X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Focaml%2Ftactics%2FmetadataQuery.ml;h=ed4418dd2e5ef53eda901bf3d06a89ce1ea526c2;hb=e2fb8962f72096d3f0bb19f40b00a3502a11e932;hp=5f83dd608b28df8760760ffb8e725e46c7e654a0;hpb=5edfd170706c91c5d3a9d3522360b748a2dc034f;p=helm.git diff --git a/helm/ocaml/tactics/metadataQuery.ml b/helm/ocaml/tactics/metadataQuery.ml index 5f83dd608..ed4418dd2 100644 --- a/helm/ocaml/tactics/metadataQuery.ml +++ b/helm/ocaml/tactics/metadataQuery.ml @@ -28,6 +28,8 @@ open Printf module Constr = MetadataConstraints module PET = ProofEngineTypes +let debug_print = fun _ -> () + (** maps a shell like pattern (which uses '*' and '?') to a sql pattern for * the "like" operator (which uses '%' and '_'). Does not support escaping. *) let sqlpat_of_shellglob = @@ -41,10 +43,7 @@ let sqlpat_of_shellglob = (Pcre.replace ~rex:uscore_RE ~templ:"\\_" shellglob))) -let nonvar s = - let len = String.length s in - let suffix = String.sub s (len-4) 4 in - not (suffix = ".var") +let nonvar uri = not (UriManager.uri_is_var uri) let locate ~(dbd:Mysql.dbd) ?(vars = false) pat = let sql_pat = sqlpat_of_shellglob pat in @@ -57,13 +56,13 @@ let locate ~(dbd:Mysql.dbd) ?(vars = false) pat = let result = Mysql.exec dbd query in List.filter nonvar (Mysql.map result - (fun cols -> match cols.(0) with Some s -> s | _ -> assert false)) + (fun cols -> match cols.(0) with Some s -> UriManager.uri_of_string s | _ -> assert false)) let match_term ~(dbd:Mysql.dbd) ty = -(* prerr_endline (CicPp.ppterm ty); *) +(* debug_print (CicPp.ppterm ty); *) let metadata = MetadataExtractor.compute ~body:None ~ty in let constants_no = - MetadataConstraints.StringSet.cardinal (MetadataConstraints.constants_of ty) + MetadataConstraints.UriManagerSet.cardinal (MetadataConstraints.constants_of ty) in let full_card, diff = if CicUtil.is_meta_closed ty then @@ -111,16 +110,16 @@ let signature_of_hypothesis context = | None -> set | Some (_, Cic.Decl t) | Some (_, Cic.Def (t, _)) -> - Constr.StringSet.union set (Constr.constants_of t)) - Constr.StringSet.empty context + Constr.UriManagerSet.union set (Constr.constants_of t)) + Constr.UriManagerSet.empty context let intersect uris siguris = - let set1 = List.fold_right Constr.StringSet.add uris Constr.StringSet.empty in + let set1 = List.fold_right Constr.UriManagerSet.add uris Constr.UriManagerSet.empty in let set2 = - List.fold_right Constr.StringSet.add siguris Constr.StringSet.empty + List.fold_right Constr.UriManagerSet.add siguris Constr.UriManagerSet.empty in - let inter = Constr.StringSet.inter set1 set2 in - List.filter (fun s -> Constr.StringSet.mem s inter) uris + let inter = Constr.UriManagerSet.inter set1 set2 in + List.filter (fun s -> Constr.UriManagerSet.mem s inter) uris let filter_uris_forward ~dbd (main, constants) uris = let main_uris = @@ -129,7 +128,7 @@ let filter_uris_forward ~dbd (main, constants) uris = | Some (main, types) -> main :: types in let full_signature = - List.fold_right Constr.StringSet.add main_uris constants + List.fold_right Constr.UriManagerSet.add main_uris constants in List.filter (Constr.at_most ~dbd ~where:`Statement full_signature) uris @@ -180,21 +179,21 @@ let hint ~(dbd:Mysql.dbd) ?(facts=false) ?signature ((proof, goal) as status) = let uris = List.filter Hashtbl_equiv.not_a_duplicate uris in let types_constants = match main with - | None -> Constr.StringSet.empty + | None -> Constr.UriManagerSet.empty | Some (main, types) -> - List.fold_right Constr.StringSet.add (main :: types) - Constr.StringSet.empty + List.fold_right Constr.UriManagerSet.add (main :: types) + Constr.UriManagerSet.empty in let hyp_constants = - Constr.StringSet.diff (signature_of_hypothesis context) types_constants + Constr.UriManagerSet.diff (signature_of_hypothesis context) types_constants in -(* Constr.StringSet.iter prerr_endline hyp_constants; *) - let other_constants = Constr.StringSet.union sig_constants hyp_constants in +(* Constr.UriManagerSet.iter debug_print hyp_constants; *) + let other_constants = Constr.UriManagerSet.union sig_constants hyp_constants in let uris = - let pow = 2 ** (Constr.StringSet.cardinal other_constants) in + let pow = 2 ** (Constr.UriManagerSet.cardinal other_constants) in if ((List.length uris < pow) or (pow <= 0)) then begin - prerr_endline "MetadataQuery: large sig, falling back to old method"; +(* debug_print "MetadataQuery: large sig, falling back to old method"; *) filter_uris_forward ~dbd (main, other_constants) uris end else filter_uris_backward ~dbd ~facts (main, other_constants) uris @@ -205,7 +204,7 @@ let hint ~(dbd:Mysql.dbd) ?(facts=false) ?signature ((proof, goal) as status) = (let status' = try let (proof, goal_list) = -(* prerr_endline ("STO APPLICANDO " ^ uri); *) +(* debug_print ("STO APPLICANDO " ^ uri); *) PET.apply_tactic (PrimitiveTactics.apply_tac ~term:(CicUtil.term_of_uri uri)) @@ -237,30 +236,19 @@ let hint ~(dbd:Mysql.dbd) ?(facts=false) ?signature ((proof, goal) as status) = of the experimentation we shall make a choice. *) let close_with_types s metasenv context = - Constr.StringSet.fold + Constr.UriManagerSet.fold (fun e bag -> let t = CicUtil.term_of_uri e in let ty, _ = CicTypeChecker.type_of_aux' metasenv context t CicUniv.empty_ugraph in - Constr.StringSet.union bag (Constr.constants_of ty)) + Constr.UriManagerSet.union bag (Constr.constants_of ty)) s s let experimental_hint ~(dbd:Mysql.dbd) ?(facts=false) ?signature ((proof, goal) as status) = let (_, metasenv, _, _) = proof in let (_, context, ty) = CicUtil.lookup_meta goal metasenv in - let uris = - if facts then - ["cic:/Coq/Init/Logic/eq.ind#xpointer(1/1/1)"] - else - ["cic:/Coq/Init/Logic/eq.ind#xpointer(1/1/1)"; - (* "cic:/Coq/Init/Logic/trans_eq.con"; *) - "cic:/Coq/Init/Logic/f_equal.con"; - "cic:/Coq/Init/Logic/f_equal2.con"; - "cic:/Coq/Init/Logic/f_equal3.con"] - in - (* let (uris, (main, sig_constants)) = match signature with | Some signature -> @@ -272,20 +260,20 @@ let experimental_hint let uris = List.filter Hashtbl_equiv.not_a_duplicate uris in let types_constants = match main with - | None -> Constr.StringSet.empty + | None -> Constr.UriManagerSet.empty | Some (main, types) -> - List.fold_right Constr.StringSet.add (main :: types) - Constr.StringSet.empty + List.fold_right Constr.UriManagerSet.add (main :: types) + Constr.UriManagerSet.empty in let all_constants = let hyp_and_sug = - Constr.StringSet.union + Constr.UriManagerSet.union (signature_of_hypothesis context) sig_constants in let main = match main with - | None -> Constr.StringSet.empty + | None -> Constr.UriManagerSet.empty | Some (main,_) -> let ty, _ = CicTypeChecker.type_of_aux' @@ -293,33 +281,33 @@ let experimental_hint in Constr.constants_of ty in - Constr.StringSet.union main hyp_and_sug + Constr.UriManagerSet.union main hyp_and_sug in -(* Constr.StringSet.iter prerr_endline hyp_constants; *) +(* Constr.UriManagerSet.iter debug_print hyp_constants; *) let all_constants_closed = close_with_types all_constants metasenv context in let other_constants = - Constr.StringSet.diff all_constants_closed types_constants + Constr.UriManagerSet.diff all_constants_closed types_constants in - prerr_endline "all_constants_closed"; - Constr.StringSet.iter prerr_endline all_constants_closed; - prerr_endline "other_constants"; - Constr.StringSet.iter prerr_endline other_constants; + debug_print "all_constants_closed"; + Constr.UriManagerSet.iter debug_print all_constants_closed; + debug_print "other_constants"; + Constr.UriManagerSet.iter debug_print other_constants; let uris = - let pow = 2 ** (Constr.StringSet.cardinal other_constants) in + let pow = 2 ** (Constr.UriManagerSet.cardinal other_constants) in if ((List.length uris < pow) or (pow <= 0)) then begin - prerr_endline "MetadataQuery: large sig, falling back to old method"; + debug_print "MetadataQuery: large sig, falling back to old method"; filter_uris_forward ~dbd (main, other_constants) uris end else filter_uris_backward ~dbd ~facts (main, other_constants) uris - in *) + in let rec aux = function | [] -> [] | uri :: tl -> (let status' = try let (subst,(proof, goal_list)) = - (* prerr_endline ("STO APPLICANDO" ^ uri); *) + (* debug_print ("STO APPLICANDO" ^ uri); *) PrimitiveTactics.apply_tac_verbose ~term:(CicUtil.term_of_uri uri) status @@ -342,8 +330,8 @@ let experimental_hint let elim ~dbd uri = let constraints = [`Rel [`MainConclusion None]; - `Sort (Cic.Prop,[`MainHypothesis (Some 1)]); - `Obj (uri,[`MainHypothesis (Some 0)]); + `Sort (Cic.Prop,[`MainHypothesis (Some (MetadataTypes.Ge 1))]); + `Obj (uri,[`MainHypothesis (Some (MetadataTypes.Eq 0))]); `Obj (uri,[`InHypothesis]); ] in @@ -351,30 +339,176 @@ let elim ~dbd uri = let fill_with_dummy_constants t = - let rec aux i = + let rec aux i types = function Cic.Lambda (n,s,t) -> let dummy_uri = UriManager.uri_of_string ("cic:/dummy_"^(string_of_int i)) in - (aux (i+1) (CicSubstitution.subst (Cic.Const(dummy_uri,[])) t)) - | t -> t - in aux 0 t + (aux (i+1) (s::types) + (CicSubstitution.subst (Cic.Const(dummy_uri,[])) t)) + | t -> t,types + in + let t,types = aux 0 [] t in + t, List.rev types let instance ~dbd t = - let t' = fill_with_dummy_constants t in + let t',types = fill_with_dummy_constants t in let metadata = MetadataExtractor.compute ~body:None ~ty:t' in +(* List.iter + (fun x -> + debug_print + (MetadataPp.pp_constr (MetadataTypes.constr_of_metadata x))) + metadata; *) let no_concl = MetadataDb.count_distinct `Conclusion metadata in let no_hyp = MetadataDb.count_distinct `Hypothesis metadata in - let no_full = MetadataDb.count_distinct `Statement metadata in - let is_dummy = - function - `Obj(s, _) -> (String.sub s 0 10) <> "cic:/dummy" - | _ -> false in - let metadata = List.filter is_dummy metadata in - let constraints = List.map MetadataTypes.constr_of_metadata metadata in - let concl_card = Some (MetadataConstraints.Eq no_concl) in - let full_card = Some (MetadataConstraints.Eq no_full) in - let diff = Some (MetadataConstraints.Eq (no_hyp - no_concl)) in - Constr.at_least ~dbd ?concl_card ?full_card ?diff constraints + let no_full = MetadataDb.count_distinct `Statement metadata in + let is_dummy = function + | `Obj(s, _) -> (String.sub (UriManager.string_of_uri s) 0 10) <> "cic:/dummy" + | _ -> true + in + let rec look_for_dummy_main = function + | [] -> None + | `Obj(s,`MainConclusion (Some (MetadataTypes.Eq d)))::_ + when (String.sub (UriManager.string_of_uri s) 0 10 = "cic:/dummy") -> + let s = UriManager.string_of_uri s in + let len = String.length s in + let dummy_index = int_of_string (String.sub s 11 (len-11)) in + let dummy_type = List.nth types dummy_index in + Some (d,dummy_type) + | _::l -> look_for_dummy_main l + in + match (look_for_dummy_main metadata) with + | None-> +(* debug_print "Caso None"; *) + (* no dummy in main position *) + let metadata = List.filter is_dummy metadata in + let constraints = List.map MetadataTypes.constr_of_metadata metadata in + let concl_card = Some (MetadataConstraints.Eq no_concl) in + let full_card = Some (MetadataConstraints.Eq no_full) in + let diff = Some (MetadataConstraints.Eq (no_hyp - no_concl)) in + Constr.at_least ~dbd ?concl_card ?full_card ?diff constraints + | Some (depth, dummy_type) -> +(* debug_print + (sprintf "Caso Some %d %s" depth (CicPp.ppterm dummy_type)); *) + (* a dummy in main position *) + let metadata_for_dummy_type = + MetadataExtractor.compute ~body:None ~ty:dummy_type in + (* Let us skip this for the moment + let main_of_dummy_type = + look_for_dummy_main metadata_for_dummy_type in *) + let metadata = List.filter is_dummy metadata in + let constraints = List.map MetadataTypes.constr_of_metadata metadata in + let metadata_for_dummy_type = + List.filter is_dummy metadata_for_dummy_type in + let metadata_for_dummy_type, depth' = + (* depth' = the depth of the A -> A -> Prop *) + List.fold_left (fun (acc,dep) c -> + match c with + | `Sort (s,`MainConclusion (Some (MetadataTypes.Eq i))) -> + (`Sort (s,`MainConclusion (Some (MetadataTypes.Ge i))))::acc, i + | `Obj (s,`MainConclusion (Some (MetadataTypes.Eq i))) -> + (`Obj (s,`MainConclusion (Some (MetadataTypes.Ge i))))::acc, i + | `Rel (`MainConclusion (Some (MetadataTypes.Eq i))) -> + (`Rel (`MainConclusion (Some (MetadataTypes.Ge i))))::acc, i + | _ -> (c::acc,dep)) ([],0) metadata_for_dummy_type + in + let constraints_for_dummy_type = + List.map MetadataTypes.constr_of_metadata metadata_for_dummy_type in + (* start with the dummy constant in main conlusion *) + let from = ["refObj as table0"] in + let where = + [sprintf "table0.h_position = \"%s\"" MetadataTypes.mainconcl_pos; + sprintf "table0.h_depth >= %d" depth] in + let (n,from,where) = + List.fold_left + (MetadataConstraints.add_constraint ~start:2) + (2,from,where) constraints in + let concl_card = Some (MetadataConstraints.Eq no_concl) in + let full_card = Some (MetadataConstraints.Eq no_full) in + let diff = Some (MetadataConstraints.Eq (no_hyp - no_concl)) in + let (n,from,where) = + MetadataConstraints.add_all_constr + (n,from,where) concl_card full_card diff in + (* join with the constraints over the type of the constant *) + let where = + (sprintf "table0.h_occurrence = table%d.source" n)::where in + let where = + sprintf "table0.h_depth - table%d.h_depth = %d" + n (depth - depth')::where + in + let (m,from,where) = + List.fold_left + (MetadataConstraints.add_constraint ~start:n) + (n,from,where) constraints_for_dummy_type in + Constr.exec ~dbd (m,from,where) + +(* fwd_simpl ****************************************************************) + +let rec map_filter f n = function + | [] -> [] + | hd :: tl -> + match f n hd with + | None -> map_filter f (succ n) tl + | Some hd -> hd :: map_filter f (succ n) tl + +let get_uri t = + let aux = function + | Cic.Appl (hd :: tl) -> Some (CicUtil.uri_of_term hd, tl) + | hd -> Some (CicUtil.uri_of_term hd, []) + in + try aux t with + | Invalid_argument "uri_of_term" -> None + +let get_metadata t = + let f n t = + match get_uri t with + | None -> None + | Some (uri, _) -> Some (n, uri) + in + match get_uri t with + | None -> None + | Some (uri, args) -> Some (uri, map_filter f 1 args) +let debug_metadata = function + | None -> () + | Some (outer, inners) -> + let f (n, uri) = Printf.eprintf "%s: %i %s\n" "fwd" n uri in + Printf.eprintf "\n%s: %s\n" "fwd" outer; + List.iter f inners; prerr_newline () +let fwd_simpl ~dbd t = + let map inners row = + match row.(0), row.(1), row.(2) with + | Some source, Some inner, Some index -> + source, + List.mem + (int_of_string index, (UriManager.uri_of_string inner)) inners + | _ -> "", false + in + let rec rank ranks (source, ok) = + match ranks, ok with + | [], false -> [source, 0] + | [], true -> [source, 1] + | (uri, i) :: tl, false when uri = source -> (uri, 0) :: tl + | (uri, 0) :: tl, true when uri = source -> (uri, 0) :: tl + | (uri, i) :: tl, true when uri = source -> (uri, succ i) :: tl + | hd :: tl, _ -> hd :: rank tl (source, ok) + in + let compare (_, x) (_, y) = compare x y in + let filter n (uri, rank) = + if rank > 0 then Some (UriManager.uri_of_string uri) else None + in + match get_metadata t with + | None -> [] + | Some (outer, inners) -> + let select = "source, h_inner, h_index" in + let from = "genLemma" in + let where = + Printf.sprintf "h_outer = \"%s\"" + (Mysql.escape (UriManager.string_of_uri outer)) in + let query = Printf.sprintf "SELECT %s FROM %s WHERE %s" select from where in + let result = Mysql.exec dbd query in + let lemmas = Mysql.map result ~f:(map inners) in + let ranked = List.fold_left rank [] lemmas in + let ordered = List.rev (List.fast_sort compare ranked) in + map_filter filter 0 ordered