(************************************************************************) (* * The Rocq Prover / The Rocq Development Team *) (* v * Copyright INRIA, CNRS and contributors *) (* <O___,, * (see version control and CREDITS file for authors & dates) *) (* \VV/ **************************************************************) (* // * This file is distributed under the terms of the *) (* * GNU Lesser General Public License Version 2.1 *) (* * (see LICENSE file for the text of the license) *) (************************************************************************)
open Pp open CErrors open Util open Names open Constr open Termops open EConstr open Tactics open Auto open Genredexpr open Locus open Locusops open Hints open Proofview.Notations
module NamedDecl = Context.Named.Declaration
let eauto_unif_flags = auto_flags_of_state TransparentState.full
let e_give_exact ?(flags=eauto_unif_flags) c =
Proofview.Goal.enter beginfun gl -> let sigma, t1 = Tacmach.pf_type_of gl c in let t2 = Tacmach.pf_concl gl in if occur_existential sigma t1 || occur_existential sigma t2 then
Tacticals.tclTHENLIST
[Proofview.Unsafe.tclEVARS sigma;
Clenv.unify ~flags ~cv_pb:CUMUL t1;
exact_no_check c] else exact_check c end
let e_assumption =
Proofview.Goal.enter beginfun gl -> let hyps = Proofview.Goal.hyps gl in let sigma = Proofview.Goal.sigma gl in let concl = Tacmach.pf_concl gl in ifList.is_empty hyps then
Tacticals.tclZEROMSG (str "No applicable tactic.") else let not_ground = occur_existential sigma concl in letmap decl = let id = NamedDecl.get_id decl in let t = NamedDecl.get_type decl in if not_ground || occur_existential sigma t then
Clenv.unify ~cv_pb:CUMUL ~flags:eauto_unif_flags t <*> exact_no_check (mkVar id) else
exact_check (mkVar id) in
Tacticals.tclFIRST (List.mapmap hyps) end
(***************************************************************************) (* A tactic similar to Auto, but using EApply, Assumption and e_give_exact *) (***************************************************************************)
let unify_e_resolve flags h =
Hints.hint_res_pf ~with_evars:true ~with_classes:true ~flags h
let hintmap_of env sigma secvars concl = (* Warning: for computation sharing, we need to return a closure *) let hdc = try Some (decompose_app_bound sigma concl) with Bound -> None in match hdc with
| None -> fun db -> Hint_db.map_none ~secvars db
| Some hdc -> if occur_existential sigma concl then
(fun db -> match Hint_db.map_eauto env sigma ~secvars hdc concl db with
| ModeMatch (_, l) -> l
| ModeMismatch -> []) else (fun db -> Hint_db.map_auto env sigma ~secvars hdc concl db) (* FIXME: should be (Hint_db.map_eauto hdc concl db) *)
let e_exact flags h =
Proofview.Goal.enter beginfun gl -> let env = Proofview.Goal.env gl in let sigma = Proofview.Goal.sigma gl in let sigma, c = Hints.fresh_hint env sigma h in
Proofview.Unsafe.tclEVARS sigma <*> e_give_exact c end
let rec e_trivial_fail_db db_list local_db = let next = Proofview.Goal.enter beginfun gl -> let d = NamedDecl.get_id @@ Tacmach.pf_last_hyp gl in let local_db = push_resolve_hyp (Tacmach.pf_env gl) (Tacmach.project gl) d local_db in
e_trivial_fail_db db_list local_db endin
Proofview.Goal.enter beginfun gl -> let secvars = compute_secvars gl in let tacl =
e_assumption ::
(Tacticals.tclTHEN Tactics.intro next) ::
(e_trivial_resolve (Tacmach.pf_env gl) (Tacmach.project gl) db_list local_db secvars (Tacmach.pf_concl gl)) in
Tacticals.tclSOLVE tacl end
and e_my_find_search env sigma db_list local_db secvars concl = let hint_of_db = hintmap_of env sigma secvars concl in let hintl = List.map_append (fun db -> let flags = auto_flags_of_state (Hint_db.transparent_state db) in List.map (fun x -> flags, x) (hint_of_db db)) (local_db::db_list) in let tac_of_hint = fun (st, h) -> let priority = match FullHint.repr h with
| Unfold_nth _ -> 1
| _ -> FullHint.priority h in let tac = function
| Res_pf h -> unify_resolve st h
| ERes_pf h -> unify_e_resolve st h
| Give_exact h -> e_exact st h
| Res_pf_THEN_trivial_fail h ->
Tacticals.tclTHEN (unify_e_resolve st h)
(e_trivial_fail_db db_list local_db)
| Unfold_nth c -> reduce (Unfold [AllOccurrences,c]) onConcl
| Extern (pat, tacast) -> conclPattern concl pat tacast in (* We cannot determine statically the cost of subgoals of an Extern hint,
so approximate it by the hint's priority. *) let subgoals = match FullHint.subgoals h with
| Some subgoals -> subgoals
| None -> priority in let b = { cost_priority = priority; cost_subgoals = subgoals } in let tac = FullHint.run h tac in
(tac, b, lazy (FullHint.print env sigma h)) in List.map tac_of_hint hintl
and e_trivial_resolve env sigma db_list local_db secvars gl = letfilter (tac, pr, _) = if Int.equal pr.cost_priority 0 then Some tac else None in tryList.map_filter filter (e_my_find_search env sigma db_list local_db secvars gl) with Not_found -> []
type delayed_db = Environ.env -> Evd.evar_map -> hint_db
type search_state = {
depth : int; (*r depth of search before failing *)
tacres : (Proofview_monad.goal_with_state * delayed_db) list;
last_tactic : Pp.t Lazy.t;
prev : prev_search_state;
}
and prev_search_state = (* for info eauto *)
| Unknown
| Init
| State of search_state
(*s Tactics handling a list of goals. *)
(* first_goal : goal list sigma -> goal sigma *)
module Search = struct
let is_solved p = Int.equal p.cost_subgoals 0
let solve_order p1 p2 = match is_solved p1, is_solved p2 with
| true, true | false, false -> 0
| false, true -> 1
| true, false -> -1 (* solved comes first *)
(* Ordering of states is lexicographic: 1. tactics known to solve the goal 2. priority
3. number of generated goals. *) let compare (_, p1, _) (_, p2, _) = let d = solve_order p1 p2 in let d' = Int.compare p1.cost_priority p2.cost_priority in ifnot (Int.equal d 0) then d elseifnot (Int.equal d' 0) then d' else Int.compare p1.cost_subgoals p2.cost_subgoals
let branching db dblist local_lemmas =
Proofview.Goal.enter_one beginfun gl -> let env = Proofview.Goal.env gl in let sigma = Proofview.Goal.sigma gl in let concl = Proofview.Goal.concl gl in let hyps = EConstr.named_context env in let db = db env sigma in let secvars = secvars_of_hyps hyps in let assumption_tacs = let mkdb env sigma = assert falsein(* no goal can be generated *) let map_assum id = (false, mkdb, e_give_exact (mkVar id), lazy (str "exact" ++ spc () ++ Id.print id)) in List.map map_assum (ids_of_named_context hyps) in let intro_tac = let mkdb env sigma =
push_resolve_hyp env sigma (NamedDecl.get_id (List.hd (EConstr.named_context env))) db in
(false, mkdb, Tactics.intro, lazy (str "intro")) in let rec_tacs = let mkdb env sigma = let hyps' = EConstr.named_context env in if hyps' == hyps then db else make_local_hint_db env sigma ~ts:TransparentState.full true local_lemmas in let tacs = e_possible_resolve env sigma dblist db secvars concl in let tacs = List.sort compare tacs in let tacs = List.map (fun (tac, _, pp) -> (true, mkdb, tac, pp)) tacs in
Proofview.tclUNIT tacs in
rec_tacs >>= fun rec_tacs ->
Proofview.tclUNIT (assumption_tacs @ intro_tac :: rec_tacs) end
let msg_with_position (p : int list) s = match p with
| [] -> ()
| _ :: _ -> let pp = hov 0 (str " depth=" ++ int s.depth ++ spc () ++ (Lazy.force s.last_tactic)) in let rec pp_rec = function
| [] -> mt ()
| [i] -> int i
| i :: l -> pp_rec l ++ str "." ++ int i in
Feedback.msg_debug (h (pp_rec p) ++ pp)
let push i p = match p with [] -> [] | _ :: _ -> i :: p
exception SearchFailure
let is_failure (e, _) = match e with SearchFailure -> true | _ -> false
let search ?(debug=false) dblist local_lemmas s = let rec explore p s = let () = msg_with_position p s in if Int.equal s.depth 0 then Proofview.tclZERO SearchFailure elsematch s.tacres with
| [] -> Proofview.tclUNIT s
| (gl, db) :: rest ->
Proofview.tclEVARMAP >>= fun sigma -> match Proofview.Unsafe.undefined sigma [gl] with
| [] -> explore p { s with tacres = rest }
| gl :: _ ->
Proofview.Unsafe.tclSETGOALS [gl] <*> let ps = if s.prev == Unknown then Unknown else State s in
branching db dblist local_lemmas >>= fun tacs -> letmap (isrec, mkdb, tac, pp) =
Proofview.tclONCE tac >>= fun () ->
Proofview.Unsafe.tclGETGOALS >>= fun lgls ->
Proofview.tclEVARMAP >>= fun sigma -> letmap gl = gl, mkdb in let depth = if isrec thenifList.is_empty lgls then s.depth else pred s.depth else s.depth in let lgls = List.mapmap lgls in
Proofview.tclUNIT { depth; tacres = lgls @ rest; last_tactic = pp; prev = ps; } in let tacs = List.mapmap tacs in
explore_many 1 p tacs
and explore_many i p = function
| [] -> Proofview.tclZERO SearchFailure
| tac :: l ->
Proofview.tclORELSE (tac >>= fun s -> explore (push i p) s)
(fun e -> explore_many (if is_failure e then succ i else i) p l) (* discriminate between search failures and [tac] raising an error *) in let pos = if debug then [1] else [] in
explore pos s
end
(** Utilities for debug eauto / info eauto *)
let global_debug_eauto = reffalse let global_info_eauto = reffalse
let mk_eauto_dbg d = if d == Debug || !global_debug_eauto then Debug elseif d == Info || !global_info_eauto then Info else Off
let pr_info_nop = function
| Info -> Feedback.msg_notice (str "idtac.")
| _ -> ()
let pr_dbg_header = function
| Off -> ()
| Debug -> Feedback.msg_notice (str "(* debug eauto: *)")
| Info -> Feedback.msg_notice (str "(* info eauto: *)")
let pr_info dbg s = if dbg != Info then () else let rec loop s = match s.prev with
| Unknown | Init -> s.depth
| State sp -> let mindepth = loop sp in let indent = String.make (mindepth - sp.depth) ' 'in
Feedback.msg_notice (str indent ++ Lazy.force s.last_tactic ++ str ".");
mindepth in
ignore (loop s)
(** Eauto main code *)
let make_initial_state evk dbg n localdb =
{ depth = n;
tacres = [evk, localdb];
last_tactic = lazy (mt());
prev = if dbg == Info then Init else Unknown;
}
let e_search_auto ?(debug = Off) ?depth lems db_list =
Proofview.Goal.enter beginfun gl -> let p = Option.default default_search_depth depth in let local_db env sigma = make_local_hint_db env sigma ~ts:TransparentState.full true lems in let d = mk_eauto_dbg debug in let debug = match d with Debug -> true | Info | Off -> falsein let tac s = Search.search ~debug db_list lems s in let () = pr_dbg_header d in
Proofview.tclORELSE begin let evk = Proofview.goal_with_state (Proofview.Goal.goal gl) (Proofview.Goal.state gl) in
tac (make_initial_state evk d p local_db) >>= fun s -> let () = pr_info d s in let () = assert (List.is_empty s.tacres) in
Proofview.Unsafe.tclSETGOALS [] end begin function
| (Search.SearchFailure, _) -> let () = pr_info_nop d in
Proofview.tclUNIT ()
| (e, info) -> Proofview.tclZERO ~info e end end
let gen_eauto ?debug ?depth lems dbs =
Proofview.wrap_exceptions @@ fun () -> let dbs = match dbs with None -> current_pure_db () | Some dbs -> make_db_list dbs in
eauto_with_bases ?debug ?depth lems dbs
let autounfolds ids csts prjs gl cls = let hyps = Tacmach.pf_ids_of_hyps gl in let env = Tacmach.pf_env gl in let ids = List.filter (fun id -> List.mem id hyps && Tacred.is_evaluable env (EvalVarRef id)) ids in let csts = List.filter (fun cst -> Tacred.is_evaluable env (EvalConstRef cst)) csts in let prjs = List.filter (fun p -> Tacred.is_evaluable env (EvalProjectionRef p)) prjs in let flags = let flags = RedFlags.red_add_transparent RedFlags.all TransparentState.empty in let flags = List.fold_left (fun flags id -> RedFlags.(red_add flags (fVAR id))) flags ids in let flags = List.fold_left (fun flags cst -> RedFlags.(red_add flags (fCONST cst))) flags csts in List.fold_left (fun flags p -> RedFlags.(red_add flags (fPROJ p))) flags prjs in reduct_option ~check:false (Reductionops.clos_norm_flags flags, DEFAULTcast) cls
let cons a l = a :: l
exception UnknownDatabase ofstring
let autounfold db cls = ifnot (Locusops.clause_with_generic_occurrences cls) then
user_err (str "\"at\" clause not supported."); matchList.fold_left (fun (ids, csts, prjs) dbname -> let db = try searchtable_map dbname with Not_found -> raise (UnknownDatabase dbname) in let (db_ids, db_csts, db_prjs) = Hint_db.unfolds db in
(Id.Set.fold cons db_ids ids, Cset.fold cons db_csts csts, PRset.fold cons db_prjs prjs)) ([], [], []) db with
| (ids, csts, prjs) -> Proofview.Goal.enter beginfun gl -> let cls = concrete_clause_of (fun () -> Tacmach.pf_ids_of_hyps gl) cls in let tac = autounfolds ids csts prjs gl in
Tacticals.tclMAP (function
| OnHyp (id, _, where) -> tac (Some (id, where))
| OnConcl _ -> tac None) cls end
| exception UnknownDatabase dbname -> Tacticals.tclZEROMSG (str "Unknown database " ++ str dbname)
let autounfold_tac db cls =
Proofview.tclUNIT () >>= fun () -> let dbs = match db with
| None -> String.Set.elements (current_db_names ())
| Some [] -> ["core"]
| Some l -> l in
autounfold dbs cls
let transparent_constant csts prjs c = match Structures.PrimitiveProjections.find_opt c with
| None -> Cset.mem c csts
| Some p -> PRset.mem p prjs
let unfold_head env sigma (ids, csts, prjs) c = (* TODO use prjs *) let rec aux c = match EConstr.kind sigma c with
| Var id when Id.Set.mem id ids ->
(match Environ.named_body id env with
| Some b -> true, EConstr.of_constr b
| None -> false, c)
| Const (cst, u) when transparent_constant csts prjs cst -> let u = EInstance.kind sigma u in true, EConstr.of_constr (Environ.constant_value_in env (cst, u))
| App (f, args) ->
(match aux f with
| true, f' -> true, Reductionops.whd_betaiota env sigma (mkApp (f', args))
| false, _ -> let done_, args' =
Array.fold_left_i (fun i (done_, acc) arg -> if done_ then done_, arg :: acc elsematch aux arg with
| true, arg' -> true, arg' :: acc
| false, arg' -> false, arg :: acc)
(false, []) args in if done_ thentrue, mkApp (f, Array.of_list (List.rev args')) elsefalse, c)
| _ -> let done_ = reffalsein let c' = EConstr.map sigma (fun c -> if !done_ then c else let x, c' = aux c in
done_ := x; c') c in !done_, c' in aux c
let autounfold_one db cl =
Proofview.Goal.enter beginfun gl -> let env = Proofview.Goal.env gl in let sigma = Tacmach.project gl in let concl = Proofview.Goal.concl gl in let st = List.fold_left (fun (i,c,p) dbname -> let db = try searchtable_map dbname with Not_found -> user_err (str "Unknown database " ++ str dbname ++ str ".") in let (ids, csts, prjs) = Hint_db.unfolds db in
(Id.Set.union ids i, Cset.union csts c, PRset.union prjs p)) (Id.Set.empty, Cset.empty, PRset.empty) db in let did, c' = unfold_head env sigma st
(match cl with Some (id, _) -> Tacmach.pf_get_hyp_typ id gl | None -> concl) in if did then match cl with
| Some hyp -> change_in_hyp ~check:true None (make_change_arg c') hyp
| None -> convert_concl ~cast:false ~check:false c' DEFAULTcast else let info = Exninfo.reify () in
Tacticals.tclFAIL ~info (str "Nothing to unfold") end
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