added Philipp Meyer's implementation of AtpMinimal
together with related changes in the sledgehammer-interface:
adapted type of prover, optional relevance filtering,
public get_prover for registered atps in AtpManager,
included atp_minimize in s/h response;
(* Title: HOL/Tools/atp_minimal.ML
Author: Philipp Meyer, TU Muenchen
Minimalization of theorem list for metis by using an external automated theorem prover
*)
structure AtpMinimal =
struct
(* output control *)
fun debug str = Output.debug (fn () => str)
fun debug_fn f = if !Output.debugging then f() else ()
fun answer str = Output.writeln str
fun println str = Output.priority str
fun order_unique name_list = OrdList.make (String.collate Char.compare) name_list
fun length_string namelist = Int.toString (length namelist)
fun print_names name_thms_pairs =
let
val names = (map fst name_thms_pairs)
val ordered = order_unique names
in
app (fn name => (debug (" " ^ name))) ordered
end
(* minimalization algorithm *)
local
fun isplit (l,r) [] = (l,r)
| isplit (l,r) (h::[]) = (h::l, r)
| isplit (l,r) (h1::h2::t) = isplit (h1::l, h2::r) t
in
fun split lst = isplit ([],[]) lst
end
local
fun min p sup [] = raise Empty
| min p sup [s0] = [s0]
| min p sup s =
let
val (l0, r0) = split s
in
if p(sup @ l0)
then min p sup l0
else
if p(sup @ r0)
then min p sup r0
else
let
val l = min p (sup @ r0) l0
val r = min p (sup @ l) r0
in
l @ r
end
end
in
(* return a minimal subset v of s that satisfies p
@pre p(s) & ~p([]) & monotone(p)
@post v subset s & p(v) &
forall e in v. ~p(v \ e)
*)
fun minimal p s = min p [] s
end
(* failure check and producing answer*)
datatype 'a prove_result = Success of 'a | Failure | Timeout | Error
val string_of_result = fn
Success _ => "Success"
| Failure => "Failure"
| Timeout => "Timeout"
| Error => "Error"
val failure_strings =
[("SPASS beiseite: Ran out of time.", Timeout),
("Timeout", Timeout),
("time limit exceeded", Timeout),
("# Cannot determine problem status within resource limit", Timeout),
("Error", Error)]
fun produce_answer (success, message, result_string, thm_name_vec) =
if success then
(Success (Vector.foldr op:: [] thm_name_vec), result_string)
else
let
val failure = get_first (fn (s, t) => if String.isSubstring s result_string then SOME (t, result_string) else NONE) failure_strings
in
if is_some failure then
the failure
else
(Failure, result_string)
end
(* wrapper for calling external prover *)
fun sh_test_thms prover prover_name time_limit subgoalno state name_thms_pairs =
let
val _ = println ("Testing " ^ (length_string name_thms_pairs) ^ " theorems... ")
val name_thm_pairs = flat (map (fn (n, ths) => map_index (fn (i, th) => (n, th)) ths) name_thms_pairs)
val _ = debug_fn (fn () => print_names name_thm_pairs)
val axclauses = ResAxioms.cnf_rules_pairs (Proof.theory_of state) name_thm_pairs
val (result, proof) =
(produce_answer (prover time_limit (SOME axclauses) prover_name subgoalno (Proof.get_goal state)))
val _ = println (string_of_result result)
val _ = debug proof
in
(result, proof)
end
(* minimalization of thms *)
fun minimalize prover prover_name time_limit state name_thms_pairs =
let
val _ = println ("Minimize called with " ^ (length_string name_thms_pairs) ^ " theorems, prover: "
^ prover_name ^ ", time limit: " ^ (Int.toString time_limit) ^ " seconds")
val _ = debug_fn (fn () => app (fn (n, tl) => (debug n; app (fn t => debug (" " ^ Display.string_of_thm t)) tl)) name_thms_pairs)
val test_thms_fun = sh_test_thms prover prover_name time_limit 1 state
fun test_thms thms = case test_thms_fun thms of (Success _, _) => true | _ => false
in
(* try proove first to check result and get used theorems *)
(case test_thms_fun name_thms_pairs of
(Success used, _) =>
let
val ordered_used = order_unique used
val to_use =
if length ordered_used < length name_thms_pairs then
filter (fn (name1, _) => List.exists (equal name1) ordered_used) name_thms_pairs
else
name_thms_pairs
val min_thms = (minimal test_thms to_use)
val min_names = order_unique (map fst min_thms)
val _ = println ("Minimal " ^ (length_string min_thms) ^ " theorems")
val _ = debug_fn (fn () => print_names min_thms)
in
answer ("Try this command: " ^ Markup.markup Markup.sendback ("apply (metis " ^ (space_implode " " min_names) ^ ")"))
end
| (Timeout, _) =>
answer ("Timeout: You may need to increase the time limit of " ^ (Int.toString time_limit) ^ " seconds. Call atp_minimize [time=...] ")
| (Error, msg) =>
answer ("Error in prover: " ^ msg)
| (Failure, _) =>
answer "Failure: No proof with the theorems supplied")
handle ResHolClause.TOO_TRIVIAL =>
answer ("Trivial: Try this command: " ^ Markup.markup Markup.sendback "apply metis")
| ERROR msg =>
answer ("Error: " ^ msg)
end
(* isar command and parsing input *)
local structure K = OuterKeyword and P = OuterParse and T = OuterLex in
fun get_thms context =
map (fn (name, interval) =>
let
val thmref = Facts.Named ((name, Position.none), interval)
val ths = ProofContext.get_fact context thmref
val name' = Facts.string_of_ref thmref
in
(name', ths)
end)
val default_prover = "remote_vampire"
val default_time_limit = 5
fun get_time_limit_arg time_string =
(case Int.fromString time_string of
SOME t => t
| NONE => error ("Invalid time limit: " ^ quote time_string))
val get_options =
let
val def = (default_prover, default_time_limit)
in
foldl (fn ((name, a), (p, t)) => (case name of
"time" => (p, (get_time_limit_arg a))
| "atp" => (a, t)
| n => error ("Invalid argument: " ^ n))) def
end
fun sh_min_command args thm_names state =
let
val (prover_name, time_limit) = get_options args
val prover =
case AtpManager.get_prover prover_name (Proof.theory_of state) of
SOME prover => prover
| NONE => error ("Unknown prover: " ^ quote prover_name)
val name_thms_pairs = get_thms (Proof.context_of state) thm_names
in
minimalize prover prover_name time_limit state name_thms_pairs
end
val parse_args = Scan.optional (Args.bracks (P.list (P.xname --| P.$$$ "=" -- P.xname) )) []
val parse_thm_names = Scan.repeat (P.xname -- Scan.option Attrib.thm_sel)
val _ =
OuterSyntax.command "atp_minimize" "minimize theorem list with external prover" K.diag
(parse_args -- parse_thm_names >> (fn (args, thm_names) =>
Toplevel.no_timing o Toplevel.unknown_proof o Toplevel.keep ((sh_min_command args thm_names) o Toplevel.proof_of)))
end
end