(* Title: Pure/Isar/isar_cmd.ML
ID: $Id$
Author: Markus Wenzel, TU Muenchen
Non-logical toplevel commands.
*)
signature ISAR_CMD =
sig
val break: Toplevel.transition -> Toplevel.transition
val exit: Toplevel.transition -> Toplevel.transition
val restart: Toplevel.transition -> Toplevel.transition
val quit: Toplevel.transition -> Toplevel.transition
val use: string -> Toplevel.transition -> Toplevel.transition
val use_mltext_theory: string -> Toplevel.transition -> Toplevel.transition
val use_mltext: string -> Toplevel.transition -> Toplevel.transition
val use_commit: Toplevel.transition -> Toplevel.transition
val cd: string -> Toplevel.transition -> Toplevel.transition
val pwd: Toplevel.transition -> Toplevel.transition
val use_thy: string -> Toplevel.transition -> Toplevel.transition
val update_thy: string -> Toplevel.transition -> Toplevel.transition
val print_theory: Toplevel.transition -> Toplevel.transition
val print_syntax: Toplevel.transition -> Toplevel.transition
val print_theorems: Toplevel.transition -> Toplevel.transition
val print_attributes: Toplevel.transition -> Toplevel.transition
val print_methods: Toplevel.transition -> Toplevel.transition
val print_binds: Toplevel.transition -> Toplevel.transition
val print_lthms: Toplevel.transition -> Toplevel.transition
val print_thms: xstring * Args.src list -> Toplevel.transition -> Toplevel.transition
val print_prop: string -> Toplevel.transition -> Toplevel.transition
val print_term: string -> Toplevel.transition -> Toplevel.transition
val print_type: string -> Toplevel.transition -> Toplevel.transition
end;
structure IsarCmd: ISAR_CMD =
struct
(* variations on exit *)
val break = Toplevel.keep (fn state => raise Toplevel.BREAK state);
val exit = Toplevel.keep (fn state =>
(Context.set_context (try Toplevel.theory_of state);
writeln "Leaving the Isar loop. Invoke 'main_loop();' to restart.";
raise Toplevel.TERMINATE));
val restart = Toplevel.imperative (fn () => raise Toplevel.RESTART);
val quit = Toplevel.imperative quit;
(* use ML text *)
fun use name = Toplevel.imperative (fn () => ThyInfo.use name);
(*passes changes of theory context*)
val use_mltext_theory = Toplevel.theory o IsarThy.use_mltext_theory;
(*ignore result theory context*)
fun use_mltext txt = Toplevel.keep (fn state =>
(IsarThy.use_mltext txt (try Toplevel.theory_of state); ()));
(*Note: commit is dynamically bound*)
val use_commit = use_mltext "commit();";
(* current working directory *)
fun print_cd _ = writeln (Path.pack (File.pwd ()));
fun cd dir = Toplevel.imperative (fn () => (File.cd (Path.unpack dir); print_cd ()));
val pwd = Toplevel.imperative print_cd;
(* load theory files *)
fun use_thy name = Toplevel.imperative (fn () => Context.save ThyInfo.use_thy name);
fun update_thy name = Toplevel.imperative (fn () => Context.save ThyInfo.update_thy name);
(* print theory contents *)
val print_theory = Toplevel.keep (PureThy.print_theory o Toplevel.theory_of);
val print_syntax = Toplevel.keep (Display.print_syntax o Toplevel.theory_of);
val print_theorems = Toplevel.keep (PureThy.print_theorems o Toplevel.theory_of);
val print_attributes = Toplevel.keep (Attrib.print_attributes o Toplevel.theory_of);
val print_methods = Toplevel.keep (Method.print_methods o Toplevel.theory_of);
(* print proof context contents *)
val print_binds = Toplevel.keep (ProofContext.print_binds o Proof.context_of o Toplevel.proof_of);
val print_lthms = Toplevel.keep (ProofContext.print_thms o Proof.context_of o Toplevel.proof_of);
(* print theorems *)
fun global_attribs thy ths srcs =
#2 (Thm.applys_attributes ((Theory.copy thy, ths), map (Attrib.global_attribute thy) srcs));
fun local_attribs st ths srcs =
#2 (Thm.applys_attributes ((Proof.context_of st, ths),
map (Attrib.local_attribute (Proof.theory_of st)) srcs));
fun print_thms (name, srcs) = Toplevel.keep (fn state =>
let
val ths = map (Thm.transfer (Toplevel.theory_of state))
(Toplevel.node_cases PureThy.get_thms (ProofContext.get_thms o Proof.context_of)
state name);
val ths' = Toplevel.node_cases global_attribs local_attribs state ths srcs;
in Display.print_thms ths' end);
(* print types, terms and props *)
fun read_typ thy = Sign.read_typ (Theory.sign_of thy, K None);
fun read_term T thy s =
Thm.term_of (#1 (Thm.read_def_cterm (Theory.sign_of thy, K None, K None) [] true (s, T)));
fun print_type s = Toplevel.keep (fn state =>
let
val sign = Toplevel.sign_of state;
val T = Toplevel.node_cases read_typ (ProofContext.read_typ o Proof.context_of) state s;
in Pretty.writeln (Pretty.quote (Sign.pretty_typ sign T)) end);
fun print_term s = Toplevel.keep (fn state =>
let
val sign = Toplevel.sign_of state;
val t = Toplevel.node_cases (read_term (TVar (("'z", 0), logicS)))
(ProofContext.read_term o Proof.context_of) state s;
val T = Term.type_of t;
in
Pretty.writeln (Pretty.block [Pretty.quote (Sign.pretty_term sign t), Pretty.fbrk,
Pretty.str "::", Pretty.brk 1, Pretty.quote (Sign.pretty_typ sign T)])
end);
fun print_prop s = Toplevel.keep (fn state =>
let
val sign = Toplevel.sign_of state;
val prop =
Toplevel.node_cases (read_term propT) (ProofContext.read_prop o Proof.context_of) state s;
in Pretty.writeln (Pretty.quote (Sign.pretty_term sign prop)) end);
end;