(***********************************************************************) (* *) (* 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. *) (* *) (***********************************************************************) (** Text generation. This module contains the class [to_text] with methods used to transform information about elements to a [text] structure.*) open Odoc_info open Exception open Type open Value open Module open Class open Parameter (** A class used to get a [text] for info structures. *) class virtual info = object (self) (** The list of pairs [(tag, f)] where [f] is a function taking the [text] associated to [tag] and returning a [text]. Add a pair here to handle a tag.*) val mutable tag_functions = ([] : (string * (Odoc_info.text -> Odoc_info.text)) list) (** @return [etxt] value for an authors list. *) method text_of_author_list l = match l with [] -> [] | _ -> [ Bold [Raw (Odoc_messages.authors^": ")] ; Raw (String.concat ", " l) ; Newline ] (** @return [text] value for the given optional version information.*) method text_of_version_opt v_opt = match v_opt with None -> [] | Some v -> [ Bold [Raw (Odoc_messages.version^": ")] ; Raw v ; Newline ] (** @return [text] value for the given optional since information.*) method text_of_since_opt s_opt = match s_opt with None -> [] | Some s -> [ Bold [Raw (Odoc_messages.since^": ")] ; Raw s ; Newline ] (** @return [text] value to represent the list of "before" information. *) method text_of_before = function [] -> [] | l -> let f (v, text) = (Bold [Raw (Printf.sprintf "%s %s " Odoc_messages.before v) ]) :: text @ [Newline] in List.flatten (List.map f l) (** @return [text] value for the given list of raised exceptions.*) method text_of_raised_exceptions l = match l with [] -> [] | (s, t) :: [] -> [ Bold [ Raw Odoc_messages.raises ] ; Raw " " ; Code s ; Raw " " ] @ t @ [ Newline ] | _ -> [ Bold [ Raw Odoc_messages.raises ] ; Raw " " ; List (List.map (fun (ex, desc) ->(Code ex) :: (Raw " ") :: desc ) l ) ; Newline ] (** Return [text] value for the given "see also" reference. *) method text_of_see (see_ref, t) = let t_ref = match see_ref with Odoc_info.See_url s -> [ Odoc_info.Link (s, t) ] | Odoc_info.See_file s -> (Odoc_info.Code s) :: (Odoc_info.Raw " ") :: t | Odoc_info.See_doc s -> (Odoc_info.Italic [Odoc_info.Raw s]) :: (Odoc_info.Raw " ") :: t in t_ref (** Return [text] value for the given list of "see also" references.*) method text_of_sees l = match l with [] -> [] | see :: [] -> (Bold [ Raw Odoc_messages.see_also ]) :: (Raw " ") :: (self#text_of_see see) @ [ Newline ] | _ -> (Bold [ Raw Odoc_messages.see_also ]) :: [ List (List.map (fun see -> self#text_of_see see) l ); Newline ] (** @return [text] value for the given optional return information.*) method text_of_return_opt return_opt = match return_opt with None -> [] | Some t -> (Bold [Raw (Odoc_messages.returns^" ")]) :: t @ [ Newline ] (** Return a [text] for the given list of custom tagged texts. *) method text_of_custom l = List.fold_left (fun acc -> fun (tag, text) -> try let f = List.assoc tag tag_functions in match acc with [] -> f text | _ -> acc @ (Newline :: (f text)) with Not_found -> Odoc_info.warning (Odoc_messages.tag_not_handled tag) ; acc ) [] l (** @return [text] value for a description, except for the i_params field. *) method text_of_info ?(block=true) info_opt = match info_opt with None -> [] | Some info -> let t = (match info.i_deprecated with None -> [] | Some t -> ( Italic [Raw (Odoc_messages.deprecated^" ")] ) :: t ) @ (match info.i_desc with None -> [] | Some t when t = [Odoc_info.Raw ""] -> [] | Some t -> t @ [ Newline ] ) @ (self#text_of_author_list info.i_authors) @ (self#text_of_version_opt info.i_version) @ (self#text_of_before info.i_before) @ (self#text_of_since_opt info.i_since) @ (self#text_of_raised_exceptions info.i_raised_exceptions) @ (self#text_of_return_opt info.i_return_value) @ (self#text_of_sees info.i_sees) @ (self#text_of_custom info.i_custom) in if block then [Block t] else t end (** This class defines methods to generate a [text] structure from elements. *) class virtual to_text = object (self) inherit info method virtual label : ?no_: bool -> string -> string (** Take a string and return the string where fully qualified idents have been replaced by idents relative to the given module name. Also remove the "hidden modules".*) method relative_idents m_name s = let f str_t = let match_s = Str.matched_string str_t in let rel = Name.get_relative m_name match_s in Odoc_info.apply_if_equal Odoc_info.use_hidden_modules match_s rel in let s2 = Str.global_substitute (Str.regexp "\\([A-Z]\\([a-zA-Z_'0-9]\\)*\\.\\)+\\([a-z][a-zA-Z_'0-9]*\\)") f s in s2 (** Take a string and return the string where fully qualified idents have been replaced by idents relative to the given module name. Also remove the "hidden modules".*) method relative_module_idents m_name s = let f str_t = let match_s = Str.matched_string str_t in let rel = Name.get_relative m_name match_s in Odoc_info.apply_if_equal Odoc_info.use_hidden_modules match_s rel in let s2 = Str.global_substitute (Str.regexp "\\([A-Z]\\([a-zA-Z_'0-9]\\)*\\.\\)+\\([A-Z][a-zA-Z_'0-9]*\\)") f s in s2 (** Get a string for a [Types.class_type] where all idents are relative. *) method normal_class_type m_name t = self#relative_idents m_name (Odoc_info.string_of_class_type t) (** Get a string for a [Types.module_type] where all idents are relative. *) method normal_module_type ?code m_name t = self#relative_module_idents m_name (Odoc_info.string_of_module_type ?code t) (** Get a string for a type where all idents are relative. *) method normal_type m_name t = self#relative_idents m_name (Odoc_info.string_of_type_expr t) (** Get a string for a list of types where all idents are relative. *) method normal_type_list ?par m_name sep t = self#relative_idents m_name (Odoc_info.string_of_type_list ?par sep t) (** Get a string for a list of class or class type type parameters where all idents are relative. *) method normal_class_type_param_list m_name t = self#relative_idents m_name (Odoc_info.string_of_class_type_param_list t) (** Get a string for the parameters of a class (with arrows) where all idents are relative. *) method normal_class_params m_name c = let s = Odoc_info.string_of_class_params c in self#relative_idents m_name (Odoc_info.remove_ending_newline s) (** @return [text] value to represent a [Types.type_expr].*) method text_of_type_expr module_name t = let t = List.flatten (List.map (fun s -> [Code s ; Newline ]) (Str.split (Str.regexp "\n") (self#normal_type module_name t)) ) in t (** Return [text] value for a given short [Types.type_expr].*) method text_of_short_type_expr module_name t = [ Code (self#normal_type module_name t) ] (** Return [text] value or the given list of [Types.type_expr], with the given separator. *) method text_of_type_expr_list module_name sep l = [ Code (self#normal_type_list module_name sep l) ] (** Return [text] value or the given list of [Types.type_expr], as type parameters of a class of class type. *) method text_of_class_type_param_expr_list module_name l = [ Code (self#normal_class_type_param_list module_name l) ] (** @return [text] value to represent parameters of a class (with arraows).*) method text_of_class_params module_name c = let t = Odoc_info.text_concat [Newline] (List.map (fun s -> [Code s]) (Str.split (Str.regexp "\n") (self#normal_class_params module_name c)) ) in t (** @return [text] value to represent a [Types.module_type]. *) method text_of_module_type t = let s = String.concat "\n" (Str.split (Str.regexp "\n") (Odoc_info.string_of_module_type t)) in [ Code s ] (** @return [text] value for a value. *) method text_of_value v = let name = v.val_name in let s_name = Name.simple name in let s = Format.fprintf Format.str_formatter "@[val %s :@ %s" s_name (self#normal_type (Name.father v.val_name) v.val_type); Format.flush_str_formatter () in [ CodePre s ] @ [Latex ("\\index{"^(self#label s_name)^"@\\verb`"^(self#label ~no_:false s_name)^"`}\n")] @ (self#text_of_info v.val_info) (** @return [text] value for a class attribute. *) method text_of_attribute a = let s_name = Name.simple a.att_value.val_name in let mod_name = Name.father a.att_value.val_name in let s = Format.fprintf Format.str_formatter "@[val %s%s%s :@ %s" (if a.att_virtual then "virtual " else "") (if a.att_mutable then "mutable " else "") s_name (self#normal_type mod_name a.att_value.val_type); Format.flush_str_formatter () in (CodePre s) :: [Latex ("\\index{"^(self#label s_name)^"@\\verb`"^(self#label ~no_:false s_name)^"`}\n")] @ (self#text_of_info a.att_value.val_info) (** @return [text] value for a class method. *) method text_of_method m = let s_name = Name.simple m.met_value.val_name in let mod_name = Name.father m.met_value.val_name in let s = Format.fprintf Format.str_formatter "@[method %s%s%s :@ %s" (if m.met_private then "private " else "") (if m.met_virtual then "virtual " else "") s_name (self#normal_type mod_name m.met_value.val_type); Format.flush_str_formatter () in (CodePre s) :: [Latex ("\\index{"^(self#label s_name)^"@\\verb`"^(self#label ~no_:false s_name)^"`}\n")] @ (self#text_of_info m.met_value.val_info) (** @return [text] value for an exception. *) method text_of_exception e = let s_name = Name.simple e.ex_name in Format.fprintf Format.str_formatter "@[exception %s" s_name ; (match e.ex_args with [] -> () | _ -> Format.fprintf Format.str_formatter "@ of " ); let s = self#normal_type_list ~par: false (Name.father e.ex_name) " * " e.ex_args in let s2 = Format.fprintf Format.str_formatter "%s" s ; (match e.ex_alias with None -> () | Some ea -> Format.fprintf Format.str_formatter " = %s" ( match ea.ea_ex with None -> ea.ea_name | Some e -> e.ex_name ) ); Format.flush_str_formatter () in [ CodePre s2 ] @ [Latex ("\\index{"^(self#label s_name)^"@\\verb`"^(self#label ~no_:false s_name)^"`}\n")] @ (self#text_of_info e.ex_info) (** Return [text] value for the description of a function parameter. *) method text_of_parameter_description p = match Parameter.names p with [] -> [] | name :: [] -> ( (* Only one name, no need for label for the description. *) match Parameter.desc_by_name p name with None -> [] | Some t -> t ) | l -> (* A list of names, we display those with a description. *) let l2 = List.filter (fun n -> (Parameter.desc_by_name p n) <> None) l in match l2 with [] -> [] | _ -> [List (List.map (fun n -> match Parameter.desc_by_name p n with None -> [] (* should not occur *) | Some t -> [Code (n^" ") ; Raw ": "] @ t ) l2 ) ] (** Return [text] value for a list of parameters. *) method text_of_parameter_list m_name l = match l with [] -> [] | _ -> [ Bold [Raw Odoc_messages.parameters] ; Raw ":" ; List (List.map (fun p -> (match Parameter.complete_name p with "" -> Code "?" | s -> Code s ) :: [Code " : "] @ (self#text_of_short_type_expr m_name (Parameter.typ p)) @ [Newline] @ (self#text_of_parameter_description p) ) l ) ] (** Return [text] value for a list of module parameters. *) method text_of_module_parameter_list l = match l with [] -> [] | _ -> [ Newline ; Bold [Raw Odoc_messages.parameters] ; Raw ":" ; List (List.map (fun (p, desc_opt) -> [Code (p.mp_name^" : ")] @ (self#text_of_module_type p.mp_type) @ (match desc_opt with None -> [] | Some t -> (Raw " ") :: t) ) l ) ] (**/**) (** Return [text] value for the given [class_kind].*) method text_of_class_kind father ckind = match ckind with Class_structure _ -> [Code Odoc_messages.object_end] | Class_apply capp -> [Code ( ( match capp.capp_class with None -> capp.capp_name | Some cl -> cl.cl_name )^ " "^ (String.concat " " (List.map (fun s -> "("^s^")") capp.capp_params_code)) ) ] | Class_constr cco -> ( match cco.cco_type_parameters with [] -> [] | l -> (Code "["):: (self#text_of_type_expr_list father ", " l)@ [Code "] "] )@ [Code ( match cco.cco_class with None -> cco.cco_name | Some (Cl cl) -> Name.get_relative father cl.cl_name | Some (Cltype (clt,_)) -> Name.get_relative father clt.clt_name ) ] | Class_constraint (ck, ctk) -> [Code "( "] @ (self#text_of_class_kind father ck) @ [Code " : "] @ (self#text_of_class_type_kind father ctk) @ [Code " )"] (** Return [text] value for the given [class_type_kind].*) method text_of_class_type_kind father ctkind = match ctkind with Class_type cta -> ( match cta.cta_type_parameters with [] -> [] | l -> (Code "[") :: (self#text_of_class_type_param_expr_list father l) @ [Code "] "] ) @ ( match cta.cta_class with None -> [ Code cta.cta_name ] | Some (Cltype (clt, _)) -> let rel = Name.get_relative father clt.clt_name in [Code rel] | Some (Cl cl) -> let rel = Name.get_relative father cl.cl_name in [Code rel] ) | Class_signature _ -> [Code Odoc_messages.object_end] (** Return [text] value for a [module_kind]. *) method text_of_module_kind ?(with_def_syntax=true) k = match k with Module_alias m_alias -> (match m_alias.ma_module with None -> [Code ((if with_def_syntax then " = " else "")^m_alias.ma_name)] | Some (Mod m) -> [Code ((if with_def_syntax then " = " else "")^m.m_name)] | Some (Modtype mt) -> [Code ((if with_def_syntax then " = " else "")^mt.mt_name)] ) | Module_apply (k1, k2) -> (if with_def_syntax then [Code " = "] else []) @ (self#text_of_module_kind ~with_def_syntax: false k1) @ [Code " ( "] @ (self#text_of_module_kind ~with_def_syntax: false k2) @ [Code " ) "] | Module_with (tk, code) -> (if with_def_syntax then [Code " : "] else []) @ (self#text_of_module_type_kind ~with_def_syntax: false tk) @ [Code code] | Module_constraint (k, tk) -> (if with_def_syntax then [Code " : "] else []) @ [Code "( "] @ (self#text_of_module_kind ~with_def_syntax: false k) @ [Code " : "] @ (self#text_of_module_type_kind ~with_def_syntax: false tk) @ [Code " )"] | Module_struct _ -> [Code ((if with_def_syntax then " : " else "")^ Odoc_messages.struct_end^" ")] | Module_functor (p, k) -> (if with_def_syntax then [Code " : "] else []) @ [Code "functor ... "] @ [Code " -> "] @ (self#text_of_module_kind ~with_def_syntax: false k) | Module_typeof s -> let code = Printf.sprintf "%smodule type of %s" (if with_def_syntax then " : " else "") s in [Code code] | Module_unpack (code, _) -> let code = Printf.sprintf "%s%s" (if with_def_syntax then " : " else "") code in [Code code] (** Return html code for a [module_type_kind].*) method text_of_module_type_kind ?(with_def_syntax=true) tk = match tk with | Module_type_struct _ -> [Code ((if with_def_syntax then " = " else "")^Odoc_messages.sig_end)] | Module_type_functor (p, k) -> let t1 = [Code ("("^p.mp_name^" : ")] @ (self#text_of_module_type_kind p.mp_kind) @ [Code ") -> "] in let t2 = self#text_of_module_type_kind ~with_def_syntax: false k in (if with_def_syntax then [Code " = "] else []) @ t1 @ t2 | Module_type_with (tk2, code) -> let t = self#text_of_module_type_kind ~with_def_syntax: false tk2 in (if with_def_syntax then [Code " = "] else []) @ t @ [Code code] | Module_type_alias mt_alias -> [Code ((if with_def_syntax then " = " else "")^ (match mt_alias.mta_module with None -> mt_alias.mta_name | Some mt -> mt.mt_name)) ] | Odoc_module.Module_type_typeof s -> let code = Printf.sprintf "%smodule type of %s" (if with_def_syntax then " = " else "") s in [ Code code ] end