(**************************************************************************)
(* *)
(* OCaml *)
(* *)
(* 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 GNU Lesser General Public License version 2.1, with the *)
(* special exception on linking described in the file LICENSE. *)
(* *)
(**************************************************************************)
(** Generation of html documentation.*)
let print_DEBUG s = print_string s ; print_newline ()
open Odoc_info
open Value
open Type
open Extension
open Exception
open Class
open Module
module String = Misc.Stdlib.String
let with_parameter_list = ref false
let css_style = ref None
let index_only = ref false
let colorize_code = ref false
let html_short_functors = ref false
let charset = ref "iso-8859-1"
(** The functions used for naming files and html marks.*)
module Naming =
struct
(** The prefix for modules marks. *)
let mark_module = "MODULE"
(** The prefix for module type marks. *)
let mark_module_type = "MODULETYPE"
(** The prefix for types marks. *)
let mark_type = "TYPE"
(** The prefix for types elements (record fields or constructors). *)
let mark_type_elt = "TYPEELT"
(** The prefix for functions marks. *)
let mark_function = "FUN"
(** The prefix for extensions marks. *)
let mark_extension = "EXTENSION"
(** The prefix for exceptions marks. *)
let mark_exception = "EXCEPTION"
(** The prefix for values marks. *)
let mark_value = "VAL"
(** The prefix for attributes marks. *)
let mark_attribute = "ATT"
(** The prefix for methods marks. *)
let mark_method = "METHOD"
(** The prefix for code files. *)
let code_prefix = "code_"
(** The prefix for type files. *)
let type_prefix = "type_"
(** Return the two html files names for the given module or class name.*)
let html_files name =
let qual =
try
let i = String.rindex name '.' in
match name.[i + 1] with
| 'A'..'Z' -> ""
| _ -> "-c"
with Not_found -> ""
in
let prefix = name^qual in
let html_file = prefix^".html" in
let html_frame_file = prefix^"-frame.html" in
(html_file, html_frame_file)
(** Return the target for the given prefix and simple name. *)
let target pref simple_name = pref^simple_name
(** Return the complete link target (file#target) for the given prefix string and complete name.*)
let complete_target pref complete_name =
let simple_name = Name.simple complete_name in
let module_name =
let s = Name.father complete_name in
if s = "" then simple_name else s
in
let (html_file, _) = html_files module_name in
html_file^"#"^(target pref simple_name)
(**return the link target for the given module. *)
let module_target m = target mark_module (Name.simple m.m_name)
(**return the link target for the given module type. *)
let module_type_target mt = target mark_module_type (Name.simple mt.mt_name)
(** Return the link target for the given type. *)
let type_target t = target mark_type (Name.simple t.ty_name)
(** Return the link target for the given variant constructor. *)
let const_target t f =
let name = Printf.sprintf "%s.%s" (Name.simple t.ty_name) f.vc_name in
target mark_type_elt name
(** Return the link target for the given record field. *)
let recfield_target t f = target mark_type_elt
(Printf.sprintf "%s.%s" (Name.simple t.ty_name) f.rf_name)
(** Return the link target for the given inline record field. *)
let inline_recfield_target t c f = target mark_type_elt
(Printf.sprintf "%s.%s.%s" t c f.rf_name)
(** Return the link target for the given object field. *)
let objfield_target t f = target mark_type_elt
(Printf.sprintf "%s.%s" (Name.simple t.ty_name) f.of_name)
(** Return the complete link target for the given type. *)
let complete_type_target t = complete_target mark_type t.ty_name
let complete_recfield_target name =
let typ = Name.father name in
let field = Name.simple name in
Printf.sprintf "%s.%s" (complete_target mark_type_elt typ) field
let complete_const_target = complete_recfield_target
(** Return the link target for the given extension. *)
let extension_target x = target mark_extension (Name.simple x.xt_name)
(** Return the complete link target for the given extension. *)
let complete_extension_target x = complete_target mark_extension x.xt_name
(** Return the link target for the given exception. *)
let exception_target e = target mark_exception (Name.simple e.ex_name)
(** Return the complete link target for the given exception. *)
let complete_exception_target e = complete_target mark_exception e.ex_name
(** Return the link target for the given value. *)
let value_target v = target mark_value (Name.simple v.val_name)
(** Return the given value name where symbols accepted in infix values
are replaced by strings, to avoid clashes with the filesystem.*)
let subst_infix_symbols name =
let len = String.length name in
let buf = Buffer.create len in
let ch c = Buffer.add_char buf c in
let st s = Buffer.add_string buf s in
for i = 0 to len - 1 do
match name.[i] with
| '|' -> st "_pipe_"
| '<' -> st "_lt_"
| '>' -> st "_gt_"
| '@' -> st "_at_"
| '^' -> st "_exp_"
| '&' -> st "_amp_"
| '+' -> st "_plus_"
| '-' -> st "_minus_"
| '*' -> st "_star_"
| '/' -> st "_slash_"
| '$' -> st "_dollar_"
| '%' -> st "_percent_"
| '=' -> st "_equal_"
| ':' -> st "_column_"
| '~' -> st "_tilde_"
| '!' -> st "_bang_"
| '?' -> st "_questionmark_"
| c -> ch c
done;
Buffer.contents buf
(** Return the complete link target for the given value. *)
let complete_value_target v = complete_target mark_value v.val_name
(** Return the complete filename for the code of the given value. *)
let file_code_value_complete_target v =
code_prefix^mark_value^(subst_infix_symbols v.val_name)^".html"
(** Return the link target for the given attribute. *)
let attribute_target a = target mark_attribute (Name.simple a.att_value.val_name)
(** Return the complete link target for the given attribute. *)
let complete_attribute_target a = complete_target mark_attribute a.att_value.val_name
(** Return the complete filename for the code of the given attribute. *)
let file_code_attribute_complete_target a =
code_prefix^mark_attribute^a.att_value.val_name^".html"
(** Return the link target for the given method. *)
let method_target m = target mark_method (Name.simple m.met_value.val_name)
(** Return the complete link target for the given method. *)
let complete_method_target m = complete_target mark_method m.met_value.val_name
(** Return the complete filename for the code of the given method. *)
let file_code_method_complete_target m =
code_prefix^mark_method^m.met_value.val_name^".html"
(** Return the link target for the given label section. *)
let label_target l = target "" l
(** Return the complete link target for the given section label. *)
let complete_label_target l = complete_target "" l
(** Return the complete filename for the code of the type of the
given module or module type name. *)
let file_type_module_complete_target name =
type_prefix^name^".html"
(** Return the complete filename for the code of the
given module name. *)
let file_code_module_complete_target name =
code_prefix^name^".html"
(** Return the complete filename for the code of the type of the
given class or class type name. *)
let file_type_class_complete_target name =
type_prefix^name^".html"
end
(** A class with a method to colorize a string which represents OCaml code. *)
class ocaml_code =
object
method html_of_code b ?(with_pre=true) code =
Odoc_ocamlhtml.html_of_code b ~with_pre: with_pre code
end
let new_buf () = Buffer.create 1024
let bp = Printf.bprintf
let bs = Buffer.add_string
(** Generation of html code from text structures. *)
class virtual text =
object (self)
(** We want to display colorized code. *)
inherit ocaml_code
(** Escape the strings which would clash with html syntax, and
make some replacements (double newlines replaced by ). *)
method escape s = Odoc_ocamlhtml.escape_base s
method keep_alpha_num s =
let len = String.length s in
let buf = Buffer.create len in
for i = 0 to len - 1 do
match s.[i] with
'a'..'z' | 'A'..'Z' | '0'..'9' -> Buffer.add_char buf s.[i]
| _ -> ()
done;
Buffer.contents buf
(** Return a label created from the first sentence of a text. *)
method label_of_text t=
let t2 = Odoc_info.first_sentence_of_text t in
let s = Odoc_info.string_of_text t2 in
self#keep_alpha_num s
(** Create a label for the associated title.
Return the label specified by the user or a label created
from the title level and the first sentence of the title. *)
method create_title_label (n,label_opt,t) =
match label_opt with
Some s -> s
| None -> Printf.sprintf "%d_%s" n (self#label_of_text t)
(** Print the html code corresponding to the [text] parameter. *)
method html_of_text ?(with_p=false) b t =
if not with_p then
List.iter (self#html_of_text_element b) t
else
self#html_of_text_with_p b t
method html_of_text_with_p b t =
(* In order to enclose the generated text in
, we first
output the content inside a inner buffer b', and then generate
the whole paragraph, if the content is not empty,
either at the end of the text, at a Newline element or when
encountering an element that cannot be part of a paragraph element
*)
let b' = Buffer.create 17 (* paragraph buffer *) in
let flush b' =
(* trim the inner string to avoid outputting empty *)
let s = String.trim @@ Buffer.contents b' in
if s <> "" then
begin
bp b "
";
bs b s;
bp b "
\n"
end;
Buffer.clear b' in
let rec iter txt =
match txt with
| [] ->
flush b' (* flush b' at the end of the text *)
| (List _ | Enum _ | Title _ | CodePre _ | Verbatim _ | Center _
| Left _ | Right _ | Newline | Index_list ) as a :: q
(* these elements cannot be part of
element *)
->
flush b'; (* stop the current paragraph *)
self#html_of_text_element b a; (*output [a] directly on [b] *)
iter q
| a :: q -> self#html_of_text_element b' a; iter q
in
iter t
(** Print the html code for the [text_element] in parameter. *)
method html_of_text_element b txt =
print_DEBUG "text::html_of_text_element";
match txt with
| Odoc_info.Raw s -> self#html_of_Raw b s
| Odoc_info.Code s -> self#html_of_Code b s
| Odoc_info.CodePre s -> self#html_of_CodePre b s
| Odoc_info.Verbatim s -> self#html_of_Verbatim b s
| Odoc_info.Bold t -> self#html_of_Bold b t
| Odoc_info.Italic t -> self#html_of_Italic b t
| Odoc_info.Emphasize t -> self#html_of_Emphasize b t
| Odoc_info.Center t -> self#html_of_Center b t
| Odoc_info.Left t -> self#html_of_Left b t
| Odoc_info.Right t -> self#html_of_Right b t
| Odoc_info.List tl -> self#html_of_List b tl
| Odoc_info.Enum tl -> self#html_of_Enum b tl
| Odoc_info.Newline -> self#html_of_Newline b
| Odoc_info.Block t -> self#html_of_Block b t
| Odoc_info.Title (n, l_opt, t) -> self#html_of_Title b n l_opt t
| Odoc_info.Latex s -> self#html_of_Latex b s
| Odoc_info.Link (s, t) -> self#html_of_Link b s t
| Odoc_info.Ref (name, ref_opt, text_opt) ->
self#html_of_Ref b name ref_opt text_opt
| Odoc_info.Superscript t -> self#html_of_Superscript b t
| Odoc_info.Subscript t -> self#html_of_Subscript b t
| Odoc_info.Module_list l -> self#html_of_Module_list b l
| Odoc_info.Index_list -> self#html_of_Index_list b
| Odoc_info.Custom (s,t) -> self#html_of_custom_text b s t
| Odoc_info.Target (target, code) -> self#html_of_Target b ~target ~code
method html_of_custom_text _ _ _ = ()
method html_of_Target b ~target ~code =
if String.lowercase_ascii target = "html" then bs b code else ()
method html_of_Raw b s = bs b (self#escape s)
method html_of_Code b s =
if !colorize_code then
self#html_of_code b ~with_pre: false s
else
(
bs b "";
bs b (self#escape s);
bs b ""
)
method html_of_CodePre =
let remove_useless_newlines s =
let len = String.length s in
let rec iter_first n =
if n >= len then
None
else
match s.[n] with
| '\n' -> iter_first (n+1)
| _ -> Some n
in
match iter_first 0 with
None -> ""
| Some first ->
let rec iter_last n =
if n <= first then
None
else
match s.[n] with
'\t' -> iter_last (n-1)
| _ -> Some n
in
match iter_last (len-1) with
None -> String.sub s first 1
| Some last -> String.sub s first ((last-first)+1)
in
fun b s ->
if !colorize_code then
(
bs b "
";
self#html_of_code b (remove_useless_newlines s);
bs b "
"
)
else
(
bs b "
" ;
bs b (self#escape (remove_useless_newlines s));
bs b "
"
)
method html_of_Verbatim b s =
bs b "
";
bs b (self#escape s);
bs b "
"
method html_of_Bold b t =
bs b "";
self#html_of_text b t;
bs b ""
method html_of_Italic b t =
bs b "" ;
self#html_of_text b t;
bs b ""
method html_of_Emphasize b t =
bs b "" ;
self#html_of_text b t ;
bs b ""
method html_of_Center b t =
bs b "
";
self#html_of_text b t;
bs b "
"
method html_of_Left b t =
bs b "
";
self#html_of_text b t;
bs b "
"
method html_of_Right b t =
bs b "
";
self#html_of_text b t;
bs b "
"
method html_of_List b tl =
bs b "
\n";
List.iter
(fun t -> bs b "
"; self#html_of_text b t; bs b "
\n")
tl;
bs b "
\n"
method html_of_Enum b tl =
bs b "\n";
List.iter
(fun t -> bs b "
"; self#html_of_text b t; bs b"
\n")
tl;
bs b "\n"
method html_of_Newline b = bs b "\n"
method html_of_Block b t =
bs b "
\n";
self#html_of_text b t;
bs b "
\n"
method html_of_Title b n label_opt t =
let label1 = self#create_title_label (n, label_opt, t) in
let (tag_o, tag_c) =
if n > 6 then
(Printf.sprintf "div class=\"h%d\"" (n+1), "div")
else
let t = Printf.sprintf "h%d" (n+1) in (t, t)
in
bs b "<";
bp b "%s id=\"%s\"" tag_o (Naming.label_target label1);
bs b ">";
self#html_of_text b t;
bs b "";
bs b tag_c;
bs b ">"
method html_of_Latex _ _ = ()
(* don't care about LaTeX stuff in HTML. *)
method html_of_Link b s t =
bs b "";
self#html_of_text b t;
bs b ""
method html_of_Ref b name ref_opt text_opt =
match ref_opt with
None ->
let text =
match text_opt with
None -> [Odoc_info.Code name]
| Some t -> t
in
self#html_of_text b text
| Some kind ->
let h name = Odoc_info.Code (Odoc_info.use_hidden_modules name) in
let (target, text) =
match kind with
Odoc_info.RK_module
| Odoc_info.RK_module_type
| Odoc_info.RK_class
| Odoc_info.RK_class_type ->
let (html_file, _) = Naming.html_files name in
(html_file, h name)
| Odoc_info.RK_value -> (Naming.complete_target Naming.mark_value name, h name)
| Odoc_info.RK_type -> (Naming.complete_target Naming.mark_type name, h name)
| Odoc_info.RK_extension -> (Naming.complete_target Naming.mark_extension name, h name)
| Odoc_info.RK_exception -> (Naming.complete_target Naming.mark_exception name, h name)
| Odoc_info.RK_attribute -> (Naming.complete_target Naming.mark_attribute name, h name)
| Odoc_info.RK_method -> (Naming.complete_target Naming.mark_method name, h name)
| Odoc_info.RK_section t -> (Naming.complete_label_target name,
Odoc_info.Italic [Raw (Odoc_info.string_of_text t)])
| Odoc_info.RK_recfield -> (Naming.complete_recfield_target name, h name)
| Odoc_info.RK_const -> (Naming.complete_const_target name, h name)
in
let text =
match text_opt with
None -> [text]
| Some text -> text
in
bs b ("");
self#html_of_text b text;
bs b ""
method html_of_Superscript b t =
bs b "";
self#html_of_text b t;
bs b ""
method html_of_Subscript b t =
bs b "";
self#html_of_text b t;
bs b ""
method virtual html_of_info_first_sentence : _
method html_of_Module_list b l =
bs b "\n
\n";
List.iter
(fun name ->
bs b "
";
(
try
let m =
List.find (fun m -> m.m_name = name) self#list_modules
in
let (html, _) = Naming.html_files m.m_name in
bp b "%s
" html m.m_name;
bs b "
";
self#html_of_info_first_sentence b m.m_info;
with
Not_found ->
Odoc_global.pwarning (Odoc_messages.cross_module_not_found name);
bp b "%s
" name
);
bs b "
\n"
)
l;
bs b "
\n"
method html_of_Index_list b =
let index_if_not_empty l url m =
match l with
[] -> ()
| _ -> bp b "
\n"
method virtual list_types : Odoc_info.Type.t_type list
method virtual index_types : string
method virtual list_extensions : Odoc_info.Extension.t_extension_constructor list
method virtual index_extensions : string
method virtual list_exceptions : Odoc_info.Exception.t_exception list
method virtual index_exceptions : string
method virtual list_values : Odoc_info.Value.t_value list
method virtual index_values : string
method virtual list_attributes : Odoc_info.Value.t_attribute list
method virtual index_attributes : string
method virtual list_methods : Odoc_info.Value.t_method list
method virtual index_methods : string
method virtual list_classes : Odoc_info.Class.t_class list
method virtual index_classes : string
method virtual list_class_types : Odoc_info.Class.t_class_type list
method virtual index_class_types : string
method virtual list_modules : Odoc_info.Module.t_module list
method virtual index_modules : string
method virtual list_module_types : Odoc_info.Module.t_module_type list
method virtual index_module_types : string
end
(** A class used to generate html code 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 html code.
Add a pair here to handle a tag.*)
val mutable tag_functions = ([] : (string * (Odoc_info.text -> string)) list)
(** The method used to get html code from a [text]. *)
method virtual html_of_text :
?with_p:bool -> Buffer.t -> Odoc_info.text -> unit
(** Print html for an author list. *)
method html_of_author_list b l =
match l with
[] -> ()
| _ ->
bp b "
%s: " Odoc_messages.authors;
self#html_of_text b [Raw (String.concat ", " l)];
bs b "
\n"
(** Print html code for the given optional version information.*)
method html_of_version_opt b v_opt =
match v_opt with
None -> ()
| Some v ->
bp b "
%s: " Odoc_messages.version;
self#html_of_text b [Raw v];
bs b "
\n"
(** Print html code for the given optional since information.*)
method html_of_since_opt b s_opt =
match s_opt with
None -> ()
| Some s ->
bp b "
%s " Odoc_messages.since;
self#html_of_text b [Raw s];
bs b "
\n"
(** Print html code for the given "before" information.*)
method html_of_before b l =
let f (v, text) =
bp b "
%s " Odoc_messages.before;
self#html_of_text b [Raw v];
bs b " ";
self#html_of_text b text;
bs b "
\n"
in
List.iter f l
(** Print html code for the given list of raised exceptions.*)
method html_of_raised_exceptions b l =
match l with
[] -> ()
| (s, t) :: [] ->
bp b "
%s%s "
Odoc_messages.raises
s;
self#html_of_text b t;
bs b "
\n"
| _ ->
bp b "
%s
" Odoc_messages.raises;
List.iter
(fun (ex, desc) ->
bp b "
%s " ex ;
self#html_of_text b desc;
bs b "
\n"
)
l;
bs b "
\n"
(** Print html code for the given "see also" reference. *)
method html_of_see b (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
self#html_of_text b t_ref
(** Print html code for the given list of "see also" references.*)
method html_of_sees b l =
match l with
[] -> ()
| see :: [] ->
bp b "
%s " Odoc_messages.see_also;
self#html_of_see b see;
bs b "
\n"
| _ ->
bp b "
%s
" Odoc_messages.see_also;
List.iter
(fun see ->
bs b "
" ;
self#html_of_see b see;
bs b "
\n"
)
l;
bs b "
\n"
(** Print html code for the given optional return information.*)
method html_of_return_opt b return_opt =
match return_opt with
None -> ()
| Some s ->
bp b "
%s " Odoc_messages.returns;
self#html_of_text b s;
bs b "
\n"
(** Print html code for the given list of custom tagged texts. *)
method html_of_custom b l =
List.iter
(fun (tag, text) ->
try
let f = List.assoc tag tag_functions in
Buffer.add_string b (f text)
with
Not_found ->
Odoc_info.warning (Odoc_messages.tag_not_handled tag)
)
l
(** Print html code for a description, except for the [i_params] field.
@param indent can be specified not to use the style of info comments;
default is [true].
*)
method html_of_info ?(cls="") ?(indent=true) b info_opt =
match info_opt with
None ->
()
| Some info ->
let module M = Odoc_info in
if indent then bs b ("
\n");
(
match info.M.i_deprecated with
None -> ()
| Some d ->
bs b "
\n";
bs b "";
bs b Odoc_messages.deprecated ;
bs b "" ;
self#html_of_text b d;
bs b "
\n"
);
(
match info.M.i_desc with
None -> ()
| Some d when d = [Odoc_info.Raw ""] -> ()
| Some d ->
bs b "
\n";
self#html_of_text ~with_p:true b d;
bs b "
\n"
);
let b' = Buffer.create 17 in
self#html_of_author_list b' info.M.i_authors;
self#html_of_version_opt b' info.M.i_version;
self#html_of_before b' info.M.i_before;
self#html_of_since_opt b' info.M.i_since;
self#html_of_raised_exceptions b' info.M.i_raised_exceptions;
self#html_of_return_opt b' info.M.i_return_value;
self#html_of_sees b' info.M.i_sees;
self#html_of_custom b' info.M.i_custom;
if Buffer.length b' > 0 then
begin
bs b "
\n";
Buffer.add_buffer b b';
bs b "
\n"
end;
if indent then bs b "
\n"
(** Print html code for the first sentence of a description.
The titles and lists in this first sentence has been removed.*)
method html_of_info_first_sentence b info_opt =
match info_opt with
None -> ()
| Some info ->
let module M = Odoc_info in
let dep = info.M.i_deprecated <> None in
bs b "
\n";
if dep then bs b "";
(
match info.M.i_desc with
None -> ()
| Some d when d = [Odoc_info.Raw ""] -> ()
| Some d ->
self#html_of_text ~with_p:true b
(Odoc_info.text_no_title_no_list
(Odoc_info.first_sentence_of_text d));
bs b "\n"
);
if dep then bs b "";
bs b "
\n"
end
let opt = Odoc_info.apply_opt
let print_concat b sep f =
let rec iter = function
[] -> ()
| [c] -> f c
| c :: q ->
f c;
bs b sep;
iter q
in
iter
let newline_to_indented_br s =
let len = String.length s in
let b = Buffer.create len in
for i = 0 to len - 1 do
match s.[i] with
'\n' -> Buffer.add_string b " "
| c -> Buffer.add_char b c
done;
Buffer.contents b
module Generator =
struct
(** This class is used to create objects which can generate a simple html documentation. *)
class html =
object (self)
inherit text
inherit info
val mutable doctype =
"\n"
method character_encoding b =
bp b
"\n"
!charset
method meta b =
self#character_encoding b;
bs b "\n"
(** The default style options. *)
val mutable default_style_options =
[ ".keyword { font-weight : bold ; color : Red }" ;
".keywordsign { color : #C04600 }" ;
".comment { color : Green }" ;
".constructor { color : Blue }" ;
".type { color : #5C6585 }" ;
".string { color : Maroon }" ;
".warning { color : Red ; font-weight : bold }" ;
".info { margin-left : 3em; margin-right: 3em }" ;
".param_info { margin-top: 4px; margin-left : 3em; margin-right : 3em }" ;
".code { color : #465F91 ; }" ;
".typetable { border-style : hidden }" ;
".paramstable { border-style : hidden ; padding: 5pt 5pt}" ;
"tr { background-color : White }" ;
"td.typefieldcomment { background-color : #FFFFFF ; font-size: smaller ;}" ;
"div.sig_block {margin-left: 2em}" ;
"*:target { background: yellow; }" ;
"body {font: 13px sans-serif; color: black; text-align: left; padding: 5px; margin: 0}";
"h1 { font-size : 20pt ; text-align: center; }" ;
"h2 { font-size : 20pt ; text-align: center; }" ;
"h3 { font-size : 20pt ; border: 1px solid #000000; "^
"margin-top: 5px; margin-bottom: 2px;"^
"text-align: center; background-color: #90BDFF ;"^
"padding: 2px; }" ;
"h4 { font-size : 20pt ; border: 1px solid #000000; "^
"margin-top: 5px; margin-bottom: 2px;"^
"text-align: center; background-color: #90DDFF ;"^
"padding: 2px; }" ;
"h5 { font-size : 20pt ; border: 1px solid #000000; "^
"margin-top: 5px; margin-bottom: 2px;"^
"text-align: center; background-color: #90EDFF ;"^
"padding: 2px; }" ;
"h6 { font-size : 20pt ; border: 1px solid #000000; "^
"margin-top: 5px; margin-bottom: 2px;"^
"text-align: center; background-color: #90FDFF ;"^
"padding: 2px; }" ;
"div.h7 { font-size : 20pt ; border: 1px solid #000000; "^
"margin-top: 5px; margin-bottom: 2px;"^
"text-align: center; background-color: #90BDFF ; "^
"padding: 2px; }" ;
"div.h8 { font-size : 20pt ; border: 1px solid #000000; "^
"margin-top: 5px; margin-bottom: 2px;"^
"text-align: center; background-color: #E0FFFF ; "^
"padding: 2px; }" ;
"div.h9 { font-size : 20pt ; border: 1px solid #000000; "^
"margin-top: 5px; margin-bottom: 2px;"^
"text-align: center; background-color: #F0FFFF ; "^
"padding: 2px; }" ;
"div.h10 { font-size : 20pt ; border: 1px solid #000000; "^
"margin-top: 5px; margin-bottom: 2px;"^
"text-align: center; background-color: #FFFFFF ; "^
"padding: 2px; }" ;
"a {color: #416DFF; text-decoration: none}";
"a:hover {background-color: #ddd; text-decoration: underline}";
"pre { margin-bottom: 4px; font-family: monospace; }" ;
"pre.verbatim, pre.codepre { }";
".indextable {border: 1px #ddd solid; border-collapse: collapse}";
".indextable td, .indextable th {border: 1px #ddd solid; min-width: 80px}";
".indextable td.module {background-color: #eee ; padding-left: 2px; padding-right: 2px}";
".indextable td.module a {color: #4E6272; text-decoration: none; display: block; width: 100%}";
".indextable td.module a:hover {text-decoration: underline; background-color: transparent}";
".deprecated {color: #888; font-style: italic}" ;
".indextable tr td div.info { margin-left: 2px; margin-right: 2px }" ;
"ul.indexlist { margin-left: 0; padding-left: 0;}";
"ul.indexlist li { list-style-type: none ; margin-left: 0; padding-left: 0; }";
"ul.info-attributes {list-style: none; margin: 0; padding: 0; }";
"div.info > p:first-child { margin-top:0; }";
"div.info-desc > p:first-child { margin-top:0; margin-bottom:0; }"
]
(** The style file for all pages. *)
val mutable style_file = "style.css"
(** The code to import the style. Initialized in [init_style]. *)
val mutable style = ""
(** The known types names.
Used to know if we must create a link to a type
when printing a type. *)
val mutable known_types_names = String.Set.empty
(** The known class and class type names.
Used to know if we must create a link to a class
or class type or not when printing a type. *)
val mutable known_classes_names = String.Set.empty
(** The known modules and module types names.
Used to know if we must create a link to a type or not
when printing a module type. *)
val mutable known_modules_names = String.Set.empty
method index_prefix =
if !Odoc_global.out_file = Odoc_messages.default_out_file then
"index"
else
Filename.basename !Odoc_global.out_file
(** The main file. *)
method index =
let p = self#index_prefix in
Printf.sprintf "%s.html" p
(** The file for the index of values. *)
method index_values = Printf.sprintf "%s_values.html" self#index_prefix
(** The file for the index of types. *)
method index_types = Printf.sprintf "%s_types.html" self#index_prefix
(** The file for the index of extensions. *)
method index_extensions = Printf.sprintf "%s_extensions.html" self#index_prefix
(** The file for the index of exceptions. *)
method index_exceptions = Printf.sprintf "%s_exceptions.html" self#index_prefix
(** The file for the index of attributes. *)
method index_attributes = Printf.sprintf "%s_attributes.html" self#index_prefix
(** The file for the index of methods. *)
method index_methods = Printf.sprintf "%s_methods.html" self#index_prefix
(** The file for the index of classes. *)
method index_classes = Printf.sprintf "%s_classes.html" self#index_prefix
(** The file for the index of class types. *)
method index_class_types = Printf.sprintf "%s_class_types.html" self#index_prefix
(** The file for the index of modules. *)
method index_modules = Printf.sprintf "%s_modules.html" self#index_prefix
(** The file for the index of module types. *)
method index_module_types = Printf.sprintf "%s_module_types.html" self#index_prefix
(** The list of attributes. Filled in the [generate] method. *)
val mutable list_attributes = []
method list_attributes = list_attributes
(** The list of methods. Filled in the [generate] method. *)
val mutable list_methods = []
method list_methods = list_methods
(** The list of values. Filled in the [generate] method. *)
val mutable list_values = []
method list_values = list_values
(** The list of extensions. Filled in the [generate] method. *)
val mutable list_extensions = []
method list_extensions = list_extensions
(** The list of exceptions. Filled in the [generate] method. *)
val mutable list_exceptions = []
method list_exceptions = list_exceptions
(** The list of types. Filled in the [generate] method. *)
val mutable list_types = []
method list_types = list_types
(** The list of modules. Filled in the [generate] method. *)
val mutable list_modules = []
method list_modules = list_modules
(** The list of module types. Filled in the [generate] method. *)
val mutable list_module_types = []
method list_module_types = list_module_types
(** The list of classes. Filled in the [generate] method. *)
val mutable list_classes = []
method list_classes = list_classes
(** The list of class types. Filled in the [generate] method. *)
val mutable list_class_types = []
method list_class_types = list_class_types
(** The header of pages. Must be prepared by the [prepare_header] method.*)
val mutable header = fun _ -> fun ?nav:_ -> fun ?comments:_ -> fun _ -> ()
(** Init the style. *)
method init_style =
(match !css_style with
None ->
let default_style = String.concat "\n" default_style_options in
(
try
let file = Filename.concat !Global.target_dir style_file in
if Sys.file_exists file then
Odoc_info.verbose (Odoc_messages.file_exists_dont_generate file)
else
(
let chanout = open_out file in
output_string chanout default_style ;
flush chanout ;
close_out chanout;
Odoc_info.verbose (Odoc_messages.file_generated file)
)
with
Sys_error s ->
prerr_endline s ;
incr Odoc_info.errors ;
)
| Some f ->
style_file <- f
);
style <- "\n"
(** Get the title given by the user *)
method title = match !Global.title with None -> "" | Some t -> self#escape t
(** Get the title given by the user completed with the given subtitle. *)
method inner_title s =
(match self#title with "" -> "" | t -> t^" : ")^
(self#escape s)
(** Get the page header. *)
method print_header b ?nav ?comments title = header b ?nav ?comments title
(** A function to build the header of pages. *)
method prepare_header module_list =
let f b ?(nav=None) ?(comments=[]) t =
let link_if_not_empty l m url =
match l with
[] -> ()
| _ ->
bp b "\n" m url
in
bs b "\n";
bs b style;
self#meta b;
bs b "\n" ;
(
match nav with
None -> ()
| Some (pre_opt, post_opt, name) ->
(match pre_opt with
None -> ()
| Some name ->
bp b "\n"
(fst (Naming.html_files name));
);
(match post_opt with
None -> ()
| Some name ->
bp b "\n"
(fst (Naming.html_files name));
);
(
let father = Name.father name in
let href = if father = "" then self#index else fst (Naming.html_files father) in
bp b "\n" href
)
);
link_if_not_empty self#list_types Odoc_messages.index_of_types self#index_types;
link_if_not_empty self#list_extensions Odoc_messages.index_of_extensions self#index_extensions;
link_if_not_empty self#list_exceptions Odoc_messages.index_of_exceptions self#index_exceptions;
link_if_not_empty self#list_values Odoc_messages.index_of_values self#index_values;
link_if_not_empty self#list_attributes Odoc_messages.index_of_attributes self#index_attributes;
link_if_not_empty self#list_methods Odoc_messages.index_of_methods self#index_methods;
link_if_not_empty self#list_classes Odoc_messages.index_of_classes self#index_classes;
link_if_not_empty self#list_class_types Odoc_messages.index_of_class_types self#index_class_types;
link_if_not_empty self#list_modules Odoc_messages.index_of_modules self#index_modules;
link_if_not_empty self#list_module_types Odoc_messages.index_of_module_types self#index_module_types;
let print_one m =
let html_file = fst (Naming.html_files m.m_name) in
bp b ""
m.m_name html_file
in
print_concat b "\n" print_one module_list;
self#html_sections_links b comments;
bs b "";
bs b t ;
bs b "\n\n"
in
header <- f
(** Build the html code for the link tags in the header, defining section and
subsections for the titles found in the given comments.*)
method html_sections_links b comments =
let titles = List.flatten (List.map Odoc_info.get_titles_in_text comments) in
let levels =
let rec iter acc l =
match l with
[] -> acc
| (n,_,_) :: q ->
if List.mem n acc
then iter acc q
else iter (n::acc) q
in
iter [] titles
in
let sorted_levels = List.sort compare levels in
let (section_level, subsection_level) =
match sorted_levels with
[] -> (None, None)
| [n] -> (Some n, None)
| n :: m :: _ -> (Some n, Some m)
in
let titles_per_level level_opt =
match level_opt with
None -> []
| Some n -> List.filter (fun (m,_,_) -> m = n) titles
in
let section_titles = titles_per_level section_level in
let subsection_titles = titles_per_level subsection_level in
let print_lines s_rel titles =
List.iter
(fun (n,lopt,t) ->
let s = Odoc_info.string_of_text t in
let label = self#create_title_label (n,lopt,t) in
bp b "\n" s s_rel label
)
titles
in
print_lines "Section" section_titles ;
print_lines "Subsection" subsection_titles
(** Html code for navigation bar.
@param pre optional name for optional previous module/class
@param post optional name for optional next module/class
@param name name of current module/class *)
method print_navbar b pre post name =
bs b "
";
(
match pre with
None -> ()
| Some name ->
bp b "%s\n"
(fst (Naming.html_files name))
name
Odoc_messages.previous
);
bs b " ";
let father = Name.father name in
let href = if father = "" then self#index else fst (Naming.html_files father) in
let father_name = if father = "" then "Index" else father in
bp b "%s\n" href father_name Odoc_messages.up;
bs b " ";
(
match post with
None -> ()
| Some name ->
bp b "%s\n"
(fst (Naming.html_files name))
name
Odoc_messages.next
);
bs b "
\n"
(** Return html code with the given string in the keyword style.*)
method keyword s =
""^s^""
(** Return html code with the given string in the constructor style. *)
method constructor s = ""^s^""
(** Output the given ocaml code to the given file name. *)
method private output_code ?(with_pre=true) in_title file code =
try
let chanout = open_out file in
let b = new_buf () in
bs b "";
self#print_header b (self#inner_title in_title);
bs b"\n";
self#html_of_code ~with_pre b code;
bs b "\n";
Buffer.output_buffer chanout b;
close_out chanout
with
Sys_error s ->
incr Odoc_info.errors ;
prerr_endline s
(** Take a string and return the string where fully qualified
type (or class or class type) idents
have been replaced by links to the type referenced by the ident.*)
method create_fully_qualified_idents_links m_name s =
let ln = !Odoc_global.library_namespace in
let f str_t =
let match_s = Str.matched_string str_t in
let known_type = String.Set.mem match_s known_types_names in
let known_class = String.Set.mem match_s known_classes_names in
let retry, match_s = if not (known_type || known_class) && ln <> "" then
true, Name.get_relative_opt ln match_s
else
false, match_s
in
let rel = Name.get_relative m_name match_s in
let s_final = Odoc_info.apply_if_equal
Odoc_info.use_hidden_modules
match_s
rel
in
if known_type ||
(retry && String.Set.mem match_s known_types_names) then
""^
s_final^
""
else
if known_class ||
(retry && String.Set.mem match_s known_classes_names) then
let (html_file, _) = Naming.html_files match_s in
""^s_final^""
else
s_final
in
Str.global_substitute
(Str.regexp "\\([A-Z]\\([a-zA-Z_'0-9]\\)*\\.\\)+\\([a-z][a-zA-Z_'0-9]*\\)")
f
s
(** Take a string and return the string where fully qualified module idents
have been replaced by links to the module referenced by the ident.*)
method create_fully_qualified_module_idents_links m_name s =
let f str_t =
let match_s = Str.matched_string str_t in
let known_module = String.Set.mem match_s known_modules_names in
let ln = !Odoc_global.library_namespace in
let retry, match_s =
if not known_module && ln <> "" then
true, Name.get_relative_opt ln match_s
else
false, match_s in
let rel = Name.get_relative m_name match_s in
let s_final = Odoc_info.apply_if_equal
Odoc_info.use_hidden_modules
match_s
rel
in
if known_module ||
(retry && String.Set.mem match_s known_modules_names) then
let (html_file, _) = Naming.html_files match_s in
""^s_final^""
else
s_final
in
Str.global_substitute
(Str.regexp "\\([A-Z]\\([a-zA-Z_'0-9]\\)*\\)\\(\\.[A-Z][a-zA-Z_'0-9]*\\)*")
f
s
(** Print html code to display a [Types.type_expr]. *)
method html_of_type_expr b m_name t =
let s = Odoc_info.remove_ending_newline (Odoc_info.string_of_type_expr t) in
let s2 = newline_to_indented_br s in
bs b "";
bs b (self#create_fully_qualified_idents_links m_name s2);
bs b ""
(** Print html code to display a [Types.type_expr list]. *)
method html_of_cstr_args ?par b m_name c_name sep l =
print_DEBUG "html#html_of_cstr_args";
match l with
| Cstr_tuple l ->
print_DEBUG "html#html_of_cstr_args: 1";
let s = Odoc_info.string_of_type_list ?par sep l in
let s2 = newline_to_indented_br s in
print_DEBUG "html#html_of_cstr_args: 2";
bs b "";
bs b (self#create_fully_qualified_idents_links m_name s2);
bs b ""
| Cstr_record l ->
print_DEBUG "html#html_of_cstr_args: 1 bis";
bs b "";
self#html_of_record ~father:m_name ~close_env: ""
(Naming.inline_recfield_target m_name c_name)
b l
(** Print html code to display a [Types.type_expr list] as type parameters
of a class of class type. *)
method html_of_class_type_param_expr_list b m_name l =
let s = Odoc_info.string_of_class_type_param_list l in
let s2 = newline_to_indented_br s in
bs b "[";
bs b (self#create_fully_qualified_idents_links m_name s2);
bs b "]"
method html_of_class_parameter_list b father c =
let s = Odoc_info.string_of_class_params c in
let s = Odoc_info.remove_ending_newline s in
let s2 = newline_to_indented_br s in
bs b "";
bs b (self#create_fully_qualified_idents_links father s2);
bs b ""
(** Print html code to display a list of type parameters for the given type.*)
method html_of_type_expr_param_list b m_name t =
let s = Odoc_info.string_of_type_param_list t in
let s2 = newline_to_indented_br s in
bs b "";
bs b (self#create_fully_qualified_idents_links m_name s2);
bs b ""
(** Print html code to display a [Types.module_type]. *)
method html_of_module_type b ?code m_name t =
let s = Odoc_info.remove_ending_newline (Odoc_info.string_of_module_type ?code t) in
bs b "";
bs b (self#create_fully_qualified_module_idents_links m_name s);
bs b ""
(** Print html code to display the given module kind. *)
method html_of_module_kind b father ?modu kind =
match kind with
Module_struct eles ->
self#html_of_text b [Code "sig"];
(
match modu with
None ->
(* first we close the current
tag, since the following
list of module elements is not preformatted *)
bs b "
";
bs b "
";
List.iter (self#html_of_module_element b father) eles;
bs b "
";
bs b "\n
"
| Some m ->
let (html_file, _) = Naming.html_files m.m_name in
bp b " .. " html_file
);
self#html_of_text b [Code "end"]
| Module_alias a ->
bs b "";
bs b (self#create_fully_qualified_module_idents_links father a.ma_name);
bs b ""
| Module_functor (p, k) ->
if !html_short_functors then
bs b " "
else
bs b "
";
self#html_of_module_parameter b father p;
(
match k with
Module_functor _ -> ()
| _ when !html_short_functors ->
bs b ": "
| _ -> ()
);
self#html_of_module_kind b father ?modu k;
if not !html_short_functors then
bs b "
"
| Module_apply (k1, k2) ->
(* TODO: application is not correct in a .mli.
What to do -> print typedtree module_type *)
self#html_of_module_kind b father k1;
self#html_of_text b [Code "("];
self#html_of_module_kind b father k2;
self#html_of_text b [Code ")"]
| Module_with (k, s) ->
(* TODO: modify when Module_with will be more detailed *)
self#html_of_module_type_kind b father ?modu k;
bs b " ";
bs b (self#create_fully_qualified_module_idents_links father s);
bs b ""
| Module_constraint (k, _tk) ->
(* TODO: what to print ? *)
self#html_of_module_kind b father ?modu k
| Module_typeof s ->
bs b "module type of ";
bs b (self#create_fully_qualified_module_idents_links father s);
bs b ""
| Module_unpack (code, mta) ->
bs b "";
begin
match mta.mta_module with
None ->
bs b (self#create_fully_qualified_module_idents_links father (self#escape code))
| Some mt ->
let (html_file, _) = Naming.html_files mt.mt_name in
bp b " %s " html_file (self#escape code)
end;
bs b ""
method html_of_module_parameter b father p =
let (s_functor,s_arrow) =
if !html_short_functors then
"", ""
else
"functor ", "-> "
in
self#html_of_text b
[
Code (s_functor^"(");
Code p.mp_name ;
Code " : ";
] ;
self#html_of_module_type_kind b father p.mp_kind;
self#html_of_text b [ Code (") "^s_arrow)]
method html_of_module_element b m_name ele =
match ele with
Element_module m ->
self#html_of_module b ~complete: false m
| Element_module_type mt ->
self#html_of_modtype b ~complete: false mt
| Element_included_module im ->
self#html_of_included_module b im
| Element_class c ->
self#html_of_class b ~complete: false c
| Element_class_type ct ->
self#html_of_class_type b ~complete: false ct
| Element_value v ->
self#html_of_value b v
| Element_type_extension te ->
self#html_of_type_extension b m_name te
| Element_exception e ->
self#html_of_exception b e
| Element_type t ->
self#html_of_type b t
| Element_module_comment text ->
self#html_of_module_comment b text
(** Print html code to display the given module type kind. *)
method html_of_module_type_kind b father ?modu ?mt kind =
match kind with
Module_type_struct eles ->
self#html_of_text b [Code "sig"];
(
match mt with
None ->
(
match modu with
None ->
(*close the current
tag, to avoid anarchic line breaks
in the list of module elements *)
bs b "
";
bs b "
";
List.iter (self#html_of_module_element b father) eles;
bs b "
";
bs b "
";
| Some m ->
let (html_file, _) = Naming.html_files m.m_name in
bp b " .. " html_file
)
| Some mt ->
let (html_file, _) = Naming.html_files mt.mt_name in
bp b " .. " html_file
);
self#html_of_text b [Code "end"]
| Module_type_functor (p, k) ->
self#html_of_module_parameter b father p;
self#html_of_module_type_kind b father ?modu ?mt k
| Module_type_alias a ->
bs b "";
bs b (self#create_fully_qualified_module_idents_links father a.mta_name);
bs b ""
| Module_type_with (k, s) ->
self#html_of_module_type_kind b father ?modu ?mt k;
bs b " ";
bs b (self#create_fully_qualified_module_idents_links father s);
bs b ""
| Module_type_typeof s ->
bs b "module type of ";
bs b (self#create_fully_qualified_module_idents_links father s);
bs b ""
(** Print html code to display the type of a module parameter.. *)
method html_of_module_parameter_type b m_name p =
match p.mp_type with None -> bs b "()"
| Some mty -> self#html_of_module_type b m_name ~code: p.mp_type_code mty
(** Generate a file containing the module type in the given file name. *)
method output_module_type in_title file mtyp =
let s = Odoc_info.remove_ending_newline (Odoc_info.string_of_module_type ~complete: true mtyp) in
self#output_code ~with_pre:false in_title file s
(** Generate a file containing the class type in the given file name. *)
method output_class_type in_title file ctyp =
let s = Odoc_info.remove_ending_newline (Odoc_info.string_of_class_type ~complete: true ctyp) in
self#output_code ~with_pre:false in_title file s
(** Print html code for a value. *)
method html_of_value b v =
Odoc_info.reset_type_names ();
bs b "\n
" ;
bp b "" (Naming.value_target v);
bs b (self#keyword "val");
bs b " ";
(
match v.val_code with
None -> bs b (self#escape (Name.simple v.val_name))
| Some c ->
let file = Naming.file_code_value_complete_target v in
self#output_code v.val_name (Filename.concat !Global.target_dir file) c;
bp b "%s" file (self#escape (Name.simple v.val_name))
);
bs b "";
bs b " : ";
self#html_of_type_expr b (Name.father v.val_name) v.val_type;
bs b "
";
self#html_of_info b v.val_info;
(
if !with_parameter_list then
self#html_of_parameter_list b (Name.father v.val_name) v.val_parameters
else
self#html_of_described_parameter_list b (Name.father v.val_name) v.val_parameters
)
(** Print html code for a type extension. *)
method html_of_type_extension b m_name te =
Odoc_info.reset_type_names ();
bs b "
";
bs b ((self#keyword "type")^" ");
let s = Odoc_info.string_of_type_extension_param_list te in
let s2 = newline_to_indented_br s in
bs b "";
bs b (self#create_fully_qualified_idents_links m_name s2);
bs b "";
(match te.te_type_parameters with [] -> () | _ -> bs b " ");
bs b (self#create_fully_qualified_idents_links m_name te.te_type_name);
bs b " += ";
if te.te_private = Asttypes.Private then bs b "private ";
bs b "
";
bs b "
\n";
let print_one x =
let father = Name.father x.xt_name in
let cname = Name.simple x.xt_name in
bs b "
\n
\n";
bs b "";
bs b (self#keyword "|");
bs b "
\n
\n";
bs b "";
bp b "%s"
(Naming.extension_target x)
cname;
(
match x.xt_args, x.xt_ret with
Cstr_tuple [], None -> ()
| l,None ->
bs b (" " ^ (self#keyword "of") ^ " ");
self#html_of_cstr_args ~par: false b father cname " * " l;
| Cstr_tuple [],Some r ->
bs b (" " ^ (self#keyword ":") ^ " ");
self#html_of_type_expr b father r;
| l,Some r ->
bs b (" " ^ (self#keyword ":") ^ " ");
self#html_of_cstr_args ~par: false b father cname " * " l;
bs b (" " ^ (self#keyword "->") ^ " ");
self#html_of_type_expr b father r;
);
(
match x.xt_alias with
None -> ()
| Some xa ->
bs b " = ";
(
match xa.xa_xt with
None -> bs b xa.xa_name
| Some x ->
bp b "%s" (Naming.complete_extension_target x) x.xt_name
)
);
bs b "
\n";
(
match x.xt_text with
None -> ()
| Some t ->
bs b "
";
bs b "";
bs b "(*";
bs b "
";
bs b "
";
self#html_of_info b (Some t);
bs b "
";
bs b "
";
bs b "";
bs b "*)";
bs b "
";
);
bs b "\n
"
in
print_concat b "\n" print_one te.te_constructors;
bs b "
\n";
bs b "\n";
self#html_of_info b te.te_info;
bs b "\n"
(** Print html code for an exception. *)
method html_of_exception b e =
let cname = Name.simple e.ex_name in
Odoc_info.reset_type_names ();
bs b "\n
";
bp b "" (Naming.exception_target e);
bs b (self#keyword "exception");
bs b " ";
bs b cname;
bs b "";
(
let father = Name.father e.ex_name in
match e.ex_args, e.ex_ret with
Cstr_tuple [], None -> ()
| _,None ->
bs b (" "^(self#keyword "of")^" ");
self#html_of_cstr_args
~par:false b father cname " * " e.ex_args
| Cstr_tuple [],Some r ->
bs b (" " ^ (self#keyword ":") ^ " ");
self#html_of_type_expr b father r;
| l,Some r ->
bs b (" " ^ (self#keyword ":") ^ " ");
self#html_of_cstr_args
~par:false b father cname " * " l;
bs b (" " ^ (self#keyword "->") ^ " ");
self#html_of_type_expr b father r;
);
(
match e.ex_alias with
None -> ()
| Some ea ->
bs b " = ";
(
match ea.ea_ex with
None -> bs b ea.ea_name
| Some e ->
bp b "%s" (Naming.complete_exception_target e) e.ex_name
)
);
bs b "
\n";
self#html_of_info b e.ex_info
method html_of_record ~father ~close_env gen_name b l =
bs b "{";
bs b close_env;
bs b "
\n" ;
let print_one r =
bs b "
\n
\n";
bs b "";
bs b "
\n
\n";
bs b "";
if r.rf_mutable then bs b (self#keyword "mutable ") ;
bp b "%s : " (gen_name r) r.rf_name;
self#html_of_type_expr b father r.rf_type;
bs b ";
\n";
(
match r.rf_text with
None -> ()
| Some t ->
bs b "
";
bs b "";
bs b "(*";
bs b "
";
bs b "
";
self#html_of_info b (Some t);
bs b "
";
bs b "*)
";
);
bs b "\n
"
in
print_concat b "\n" print_one l;
bs b "
\n}\n"
(** Print html code for a type. *)
method html_of_type b t =
Odoc_info.reset_type_names ();
let father = Name.father t.ty_name in
let print_field_prefix () =
bs b "
\n
\n";
bs b "";
bs b "
\n
\n";
bs b "";
in
let print_field_comment = function
| None -> ()
| Some t ->
bs b "
";
bs b "";
bs b "(*";
bs b "
";
bs b "
";
self#html_of_info b (Some t);
bs b "
";
bs b "*)
"
in
bs b
(match t.ty_manifest, t.ty_kind with
None, Type_abstract
| None, Type_open -> "\n
"
| Some _, Type_abstract
| Some _, Type_open -> "\n
"
| Some _, Type_variant _
| Some _, Type_record _ -> "\n
"
);
bp b "" (Naming.type_target t);
bs b ((self#keyword "type")^" ");
self#html_of_type_expr_param_list b father t;
(match t.ty_parameters with [] -> () | _ -> bs b " ");
bs b (Name.simple t.ty_name);
bs b " ";
let priv = t.ty_private = Asttypes.Private in
(
match t.ty_manifest with
None -> ()
| Some (Object_type fields) ->
bs b "= ";
if priv then bs b "private ";
bs b "<
";
bs b "
\n" ;
let print_one f =
print_field_prefix () ;
bp b "%s : "
(Naming.objfield_target t f)
f.of_name;
self#html_of_type_expr b father f.of_type;
bs b ";\n";
print_field_comment f.of_text ;
bs b "\n"
in
print_concat b "\n" print_one fields;
bs b "
\n>\n";
bs b " "
| Some (Other typ) ->
bs b "= ";
if priv then bs b "private ";
self#html_of_type_expr b father typ;
bs b " "
);
(match t.ty_kind with
Type_abstract -> bs b "
"
| Type_variant l ->
bs b "= ";
if priv then bs b "private ";
bs b
(
match t.ty_manifest with
None -> "
"
| Some _ -> ""
);
bs b "
\n";
let print_bar () =
bs b "
\n
\n";
bs b "";
bs b (self#keyword "|");
bs b "
\n
\n";
bs b "" in
let print_one constr =
print_bar ();
bp b "%s"
(Naming.const_target t constr)
(self#constructor constr.vc_name);
(
match constr.vc_args, constr.vc_ret with
Cstr_tuple [], None -> ()
| l,None ->
bs b (" " ^ (self#keyword "of") ^ " ");
self#html_of_cstr_args ~par:false b father constr.vc_name " * " l;
| Cstr_tuple [],Some r ->
bs b (" " ^ (self#keyword ":") ^ " ");
self#html_of_type_expr b father r;
| l,Some r ->
bs b (" " ^ (self#keyword ":") ^ " ");
self#html_of_cstr_args ~par: false b father constr.vc_name " * " l;
bs b (" " ^ (self#keyword "->") ^ " ");
self#html_of_type_expr b father r;
);
bs b "
\n";
(
match constr.vc_text with
None -> ()
| Some t ->
bs b "
";
bs b "";
bs b "(*";
bs b "
";
bs b "
";
self#html_of_info b (Some t);
bs b "
";
bs b "
";
bs b "";
bs b "*)";
bs b "
";
);
bs b "\n
"
in
if l = [] then print_bar () else
print_concat b "\n" print_one l;
bs b "
\n"
| Type_record l ->
bs b "= ";
if priv then bs b "private " ;
let close_env = match t.ty_manifest with
None -> ""
| Some _ -> "" in
self#html_of_record ~father ~close_env (Naming.recfield_target t) b l
| Type_open ->
bs b "= ..";
bs b ""
);
bs b "\n";
self#html_of_info b t.ty_info;
bs b "\n"
(** Print html code for a class attribute. *)
method html_of_attribute b a =
let module_name = Name.father (Name.father a.att_value.val_name) in
bs b "\n
" ;
bp b "" (Naming.attribute_target a);
bs b (self#keyword "val");
bs b " ";
(
if a.att_virtual then
bs b ((self#keyword "virtual")^ " ")
else
()
);
(
if a.att_mutable then
bs b ((self#keyword Odoc_messages.mutab)^ " ")
else
()
);(
match a.att_value.val_code with
None -> bs b (Name.simple a.att_value.val_name)
| Some c ->
let file = Naming.file_code_attribute_complete_target a in
self#output_code a.att_value.val_name (Filename.concat !Global.target_dir file) c;
bp b "%s" file (Name.simple a.att_value.val_name);
);
bs b "";
bs b " : ";
self#html_of_type_expr b module_name a.att_value.val_type;
bs b "
";
self#html_of_info b a.att_value.val_info
(** Print html code for a class method. *)
method html_of_method b m =
let module_name = Name.father (Name.father m.met_value.val_name) in
bs b "\n
";
(* html mark *)
bp b "" (Naming.method_target m);
bs b ((self#keyword "method")^" ");
if m.met_private then bs b ((self#keyword "private")^" ");
if m.met_virtual then bs b ((self#keyword "virtual")^" ");
(
match m.met_value.val_code with
None -> bs b (Name.simple m.met_value.val_name)
| Some c ->
let file = Naming.file_code_method_complete_target m in
self#output_code m.met_value.val_name (Filename.concat !Global.target_dir file) c;
bp b "%s" file (Name.simple m.met_value.val_name);
);
bs b "";
bs b " : ";
self#html_of_type_expr b module_name m.met_value.val_type;
bs b "
";
self#html_of_info b m.met_value.val_info;
(
if !with_parameter_list then
self#html_of_parameter_list b
module_name m.met_value.val_parameters
else
self#html_of_described_parameter_list b
module_name m.met_value.val_parameters
)
(** Print html code for the description of a function parameter. *)
method html_of_parameter_description b 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 -> self#html_of_text b 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
let print_one n =
match Parameter.desc_by_name p n with
None -> ()
| Some t ->
bs b "
\n";
bs b "";
bs b n;
bs b " : ";
self#html_of_text b t;
bs b "
\n"
in
List.iter print_one l2
(** Print html code for a list of parameters. *)
method html_of_parameter_list b m_name l =
match l with
[] -> ()
| _ ->
bs b "
";
bs b "
\n";
bs b "
\n
";
bs b "";
bs b Odoc_messages.parameters;
bs b ":
\n" ;
bs b "
\n
\n";
let print_one p =
bs b "
\n
\n";
bs b
(
match Parameter.complete_name p with
"" -> "?"
| s -> s
);
bs b "
\n
:
\n";
bs b "
";
bs b "
\n";
self#html_of_type_expr b m_name (Parameter.typ p);
bs b "
\n";
self#html_of_parameter_description b p;
bs b "\n
\n";
in
List.iter print_one l;
bs b "
\n
\n
\n
\n"
(** Print html code for the parameters which have a name and description. *)
method html_of_described_parameter_list b _m_name l =
(* get the params which have a name, and at least one name described. *)
let l2 = List.filter
(fun p ->
List.exists
(fun n -> (Parameter.desc_by_name p n) <> None)
(Parameter.names p))
l
in
let f p =
bs b "
";
bs b (Parameter.complete_name p);
bs b " : " ;
self#html_of_parameter_description b p;
bs b "
\n"
in
List.iter f l2
(** Print html code for a list of module parameters. *)
method html_of_module_parameter_list b m_name l =
match l with
[] ->
()
| _ ->
bs b "
\n";
bs b "
\n";
bs b "
";
bs b Odoc_messages.parameters ;
bs b ":
\n
\n";
bs b "
\n";
List.iter
(fun (p, desc_opt) ->
bs b "
\n";
bs b "
\n" ;
bs b p.mp_name;
bs b "
\n" ;
bs b "
:
\n";
bs b "
" ;
self#html_of_module_parameter_type b m_name p;
bs b "\n";
(
match desc_opt with
None -> ()
| Some t ->
bs b "
";
self#html_of_text b t;
bs b "\n
\n";
bs b "\n
\n" ;
)
)
l;
bs b "
\n
\n
\n
\n"
(** Print html code for a module. *)
method html_of_module b ?(info=true) ?(complete=true) ?(with_link=true) m =
let (html_file, _) = Naming.html_files m.m_name in
let father = Name.father m.m_name in
bs b "\n
";
bp b "" (Naming.module_target m);
bs b ((self#keyword "module")^" ");
(
if with_link then
bp b "%s" html_file (Name.simple m.m_name)
else
bs b (Name.simple m.m_name)
);
bs b "" ;
(
match m.m_kind with
Module_functor _ when !html_short_functors ->
()
| _ -> bs b ": "
);
self#html_of_module_kind b father ~modu: m m.m_kind;
bs b "
";
if info then
(
if complete then
self#html_of_info ~cls: "module top" ~indent: true
else
self#html_of_info_first_sentence
) b m.m_info
else
()
(** Print html code for a module type. *)
method html_of_modtype b ?(info=true) ?(complete=true) ?(with_link=true) mt =
let (html_file, _) = Naming.html_files mt.mt_name in
let father = Name.father mt.mt_name in
bs b "\n
";
bp b "" (Naming.module_type_target mt);
bs b (self#keyword "module type" ^ " ");
(
if with_link then
bp b "%s" html_file (Name.simple mt.mt_name)
else
bs b (Name.simple mt.mt_name)
);
bs b "";
(match mt.mt_kind with
None -> ()
| Some k ->
bs b " = ";
self#html_of_module_type_kind b father ~mt k
);
bs b "
";
if info then
(
if complete then
self#html_of_info ~cls: "modtype top" ~indent: true
else
self#html_of_info_first_sentence
) b mt.mt_info
else
()
(** Print html code for an included module. *)
method html_of_included_module b im =
bs b "\n
";
bs b ((self#keyword "include")^" ");
(
match im.im_module with
None ->
bs b im.im_name
| Some mmt ->
let (file, name) =
match mmt with
Mod m ->
let (html_file, _) = Naming.html_files m.m_name in
(html_file, m.m_name)
| Modtype mt ->
let (html_file, _) = Naming.html_files mt.mt_name in
(html_file, mt.mt_name)
in
bp b "%s" file name
);
bs b "
\n";
self#html_of_info b im.im_info
method html_of_class_element b element =
match element with
Class_attribute a ->
self#html_of_attribute b a
| Class_method m ->
self#html_of_method b m
| Class_comment t ->
self#html_of_class_comment b t
method html_of_class_kind b father ?cl kind =
match kind with
Class_structure (inh, eles) ->
self#html_of_text b [Code "object"];
(
match cl with
None ->
bs b "\n";
(
match inh with
[] -> ()
| _ ->
self#generate_inheritance_info b inh
);
List.iter (self#html_of_class_element b) eles;
| Some cl ->
let (html_file, _) = Naming.html_files cl.cl_name in
bp b " .. " html_file
);
self#html_of_text b [Code "end"]
| Class_apply _ ->
(* TODO: display final type from typedtree *)
self#html_of_text b [Raw "class application not handled yet"]
| Class_constr cco ->
(
match cco.cco_type_parameters with
[] -> ()
| l ->
self#html_of_class_type_param_expr_list b father l;
bs b " "
);
bs b "";
bs b (self#create_fully_qualified_idents_links father cco.cco_name);
bs b ""
| Class_constraint (ck, ctk) ->
self#html_of_text b [Code "( "] ;
self#html_of_class_kind b father ck;
self#html_of_text b [Code " : "] ;
self#html_of_class_type_kind b father ctk;
self#html_of_text b [Code " )"]
method html_of_class_type_kind b father ?ct kind =
match kind with
Class_type cta ->
(
match cta.cta_type_parameters with
[] -> ()
| l ->
self#html_of_class_type_param_expr_list b father l;
bs b " "
);
bs b "";
bs b (self#create_fully_qualified_idents_links father cta.cta_name);
bs b ""
| Class_signature (inh, eles) ->
self#html_of_text b [Code "object"];
(
match ct with
None ->
bs b "\n";
(
match inh with
[] -> ()
| _ -> self#generate_inheritance_info b inh
);
List.iter (self#html_of_class_element b) eles
| Some ct ->
let (html_file, _) = Naming.html_files ct.clt_name in
bp b " .. " html_file
);
self#html_of_text b [Code "end"]
(** Print html code for a class. *)
method html_of_class b ?(complete=true) ?(with_link=true) c =
let father = Name.father c.cl_name in
Odoc_info.reset_type_names ();
let (html_file, _) = Naming.html_files c.cl_name in
bs b "\n
";
(* we add a html id, the same as for a type so we can
go directly here when the class name is used as a type name *)
bp b ""
(Naming.type_target
{ ty_name = c.cl_name ;
ty_info = None ; ty_parameters = [] ;
ty_kind = Type_abstract ; ty_private = Asttypes.Public;
ty_manifest = None ;
ty_loc = Odoc_info.dummy_loc ;
ty_code = None ;
}
);
bs b ((self#keyword "class")^" ");
print_DEBUG "html#html_of_class : virtual or not" ;
if c.cl_virtual then bs b ((self#keyword "virtual")^" ");
(
match c.cl_type_parameters with
[] -> ()
| l ->
self#html_of_class_type_param_expr_list b father l;
bs b " "
);
print_DEBUG "html#html_of_class : with link or not" ;
(
if with_link then
bp b "%s" html_file (Name.simple c.cl_name)
else
bs b (Name.simple c.cl_name)
);
bs b "";
bs b " : " ;
self#html_of_class_parameter_list b father c ;
self#html_of_class_kind b father ~cl: c c.cl_kind;
bs b "
" ;
print_DEBUG "html#html_of_class : info" ;
(
if complete then
self#html_of_info ~cls: "class top" ~indent: true
else
self#html_of_info_first_sentence
) b c.cl_info
(** Print html code for a class type. *)
method html_of_class_type b ?(complete=true) ?(with_link=true) ct =
Odoc_info.reset_type_names ();
let father = Name.father ct.clt_name in
let (html_file, _) = Naming.html_files ct.clt_name in
bs b "\n
";
(* we add a html id, the same as for a type so we can
go directly here when the class type name is used as a type name *)
bp b ""
(Naming.type_target
{ ty_name = ct.clt_name ;
ty_info = None ; ty_parameters = [] ;
ty_kind = Type_abstract ; ty_private = Asttypes.Public; ty_manifest = None ;
ty_loc = Odoc_info.dummy_loc ;
ty_code = None ;
}
);
bs b ((self#keyword "class type")^" ");
if ct.clt_virtual then bs b ((self#keyword "virtual")^" ");
(
match ct.clt_type_parameters with
[] -> ()
| l ->
self#html_of_class_type_param_expr_list b father l;
bs b " "
);
if with_link then
bp b "%s" html_file (Name.simple ct.clt_name)
else
bs b (Name.simple ct.clt_name);
bs b "";
bs b " = ";
self#html_of_class_type_kind b father ~ct ct.clt_kind;
bs b "
";
(
if complete then
self#html_of_info ~cls: "classtype top" ~indent: true
else
self#html_of_info_first_sentence
) b ct.clt_info
(** Return html code to represent a dag, represented as in Odoc_dag2html. *)
method html_of_dag dag =
let f n =
let (name, cct_opt) = n.Odoc_dag2html.valu in
(* if we have a c_opt = Some class then we take its information
because we are sure the name is complete. *)
let (name2, html_file) =
match cct_opt with
None -> (name, fst (Naming.html_files name))
| Some (Cl c) -> (c.cl_name, fst (Naming.html_files c.cl_name))
| Some (Cltype (ct, _)) -> (ct.clt_name, fst (Naming.html_files ct.clt_name))
in
let new_v =
"
\n"
in
{ n with Odoc_dag2html.valu = new_v }
in
let a = Array.map f dag.Odoc_dag2html.dag in
Odoc_dag2html.html_of_dag { Odoc_dag2html.dag = a }
(** Print html code for a module comment.*)
method html_of_module_comment b text =
self#html_of_text ~with_p:true b text
(** Print html code for a class comment.*)
method html_of_class_comment b text =
(* Add some style if there is no style for the first part of the text. *)
let text2 =
match text with
| (Odoc_info.Raw s) :: q ->
(Odoc_info.Title (1, None, [Odoc_info.Raw s])) :: q
| _ -> text
in
self#html_of_text ~with_p:true b text2
(** Generate html code for the given list of inherited classes.*)
method generate_inheritance_info b inher_l =
let f inh =
match inh.ic_class with
None -> (* we can't make the link. *)
(Odoc_info.Code inh.ic_name) ::
(match inh.ic_text with
None -> []
| Some t -> (Odoc_info.Raw " ") :: t)
| Some cct ->
(* we can create the link. *)
let real_name = (* even if it should be the same *)
match cct with
Cl c -> c.cl_name
| Cltype (ct, _) -> ct.clt_name
in
let (class_file, _) = Naming.html_files real_name in
(Odoc_info.Link (class_file, [Odoc_info.Code real_name])) ::
(match inh.ic_text with
None -> []
| Some t -> (Odoc_info.Raw " ") :: t)
in
let text = [
Odoc_info.Bold [Odoc_info.Raw Odoc_messages.inherits] ;
Odoc_info.List (List.map f inher_l)
]
in
self#html_of_text b text
(** Generate html code for the inherited classes of the given class. *)
method generate_class_inheritance_info b cl =
let rec iter_kind k =
match k with
Class_structure ([], _) ->
()
| Class_structure (l, _) ->
self#generate_inheritance_info b l
| Class_constraint (k, _) ->
iter_kind k
| Class_apply _
| Class_constr _ ->
()
in
iter_kind cl.cl_kind
(** Generate html code for the inherited classes of the given class type. *)
method generate_class_type_inheritance_info b clt =
match clt.clt_kind with
Class_signature ([], _) ->
()
| Class_signature (l, _) ->
self#generate_inheritance_info b l
| Class_type _ ->
()
(** A method to create index files. *)
method generate_elements_index :
'a.
'a list ->
('a -> Odoc_info.Name.t) ->
('a -> Odoc_info.info option) ->
('a -> string) -> string -> string -> unit =
fun elements name info target title simple_file ->
try
let chanout = open_out (Filename.concat !Global.target_dir simple_file) in
let b = new_buf () in
bs b "\n";
self#print_header b (self#inner_title title);
bs b "\n";
self#print_navbar b None None "";
bs b "
";
bs b title;
bs b "
\n" ;
let sorted_elements = List.sort
(fun e1 e2 -> compare (Name.simple (name e1)) (Name.simple (name e2)))
elements
in
let groups = Odoc_info.create_index_lists sorted_elements (fun e -> Name.simple (name e)) in
let f_ele e =
let simple_name = Name.simple (name e) in
let father_name = Name.father (name e) in
if father_name = "Stdlib" && father_name <> simple_name then
(* avoid duplicata *) ()
else
begin
bp b "
%s " (target e) (self#escape simple_name);
if simple_name <> father_name && father_name <> "" then
bp b "[%s]" (fst (Naming.html_files father_name)) father_name;
bs b "
\n
";
self#html_of_info_first_sentence b (info e);
bs b "
\n"
end
in
let f_group l =
match l with
[] -> ()
| e :: _ ->
let s =
match (Char.uppercase_ascii (Name.simple (name e)).[0]) with
'A'..'Z' as c -> String.make 1 c
| _ -> ""
in
bs b "
";
bs b s ;
bs b "
\n" ;
List.iter f_ele l
in
bs b "
\n";
List.iter f_group groups ;
bs b "
\n" ;
bs b "\n\n";
Buffer.output_buffer chanout b;
close_out chanout
with
Sys_error s ->
raise (Failure s)
(** A method to generate a list of module/class files. *)
method generate_elements :
'a. ('a option -> 'a option -> 'a -> unit) -> 'a list -> unit =
fun f_generate l ->
let rec iter pre_opt = function
[] -> ()
| ele :: [] -> f_generate pre_opt None ele
| ele1 :: ele2 :: q ->
f_generate pre_opt (Some ele2) ele1 ;
iter (Some ele1) (ele2 :: q)
in
iter None l
(** Generate the code of the html page for the given class.*)
method generate_for_class pre post cl =
Odoc_info.reset_type_names ();
let (html_file, _) = Naming.html_files cl.cl_name in
let type_file = Naming.file_type_class_complete_target cl.cl_name in
try
let chanout = open_out (Filename.concat !Global.target_dir html_file) in
let b = new_buf () in
let pre_name = opt (fun c -> c.cl_name) pre in
let post_name = opt (fun c -> c.cl_name) post in
bs b doctype ;
bs b "\n";
self#print_header b
~nav: (Some (pre_name, post_name, cl.cl_name))
~comments: (Class.class_comments cl)
(self#inner_title cl.cl_name);
bs b "\n";
self#print_navbar b pre_name post_name cl.cl_name;
bs b "
";
bs b (Odoc_messages.clas^" ");
if cl.cl_virtual then bs b "virtual " ;
bp b "%s" type_file cl.cl_name;
bs b "
\n";
self#html_of_class b ~with_link: false cl;
(* parameters *)
self#html_of_described_parameter_list b
(Name.father cl.cl_name) cl.cl_parameters;
(* class inheritance *)
self#generate_class_inheritance_info b cl;
(* a horizontal line *)
bs b "\n";
(* the various elements *)
List.iter (self#html_of_class_element b)
(Class.class_elements ~trans:false cl);
bs b "\n";
Buffer.output_buffer chanout b;
close_out chanout;
(* generate the file with the complete class type *)
self#output_class_type
cl.cl_name
(Filename.concat !Global.target_dir type_file)
cl.cl_type
with
Sys_error s ->
raise (Failure s)
(** Generate the code of the html page for the given class type.*)
method generate_for_class_type pre post clt =
Odoc_info.reset_type_names ();
let (html_file, _) = Naming.html_files clt.clt_name in
let type_file = Naming.file_type_class_complete_target clt.clt_name in
try
let chanout = open_out (Filename.concat !Global.target_dir html_file) in
let b = new_buf () in
let pre_name = opt (fun ct -> ct.clt_name) pre in
let post_name = opt (fun ct -> ct.clt_name) post in
bs b doctype ;
bs b "\n";
self#print_header b
~nav: (Some (pre_name, post_name, clt.clt_name))
~comments: (Class.class_type_comments clt)
(self#inner_title clt.clt_name);
bs b "\n";
self#print_navbar b pre_name post_name clt.clt_name;
bs b "
";
bs b (Odoc_messages.class_type^" ");
if clt.clt_virtual then bs b "virtual ";
bp b "%s" type_file clt.clt_name;
bs b "
\n";
self#html_of_class_type b ~with_link: false clt;
(* class inheritance *)
self#generate_class_type_inheritance_info b clt;
(* a horizontal line *)
bs b "\n";
(* the various elements *)
List.iter (self#html_of_class_element b)
(Class.class_type_elements ~trans: false clt);
bs b "\n";
Buffer.output_buffer chanout b;
close_out chanout;
(* generate the file with the complete class type *)
self#output_class_type
clt.clt_name
(Filename.concat !Global.target_dir type_file)
clt.clt_type
with
Sys_error s ->
raise (Failure s)
(** Generate the html file for the given module type.
@raise Failure if an error occurs.*)
method generate_for_module_type pre post mt =
try
let (html_file, _) = Naming.html_files mt.mt_name in
let type_file = Naming.file_type_module_complete_target mt.mt_name in
let chanout = open_out (Filename.concat !Global.target_dir html_file) in
let b = new_buf () in
let pre_name = opt (fun mt -> mt.mt_name) pre in
let post_name = opt (fun mt -> mt.mt_name) post in
bs b doctype ;
bs b "\n";
self#print_header b
~nav: (Some (pre_name, post_name, mt.mt_name))
~comments: (Module.module_type_comments mt)
(self#inner_title mt.mt_name);
bs b "\n";
self#print_navbar b pre_name post_name mt.mt_name;
bp b "
";
bs b (Odoc_messages.module_type^" ");
(
match mt.mt_type with
Some _ -> bp b "%s" type_file mt.mt_name
| None-> bs b mt.mt_name
);
bs b "
\n" ;
self#html_of_modtype b ~with_link: false mt;
(* parameters for functors *)
self#html_of_module_parameter_list b
(Name.father mt.mt_name)
(Module.module_type_parameters mt);
(* a horizontal line *)
bs b "\n";
(* module elements *)
List.iter
(self#html_of_module_element b mt.mt_name)
(Module.module_type_elements mt);
bs b "\n";
Buffer.output_buffer chanout b;
close_out chanout;
(* generate html files for submodules *)
self#generate_elements self#generate_for_module (Module.module_type_modules mt);
(* generate html files for module types *)
self#generate_elements self#generate_for_module_type (Module.module_type_module_types mt);
(* generate html files for classes *)
self#generate_elements self#generate_for_class (Module.module_type_classes mt);
(* generate html files for class types *)
self#generate_elements self#generate_for_class_type (Module.module_type_class_types mt);
(* generate the file with the complete module type *)
(
match mt.mt_type with
None -> ()
| Some mty ->
self#output_module_type
mt.mt_name
(Filename.concat !Global.target_dir type_file)
mty
)
with
Sys_error s ->
raise (Failure s)
(** Generate the html file for the given module.
@raise Failure if an error occurs.*)
method generate_for_module pre post modu =
try
Odoc_info.verbose ("Generate for module "^modu.m_name);
let (html_file, _) = Naming.html_files modu.m_name in
let type_file = Naming.file_type_module_complete_target modu.m_name in
let code_file = Naming.file_code_module_complete_target modu.m_name in
let chanout = open_out (Filename.concat !Global.target_dir html_file) in
let b = new_buf () in
let pre_name = opt (fun m -> m.m_name) pre in
let post_name = opt (fun m -> m.m_name) post in
bs b doctype ;
bs b "\n";
self#print_header b
~nav: (Some (pre_name, post_name, modu.m_name))
~comments: (Module.module_comments modu)
(self#inner_title modu.m_name);
bs b "\n" ;
self#print_navbar b pre_name post_name modu.m_name ;
bs b "
";
if modu.m_text_only then
bs b modu.m_name
else
(
bs b
(
if Module.module_is_functor modu then
Odoc_messages.functo
else
Odoc_messages.modul
);
bp b " %s" type_file modu.m_name;
(
match modu.m_code with
None -> ()
| Some _ -> bp b " (.ml)" code_file
)
);
bs b "
\n";
if not modu.m_text_only then
self#html_of_module b ~with_link: false modu
else
self#html_of_info ~indent:false b modu.m_info;
(* parameters for functors *)
self#html_of_module_parameter_list b
(Name.father modu.m_name)
(Module.module_parameters modu);
(* a horizontal line *)
if not modu.m_text_only then bs b "\n";
(* module elements *)
List.iter
(self#html_of_module_element b modu.m_name)
(Module.module_elements modu);
bs b "\n";
Buffer.output_buffer chanout b;
close_out chanout;
(* generate html files for submodules *)
self#generate_elements self#generate_for_module (Module.module_modules modu);
(* generate html files for module types *)
self#generate_elements self#generate_for_module_type (Module.module_module_types modu);
(* generate html files for classes *)
self#generate_elements self#generate_for_class (Module.module_classes modu);
(* generate html files for class types *)
self#generate_elements self#generate_for_class_type (Module.module_class_types modu);
(* generate the file with the complete module type *)
self#output_module_type
modu.m_name
(Filename.concat !Global.target_dir type_file)
modu.m_type;
match modu.m_code with
None -> ()
| Some code ->
self#output_code ~with_pre:false
modu.m_name
(Filename.concat !Global.target_dir code_file)
code
with
Sys_error s ->
raise (Failure s)
(** Generate the [.html] file corresponding to the given module list.
@raise Failure if an error occurs.*)
method generate_index module_list =
try
let chanout = open_out (Filename.concat !Global.target_dir self#index) in
let b = new_buf () in
bs b doctype ;
bs b "\n";
self#print_header b self#title;
bs b "\n";
(
match !Global.title with
| None -> ()
| Some t ->
bs b "
";
bs b (self#escape t);
bs b "
\n"
);
let info = Odoc_info.apply_opt
(Odoc_info.info_of_comment_file module_list)
!Odoc_info.Global.intro_file
in
(
match info with
None ->
bs b "
\n";
self#html_of_Index_list b;
bs b "
\n";
self#html_of_Module_list b
(List.map (fun m -> m.m_name) module_list);
| Some _ -> self#html_of_info ~indent: false b info
);
bs b "\n\n";
Buffer.output_buffer chanout b;
close_out chanout
with
Sys_error s ->
raise (Failure s)
(** Generate the values index in the file [index_values.html]. *)
method generate_values_index _module_list =
self#generate_elements_index
self#list_values
(fun v -> v.val_name)
(fun v -> v.val_info)
Naming.complete_value_target
Odoc_messages.index_of_values
self#index_values
(** Generate the extensions index in the file [index_extensions.html]. *)
method generate_extensions_index _module_list =
self#generate_elements_index
self#list_extensions
(fun x -> x.xt_name)
(fun x -> x.xt_type_extension.te_info)
(fun x -> Naming.complete_extension_target x)
Odoc_messages.index_of_extensions
self#index_extensions
(** Generate the exceptions index in the file [index_exceptions.html]. *)
method generate_exceptions_index _module_list =
self#generate_elements_index
self#list_exceptions
(fun e -> e.ex_name)
(fun e -> e.ex_info)
Naming.complete_exception_target
Odoc_messages.index_of_exceptions
self#index_exceptions
(** Generate the types index in the file [index_types.html]. *)
method generate_types_index _module_list =
self#generate_elements_index
self#list_types
(fun t -> t.ty_name)
(fun t -> t.ty_info)
Naming.complete_type_target
Odoc_messages.index_of_types
self#index_types
(** Generate the attributes index in the file [index_attributes.html]. *)
method generate_attributes_index _module_list =
self#generate_elements_index
self#list_attributes
(fun a -> a.att_value.val_name)
(fun a -> a.att_value.val_info)
Naming.complete_attribute_target
Odoc_messages.index_of_attributes
self#index_attributes
(** Generate the methods index in the file [index_methods.html]. *)
method generate_methods_index _module_list =
self#generate_elements_index
self#list_methods
(fun m -> m.met_value.val_name)
(fun m -> m.met_value.val_info)
Naming.complete_method_target
Odoc_messages.index_of_methods
self#index_methods
(** Generate the classes index in the file [index_classes.html]. *)
method generate_classes_index _module_list =
self#generate_elements_index
self#list_classes
(fun c -> c.cl_name)
(fun c -> c.cl_info)
(fun c -> fst (Naming.html_files c.cl_name))
Odoc_messages.index_of_classes
self#index_classes
(** Generate the class types index in the file [index_class_types.html]. *)
method generate_class_types_index _module_list =
self#generate_elements_index
self#list_class_types
(fun ct -> ct.clt_name)
(fun ct -> ct.clt_info)
(fun ct -> fst (Naming.html_files ct.clt_name))
Odoc_messages.index_of_class_types
self#index_class_types
(** Generate the modules index in the file [index_modules.html]. *)
method generate_modules_index _module_list =
self#generate_elements_index
self#list_modules
(fun m -> m.m_name)
(fun m -> m.m_info)
(fun m -> fst (Naming.html_files m.m_name))
Odoc_messages.index_of_modules
self#index_modules
(** Generate the module types index in the file [index_module_types.html]. *)
method generate_module_types_index _module_list =
self#generate_elements_index
self#list_module_types
(fun mt -> mt.mt_name)
(fun mt -> mt.mt_info)
(fun mt -> fst (Naming.html_files mt.mt_name))
Odoc_messages.index_of_module_types
self#index_module_types
(** Generate all the html files from a module list. The main
file is [.html]. *)
method generate module_list =
(* init the style *)
self#init_style ;
(* init the lists of elements *)
list_values <- Odoc_info.Search.values module_list ;
list_extensions <- Odoc_info.Search.extensions module_list ;
list_exceptions <- Odoc_info.Search.exceptions module_list ;
list_types <- Odoc_info.Search.types module_list ;
list_attributes <- Odoc_info.Search.attributes module_list ;
list_methods <- Odoc_info.Search.methods module_list ;
list_classes <- Odoc_info.Search.classes module_list ;
list_class_types <- Odoc_info.Search.class_types module_list ;
list_modules <- Odoc_info.Search.modules module_list ;
list_module_types <- Odoc_info.Search.module_types module_list ;
(* prepare the page header *)
self#prepare_header module_list ;
(* Get the names of all known types. *)
let types = Odoc_info.Search.types module_list in
known_types_names <-
List.fold_left
(fun acc t -> String.Set.add t.ty_name acc)
known_types_names
types ;
(* Get the names of all class and class types. *)
let classes = Odoc_info.Search.classes module_list in
let class_types = Odoc_info.Search.class_types module_list in
known_classes_names <-
List.fold_left
(fun acc c -> String.Set.add c.cl_name acc)
known_classes_names
classes ;
known_classes_names <-
List.fold_left
(fun acc ct -> String.Set.add ct.clt_name acc)
known_classes_names
class_types ;
(* Get the names of all known modules and module types. *)
let module_types = Odoc_info.Search.module_types module_list in
let modules = Odoc_info.Search.modules module_list in
known_modules_names <-
List.fold_left
(fun acc m -> String.Set.add m.m_name acc)
known_modules_names
modules ;
known_modules_names <-
List.fold_left
(fun acc mt -> String.Set.add mt.mt_name acc)
known_modules_names
module_types ;
(* generate html for each module *)
if not !index_only then
self#generate_elements self#generate_for_module module_list ;
try
self#generate_index module_list;
self#generate_values_index module_list ;
self#generate_extensions_index module_list ;
self#generate_exceptions_index module_list ;
self#generate_types_index module_list ;
self#generate_attributes_index module_list ;
self#generate_methods_index module_list ;
self#generate_classes_index module_list ;
self#generate_class_types_index module_list ;
self#generate_modules_index module_list ;
self#generate_module_types_index module_list ;
with
Failure s ->
prerr_endline s ;
incr Odoc_info.errors
initializer
Odoc_ocamlhtml.html_of_comment :=
(fun s ->
let b = new_buf () in
self#html_of_text b (Odoc_text.Texter.text_of_string s);
Buffer.contents b
)
end
end
module type Html_generator = module type of Generator