620
(** signature extension functions **)  (*exception ERROR/TYPE*)
wenzelm@386
   621
wenzelm@386
   622
(* add default sort *)
wenzelm@386
   623
wenzelm@16442
   624
fun gen_add_defsort prep_sort s thy =
wenzelm@16442
   625
  thy |> map_tsig (Type.set_defsort (prep_sort thy s));
wenzelm@8898
   626
wenzelm@16337
   627
val add_defsort = gen_add_defsort read_sort;
wenzelm@16337
   628
val add_defsort_i = gen_add_defsort certify_sort;
wenzelm@386
   629
wenzelm@386
   630
wenzelm@386
   631
(* add type constructors *)
wenzelm@386
   632
wenzelm@16442
   633
fun add_types types thy = thy |> map_sign (fn (naming, syn, tsig, consts) =>
wenzelm@14856
   634
  let
wenzelm@16597
   635
    val syn' = Syntax.extend_type_gram types syn;
wenzelm@16368
   636
    val decls = map (fn (a, n, mx) => (Syntax.type_name a mx, n)) types;
wenzelm@16442
   637
    val tsig' = Type.add_types naming decls tsig;
wenzelm@16442
   638
  in (naming, syn', tsig', consts) end);
wenzelm@16442
   639
wenzelm@16442
   640
fun add_typedecls decls thy =
wenzelm@16442
   641
  let
wenzelm@16442
   642
    fun type_of (a, vs, mx) =
haftmann@18928
   643
      if not (has_duplicates (op =) vs) then (a, length vs, mx)
wenzelm@16442
   644
      else error ("Duplicate parameters in type declaration: " ^ quote a);
wenzelm@16442
   645
  in add_types (map type_of decls) thy end;
wenzelm@16337
   646
wenzelm@16337
   647
wenzelm@16337
   648
(* add nonterminals *)
wenzelm@16337
   649
wenzelm@16442
   650
fun add_nonterminals ns thy = thy |> map_sign (fn (naming, syn, tsig, consts) =>
wenzelm@16337
   651
  let
wenzelm@16597
   652
    val syn' = Syntax.extend_consts ns syn;
wenzelm@16442
   653
    val tsig' = Type.add_nonterminals naming ns tsig;
wenzelm@16442
   654
  in (naming, syn', tsig', consts) end);
wenzelm@386
   655
wenzelm@386
   656
wenzelm@386
   657
(* add type abbreviations *)
wenzelm@386
   658
wenzelm@16442
   659
fun gen_add_tyabbr prep_typ (a, vs, rhs, mx) thy =
wenzelm@16442
   660
  thy |> map_sign (fn (naming, syn, tsig, consts) =>
wenzelm@16337
   661
    let
wenzelm@16597
   662
      val syn' = Syntax.extend_type_gram [(a, length vs, mx)] syn;
wenzelm@16368
   663
      val a' = Syntax.type_name a mx;
wenzelm@16442
   664
      val abbr = (a', vs, prep_typ thy rhs)
wenzelm@18678
   665
        handle ERROR msg => cat_error msg ("in type abbreviation " ^ quote a');
wenzelm@16442
   666
      val tsig' = Type.add_abbrevs naming [abbr] tsig;
wenzelm@16442
   667
    in (naming, syn', tsig', consts) end);
wenzelm@386
   668
wenzelm@16337
   669
val add_tyabbrs = fold (gen_add_tyabbr (read_typ_syntax o no_def_sort));
wenzelm@16337
   670
val add_tyabbrs_i = fold (gen_add_tyabbr certify_typ_syntax);
wenzelm@14784
   671
wenzelm@14784
   672
wenzelm@386
   673
(* add type arities *)
wenzelm@386
   674
wenzelm@16442
   675
fun gen_add_arities int_type prep_sort arities thy = thy |> map_tsig (fn tsig =>
wenzelm@16368
   676
  let
wenzelm@16442
   677
    fun prep_arity (a, Ss, S) = (int_type thy a, map (prep_sort thy) Ss, prep_sort thy S)
wenzelm@18678
   678
      handle ERROR msg => cat_error msg ("in arity for type " ^ quote a);
wenzelm@16442
   679
    val tsig' = Type.add_arities (pp thy) (map prep_arity arities) tsig;
wenzelm@16368
   680
  in tsig' end);
wenzelm@386
   681
wenzelm@16368
   682
val add_arities = gen_add_arities intern_type read_sort;
wenzelm@16337
   683
val add_arities_i = gen_add_arities (K I) certify_sort;
wenzelm@8898
   684
wenzelm@386
   685
wenzelm@16337
   686
(* modify syntax *)
wenzelm@16337
   687
wenzelm@16442
   688
fun gen_syntax change_gram prep_typ prmode args thy =
wenzelm@16337
   689
  let
wenzelm@18678
   690
    fun prep (c, T, mx) = (c, prep_typ thy T, mx) handle ERROR msg =>
wenzelm@18678
   691
      cat_error msg ("in syntax declaration " ^ quote (Syntax.const_name c mx));
wenzelm@16597
   692
  in thy |> map_syn (change_gram (is_logtype thy) prmode (map prep args)) end;
wenzelm@16337
   693
wenzelm@16337
   694
fun gen_add_syntax x = gen_syntax Syntax.extend_const_gram x;
wenzelm@386
   695
wenzelm@16337
   696
val add_modesyntax = gen_add_syntax (read_typ_syntax o no_def_sort);
wenzelm@16337
   697
val add_modesyntax_i = gen_add_syntax certify_typ_syntax;
wenzelm@16442
   698
val add_syntax = add_modesyntax Syntax.default_mode;
wenzelm@16442
   699
val add_syntax_i = add_modesyntax_i Syntax.default_mode;
wenzelm@16337
   700
val del_modesyntax = gen_syntax Syntax.remove_const_gram (read_typ_syntax o no_def_sort);
wenzelm@16337
   701
val del_modesyntax_i = gen_syntax Syntax.remove_const_gram certify_typ_syntax;
wenzelm@3805
   702
wenzelm@16337
   703
wenzelm@16337
   704
(* add constants *)
wenzelm@386
   705
wenzelm@17995
   706
local
wenzelm@17995
   707
wenzelm@16442
   708
fun gen_add_consts prep_typ raw_args thy =
wenzelm@386
   709
  let
wenzelm@16988
   710
    val prepT = Compress.typ thy o Type.varifyT o Type.no_tvars o Term.no_dummyT o prep_typ thy;
wenzelm@16337
   711
    fun prep (c, T, mx) = ((c, prepT T, mx) handle TYPE (msg, _, _) => error msg)
wenzelm@18678
   712
      handle ERROR msg =>
wenzelm@18678
   713
        cat_error msg ("in declaration of constant " ^ quote (Syntax.const_name c mx));
wenzelm@16337
   714
    val args = map prep raw_args;
wenzelm@18062
   715
    val decls = args |> map (fn (c, T, mx) => (Syntax.const_name c mx, T));
wenzelm@16442
   716
  in
wenzelm@16442
   717
    thy
wenzelm@18062
   718
    |> map_consts (fold (Consts.declare (naming_of thy)) decls)
wenzelm@16442
   719
    |> add_syntax_i args
wenzelm@16442
   720
  end;
wenzelm@386
   721
wenzelm@17995
   722
in
wenzelm@17995
   723
wenzelm@16337
   724
val add_consts = gen_add_consts (read_typ o no_def_sort);
wenzelm@16337
   725
val add_consts_i = gen_add_consts certify_typ;
wenzelm@386
   726
wenzelm@17995
   727
end;
wenzelm@17995
   728
wenzelm@386
   729
wenzelm@18941
   730
(* add abbreviations *)
wenzelm@18941
   731
wenzelm@18941
   732
local
wenzelm@18941
   733
wenzelm@18941
   734
fun gen_add_abbrevs prep_term raw_args thy =
wenzelm@18941
   735
  let
wenzelm@18941
   736
    val prep_tm =
wenzelm@18941
   737
      Compress.term thy o Logic.varify o no_vars (pp thy) o Term.no_dummy_patterns o prep_term thy;
wenzelm@18941
   738
    fun prep (raw_c, raw_t, mx) =
wenzelm@18941
   739
      let
wenzelm@18941
   740
        val c = Syntax.const_name raw_c mx;
wenzelm@18941
   741
        val t = (prep_tm raw_t handle TYPE (msg, _, _) => error msg)
wenzelm@18941
   742
          handle ERROR msg => cat_error msg ("in constant abbreviation " ^ quote c);
wenzelm@18941
   743
      in ((c, t), (raw_c, Term.fastype_of t, mx)) end;
wenzelm@18941
   744
    val (abbrs, syn) = split_list (map prep raw_args);
wenzelm@18941
   745
  in
wenzelm@18941
   746
    thy
wenzelm@18941
   747
    |> map_consts (fold (Consts.abbreviate (pp thy) (tsig_of thy) (naming_of thy)) abbrs)
wenzelm@18941
   748
    |> add_syntax_i syn
wenzelm@18941
   749
  end;
wenzelm@18941
   750
wenzelm@18941
   751
in
wenzelm@18941
   752
wenzelm@18941
   753
val add_abbrevs = gen_add_abbrevs read_term;
wenzelm@18941
   754
val add_abbrevs_i = gen_add_abbrevs cert_term;
wenzelm@18941
   755
wenzelm@18941
   756
end;
wenzelm@18941
   757
wenzelm@18941
   758
wenzelm@16941
   759
(* add constraints *)
wenzelm@16941
   760
wenzelm@16941
   761
fun gen_add_constraint int_const prep_typ (raw_c, raw_T) thy =
wenzelm@16941
   762
  let
wenzelm@16941
   763
    val c = int_const thy raw_c;
wenzelm@16941
   764
    val T = Term.zero_var_indexesT (Term.no_dummyT (prep_typ thy raw_T))
wenzelm@16941
   765
      handle TYPE (msg, _, _) => error msg;
wenzelm@16941
   766
    val _ = cert_term thy (Const (c, T))
wenzelm@16941
   767
      handle TYPE (msg, _, _) => error msg;
wenzelm@18062
   768
  in thy |> map_consts (Consts.constrain (c, T)) end;
wenzelm@16941
   769
wenzelm@16941
   770
val add_const_constraint = gen_add_constraint intern_const (read_typ o no_def_sort);
wenzelm@16941
   771
val add_const_constraint_i = gen_add_constraint (K I) certify_typ;
wenzelm@16941
   772
wenzelm@16941
   773
wenzelm@386
   774
(* add type classes *)
wenzelm@386
   775
wenzelm@16442
   776
fun gen_add_class int_class (bclass, raw_classes) thy =
wenzelm@16442
   777
  thy |> map_sign (fn (naming, syn, tsig, consts) =>
wenzelm@16337
   778
    let
wenzelm@16442
   779
      val classes = map (int_class thy) raw_classes;
wenzelm@16597
   780
      val syn' = Syntax.extend_consts [bclass] syn;
wenzelm@16442
   781
      val tsig' = Type.add_classes (pp thy) naming [(bclass, classes)] tsig;
wenzelm@16442
   782
    in (naming, syn', tsig', consts) end)
wenzelm@18941
   783
  |> add_consts_i [(Logic.const_of_class bclass, a_itselfT --> propT, NoSyn)];
wenzelm@3791
   784
wenzelm@16337
   785
val add_classes = fold (gen_add_class intern_class);
wenzelm@16337
   786
val add_classes_i = fold (gen_add_class (K I));
wenzelm@386
   787
wenzelm@386
   788
wenzelm@2963
   789
(* add to classrel *)
wenzelm@421
   790
wenzelm@16442
   791
fun gen_add_classrel int_class raw_pairs thy = thy |> map_tsig (fn tsig =>
wenzelm@16368
   792
  let
wenzelm@16442
   793
    val pairs = map (pairself (int_class thy)) raw_pairs;
wenzelm@16442
   794
    val tsig' = Type.add_classrel (pp thy) pairs tsig;
wenzelm@16368
   795
  in tsig' end);
wenzelm@16337
   796
wenzelm@16337
   797
val add_classrel = gen_add_classrel intern_class;
wenzelm@16337
   798
val add_classrel_i = gen_add_classrel (K I);
wenzelm@421
   799
wenzelm@421
   800
wenzelm@14645
   801
(* add translation functions *)
wenzelm@14645
   802
wenzelm@15746
   803
local
wenzelm@15746
   804
wenzelm@15746
   805
fun mk trs = map Syntax.mk_trfun trs;
wenzelm@15746
   806
wenzelm@16597
   807
fun gen_add_trfuns ext non_typed (atrs, trs, tr's, atr's) =
wenzelm@16597
   808
  map_syn (ext (mk atrs, mk trs, mk (map (apsnd non_typed) tr's), mk atr's));
wenzelm@14645
   809
wenzelm@16597
   810
fun gen_add_trfunsT ext tr's = map_syn (ext ([], [], mk tr's, []));
wenzelm@14645
   811
wenzelm@15746
   812
in
wenzelm@15746
   813
wenzelm@16597
   814
val add_trfuns = gen_add_trfuns Syntax.extend_trfuns Syntax.non_typed_tr';
wenzelm@16597
   815
val add_trfunsT = gen_add_trfunsT Syntax.extend_trfuns;
wenzelm@16597
   816
val add_advanced_trfuns = gen_add_trfuns Syntax.extend_advanced_trfuns Syntax.non_typed_tr'';
wenzelm@16597
   817
val add_advanced_trfunsT = gen_add_trfunsT Syntax.extend_advanced_trfuns;
wenzelm@14645
   818
wenzelm@15746
   819
end;
wenzelm@15746
   820
wenzelm@16597
   821
val add_tokentrfuns = map_syn o Syntax.extend_tokentrfuns;
wenzelm@16442
   822
fun add_mode_tokentrfuns m = add_tokentrfuns o map (fn (s, f) => (m, s, f));
wenzelm@14645
   823
wenzelm@14645
   824
wenzelm@17102
   825
(* compile translation functions *)
wenzelm@17102
   826
wenzelm@17102
   827
local
wenzelm@17102
   828
wenzelm@17102
   829
fun advancedT false = ""
wenzelm@18857
   830
  | advancedT true = "Context.generic -> ";
wenzelm@17102
   831
wenzelm@17102
   832
fun advancedN false = ""
wenzelm@17102
   833
  | advancedN true = "advanced_";
wenzelm@17102
   834
wenzelm@17102
   835
in
wenzelm@17102
   836
wenzelm@17102
   837
fun parse_ast_translation (a, txt) =
wenzelm@17102
   838
  txt |> Context.use_let ("val parse_ast_translation: (string * (" ^ advancedT a ^
wenzelm@17102
   839
      "Syntax.ast list -> Syntax.ast)) list")
wenzelm@17102
   840
    ("Sign.add_" ^ advancedN a ^ "trfuns (parse_ast_translation, [], [], [])");
wenzelm@17102
   841
wenzelm@17102
   842
fun parse_translation (a, txt) =
wenzelm@17102
   843
  txt |> Context.use_let ("val parse_translation: (string * (" ^ advancedT a ^
wenzelm@17102
   844
      "term list -> term)) list")
wenzelm@17102
   845
    ("Sign.add_" ^ advancedN a ^ "trfuns ([], parse_translation, [], [])");
wenzelm@17102
   846
wenzelm@17102
   847
fun print_translation (a, txt) =
wenzelm@17102
   848
  txt |> Context.use_let ("val print_translation: (string * (" ^ advancedT a ^
wenzelm@17102
   849
      "term list -> term)) list")
wenzelm@17102
   850
    ("Sign.add_" ^ advancedN a ^ "trfuns ([], [], print_translation, [])");
wenzelm@17102
   851
wenzelm@17102
   852
fun print_ast_translation (a, txt) =
wenzelm@17102
   853
  txt |> Context.use_let ("val print_ast_translation: (string * (" ^ advancedT a ^
wenzelm@17102
   854
      "Syntax.ast list -> Syntax.ast)) list")
wenzelm@17102
   855
    ("Sign.add_" ^ advancedN a ^ "trfuns ([], [], [], print_ast_translation)");
wenzelm@17102
   856
wenzelm@17102
   857
fun typed_print_translation (a, txt) =
wenzelm@17102
   858
  txt |> Context.use_let ("val typed_print_translation: (string * (" ^ advancedT a ^
wenzelm@17102
   859
      "bool -> typ -> term list -> term)) list")
wenzelm@17102
   860
    ("Sign.add_" ^ advancedN a ^ "trfunsT typed_print_translation");
wenzelm@17102
   861
wenzelm@17102
   862
val token_translation =
wenzelm@17102
   863
  Context.use_let "val token_translation: (string * string * (string -> string * real)) list"
wenzelm@17102
   864
    "Sign.add_tokentrfuns token_translation";
wenzelm@17102
   865
wenzelm@17102
   866
end;
wenzelm@17102
   867
wenzelm@17102
   868
wenzelm@4619
   869
(* add translation rules *)
wenzelm@4619
   870
wenzelm@16442
   871
fun add_trrules args thy = thy |> map_syn (fn syn =>
wenzelm@16442
   872
  let val rules = map (Syntax.map_trrule (apfst (intern_type thy))) args
wenzelm@18857
   873
  in Syntax.extend_trrules (Context.Theory thy) (is_logtype thy) syn rules syn end);
wenzelm@8725
   874
wenzelm@16597
   875
val add_trrules_i = map_syn o Syntax.extend_trrules_i;
wenzelm@386
   876
wenzelm@386
   877
wenzelm@16337
   878
(* modify naming *)
wenzelm@6546
   879
wenzelm@16337
   880
val add_path        = map_naming o NameSpace.add_path;
wenzelm@16337
   881
val qualified_names = map_naming NameSpace.qualified_names;
wenzelm@16337
   882
val no_base_names   = map_naming NameSpace.no_base_names;
wenzelm@16337
   883
val custom_accesses = map_naming o NameSpace.custom_accesses;
wenzelm@16337
   884
val set_policy      = map_naming o NameSpace.set_policy;
wenzelm@16337
   885
val restore_naming  = map_naming o K o naming_of;
wenzelm@6546
   886
wenzelm@16442
   887
val parent_path     = add_path "..";
wenzelm@16442
   888
val root_path       = add_path "/";
wenzelm@16442
   889
val absolute_path   = add_path "//";
wenzelm@16442
   890
wenzelm@16442
   891
fun local_path thy = thy |> root_path |> add_path (Context.theory_name thy);
wenzelm@16442
   892
wenzelm@6546
   893
wenzelm@16337
   894
(* hide names *)
wenzelm@386
   895
wenzelm@16442
   896
fun hide_classes b xs thy = thy |> map_tsig (Type.hide_classes b (map (intern_class thy) xs));
wenzelm@16368
   897
val hide_classes_i = map_tsig oo Type.hide_classes;
wenzelm@16442
   898
fun hide_types b xs thy = thy |> map_tsig (Type.hide_types b (map (intern_type thy) xs));
wenzelm@16368
   899
val hide_types_i = map_tsig oo Type.hide_types;
wenzelm@18062
   900
fun hide_consts b xs thy = thy |> map_consts (fold (Consts.hide b o intern_const thy) xs);
wenzelm@18062
   901
val hide_consts_i = map_consts oo (fold o Consts.hide);
wenzelm@386
   902
wenzelm@17343
   903
local
wenzelm@17343
   904
wenzelm@17343
   905
val kinds =
wenzelm@17343
   906
 [("class", (intern_class, can o certify_class, hide_classes_i)),
wenzelm@17343
   907
  ("type", (intern_type, declared_tyname, hide_types_i)),
wenzelm@17343
   908
  ("const", (intern_const, declared_const, hide_consts_i))];
wenzelm@17343
   909
wenzelm@17343
   910
fun gen_hide int b (kind, xnames) thy =
wenzelm@17343
   911
  (case AList.lookup (op =) kinds kind of
wenzelm@17343
   912
    SOME (intern, check, hide) =>
wenzelm@17343
   913
      let
wenzelm@17343
   914
        val names = if int then map (intern thy) xnames else xnames;
wenzelm@17343
   915
        val bads = filter_out (check thy) names;
wenzelm@17343
   916
      in
wenzelm@17343
   917
        if null bads then hide b names thy
wenzelm@17343
   918
        else error ("Attempt to hide undeclared item(s): " ^ commas_quote bads)
wenzelm@17343
   919
      end
wenzelm@17343
   920
  | NONE => error ("Bad name space specification: " ^ quote kind));
wenzelm@17343
   921
wenzelm@17343
   922
in
wenzelm@17343
   923
wenzelm@17343
   924
val hide_names = gen_hide true;
wenzelm@17343
   925
val hide_names_i = gen_hide false;
wenzelm@17343
   926
clasohm@0
   927
end;
wenzelm@17343
   928
wenzelm@17343
   929
end;