(* Title: HOL/Tools/Sledgehammer/sledgehammer_isar_minimize.ML
Author: Steffen Juilf Smolka, TU Muenchen
Author: Jasmin Blanchette, TU Muenchen
Minimize dependencies (used facts) of Isar proof steps.
*)
signature SLEDGEHAMMER_ISAR_MINIMIZE =
sig
type isar_step = Sledgehammer_Isar_Proof.isar_step
type isar_proof = Sledgehammer_Isar_Proof.isar_proof
type isar_preplay_data = Sledgehammer_Isar_Preplay.isar_preplay_data
val minimize_isar_step_dependencies : isar_preplay_data -> isar_step -> isar_step
val postprocess_isar_proof_remove_unreferenced_steps : (isar_step -> isar_step) -> isar_proof ->
isar_proof
end;
structure Sledgehammer_Isar_Minimize : SLEDGEHAMMER_ISAR_MINIMIZE =
struct
open Sledgehammer_Reconstructor
open Sledgehammer_Isar_Proof
open Sledgehammer_Isar_Preplay
val slack = seconds 0.1
fun minimize_isar_step_dependencies (_ : isar_preplay_data) (step as Let _) = step
| minimize_isar_step_dependencies {preplay_outcome, set_preplay_outcome, preplay_quietly, ...}
(step as Prove (qs, xs, l, t, subproofs, ((lfs, gfs), meth))) =
(case preplay_outcome l of
Played time =>
let
fun mk_step_lfs_gfs lfs gfs = Prove (qs, xs, l, t, subproofs, ((lfs, gfs), meth))
val mk_step_gfs_lfs = curry (swap #> uncurry mk_step_lfs_gfs)
fun minimize_facts _ time min_facts [] = (time, min_facts)
| minimize_facts mk_step time min_facts (f :: facts) =
(case preplay_quietly (Time.+ (time, slack)) (mk_step (min_facts @ facts)) of
Played time => minimize_facts mk_step time min_facts facts
| _ => minimize_facts mk_step time (f :: min_facts) facts)
val (time, min_lfs) = minimize_facts (mk_step_gfs_lfs gfs) time [] lfs
val (time, min_gfs) = minimize_facts (mk_step_lfs_gfs min_lfs) time [] gfs
in
set_preplay_outcome l (Played time); mk_step_lfs_gfs min_lfs min_gfs
end
| _ => step (* don't touch steps that time out or fail *))
fun postprocess_isar_proof_remove_unreferenced_steps postproc_step =
let
val add_lfs = fold (Ord_List.insert label_ord)
fun do_proof (Proof (fix, assms, steps)) =
let val (refed, steps) = do_steps steps in
(refed, Proof (fix, assms, steps))
end
and do_steps [] = ([], [])
| do_steps steps =
(* the last step is always implicitly referenced *)
let val (steps, (refed, concl)) = split_last steps ||> do_refed_step in
fold_rev do_step steps (refed, [concl])
end
and do_step step (refed, accu) =
(case label_of_step step of
NONE => (refed, step :: accu)
| SOME l =>
if Ord_List.member label_ord refed l then
do_refed_step step
|>> Ord_List.union label_ord refed
||> (fn x => x :: accu)
else
(refed, accu))
and do_refed_step step = step |> postproc_step |> do_refed_step'
and do_refed_step' (Let _) = raise Fail "Sledgehammer_Isar_Minimize"
| do_refed_step' (Prove (qs, xs, l, t, subproofs, ((lfs, gfs), m))) =
let
val (refed, subproofs) =
map do_proof subproofs
|> split_list
|>> Ord_List.unions label_ord
|>> add_lfs lfs
val step = Prove (qs, xs, l, t, subproofs, ((lfs, gfs), m))
in
(refed, step)
end
in
snd o do_proof
end
end;