(* Title: HOL/Tools/Sledgehammer/sledgehammer_run.ML
Author: Fabian Immler, TU Muenchen
Author: Makarius
Author: Jasmin Blanchette, TU Muenchen
Sledgehammer's heart.
*)
signature SLEDGEHAMMER_RUN =
sig
type relevance_override = Sledgehammer_Filter.relevance_override
type minimize_command = Sledgehammer_ATP_Reconstruct.minimize_command
type params = Sledgehammer_Provers.params
val run_sledgehammer :
params -> bool -> int -> relevance_override -> (string -> minimize_command)
-> Proof.state -> bool * Proof.state
end;
structure Sledgehammer_Run : SLEDGEHAMMER_RUN =
struct
open Sledgehammer_Util
open Sledgehammer_Filter
open Sledgehammer_ATP_Translate
open Sledgehammer_Provers
fun prover_description ctxt ({blocking, verbose, ...} : params) name num_facts i
n goal =
quote name ^
(if verbose then
" with " ^ string_of_int num_facts ^ " fact" ^ plural_s num_facts
else
"") ^
" on " ^ (if n = 1 then "goal" else "subgoal " ^ string_of_int i) ^ ":" ^
(if blocking then
""
else
"\n" ^ Syntax.string_of_term ctxt (Thm.term_of (Thm.cprem_of goal i)))
fun run_prover (params as {blocking, debug, max_relevant, timeout, expect, ...})
auto minimize_command only
{state, goal, subgoal, subgoal_count, facts} name =
let
val ctxt = Proof.context_of state
val birth_time = Time.now ()
val death_time = Time.+ (birth_time, timeout)
val max_relevant =
the_default (default_max_relevant_for_prover ctxt name) max_relevant
val num_facts = length facts |> not only ? Integer.min max_relevant
val desc =
prover_description ctxt params name num_facts subgoal subgoal_count goal
val prover = get_prover ctxt auto name
val problem =
{state = state, goal = goal, subgoal = subgoal,
subgoal_count = subgoal_count, facts = take num_facts facts}
fun go () =
let
fun really_go () =
prover params (minimize_command name) problem
|> (fn {outcome, message, ...} =>
(if is_some outcome then "none" else "some", message))
val (outcome_code, message) =
if debug then
really_go ()
else
(really_go ()
handle ERROR message => ("unknown", "Error: " ^ message ^ "\n")
| exn =>
if Exn.is_interrupt exn then
reraise exn
else
("unknown", "Internal error:\n" ^
ML_Compiler.exn_message exn ^ "\n"))
val _ =
if expect = "" orelse outcome_code = expect then
()
else if blocking then
error ("Unexpected outcome: " ^ quote outcome_code ^ ".")
else
warning ("Unexpected outcome: " ^ quote outcome_code ^ ".");
in (outcome_code = "some", message) end
in
if auto then
let val (success, message) = TimeLimit.timeLimit timeout go () in
(success, state |> success ? Proof.goal_message (fn () =>
Pretty.chunks [Pretty.str "", Pretty.mark Markup.hilite
(Pretty.str message)]))
end
else if blocking then
let val (success, message) = TimeLimit.timeLimit timeout go () in
List.app Output.urgent_message
(Async_Manager.break_into_chunks [desc ^ "\n" ^ message]);
(success, state)
end
else
(Async_Manager.launch das_Tool birth_time death_time desc (snd o go);
(false, state))
end
(* FUDGE *)
val auto_max_relevant_divisor = 2
fun fact_name (Untranslated_Fact ((name, _), _)) = SOME name
| fact_name (ATP_Translated_Fact (_, p)) = Option.map (fst o fst) p
fun run_sledgehammer (params as {blocking, debug, provers, full_types,
relevance_thresholds, max_relevant, ...})
auto i (relevance_override as {only, ...}) minimize_command
state =
if null provers then
error "No prover is set."
else case subgoal_count state of
0 => (Output.urgent_message "No subgoal!"; (false, state))
| n =>
let
val _ = Proof.assert_backward state
val ctxt = Proof.context_of state
val {facts = chained_ths, goal, ...} = Proof.goal state
val (_, hyp_ts, concl_t) = strip_subgoal goal i
val _ = () |> not blocking ? kill_provers
val _ = case find_first (not o is_prover_available ctxt) provers of
SOME name => error ("No such prover: " ^ name ^ ".")
| NONE => ()
val _ = if auto then () else Output.urgent_message "Sledgehammering..."
val (smts, atps) = provers |> List.partition (is_smt_prover ctxt)
fun run_provers label full_types relevance_fudge maybe_translate provers
(res as (success, state)) =
if success orelse null provers then
res
else
let
val max_max_relevant =
case max_relevant of
SOME n => n
| NONE =>
0 |> fold (Integer.max o default_max_relevant_for_prover ctxt)
provers
|> auto ? (fn n => n div auto_max_relevant_divisor)
val is_built_in_const =
is_built_in_const_for_prover ctxt (hd provers)
val facts =
relevant_facts ctxt full_types relevance_thresholds
max_max_relevant is_built_in_const relevance_fudge
relevance_override chained_ths hyp_ts concl_t
|> map maybe_translate
val problem =
{state = state, goal = goal, subgoal = i, subgoal_count = n,
facts = facts}
val run_prover = run_prover params auto minimize_command only
in
if debug then
Output.urgent_message (label ^ plural_s (length provers) ^ ": " ^
(if null facts then
"Found no relevant facts."
else
"Including (up to) " ^ string_of_int (length facts) ^
" relevant fact" ^ plural_s (length facts) ^ ":\n" ^
(facts |> map_filter fact_name
|> space_implode " ") ^ "."))
else
();
if auto then
fold (fn prover => fn (true, state) => (true, state)
| (false, _) => run_prover problem prover)
provers (false, state)
else
provers |> (if blocking then Par_List.map else map)
(run_prover problem)
|> exists fst |> rpair state
end
val run_atps =
run_provers "ATP" full_types atp_relevance_fudge
(ATP_Translated_Fact o translate_atp_fact ctxt) atps
val run_smts =
run_provers "SMT solver" true smt_relevance_fudge Untranslated_Fact smts
fun run_atps_and_smt_solvers () =
[run_atps, run_smts] |> Par_List.map (fn f => f (false, state) |> K ())
in
(false, state)
|> (if blocking then run_atps #> not auto ? run_smts
else (fn p => Future.fork (tap run_atps_and_smt_solvers) |> K p))
end
end;