src/Pure/Isar/proof_context.ML
author wenzelm
Sat Feb 11 17:17:54 2006 +0100 (2006-02-11 ago)
changeset 19019 412009243085
parent 19001 64e4b5bc6443
child 19033 24e251657e56
permissions -rw-r--r--
added map_theory;
added rename_frees;
removed custom_accesses;
added qualified_force_prefix;
tuned local syntax;
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(*  Title:      Pure/Isar/proof_context.ML
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    ID:         $Id$
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    Author:     Markus Wenzel, TU Muenchen
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The key concept of Isar proof contexts: elevates primitive local
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reasoning Gamma |- phi to a structured concept, with generic context
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elements, polymorphic abbreviations, and extra-logical data.
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*)
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signature PROOF_CONTEXT =
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sig
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  type context (*= Context.proof*)
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  type export
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  val theory_of: context -> theory
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  val init: theory -> context
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  val set_body: bool -> context -> context
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  val restore_body: context -> context -> context
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  val assms_of: context -> term list
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  val prems_of: context -> thm list
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  val fact_index_of: context -> FactIndex.T
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  val is_fixed: context -> string -> bool
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  val is_known: context -> string -> bool
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  val transfer: theory -> context -> context
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  val map_theory: (theory -> theory) -> context -> context
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  val pretty_term: context -> term -> Pretty.T
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  val pretty_typ: context -> typ -> Pretty.T
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  val pretty_sort: context -> sort -> Pretty.T
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  val pp: context -> Pretty.pp
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  val pretty_thm: context -> thm -> Pretty.T
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  val pretty_thms: context -> thm list -> Pretty.T
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  val pretty_fact: context -> string * thm list -> Pretty.T
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  val pretty_proof: context -> Proofterm.proof -> Pretty.T
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  val pretty_proof_of: context -> bool -> thm -> Pretty.T
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  val string_of_typ: context -> typ -> string
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  val string_of_term: context -> term -> string
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  val string_of_thm: context -> thm -> string
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  val used_types: context -> string list
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  val default_type: context -> string -> typ option
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  val read_typ: context -> string -> typ
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  val read_typ_syntax: context -> string -> typ
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  val read_typ_abbrev: context -> string -> typ
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  val cert_typ: context -> typ -> typ
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  val cert_typ_syntax: context -> typ -> typ
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  val cert_typ_abbrev: context -> typ -> typ
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  val get_skolem: context -> string -> string
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  val revert_skolem: context -> string -> string
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  val extern_skolem: context -> term -> term
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  val read_termTs: context -> (string -> bool) -> (indexname -> typ option)
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    -> (indexname -> sort option) -> string list -> (string * typ) list
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    -> term list * (indexname * typ) list
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  val read_termTs_schematic: context -> (string -> bool) -> (indexname -> typ option)
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    -> (indexname -> sort option) -> string list -> (string * typ) list
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    -> term list * (indexname * typ) list
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  val read_term_legacy: context -> string -> term
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  val read_term: context -> string -> term
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  val read_prop: context -> string -> term
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  val read_prop_schematic: context -> string -> term
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  val read_terms: context -> string list -> term list
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  val read_term_pats: typ -> context -> string list -> term list
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  val read_prop_pats: context -> string list -> term list
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  val cert_term: context -> term -> term
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  val cert_prop: context -> term -> term
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  val cert_term_pats: typ -> context -> term list -> term list
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  val cert_prop_pats: context -> term list -> term list
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  val declare_term: term -> context -> context
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  val infer_type: context -> string -> typ
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  val inferred_param: string -> context -> (string * typ) * context
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  val inferred_fixes: context -> (string * typ) list * context
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  val read_tyname: context -> string -> typ
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  val read_const: context -> string -> term
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  val rename_frees: context -> term list -> (string * 'a) list -> (string * 'a) list
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  val warn_extra_tfrees: context -> context -> context
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  val generalize: context -> context -> term list -> term list
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  val polymorphic: context -> term list -> term list
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  val export_standard: context -> context -> thm -> thm
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  val exports: context -> context -> thm -> thm Seq.seq
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  val goal_exports: context -> context -> thm -> thm Seq.seq
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  val drop_schematic: indexname * term option -> indexname * term option
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  val add_binds: (indexname * string option) list -> context -> context
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  val add_binds_i: (indexname * term option) list -> context -> context
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  val auto_bind_goal: term list -> context -> context
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  val auto_bind_facts: term list -> context -> context
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  val match_bind: bool -> (string list * string) list -> context -> term list * context
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  val match_bind_i: bool -> (term list * term) list -> context -> term list * context
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  val read_propp: context * (string * (string list * string list)) list list
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    -> context * (term * (term list * term list)) list list
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  val cert_propp: context * (term * (term list * term list)) list list
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    -> context * (term * (term list * term list)) list list
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  val read_propp_schematic: context * (string * (string list * string list)) list list
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    -> context * (term * (term list * term list)) list list
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  val cert_propp_schematic: context * (term * (term list * term list)) list list
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    -> context * (term * (term list * term list)) list list
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  val bind_propp: context * (string * (string list * string list)) list list
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    -> context * (term list list * (context -> context))
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  val bind_propp_i: context * (term * (term list * term list)) list list
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    -> context * (term list list * (context -> context))
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  val bind_propp_schematic: context * (string * (string list * string list)) list list
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    -> context * (term list list * (context -> context))
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  val bind_propp_schematic_i: context * (term * (term list * term list)) list list
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    -> context * (term list list * (context -> context))
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  val fact_tac: thm list -> int -> tactic
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  val some_fact_tac: context -> int -> tactic
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  val get_thm: context -> thmref -> thm
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  val get_thm_closure: context -> thmref -> thm
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  val get_thms: context -> thmref -> thm list
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  val get_thms_closure: context -> thmref -> thm list
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  val valid_thms: context -> string * thm list -> bool
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  val lthms_containing: context -> FactIndex.spec -> (string * thm list) list
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  val extern_thm: context -> string -> xstring
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  val no_base_names: context -> context
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  val qualified_names: context -> context
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  val qualified_force_prefix: string -> context -> context
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  val restore_naming: context -> context -> context
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  val hide_thms: bool -> string list -> context -> context
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  val put_thms: string * thm list option -> context -> context
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  val note_thmss:
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    ((bstring * attribute list) * (thmref * attribute list) list) list ->
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      context -> (bstring * thm list) list * context
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  val note_thmss_i:
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    ((bstring * attribute list) * (thm list * attribute list) list) list ->
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      context -> (bstring * thm list) list * context
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  val read_vars: (string * string option * mixfix) list -> context ->
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    (string * typ option * mixfix) list * context
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  val cert_vars: (string * typ option * mixfix) list -> context ->
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    (string * typ option * mixfix) list * context
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  val read_vars_legacy: (string * string option * mixfix) list -> context ->
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    (string * typ option * mixfix) list * context
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  val cert_vars_legacy: (string * typ option * mixfix) list -> context ->
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    (string * typ option * mixfix) list * context
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  val add_fixes: (string * string option * mixfix) list -> context -> string list * context
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  val add_fixes_i: (string * typ option * mixfix) list -> context -> string list * context
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  val add_fixes_legacy: (string * typ option * mixfix) list -> context -> string list * context
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  val invent_fixes: string list -> context -> string list * context
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  val fix_frees: term -> context -> context
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  val auto_fixes: context * (term list list * 'a) -> context * (term list list * 'a)
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  val bind_fixes: string list -> context -> (term -> term) * context
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  val add_assms: export ->
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    ((string * attribute list) * (string * (string list * string list)) list) list ->
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    context -> (bstring * thm list) list * context
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  val add_assms_i: export ->
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    ((string * attribute list) * (term * (term list * term list)) list) list ->
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    context -> (bstring * thm list) list * context
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  val assume_export: export
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  val presume_export: export
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  val add_view: context -> cterm list -> context -> context
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  val export_view: cterm list -> context -> context -> thm -> thm
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  val add_cases: bool -> (string * RuleCases.T option) list -> context -> context
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  val apply_case: RuleCases.T -> context -> (string * term list) list * context
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  val get_case: context -> string -> string option list -> RuleCases.T
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  val add_abbrevs: bool -> (bstring * string * mixfix) list -> context -> context
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  val add_abbrevs_i: bool -> (bstring * term * mixfix) list -> context -> context
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  val verbose: bool ref
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  val setmp_verbose: ('a -> 'b) -> 'a -> 'b
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  val print_syntax: context -> unit
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  val print_binds: context -> unit
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  val print_lthms: context -> unit
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  val print_cases: context -> unit
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  val prems_limit: int ref
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  val pretty_ctxt: context -> Pretty.T list
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  val pretty_context: context -> Pretty.T list
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  val debug: bool ref
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  val pprint_context: context -> pprint_args -> unit
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end;
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structure ProofContext: PROOF_CONTEXT =
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struct
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type context = Context.proof;
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val theory_of = Context.theory_of_proof;
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val tsig_of = Sign.tsig_of o theory_of;
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val init = Context.init_proof;
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(** Isar proof context information **)
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type export = bool -> cterm list -> thm -> thm Seq.seq;
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datatype ctxt =
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  Ctxt of
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   {naming: NameSpace.naming,                     (*local naming conventions*)
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    syntax: LocalSyntax.T,                        (*local syntax*)
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    consts: Consts.T,                             (*const abbreviations*)
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    fixes: bool * (string * string) list,         (*fixes: !!x. _ with proof body flag*)
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    assms:
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      ((cterm list * export) list *               (*assumes and views: A ==> _*)
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        (string * thm list) list),                (*prems: A |- A*)
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    binds: (typ * term) Vartab.table,             (*term bindings*)
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    thms: thm list NameSpace.table * FactIndex.T, (*local thms*)
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    cases: (string * (RuleCases.T * bool)) list,  (*local contexts*)
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    defaults:
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      typ Vartab.table *                          (*type constraints*)
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      sort Vartab.table *                         (*default sorts*)
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      string list *                               (*used type variables*)
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      term list Symtab.table};                    (*type variable occurrences*)
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fun make_ctxt (naming, syntax, consts, fixes, assms, binds, thms, cases, defaults) =
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  Ctxt {naming = naming, syntax = syntax, consts = consts, fixes = fixes, assms = assms,
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    binds = binds, thms = thms, cases = cases, defaults = defaults};
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structure ContextData = ProofDataFun
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(
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  val name = "Isar/context";
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  type T = ctxt;
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  fun init thy =
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    make_ctxt (NameSpace.default_naming, LocalSyntax.init thy, Sign.consts_of thy,
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      (false, []), ([], []), Vartab.empty, (NameSpace.empty_table, FactIndex.empty), [],
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      (Vartab.empty, Vartab.empty, [], Symtab.empty));
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  fun print _ _ = ();
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);
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val _ = Context.add_setup ContextData.init;
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fun rep_context ctxt = ContextData.get ctxt |> (fn Ctxt args => args);
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fun map_context f =
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  ContextData.map (fn Ctxt {naming, syntax, consts, fixes, assms, binds, thms, cases, defaults} =>
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    make_ctxt (f (naming, syntax, consts, fixes, assms, binds, thms, cases, defaults)));
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fun map_naming f =
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  map_context (fn (naming, syntax, consts, fixes, assms, binds, thms, cases, defaults) =>
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    (f naming, syntax, consts, fixes, assms, binds, thms, cases, defaults));
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fun map_syntax f =
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  map_context (fn (naming, syntax, consts, fixes, assms, binds, thms, cases, defaults) =>
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    (naming, f syntax, consts, fixes, assms, binds, thms, cases, defaults));
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fun map_consts f =
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  map_context (fn (naming, syntax, consts, fixes, assms, binds, thms, cases, defaults) =>
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    (naming, syntax, f consts, fixes, assms, binds, thms, cases, defaults));
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fun map_fixes f =
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  map_context (fn (naming, syntax, consts, fixes, assms, binds, thms, cases, defaults) =>
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    (naming, syntax, consts, f fixes, assms, binds, thms, cases, defaults));
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fun map_assms f =
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  map_context (fn (naming, syntax, consts, fixes, assms, binds, thms, cases, defaults) =>
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    (naming, syntax, consts, fixes, f assms, binds, thms, cases, defaults));
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fun map_binds f =
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  map_context (fn (naming, syntax, consts, fixes, assms, binds, thms, cases, defaults) =>
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    (naming, syntax, consts, fixes, assms, f binds, thms, cases, defaults));
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fun map_thms f =
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  map_context (fn (naming, syntax, consts, fixes, assms, binds, thms, cases, defaults) =>
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    (naming, syntax, consts, fixes, assms, binds, f thms, cases, defaults));
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fun map_cases f =
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  map_context (fn (naming, syntax, consts, fixes, assms, binds, thms, cases, defaults) =>
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    (naming, syntax, consts, fixes, assms, binds, thms, f cases, defaults));
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fun map_defaults f =
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  map_context (fn (naming, syntax, consts, fixes, assms, binds, thms, cases, defaults) =>
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    (naming, syntax, consts, fixes, assms, binds, thms, cases, f defaults));
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val naming_of = #naming o rep_context;
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val syntax_of = #syntax o rep_context;
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val syn_of = LocalSyntax.syn_of o syntax_of;
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val consts_of = #consts o rep_context;
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val is_body = #1 o #fixes o rep_context;
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fun set_body b = map_fixes (fn (_, fixes) => (b, fixes));
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fun restore_body ctxt = set_body (is_body ctxt);
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val fixes_of = #2 o #fixes o rep_context;
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val fixed_names_of = map #2 o fixes_of;
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val assumptions_of = #1 o #assms o rep_context;
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val assms_of = map Thm.term_of o List.concat o map #1 o assumptions_of;
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val prems_of = List.concat o map #2 o #2 o #assms o rep_context;
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val binds_of = #binds o rep_context;
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val thms_of = #thms o rep_context;
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val fact_index_of = #2 o thms_of;
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val cases_of = #cases o rep_context;
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val defaults_of = #defaults o rep_context;
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val type_occs_of = #4 o defaults_of;
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fun is_fixed ctxt x = exists (fn (_, y) => x = y) (fixes_of ctxt);
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fun is_known ctxt x = Vartab.defined (#1 (defaults_of ctxt)) (x, ~1) orelse is_fixed ctxt x;
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(* transfer *)
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fun transfer_syntax thy =
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  map_syntax (LocalSyntax.rebuild thy) #>
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  map_consts (fn consts => Consts.merge (Sign.consts_of thy, consts));
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   296
fun transfer thy = Context.transfer_proof thy #> transfer_syntax thy;
wenzelm@17072
   297
wenzelm@19019
   298
fun map_theory f ctxt = transfer (f (theory_of ctxt)) ctxt;
wenzelm@19019
   299
wenzelm@12093
   300
wenzelm@12093
   301
wenzelm@14828
   302
(** pretty printing **)
wenzelm@14828
   303
wenzelm@19001
   304
fun pretty_term' abbrevs ctxt t =
wenzelm@18971
   305
  let
wenzelm@19001
   306
    val thy = theory_of ctxt;
wenzelm@19001
   307
    val syntax = syntax_of ctxt;
wenzelm@18971
   308
    val consts = consts_of ctxt;
wenzelm@19001
   309
    val t' = t
wenzelm@19001
   310
      |> K abbrevs ? Pattern.rewrite_term thy (Consts.abbrevs_of consts) []
wenzelm@19001
   311
      |> LocalSyntax.extern_term (NameSpace.extern (Consts.space_of consts)) thy syntax;
wenzelm@19001
   312
  in Sign.pretty_term' (LocalSyntax.syn_of syntax) (Context.Proof ctxt) t' end;
wenzelm@18971
   313
wenzelm@19001
   314
val pretty_term = pretty_term' true;
wenzelm@16458
   315
fun pretty_typ ctxt T = Sign.pretty_typ (theory_of ctxt) T;
wenzelm@16458
   316
fun pretty_sort ctxt S = Sign.pretty_sort (theory_of ctxt) S;
wenzelm@16458
   317
fun pretty_classrel ctxt cs = Sign.pretty_classrel (theory_of ctxt) cs;
wenzelm@16458
   318
fun pretty_arity ctxt ar = Sign.pretty_arity (theory_of ctxt) ar;
wenzelm@14828
   319
wenzelm@14974
   320
fun pp ctxt = Pretty.pp (pretty_term ctxt, pretty_typ ctxt, pretty_sort ctxt,
wenzelm@14974
   321
  pretty_classrel ctxt, pretty_arity ctxt);
wenzelm@14828
   322
wenzelm@17451
   323
fun pretty_thm ctxt th =
wenzelm@17451
   324
  Display.pretty_thm_aux (pp ctxt) false true (assms_of ctxt) th;
wenzelm@14828
   325
wenzelm@14828
   326
fun pretty_thms ctxt [th] = pretty_thm ctxt th
wenzelm@14828
   327
  | pretty_thms ctxt ths = Pretty.blk (0, Pretty.fbreaks (map (pretty_thm ctxt) ths));
wenzelm@14828
   328
wenzelm@14828
   329
fun pretty_fact ctxt ("", ths) = pretty_thms ctxt ths
wenzelm@14828
   330
  | pretty_fact ctxt (a, [th]) =
wenzelm@14828
   331
      Pretty.block [Pretty.str (a ^ ":"), Pretty.brk 1, pretty_thm ctxt th]
wenzelm@14828
   332
  | pretty_fact ctxt (a, ths) =
wenzelm@14828
   333
      Pretty.block (Pretty.fbreaks (Pretty.str (a ^ ":") :: map (pretty_thm ctxt) ths));
wenzelm@14828
   334
wenzelm@17072
   335
fun pretty_proof ctxt prf =
wenzelm@19001
   336
  pretty_term' true (ctxt |> transfer_syntax (ProofSyntax.proof_syntax prf (theory_of ctxt)))
wenzelm@17072
   337
    (ProofSyntax.term_of_proof prf);
wenzelm@17072
   338
wenzelm@17072
   339
fun pretty_proof_of ctxt full th =
wenzelm@17072
   340
  pretty_proof ctxt (ProofSyntax.proof_of full th);
wenzelm@17072
   341
wenzelm@17860
   342
val string_of_typ = Pretty.string_of oo pretty_typ;
wenzelm@17860
   343
val string_of_term = Pretty.string_of oo pretty_term;
wenzelm@17860
   344
val string_of_thm = Pretty.string_of oo pretty_thm;
wenzelm@17860
   345
wenzelm@14828
   346
wenzelm@14828
   347
wenzelm@7663
   348
(** default sorts and types **)
wenzelm@7663
   349
wenzelm@17412
   350
val def_sort = Vartab.lookup o #2 o defaults_of;
wenzelm@7663
   351
wenzelm@16540
   352
fun def_type ctxt pattern xi =
wenzelm@18672
   353
  let val {binds, defaults = (types, _, _, _), ...} = rep_context ctxt in
wenzelm@17412
   354
    (case Vartab.lookup types xi of
wenzelm@16540
   355
      NONE =>
wenzelm@16540
   356
        if pattern then NONE
wenzelm@18953
   357
        else Vartab.lookup binds xi |> Option.map (TypeInfer.polymorphicT o #1)
wenzelm@16540
   358
    | some => some)
wenzelm@16540
   359
  end;
wenzelm@7663
   360
wenzelm@18672
   361
val used_types = #3 o defaults_of;
wenzelm@18672
   362
wenzelm@17412
   363
fun default_type ctxt x = Vartab.lookup (#1 (defaults_of ctxt)) (x, ~1);
wenzelm@12414
   364
wenzelm@7663
   365
wenzelm@5819
   366
wenzelm@5819
   367
(** prepare types **)
wenzelm@5819
   368
wenzelm@9504
   369
local
wenzelm@9504
   370
wenzelm@9504
   371
fun read_typ_aux read ctxt s =
wenzelm@18857
   372
  read (syn_of ctxt) (Context.Proof ctxt) (def_sort ctxt) s;
wenzelm@5819
   373
wenzelm@10554
   374
fun cert_typ_aux cert ctxt raw_T =
wenzelm@18678
   375
  cert (theory_of ctxt) raw_T handle TYPE (msg, _, _) => error msg;
wenzelm@9504
   376
wenzelm@9504
   377
in
wenzelm@9504
   378
wenzelm@16348
   379
val read_typ        = read_typ_aux Sign.read_typ';
wenzelm@16348
   380
val read_typ_syntax = read_typ_aux Sign.read_typ_syntax';
wenzelm@16348
   381
val read_typ_abbrev = read_typ_aux Sign.read_typ_abbrev';
wenzelm@16348
   382
val cert_typ        = cert_typ_aux Sign.certify_typ;
wenzelm@16348
   383
val cert_typ_syntax = cert_typ_aux Sign.certify_typ_syntax;
wenzelm@16348
   384
val cert_typ_abbrev = cert_typ_aux Sign.certify_typ_abbrev;
wenzelm@9504
   385
wenzelm@9504
   386
end;
wenzelm@9504
   387
wenzelm@5819
   388
wenzelm@7679
   389
(* internalize Skolem constants *)
wenzelm@7679
   390
wenzelm@17184
   391
val lookup_skolem = AList.lookup (op =) o fixes_of;
wenzelm@18187
   392
fun get_skolem ctxt x = the_default x (lookup_skolem ctxt x);
wenzelm@7679
   393
wenzelm@18678
   394
fun no_skolem internal x =
wenzelm@9291
   395
  if can Syntax.dest_skolem x then
wenzelm@18678
   396
    error ("Illegal reference to internal Skolem constant: " ^ quote x)
wenzelm@12504
   397
  else if not internal andalso can Syntax.dest_internal x then
wenzelm@18678
   398
    error ("Illegal reference to internal variable: " ^ quote x)
wenzelm@7679
   399
  else x;
wenzelm@7679
   400
wenzelm@14720
   401
fun intern_skolem ctxt internal =
wenzelm@7679
   402
  let
wenzelm@7679
   403
    fun intern (t as Free (x, T)) =
wenzelm@14720
   404
          if internal x then t
wenzelm@14720
   405
          else
wenzelm@18678
   406
            (case lookup_skolem ctxt (no_skolem false x) of
skalberg@15531
   407
              SOME x' => Free (x', T)
skalberg@15531
   408
            | NONE => t)
wenzelm@7679
   409
      | intern (t $ u) = intern t $ intern u
wenzelm@7679
   410
      | intern (Abs (x, T, t)) = Abs (x, T, intern t)
wenzelm@7679
   411
      | intern a = a;
wenzelm@7679
   412
  in intern end;
wenzelm@7679
   413
wenzelm@7679
   414
wenzelm@18187
   415
(* externalize Skolem constants -- approximation only! *)
wenzelm@18187
   416
wenzelm@18255
   417
fun rev_skolem ctxt =
wenzelm@18187
   418
  let val rev_fixes = map Library.swap (fixes_of ctxt)
wenzelm@18187
   419
  in AList.lookup (op =) rev_fixes end;
wenzelm@9133
   420
wenzelm@18255
   421
fun revert_skolem ctxt x =
wenzelm@18255
   422
  (case rev_skolem ctxt x of
wenzelm@18255
   423
    SOME x' => x'
wenzelm@18375
   424
  | NONE => perhaps (try Syntax.dest_skolem) x);
wenzelm@18255
   425
wenzelm@9133
   426
fun extern_skolem ctxt =
wenzelm@9133
   427
  let
wenzelm@18255
   428
    val revert = rev_skolem ctxt;
wenzelm@9133
   429
    fun extern (t as Free (x, T)) =
wenzelm@18187
   430
        (case revert x of
wenzelm@18187
   431
          SOME x' => Free (if lookup_skolem ctxt x' = SOME x then x' else NameSpace.hidden x', T)
wenzelm@18187
   432
        | NONE => t)
wenzelm@9133
   433
      | extern (t $ u) = extern t $ extern u
wenzelm@9133
   434
      | extern (Abs (x, T, t)) = Abs (x, T, extern t)
wenzelm@9133
   435
      | extern a = a;
wenzelm@9133
   436
  in extern end
wenzelm@9133
   437
wenzelm@8096
   438
wenzelm@18187
   439
wenzelm@5819
   440
(** prepare terms and propositions **)
wenzelm@5819
   441
wenzelm@5819
   442
(*
wenzelm@16501
   443
  (1) read / certify wrt. theory of context
wenzelm@5819
   444
  (2) intern Skolem constants
wenzelm@5819
   445
  (3) expand term bindings
wenzelm@5819
   446
*)
wenzelm@5819
   447
wenzelm@5819
   448
wenzelm@16501
   449
(* read wrt. theory *)     (*exception ERROR*)
wenzelm@5819
   450
wenzelm@18857
   451
fun read_def_termTs freeze pp syn ctxt (types, sorts, used) sTs =
wenzelm@18971
   452
  Sign.read_def_terms' pp (Sign.is_logtype (theory_of ctxt)) syn (consts_of ctxt)
wenzelm@18857
   453
    (Context.Proof ctxt) (types, sorts) used freeze sTs;
wenzelm@5874
   454
wenzelm@18857
   455
fun read_def_termT freeze pp syn ctxt defaults sT =
wenzelm@18857
   456
  apfst hd (read_def_termTs freeze pp syn ctxt defaults [sT]);
wenzelm@14828
   457
wenzelm@18672
   458
fun read_term_thy freeze pp syn thy defaults s =
wenzelm@18672
   459
  #1 (read_def_termT freeze pp syn thy defaults (s, TypeInfer.logicT));
wenzelm@5874
   460
wenzelm@18672
   461
fun read_prop_thy freeze pp syn thy defaults s =
wenzelm@18672
   462
  #1 (read_def_termT freeze pp syn thy defaults (s, propT));
wenzelm@12072
   463
wenzelm@18672
   464
fun read_terms_thy freeze pp syn thy defaults =
wenzelm@18672
   465
  #1 o read_def_termTs freeze pp syn thy defaults o map (rpair TypeInfer.logicT);
wenzelm@12072
   466
wenzelm@18672
   467
fun read_props_thy freeze pp syn thy defaults =
wenzelm@18672
   468
  #1 o read_def_termTs freeze pp syn thy defaults o map (rpair propT);
wenzelm@5819
   469
wenzelm@5819
   470
wenzelm@19001
   471
(* local abbreviations *)
wenzelm@5819
   472
wenzelm@19001
   473
fun expand_consts ctxt =
wenzelm@19001
   474
  Consts.certify (pp ctxt) (tsig_of ctxt) (consts_of ctxt);
wenzelm@19001
   475
wenzelm@19001
   476
fun expand_binds ctxt schematic =
wenzelm@5819
   477
  let
wenzelm@18971
   478
    val binds = binds_of ctxt;
wenzelm@5819
   479
wenzelm@19001
   480
    fun expand_var (xi, T) =
wenzelm@18971
   481
      (case Vartab.lookup binds xi of
wenzelm@19001
   482
        SOME t => Envir.expand_atom (tsig_of ctxt) T t
wenzelm@18971
   483
      | NONE =>
wenzelm@18971
   484
          if schematic then Var (xi, T)
wenzelm@18971
   485
          else error ("Unbound schematic variable: " ^ Syntax.string_of_vname xi));
wenzelm@19001
   486
  in Envir.beta_norm o Term.map_aterms (fn Var v => expand_var v | a => a) end;
wenzelm@5819
   487
wenzelm@5819
   488
wenzelm@6550
   489
(* dummy patterns *)
wenzelm@6550
   490
wenzelm@18310
   491
val prepare_dummies =
wenzelm@18310
   492
  let val next = ref 1 in
wenzelm@18310
   493
    fn t =>
wenzelm@18310
   494
      let val (i, u) = Term.replace_dummy_patterns (! next, t)
wenzelm@18310
   495
      in next := i; u end
wenzelm@18310
   496
  end;
wenzelm@6762
   497
wenzelm@18678
   498
fun reject_dummies t = Term.no_dummy_patterns t
wenzelm@18678
   499
  handle TERM _ => error "Illegal dummy pattern(s) in term";
wenzelm@6550
   500
wenzelm@6550
   501
wenzelm@5819
   502
(* read terms *)
wenzelm@5819
   503
wenzelm@10554
   504
local
wenzelm@10554
   505
skalberg@15531
   506
fun append_env e1 e2 x = (case e2 x of NONE => e1 x | some => some);
wenzelm@14720
   507
wenzelm@16031
   508
fun gen_read' read app pattern schematic
wenzelm@14720
   509
    ctxt internal more_types more_sorts more_used s =
ballarin@14174
   510
  let
wenzelm@14720
   511
    val types = append_env (def_type ctxt pattern) more_types;
wenzelm@14720
   512
    val sorts = append_env (def_sort ctxt) more_sorts;
wenzelm@14720
   513
    val used = used_types ctxt @ more_used;
ballarin@14174
   514
  in
wenzelm@18857
   515
    (read (pp ctxt) (syn_of ctxt) ctxt (types, sorts, used) s
wenzelm@18678
   516
      handle TERM (msg, _) => error msg)
wenzelm@14720
   517
    |> app (intern_skolem ctxt internal)
wenzelm@19001
   518
    |> app (expand_consts ctxt)
wenzelm@19001
   519
    |> app (if pattern then I else expand_binds ctxt schematic)
wenzelm@18678
   520
    |> app (if pattern then prepare_dummies else reject_dummies)
wenzelm@14720
   521
  end;
wenzelm@14720
   522
wenzelm@16031
   523
fun gen_read read app pattern schematic ctxt =
wenzelm@16031
   524
  gen_read' read app pattern schematic ctxt (K false) (K NONE) (K NONE) [];
wenzelm@14720
   525
wenzelm@10554
   526
in
wenzelm@10554
   527
wenzelm@16031
   528
val read_termTs           = gen_read' (read_def_termTs false) (apfst o map) false false;
wenzelm@16031
   529
val read_termTs_schematic = gen_read' (read_def_termTs false) (apfst o map) false true;
wenzelm@8096
   530
wenzelm@14720
   531
fun read_term_pats T ctxt =
wenzelm@16031
   532
  #1 o gen_read (read_def_termTs false) (apfst o map) true false ctxt o map (rpair T);
wenzelm@8096
   533
val read_prop_pats = read_term_pats propT;
wenzelm@8096
   534
wenzelm@18672
   535
fun read_term_legacy ctxt =
wenzelm@16458
   536
  gen_read' (read_term_thy true) I false false ctxt (K true) (K NONE) (K NONE) [];
wenzelm@14720
   537
wenzelm@16458
   538
val read_term              = gen_read (read_term_thy true) I false false;
wenzelm@16458
   539
val read_prop              = gen_read (read_prop_thy true) I false false;
wenzelm@16458
   540
val read_prop_schematic    = gen_read (read_prop_thy true) I false true;
wenzelm@16458
   541
val read_terms             = gen_read (read_terms_thy true) map false false;
wenzelm@16458
   542
fun read_props schematic   = gen_read (read_props_thy true) map false schematic;
wenzelm@5819
   543
wenzelm@10554
   544
end;
wenzelm@10554
   545
wenzelm@5819
   546
wenzelm@5819
   547
(* certify terms *)
wenzelm@5819
   548
wenzelm@10554
   549
local
wenzelm@10554
   550
wenzelm@18971
   551
fun gen_cert prop pattern schematic ctxt t = t
wenzelm@19001
   552
  |> expand_consts ctxt
wenzelm@19001
   553
  |> (if pattern then I else expand_binds ctxt schematic)
wenzelm@18971
   554
  |> (fn t' => #1 (Sign.certify false prop (pp ctxt) (theory_of ctxt) t')
wenzelm@18678
   555
    handle TYPE (msg, _, _) => error msg
wenzelm@18678
   556
      | TERM (msg, _) => error msg);
wenzelm@16501
   557
wenzelm@10554
   558
in
wenzelm@8096
   559
wenzelm@18971
   560
val cert_term = gen_cert false false false;
wenzelm@18971
   561
val cert_prop = gen_cert true false false;
wenzelm@18971
   562
val cert_props = map oo gen_cert true false;
wenzelm@10554
   563
wenzelm@18971
   564
fun cert_term_pats _ = map o gen_cert false true false;
wenzelm@18971
   565
val cert_prop_pats = map o gen_cert true true false;
wenzelm@10554
   566
wenzelm@10554
   567
end;
wenzelm@5819
   568
wenzelm@5819
   569
wenzelm@5819
   570
(* declare terms *)
wenzelm@5819
   571
wenzelm@10381
   572
local
wenzelm@10381
   573
wenzelm@16861
   574
val ins_types = fold_aterms
wenzelm@17412
   575
  (fn Free (x, T) => Vartab.update ((x, ~1), T)
wenzelm@17412
   576
    | Var v => Vartab.update v
wenzelm@16861
   577
    | _ => I);
wenzelm@5819
   578
wenzelm@16861
   579
val ins_sorts = fold_types (fold_atyps
wenzelm@17412
   580
  (fn TFree (x, S) => Vartab.update ((x, ~1), S)
wenzelm@17412
   581
    | TVar v => Vartab.update v
wenzelm@16861
   582
    | _ => I));
wenzelm@5819
   583
wenzelm@16861
   584
val ins_used = fold_term_types (fn t =>
wenzelm@16861
   585
  fold_atyps (fn TFree (x, _) => insert (op =) x | _ => I));
wenzelm@12291
   586
wenzelm@16861
   587
val ins_occs = fold_term_types (fn t =>
wenzelm@18953
   588
  fold_atyps (fn TFree (x, _) => Symtab.update_list (x, t) | _ => I));
wenzelm@5819
   589
wenzelm@16861
   590
fun ins_skolem def_ty = fold_rev (fn (x, x') =>
wenzelm@16861
   591
  (case def_ty x' of
wenzelm@17412
   592
    SOME T => Vartab.update ((x, ~1), T)
wenzelm@16861
   593
  | NONE => I));
wenzelm@5994
   594
wenzelm@16031
   595
in
wenzelm@16031
   596
wenzelm@18672
   597
fun declare_syntax t =
wenzelm@18340
   598
  map_defaults (fn (types, sorts, used, occ) => (ins_types t types, sorts, used, occ))
wenzelm@18340
   599
  #> map_defaults (fn (types, sorts, used, occ) => (types, ins_sorts t sorts, used, occ))
wenzelm@18340
   600
  #> map_defaults (fn (types, sorts, used, occ) => (types, sorts, ins_used t used, occ));
wenzelm@10381
   601
wenzelm@19001
   602
fun declare_var (x, opt_T, mx) ctxt =
wenzelm@19001
   603
  let val T = (case opt_T of SOME T => T | NONE => TypeInfer.mixfixT mx)
wenzelm@19001
   604
  in ((x, T, mx), ctxt |> declare_syntax (Free (x, T))) end;
wenzelm@18672
   605
wenzelm@16540
   606
fun declare_term t ctxt =
wenzelm@16031
   607
  ctxt
wenzelm@18672
   608
  |> declare_syntax t
wenzelm@16861
   609
  |> map_defaults (fn (types, sorts, used, occ) => (types, sorts, used, ins_occs t occ))
wenzelm@12291
   610
  |> map_defaults (fn (types, sorts, used, occ) =>
wenzelm@18672
   611
      (ins_skolem (fn x => Vartab.lookup types (x, ~1)) (fixes_of ctxt) types, sorts, used, occ));
wenzelm@5819
   612
wenzelm@18770
   613
end;
wenzelm@18770
   614
wenzelm@18770
   615
wenzelm@18770
   616
(* inferred types of parameters *)
wenzelm@18770
   617
wenzelm@18770
   618
fun infer_type ctxt x =
wenzelm@18770
   619
  (case try (fn () =>
wenzelm@18971
   620
      Sign.infer_types (pp ctxt) (theory_of ctxt) (consts_of ctxt) (def_type ctxt false)
wenzelm@18971
   621
        (def_sort ctxt) (used_types ctxt) true ([Free (x, dummyT)], TypeInfer.logicT)) () of
wenzelm@18770
   622
    SOME (Free (_, T), _) => T
wenzelm@18770
   623
  | _ => error ("Failed to infer type of fixed variable " ^ quote x));
wenzelm@18770
   624
wenzelm@18770
   625
fun inferred_param x ctxt =
wenzelm@18619
   626
  let val T = infer_type ctxt x
wenzelm@19019
   627
  in ((x, T), ctxt |> declare_syntax (Free (x, T))) end;
wenzelm@18619
   628
wenzelm@18770
   629
fun inferred_fixes ctxt =
wenzelm@18770
   630
  fold_map inferred_param (rev (fixed_names_of ctxt)) ctxt;
wenzelm@5819
   631
wenzelm@5819
   632
wenzelm@15703
   633
(* type and constant names *)
wenzelm@15703
   634
wenzelm@15703
   635
fun read_tyname ctxt c =
wenzelm@18340
   636
  if member (op =) (used_types ctxt) c then
wenzelm@18187
   637
    TFree (c, the_default (Sign.defaultS (theory_of ctxt)) (def_sort ctxt (c, ~1)))
wenzelm@16458
   638
  else Sign.read_tyname (theory_of ctxt) c;
wenzelm@15703
   639
wenzelm@15703
   640
fun read_const ctxt c =
wenzelm@15703
   641
  (case lookup_skolem ctxt c of
wenzelm@15703
   642
    SOME c' => Free (c', dummyT)
wenzelm@18971
   643
  | NONE => Consts.read_const (consts_of ctxt) c);
wenzelm@15703
   644
wenzelm@15703
   645
wenzelm@19019
   646
(* renaming term/type frees *)
wenzelm@19019
   647
wenzelm@19019
   648
fun rename_frees ctxt ts frees =
wenzelm@19019
   649
  let
wenzelm@19019
   650
    val (types, sorts, _, _) = defaults_of (ctxt |> fold declare_syntax ts);
wenzelm@19019
   651
    fun rename (x, X) xs =
wenzelm@19019
   652
      let
wenzelm@19019
   653
        fun used y = member (op =) xs y orelse
wenzelm@19019
   654
          Vartab.defined types (y, ~1) orelse Vartab.defined sorts (y, ~1);
wenzelm@19019
   655
        val x' = Term.variant_name used x;
wenzelm@19019
   656
      in ((x', X), x' :: xs) end;
wenzelm@19019
   657
  in #1 (fold_map rename frees []) end;
wenzelm@19019
   658
wenzelm@19019
   659
wenzelm@8616
   660
wenzelm@8616
   661
(** Hindley-Milner polymorphism **)
wenzelm@8616
   662
wenzelm@7925
   663
(* warn_extra_tfrees *)
wenzelm@7925
   664
wenzelm@16540
   665
fun warn_extra_tfrees ctxt1 ctxt2 =
wenzelm@12130
   666
  let
wenzelm@17451
   667
    fun occs_typ a (Type (_, Ts)) = exists (occs_typ a) Ts
wenzelm@17451
   668
      | occs_typ a (TFree (b, _)) = a = b
wenzelm@17451
   669
      | occs_typ _ (TVar _) = false;
wenzelm@17451
   670
    fun occs_free a (Free (x, _)) =
wenzelm@17451
   671
          (case def_type ctxt1 false (x, ~1) of
wenzelm@17451
   672
            SOME T => if occs_typ a T then I else cons (a, x)
wenzelm@17451
   673
          | NONE => cons (a, x))
wenzelm@17451
   674
      | occs_free _ _ = I;
wenzelm@8616
   675
wenzelm@17451
   676
    val occs1 = type_occs_of ctxt1 and occs2 = type_occs_of ctxt2;
wenzelm@17451
   677
    val extras = Symtab.fold (fn (a, ts) =>
wenzelm@17451
   678
      if Symtab.defined occs1 a then I else fold (occs_free a) ts) occs2 [];
wenzelm@18428
   679
    val tfrees = map #1 extras |> sort_distinct string_ord;
wenzelm@18428
   680
    val frees = map #2 extras |> sort_distinct string_ord;
wenzelm@12130
   681
  in
wenzelm@12130
   682
    if null extras then ()
wenzelm@17451
   683
    else warning ("Introduced fixed type variable(s): " ^ commas tfrees ^ " in " ^
wenzelm@17860
   684
      space_implode " or " (map (string_of_term ctxt2 o Syntax.free) frees));
wenzelm@12130
   685
    ctxt2
wenzelm@12130
   686
  end;
wenzelm@8616
   687
wenzelm@8616
   688
wenzelm@8616
   689
(* generalize type variables *)
wenzelm@8616
   690
wenzelm@12550
   691
fun generalize_tfrees inner outer =
wenzelm@8616
   692
  let
wenzelm@12057
   693
    val extra_fixes = fixed_names_of inner \\ fixed_names_of outer;
wenzelm@18340
   694
    fun still_fixed (Free (x, _)) = not (member (op =) extra_fixes x)
wenzelm@8616
   695
      | still_fixed _ = false;
wenzelm@16540
   696
    val occs_inner = type_occs_of inner;
wenzelm@16540
   697
    val occs_outer = type_occs_of outer;
wenzelm@16031
   698
    fun add a gen =
wenzelm@16894
   699
      if Symtab.defined occs_outer a orelse
wenzelm@18953
   700
        exists still_fixed (Symtab.lookup_list occs_inner a)
wenzelm@8616
   701
      then gen else a :: gen;
wenzelm@16031
   702
  in fn tfrees => fold add tfrees [] end;
wenzelm@8616
   703
wenzelm@12550
   704
fun generalize inner outer ts =
wenzelm@8616
   705
  let
wenzelm@18187
   706
    val tfrees = generalize_tfrees inner outer (map #1 (fold Term.add_tfrees ts []));
wenzelm@18340
   707
    fun gen (x, S) = if member (op =) tfrees x then TVar ((x, 0), S) else TFree (x, S);
wenzelm@12550
   708
  in map (Term.map_term_types (Term.map_type_tfree gen)) ts end;
wenzelm@8616
   709
wenzelm@8616
   710
wenzelm@19001
   711
(* polymorphic terms *)
wenzelm@19001
   712
wenzelm@19001
   713
fun polymorphic ctxt ts =
wenzelm@19001
   714
  generalize (ctxt |> fold declare_term ts) ctxt ts;
wenzelm@19001
   715
wenzelm@19019
   716
fun extra_tvars t T =
wenzelm@19019
   717
  let val tvarsT = Term.add_tvarsT T [] in
wenzelm@19001
   718
    Term.fold_types (Term.fold_atyps
wenzelm@19001
   719
      (fn TVar v => if member (op =) tvarsT v then I else insert (op =) v | _ => I)) t []
wenzelm@19001
   720
  end;
wenzelm@19001
   721
wenzelm@19001
   722
wenzelm@9553
   723
wenzelm@9553
   724
(** export theorems **)
wenzelm@8616
   725
wenzelm@18042
   726
fun common_exports is_goal inner outer =
wenzelm@8616
   727
  let
wenzelm@12550
   728
    val gen = generalize_tfrees inner outer;
wenzelm@12057
   729
    val fixes = fixed_names_of inner \\ fixed_names_of outer;
wenzelm@12057
   730
    val asms = Library.drop (length (assumptions_of outer), assumptions_of inner);
wenzelm@11816
   731
    val exp_asms = map (fn (cprops, exp) => exp is_goal cprops) asms;
wenzelm@16948
   732
  in
wenzelm@18255
   733
    Goal.norm_hhf_protect
wenzelm@16948
   734
    #> Seq.EVERY (rev exp_asms)
wenzelm@16948
   735
    #> Seq.map (fn rule =>
wenzelm@11816
   736
      let
wenzelm@16992
   737
        val thy = Thm.theory_of_thm rule;
wenzelm@16992
   738
        val prop = Thm.full_prop_of rule;
wenzelm@18152
   739
        val frees = map (Thm.cterm_of thy) (List.mapPartial (Term.find_free prop) fixes);
wenzelm@12550
   740
        val tfrees = gen (Term.add_term_tfree_names (prop, []));
wenzelm@11816
   741
      in
wenzelm@11816
   742
        rule
wenzelm@11816
   743
        |> Drule.forall_intr_list frees
wenzelm@18255
   744
        |> Goal.norm_hhf_protect
wenzelm@18138
   745
        |> Drule.tvars_intr_list tfrees |> #2
wenzelm@11816
   746
      end)
wenzelm@11816
   747
  end;
wenzelm@8616
   748
wenzelm@18785
   749
fun export_standard inner outer =
wenzelm@18122
   750
  let val exp = common_exports false inner outer in
wenzelm@13378
   751
    fn th =>
wenzelm@18122
   752
      (case Seq.pull (exp th) of
skalberg@15531
   753
        SOME (th', _) => th' |> Drule.local_standard
wenzelm@16850
   754
      | NONE => sys_error "Failed to export theorem")
wenzelm@13378
   755
  end;
wenzelm@12704
   756
wenzelm@18122
   757
val exports = common_exports false;
wenzelm@18122
   758
val goal_exports = common_exports true;
wenzelm@7925
   759
wenzelm@5819
   760
wenzelm@15758
   761
wenzelm@5819
   762
(** bindings **)
wenzelm@5819
   763
wenzelm@15758
   764
(* delete_update_binds *)
wenzelm@15758
   765
wenzelm@15758
   766
local
wenzelm@5819
   767
wenzelm@18672
   768
val del_bind = map_binds o Vartab.delete_safe;
wenzelm@7606
   769
wenzelm@15758
   770
fun upd_bind ((x, i), t) =
wenzelm@8616
   771
  let
wenzelm@8616
   772
    val T = Term.fastype_of t;
wenzelm@8616
   773
    val t' =
wenzelm@19019
   774
      if null (extra_tvars t T) then t
wenzelm@8637
   775
      else Var ((x ^ "_has_extra_type_vars_on_rhs", i), T);
wenzelm@18953
   776
  in declare_term t' #> map_binds (Vartab.update ((x, i), (T, t'))) end;
wenzelm@5819
   777
wenzelm@15758
   778
fun del_upd_bind (xi, NONE) = del_bind xi
wenzelm@15758
   779
  | del_upd_bind (xi, SOME t) = upd_bind (xi, t);
wenzelm@7606
   780
wenzelm@15758
   781
in
wenzelm@15758
   782
wenzelm@15758
   783
val delete_update_binds = fold del_upd_bind;
wenzelm@15758
   784
wenzelm@15758
   785
end;
wenzelm@7606
   786
wenzelm@5819
   787
wenzelm@8096
   788
(* simult_matches *)
wenzelm@8096
   789
wenzelm@8616
   790
fun simult_matches ctxt [] = []
wenzelm@8616
   791
  | simult_matches ctxt pairs =
wenzelm@8096
   792
      let
wenzelm@18678
   793
        fun fail () = error "Pattern match failed!";
wenzelm@10554
   794
wenzelm@16031
   795
        val maxidx = fold (fn (t1, t2) => fn i =>
wenzelm@16031
   796
          Int.max (Int.max (Term.maxidx_of_term t1, Term.maxidx_of_term t2), i)) pairs ~1;
wenzelm@16458
   797
        val envs = Unify.smash_unifiers (theory_of ctxt, Envir.empty maxidx,
wenzelm@10554
   798
          map swap pairs);    (*prefer assignment of variables from patterns*)
wenzelm@10554
   799
        val env =
wenzelm@8096
   800
          (case Seq.pull envs of
skalberg@15531
   801
            NONE => fail ()
skalberg@15531
   802
          | SOME (env, _) => env);    (*ignore further results*)
wenzelm@12309
   803
        val domain =
wenzelm@12309
   804
          filter_out Term.is_replaced_dummy_pattern (map #1 (Drule.vars_of_terms (map #1 pairs)));
wenzelm@10554
   805
        val _ =    (*may not assign variables from text*)
wenzelm@12309
   806
          if null (map #1 (Envir.alist_of env) inter (map #1 (Drule.vars_of_terms (map #2 pairs))))
wenzelm@12309
   807
          then () else fail ();
wenzelm@16948
   808
        fun norm_bind (xi, (_, t)) =
wenzelm@18310
   809
          if member (op =) domain xi then SOME (xi, Envir.norm_term env t) else NONE;
skalberg@15570
   810
      in List.mapPartial norm_bind (Envir.alist_of env) end;
wenzelm@8096
   811
wenzelm@8096
   812
wenzelm@8096
   813
(* add_binds(_i) *)
wenzelm@5819
   814
wenzelm@7925
   815
local
wenzelm@7925
   816
wenzelm@16031
   817
fun gen_bind prep (xi as (x, _), raw_t) ctxt =
skalberg@15570
   818
  ctxt |> delete_update_binds [(xi, Option.map (prep ctxt) raw_t)];
wenzelm@5819
   819
wenzelm@10810
   820
in
wenzelm@10810
   821
skalberg@15531
   822
fun drop_schematic (b as (xi, SOME t)) = if null (Term.term_vars t) then b else (xi, NONE)
wenzelm@10554
   823
  | drop_schematic b = b;
wenzelm@10554
   824
wenzelm@16031
   825
val add_binds = fold (gen_bind read_term);
wenzelm@16031
   826
val add_binds_i = fold (gen_bind cert_term);
wenzelm@8616
   827
wenzelm@16458
   828
fun auto_bind f ts ctxt = ctxt |> add_binds_i (map drop_schematic (f (theory_of ctxt) ts));
wenzelm@12147
   829
val auto_bind_goal = auto_bind AutoBind.goal;
wenzelm@12147
   830
val auto_bind_facts = auto_bind AutoBind.facts;
wenzelm@7925
   831
wenzelm@7925
   832
end;
wenzelm@5819
   833
wenzelm@5819
   834
wenzelm@8096
   835
(* match_bind(_i) *)
wenzelm@5819
   836
wenzelm@8096
   837
local
wenzelm@8096
   838
wenzelm@17860
   839
fun prep_bind prep_pats (raw_pats, t) ctxt =
wenzelm@5819
   840
  let
wenzelm@8096
   841
    val ctxt' = declare_term t ctxt;
wenzelm@8096
   842
    val pats = prep_pats (fastype_of t) ctxt' raw_pats;
wenzelm@8616
   843
    val binds = simult_matches ctxt' (map (rpair t) pats);
wenzelm@17860
   844
  in (binds, ctxt') end;
wenzelm@7670
   845
wenzelm@10465
   846
fun gen_binds prep_terms prep_pats gen raw_binds ctxt =
wenzelm@8616
   847
  let
wenzelm@10465
   848
    val ts = prep_terms ctxt (map snd raw_binds);
wenzelm@17860
   849
    val (binds, ctxt') =
wenzelm@17860
   850
      apfst List.concat (fold_map (prep_bind prep_pats) (map fst raw_binds ~~ ts) ctxt);
wenzelm@8616
   851
    val binds' =
wenzelm@12550
   852
      if gen then map #1 binds ~~ generalize ctxt' ctxt (map #2 binds)
wenzelm@8616
   853
      else binds;
skalberg@15531
   854
    val binds'' = map (apsnd SOME) binds';
wenzelm@18310
   855
    val ctxt'' =
wenzelm@18310
   856
      warn_extra_tfrees ctxt
wenzelm@18310
   857
       (if gen then
wenzelm@18310
   858
          ctxt (*sic!*) |> fold declare_term (map #2 binds') |> add_binds_i binds''
wenzelm@18310
   859
        else ctxt' |> add_binds_i binds'');
wenzelm@18310
   860
  in (ts, ctxt'') end;
wenzelm@8096
   861
wenzelm@8096
   862
in
wenzelm@5935
   863
wenzelm@10465
   864
val match_bind = gen_binds read_terms read_term_pats;
wenzelm@10465
   865
val match_bind_i = gen_binds (map o cert_term) cert_term_pats;
wenzelm@8096
   866
wenzelm@8096
   867
end;
wenzelm@5935
   868
wenzelm@5935
   869
wenzelm@10465
   870
(* propositions with patterns *)
wenzelm@5935
   871
wenzelm@10465
   872
local
wenzelm@8096
   873
wenzelm@10554
   874
fun prep_propp schematic prep_props prep_pats (context, args) =
wenzelm@10465
   875
  let
wenzelm@17860
   876
    fun prep (_, (raw_pats1, raw_pats2)) (ctxt, prop :: props) =
wenzelm@10465
   877
          let
wenzelm@10465
   878
            val ctxt' = declare_term prop ctxt;
wenzelm@10465
   879
            val pats = prep_pats ctxt' (raw_pats1 @ raw_pats2);    (*simultaneous type inference!*)
wenzelm@19019
   880
          in ((prop, chop (length raw_pats1) pats), (ctxt', props)) end
wenzelm@17860
   881
      | prep _ _ = sys_error "prep_propp";
wenzelm@17860
   882
    val (propp, (context', _)) = (fold_map o fold_map) prep args
wenzelm@17860
   883
      (context, prep_props schematic context (List.concat (map (map fst) args)));
wenzelm@10465
   884
  in (context', propp) end;
wenzelm@5935
   885
wenzelm@10465
   886
fun matches ctxt (prop, (pats1, pats2)) =
wenzelm@10465
   887
  simult_matches ctxt (map (rpair prop) pats1 @ map (rpair (Logic.strip_imp_concl prop)) pats2);
wenzelm@8096
   888
wenzelm@10465
   889
fun gen_bind_propp prepp (ctxt, raw_args) =
wenzelm@8096
   890
  let
wenzelm@10465
   891
    val (ctxt', args) = prepp (ctxt, raw_args);
skalberg@15570
   892
    val binds = List.concat (List.concat (map (map (matches ctxt')) args));
wenzelm@10465
   893
    val propss = map (map #1) args;
wenzelm@8616
   894
wenzelm@10554
   895
    (*generalize result: context evaluated now, binds added later*)
wenzelm@8616
   896
    val gen = generalize ctxt' ctxt;
skalberg@15531
   897
    fun gen_binds c = c |> add_binds_i (map #1 binds ~~ map SOME (gen (map #2 binds)));
skalberg@15531
   898
  in (ctxt' |> add_binds_i (map (apsnd SOME) binds), (propss, gen_binds)) end;
wenzelm@8096
   899
wenzelm@10465
   900
in
wenzelm@10465
   901
wenzelm@11925
   902
val read_propp = prep_propp false read_props read_prop_pats;
wenzelm@11925
   903
val cert_propp = prep_propp false cert_props cert_prop_pats;
wenzelm@10554
   904
val read_propp_schematic = prep_propp true read_props read_prop_pats;
wenzelm@10554
   905
val cert_propp_schematic = prep_propp true cert_props cert_prop_pats;
wenzelm@10554
   906
wenzelm@11925
   907
val bind_propp = gen_bind_propp read_propp;
wenzelm@11925
   908
val bind_propp_i = gen_bind_propp cert_propp;
wenzelm@11925
   909
val bind_propp_schematic = gen_bind_propp read_propp_schematic;
wenzelm@10554
   910
val bind_propp_schematic_i = gen_bind_propp cert_propp_schematic;
wenzelm@6789
   911
wenzelm@10465
   912
end;
wenzelm@10465
   913
wenzelm@6789
   914
wenzelm@5819
   915
wenzelm@5819
   916
(** theorems **)
wenzelm@5819
   917
wenzelm@18042
   918
(* fact_tac *)
wenzelm@18042
   919
wenzelm@18122
   920
fun comp_incr_tac [] _ st = no_tac st
wenzelm@18122
   921
  | comp_incr_tac (th :: ths) i st =
wenzelm@18122
   922
      (Goal.compose_hhf_tac (Drule.incr_indexes st th) i APPEND comp_incr_tac ths i) st;
wenzelm@18042
   923
wenzelm@18122
   924
fun fact_tac facts = Tactic.norm_hhf_tac THEN' comp_incr_tac facts;
wenzelm@18122
   925
wenzelm@18122
   926
fun some_fact_tac ctxt = SUBGOAL (fn (goal, i) =>
wenzelm@18042
   927
  let
wenzelm@19001
   928
    val index = fact_index_of ctxt;
wenzelm@18042
   929
    val facts = FactIndex.could_unify index (Term.strip_all_body goal);
wenzelm@18042
   930
  in fact_tac facts i end);
wenzelm@18042
   931
wenzelm@18042
   932
wenzelm@6091
   933
(* get_thm(s) *)
wenzelm@5819
   934
wenzelm@18042
   935
fun retrieve_thms _ pick ctxt (Fact s) =
wenzelm@16501
   936
      let
wenzelm@18042
   937
        val thy = theory_of ctxt;
wenzelm@18042
   938
        val th = Goal.prove thy [] [] (read_prop ctxt s) (K (ALLGOALS (some_fact_tac ctxt)))
wenzelm@18678
   939
          handle ERROR msg => cat_error msg "Failed to retrieve literal fact.";
wenzelm@18042
   940
      in pick "" [th] end
wenzelm@18042
   941
  | retrieve_thms from_thy pick ctxt xthmref =
wenzelm@18042
   942
      let
wenzelm@18042
   943
        val thy = theory_of ctxt;
wenzelm@19001
   944
        val (space, tab) = #1 (thms_of ctxt);
wenzelm@16501
   945
        val thmref = PureThy.map_name_of_thmref (NameSpace.intern space) xthmref;
wenzelm@16501
   946
        val name = PureThy.name_of_thmref thmref;
wenzelm@16501
   947
      in
wenzelm@17412
   948
        (case Symtab.lookup tab name of
wenzelm@16540
   949
          SOME ths => map (Thm.transfer thy) (PureThy.select_thm thmref ths)
wenzelm@16540
   950
        | NONE => from_thy thy xthmref) |> pick name
wenzelm@18042
   951
      end;
wenzelm@5819
   952
wenzelm@9566
   953
val get_thm = retrieve_thms PureThy.get_thms PureThy.single_thm;
wenzelm@9566
   954
val get_thm_closure = retrieve_thms PureThy.get_thms_closure PureThy.single_thm;
wenzelm@9566
   955
val get_thms = retrieve_thms PureThy.get_thms (K I);
wenzelm@9566
   956
val get_thms_closure = retrieve_thms PureThy.get_thms_closure (K I);
wenzelm@5819
   957
wenzelm@5819
   958
wenzelm@16031
   959
(* valid_thms *)
wenzelm@16031
   960
wenzelm@16031
   961
fun valid_thms ctxt (name, ths) =
wenzelm@18678
   962
  (case try (fn () => get_thms ctxt (Name name)) () of
wenzelm@16031
   963
    NONE => false
wenzelm@16147
   964
  | SOME ths' => Thm.eq_thms (ths, ths'));
wenzelm@16031
   965
wenzelm@16031
   966
wenzelm@16031
   967
(* lthms_containing *)
wenzelm@16031
   968
wenzelm@16031
   969
fun lthms_containing ctxt spec =
wenzelm@16031
   970
  FactIndex.find (fact_index_of ctxt) spec
wenzelm@18043
   971
  |> map ((not o valid_thms ctxt) ? apfst (fn name =>
wenzelm@18042
   972
    NameSpace.hidden (if name = "" then "unnamed" else name)));
wenzelm@16031
   973
wenzelm@16031
   974
wenzelm@13425
   975
(* name space operations *)
wenzelm@12309
   976
wenzelm@19001
   977
val extern_thm = NameSpace.extern o #1 o #1 o thms_of;
wenzelm@12309
   978
wenzelm@19019
   979
val no_base_names = map_naming NameSpace.no_base_names;
wenzelm@16147
   980
val qualified_names = map_naming NameSpace.qualified_names;
wenzelm@19019
   981
val qualified_force_prefix = map_naming o NameSpace.qualified_force_prefix;
wenzelm@19001
   982
val restore_naming = map_naming o K o naming_of;
wenzelm@12309
   983
wenzelm@19001
   984
fun hide_thms fully names = map_thms (fn ((space, tab), index) =>
wenzelm@19001
   985
  ((fold (NameSpace.hide fully) names space, tab), index));
wenzelm@13425
   986
wenzelm@12309
   987
wenzelm@17360
   988
(* put_thms *)
wenzelm@5819
   989
wenzelm@18042
   990
fun put_thms ("", NONE) ctxt = ctxt
wenzelm@19001
   991
  | put_thms ("", SOME ths) ctxt = ctxt |> map_thms (fn (facts, index) =>
wenzelm@18672
   992
      let
wenzelm@18672
   993
        val index' = FactIndex.add_local (is_known ctxt) ("", ths) index;
wenzelm@19001
   994
      in (facts, index') end)
wenzelm@19001
   995
  | put_thms (bname, NONE) ctxt = ctxt |> map_thms (fn ((space, tab), index) =>
wenzelm@18672
   996
      let
wenzelm@19001
   997
        val name = NameSpace.full (naming_of ctxt) bname;
wenzelm@18672
   998
        val tab' = Symtab.delete_safe name tab;
wenzelm@19001
   999
      in ((space, tab'), index) end)
wenzelm@19001
  1000
  | put_thms (bname, SOME ths) ctxt = ctxt |> map_thms (fn ((space, tab), index) =>
wenzelm@18672
  1001
      let
wenzelm@19001
  1002
        val name = NameSpace.full (naming_of ctxt) bname;
wenzelm@19001
  1003
        val space' = NameSpace.declare (naming_of ctxt) name space;
wenzelm@18672
  1004
        val tab' = Symtab.update (name, ths) tab;
wenzelm@18672
  1005
        val index' = FactIndex.add_local (is_known ctxt) (name, ths) index;
wenzelm@19001
  1006
      in ((space', tab'), index') end);
wenzelm@5819
  1007
wenzelm@7606
  1008
wenzelm@14564
  1009
(* note_thmss *)
wenzelm@5819
  1010
wenzelm@12711
  1011
local
wenzelm@16147
  1012
wenzelm@17860
  1013
fun gen_note_thmss get = fold_map (fn ((name, more_attrs), ths_attrs) => fn ctxt =>
wenzelm@5819
  1014
  let
wenzelm@17360
  1015
    fun app (th, attrs) (ct, ths) =
wenzelm@18728
  1016
      let val (ct', th') = foldl_map (Thm.proof_attributes (attrs @ more_attrs)) (ct, get ctxt th)
wenzelm@12711
  1017
      in (ct', th' :: ths) end;
wenzelm@17360
  1018
    val (ctxt', rev_thms) = fold app ths_attrs (ctxt, []);
skalberg@15570
  1019
    val thms = List.concat (rev rev_thms);
wenzelm@17860
  1020
  in ((name, thms), ctxt' |> put_thms (name, SOME thms)) end);
wenzelm@12711
  1021
wenzelm@12711
  1022
in
wenzelm@12711
  1023
wenzelm@16147
  1024
val note_thmss = gen_note_thmss get_thms;
wenzelm@16147
  1025
val note_thmss_i = gen_note_thmss (K I);
ballarin@15696
  1026
ballarin@15696
  1027
val note_thmss_accesses = gen_note_thmss get_thms;
ballarin@15696
  1028
val note_thmss_accesses_i = gen_note_thmss (K I);
wenzelm@12711
  1029
wenzelm@12711
  1030
end;
wenzelm@9196
  1031
wenzelm@5819
  1032
wenzelm@5819
  1033
wenzelm@18672
  1034
(** parameters **)
wenzelm@17360
  1035
wenzelm@8096
  1036
(* variables *)
wenzelm@8096
  1037
wenzelm@10381
  1038
local
wenzelm@10381
  1039
wenzelm@18672
  1040
fun prep_vars prep_typ internal legacy =
wenzelm@18672
  1041
  fold_map (fn (raw_x, raw_T, raw_mx) => fn ctxt =>
wenzelm@18672
  1042
    let
wenzelm@18672
  1043
      val x = Syntax.const_name raw_x raw_mx;
wenzelm@18672
  1044
      val mx = Syntax.fix_mixfix raw_x raw_mx;
wenzelm@18672
  1045
      val _ =
wenzelm@18678
  1046
        if not legacy andalso not (Syntax.is_identifier (no_skolem internal x)) then
wenzelm@18678
  1047
          error ("Illegal variable name: " ^ quote x)
wenzelm@18672
  1048
        else ();
wenzelm@12504
  1049
wenzelm@18672
  1050
      fun cond_tvars T =
wenzelm@18672
  1051
        if internal then T
wenzelm@18678
  1052
        else Type.no_tvars T handle TYPE (msg, _, _) => error msg;
wenzelm@18672
  1053
      val opt_T = Option.map (cond_tvars o prep_typ ctxt) raw_T;
wenzelm@18672
  1054
      val var = (x, opt_T, mx);
wenzelm@19001
  1055
    in (var, ctxt |> declare_var var |> #2) end);
wenzelm@8096
  1056
wenzelm@10381
  1057
in
wenzelm@10381
  1058
wenzelm@18672
  1059
val read_vars        = prep_vars read_typ false false;
wenzelm@18672
  1060
val cert_vars        = prep_vars cert_typ true false;
wenzelm@18672
  1061
val read_vars_legacy = prep_vars read_typ true true;
wenzelm@18672
  1062
val cert_vars_legacy = prep_vars cert_typ true true;
wenzelm@8096
  1063
wenzelm@10381
  1064
end;
wenzelm@10381
  1065
wenzelm@8096
  1066
wenzelm@19001
  1067
(* abbreviations *)
wenzelm@19001
  1068
wenzelm@19001
  1069
local
wenzelm@19001
  1070
wenzelm@19001
  1071
fun gen_abbrevs prep_vars prep_term revert = fold (fn (raw_c, raw_t, raw_mx) => fn ctxt =>
wenzelm@19001
  1072
  let
wenzelm@19019
  1073
    val thy = theory_of ctxt and naming = naming_of ctxt;
wenzelm@19001
  1074
    val ([(c, _, mx)], _) = prep_vars [(raw_c, NONE, raw_mx)] ctxt;
wenzelm@19001
  1075
    val [t] = polymorphic ctxt [prep_term ctxt raw_t];
wenzelm@19019
  1076
    val T = Term.fastype_of t;
wenzelm@19001
  1077
    val _ =
wenzelm@19019
  1078
      if null (extra_tvars t T) then ()
wenzelm@19001
  1079
      else error ("Extra type variables on rhs of abbreviation: " ^ quote c);
wenzelm@19001
  1080
  in
wenzelm@19001
  1081
    ctxt
wenzelm@19001
  1082
    |> declare_term t
wenzelm@19019
  1083
    |> map_consts (Consts.abbreviate (pp ctxt) (tsig_of ctxt) naming revert (c, t))
wenzelm@19019
  1084
    |> map_syntax (LocalSyntax.add_syntax thy [(false, (NameSpace.full naming c, T, mx))])
wenzelm@19001
  1085
  end);
wenzelm@19001
  1086
wenzelm@19001
  1087
in
wenzelm@19001
  1088
wenzelm@19001
  1089
val add_abbrevs = gen_abbrevs read_vars read_term;
wenzelm@19001
  1090
val add_abbrevs_i = gen_abbrevs cert_vars cert_term;
wenzelm@19001
  1091
wenzelm@19001
  1092
end;
wenzelm@19001
  1093
wenzelm@19001
  1094
wenzelm@18672
  1095
(* fixes *)
wenzelm@5819
  1096
wenzelm@8096
  1097
local
wenzelm@8096
  1098
wenzelm@19001
  1099
fun prep_mixfix (x, T, mx) =
wenzelm@19019
  1100
  if mx <> NoSyn andalso mx <> Structure andalso
wenzelm@19019
  1101
      (can Syntax.dest_internal x orelse can Syntax.dest_skolem x) then
wenzelm@19001
  1102
    error ("Illegal mixfix syntax for internal/skolem constant " ^ quote x)
wenzelm@19001
  1103
  else (true, (x, T, mx));
wenzelm@19001
  1104
wenzelm@18672
  1105
fun no_dups _ [] = ()
wenzelm@18900
  1106
  | no_dups ctxt dups = error ("Duplicate fixed variable(s): " ^ commas_quote dups);
wenzelm@11925
  1107
wenzelm@18844
  1108
fun gen_fixes prep raw_vars ctxt =
wenzelm@8096
  1109
  let
wenzelm@18672
  1110
    val (ys, zs) = split_list (fixes_of ctxt);
wenzelm@18672
  1111
    val (vars, ctxt') = prep raw_vars ctxt;
wenzelm@12130
  1112
    val xs = map #1 vars;
wenzelm@18971
  1113
    val _ = no_dups ctxt (duplicates (op =) xs);
wenzelm@18672
  1114
    val xs' =
wenzelm@18672
  1115
      if is_body ctxt then Term.variantlist (map Syntax.skolem xs, zs)
wenzelm@18672
  1116
      else (no_dups ctxt (xs inter_string ys); no_dups ctxt (xs inter_string zs); xs);
wenzelm@8096
  1117
  in
wenzelm@18672
  1118
    ctxt'
wenzelm@18672
  1119
    |> map_fixes (fn (b, fixes) => (b, rev (xs ~~ xs') @ fixes))
wenzelm@19001
  1120
    |> fold_map declare_var (map2 (fn x' => fn (_, T, mx) => (x', T, mx)) xs' vars)
wenzelm@19019
  1121
    |-> (map_syntax o LocalSyntax.add_syntax (theory_of ctxt) o map prep_mixfix)
wenzelm@18672
  1122
    |> pair xs'
wenzelm@8096
  1123
  end;
wenzelm@5819
  1124
wenzelm@8096
  1125
in
wenzelm@7679
  1126
wenzelm@18844
  1127
val add_fixes = gen_fixes read_vars;
wenzelm@18844
  1128
val add_fixes_i = gen_fixes cert_vars;
wenzelm@18844
  1129
val add_fixes_legacy = gen_fixes cert_vars_legacy;
wenzelm@8096
  1130
wenzelm@8096
  1131
end;
wenzelm@5819
  1132
wenzelm@18672
  1133
wenzelm@18844
  1134
(* invent fixes *)
wenzelm@18844
  1135
wenzelm@18844
  1136
fun invent_fixes xs ctxt =
wenzelm@18844
  1137
  ctxt
wenzelm@18844
  1138
  |> set_body true
wenzelm@18844
  1139
  |> add_fixes_i (map (fn x => (x, NONE, NoSyn)) xs)
wenzelm@18844
  1140
  ||> restore_body ctxt;
wenzelm@18844
  1141
wenzelm@18844
  1142
wenzelm@18672
  1143
(* fixes vs. frees *)
wenzelm@12016
  1144
wenzelm@18672
  1145
fun fix_frees t ctxt =
wenzelm@18672
  1146
  let
wenzelm@18672
  1147
    fun add (Free (x, T)) = if is_fixed ctxt x then I else insert (op =) (x, SOME T, NoSyn)
wenzelm@18672
  1148
      | add _ = I;
wenzelm@18672
  1149
    val fixes = rev (fold_aterms add t []);
wenzelm@18809
  1150
  in
wenzelm@18809
  1151
    ctxt
wenzelm@18809
  1152
    |> declare_term t
wenzelm@18809
  1153
    |> set_body false
wenzelm@18809
  1154
    |> (snd o add_fixes_i fixes)
wenzelm@18809
  1155
    |> restore_body ctxt
wenzelm@18809
  1156
  end;
wenzelm@6895
  1157
wenzelm@18672
  1158
fun auto_fixes (arg as (ctxt, (propss, x))) =
wenzelm@18672
  1159
  if is_body ctxt then arg
wenzelm@18672
  1160
  else ((fold o fold) fix_frees propss ctxt, (propss, x));
wenzelm@18672
  1161
wenzelm@18672
  1162
fun bind_fixes xs ctxt =
wenzelm@9291
  1163
  let
wenzelm@18672
  1164
    val (_, ctxt') = ctxt |> add_fixes_i (map (fn x => (x, NONE, NoSyn)) xs);
wenzelm@9291
  1165
    fun bind (t as Free (x, T)) =
wenzelm@18340
  1166
          if member (op =) xs x then
skalberg@15531
  1167
            (case lookup_skolem ctxt' x of SOME x' => Free (x', T) | NONE => t)
wenzelm@9291
  1168
          else t
wenzelm@9291
  1169
      | bind (t $ u) = bind t $ bind u
wenzelm@9291
  1170
      | bind (Abs (x, T, t)) = Abs (x, T, bind t)
wenzelm@9291
  1171
      | bind a = a;
wenzelm@18672
  1172
  in (bind, ctxt') end;
wenzelm@18672
  1173
wenzelm@9291
  1174
wenzelm@9291
  1175
wenzelm@18672
  1176
(** assumptions **)
wenzelm@18187
  1177
wenzelm@18672
  1178
(* generic assms *)
wenzelm@18187
  1179
wenzelm@18187
  1180
local
wenzelm@18187
  1181
wenzelm@18672
  1182
fun gen_assm ((name, attrs), props) ctxt =
wenzelm@18187
  1183
  let
wenzelm@18187
  1184
    val cprops = map (Thm.cterm_of (theory_of ctxt)) props;
wenzelm@18187
  1185
    val asms = map (Goal.norm_hhf o Thm.assume) cprops;
wenzelm@18187
  1186
wenzelm@18187
  1187
    val ths = map (fn th => ([th], [])) asms;
wenzelm@18187
  1188
    val ([(_, thms)], ctxt') =
wenzelm@18187
  1189
      ctxt
wenzelm@18187
  1190
      |> auto_bind_facts props
wenzelm@18187
  1191
      |> note_thmss_i [((name, attrs), ths)];
wenzelm@18187
  1192
  in ((cprops, (name, asms), (name, thms)), ctxt') end;
wenzelm@18187
  1193
wenzelm@18187
  1194
fun gen_assms prepp exp args ctxt =
wenzelm@18187
  1195
  let
wenzelm@18672
  1196
    val (propss, ctxt1) = swap (prepp (ctxt, map snd args));
wenzelm@18672
  1197
    val (results, ctxt2) = fold_map gen_assm (map fst args ~~ propss) ctxt1;
wenzelm@18187
  1198
wenzelm@18672
  1199
    val new_asms = List.concat (map #1 results);
wenzelm@18672
  1200
    val new_prems = map #2 results;
wenzelm@18809
  1201
    val ctxt3 = ctxt2
wenzelm@18809
  1202
      |> map_assms (fn (asms, prems) => (asms @ [(new_asms, exp)], prems @ new_prems))
wenzelm@18809
  1203
    val ctxt4 = ctxt3
wenzelm@18809
  1204
      |> put_thms ("prems", SOME (prems_of ctxt3));
wenzelm@18672
  1205
  in (map #3 results, warn_extra_tfrees ctxt ctxt4) end;
wenzelm@18187
  1206
wenzelm@18187
  1207
in
wenzelm@18187
  1208
wenzelm@18672
  1209
val add_assms = gen_assms (apsnd #1 o bind_propp);
wenzelm@18672
  1210
val add_assms_i = gen_assms (apsnd #1 o bind_propp_i);
wenzelm@18187
  1211
wenzelm@18187
  1212
end;
wenzelm@18187
  1213
wenzelm@18187
  1214
wenzelm@18672
  1215
(* basic assumptions *)
wenzelm@18672
  1216
wenzelm@18879
  1217
(*
wenzelm@18879
  1218
    [A]
wenzelm@18971
  1219
     :
wenzelm@18879
  1220
     B
wenzelm@18879
  1221
  --------
wenzelm@18879
  1222
  #A ==> B
wenzelm@18879
  1223
*)
wenzelm@18672
  1224
fun assume_export true = Seq.single oo Drule.implies_intr_protected
wenzelm@18672
  1225
  | assume_export false = Seq.single oo Drule.implies_intr_list;
wenzelm@18672
  1226
wenzelm@18879
  1227
(*
wenzelm@18879
  1228
    [A]
wenzelm@18971
  1229
     :
wenzelm@18879
  1230
     B
wenzelm@18879
  1231
  -------
wenzelm@18879
  1232
  A ==> B
wenzelm@18879
  1233
*)
wenzelm@18672
  1234
fun presume_export _ = assume_export false;
wenzelm@18672
  1235
wenzelm@18672
  1236
wenzelm@18672
  1237
(* additional views *)
wenzelm@18672
  1238
wenzelm@18672
  1239
fun add_view outer view = map_assms (fn (asms, prems) =>
wenzelm@18672
  1240
  let
wenzelm@19019
  1241
    val (asms1, asms2) = chop (length (assumptions_of outer)) asms;
wenzelm@18672
  1242
    val asms' = asms1 @ [(view, assume_export)] @ asms2;
wenzelm@18672
  1243
  in (asms', prems) end);
wenzelm@18672
  1244
wenzelm@18785
  1245
fun export_view view inner outer = export_standard (add_view outer view inner) outer;
wenzelm@18672
  1246
wenzelm@18672
  1247
wenzelm@5819
  1248
wenzelm@8373
  1249
(** cases **)
wenzelm@8373
  1250
wenzelm@16147
  1251
local
wenzelm@16147
  1252
wenzelm@16668
  1253
fun rem_case name = remove (fn (x: string, (y, _)) => x = y) name;
wenzelm@16147
  1254
wenzelm@18476
  1255
fun add_case _ ("", _) cases = cases
wenzelm@18476
  1256
  | add_case _ (name, NONE) cases = rem_case name cases
wenzelm@18476
  1257
  | add_case is_proper (name, SOME c) cases = (name, (c, is_proper)) :: rem_case name cases;
wenzelm@16147
  1258
wenzelm@18678
  1259
fun prep_case name fxs c =
wenzelm@18609
  1260
  let
wenzelm@18609
  1261
    fun replace (opt_x :: xs) ((y, T) :: ys) = (the_default y opt_x, T) :: replace xs ys
wenzelm@18609
  1262
      | replace [] ys = ys
wenzelm@18678
  1263
      | replace (_ :: _) [] = error ("Too many parameters for case " ^ quote name);
wenzelm@18609
  1264
    val RuleCases.Case {fixes, assumes, binds, cases} = c;
wenzelm@18609
  1265
    val fixes' = replace fxs fixes;
wenzelm@18609
  1266
    val binds' = map drop_schematic binds;
wenzelm@18609
  1267
  in
wenzelm@18609
  1268
    if null (fold (Term.add_tvarsT o snd) fixes []) andalso
wenzelm@18609
  1269
      null (fold (fold Term.add_vars o snd) assumes []) then
wenzelm@18609
  1270
        RuleCases.Case {fixes = fixes', assumes = assumes, binds = binds', cases = cases}
wenzelm@18678
  1271
    else error ("Illegal schematic variable(s) in case " ^ quote name)
wenzelm@18609
  1272
  end;
wenzelm@18609
  1273
wenzelm@18672
  1274
fun fix (x, T) ctxt =
wenzelm@18672
  1275
  let
wenzelm@18672
  1276
    val (bind, ctxt') = bind_fixes [x] ctxt;
wenzelm@18672
  1277
    val t = bind (Free (x, T));
wenzelm@18672
  1278
  in (t, ctxt' |> declare_syntax t) end;
wenzelm@18672
  1279
wenzelm@16147
  1280
in
wenzelm@16147
  1281
wenzelm@18672
  1282
fun add_cases is_proper = map_cases o fold (add_case is_proper);
wenzelm@18609
  1283
wenzelm@18609
  1284
fun case_result c ctxt =
wenzelm@18609
  1285
  let
wenzelm@18609
  1286
    val RuleCases.Case {fixes, ...} = c;
wenzelm@18672
  1287
    val (ts, ctxt') = ctxt |> fold_map fix fixes;
wenzelm@18672
  1288
    val RuleCases.Case {assumes, binds, cases, ...} = RuleCases.apply ts c;
wenzelm@18609
  1289
  in
wenzelm@18609
  1290
    ctxt'
wenzelm@18699
  1291
    |> add_binds_i (map drop_schematic binds)
wenzelm@18609
  1292
    |> add_cases true (map (apsnd SOME) cases)
wenzelm@18609
  1293
    |> pair (assumes, (binds, cases))
wenzelm@18609
  1294
  end;
wenzelm@18609
  1295
wenzelm@18609
  1296
val apply_case = apfst fst oo case_result;
wenzelm@18609
  1297
wenzelm@16540
  1298
fun get_case ctxt name xs =
wenzelm@17184
  1299
  (case AList.lookup (op =) (cases_of ctxt) name of
wenzelm@18678
  1300
    NONE => error ("Unknown case: " ^ quote name)
wenzelm@18678
  1301
  | SOME (c, _) => prep_case name xs c);
wenzelm@8373
  1302
wenzelm@16147
  1303
end;
wenzelm@8373
  1304
wenzelm@8373
  1305
wenzelm@8373
  1306
wenzelm@10810
  1307
(** print context information **)
wenzelm@10810
  1308
wenzelm@10810
  1309
val verbose = ref false;
wenzelm@10810
  1310
fun verb f x = if ! verbose then f (x ()) else [];
wenzelm@10810
  1311
wenzelm@10810
  1312
fun setmp_verbose f x = Library.setmp verbose true f x;
wenzelm@10810
  1313
wenzelm@10810
  1314
fun pretty_items prt name items =
wenzelm@10810
  1315
  let
wenzelm@10810
  1316
    fun prt_itms (name, [x]) = Pretty.block [Pretty.str (name ^ ":"), Pretty.brk 1, prt x]
wenzelm@10810
  1317
      | prt_itms (name, xs) = Pretty.big_list (name ^ ":") (map prt xs);
wenzelm@10810
  1318
  in
wenzelm@10810
  1319
    if null items andalso not (! verbose) then []
wenzelm@10810
  1320
    else [Pretty.big_list name (map prt_itms items)]
wenzelm@10810
  1321
  end;
wenzelm@10810
  1322
wenzelm@10810
  1323
wenzelm@12072
  1324
(* local syntax *)
wenzelm@12072
  1325
wenzelm@12093
  1326
val print_syntax = Syntax.print_syntax o syn_of;
wenzelm@12072
  1327
wenzelm@12072
  1328
wenzelm@18971
  1329
(* local consts *)
wenzelm@18971
  1330
wenzelm@18971
  1331
fun pretty_consts ctxt =
wenzelm@18971
  1332
  let
wenzelm@18971
  1333
    val (space, consts) = #constants (Consts.dest (consts_of ctxt));
wenzelm@18971
  1334
    val globals = #2 (#constants (Consts.dest (Sign.consts_of (theory_of ctxt))));
wenzelm@18971
  1335
    fun local_abbrev (_, (_, NONE)) = I
wenzelm@18971
  1336
      | local_abbrev (c, (T, SOME t)) =
wenzelm@18971
  1337
          if Symtab.defined globals c then I else cons (c, Logic.mk_equals (Const (c, T), t));
wenzelm@18971
  1338
    val abbrevs = NameSpace.extern_table (space, Symtab.make (Symtab.fold local_abbrev consts []));
wenzelm@18971
  1339
  in
wenzelm@18971
  1340
    if null abbrevs andalso not (! verbose) then []
wenzelm@19001
  1341
    else [Pretty.big_list "abbreviations:" (map (pretty_term' false ctxt o #2) abbrevs)]
wenzelm@18971
  1342
  end;
wenzelm@18971
  1343
wenzelm@18971
  1344
wenzelm@10810
  1345
(* term bindings *)
wenzelm@10810
  1346
wenzelm@16540
  1347
fun pretty_binds ctxt =
wenzelm@10810
  1348
  let
wenzelm@16540
  1349
    val binds = binds_of ctxt;
wenzelm@19001
  1350
    fun prt_bind (xi, (T, t)) = pretty_term' false ctxt (Logic.mk_equals (Var (xi, T), t));
wenzelm@10810
  1351
  in
wenzelm@15758
  1352
    if Vartab.is_empty binds andalso not (! verbose) then []
wenzelm@15758
  1353
    else [Pretty.big_list "term bindings:" (map prt_bind (Vartab.dest binds))]
wenzelm@10810
  1354
  end;
wenzelm@10810
  1355
wenzelm@10810
  1356
val print_binds = Pretty.writeln o Pretty.chunks o pretty_binds;
wenzelm@10810
  1357
wenzelm@10810
  1358
wenzelm@10810
  1359
(* local theorems *)
wenzelm@10810
  1360
wenzelm@16540
  1361
fun pretty_lthms ctxt =
wenzelm@19001
  1362
  pretty_items (pretty_thm ctxt) "facts:" (NameSpace.extern_table (#1 (thms_of ctxt)));
wenzelm@10810
  1363
wenzelm@12057
  1364
val print_lthms = Pretty.writeln o Pretty.chunks o pretty_lthms;
wenzelm@10810
  1365
wenzelm@10810
  1366
wenzelm@10810
  1367
(* local contexts *)
wenzelm@10810
  1368
wenzelm@16540
  1369
fun pretty_cases ctxt =
wenzelm@10810
  1370
  let
wenzelm@12057
  1371
    val prt_term = pretty_term ctxt;
wenzelm@12057
  1372
wenzelm@10810
  1373
    fun prt_let (xi, t) = Pretty.block
wenzelm@10818
  1374
      [Pretty.quote (prt_term (Var (xi, Term.fastype_of t))), Pretty.str " =", Pretty.brk 1,
wenzelm@10810
  1375
        Pretty.quote (prt_term t)];
wenzelm@10810
  1376
wenzelm@13425
  1377
    fun prt_asm (a, ts) = Pretty.block (Pretty.breaks
wenzelm@13425
  1378
      ((if a = "" then [] else [Pretty.str (a ^ ":")]) @ map (Pretty.quote o prt_term) ts));
wenzelm@13425
  1379
wenzelm@10810
  1380
    fun prt_sect _ _ _ [] = []
wenzelm@10810
  1381
      | prt_sect s sep prt xs = [Pretty.block (Pretty.breaks (Pretty.str s ::
skalberg@15570
  1382
            List.concat (Library.separate sep (map (Library.single o prt) xs))))];
wenzelm@10810
  1383
wenzelm@18609
  1384
    fun prt_case (name, (fixes, (asms, (lets, cs)))) = Pretty.block (Pretty.fbreaks
wenzelm@10810
  1385
      (Pretty.str (name ^ ":") ::
wenzelm@11915
  1386
        prt_sect "fix" [] (Pretty.str o fst) fixes @
wenzelm@10810
  1387
        prt_sect "let" [Pretty.str "and"] prt_let
skalberg@15570
  1388
          (List.mapPartial (fn (xi, SOME t) => SOME (xi, t) | _ => NONE) lets) @
wenzelm@13425
  1389
        (if forall (null o #2) asms then []
wenzelm@18609
  1390
          else prt_sect "assume" [Pretty.str "and"] prt_asm asms) @
wenzelm@18609
  1391
        prt_sect "subcases:" [] (Pretty.str o fst) cs));
wenzelm@16540
  1392
wenzelm@18476
  1393
    fun add_case (_, (_, false)) = I
wenzelm@18609
  1394
      | add_case (name, (c as RuleCases.Case {fixes, ...}, true)) =
wenzelm@18609
  1395
          cons (name, (fixes, #1 (case_result c ctxt)));
wenzelm@18476
  1396
    val cases = fold add_case (cases_of ctxt) [];
wenzelm@10810
  1397
  in
wenzelm@10810
  1398
    if null cases andalso not (! verbose) then []
wenzelm@18476
  1399
    else [Pretty.big_list "cases:" (map prt_case cases)]
wenzelm@10810
  1400
  end;
wenzelm@10810
  1401
wenzelm@10810
  1402
val print_cases = Pretty.writeln o Pretty.chunks o pretty_cases;
wenzelm@10810
  1403
wenzelm@10810
  1404
wenzelm@12057
  1405
(* core context *)
wenzelm@10810
  1406
wenzelm@10810
  1407
val prems_limit = ref 10;
wenzelm@10810
  1408
wenzelm@18672
  1409
fun pretty_ctxt ctxt =
wenzelm@10810
  1410
  let
wenzelm@12057
  1411
    val prt_term = pretty_term ctxt;
wenzelm@12057
  1412
wenzelm@12093
  1413
    (*structures*)
wenzelm@19001
  1414
    val structs = LocalSyntax.structs_of (syntax_of ctxt);
wenzelm@12093
  1415
    val prt_structs = if null structs then []
wenzelm@12093
  1416
      else [Pretty.block (Pretty.str "structures:" :: Pretty.brk 1 ::
wenzelm@12093
  1417
        Pretty.commas (map Pretty.str structs))];
wenzelm@12093
  1418
wenzelm@12057
  1419
    (*fixes*)
wenzelm@12057
  1420
    fun prt_fix (x, x') =
wenzelm@12057
  1421
      if x = x' then Pretty.str x
wenzelm@12057
  1422
      else Pretty.block [Pretty.str x, Pretty.str " =", Pretty.brk 1, prt_term (Syntax.free x')];
wenzelm@18340
  1423
    val fixes =
wenzelm@18340
  1424
      rev (filter_out ((can Syntax.dest_internal orf member (op =) structs) o #1) (fixes_of ctxt));
wenzelm@12093
  1425
    val prt_fixes = if null fixes then []
wenzelm@12093
  1426
      else [Pretty.block (Pretty.str "fixed variables:" :: Pretty.brk 1 ::
wenzelm@12093
  1427
        Pretty.commas (map prt_fix fixes))];
wenzelm@12057
  1428
wenzelm@12057
  1429
    (*prems*)
wenzelm@10810
  1430
    val limit = ! prems_limit;
wenzelm@10810
  1431
    val prems = prems_of ctxt;
wenzelm@10810
  1432
    val len = length prems;
wenzelm@12093
  1433
    val prt_prems = if null prems then []
wenzelm@12093
  1434
      else [Pretty.big_list "prems:" ((if len <= limit then [] else [Pretty.str "..."]) @
wenzelm@12093
  1435
        map (pretty_thm ctxt) (Library.drop (len - limit, prems)))];
wenzelm@12093
  1436
wenzelm@12093
  1437
  in prt_structs @ prt_fixes @ prt_prems end;
wenzelm@10810
  1438
wenzelm@10810
  1439
wenzelm@10810
  1440
(* main context *)
wenzelm@10810
  1441
wenzelm@16540
  1442
fun pretty_context ctxt =
wenzelm@10810
  1443
  let
wenzelm@12057
  1444
    val prt_term = pretty_term ctxt;
wenzelm@12057
  1445
    val prt_typ = pretty_typ ctxt;
wenzelm@12057
  1446
    val prt_sort = pretty_sort ctxt;
wenzelm@10810
  1447
wenzelm@10810
  1448
    (*theory*)
wenzelm@12057
  1449
    val pretty_thy = Pretty.block
wenzelm@17384
  1450
      [Pretty.str "theory:", Pretty.brk 1, Context.pretty_thy (theory_of ctxt)];
wenzelm@10810
  1451
wenzelm@10810
  1452
    (*defaults*)
wenzelm@10810
  1453
    fun prt_atom prt prtT (x, X) = Pretty.block
wenzelm@10810
  1454
      [prt x, Pretty.str " ::", Pretty.brk 1, prtT X];
wenzelm@10810
  1455
wenzelm@10810
  1456
    fun prt_var (x, ~1) = prt_term (Syntax.free x)
wenzelm@10810
  1457
      | prt_var xi = prt_term (Syntax.var xi);
wenzelm@10810
  1458
wenzelm@10810
  1459
    fun prt_varT (x, ~1) = prt_typ (TFree (x, []))
wenzelm@10810
  1460
      | prt_varT xi = prt_typ (TVar (xi, []));
wenzelm@10810
  1461
wenzelm@10810
  1462
    val prt_defT = prt_atom prt_var prt_typ;
wenzelm@10810
  1463
    val prt_defS = prt_atom prt_varT prt_sort;
wenzelm@16540
  1464
wenzelm@16540
  1465
    val (types, sorts, used, _) = defaults_of ctxt;
wenzelm@10810
  1466
  in
wenzelm@18609
  1467
    verb single (K pretty_thy) @
wenzelm@18672
  1468
    pretty_ctxt ctxt @
wenzelm@18971
  1469
    verb pretty_consts (K ctxt) @
wenzelm@10810
  1470
    verb pretty_binds (K ctxt) @
wenzelm@12057
  1471
    verb pretty_lthms (K ctxt) @
wenzelm@10810
  1472
    verb pretty_cases (K ctxt) @
wenzelm@18609
  1473
    verb single (fn () => Pretty.big_list "type constraints:" (map prt_defT (Vartab.dest types))) @
wenzelm@18609
  1474
    verb single (fn () => Pretty.big_list "default sorts:" (map prt_defS (Vartab.dest sorts))) @
wenzelm@18809
  1475
    verb single (fn () => Pretty.strs ("used type variable names:" :: rev used))
wenzelm@10810
  1476
  end;
wenzelm@10810
  1477
wenzelm@18809
  1478
wenzelm@18809
  1479
(* toplevel pretty printing *)
wenzelm@18809
  1480
wenzelm@18809
  1481
val debug = ref false;
wenzelm@18809
  1482
wenzelm@18809
  1483
fun pprint_context ctxt = Pretty.pprint
wenzelm@18809
  1484
 (if ! debug then Pretty.quote (Pretty.big_list "proof context:" (pretty_context ctxt))
wenzelm@18809
  1485
  else Pretty.str "<context>");
wenzelm@18809
  1486
wenzelm@5819
  1487
end;