(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* head_const d | LetIn (_,_,_,d) -> head_const d | App (f,_) -> head_const f | Cast (d,_,_) -> head_const d | _ -> c (* General search, restricted to head constant if [only_head] *) let gen_crible refopt (fn : global_reference -> env -> constr -> unit) = let env = Global.env () in let crible_rec (sp,_) lobj = match object_tag lobj with | "VARIABLE" -> (try let (id,_,typ) = Global.lookup_named (basename sp) in if refopt = None || head_const typ = constr_of_global (Option.get refopt) then fn (VarRef id) env typ with Not_found -> (* we are in a section *) ()) | "CONSTANT" -> let cst = locate_constant (qualid_of_sp sp) in let typ = Typeops.type_of_constant env cst in if refopt = None || head_const typ = constr_of_global (Option.get refopt) then fn (ConstRef cst) env typ | "INDUCTIVE" -> let kn = locate_mind (qualid_of_sp sp) in let mib = Global.lookup_mind kn in (match refopt with | Some (IndRef ((kn',tyi) as ind)) when kn=kn' -> print_constructors ind fn env (Array.length (mib.mind_packets.(tyi).mind_user_lc)) | Some _ -> () | _ -> Array.iteri (fun i mip -> print_constructors (kn,i) fn env (Array.length mip.mind_user_lc)) mib.mind_packets) | _ -> () in try Declaremods.iter_all_segments crible_rec with Not_found -> () let crible ref = gen_crible (Some ref) (* Fine Search. By Yves Bertot. *) exception No_section_path let rec head c = let c = strip_outer_cast c in match kind_of_term c with | Prod (_,_,c) -> head c | LetIn (_,_,_,c) -> head c | _ -> c let constr_to_section_path c = match kind_of_term c with | Const sp -> sp | _ -> raise No_section_path let xor a b = (a or b) & (not (a & b)) let plain_display ref a c = let pc = pr_lconstr_env a c in let pr = pr_global ref in msg (hov 2 (pr ++ str":" ++ spc () ++ pc) ++ fnl ()) let filter_by_module (module_list:dir_path list) (accept:bool) (ref:global_reference) _ _ = try let sp = sp_of_global ref in let sl = dirpath sp in let rec filter_aux = function | m :: tl -> (not (is_dirpath_prefix_of m sl)) && (filter_aux tl) | [] -> true in xor accept (filter_aux module_list) with No_section_path -> false let ref_eq = Libnames.encode_kn Coqlib.logic_module (id_of_string "eq"), 0 let c_eq = mkInd ref_eq let gref_eq = IndRef ref_eq let mk_rewrite_pattern1 eq pattern = PApp (PRef eq, [| PMeta None; pattern; PMeta None |]) let mk_rewrite_pattern2 eq pattern = PApp (PRef eq, [| PMeta None; PMeta None; pattern |]) let pattern_filter pat _ a c = try try is_matching pat (head c) with _ -> is_matching pat (head (Typing.type_of (Global.env()) Evd.empty c)) with UserError _ -> false let filtered_search filter_function display_function ref = crible ref (fun s a c -> if filter_function s a c then display_function s a c) let rec id_from_pattern = function | PRef gr -> gr (* should be appear as a PRef (VarRef sp) !! | PVar id -> Nametab.locate (make_qualid [] (string_of_id id)) *) | PApp (p,_) -> id_from_pattern p | _ -> error "The pattern is not simple enough." let raw_pattern_search extra_filter display_function pat = let name = id_from_pattern pat in filtered_search (fun s a c -> (pattern_filter pat s a c) & extra_filter s a c) display_function name let raw_search_rewrite extra_filter display_function pattern = filtered_search (fun s a c -> ((pattern_filter (mk_rewrite_pattern1 gref_eq pattern) s a c) || (pattern_filter (mk_rewrite_pattern2 gref_eq pattern) s a c)) && extra_filter s a c) display_function gref_eq (* * functions to use the new Libtypes facility *) let raw_search search_function extra_filter display_function pat = let env = Global.env() in List.iter (fun (gr,_,_) -> let typ = Global.type_of_global gr in if extra_filter gr env typ then display_function gr env typ ) (search_function pat) let raw_pattern_search = raw_search Libtypes.search_concl let raw_search_rewrite = raw_search (Libtypes.search_eq_concl c_eq) let raw_search_by_head = raw_search Libtypes.search_head_concl let text_pattern_search extra_filter = raw_pattern_search extra_filter plain_display let text_search_rewrite extra_filter = raw_search_rewrite extra_filter plain_display let text_search_by_head extra_filter = raw_search_by_head extra_filter plain_display let filter_by_module_from_list = function | [], _ -> (fun _ _ _ -> true) | l, outside -> filter_by_module l (not outside) let search_by_head pat inout = text_search_by_head (filter_by_module_from_list inout) pat let search_rewrite pat inout = text_search_rewrite (filter_by_module_from_list inout) pat let search_pattern pat inout = text_pattern_search (filter_by_module_from_list inout) pat let gen_filtered_search filter_function display_function = gen_crible None (fun s a c -> if filter_function s a c then display_function s a c) (** SearchAbout *) let name_of_reference ref = string_of_id (id_of_global ref) type glob_search_about_item = | GlobSearchSubPattern of constr_pattern | GlobSearchString of string let search_about_item (itemref,typ) = function | GlobSearchSubPattern pat -> is_matching_appsubterm ~closed:false pat typ | GlobSearchString s -> string_string_contains (name_of_reference itemref) s let raw_search_about filter_modules display_function l = let filter ref' env typ = filter_modules ref' env typ && List.for_all (fun (b,i) -> b = search_about_item (ref',typ) i) l && not (string_string_contains (name_of_reference ref') "_subproof") in gen_filtered_search filter display_function let search_about ref inout = raw_search_about (filter_by_module_from_list inout) plain_display ref