ocaml/ocamldoc/odoc_latex.ml

1231 lines
41 KiB
OCaml

(***********************************************************************)
(* *)
(* 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. *)
(* *)
(***********************************************************************)
(** Generation of LaTeX documentation. *)
let print_DEBUG s = print_string s ; print_newline ()
open Odoc_info
open Parameter
open Value
open Type
open Exception
open Class
open Module
let separate_files = ref false
let latex_titles = ref [
1, "section" ;
2, "subsection" ;
3, "subsubsection" ;
4, "paragraph" ;
5, "subparagraph" ;
]
let latex_value_prefix = ref Odoc_messages.default_latex_value_prefix
let latex_type_prefix = ref Odoc_messages.default_latex_type_prefix
let latex_type_elt_prefix = ref Odoc_messages.default_latex_type_elt_prefix
let latex_exception_prefix = ref Odoc_messages.default_latex_exception_prefix
let latex_module_prefix = ref Odoc_messages.default_latex_module_prefix
let latex_module_type_prefix = ref Odoc_messages.default_latex_module_type_prefix
let latex_class_prefix = ref Odoc_messages.default_latex_class_prefix
let latex_class_type_prefix = ref Odoc_messages.default_latex_class_type_prefix
let latex_attribute_prefix = ref Odoc_messages.default_latex_attribute_prefix
let latex_method_prefix = ref Odoc_messages.default_latex_method_prefix
let new_buf () = Buffer.create 1024
let new_fmt () =
let b = new_buf () in
let fmt = Format.formatter_of_buffer b in
(fmt,
fun () ->
Format.pp_print_flush fmt ();
let s = Buffer.contents b in
Buffer.reset b;
s
)
let p = Format.fprintf
let ps f s = Format.fprintf f "%s" s
let bp = Printf.bprintf
let bs = Buffer.add_string
let print_concat fmt sep f =
let rec iter = function
[] -> ()
| [c] -> f c
| c :: q ->
f c;
ps fmt sep;
iter q
in
iter
(** Generation of LaTeX code from text structures. *)
class text =
object (self)
(** Return latex code to make a sectionning according to the given level,
and with the given latex code. *)
method section_style level s =
try
let sec = List.assoc level !latex_titles in
"\\"^sec^"{"^s^"}\n"
with Not_found -> s
(** Associations of strings to substitute in latex code. *)
val subst_strings = List.map (fun (x, y) -> (Str.regexp x, y))
[
"\001", "\001\002";
"\\\\", "\001b";
"{", "\\\\{";
"}", "\\\\}";
"\\$", "\\\\$";
"\\^", "{\\\\textasciicircum}";
"\xE0", "\\\\`a";
"\xE2", "\\\\^a";
"\xE9", "\\\\'e";
"\xE8", "\\\\`e";
"\xEA", "\\\\^e";
"\xEB", "\\\\\"e";
"\xE7", "\\\\c{c}";
"\xF4", "\\\\^o";
"\xF6", "\\\\\"o";
"\xEE", "\\\\^i";
"\xEF", "\\\\\"i";
"\xF9", "\\\\`u";
"\xFB", "\\\\^u";
"%", "\\\\%";
"_", "\\\\_";
"~", "\\\\~{}";
"#", "{\\char35}";
"->", "$\\\\rightarrow$";
"<-", "$\\\\leftarrow$";
">=", "$\\\\geq$";
"<=", "$\\\\leq$";
">", "$>$";
"<", "$<$";
"=", "$=$";
"|", "{\\\\textbar}";
"\\.\\.\\.", "$\\\\ldots$";
"&", "\\\\&";
"\001b", "{\\\\char92}";
"\001\002", "\001";
]
val subst_strings_simple = List.map (fun (x, y) -> (Str.regexp x, y))
[
"\001", "\001\002";
"\\\\", "\001b";
"{", "\001l";
"}", "{\\\\char125}";
"'", "{\\\\textquotesingle}";
"`", "{\\\\textasciigrave}";
"\001b", "{\\\\char92}";
"\001l", "{\\\\char123}";
"\001\002", "\001";
]
val subst_strings_code = List.map (fun (x, y) -> (Str.regexp x, y))
[
"\001", "\001\002";
"\\\\", "\001b";
"{", "\001l";
"}", "{\\\\char125}";
"'", "{\\\\textquotesingle}";
"`", "{\\\\textasciigrave}";
"%", "\\\\%";
"_", "\\\\_";
"~", "{\\\\char126}";
"#", "{\\\\char35}";
"&", "\\\\&";
"\\$", "\\\\$";
"\\^", "{\\\\char94}";
"\001b", "{\\\\char92}";
"\001l", "{\\\\char123}";
"\001\002", "\001";
]
method subst l s =
List.fold_left (fun acc (re, st) -> Str.global_replace re st acc) s l
(** Escape the strings which would clash with LaTeX syntax. *)
method escape s = self#subst subst_strings s
(** Escape the ['\'], ['{'] and ['}'] characters. *)
method escape_simple s = self#subst subst_strings_simple s
(** Escape some characters for the code style. *)
method escape_code s = self#subst subst_strings_code s
(** Make a correct latex label from a name. *)
(* The following characters are forbidden in LaTeX \index:
\ { } $ & # ^ _ % ~ ! " @ | (" to close the double quote)
The following characters are forbidden in LaTeX \label:
\ { } $ & # ^ _ % ~
So we will use characters not forbidden in \index if no_ = true.
*)
method label ?(no_=true) name =
let len = String.length name in
let buf = Buffer.create len in
for i = 0 to len - 1 do
let (s_no_, s) =
match name.[i] with
'_' -> ("-underscore", "_")
| '~' -> ("-tilde", "~")
| '%' -> ("-percent", "%")
| '@' -> ("-at", "\"@")
| '!' -> ("-bang", "\"!")
| '|' -> ("-pipe", "\"|")
| '<' -> ("-lt", "<")
| '>' -> ("-gt", ">")
| '^' -> ("-exp", "^")
| '&' -> ("-ampersand", "&")
| '+' -> ("-plus", "+")
| '-' -> ("-minus", "-")
| '*' -> ("-star", "*")
| '/' -> ("-slash", "/")
| '$' -> ("-dollar", "$")
| '=' -> ("-equal", "=")
| ':' -> ("-colon", ":")
| c -> (String.make 1 c, String.make 1 c)
in
Buffer.add_string buf (if no_ then s_no_ else s)
done;
Buffer.contents buf
(** Make a correct label from a value name. *)
method value_label ?no_ name = !latex_value_prefix^(self#label ?no_ name)
(** Make a correct label from an attribute name. *)
method attribute_label ?no_ name = !latex_attribute_prefix^(self#label ?no_ name)
(** Make a correct label from a method name. *)
method method_label ?no_ name = !latex_method_prefix^(self#label ?no_ name)
(** Make a correct label from a class name. *)
method class_label ?no_ name = !latex_class_prefix^(self#label ?no_ name)
(** Make a correct label from a class type name. *)
method class_type_label ?no_ name = !latex_class_type_prefix^(self#label ?no_ name)
(** Make a correct label from a module name. *)
method module_label ?no_ name = !latex_module_prefix^(self#label ?no_ name)
(** Make a correct label from a module type name. *)
method module_type_label ?no_ name = !latex_module_type_prefix^(self#label ?no_ name)
(** Make a correct label from an exception name. *)
method exception_label ?no_ name = !latex_exception_prefix^(self#label ?no_ name)
(** Make a correct label from a type name. *)
method type_label ?no_ name = !latex_type_prefix^(self#label ?no_ name)
(** Make a correct label from a record field. *)
method recfield_label ?no_ name = !latex_type_elt_prefix^(self#label ?no_ name)
(** Make a correct label from a variant constructor. *)
method const_label ?no_ name = !latex_type_elt_prefix^(self#label ?no_ name)
(** Return latex code for the label of a given label. *)
method make_label label = "\\label{"^label^"}"
(** Return latex code for the ref to a given label. *)
method make_ref label = "\\ref{"^label^"}"
(** Print the LaTeX code corresponding to the [text] parameter.*)
method latex_of_text fmt t =
List.iter (self#latex_of_text_element fmt) t
(** Print the LaTeX code for the [text_element] in parameter. *)
method latex_of_text_element fmt te =
match te with
| Odoc_info.Raw s -> self#latex_of_Raw fmt s
| Odoc_info.Code s -> self#latex_of_Code fmt s
| Odoc_info.CodePre s -> self#latex_of_CodePre fmt s
| Odoc_info.Verbatim s -> self#latex_of_Verbatim fmt s
| Odoc_info.Bold t -> self#latex_of_Bold fmt t
| Odoc_info.Italic t -> self#latex_of_Italic fmt t
| Odoc_info.Emphasize t -> self#latex_of_Emphasize fmt t
| Odoc_info.Center t -> self#latex_of_Center fmt t
| Odoc_info.Left t -> self#latex_of_Left fmt t
| Odoc_info.Right t -> self#latex_of_Right fmt t
| Odoc_info.List tl -> self#latex_of_List fmt tl
| Odoc_info.Enum tl -> self#latex_of_Enum fmt tl
| Odoc_info.Newline -> self#latex_of_Newline fmt
| Odoc_info.Block t -> self#latex_of_Block fmt t
| Odoc_info.Title (n, l_opt, t) -> self#latex_of_Title fmt n l_opt t
| Odoc_info.Latex s -> self#latex_of_Latex fmt s
| Odoc_info.Link (s, t) -> self#latex_of_Link fmt s t
| Odoc_info.Ref (name, ref_opt, text_opt) ->
self#latex_of_Ref fmt name ref_opt text_opt
| Odoc_info.Superscript t -> self#latex_of_Superscript fmt t
| Odoc_info.Subscript t -> self#latex_of_Subscript fmt t
| Odoc_info.Module_list _ -> ()
| Odoc_info.Index_list -> ()
| Odoc_info.Custom (s,t) -> self#latex_of_custom_text fmt s t
| Odoc_info.Target (target, code) -> self#latex_of_Target fmt ~target ~code
method latex_of_custom_text fmt s t = ()
method latex_of_Target fmt ~target ~code =
if String.lowercase target = "latex" then
self#latex_of_Latex fmt code
else
()
method latex_of_Raw fmt s =
ps fmt (self#escape s)
method latex_of_Code fmt s =
let s2 = self#escape_code s in
let s3 = Str.global_replace (Str.regexp "\n") ("\\\\\n") s2 in
p fmt "{\\tt{%s}}" s3
method latex_of_CodePre fmt s =
ps fmt "\\begin{ocamldoccode}\n";
ps fmt (self#escape_simple s);
ps fmt "\n\\end{ocamldoccode}\n"
method latex_of_Verbatim fmt s =
ps fmt "\n\\begin{verbatim}\n";
ps fmt s;
ps fmt "\n\\end{verbatim}\n"
method latex_of_Bold fmt t =
ps fmt "{\\bf ";
self#latex_of_text fmt t;
ps fmt "}"
method latex_of_Italic fmt t =
ps fmt "{\\it ";
self#latex_of_text fmt t;
ps fmt "}"
method latex_of_Emphasize fmt t =
ps fmt "{\\em ";
self#latex_of_text fmt t;
ps fmt "}"
method latex_of_Center fmt t =
ps fmt "\\begin{center}\n";
self#latex_of_text fmt t;
ps fmt "\\end{center}\n"
method latex_of_Left fmt t =
ps fmt "\\begin{flushleft}\n";
self#latex_of_text fmt t;
ps fmt "\\end{flushleft}\n"
method latex_of_Right fmt t =
ps fmt "\\begin{flushright}\n";
self#latex_of_text fmt t;
ps fmt "\\end{flushright}\n"
method latex_of_List fmt tl =
ps fmt "\\begin{itemize}\n";
List.iter
(fun t ->
ps fmt "\\item ";
self#latex_of_text fmt t;
ps fmt "\n"
)
tl;
ps fmt "\\end{itemize}\n"
method latex_of_Enum fmt tl =
ps fmt "\\begin{enumerate}\n";
List.iter
(fun t ->
ps fmt "\\item ";
self#latex_of_text fmt t;
ps fmt "\n"
)
tl;
ps fmt "\\end{enumerate}\n"
method latex_of_Newline fmt = ps fmt "\n\n"
method latex_of_Block fmt t =
ps fmt "\\begin{ocamldocdescription}\n";
self#latex_of_text fmt t;
ps fmt "\n\\end{ocamldocdescription}\n"
method latex_of_Title fmt n label_opt t =
let (fmt2, flush) = new_fmt () in
self#latex_of_text fmt2 t;
let s_title2 = self#section_style n (flush ()) in
ps fmt s_title2;
(
match label_opt with
None -> ()
| Some l ->
ps fmt (self#make_label (self#label ~no_: false l))
)
method latex_of_Latex fmt s = ps fmt s
method latex_of_Link fmt s t =
self#latex_of_text fmt t ;
ps fmt "[\\url{";
ps fmt s ;
ps fmt "}]"
method latex_of_Ref fmt name ref_opt text_opt =
match ref_opt with
None ->
self#latex_of_text fmt
(match text_opt with
None ->
[Odoc_info.Code (Odoc_info.use_hidden_modules name)]
| Some t -> t
)
| Some (RK_section _) ->
self#latex_of_text_element fmt
(Latex ("["^(self#make_ref (self#label ~no_:false (Name.simple name)))^"]"))
| Some kind ->
let f_label =
match kind with
Odoc_info.RK_module -> self#module_label
| Odoc_info.RK_module_type -> self#module_type_label
| Odoc_info.RK_class -> self#class_label
| Odoc_info.RK_class_type -> self#class_type_label
| Odoc_info.RK_value -> self#value_label
| Odoc_info.RK_type -> self#type_label
| Odoc_info.RK_exception -> self#exception_label
| Odoc_info.RK_attribute -> self#attribute_label
| Odoc_info.RK_method -> self#method_label
| Odoc_info.RK_section _ -> assert false
| Odoc_info.RK_recfield -> self#recfield_label
| Odoc_info.RK_const -> self#const_label
in
let text =
match text_opt with
None -> [Odoc_info.Code (Odoc_info.use_hidden_modules name)]
| Some t -> t
in
self#latex_of_text fmt
(text @ [Latex ("["^(self#make_ref (f_label name))^"]")])
method latex_of_Superscript fmt t =
ps fmt "$^{";
self#latex_of_text fmt t;
ps fmt "}$"
method latex_of_Subscript fmt t =
ps fmt "$_{";
self#latex_of_text fmt t;
ps fmt "}$"
end
(** A class used to generate LaTeX code for info structures. *)
class virtual info =
object (self)
(** The method used to get LaTeX code from a [text]. *)
method virtual latex_of_text : Format.formatter -> Odoc_info.text -> unit
(** The method used to get a [text] from an optionel info structure. *)
method virtual text_of_info : ?block: bool -> Odoc_info.info option -> Odoc_info.text
(** Print LaTeX code for a description, except for the [i_params] field. *)
method latex_of_info fmt ?(block=false) info_opt =
self#latex_of_text fmt
(self#text_of_info ~block info_opt)
end
module Generator =
struct
(** This class is used to create objects which can generate a simple LaTeX documentation. *)
class latex =
object (self)
inherit text
inherit Odoc_to_text.to_text as to_text
inherit info
(** Get the first sentence and the rest of a description,
from an optional [info] structure. The first sentence
can be empty if it would not appear right in a title.
In the first sentence, the titles and lists has been removed,
since it is used in LaTeX titles and would make LaTeX complain
if we has two nested \section commands.
*)
method first_and_rest_of_info i_opt =
match i_opt with
None -> ([], [])
| Some i ->
match i.Odoc_info.i_desc with
None -> ([], self#text_of_info ~block: true i_opt)
| Some t ->
let (first,_) = Odoc_info.first_sentence_and_rest_of_text t in
let (_, rest) = Odoc_info.first_sentence_and_rest_of_text (self#text_of_info ~block: false i_opt) in
(Odoc_info.text_no_title_no_list first, rest)
(** Print LaTeX code for a value. *)
method latex_of_value fmt v =
Odoc_info.reset_type_names () ;
let label = self#value_label v.val_name in
let latex = self#make_label label in
self#latex_of_text fmt
((Latex latex) ::
(to_text#text_of_value v))
(** Print LaTeX code for a class attribute. *)
method latex_of_attribute fmt a =
self#latex_of_text fmt
((Latex (self#make_label (self#attribute_label a.att_value.val_name))) ::
(to_text#text_of_attribute a))
(** Print LaTeX code for a class method. *)
method latex_of_method fmt m =
self#latex_of_text fmt
((Latex (self#make_label (self#method_label m.met_value.val_name))) ::
(to_text#text_of_method m))
(** Print LaTeX code for the parameters of a type. *)
method latex_of_type_params fmt m_name t =
let print_one (p, co, cn) =
ps fmt (Odoc_info.string_of_variance t (co,cn));
ps fmt (self#normal_type m_name p)
in
match t.ty_parameters with
[] -> ()
| [(p,co,cn)] -> print_one (p, co, cn)
| l ->
ps fmt "(";
print_concat fmt ", " print_one t.ty_parameters;
ps fmt ")"
method latex_of_class_parameter_list fmt father c =
self#latex_of_text fmt
(self#text_of_class_params father c)
(** Print LaTeX code for a type. *)
method latex_of_type fmt t =
let s_name = Name.simple t.ty_name in
let text =
let (fmt2, flush2) = new_fmt () in
Odoc_info.reset_type_names () ;
let mod_name = Name.father t.ty_name in
Format.fprintf fmt2 "@[<h 2>type ";
self#latex_of_type_params fmt2 mod_name t;
(match t.ty_parameters with [] -> () | _ -> ps fmt2 " ");
ps fmt2 s_name;
let priv = t.ty_private = Asttypes.Private in
(
match t.ty_manifest with
None -> ()
| Some typ ->
p fmt2 " = %s%s" (if priv then "private " else "") (self#normal_type mod_name typ)
);
let s_type3 =
p fmt2
" %s"
(
match t.ty_kind with
Type_abstract -> ""
| Type_variant _ -> "="^(if priv then " private" else "")
| Type_record _ -> "= "^(if priv then "private " else "")^"{"
) ;
flush2 ()
in
let defs =
match t.ty_kind with
Type_abstract -> []
| Type_variant l ->
(List.flatten
(List.map
(fun constr ->
let s_cons =
p fmt2 "@[<h 6> | %s" constr.vc_name;
(
match constr.vc_args, constr.vc_ret with
[], None -> ()
| l, None ->
p fmt2 " %s@ %s"
"of"
(self#normal_type_list ~par: false mod_name " * " l)
| [], Some r ->
p fmt2 " %s@ %s"
":"
(self#normal_type mod_name r)
| l, Some r ->
p fmt2 " %s@ %s@ %s@ %s"
":"
(self#normal_type_list ~par: false mod_name " * " l)
"->"
(self#normal_type mod_name r)
);
flush2 ()
in
[ CodePre s_cons ] @
(match constr.vc_text with
None -> []
| Some t ->
let s =
ps fmt2 "\\begin{ocamldoccomment}\n";
self#latex_of_info fmt2 (Some t);
ps fmt2 "\n\\end{ocamldoccomment}\n";
flush2 ()
in
[ Latex s]
)
)
l
)
)
| Type_record l ->
(List.flatten
(List.map
(fun r ->
let s_field =
p fmt2
"@[<h 6> %s%s :@ %s ;"
(if r.rf_mutable then "mutable " else "")
r.rf_name
(self#normal_type mod_name r.rf_type);
flush2 ()
in
[ CodePre s_field ] @
(match r.rf_text with
None -> []
| Some t ->
let s =
ps fmt2 "\\begin{ocamldoccomment}\n";
self#latex_of_info fmt2 (Some t);
ps fmt2 "\n\\end{ocamldoccomment}\n";
flush2 ()
in
[ Latex s]
)
)
l
)
) @
[ CodePre "}" ]
in
let defs2 = (CodePre s_type3) :: defs in
let rec iter = function
[] -> []
| [e] -> [e]
| (CodePre s1) :: (CodePre s2) :: q ->
iter ((CodePre (s1^"\n"^s2)) :: q)
| e :: q ->
e :: (iter q)
in
(iter defs2) @
[Latex ("\\index{"^(self#label s_name)^"@\\verb`"^(self#label ~no_:false s_name)^"`}\n")] @
(self#text_of_info t.ty_info)
in
self#latex_of_text fmt
((Latex (self#make_label (self#type_label t.ty_name))) :: text)
(** Print LaTeX code for an exception. *)
method latex_of_exception fmt e =
Odoc_info.reset_type_names () ;
self#latex_of_text fmt
((Latex (self#make_label (self#exception_label e.ex_name))) ::
(to_text#text_of_exception e))
method latex_of_module_parameter fmt m_name p =
self#latex_of_text fmt
[
Code "functor (";
Code p.mp_name ;
Code " : ";
] ;
self#latex_of_module_type_kind fmt m_name p.mp_kind;
self#latex_of_text fmt [ Code ") -> "]
method latex_of_module_type_kind fmt father kind =
match kind with
Module_type_struct eles ->
self#latex_of_text fmt [Latex "\\begin{ocamldocsigend}\n"];
List.iter (self#latex_of_module_element fmt father) eles;
self#latex_of_text fmt [Latex "\\end{ocamldocsigend}\n"]
| Module_type_functor (p, k) ->
self#latex_of_module_parameter fmt father p;
self#latex_of_module_type_kind fmt father k
| Module_type_alias a ->
self#latex_of_text fmt
[Code (self#relative_module_idents father a.mta_name)]
| Module_type_with (k, s) ->
self#latex_of_module_type_kind fmt father k;
self#latex_of_text fmt
[ Code " ";
Code (self#relative_idents father s);
]
| Module_type_typeof s ->
self#latex_of_text fmt
[ Code "module type of ";
Code (self#relative_idents father s);
]
method latex_of_module_kind fmt father kind =
match kind with
Module_struct eles ->
self#latex_of_text fmt [Latex "\\begin{ocamldocsigend}\n"];
List.iter (self#latex_of_module_element fmt father) eles;
self#latex_of_text fmt [Latex "\\end{ocamldocsigend}\n"]
| Module_alias a ->
self#latex_of_text fmt
[Code (self#relative_module_idents father a.ma_name)]
| Module_functor (p, k) ->
self#latex_of_module_parameter fmt father p;
self#latex_of_module_kind fmt father k
| Module_apply (k1, k2) ->
(* TODO: l'application n'est pas correcte dans un .mli.
Que faire ? -> afficher le module_type du typedtree *)
self#latex_of_module_kind fmt father k1;
self#latex_of_text fmt [Code "("];
self#latex_of_module_kind fmt father k2;
self#latex_of_text fmt [Code ")"]
| Module_with (k, s) ->
(* TODO: a modifier quand Module_with sera plus detaille *)
self#latex_of_module_type_kind fmt father k;
self#latex_of_text fmt
[ Code " ";
Code (self#relative_idents father s) ;
]
| Module_constraint (k, tk) ->
(* TODO: on affiche quoi ? *)
self#latex_of_module_kind fmt father k
| Module_typeof s ->
self#latex_of_text fmt
[ Code "module type of ";
Code (self#relative_idents father s);
]
| Module_unpack (s, _) ->
self#latex_of_text fmt
[
Code (self#relative_idents father s);
]
method latex_of_class_kind fmt father kind =
match kind with
Class_structure (inh, eles) ->
self#latex_of_text fmt [Latex "\\begin{ocamldocobjectend}\n"];
self#generate_inheritance_info fmt inh;
List.iter (self#latex_of_class_element fmt father) eles;
self#latex_of_text fmt [Latex "\\end{ocamldocobjectend}\n"]
| Class_apply capp ->
(* TODO: afficher le type final a partir du typedtree *)
self#latex_of_text fmt [Raw "class application not handled yet"]
| Class_constr cco ->
(
match cco.cco_type_parameters with
[] -> ()
| l ->
self#latex_of_text fmt
(
Code "[" ::
(self#text_of_class_type_param_expr_list father l) @
[Code "] "]
)
);
self#latex_of_text fmt
[Code (self#relative_idents father cco.cco_name)]
| Class_constraint (ck, ctk) ->
self#latex_of_text fmt [Code "( "] ;
self#latex_of_class_kind fmt father ck;
self#latex_of_text fmt [Code " : "] ;
self#latex_of_class_type_kind fmt father ctk;
self#latex_of_text fmt [Code " )"]
method latex_of_class_type_kind fmt father kind =
match kind with
Class_type cta ->
(
match cta.cta_type_parameters with
[] -> ()
| l ->
self#latex_of_text fmt
(Code "[" ::
(self#text_of_class_type_param_expr_list father l) @
[Code "] "]
)
);
self#latex_of_text fmt
[Code (self#relative_idents father cta.cta_name)]
| Class_signature (inh, eles) ->
self#latex_of_text fmt [Latex "\\begin{ocamldocobjectend}\n"];
self#generate_inheritance_info fmt inh;
List.iter (self#latex_of_class_element fmt father) eles;
self#latex_of_text fmt [Latex "\\end{ocamldocobjectend}\n"]
method latex_for_module_index fmt m =
let s_name = Name.simple m.m_name in
self#latex_of_text fmt
[Latex ("\\index{"^(self#label s_name)^"@\\verb`"^
(self#label ~no_:false s_name)^"`}\n"
)
]
method latex_for_module_type_index fmt mt =
let s_name = Name.simple mt.mt_name in
self#latex_of_text fmt
[Latex ("\\index{"^(self#label s_name)^"@\\verb`"^
(self#label ~no_:false (Name.simple s_name))^"`}\n"
)
]
method latex_for_module_label fmt m =
ps fmt (self#make_label (self#module_label m.m_name))
method latex_for_module_type_label fmt mt =
ps fmt (self#make_label (self#module_type_label mt.mt_name))
method latex_for_class_index fmt c =
let s_name = Name.simple c.cl_name in
self#latex_of_text fmt
[Latex ("\\index{"^(self#label s_name)^"@\\verb`"^
(self#label ~no_:false s_name)^"`}\n"
)
]
method latex_for_class_type_index fmt ct =
let s_name = Name.simple ct.clt_name in
self#latex_of_text fmt
[Latex ("\\index{"^(self#label s_name)^"@\\verb`"^
(self#label ~no_:false s_name)^"`}\n"
)
]
method latex_for_class_label fmt c =
ps fmt (self#make_label (self#class_label c.cl_name))
method latex_for_class_type_label fmt ct =
ps fmt (self#make_label (self#class_type_label ct.clt_name))
(** Print the LaTeX code for the given module. *)
method latex_of_module fmt m =
let father = Name.father m.m_name in
let t =
[
Latex "\\begin{ocamldoccode}\n" ;
Code "module ";
Code (Name.simple m.m_name);
Code " : ";
]
in
self#latex_of_text fmt t;
self#latex_of_text fmt [ Latex "\\end{ocamldoccode}\n" ];
self#latex_for_module_label fmt m;
self#latex_for_module_index fmt m;
p fmt "@[<h 4>";
self#latex_of_module_kind fmt father m.m_kind;
(
match Module.module_is_functor m with
false -> ()
| true ->
self#latex_of_text fmt [Newline];
(
match List.filter (fun (_,d) -> d <> None)
(module_parameters ~trans: false m)
with
[] -> ()
| l ->
let t =
[ Bold [Raw "Parameters: "];
List
(List.map
(fun (p,text_opt) ->
let t = match text_opt with None -> [] | Some t -> t in
( Raw p.mp_name :: Raw ": " :: t)
)
l
)
]
in
self#latex_of_text fmt t
);
);
self#latex_of_text fmt [Newline];
self#latex_of_info fmt ~block: true m.m_info;
p fmt "@]";
(** Print the LaTeX code for the given module type. *)
method latex_of_module_type fmt mt =
let father = Name.father mt.mt_name in
let t =
[
Latex "\\begin{ocamldoccode}\n" ;
Code "module type " ;
Code (Name.simple mt.mt_name);
]
in
self#latex_of_text fmt t;
(
match mt.mt_type, mt.mt_kind with
| Some mtyp, Some kind ->
self#latex_of_text fmt [ Code " = " ];
self#latex_of_text fmt [ Latex "\\end{ocamldoccode}\n" ];
self#latex_for_module_type_label fmt mt;
self#latex_for_module_type_index fmt mt;
p fmt "@[<h 4>";
self#latex_of_module_type_kind fmt father kind
| _ ->
self#latex_of_text fmt [ Latex "\\end{ocamldoccode}\n" ];
self#latex_for_module_type_index fmt mt;
p fmt "@[<h 4>";
);
(
match Module.module_type_is_functor mt with
false -> ()
| true ->
self#latex_of_text fmt [Newline];
(
match List.filter (fun (_,d) -> d <> None)
(module_type_parameters ~trans: false mt)
with
[] -> ()
| l ->
let t =
[ Bold [Raw "Parameters: "];
List
(List.map
(fun (p,text_opt) ->
let t = match text_opt with None -> [] | Some t -> t in
( Raw p.mp_name :: Raw ": " :: t)
)
l
)
]
in
self#latex_of_text fmt t
);
);
self#latex_of_text fmt [Newline];
self#latex_of_info fmt ~block: true mt.mt_info;
p fmt "@]";
(** Print the LaTeX code for the given included module. *)
method latex_of_included_module fmt im =
self#latex_of_text fmt
((Code "include ") ::
(Code
(match im.im_module with
None -> im.im_name
| Some (Mod m) -> m.m_name
| Some (Modtype mt) -> mt.mt_name)
) ::
(self#text_of_info im.im_info)
)
(** Print the LaTeX code for the given class. *)
method latex_of_class fmt c =
Odoc_info.reset_type_names () ;
let father = Name.father c.cl_name in
let type_params =
match c.cl_type_parameters with
[] -> ""
| l -> (self#normal_class_type_param_list father l)^" "
in
let t =
[
Latex "\\begin{ocamldoccode}\n" ;
Code (Printf.sprintf
"class %s%s%s : "
(if c.cl_virtual then "virtual " else "")
type_params
(Name.simple c.cl_name)
)
]
in
self#latex_of_text fmt t;
self#latex_of_class_parameter_list fmt father c;
(* avoid a big gap if the kind is a consrt *)
(
match c.cl_kind with
Class.Class_constr _ ->
self#latex_of_class_kind fmt father c.cl_kind
| _ ->
()
);
self#latex_of_text fmt [ Latex "\\end{ocamldoccode}\n" ];
self#latex_for_class_label fmt c;
self#latex_for_class_index fmt c;
p fmt "@[<h 4>";
(match c.cl_kind with
Class.Class_constr _ -> ()
| _ -> self#latex_of_class_kind fmt father c.cl_kind
);
self#latex_of_text fmt [Newline];
self#latex_of_info fmt ~block: true c.cl_info;
p fmt "@]"
(** Print the LaTeX code for the given class type. *)
method latex_of_class_type fmt ct =
Odoc_info.reset_type_names () ;
let father = Name.father ct.clt_name in
let type_params =
match ct.clt_type_parameters with
[] -> ""
| l -> (self#normal_class_type_param_list father l)^" "
in
let t =
[
Latex "\\begin{ocamldoccode}\n" ;
Code (Printf.sprintf
"class type %s%s%s = "
(if ct.clt_virtual then "virtual " else "")
type_params
(Name.simple ct.clt_name)
)
]
in
self#latex_of_text fmt t;
self#latex_of_text fmt [ Latex "\\end{ocamldoccode}\n" ];
self#latex_for_class_type_label fmt ct;
self#latex_for_class_type_index fmt ct;
p fmt "@[<h 4>";
self#latex_of_class_type_kind fmt father ct.clt_kind;
self#latex_of_text fmt [Newline];
self#latex_of_info fmt ~block: true ct.clt_info;
p fmt "@]"
(** Print the LaTeX code for the given class element. *)
method latex_of_class_element fmt class_name class_ele =
self#latex_of_text fmt [Newline];
match class_ele with
Class_attribute att -> self#latex_of_attribute fmt att
| Class_method met -> self#latex_of_method fmt met
| Class_comment t ->
match t with
| [] -> ()
| (Title (_,_,_)) :: _ -> self#latex_of_text fmt t
| _ -> self#latex_of_text fmt [ Title ((Name.depth class_name) + 2, None, t) ]
(** Print the LaTeX code for the given module element. *)
method latex_of_module_element fmt module_name module_ele =
self#latex_of_text fmt [Newline];
match module_ele with
Element_module m -> self#latex_of_module fmt m
| Element_module_type mt -> self#latex_of_module_type fmt mt
| Element_included_module im -> self#latex_of_included_module fmt im
| Element_class c -> self#latex_of_class fmt c
| Element_class_type ct -> self#latex_of_class_type fmt ct
| Element_value v -> self#latex_of_value fmt v
| Element_exception e -> self#latex_of_exception fmt e
| Element_type t -> self#latex_of_type fmt t
| Element_module_comment t -> self#latex_of_text fmt t
(** Generate the LaTeX code for the given list of inherited classes.*)
method generate_inheritance_info fmt inher_l =
let f inh =
match inh.ic_class with
None -> (* we can't make the reference *)
Newline ::
Code ("inherit "^inh.ic_name) ::
(match inh.ic_text with
None -> []
| Some t -> Newline :: t
)
| Some cct ->
let label =
match cct with
Cl _ -> self#class_label inh.ic_name
| Cltype _ -> self#class_type_label inh.ic_name
in
(* we can create the reference *)
Newline ::
Odoc_info.Code ("inherit "^inh.ic_name) ::
(Odoc_info.Latex (" ["^(self#make_ref label)^"]")) ::
(match inh.ic_text with
None -> []
| Some t -> Newline :: t
)
in
List.iter (self#latex_of_text fmt) (List.map f inher_l)
(** Generate the LaTeX code for the inherited classes of the given class. *)
method generate_class_inheritance_info fmt cl =
let rec iter_kind k =
match k with
Class_structure ([], _) ->
()
| Class_structure (l, _) ->
self#generate_inheritance_info fmt l
| Class_constraint (k, _) ->
iter_kind k
| Class_apply _
| Class_constr _ ->
()
in
iter_kind cl.cl_kind
(** Generate the LaTeX code for the inherited classes of the given class type. *)
method generate_class_type_inheritance_info fmt clt =
match clt.clt_kind with
Class_signature ([], _) ->
()
| Class_signature (l, _) ->
self#generate_inheritance_info fmt l
| Class_type _ ->
()
(** Generate the LaTeX code for the given top module, in the given buffer. *)
method generate_for_top_module fmt m =
let (first_t, rest_t) = self#first_and_rest_of_info m.m_info in
let text =
if m.m_text_only then
[ Title (1, None, [Raw m.m_name] @
(match first_t with
[] -> []
| t -> (Raw " : ") :: t)
) ;
]
else
[ Title (1, None,
[ Raw (Odoc_messages.modul^" ") ; Code m.m_name ] @
(match first_t with
[] -> []
| t -> (Raw " : ") :: t)) ;
]
in
self#latex_of_text fmt text;
self#latex_for_module_label fmt m;
self#latex_for_module_index fmt m;
self#latex_of_text fmt rest_t ;
self#latex_of_text fmt [ Newline ] ;
if not m.m_text_only then ps fmt "\\ocamldocvspace{0.5cm}\n\n";
List.iter
(fun ele ->
self#latex_of_module_element fmt m.m_name ele;
ps fmt "\n\n"
)
(Module.module_elements ~trans: false m)
(** Print the header of the TeX document. *)
method latex_header fmt module_list =
ps fmt "\\documentclass[11pt]{article} \n";
ps fmt "\\usepackage[latin1]{inputenc} \n";
ps fmt "\\usepackage[T1]{fontenc} \n";
ps fmt "\\usepackage{textcomp}\n";
ps fmt "\\usepackage{fullpage} \n";
ps fmt "\\usepackage{url} \n";
ps fmt "\\usepackage{ocamldoc}\n";
(
match !Global.title with
None -> ()
| Some s ->
ps fmt "\\title{";
ps fmt (self#escape s);
ps fmt "}\n"
);
ps fmt "\\begin{document}\n";
(match !Global.title with
None -> () |
Some _ -> ps fmt "\\maketitle\n"
);
if !Global.with_toc then ps fmt "\\tableofcontents\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 -> () | Some _ -> ps fmt "\\vspace{0.2cm}");
self#latex_of_info fmt info;
(match info with None -> () | Some _ -> ps fmt "\n\n")
)
(** Generate the LaTeX style file, if it does not exists. *)
method generate_style_file =
try
let dir = Filename.dirname !Global.out_file in
let file = Filename.concat dir "ocamldoc.sty" 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 Odoc_latex_style.content ;
flush chanout ;
close_out chanout;
Odoc_info.verbose (Odoc_messages.file_generated file)
)
with
Sys_error s ->
prerr_endline s ;
incr Odoc_info.errors ;
(** Generate the LaTeX file from a module list, in the {!Odoc_info.Global.out_file} file. *)
method generate module_list =
self#generate_style_file ;
let main_file = !Global.out_file in
let dir = Filename.dirname main_file in
if !separate_files then
(
let f m =
try
let chanout =
open_out ((Filename.concat dir (Name.simple m.m_name))^".tex")
in
let fmt = Format.formatter_of_out_channel chanout in
self#generate_for_top_module fmt m ;
Format.pp_print_flush fmt ();
close_out chanout
with
Failure s
| Sys_error s ->
prerr_endline s ;
incr Odoc_info.errors
in
List.iter f module_list
);
try
let chanout = open_out main_file in
let fmt = Format.formatter_of_out_channel chanout in
if !Global.with_header then self#latex_header fmt module_list;
List.iter
(fun m ->
if !separate_files then
ps fmt ("\\input{"^((Name.simple m.m_name))^".tex}\n")
else
self#generate_for_top_module fmt m
)
module_list ;
if !Global.with_trailer then ps fmt "\\end{document}";
Format.pp_print_flush fmt ();
close_out chanout
with
Failure s
| Sys_error s ->
prerr_endline s ;
incr Odoc_info.errors
end
end
module type Latex_generator = module type of Generator