(***********************************************************************) (* *) (* OCamldoc *) (* *) (* Olivier Andrieu, base sur du code de Maxence Guesdon *) (* *) (* 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. *) (* *) (***********************************************************************) (** Generation of Texinfo documentation. *) open Odoc_info open Parameter open Value open Type open Exception open Class open Module let esc_8bits = ref false let info_section = ref "OCaml" let info_entry = ref [] (** {2 Some small helper functions} *) let puts_nl chan s = output_string chan s ; output_char chan '\n' let puts chan s = output_string chan s let nl chan = output_char chan '\n' let is = function | None -> false | Some _ -> true let pad_to n s = let len = String.length s in if len < n then let s' = String.make n ' ' in String.blit s 0 s' 0 len ; s' else s let indent nb_sp s = let c = ref 0 in let len = pred (String.length s) in for i = 0 to len do if s.[i] = '\n' then incr c done ; let s' = String.make (succ len + (succ !c) * nb_sp ) ' ' in c := nb_sp ; for i = 0 to len do s'.[!c] <- s.[i] ; if s.[i] = '\n' then c := !c + nb_sp ; incr c done ; s' type subparts = [ | `Module of Odoc_info.Module.t_module | `Module_type of Odoc_info.Module.t_module_type | `Class of Odoc_info.Class.t_class | `Class_type of Odoc_info.Class.t_class_type ] type menu_data = [ | subparts | `Blank | `Comment of string | `Texi of string | `Index of string ] list let nothing = Verbatim "" let module_subparts = let rec iter acc = function | [] -> List.rev acc (* skip aliases *) | Element_module { m_kind = Module_alias _ } :: n -> iter acc n | Element_module_type { mt_kind = Some (Module_type_alias _) } :: n -> iter acc n (* keep modules, module types, classes and class types *) | Element_module m :: n -> iter (`Module m :: acc) n | Element_module_type mt :: n -> iter (`Module_type mt :: acc) n | Element_class c :: n -> iter (`Class c :: acc) n | Element_class_type ct :: n -> iter (`Class_type ct :: acc) n (* forget the rest *) | _ :: n -> iter acc n in iter [] type indices = [ | `Type | `Exception | `Value | `Class_att | `Method | `Class | `Class_type | `Module | `Module_type ] let indices = function | `Type -> "ty" | `Exception -> "ex" | `Value -> "va" | `Class_att -> "ca" | `Method -> "me" | `Class -> "cl" | `Class_type -> "ct" | `Module -> "mo" | `Module_type -> "mt" let indices_names = [ "Types" , "ty" ; "Exceptions" , "ex" ; "Values" , "va" ; "Class attributes", "ca" ; "Methods" , "me" ; "Classes" , "cl" ; "Class types" , "ct" ; "Modules" , "mo" ; "Module types" , "mt" ; ] (** Module for generating various Texinfo things (menus, xrefs, ...) *) module Texi = struct (** Associations of strings to subsitute in Texinfo code. *) let subst_strings = [ (Str.regexp "@", "@@") ; (Str.regexp "{", "@{") ; (Str.regexp "}", "@}") ; (Str.regexp "\\.\\.\\.", "@dots{}") ; ] @ (if !esc_8bits then [ (Str.regexp "\xE0", "@`a") ; (Str.regexp "\xE2", "@^a") ; (Str.regexp "\xE9", "@'e") ; (Str.regexp "\xE8", "@`e") ; (Str.regexp "\xEA", "@^e") ; (Str.regexp "\xEB", "@\"e") ; (Str.regexp "\xF7", "@,{c}") ; (Str.regexp "\xF4", "@^o") ; (Str.regexp "\xF6", "@\"o") ; (Str.regexp "\xEE", "@^i") ; (Str.regexp "\xEF", "@\"i") ; (Str.regexp "\xF9", "@`u") ; (Str.regexp "\xFB", "@^u") ; (Str.regexp "\xE6", "@ae{}" ) ; (Str.regexp "\xC6", "@AE{}" ) ; (Str.regexp "\xDF", "@ss{}" ) ; (Str.regexp "\xA9", "@copyright{}" ) ; ] else []) (** Escape the strings which would clash with Texinfo syntax. *) let escape s = List.fold_left (fun acc (p, r) -> Str.global_replace p r acc) s subst_strings (** Removes dots (no good for a node name). *) let fix_nodename s = Str.global_replace (Str.regexp "\\.") "/" (escape s) (** Generates a Texinfo menu. *) let generate_menu chan subpart_list = if subpart_list <> [] then begin let menu_line part_qual name = let sname = Name.simple name in if sname = name then ( puts chan (pad_to 35 ("* " ^ sname ^ ":: ")) ; puts_nl chan part_qual ) else ( puts chan (pad_to 35 ("* " ^ sname ^ ": " ^ (fix_nodename name) ^ ". " )) ; puts_nl chan part_qual ) in puts_nl chan "@menu" ; List.iter (function | `Module { m_name = name } -> menu_line Odoc_messages.modul name | `Module_type { mt_name = name } -> menu_line Odoc_messages.module_type name | `Class { cl_name = name } -> menu_line Odoc_messages.clas name | `Class_type { clt_name = name } -> menu_line Odoc_messages.class_type name | `Blank -> nl chan | `Comment c -> puts_nl chan (escape c) | `Texi t -> puts_nl chan t | `Index ind -> Printf.fprintf chan "* %s::\n" ind) subpart_list ; puts_nl chan "@end menu" end (** cross reference to node [name] *) let xref ?xname name = "@xref{" ^ (fix_nodename name) ^ (match xname with | None -> "" | Some s -> "," ^ s) ^ "}." (** enclose the string between [\@ifinfo] tags *) let ifinfo s = String.concat "\n" [ "@ifinfo" ; s ; "@end ifinfo" ; "" ] (** [install-info] information *) let dirsection sec = "@dircategory " ^ (escape sec) let direntry ent = [ "@direntry" ] @ (List.map escape ent) @ [ "@end direntry" ] end (** {2 Generation of Texinfo code} *) (** This class generates Texinfo code from text structures *) class text = object(self) (** Associations between a title number and texinfo code. *) val titles = [ 1, "@chapter " ; 2, "@section " ; 3, "@subsection " ; 4, "@subsubsection " ; ] val fallback_title = "@unnumberedsubsubsec " val headings = [ 1, "@majorheading " ; 2, "@heading " ; 3, "@subheading " ; 4, "@subsubheading " ; ] val fallback_heading = "@subsubheading " method escape = Texi.escape (** this method is not used here but is virtual in a class we will inherit later *) method label ?(no_ : bool option) (_ : string) : string = failwith "gni" (** Return the Texinfo code corresponding to the [text] parameter.*) method texi_of_text t = String.concat "" (List.map self#texi_of_text_element t) (** {3 Conversion methods} [texi_of_????] converts a [text_element] to a Texinfo string. *) (** Return the Texinfo code for the [text_element] in parameter. *) method texi_of_text_element = function | Verbatim s | Latex s -> self#texi_of_Verbatim s | Raw s -> self#texi_of_Raw s | Code s -> self#texi_of_Code s | CodePre s -> self#texi_of_CodePre s | Bold t -> self#texi_of_Bold t | Italic t -> self#texi_of_Italic t | Emphasize t -> self#texi_of_Emphasize t | Center t -> self#texi_of_Center t | Left t -> self#texi_of_Left t | Right t -> self#texi_of_Right t | List tl -> self#texi_of_List tl | Enum tl -> self#texi_of_Enum tl | Newline -> self#texi_of_Newline | Block t -> self#texi_of_Block t | Title (n, _, t) -> self#texi_of_Title n t | Link (s, t) -> self#texi_of_Link s t | Ref (name, kind, _) ->self#texi_of_Ref name kind | Superscript t -> self#texi_of_Superscript t | Subscript t -> self#texi_of_Subscript t | Odoc_info.Module_list _ -> "" | Odoc_info.Index_list -> "" | Odoc_info.Custom (s,t) -> self#texi_of_custom_text s t | Odoc_info.Target (target, code) -> self#texi_of_Target ~target ~code method texi_of_custom_text s t = "" method texi_of_Target ~target ~code = if String.lowercase target = "texi" then code else "" method texi_of_Verbatim s = s method texi_of_Raw s = self#escape s method texi_of_Code s = "@code{" ^ (self#escape s) ^ "}" method texi_of_CodePre s = String.concat "\n" [ "" ; "@example" ; self#escape s ; "@end example" ; "" ] method texi_of_Bold t = "@strong{" ^ (self#texi_of_text t) ^ "}" method texi_of_Italic t = "@i{" ^ (self#texi_of_text t) ^ "}" method texi_of_Emphasize t = "@emph{" ^ (self#texi_of_text t) ^ "}" method texi_of_Center t = let sl = Str.split (Str.regexp "\n") (self#texi_of_text t) in String.concat "" ((List.map (fun s -> "\n@center "^s) sl) @ [ "\n" ]) method texi_of_Left t = String.concat "\n" [ "" ; "@flushleft" ; self#texi_of_text t ; "@end flushleft" ; "" ] method texi_of_Right t = String.concat "\n" [ "" ; "@flushright" ; self#texi_of_text t ; "@end flushright"; "" ] method texi_of_List tl = String.concat "\n" ( [ "" ; "@itemize" ] @ (List.map (fun t -> "@item\n" ^ (self#texi_of_text t)) tl) @ [ "@end itemize"; "" ] ) method texi_of_Enum tl = String.concat "\n" ( [ "" ; "@enumerate" ] @ (List.map (fun t -> "@item\n" ^ (self#texi_of_text t)) tl) @ [ "@end enumerate"; "" ] ) method texi_of_Newline = "\n" method texi_of_Block t = String.concat "\n" [ "@format" ; self#texi_of_text t ; "@end format" ; "" ] method texi_of_Title n t = let t_begin = try List.assoc n titles with Not_found -> fallback_title in t_begin ^ (self#texi_of_text t) ^ "\n" method texi_of_Link s t = String.concat "" [ "@uref{" ; s ; "," ; self#texi_of_text t ; "}" ] method texi_of_Ref name kind = let xname = match kind with | Some RK_module -> Odoc_messages.modul ^ " " ^ (Name.simple name) | Some RK_module_type -> Odoc_messages.module_type ^ " " ^ (Name.simple name) | Some RK_class -> Odoc_messages.clas ^ " " ^ (Name.simple name) | Some RK_class_type -> Odoc_messages.class_type ^ " " ^ (Name.simple name) | _ -> "" in if xname = "" then self#escape name else Texi.xref ~xname name method texi_of_Superscript t = "^@{" ^ (self#texi_of_text t) ^ "@}" method texi_of_Subscript t = "_@{" ^ (self#texi_of_text t) ^ "@}" method heading n t = let f = try List.assoc n headings with Not_found -> fallback_heading in f ^ (self#texi_of_text t) ^ "\n" method fixedblock t = Block ( ( Verbatim "@t{" :: t ) @ [ Verbatim "}" ] ) end exception Aliased_node module Generator = struct (** This class is used to create objects which can generate a simple Texinfo documentation. *) class texi = object (self) inherit text as to_texi inherit Odoc_to_text.to_text as to_text (** {3 Small helper stuff.} *) val maxdepth = 4 val bullet = Verbatim " @bullet{} " val minus = Verbatim " @minus{} " val linebreak = Verbatim "@*\n" val mutable indices_to_build = [ `Module ] (** Keep a set of nodes we create. If we try to create one a second time, that means it is some kind of alias, so don't do it, just link to the previous one *) val node_tbl = Hashtbl.create 37 method node depth name = if Hashtbl.mem node_tbl name then raise Aliased_node ; Hashtbl.add node_tbl name () ; if depth <= maxdepth then Verbatim ("@node " ^ (Texi.fix_nodename name) ^ ",\n") else nothing method index (ind : indices) ent = Verbatim (if !Global.with_index then (assert(List.mem ind indices_to_build) ; String.concat "" [ "@" ; indices ind ; "index " ; Texi.escape (Name.simple ent) ; "\n" ]) else "") (** Two hacks to fix linebreaks in the descriptions.*) method private fix_linebreaks = let re = Str.regexp "\n[ \t]*" in fun t -> List.map (function | Newline -> Raw "\n" | Raw s -> Raw (Str.global_replace re "\n" s) | List tel -> List (List.map self#fix_linebreaks tel) | Enum tel -> Enum (List.map self#fix_linebreaks tel) | te -> te) t method private soft_fix_linebreaks = let re = Str.regexp "\n[ \t]*" in fun ind t -> let rep = String.make (succ ind) ' ' in rep.[0] <- '\n' ; List.map (function | Raw s -> Raw (Str.global_replace re rep s) | te -> te) t (** {3 [text] values generation} Generates [text] values out of description parts. Redefines some of methods of {! Odoc_to_text.to_text}. *) method text_of_desc = function | None -> [] | Some [ Raw "" ] -> [] | Some t -> (self#fix_linebreaks t) @ [ Newline ] method text_of_sees_opt see_l = List.concat (List.map (function | (See_url s, t) -> [ linebreak ; Bold [ Raw Odoc_messages.see_also ] ; Raw " " ; Link (s, t) ; Newline ] | (See_file s, t) | (See_doc s, t) -> [ linebreak ; Bold [ Raw Odoc_messages.see_also ] ; Raw " " ; Raw s ] @ t @ [ Newline ]) see_l) method text_of_before l = List.flatten (List.map (fun x -> linebreak :: (to_text#text_of_before [x])) l) method text_of_params params_list = List.concat (List.map (fun (s, t) -> [ linebreak ; Bold [ Raw Odoc_messages.parameters ] ; Raw " " ; Raw s ; Raw ": " ] @ t @ [ Newline ] ) params_list) method! text_of_raised_exceptions = function | [] -> [] | (s, t) :: [] -> [ linebreak ; Bold [ Raw Odoc_messages.raises ] ; Raw " " ; Code s ; Raw " " ] @ t @ [ Newline ] | l -> [ linebreak ; Bold [ Raw Odoc_messages.raises ] ; Raw " :" ; List (List.map (fun (ex, desc) ->(Code ex) :: (Raw " ") :: desc ) l ) ; Newline ] method! text_of_return_opt = function | None -> [] | Some t -> (Bold [Raw Odoc_messages.returns ]) :: Raw " " :: t @ [ Newline ] method! text_of_custom c_l = List.flatten (List.rev (List.fold_left (fun acc -> fun (tag, text) -> try let f = List.assoc tag tag_functions in ( linebreak :: (f text) @ [ Newline ] ) :: acc with Not_found -> Odoc_info.warning (Odoc_messages.tag_not_handled tag) ; acc ) [] c_l)) method! text_of_info ?(block=false) = function | None -> [] | Some info -> let t = List.concat [ ( match info.i_deprecated with | None -> [] | Some t -> (Raw (Odoc_messages.deprecated ^ " ")) :: (self#fix_linebreaks t) @ [ Newline ; Newline ] ) ; self#text_of_desc info.i_desc ; if info.i_authors <> [] then ( linebreak :: self#text_of_author_list info.i_authors ) else [] ; if is info.i_version then ( linebreak :: self#text_of_version_opt info.i_version ) else [] ; self#text_of_sees_opt info.i_sees ; self#text_of_before info.i_before ; if is info.i_since then ( linebreak :: self#text_of_since_opt info.i_since ) else [] ; self#text_of_params info.i_params ; self#text_of_raised_exceptions info.i_raised_exceptions ; if is info.i_return_value then ( linebreak :: self#text_of_return_opt info.i_return_value ) else [] ; self#text_of_custom info.i_custom ; ] in if block then [ Block t ] else (t @ [ Newline ] ) method texi_of_info i = self#texi_of_text (self#text_of_info i) (** {3 Conversion of [module_elements] into Texinfo strings} The following functions convert [module_elements] and their description to [text] values then to Texinfo strings using the functions above. *) method text_el_of_type_expr m_name typ = Raw (indent 5 (self#relative_idents m_name (Odoc_info.string_of_type_expr typ))) method! text_of_short_type_expr m_name typ = [ Raw (self#normal_type m_name typ) ] (** Return Texinfo code for a value. *) method texi_of_value v = Odoc_info.reset_type_names () ; let t = [ self#fixedblock [ Newline ; minus ; Raw ("val " ^ (Name.simple v.val_name) ^ " :\n") ; self#text_el_of_type_expr (Name.father v.val_name) v.val_type ] ; self#index `Value v.val_name ; Newline ] @ (self#text_of_info v.val_info) in self#texi_of_text t (** Return Texinfo code for a class attribute. *) method texi_of_attribute a = Odoc_info.reset_type_names () ; let t = [ self#fixedblock [ Newline ; minus ; Raw "val " ; Raw (if a.att_virtual then "virtual " else "") ; Raw (if a.att_mutable then "mutable " else "") ; Raw (Name.simple a.att_value.val_name) ; Raw " :\n" ; self#text_el_of_type_expr (Name.father a.att_value.val_name) a.att_value.val_type ] ; self#index `Class_att a.att_value.val_name ; Newline ] @ (self#text_of_info a.att_value.val_info) in self#texi_of_text t (** Return Texinfo code for a class method. *) method texi_of_method m = Odoc_info.reset_type_names () ; let t = [ self#fixedblock [ Newline ; minus ; Raw "method " ; Raw (if m.met_private then "private " else "") ; Raw (if m.met_virtual then "virtual " else "") ; Raw (Name.simple m.met_value.val_name) ; Raw " :\n" ; self#text_el_of_type_expr (Name.father m.met_value.val_name) m.met_value.val_type ] ; self#index `Method m.met_value.val_name ; Newline ] @ (self#text_of_info m.met_value.val_info) in self#texi_of_text t method string_of_type_parameters t = let f (tp, co, cn) = Printf.sprintf "%s%s" (Odoc_info.string_of_variance t (co, cn)) (Odoc_info.string_of_type_expr tp) in match t.ty_parameters with | [] -> "" | [ (tp, co, cn) ] -> (f (tp, co, cn))^" " | l -> Printf.sprintf "(%s) " (String.concat ", " (List.map f l)) method string_of_type_args (args:Types.type_expr list) (ret:Types.type_expr option) = match args, ret with | [], None -> "" | args, None -> " of " ^ (Odoc_info.string_of_type_list " * " args) | [], Some r -> " : " ^ (Odoc_info.string_of_type_expr r) | args, Some r -> " : " ^ (Odoc_info.string_of_type_list " * " args) ^ " -> " ^ (Odoc_info.string_of_type_expr r) (** Return Texinfo code for a type. *) method texi_of_type ty = Odoc_info.reset_type_names () ; let t = [ self#fixedblock ( [ Newline ; minus ; Raw "type " ; Raw (self#string_of_type_parameters ty) ; Raw (Name.simple ty.ty_name) ] @ let priv = ty.ty_private = Asttypes.Private in ( match ty.ty_manifest with | None -> [] | Some typ -> (Raw " = ") :: (Raw (if priv then "private " else "")) :: (self#text_of_short_type_expr (Name.father ty.ty_name) typ) ) @ ( match ty.ty_kind with | Type_abstract -> [ Newline ] | Type_variant l -> (Raw (" ="^(if priv then " private" else "")^"\n")) :: (List.flatten (List.map (fun constr -> (Raw (" | " ^ constr.vc_name)) :: (Raw (self#string_of_type_args constr.vc_args constr.vc_ret)) :: (match constr.vc_text with | None -> [ Newline ] | Some t -> (Raw (indent 5 "\n(* ") :: self#soft_fix_linebreaks 8 t) @ [ Raw " *)" ; Newline ] ) ) l ) ) | Type_record l -> (Raw (" = "^(if priv then "private " else "")^"{\n")) :: (List.flatten (List.map (fun r -> [ Raw (" " ^ r.rf_name ^ " : ") ] @ (self#text_of_short_type_expr (Name.father r.rf_name) r.rf_type) @ [ Raw " ;" ] @ (match r.rf_text with | None -> [ Newline ] | Some t -> ((Raw (indent 5 "\n(* ")) :: (self#soft_fix_linebreaks 8 t)) @ [ Raw " *)" ; Newline ] ) ) l ) ) @ [ Raw " }" ] ) ) ; self#index `Type ty.ty_name ; Newline ] @ (self#text_of_info ty.ty_info) in self#texi_of_text t (** Return Texinfo code for an exception. *) method texi_of_exception e = Odoc_info.reset_type_names () ; let t = [ self#fixedblock ( [ Newline ; minus ; Raw "exception " ; Raw (Name.simple e.ex_name) ; Raw (self#string_of_type_args e.ex_args None) ] @ (match e.ex_alias with | None -> [] | Some ea -> [ Raw " = " ; Raw ( match ea.ea_ex with | None -> ea.ea_name | Some e -> e.ex_name ) ; ] ) ) ; self#index `Exception e.ex_name ; Newline ] @ (self#text_of_info e.ex_info) in self#texi_of_text t (** Return the Texinfo code for the given module. *) method texi_of_module m = let is_alias = function | { m_kind = Module_alias _ } -> true | _ -> false in let is_alias_there = function | { m_kind = Module_alias { ma_module = None } } -> false | _ -> true in let resolve_alias_name = function | { m_kind = Module_alias { ma_name = name } } -> name | { m_name = name } -> name in let t = [ [ self#fixedblock [ Newline ; minus ; Raw "module " ; Raw (Name.simple m.m_name) ; Raw (if is_alias m then " = " ^ (resolve_alias_name m) else "" ) ] ] ; ( if is_alias_there m then [ Ref (resolve_alias_name m, Some RK_module, None) ; Newline ; ] else [] ) ; ( if is_alias m then [ self#index `Module m.m_name ; Newline ] else [ Newline ] ) ; self#text_of_info m.m_info ] in self#texi_of_text (List.flatten t) (** Return the Texinfo code for the given module type. *) method texi_of_module_type mt = let is_alias = function | { mt_kind = Some (Module_type_alias _) } -> true | _ -> false in let is_alias_there = function | { mt_kind = Some (Module_type_alias { mta_module = None }) } -> false | _ -> true in let resolve_alias_name = function | { mt_kind = Some (Module_type_alias { mta_name = name }) } -> name | { mt_name = name } -> name in let t = [ [ self#fixedblock [ Newline ; minus ; Raw "module type " ; Raw (Name.simple mt.mt_name) ; Raw (if is_alias mt then " = " ^ (resolve_alias_name mt) else "" ) ] ] ; ( if is_alias_there mt then [ Ref (resolve_alias_name mt, Some RK_module_type, None) ; Newline ; ] else [] ) ; ( if is_alias mt then [ self#index `Module_type mt.mt_name ; Newline ] else [ Newline ] ) ; self#text_of_info mt.mt_info ] in self#texi_of_text (List.flatten t) (** Return the Texinfo code for the given included module. *) method texi_of_included_module im = let t = [ self#fixedblock ( Newline :: minus :: (Raw "include ") :: ( match im.im_module with | None -> [ Raw im.im_name ] | Some (Mod { m_name = name }) -> [ Raw name ; Raw "\n " ; Ref (name, Some RK_module, None) ] | Some (Modtype { mt_name = name }) -> [ Raw name ; Raw "\n " ; Ref (name, Some RK_module_type, None) ] ) @ [ Newline ] @ (self#text_of_info im.im_info) ) ] in self#texi_of_text t (** Return the Texinfo code for the given class. *) method texi_of_class c = Odoc_info.reset_type_names () ; let t = [ self#fixedblock [ Newline ; minus ; Raw "class " ; Raw (Name.simple c.cl_name) ] ; Ref (c.cl_name, Some RK_class, None) ; Newline ; Newline ] @ (self#text_of_info c.cl_info) in self#texi_of_text t (** Return the Texinfo code for the given class type. *) method texi_of_class_type ct = Odoc_info.reset_type_names () ; let t = [ self#fixedblock [ Newline ; minus ; Raw "class type " ; Raw (Name.simple ct.clt_name) ] ; Ref (ct.clt_name, Some RK_class_type, None) ; Newline ; Newline ] @ (self#text_of_info ct.clt_info) in self#texi_of_text t (** Return the Texinfo code for the given class element. *) method texi_of_class_element class_name class_ele = match class_ele with | Class_attribute att -> self#texi_of_attribute att | Class_method met -> self#texi_of_method met | Class_comment t -> self#texi_of_text t (** Return the Texinfo code for the given module element. *) method texi_of_module_element module_name module_ele = (match module_ele with | Element_module m -> self#texi_of_module m | Element_module_type mt -> self#texi_of_module_type mt | Element_included_module im -> self#texi_of_included_module im | Element_class c -> self#texi_of_class c | Element_class_type ct -> self#texi_of_class_type ct | Element_value v -> self#texi_of_value v | Element_exception e -> self#texi_of_exception e | Element_type t -> self#texi_of_type t | Element_module_comment t -> self#texi_of_text (Newline :: t @ [Newline]) ) (** {3 Generating methods } These methods write Texinfo code to an [out_channel] *) (** Generate the Texinfo code for the given list of inherited classes.*) method generate_inheritance_info chanout inher_l = let f inh = match inh.ic_class with | None -> (* we can't make the reference *) (Code inh.ic_name) :: (match inh.ic_text with | None -> [] | Some t -> Newline :: t) | Some cct -> (* we can create the reference *) let kind = match cct with | Cl _ -> Some RK_class | Cltype _ -> Some RK_class_type in (Code inh.ic_name) :: (Ref (inh.ic_name, kind, None)) :: ( match inh.ic_text with | None -> [] | Some t -> Newline :: t) in let text = [ Bold [ Raw Odoc_messages.inherits ] ; List (List.map f inher_l) ; Newline ] in puts chanout (self#texi_of_text text) (** Generate the Texinfo code for the inherited classes of the given class. *) method generate_class_inheritance_info chanout cl = let rec iter_kind = function | Class_structure ([], _) -> () | Class_structure (l, _) -> self#generate_inheritance_info chanout l | Class_constraint (k, _) -> iter_kind k | Class_apply _ | Class_constr _ -> () in iter_kind cl.cl_kind (** Generate the Texinfo code for the inherited classes of the given class type. *) method generate_class_type_inheritance_info chanout clt = match clt.clt_kind with | Class_signature ([], _) -> () | Class_signature (l, _) -> self#generate_inheritance_info chanout l | Class_type _ -> () (** Generate the Texinfo code for the given class, in the given out channel. *) method generate_for_class chanout c = try Odoc_info.reset_type_names () ; let depth = Name.depth c.cl_name in let title = [ self#node depth c.cl_name ; Title (depth, None, [ Raw (Odoc_messages.clas ^ " ") ; Code c.cl_name ]) ; self#index `Class c.cl_name ] in puts chanout (self#texi_of_text title) ; if is c.cl_info then begin let descr = [ Title (succ depth, None, [ Raw Odoc_messages.description ]) ] in puts chanout (self#texi_of_text descr) ; puts chanout (self#texi_of_info c.cl_info) end ; let intf = [ Title (succ depth, None, [ Raw Odoc_messages.interface]) ] in puts chanout (self#texi_of_text intf); self#generate_class_inheritance_info chanout c ; List.iter (fun ele -> puts chanout (self#texi_of_class_element c.cl_name ele)) (Class.class_elements ~trans:false c) with Aliased_node -> () (** Generate the Texinfo code for the given class type, in the given out channel. *) method generate_for_class_type chanout ct = try Odoc_info.reset_type_names () ; let depth = Name.depth ct.clt_name in let title = [ self#node depth ct.clt_name ; Title (depth, None, [ Raw (Odoc_messages.class_type ^ " ") ; Code ct.clt_name ]) ; self#index `Class_type ct.clt_name ] in puts chanout (self#texi_of_text title) ; if is ct.clt_info then begin let descr = [ Title (succ depth, None, [ Raw Odoc_messages.description ]) ] in puts chanout (self#texi_of_text descr) ; puts chanout (self#texi_of_info ct.clt_info) end ; let intf = [ Title (succ depth, None, [ Raw Odoc_messages.interface ]) ] in puts chanout (self#texi_of_text intf) ; self#generate_class_type_inheritance_info chanout ct; List.iter (fun ele -> puts chanout (self#texi_of_class_element ct.clt_name ele)) (Class.class_type_elements ~trans:false ct) with Aliased_node -> () (** Generate the Texinfo code for the given module type, in the given out channel. *) method generate_for_module_type chanout mt = try let depth = Name.depth mt.mt_name in let title = [ self#node depth mt.mt_name ; Title (depth, None, [ Raw (Odoc_messages.module_type ^ " ") ; Code mt.mt_name ]) ; self#index `Module_type mt.mt_name ; Newline ] in puts chanout (self#texi_of_text title) ; if is mt.mt_info then begin let descr = [ Title (succ depth, None, [ Raw Odoc_messages.description ]) ] in puts chanout (self#texi_of_text descr) ; puts chanout (self#texi_of_info mt.mt_info) end ; let mt_ele = Module.module_type_elements ~trans:true mt in let subparts = module_subparts mt_ele in if depth < maxdepth && subparts <> [] then begin let menu = Texi.ifinfo ( self#heading (succ depth) [ Raw "Subparts" ]) in puts chanout menu ; Texi.generate_menu chanout (subparts :> menu_data) end ; let intf = [ Title (succ depth, None, [ Raw Odoc_messages.interface ]) ] in puts chanout (self#texi_of_text intf) ; List.iter (fun ele -> puts chanout (self#texi_of_module_element mt.mt_name ele)) mt_ele ; (* create sub parts for modules, module types, classes and class types *) List.iter (function | `Module m -> self#generate_for_module chanout m | `Module_type mt -> self#generate_for_module_type chanout mt | `Class c -> self#generate_for_class chanout c | `Class_type ct -> self#generate_for_class_type chanout ct) subparts with Aliased_node -> () (** Generate the Texinfo code for the given module, in the given out channel. *) method generate_for_module chanout m = try Odoc_info.verbose ("Generate for module " ^ m.m_name) ; let depth = Name.depth m.m_name in let title = [ self#node depth m.m_name ; Title (depth, None, if m.m_text_only then [ Raw m.m_name ] else [ Raw (Odoc_messages.modul ^ " ") ; Code m.m_name ] ) ; self#index `Module m.m_name ; Newline ] in puts chanout (self#texi_of_text title) ; if is m.m_info then begin let descr = [ Title (succ depth, None, [ Raw Odoc_messages.description ]) ] in puts chanout (self#texi_of_text descr) ; puts chanout (self#texi_of_info m.m_info) end ; let m_ele = Module.module_elements ~trans:true m in let subparts = module_subparts m_ele in if depth < maxdepth && subparts <> [] then begin let menu = Texi.ifinfo ( self#heading (succ depth) [ Raw "Subparts" ]) in puts chanout menu ; Texi.generate_menu chanout (subparts :> menu_data) end ; let intf = [ Title (succ depth, None, [ Raw Odoc_messages.interface]) ] in puts chanout (self#texi_of_text intf) ; List.iter (fun ele -> puts chanout (self#texi_of_module_element m.m_name ele)) m_ele ; (* create sub nodes for modules, module types, classes and class types *) List.iter (function | `Module m -> self#generate_for_module chanout m | `Module_type mt -> self#generate_for_module_type chanout mt | `Class c -> self#generate_for_class chanout c | `Class_type ct -> self#generate_for_class_type chanout ct ) subparts with Aliased_node -> () (** Writes the header of the TeXinfo document. *) method generate_texi_header chan texi_filename m_list = let title = match !Global.title with | None -> "" | Some s -> self#escape s in let filename = if texi_filename <> "ocamldoc.texi" then let fn = Filename.basename texi_filename in (if Filename.check_suffix fn ".texi" then Filename.chop_suffix fn ".texi" else fn) ^ ".info" else if title <> "" then title ^ ".info" else "doc.info" in (* write a standard Texinfo header *) List.iter (puts_nl chan) (List.flatten [ [ "\\input texinfo @c -*-texinfo-*-" ; "@c %**start of header" ; "@setfilename " ^ filename ; "@settitle " ^ title ; "@c %**end of header" ; ] ; (if !Global.with_index then List.map (fun ind -> "@defcodeindex " ^ (indices ind)) indices_to_build else []) ; [ Texi.dirsection !info_section ] ; Texi.direntry (if !info_entry <> [] then !info_entry else [ Printf.sprintf "* %s: (%s)." title (Filename.chop_suffix filename ".info") ]) ; [ "@ifinfo" ; "This file was generated by Ocamldoc using the Texinfo generator." ; "@end ifinfo" ; "@c no titlepage." ; "@node Top, , , (dir)" ; "@top "^ title ; ] ] ) ; (* insert the intro file *) begin match !Odoc_info.Global.intro_file with | None when title <> "" -> puts_nl chan "@ifinfo" ; puts_nl chan ("Documentation for " ^ title) ; puts_nl chan "@end ifinfo" | None -> puts_nl chan "@c no title given" | Some f -> nl chan ; puts_nl chan (self#texi_of_info (Some (Odoc_info.info_of_comment_file m_list f))) end ; (* write a top menu *) Texi.generate_menu chan ((List.map (fun m -> `Module m) m_list) @ (if !Global.with_index then let indices_names_to_build = List.map indices indices_to_build in List.rev (List.fold_left (fun acc -> function (longname, shortname) when List.mem shortname indices_names_to_build -> (`Index (longname ^ " index")) :: acc | _ -> acc) [ `Comment "Indices :" ; `Blank ] indices_names ) else [] )) (** Writes the trailer of the TeXinfo document. *) method generate_texi_trailer chan = nl chan ; if !Global.with_index then let indices_names_to_build = List.map indices indices_to_build in List.iter (puts_nl chan) (List.flatten (List.map (fun (longname, shortname) -> if List.mem shortname indices_names_to_build then [ "@node " ^ longname ^ " index," ; "@unnumbered " ^ longname ^ " index" ; "@printindex " ^ shortname ; ] else []) indices_names )) ; if !Global.with_toc then puts_nl chan "@contents" ; puts_nl chan "@bye" method do_index it = if not (List.mem it indices_to_build) then indices_to_build <- it :: indices_to_build (** Scan the whole module information to know which indices need to be build *) method scan_for_index : subparts -> unit = function | `Module m -> let m_ele = Module.module_elements ~trans:true m in List.iter self#scan_for_index_in_mod m_ele | `Module_type mt -> let m_ele = Module.module_type_elements ~trans:true mt in List.iter self#scan_for_index_in_mod m_ele | `Class c -> let c_ele = Class.class_elements ~trans:true c in List.iter self#scan_for_index_in_class c_ele | `Class_type ct -> let c_ele = Class.class_type_elements ~trans:true ct in List.iter self#scan_for_index_in_class c_ele method scan_for_index_in_mod = function (* no recursion *) | Element_value _ -> self#do_index `Value | Element_exception _ -> self#do_index `Exception | Element_type _ -> self#do_index `Type | Element_included_module _ | Element_module_comment _ -> () (* recursion *) | Element_module m -> self#do_index `Module ; self#scan_for_index (`Module m) | Element_module_type mt -> self#do_index `Module_type ; self#scan_for_index (`Module_type mt) | Element_class c -> self#do_index `Class ; self#scan_for_index (`Class c) | Element_class_type ct -> self#do_index `Class_type ; self#scan_for_index (`Class_type ct) method scan_for_index_in_class = function | Class_attribute _ -> self#do_index `Class_att | Class_method _ -> self#do_index `Method | Class_comment _ -> () (** Generate the Texinfo file from a module list, in the {!Odoc_info.Global.out_file} file. *) method generate module_list = Hashtbl.clear node_tbl ; let filename = if !Global.out_file = Odoc_messages.default_out_file then "ocamldoc.texi" else !Global.out_file in if !Global.with_index then List.iter self#scan_for_index (List.map (fun m -> `Module m) module_list) ; try let chanout = open_out (Filename.concat !Global.target_dir filename) in if !Global.with_header then self#generate_texi_header chanout filename module_list ; List.iter (self#generate_for_module chanout) module_list ; if !Global.with_trailer then self#generate_texi_trailer chanout ; close_out chanout with | Failure s | Sys_error s -> prerr_endline s ; incr Odoc_info.errors end end module type Texi_generator = module type of Generator