diff --git a/src/HOL/Tools/Sledgehammer/sledgehammer.ML b/src/HOL/Tools/Sledgehammer/sledgehammer.ML --- a/src/HOL/Tools/Sledgehammer/sledgehammer.ML +++ b/src/HOL/Tools/Sledgehammer/sledgehammer.ML @@ -1,502 +1,502 @@ (* Title: HOL/Tools/Sledgehammer/sledgehammer.ML Author: Fabian Immler, TU Muenchen Author: Makarius Author: Jasmin Blanchette, TU Muenchen Sledgehammer's heart. *) signature SLEDGEHAMMER = sig type stature = ATP_Problem_Generate.stature type fact = Sledgehammer_Fact.fact type fact_override = Sledgehammer_Fact.fact_override type proof_method = Sledgehammer_Proof_Methods.proof_method type play_outcome = Sledgehammer_Proof_Methods.play_outcome type mode = Sledgehammer_Prover.mode type params = Sledgehammer_Prover.params type induction_rules = Sledgehammer_Prover.induction_rules type prover_problem = Sledgehammer_Prover.prover_problem type prover_result = Sledgehammer_Prover.prover_result type preplay_result = proof_method * play_outcome * (string * stature) list datatype sledgehammer_outcome = SH_Some of prover_result * preplay_result list | SH_Unknown | SH_Timeout | SH_None val short_string_of_sledgehammer_outcome : sledgehammer_outcome -> string val string_of_factss : (string * fact list) list -> string val run_sledgehammer : params -> mode -> (string -> unit) option -> int -> fact_override -> Proof.state -> bool * (sledgehammer_outcome * string) end; structure Sledgehammer : SLEDGEHAMMER = struct open ATP_Util open ATP_Problem open ATP_Proof open ATP_Problem_Generate open Sledgehammer_Util open Sledgehammer_Fact open Sledgehammer_Proof_Methods open Sledgehammer_Isar_Proof open Sledgehammer_Isar_Preplay open Sledgehammer_Isar_Minimize open Sledgehammer_ATP_Systems open Sledgehammer_Prover open Sledgehammer_Prover_ATP open Sledgehammer_Prover_Minimize open Sledgehammer_MaSh type preplay_result = proof_method * play_outcome * (string * stature) list datatype sledgehammer_outcome = SH_Some of prover_result * preplay_result list | SH_Unknown | SH_Timeout | SH_None fun short_string_of_sledgehammer_outcome (SH_Some _) = "some" | short_string_of_sledgehammer_outcome SH_Unknown = "unknown" | short_string_of_sledgehammer_outcome SH_Timeout = "timeout" | short_string_of_sledgehammer_outcome SH_None = "none" fun alternative f (SOME x) (SOME y) = SOME (f (x, y)) | alternative _ (x as SOME _) NONE = x | alternative _ NONE (y as SOME _) = y | alternative _ NONE NONE = NONE fun max_outcome outcomes = let val some = find_first (fn (SH_Some _, _) => true | _ => false) outcomes val unknown = find_first (fn (SH_Unknown, _) => true | _ => false) outcomes val timeout = find_first (fn (SH_Timeout, _) => true | _ => false) outcomes val none = find_first (fn (SH_None, _) => true | _ => false) outcomes in some |> alternative snd unknown |> alternative snd timeout |> alternative snd none |> the_default (SH_Unknown, "") end fun play_one_line_proofs minimize timeout used_facts state i methss = (if timeout = Time.zeroTime then [] else let val ctxt = Proof.context_of state val used_facts = filter_out (fn (_, (sc, _)) => sc = Chained) used_facts val fact_names = map fst used_facts val {facts = chained, goal, ...} = Proof.goal state val goal_t = Logic.get_goal (Thm.prop_of goal) i fun try_methss ress [] = ress | try_methss ress (meths :: methss) = let fun mk_step meths = Prove { qualifiers = [], obtains = [], label = ("", 0), goal = goal_t, subproofs = [], facts = ([], fact_names), proof_methods = meths, comment = ""} val ress' = preplay_isar_step ctxt chained timeout [] (mk_step meths) |> map (fn result as (meth, play_outcome) => (case (minimize, play_outcome) of (true, Played time) => let val (time', used_names') = minimized_isar_step ctxt chained time (mk_step [meth]) ||> (facts_of_isar_step #> snd) val used_facts' = filter (member (op =) used_names' o fst) used_facts in (meth, Played time', used_facts') end | _ => (meth, play_outcome, used_facts))) val any_succeeded = exists (fn (_, Played _, _) => true | _ => false) ress' in try_methss (ress' @ ress) (if any_succeeded then [] else methss) end in try_methss [] methss end) |> map (fn (meth, play_outcome, used_facts) => (meth, play_outcome, filter_out (fn (_, (sc, _)) => sc = Chained) used_facts)) |> sort (play_outcome_ord o apply2 (fn (_, play_outcome, _) => play_outcome)) fun select_one_line_proof used_facts preferred_meth preplay_results = (case preplay_results of (* Select best method if preplay succeeded *) (best_meth, best_outcome as Played _, best_used_facts) :: _ => (best_used_facts, (best_meth, best_outcome)) (* Otherwise select preferred method with dummy timeout *) | _ => (used_facts, (preferred_meth, Play_Timed_Out Time.zeroTime))) |> apfst (filter_out (fn (_, (sc, _)) => sc = Chained)) fun launch_prover (params as {verbose, spy, slices, timeout, ...}) mode learn (problem as {state, subgoal, factss, ...} : prover_problem) (slice as ((slice_size, num_facts, fact_filter), _)) name = let val ctxt = Proof.context_of state val _ = spying spy (fn () => (state, subgoal, name, "Launched")) val _ = if verbose then writeln (name ^ " with " ^ string_of_int num_facts ^ " " ^ fact_filter ^ " fact" ^ plural_s num_facts ^ " for " ^ string_of_time (slice_timeout slice_size slices timeout) ^ "...") else () fun print_used_facts used_facts used_from = tag_list 1 used_from |> map (fn (j, fact) => fact |> apsnd (K j)) |> filter_used_facts false used_facts |> map (fn ((name, _), j) => name ^ "@" ^ string_of_int j) |> commas |> prefix ("Facts in " ^ name ^ " proof: ") |> writeln fun spying_str_of_res ({outcome = NONE, used_facts, used_from, ...} : prover_result) = let val num_used_facts = length used_facts fun find_indices facts = tag_list 1 facts |> map (fn (j, fact) => fact |> apsnd (K j)) |> filter_used_facts false used_facts |> distinct (eq_fst (op =)) |> map (prefix "@" o string_of_int o snd) fun filter_info (fact_filter, facts) = let val indices = find_indices facts (* "Int.max" is there for robustness *) val unknowns = replicate (Int.max (0, num_used_facts - length indices)) "?" in (commas (indices @ unknowns), fact_filter) end val filter_infos = map filter_info (("actual", used_from) :: factss) |> AList.group (op =) |> map (fn (indices, fact_filters) => commas fact_filters ^ ": " ^ indices) in "Success: Found proof with " ^ string_of_int num_used_facts ^ " fact" ^ plural_s num_used_facts ^ (if num_used_facts = 0 then "" else ": " ^ commas filter_infos) end | spying_str_of_res {outcome = SOME failure, ...} = "Failure: " ^ string_of_atp_failure failure in get_minimizing_prover ctxt mode learn name params problem slice |> verbose ? tap (fn {outcome = NONE, used_facts as _ :: _, used_from, ...} => print_used_facts used_facts used_from | _ => ()) |> spy ? tap (fn res => spying spy (fn () => (state, subgoal, name, spying_str_of_res res))) end fun preplay_prover_result ({ minimize, preplay_timeout, ...} : params) state subgoal (result as {outcome, used_facts, preferred_methss, message, ...} : prover_result) = let val (output, chosen_preplay_outcome) = if outcome = SOME ATP_Proof.TimedOut then (SH_Timeout, select_one_line_proof used_facts (fst preferred_methss) []) else if is_some outcome then (SH_None, select_one_line_proof used_facts (fst preferred_methss) []) else let val preplay_results = play_one_line_proofs minimize preplay_timeout used_facts state subgoal (snd preferred_methss) val chosen_preplay_outcome = select_one_line_proof used_facts (fst preferred_methss) preplay_results in (SH_Some (result, preplay_results), chosen_preplay_outcome) end fun output_message () = message (fn () => chosen_preplay_outcome) in (output, output_message) end fun check_expected_outcome ctxt prover_name expect outcome = let val outcome_code = short_string_of_sledgehammer_outcome outcome in (* The "expect" argument is deliberately ignored if the prover is missing so that "Metis_Examples" can be processed on any machine. *) if expect = "" orelse not (is_prover_installed ctxt prover_name) then () else (case (expect, outcome) of ("some", SH_Some _) => () | ("some_preplayed", SH_Some (_, preplay_results)) => if exists (fn (_, Played _, _) => true | _ => false) preplay_results then () else error ("Unexpected outcome: the external prover found a some proof but preplay failed") | ("unknown", SH_Unknown) => () | ("timeout", SH_Timeout) => () | ("none", SH_None) => () | _ => error ("Unexpected outcome: " ^ quote outcome_code)) end fun launch_prover_and_preplay (params as {debug, timeout, expect, ...}) mode writeln_result learn (problem as {state, subgoal, ...}) slice prover_name = let val ctxt = Proof.context_of state val hard_timeout = Time.scale 5.0 timeout fun really_go () = launch_prover params mode learn problem slice prover_name |> preplay_prover_result params state subgoal fun go () = if debug then really_go () else (really_go () handle ERROR msg => (SH_Unknown, fn () => "Error: " ^ msg ^ "\n") | exn => if Exn.is_interrupt exn then Exn.reraise exn else (SH_Unknown, fn () => "Internal error:\n" ^ Runtime.exn_message exn ^ "\n")) val (outcome, message) = Timeout.apply hard_timeout go () val () = check_expected_outcome ctxt prover_name expect outcome val message = message () val () = if mode = Auto_Try then () else (case outcome of SH_Some _ => the_default writeln writeln_result (prover_name ^ ": " ^ message) | _ => ()) in (outcome, message) end fun string_of_facts filter facts = "Selected " ^ string_of_int (length facts) ^ " " ^ (if filter = "" then "" else filter ^ " ") ^ "fact" ^ plural_s (length facts) ^ ": " ^ (space_implode " " (map (fst o fst) facts)) fun string_of_factss factss = if forall (null o snd) factss then "Found no relevant facts" else cat_lines (map (fn (filter, facts) => string_of_facts filter facts) factss) val default_slice_schedule = (* FUDGE (inspired by Seventeen evaluation) *) [cvc4N, zipperpositionN, vampireN, veritN, eN, cvc4N, zipperpositionN, cvc4N, vampireN, cvc4N, cvc4N, vampireN, cvc4N, iproverN, zipperpositionN, vampireN, vampireN, zipperpositionN, z3N, - cvc4N, vampireN, iproverN, vampireN, zipperpositionN, z3N, z3N, cvc4N, cvc4N] + zipperpositionN, vampireN, iproverN, vampireN, cvc4N, z3N, z3N, cvc4N, cvc4N] fun schedule_of_provers provers num_slices = let val (known_provers, unknown_provers) = List.partition (member (op =) default_slice_schedule) provers val default_slice_schedule = filter (member (op =) known_provers) default_slice_schedule val num_default_slices = length default_slice_schedule fun round_robin _ [] = [] | round_robin 0 _ = [] | round_robin n (prover :: provers) = prover :: round_robin (n - 1) (provers @ [prover]) in if num_slices <= num_default_slices then take num_slices default_slice_schedule else default_slice_schedule @ round_robin (num_slices - num_default_slices) (unknown_provers @ known_provers) end fun prover_slices_of_schedule ctxt factss ({max_facts, fact_filter, type_enc, lam_trans, uncurried_aliases, ...} : params) schedule = let fun triplicate_slices original = let val shift = map (apfst (fn (slice_size, num_facts, fact_filter) => (slice_size, num_facts, if fact_filter = mashN then mepoN else if fact_filter = mepoN then meshN else mashN))) val shifted_once = shift original val shifted_twice = shift shifted_once in original @ shifted_once @ shifted_twice end fun adjust_extra (ATP_Slice (format0, type_enc0, lam_trans0, uncurried_aliases0, extra_extra0)) = ATP_Slice (format0, the_default type_enc0 type_enc, the_default lam_trans0 lam_trans, the_default uncurried_aliases0 uncurried_aliases, extra_extra0) | adjust_extra (extra as SMT_Slice _) = extra fun adjust_slice max_slice_size ((slice_size0, num_facts0, fact_filter0), extra) = let val slice_size = Int.min (max_slice_size, slice_size0) val fact_filter = fact_filter |> the_default fact_filter0 val max_facts = max_facts |> the_default num_facts0 val num_facts = Int.min (max_facts, length (facts_of_filter fact_filter factss)) in ((slice_size, num_facts, fact_filter), adjust_extra extra) end val provers = distinct (op =) schedule val prover_slices = map (fn prover => (prover, (is_none fact_filter ? triplicate_slices) (get_slices ctxt prover))) provers val max_threads = Multithreading.max_threads () fun translate_schedule _ 0 _ = [] | translate_schedule _ _ [] = [] | translate_schedule prover_slices slices_left (prover :: schedule) = (case AList.lookup (op =) prover_slices prover of SOME (slice0 :: slices) => let val prover_slices' = AList.update (op =) (prover, slices) prover_slices val slice as ((slice_size, _, _), _) = adjust_slice ((slices_left + max_threads - 1) div max_threads) slice0 in (prover, slice) :: translate_schedule prover_slices' (slices_left - slice_size) schedule end | _ => translate_schedule prover_slices slices_left schedule) in translate_schedule prover_slices (length schedule) schedule |> distinct (op =) end fun run_sledgehammer (params as {verbose, spy, provers, induction_rules, max_facts, max_proofs, slices, ...}) mode writeln_result i (fact_override as {only, ...}) state = if null provers then error "No prover is set" else (case subgoal_count state of 0 => (error "No subgoal!"; (false, (SH_None, ""))) | n => let val _ = Proof.assert_backward state val print = if mode = Normal andalso is_none writeln_result then writeln else K () val found_proofs = Synchronized.var "found_proofs" 0 fun found_proof prover_name = if mode = Normal then (Synchronized.change found_proofs (fn n => n + 1); (the_default writeln writeln_result) (prover_name ^ " found a proof...")) else () val ctxt = Proof.context_of state val inst_inducts = induction_rules = SOME Instantiate val {facts = chained_thms, goal, ...} = Proof.goal state val (_, hyp_ts, concl_t) = strip_subgoal goal i ctxt val _ = (case find_first (not o is_prover_supported ctxt) provers of SOME name => error ("No such prover: " ^ name) | NONE => ()) val _ = print "Sledgehammering..." val _ = spying spy (fn () => (state, i, "***", "Starting " ^ str_of_mode mode ^ " mode")) val ({elapsed, ...}, all_facts) = Timing.timing (nearly_all_facts_of_context ctxt inst_inducts fact_override chained_thms hyp_ts) concl_t val _ = spying spy (fn () => (state, i, "All", "Extracting " ^ string_of_int (length all_facts) ^ " facts from background theory in " ^ string_of_int (Time.toMilliseconds elapsed) ^ " ms")) val spying_str_of_factss = commas o map (fn (filter, facts) => filter ^ ": " ^ string_of_int (length facts)) fun get_factss provers = let val max_max_facts = (case max_facts of SOME n => n | NONE => fold (fn prover => fold (fn ((_, n, _), _) => Integer.max n) (get_slices ctxt prover)) provers 0) * 51 div 50 (* some slack to account for filtering of induction facts below *) val ({elapsed, ...}, factss) = Timing.timing (relevant_facts ctxt params (hd provers) max_max_facts fact_override hyp_ts concl_t) all_facts val induction_rules = the_default (if only then Include else Exclude) induction_rules val factss = map (apsnd (maybe_filter_out_induction_rules induction_rules)) factss val () = spying spy (fn () => (state, i, "All", "Filtering facts in " ^ string_of_int (Time.toMilliseconds elapsed) ^ " ms (MaSh algorithm: " ^ str_of_mash_algorithm (the_mash_algorithm ()) ^ ")")); val () = if verbose then print (string_of_factss factss) else () val () = spying spy (fn () => (state, i, "All", "Selected facts: " ^ spying_str_of_factss factss)) in factss end fun launch_provers () = let val factss = get_factss provers val problem = {comment = "", state = state, goal = goal, subgoal = i, subgoal_count = n, factss = factss, found_proof = found_proof} val learn = mash_learn_proof ctxt params (Thm.prop_of goal) val launch = launch_prover_and_preplay params mode writeln_result learn val schedule = if mode = Auto_Try then provers else schedule_of_provers provers slices val prover_slices = prover_slices_of_schedule ctxt factss params schedule val _ = if verbose then writeln ("Running " ^ commas (map fst prover_slices) ^ "...") else () in if mode = Auto_Try then (SH_Unknown, "") |> fold (fn (prover, slice) => fn accum as (SH_Some _, _) => accum | _ => launch problem slice prover) prover_slices else (learn chained_thms; Par_List.map (fn (prover, slice) => if Synchronized.value found_proofs < max_proofs then launch problem slice prover else (SH_None, "")) prover_slices |> max_outcome) end in (launch_provers () handle Timeout.TIMEOUT _ => (SH_Timeout, "")) |> `(fn (outcome, message) => (case outcome of SH_Some _ => (the_default writeln writeln_result "QED"; true) | SH_Unknown => (the_default writeln writeln_result message; false) | SH_Timeout => (the_default writeln writeln_result "No proof found"; false) | SH_None => (the_default writeln writeln_result (if message = "" then "No proof found" else "Error: " ^ message); false))) end) end;