made theorem extraction code not delve too far when looking at local fact, by relying on 'strip_thm' instead of (wrongly) reverse-engineering proof terms
(* Title: HOL/Tools/Sledgehammer/sledgehammer_util.ML
Author: Jasmin Blanchette, TU Muenchen
General-purpose functions used by the Sledgehammer modules.
*)
signature SLEDGEHAMMER_UTIL =
sig
val sledgehammerN : string
val log2 : real -> real
val app_hd : ('a -> 'a) -> 'a list -> 'a list
val plural_s : int -> string
val serial_commas : string -> string list -> string list
val simplify_spaces : string -> string
val with_cleanup : ('a -> unit) -> ('a -> 'b) -> 'a -> 'b
val infinite_timeout : Time.time
val time_mult : real -> Time.time -> Time.time
val parse_bool_option : bool -> string -> string -> bool option
val parse_time_option : string -> string -> Time.time option
val subgoal_count : Proof.state -> int
val reserved_isar_keyword_table : unit -> unit Symtab.table
val thms_in_proof :
(string Symtab.table * string Symtab.table) option -> thm -> string list
val thms_of_name : Proof.context -> string -> thm list
val one_day : Time.time
val one_year : Time.time
val time_limit : Time.time option -> ('a -> 'b) -> 'a -> 'b
val with_vanilla_print_mode : ('a -> 'b) -> 'a -> 'b
val hackish_string_of_term : Proof.context -> term -> string
val spying : bool -> (unit -> Proof.state * int * string * string) -> unit
(** extrema **)
val max : ('a * 'a -> order) -> 'a -> 'a -> 'a
val max_option : ('a * 'a -> order) -> 'a option -> 'a option -> 'a option
val max_list : ('a * 'a -> order) -> 'a list -> 'a option
end;
structure Sledgehammer_Util : SLEDGEHAMMER_UTIL =
struct
open ATP_Util
val sledgehammerN = "sledgehammer"
val log10_2 = Math.log10 2.0
fun log2 n = Math.log10 n / log10_2
fun app_hd f (x :: xs) = f x :: xs
fun plural_s n = if n = 1 then "" else "s"
val serial_commas = Try.serial_commas
val simplify_spaces = strip_spaces false (K true)
fun with_cleanup clean_up f x =
Exn.capture f x
|> tap (fn _ => clean_up x)
|> Exn.release
val infinite_timeout = seconds 31536000.0 (* one year *)
fun time_mult k t =
Time.fromMilliseconds (Real.ceil (k * Real.fromInt (Time.toMilliseconds t)))
fun parse_bool_option option name s =
(case s of
"smart" => if option then NONE else raise Option.Option
| "false" => SOME false
| "true" => SOME true
| "" => SOME true
| _ => raise Option.Option)
handle Option.Option =>
let val ss = map quote ((option ? cons "smart") ["true", "false"]) in
error ("Parameter " ^ quote name ^ " must be assigned " ^
space_implode " " (serial_commas "or" ss) ^ ".")
end
val has_junk =
exists (fn s => not (Symbol.is_digit s) andalso s <> ".") o raw_explode (* FIXME Symbol.explode (?) *)
fun parse_time_option _ "none" = NONE
| parse_time_option name s =
let val secs = if has_junk s then NONE else Real.fromString s in
if is_none secs orelse Real.< (the secs, 0.0) then
error ("Parameter " ^ quote name ^ " must be assigned a nonnegative \
\number of seconds (e.g., \"60\", \"0.5\") or \"none\".")
else
SOME (seconds (the secs))
end
val subgoal_count = Try.subgoal_count
fun reserved_isar_keyword_table () =
Keyword.dest () |-> union (op =) |> map (rpair ()) |> Symtab.make
(* FIXME: Similar yet different code in "mirabelle.ML". The code here has a few
fixes that seem to be missing over there; or maybe the two code portions are
not doing the same? *)
fun fold_body_thm outer_name (map_plain_name, map_inclass_name) =
let
fun app_thm map_name (_, (name, _, body)) accum =
let
val (anonymous, enter_class) =
(* The "name = outer_name" case caters for the uncommon case where the proved theorem
occurs in its own proof (e.g., "Transitive_Closure.trancl_into_trancl"). *)
if name = "" orelse name = outer_name then (true, false)
else if map_inclass_name name = SOME outer_name then (true, true)
else (false, false)
in
if anonymous then
accum |> app_body (if enter_class then map_inclass_name else map_name) (Future.join body)
else
accum |> union (op =) (the_list (map_name name))
end
and app_body map_name (PBody {thms, ...}) = fold (app_thm map_name) thms
in app_body map_plain_name end
fun thms_in_proof name_tabs th =
let val map_names = (case name_tabs of SOME p => pairself Symtab.lookup p | NONE => `I SOME) in
fold_body_thm (Thm.get_name_hint th) map_names (Proofterm.strip_thm (Thm.proof_body_of th)) []
end
fun thms_of_name ctxt name =
let
val lex = Keyword.get_lexicons
val get = maps (Proof_Context.get_fact ctxt o fst)
in
Source.of_string name
|> Symbol.source
|> Token.source {do_recover = SOME false} lex Position.start
|> Token.source_proper
|> Source.source Token.stopper (Parse_Spec.xthms1 >> get) NONE
|> Source.exhaust
end
val one_day = seconds (24.0 * 60.0 * 60.0)
val one_year = seconds (365.0 * 24.0 * 60.0 * 60.0)
fun time_limit NONE = I
| time_limit (SOME delay) = TimeLimit.timeLimit delay
fun with_vanilla_print_mode f x =
Print_Mode.setmp (filter (curry (op =) Symbol.xsymbolsN)
(print_mode_value ())) f x
fun hackish_string_of_term ctxt =
with_vanilla_print_mode (Syntax.string_of_term ctxt) #> simplify_spaces
val spying_version = "c"
fun spying false _ = ()
| spying true f =
let
val (state, i, tool, message) = f ()
val ctxt = Proof.context_of state
val goal = Logic.get_goal (prop_of (#goal (Proof.goal state))) i
val hash = String.substring (SHA1.rep (SHA1.digest (hackish_string_of_term ctxt goal)), 0, 12)
in
File.append (Path.explode "$ISABELLE_HOME_USER/spy_sledgehammer")
(spying_version ^ " " ^ timestamp () ^ ": " ^ hash ^ ": " ^ tool ^ ": " ^ message ^ "\n")
end
(** extrema **)
fun max ord x y = case ord(x,y) of LESS => y | _ => x
fun max_option ord = max (option_ord ord)
fun max_list ord xs = fold (SOME #> max_option ord) xs NONE
end;