(***********************************************************************) (* OCamldoc *) (* *) (* Maxence Guesdon, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 2001 Institut National de Recherche en Informatique et *) (* en Automatique. All rights reserved. This file is distributed *) (* under the terms of the Q Public License version 1.0. *) (* *) (***********************************************************************) (* $Id$ *) (** Research of elements through modules. *) module Name = Odoc_name open Odoc_parameter open Odoc_value open Odoc_type open Odoc_exception open Odoc_class open Odoc_module type result_element = Res_module of t_module | Res_module_type of t_module_type | Res_class of t_class | Res_class_type of t_class_type | Res_value of t_value | Res_type of t_type | Res_exception of t_exception | Res_attribute of t_attribute | Res_method of t_method | Res_section of string * Odoc_types.text type result = result_element list module type Predicates = sig type t val p_module : t_module -> t -> bool * bool val p_module_type : t_module_type -> t -> bool * bool val p_class : t_class -> t -> bool * bool val p_class_type : t_class_type -> t -> bool * bool val p_value : t_value -> t -> bool val p_type : t_type -> t -> bool val p_exception : t_exception -> t -> bool val p_attribute : t_attribute -> t -> bool val p_method : t_method -> t -> bool val p_section : string -> t -> bool end module Search = functor (P : Predicates) -> struct let search_section t s v = if P.p_section s v then [Res_section (s,t)] else [] let rec search_text root t v = List.flatten (List.map (fun e -> search_text_ele root e v) t) and search_text_ele root e v = let module T = Odoc_types in match e with | T.Raw _ | T.Code _ | T.CodePre _ | T.Latex _ | T.Verbatim _ | T.Ref (_, _, _) -> [] | T.Bold t | T.Italic t | T.Center t | T.Left t | T.Right t | T.Emphasize t | T.Block t | T.Superscript t | T.Subscript t | T.Custom (_,t) | T.Link (_, t) -> search_text root t v | T.List l | T.Enum l -> List.flatten (List.map (fun t -> search_text root t v) l) | T.Newline | T.Module_list _ | T.Index_list -> [] | T.Title (n, l_opt, t) -> (match l_opt with None -> [] | Some s -> search_section t (Name.concat root s) v) @ (search_text root t v) let search_value va v = if P.p_value va v then [Res_value va] else [] let search_type t v = if P.p_type t v then [Res_type t] else [] let search_exception e v = if P.p_exception e v then [Res_exception e] else [] let search_attribute a v = if P.p_attribute a v then [Res_attribute a] else [] let search_method m v = if P.p_method m v then [Res_method m] else [] let search_class c v = let (go_deeper, ok) = P.p_class c v in let l = if go_deeper then let res_att = List.fold_left (fun acc -> fun att -> acc @ (search_attribute att v)) [] (Odoc_class.class_attributes c) in let res_met = List.fold_left (fun acc -> fun m -> acc @ (search_method m v)) [] (Odoc_class.class_methods c) in let res_sec = List.fold_left (fun acc -> fun t -> acc @ (search_text c.cl_name t v)) [] (Odoc_class.class_comments c) in let l = res_att @ res_met @ res_sec in l else [] in if ok then (Res_class c) :: l else l let search_class_type ct v = let (go_deeper, ok) = P.p_class_type ct v in let l = if go_deeper then let res_att = List.fold_left (fun acc -> fun att -> acc @ (search_attribute att v)) [] (Odoc_class.class_type_attributes ct) in let res_met = List.fold_left (fun acc -> fun m -> acc @ (search_method m v)) [] (Odoc_class.class_type_methods ct) in let res_sec = List.fold_left (fun acc -> fun t -> acc @ (search_text ct.clt_name t v)) [] (Odoc_class.class_type_comments ct) in let l = res_att @ res_met @ res_sec in l else [] in if ok then (Res_class_type ct) :: l else l let rec search_module_type mt v = let (go_deeper, ok) = P.p_module_type mt v in let l = if go_deeper then let res_val = List.fold_left (fun acc -> fun va -> acc @ (search_value va v)) [] (Odoc_module.module_type_values mt) in let res_typ = List.fold_left (fun acc -> fun t -> acc @ (search_type t v)) [] (Odoc_module.module_type_types mt) in let res_exc = List.fold_left (fun acc -> fun e -> acc @ (search_exception e v)) [] (Odoc_module.module_type_exceptions mt) in let res_mod = search (Odoc_module.module_type_modules mt) v in let res_modtyp = List.fold_left (fun acc -> fun mt -> acc @ (search_module_type mt v)) [] (Odoc_module.module_type_module_types mt) in let res_cl = List.fold_left (fun acc -> fun cl -> acc @ (search_class cl v)) [] (Odoc_module.module_type_classes mt) in let res_cltyp = List.fold_left (fun acc -> fun clt -> acc @ (search_class_type clt v)) [] (Odoc_module.module_type_class_types mt) in let res_sec = List.fold_left (fun acc -> fun t -> acc @ (search_text mt.mt_name t v)) [] (Odoc_module.module_type_comments mt) in let l = res_val @ res_typ @ res_exc @ res_mod @ res_modtyp @ res_cl @ res_cltyp @ res_sec in l else [] in if ok then (Res_module_type mt) :: l else l and search_module m v = let (go_deeper, ok) = P.p_module m v in let l = if go_deeper then let res_val = List.fold_left (fun acc -> fun va -> acc @ (search_value va v)) [] (Odoc_module.module_values m) in let res_typ = List.fold_left (fun acc -> fun t -> acc @ (search_type t v)) [] (Odoc_module.module_types m) in let res_exc = List.fold_left (fun acc -> fun e -> acc @ (search_exception e v)) [] (Odoc_module.module_exceptions m) in let res_mod = search (Odoc_module.module_modules m) v in let res_modtyp = List.fold_left (fun acc -> fun mt -> acc @ (search_module_type mt v)) [] (Odoc_module.module_module_types m) in let res_cl = List.fold_left (fun acc -> fun cl -> acc @ (search_class cl v)) [] (Odoc_module.module_classes m) in let res_cltyp = List.fold_left (fun acc -> fun clt -> acc @ (search_class_type clt v)) [] (Odoc_module.module_class_types m) in let res_sec = List.fold_left (fun acc -> fun t -> acc @ (search_text m.m_name t v)) [] (Odoc_module.module_comments m) in let l = res_val @ res_typ @ res_exc @ res_mod @ res_modtyp @ res_cl @ res_cltyp @ res_sec in l else [] in if ok then (Res_module m) :: l else l and search module_list v = List.fold_left (fun acc -> fun m -> List.fold_left (fun acc2 -> fun ele -> if List.mem ele acc2 then acc2 else acc2 @ [ele] ) acc (search_module m v) ) [] module_list end module P_name = struct type t = Str.regexp let (=~) name regexp = Str.string_match regexp name 0 let p_module m r = (true, m.m_name =~ r) let p_module_type mt r = (true, mt.mt_name =~ r) let p_class c r = (true, c.cl_name =~ r) let p_class_type ct r = (true, ct.clt_name =~ r) let p_value v r = v.val_name =~ r let p_type t r = t.ty_name =~ r let p_exception e r = e.ex_name =~ r let p_attribute a r = a.att_value.val_name =~ r let p_method m r = m.met_value.val_name =~ r let p_section s r = s =~ r end module Search_by_name = Search ( P_name ) module P_values = struct type t = unit let p_module _ _ = (true, false) let p_module_type _ _ = (true, false) let p_class _ _ = (false, false) let p_class_type _ _ = (false, false) let p_value _ _ = true let p_type _ _ = false let p_exception _ _ = false let p_attribute _ _ = false let p_method _ _ = false let p_section _ _ = false end module Search_values = Search ( P_values ) let values l = let l_ele = Search_values.search l () in let p v1 v2 = v1.val_name = v2.val_name in let rec iter acc = function (Res_value v) :: q -> if List.exists (p v) acc then iter acc q else iter (v :: acc) q | _ :: q -> iter acc q | [] -> acc in iter [] l_ele module P_exceptions = struct type t = unit let p_module _ _ = (true, false) let p_module_type _ _ = (true, false) let p_class _ _ = (false, false) let p_class_type _ _ = (false, false) let p_value _ _ = false let p_type _ _ = false let p_exception _ _ = true let p_attribute _ _ = false let p_method _ _ = false let p_section _ _ = false end module Search_exceptions = Search ( P_exceptions ) let exceptions l = let l_ele = Search_exceptions.search l () in let p e1 e2 = e1.ex_name = e2.ex_name in let rec iter acc = function (Res_exception t) :: q -> if List.exists (p t) acc then iter acc q else iter (t :: acc) q | _ :: q -> iter acc q | [] -> acc in iter [] l_ele module P_types = struct type t = unit let p_module _ _ = (true, false) let p_module_type _ _ = (true, false) let p_class _ _ = (false, false) let p_class_type _ _ = (false, false) let p_value _ _ = false let p_type _ _ = true let p_exception _ _ = false let p_attribute _ _ = false let p_method _ _ = false let p_section _ _ = false end module Search_types = Search ( P_types ) let types l = let l_ele = Search_types.search l () in let p t1 t2 = t1.ty_name = t2.ty_name in let rec iter acc = function (Res_type t) :: q -> if List.exists (p t) acc then iter acc q else iter (t :: acc) q | _ :: q -> iter acc q | [] -> acc in iter [] l_ele module P_attributes = struct type t = unit let p_module _ _ = (true, false) let p_module_type _ _ = (true, false) let p_class _ _ = (true, false) let p_class_type _ _ = (true, false) let p_value _ _ = false let p_type _ _ = false let p_exception _ _ = false let p_attribute _ _ = true let p_method _ _ = false let p_section _ _ = false end module Search_attributes = Search ( P_attributes ) let attributes l = let l_ele = Search_attributes.search l () in let p a1 a2 = a1.att_value.val_name = a2.att_value.val_name in let rec iter acc = function (Res_attribute t) :: q -> if List.exists (p t) acc then iter acc q else iter (t :: acc) q | _ :: q -> iter acc q | [] -> acc in iter [] l_ele module P_methods = struct type t = unit let p_module _ _ = (true, false) let p_module_type _ _ = (true, false) let p_class _ _ = (true, false) let p_class_type _ _ = (true, false) let p_value _ _ = false let p_type _ _ = false let p_exception _ _ = false let p_attribute _ _ = false let p_method _ _ = true let p_section _ _ = true end module Search_methods = Search ( P_methods ) let methods l = let l_ele = Search_methods.search l () in let p m1 m2 = m1.met_value.val_name = m2.met_value.val_name in let rec iter acc = function (Res_method t) :: q -> if List.exists (p t) acc then iter acc q else iter (t :: acc) q | _ :: q -> iter acc q | [] -> acc in iter [] l_ele module P_classes = struct type t = unit let p_module _ _ = (true, false) let p_module_type _ _ = (true, false) let p_class _ _ = (false, true) let p_class_type _ _ = (false, false) let p_value _ _ = false let p_type _ _ = false let p_exception _ _ = false let p_attribute _ _ = false let p_method _ _ = false let p_section _ _ = false end module Search_classes = Search ( P_classes ) let classes l = let l_ele = Search_classes.search l () in let p c1 c2 = c1.cl_name = c2.cl_name in let rec iter acc = function (Res_class c) :: q -> if List.exists (p c) acc then iter acc q else iter (c :: acc) q | _ :: q -> iter acc q | [] -> acc in iter [] l_ele module P_class_types = struct type t = unit let p_module _ _ = (true, false) let p_module_type _ _ = (true, false) let p_class _ _ = (false, false) let p_class_type _ _ = (false, true) let p_value _ _ = false let p_type _ _ = false let p_exception _ _ = false let p_attribute _ _ = false let p_method _ _ = false let p_section _ _ = false end module Search_class_types = Search ( P_class_types ) let class_types l = let l_ele = Search_class_types.search l () in let p c1 c2 = c1.clt_name = c2.clt_name in let rec iter acc = function (Res_class_type c) :: q -> if List.exists (p c) acc then iter acc q else iter (c :: acc) q | _ :: q -> iter acc q | [] -> acc in iter [] l_ele module P_modules = struct type t = unit let p_module _ _ = (true, true) let p_module_type _ _ = (true, false) let p_class _ _ = (false, false) let p_class_type _ _ = (false, false) let p_value _ _ = false let p_type _ _ = false let p_exception _ _ = false let p_attribute _ _ = false let p_method _ _ = false let p_section _ _ = false end module Search_modules = Search ( P_modules ) let modules l = let l_ele = Search_modules.search l () in let p m1 m2 = m1.m_name = m2.m_name in let rec iter acc = function (Res_module m) :: q -> if List.exists (p m) acc then iter acc q else iter (m :: acc) q | _ :: q -> iter acc q | [] -> acc in iter [] l_ele module P_module_types = struct type t = unit let p_module _ _ = (true, false) let p_module_type _ _ = (true, true) let p_class _ _ = (false, false) let p_class_type _ _ = (false, false) let p_value _ _ = false let p_type _ _ = false let p_exception _ _ = false let p_attribute _ _ = false let p_method _ _ = false let p_section _ _ = false end module Search_module_types = Search ( P_module_types ) let module_types l = let l_ele = Search_module_types.search l () in let p m1 m2 = m1.mt_name = m2.mt_name in let rec iter acc = function (Res_module_type m) :: q -> if List.exists (p m) acc then iter acc q else iter (m :: acc) q | _ :: q -> iter acc q | [] -> acc in iter [] l_ele let type_exists mods regexp = let l = Search_by_name.search mods regexp in List.exists (function Res_type _ -> true | _ -> false ) l let value_exists mods regexp = let l = Search_by_name.search mods regexp in List.exists (function Res_value _ -> true | _ -> false ) l let class_exists mods regexp = let l = Search_by_name.search mods regexp in List.exists (function Res_class _ -> true | _ -> false ) l let class_type_exists mods regexp = let l = Search_by_name.search mods regexp in List.exists (function Res_class_type _ -> true | _ -> false ) l let module_exists mods regexp = let l = Search_by_name.search mods regexp in List.exists (function Res_module _ -> true | _ -> false ) l let module_type_exists mods regexp = let l = Search_by_name.search mods regexp in List.exists (function Res_module_type _ -> true | _ -> false ) l let exception_exists mods regexp = let l = Search_by_name.search mods regexp in List.exists (function Res_exception _ -> true | _ -> false ) l let attribute_exists mods regexp = let l = Search_by_name.search mods regexp in List.exists (function Res_attribute _ -> true | _ -> false ) l let method_exists mods regexp = let l = Search_by_name.search mods regexp in List.exists (function Res_method _ -> true | _ -> false ) l let find_section mods regexp = let l = Search_by_name.search mods regexp in match List.find (function Res_section _ -> true | _ -> false ) l with Res_section (_,t) -> t | _ -> assert false (* eof $Id$ *)