(* Title: Pure/Isar/isar_thy.ML
ID: $Id$
Author: Markus Wenzel, TU Muenchen
Derived theory operations.
TODO:
- pure_thy.ML: add_constdefs (atomic!);
- 'methods' section (proof macros, ML method defs) (!?);
- next_block: ProofHistory open / close (!?);
*)
signature ISAR_THY =
sig
val add_text: string -> theory -> theory
val add_chapter: string -> theory -> theory
val add_section: string -> theory -> theory
val add_subsection: string -> theory -> theory
val add_subsubsection: string -> theory -> theory
val add_axioms: ((bstring * string) * Args.src list) list -> theory -> theory
val add_defs: ((bstring * string) * Args.src list) list -> theory -> theory
val have_theorems: (bstring * Args.src list) * (xstring * Args.src list) list
-> theory -> theory
val have_lemmas: (bstring * Args.src list) * (xstring * Args.src list) list
-> theory -> theory
val have_facts: (string * Args.src list) * (string * Args.src list) list
-> ProofHistory.T -> ProofHistory.T
val fix: (string * string option) list -> ProofHistory.T -> ProofHistory.T
val match_bind: (string list * string) list -> ProofHistory.T -> ProofHistory.T
val theorem: string -> Args.src list -> string * string list -> theory -> ProofHistory.T
val lemma: string -> Args.src list -> string * string list -> theory -> ProofHistory.T
val assume: string -> Args.src list -> (string * string list) list
-> ProofHistory.T -> ProofHistory.T
val show: string -> Args.src list -> string * string list -> ProofHistory.T -> ProofHistory.T
val have: string -> Args.src list -> string * string list -> ProofHistory.T -> ProofHistory.T
val chain: ProofHistory.T -> ProofHistory.T
val from_facts: (string * Args.src list) list -> ProofHistory.T -> ProofHistory.T
val begin_block: ProofHistory.T -> ProofHistory.T
val next_block: ProofHistory.T -> ProofHistory.T
val end_block: ProofHistory.T -> ProofHistory.T
val qed_with: bstring option * Args.src list option -> ProofHistory.T -> theory
val qed: ProofHistory.T -> theory
val kill_proof: ProofHistory.T -> theory
val tac: Method.text -> ProofHistory.T -> ProofHistory.T
val then_tac: Method.text -> ProofHistory.T -> ProofHistory.T
val proof: Method.text option -> ProofHistory.T -> ProofHistory.T
val terminal_proof: Method.text -> ProofHistory.T -> ProofHistory.T
val immediate_proof: ProofHistory.T -> ProofHistory.T
val default_proof: ProofHistory.T -> ProofHistory.T
val use_mltext: string -> theory option -> theory option
val use_mltext_theory: string -> theory -> theory
val use_setup: string -> theory -> theory
val parse_ast_translation: string -> theory -> theory
val parse_translation: string -> theory -> theory
val print_translation: string -> theory -> theory
val typed_print_translation: string -> theory -> theory
val print_ast_translation: string -> theory -> theory
val token_translation: string -> theory -> theory
val add_oracle: bstring * string -> theory -> theory
val theory: string * string list * (string * bool) list
-> Toplevel.transition -> Toplevel.transition
val context: string -> Toplevel.transition -> Toplevel.transition
val update_context: string -> Toplevel.transition -> Toplevel.transition
end;
structure IsarThy: ISAR_THY =
struct
(** derived theory and proof operations **)
(* formal comments *) (* FIXME dummy *)
fun add_text (txt:string) (thy:theory) = thy;
val add_chapter = add_text;
val add_section = add_text;
val add_subsection = add_text;
val add_subsubsection = add_text;
(* axioms and defs *)
fun add_axms f args thy =
f (map (fn (x, srcs) => (x, map (Attrib.global_attribute thy) srcs)) args) thy;
val add_axioms = add_axms PureThy.add_axioms;
val add_defs = add_axms PureThy.add_defs;
(* theorems *)
fun gen_have_thmss get attrib f ((name, more_srcs), th_srcs) x =
f name (map (attrib x) more_srcs)
(map (fn (s, srcs) => (get x s, map (attrib x) srcs)) th_srcs) x;
val have_theorems =
#1 oo gen_have_thmss PureThy.get_thms Attrib.global_attribute PureThy.have_thmss;
val have_lemmas =
#1 oo gen_have_thmss PureThy.get_thms Attrib.global_attribute
(fn name => fn more_atts => PureThy.have_thmss name (more_atts @ [Drule.tag_lemma]));
val have_thmss =
gen_have_thmss (ProofContext.get_thms o Proof.context_of)
(Attrib.local_attribute o Proof.theory_of) Proof.have_thmss;
val have_facts = ProofHistory.apply o have_thmss;
val from_facts = ProofHistory.apply o (Proof.chain oo curry have_thmss ("", []));
(* context *)
val fix = ProofHistory.apply o Proof.fix;
val match_bind = ProofHistory.apply o Proof.match_bind;
(* statements *)
fun global_statement f name tags s thy =
ProofHistory.init (f name (map (Attrib.global_attribute thy) tags) s thy);
fun local_statement f name tags s = ProofHistory.apply_open (fn state =>
f name (map (Attrib.local_attribute (Proof.theory_of state)) tags) s state);
val theorem = global_statement Proof.theorem;
val lemma = global_statement Proof.lemma;
val assume = local_statement Proof.assume;
val show = local_statement Proof.show;
val have = local_statement Proof.have;
(* forward chaining *)
val chain = ProofHistory.apply Proof.chain;
(* end proof *)
fun qed_with (alt_name, alt_tags) prf =
let
val state = ProofHistory.current prf;
val thy = Proof.theory_of state;
val alt_atts = apsome (map (Attrib.global_attribute thy)) alt_tags;
val (thy', (kind, name, thm)) = Method.qed alt_name alt_atts state;
val prt_result = Pretty.block
[Pretty.str (kind ^ " " ^ name ^ ":"), Pretty.fbrk, Display.pretty_thm thm];
in Pretty.writeln prt_result; thy end;
val qed = qed_with (None, None);
val kill_proof = Proof.theory_of o ProofHistory.current;
(* blocks *)
val begin_block = ProofHistory.apply_open Proof.begin_block;
val next_block = ProofHistory.apply Proof.next_block;
(* backward steps *)
val tac = ProofHistory.applys o Method.tac;
val then_tac = ProofHistory.applys o Method.then_tac;
val proof = ProofHistory.applys o Method.proof;
val end_block = ProofHistory.applys_close Method.end_block;
val terminal_proof = ProofHistory.applys_close o Method.terminal_proof;
val immediate_proof = ProofHistory.applys_close Method.immediate_proof;
val default_proof = ProofHistory.applys_close Method.default_proof;
(* use ML text *)
fun use_mltext txt opt_thy = #2 (Context.fetch opt_thy (use_text false) txt);
fun use_mltext_theory txt thy = #2 (Context.fetch_theory thy (use_text false) txt);
fun use_context txt = use_mltext_theory ("Context.>> (" ^ txt ^ ");");
fun use_let name body txt =
use_context ("let val " ^ name ^ " = " ^ txt ^ " in\n" ^ body ^ " end");
val use_setup =
use_let "setup: (theory -> theory) list" "Library.apply setup";
(* translation functions *)
val parse_ast_translation =
use_let "parse_ast_translation: (string * (Syntax.ast list -> Syntax.ast)) list"
"Theory.add_trfuns (parse_ast_translation, [], [], [])";
val parse_translation =
use_let "parse_translation: (string * (term list -> term)) list"
"Theory.add_trfuns ([], parse_translation, [], [])";
val print_translation =
use_let "print_translation: (string * (term list -> term)) list"
"Theory.add_trfuns ([], [], print_translation, [])";
val print_ast_translation =
use_let "print_ast_translation: (string * (Syntax.ast list -> Syntax.ast)) list"
"Theory.add_trfuns ([], [], [], print_ast_translation)";
val typed_print_translation =
use_let "typed_print_translation: (string * (bool -> typ -> term list -> term)) list"
"Theory.add_trfunsT typed_print_translation";
val token_translation =
use_let "token_translation: (string * string * (string -> string * int)) list"
"Theory.add_tokentrfuns token_translation";
(* add_oracle *)
fun add_oracle (name, txt) =
use_let
"oracle: bstring * (Sign.sg * Object.T -> term)"
"Theory.add_oracle oracle"
("(" ^ quote name ^ ", " ^ txt ^ ")");
(* theory init and exit *)
fun begin_theory (name, parents, files) () =
let
val thy = ThyInfo.begin_theory name parents;
val names = mapfilter (fn (x, true) => Some x | _ => None) files;
in Context.setmp (Some thy) (seq ThyInfo.use) names; thy end;
fun end_theory thy =
let val thy' = PureThy.end_theory thy in
transform_error ThyInfo.put_theory thy'
handle exn => raise PureThy.ROLLBACK (thy', Some exn) (* FIXME !!?? *)
end;
fun theory spec = Toplevel.init_theory (begin_theory spec) end_theory;
(* context switch *)
fun switch_theory load name =
Toplevel.init_theory
(fn () => (Context.save load name; ThyInfo.get_theory name)) (K ());
val context = switch_theory ThyInfo.use_thy;
val update_context = switch_theory ThyInfo.update_thy;
end;