Chapter 16 The documentation generator (ocamldoc)
This chapter describes OCamldoc, a tool that generates documentation from
special comments embedded in source files. The comments used by OCamldoc
are of the form (**…*) and follow the format described
in section 16.2.
OCamldoc can produce documentation in various formats: HTML, LATEX,
TeXinfo, Unix man pages, and dot dependency graphs. Moreover,
users can add their own custom generators, as explained in
section 16.3.
In this chapter, we use the word element to refer to any of the
following parts of an OCaml source file: a type declaration, a value,
a module, an exception, a module type, a type constructor, a record
field, a class, a class type, a class method, a class value or a class
inheritance clause.
16.1 Usage
16.1.1 Invocation
OCamldoc is invoked via the command ocamldoc, as follows:
ocamldoc options sourcefiles
Options for choosing the output format
The following options determine the format for the generated
documentation.
-
-html
-
Generate documentation in HTML default format. The generated HTML pages
are stored in the current directory, or in the directory specified
with the -d option. You can customize the style of the
generated pages by editing the generated style.css file, or by providing
your own style sheet using option -css-style.
The file style.css is not generated if it already exists or if -css-style is used.
- -latex
-
Generate documentation in LATEX default format. The generated
LATEX document is saved in file ocamldoc.out, or in the file
specified with the -o option. The document uses the style file
ocamldoc.sty. This file is generated when using the -latex option,
if it does not already exist.
You can change this file to customize the style of your LATEX documentation.
- -texi
-
Generate documentation in TeXinfo default format. The generated
LATEX document is saved in file ocamldoc.out, or in the file
specified with the -o option.
- -man
-
Generate documentation as a set of Unix man pages. The generated pages
are stored in the current directory, or in the directory specified
with the -d option.
- -dot
-
Generate a dependency graph for the toplevel modules, in a format suitable
for displaying and processing by dot. The dot tool is available from
http://www.research.att.com/sw/tools/graphviz/.
The textual representation of the graph is written to the file
ocamldoc.out, or to the file specified with the -o option.
Use dot ocamldoc.out to display it.
- -g file.cm[o,a,xs]
-
Dynamically load the given file, which defines a custom documentation
generator. See section 16.4.1. This
option is supported by the ocamldoc command (to load .cmo and .cma files)
and by its native-code version ocamldoc.opt (to load .cmxs files).
If the given file is a simple one and does not exist in
the current directory, then ocamldoc looks for it in the custom
generators default directory, and in the directories specified with
optional -i options.
- -customdir
-
Display the custom generators default directory.
- -i directory
-
Add the given directory to the path where to look for custom generators.
General options
- -d dir
-
Generate files in directory dir, rather than the current directory.
- -dump file
-
Dump collected information into file. This information can be
read with the -load option in a subsequent invocation of ocamldoc.
- -hide modules
-
Hide the given complete module names in the generated documentation.
modules is a list of complete module names separated
by ’,’, without blanks. For instance: Pervasives,M2.M3.
- -inv-merge-ml-mli
-
Reverse the precedence of implementations and interfaces when merging.
All elements
in implementation files are kept, and the -m option
indicates which parts of the comments in interface files are merged
with the comments in implementation files.
- -keep-code
-
Always keep the source code for values, methods and instance variables,
when available.
- -load file
-
Load information from file, which has been produced by
ocamldoc -dump. Several -load options can be given.
- -m flags
-
Specify merge options between interfaces and implementations.
(see section 16.1.2 for details).
flags can be one or several of the following characters:
-
d
- merge description
- a
- merge @author
- v
- merge @version
- l
- merge @see
- s
- merge @since
- b
- merge @before
- o
- merge @deprecated
- p
- merge @param
- e
- merge @raise
- r
- merge @return
- A
- merge everything
- -no-custom-tags
-
Do not allow custom @-tags (see section 16.2.5).
- -no-stop
-
Keep elements placed after/between the (**/**) special comment(s)
(see section 16.2).
- -o file
-
Output the generated documentation to file instead of ocamldoc.out.
This option is meaningful only in conjunction with the
-latex, -texi, or -dot options.
- -pp command
-
Pipe sources through preprocessor command.
- -impl filename
-
Process the file filename as an implementation file, even if its
extension is not .ml.
- -intf filename
-
Process the file filename as an interface file, even if its
extension is not .mli.
- -text filename
-
Process the file filename as a text file, even if its
extension is not .txt.
- -sort
-
Sort the list of top-level modules before generating the documentation.
- -stars
-
Remove blank characters until the first asterisk (’*’) in each
line of comments.
- -t title
-
Use title as the title for the generated documentation.
- -intro file
-
Use content of file as ocamldoc text to use as introduction (HTML,
LATEX and TeXinfo only).
For HTML, the file is used to create the whole index.html file.
- -v
-
Verbose mode. Display progress information.
- -version
-
Print version string and exit.
- -vnum
-
Print short version number and exit.
- -warn-error
-
Treat Ocamldoc warnings as errors.
- -hide-warnings
-
Do not print OCamldoc warnings.
- -help or --help
-
Display a short usage summary and exit.
Type-checking options
OCamldoc calls the OCaml type-checker to obtain type
information. The following options impact the type-checking phase.
They have the same meaning as for the ocamlc and ocamlopt commands.
- -I directory
-
Add directory to the list of directories search for compiled
interface files (.cmi files).
- -nolabels
-
Ignore non-optional labels in types.
- -rectypes
-
Allow arbitrary recursive types. (See the -rectypes option to ocamlc.)
Options for generating HTML pages
The following options apply in conjunction with the -html option:
-
-all-params
-
Display the complete list of parameters for functions and methods.
- -charset charset
-
Add information about character encoding being charset
(default is iso-8859-1).
- -colorize-code
-
Colorize the OCaml code enclosed in [ ] and {[ ]}, using colors
to emphasize keywords, etc. If the code fragments are not
syntactically correct, no color is added.
- -css-style filename
-
Use filename as the Cascading Style Sheet file.
- -index-only
-
Generate only index files.
- -short-functors
-
Use a short form to display functors:
module M : functor (A:Module) -> functor (B:Module2) -> sig .. end
is displayed as:
module M (A:Module) (B:Module2) : sig .. end
Options for generating LATEX files
The following options apply in conjunction with the -latex option:
-
-latex-value-prefix prefix
-
Give a prefix to use for the labels of the values in the generated
LATEX document.
The default prefix is the empty string. You can also use the options
-latex-type-prefix, -latex-exception-prefix,
-latex-module-prefix,
-latex-module-type-prefix, -latex-class-prefix,
-latex-class-type-prefix,
-latex-attribute-prefix and -latex-method-prefix.
These options are useful when you have, for example, a type and a value with
the same name. If you do not specify prefixes, LATEX will complain about
multiply defined labels.
- -latextitle n,style
-
Associate style number n to the given LATEX sectioning command
style, e.g. section or subsection. (LATEX only.) This is
useful when including the generated document in another LATEX document,
at a given sectioning level. The default association is 1 for section,
2 for subsection, 3 for subsubsection, 4 for paragraph and 5 for
subparagraph.
- -noheader
-
Suppress header in generated documentation.
- -notoc
-
Do not generate a table of contents.
- -notrailer
-
Suppress trailer in generated documentation.
- -sepfiles
-
Generate one .tex file per toplevel module, instead of the global
ocamldoc.out file.
Options for generating TeXinfo files
The following options apply in conjunction with the -texi option:
-
-esc8
-
Escape accented characters in Info files.
- -info-entry
-
Specify Info directory entry.
- -info-section
-
Specify section of Info directory.
- -noheader
-
Suppress header in generated documentation.
- -noindex
-
Do not build index for Info files.
- -notrailer
-
Suppress trailer in generated documentation.
Options for generating dot graphs
The following options apply in conjunction with the -dot option:
-
-dot-colors colors
-
Specify the colors to use in the generated dot code.
When generating module dependencies, ocamldoc uses different colors
for modules, depending on the directories in which they reside.
When generating types dependencies, ocamldoc uses different colors
for types, depending on the modules in which they are defined.
colors is a list of color names separated by ’,’, as
in Red,Blue,Green. The available colors are the ones supported by
the dot tool.
- -dot-include-all
-
Include all modules in the dot output, not only modules given
on the command line or loaded with the -load option.
- -dot-reduce
-
Perform a transitive reduction of the dependency graph before
outputting the dot code. This can be useful if there are
a lot of transitive dependencies that clutter the graph.
- -dot-types
-
Output dot code describing the type dependency graph instead of
the module dependency graph.
Options for generating man files
The following options apply in conjunction with the -man option:
-
-man-mini
-
Generate man pages only for modules, module types, classes and class
types, instead of pages for all elements.
- -man-suffix suffix
-
Set the suffix used for generated man filenames. Default is ’3o’,
as in List.3o.
- -man-section section
-
Set the section number used for generated man filenames. Default is ’3’.
16.1.2 Merging of module information
Information on a module can be extracted either from the .mli or .ml
file, or both, depending on the files given on the command line.
When both .mli and .ml files are given for the same module,
information extracted from these files is merged according to the
following rules:
-
Only elements (values, types, classes, ...) declared in the .mli
file are kept. In other terms, definitions from the .ml file that are
not exported in the .mli file are not documented.
- Descriptions of elements and descriptions in @-tags are handled
as follows. If a description for the same element or in the same
@-tag of the same element is present in both files, then the
description of the .ml file is concatenated to the one in the .mli file,
if the corresponding -m flag is given on the command line.
If a description is present in the .ml file and not in the
.mli file, the .ml description is kept.
In either case, all the information given in the .mli file is kept.
16.1.3 Coding rules
The following rules must be respected in order to avoid name clashes
resulting in cross-reference errors:
-
In a module, there must not be two modules, two module types or
a module and a module type with the same name.
In the default HTML generator, modules ab and AB will be printed
to the same file on case insensitive file systems.
- In a module, there must not be two classes, two class types or
a class and a class type with the same name.
- In a module, there must not be two values, two types, or two
exceptions with the same name.
- Values defined in tuple, as in let (x,y,z) = (1,2,3)
are not kept by OCamldoc.
- Avoid the following construction:
open Foo (* which has a module Bar with a value x *)
module Foo =
struct
module Bar =
struct
let x = 1
end
end
let dummy = Bar.x
In this case, OCamldoc will associate Bar.x to the x of module
Foo defined just above, instead of to the Bar.x defined in the
opened module Foo.
16.2 Syntax of documentation comments
Comments containing documentation material are called special
comments and are written between (** and *). Special comments
must start exactly with (**. Comments beginning with ( and more
than two * are ignored.
16.2.1 Placement of documentation comments
OCamldoc can associate comments to some elements of the language
encountered in the source files. The association is made according to
the locations of comments with respect to the language elements. The
locations of comments in .mli and .ml files are different.
Comments in .mli files
A special comment is associated to an element if it is placed before or
after the element.
A special comment before an element is associated to this element if :
-
There is no blank line or another special comment between the special
comment and the element. However, a regular comment can occur between
the special comment and the element.
- The special comment is not already associated to the previous element.
- The special comment is not the first one of a toplevel module.
A special comment after an element is associated to this element if
there is no blank line or comment between the special comment and the
element.
There are two exceptions: for constructors and record fields in
type definitions, the associated comment can only be placed after the
constructor or field definition, without blank lines or other comments
between them. The special comment for a constructor
with another constructor following must be placed before the ’|’
character separating the two constructors.
The following sample interface file foo.mli illustrates the
placement rules for comments in .mli files.
(** The first special comment of the file is the comment associated
with the whole module.*)
(** Special comments can be placed between elements and are kept
by the OCamldoc tool, but are not associated to any element.
@-tags in these comments are ignored.*)
(*******************************************************************)
(** Comments like the one above, with more than two asterisks,
are ignored. *)
(** The comment for function f. *)
val f : int -> int -> int
(** The continuation of the comment for function f. *)
(** Comment for exception My_exception, even with a simple comment
between the special comment and the exception.*)
(* Hello, I'm a simple comment :-) *)
exception My_exception of (int -> int) * int
(** Comment for type weather *)
type weather =
| Rain of int (** The comment for constructor Rain *)
| Sun (** The comment for constructor Sun *)
(** Comment for type weather2 *)
type weather2 =
| Rain of int (** The comment for constructor Rain *)
| Sun (** The comment for constructor Sun *)
(** I can continue the comment for type weather2 here
because there is already a comment associated to the last constructor.*)
(** The comment for type my_record *)
type my_record = {
foo : int ; (** Comment for field foo *)
bar : string ; (** Comment for field bar *)
}
(** Continuation of comment for type my_record *)
(** Comment for foo *)
val foo : string
(** This comment is associated to foo and not to bar. *)
val bar : string
(** This comment is associated to bar. *)
(** The comment for class my_class *)
class my_class :
object
(** A comment to describe inheritance from cl *)
inherit cl
(** The comment for attribute tutu *)
val mutable tutu : string
(** The comment for attribute toto. *)
val toto : int
(** This comment is not attached to titi since
there is a blank line before titi, but is kept
as a comment in the class. *)
val titi : string
(** Comment for method toto *)
method toto : string
(** Comment for method m *)
method m : float -> int
end
(** The comment for the class type my_class_type *)
class type my_class_type =
object
(** The comment for variable x. *)
val mutable x : int
(** The commend for method m. *)
method m : int -> int
end
(** The comment for module Foo *)
module Foo :
sig
(** The comment for x *)
val x : int
(** A special comment that is kept but not associated to any element *)
end
(** The comment for module type my_module_type. *)
module type my_module_type =
sig
(** The comment for value x. *)
val x : int
(** The comment for module M. *)
module M :
sig
(** The comment for value y. *)
val y : int
(* ... *)
end
end
Comments in .ml files
A special comment is associated to an element if it is placed before
the element and there is no blank line between the comment and the
element. Meanwhile, there can be a simple comment between the special
comment and the element. There are two exceptions, for
constructors and record fields in type definitions, whose associated
comment must be placed after the constructor or field definition,
without blank line between them. The special comment for a constructor
with another constructor following must be placed before the ’|’
character separating the two constructors.
The following example of file toto.ml shows where to place comments
in a .ml file.
(** The first special comment of the file is the comment associated
to the whole module. *)
(** The comment for function f *)
let f x y = x + y
(** This comment is not attached to any element since there is another
special comment just before the next element. *)
(** Comment for exception My_exception, even with a simple comment
between the special comment and the exception.*)
(* A simple comment. *)
exception My_exception of (int -> int) * int
(** Comment for type weather *)
type weather =
| Rain of int (** The comment for constructor Rain *)
| Sun (** The comment for constructor Sun *)
(** The comment for type my_record *)
type my_record = {
foo : int ; (** Comment for field foo *)
bar : string ; (** Comment for field bar *)
}
(** The comment for class my_class *)
class my_class =
object
(** A comment to describe inheritance from cl *)
inherit cl
(** The comment for the instance variable tutu *)
val mutable tutu = "tutu"
(** The comment for toto *)
val toto = 1
val titi = "titi"
(** Comment for method toto *)
method toto = tutu ^ "!"
(** Comment for method m *)
method m (f : float) = 1
end
(** The comment for class type my_class_type *)
class type my_class_type =
object
(** The comment for the instance variable x. *)
val mutable x : int
(** The commend for method m. *)
method m : int -> int
end
(** The comment for module Foo *)
module Foo =
struct
(** The comment for x *)
let x = 0
(** A special comment in the class, but not associated to any element. *)
end
(** The comment for module type my_module_type. *)
module type my_module_type =
sig
(* Comment for value x. *)
val x : int
(* ... *)
end
16.2.2 The Stop special comment
The special comment (**/**) tells OCamldoc to discard
elements placed after this comment, up to the end of the current
class, class type, module or module type, or up to the next stop comment.
For instance:
class type foo =
object
(** comment for method m *)
method m : string
(**/**)
(** This method won't appear in the documentation *)
method bar : int
end
(** This value appears in the documentation, since the Stop special comment
in the class does not affect the parent module of the class.*)
val foo : string
(**/**)
(** The value bar does not appear in the documentation.*)
val bar : string
(**/**)
(** The type t appears since in the documentation since the previous stop comment
toggled off the "no documentation mode". *)
type t = string
The -no-stop option to ocamldoc causes the Stop special
comments to be ignored.
16.2.3 Syntax of documentation comments
The inside of documentation comments (**…*) consists of
free-form text with optional formatting annotations, followed by
optional tags giving more specific information about parameters,
version, authors, … The tags are distinguished by a leading @
character. Thus, a documentation comment has the following shape:
(** The comment begins with a description, which is text formatted
according to the rules described in the next section.
The description continues until the first non-escaped '@' character.
@author Mr Smith
@param x description for parameter x
*)
Some elements support only a subset of all @-tags. Tags that are not
relevant to the documented element are simply ignored. For instance,
all tags are ignored when documenting type constructors, record
fields, and class inheritance clauses. Similarly, a @param tag on a
class instance variable is ignored.
At last, (**) is the empty documentation comment.
16.2.4 Text formatting
Here is the BNF grammar for the simple markup language used to format
text descriptions.
∣ | { { 0 … 9 }+ text } | format text as a section header;
the integer following { indicates the sectioning level. |
∣ | { { 0 … 9 }+ : label text } | same, but also associate the name label to the current point.
This point can be referenced by its fully-qualified label in a
{! command, just like any other element. |
∣ | {b text } | set text in bold. |
∣ | {i text } | set text in italic. |
∣ | {e text } | emphasize text. |
∣ | {C text } | center text. |
∣ | {L text } | left align text. |
∣ | {R text } | right align text. |
∣ | {ul list } | build a list. |
∣ | {ol list } | build an enumerated list. |
∣ | {{: string } text } | put a link to the given address
(given as string) on the given text. |
∣ | [ string ] | set the given string in source code style. |
∣ | {[ string ]} | set the given string in preformatted
source code style. |
∣ | {v string v} | set the given string in verbatim style. |
∣ | {% string %} | target-specific content
(LATEX code by default, see details
in 16.2.4.4) |
∣ | {! string } | insert a cross-reference to an element
(see section 16.2.4.2 for the syntax of cross-references). |
∣ | {!modules: string string ... } | insert an index table
for the given module names. Used in HTML only. |
∣ | {!indexlist} | insert a table of links to the various indexes
(types, values, modules, ...). Used in HTML only. |
∣ | {^ text } | set text in superscript. |
∣ | {_ text } | set text in subscript. |
∣ | escaped-string | typeset the given string as is;
special characters (’{’, ’}’, ’[’, ’]’ and ’@’)
must be escaped by a ’\’ |
∣ | blank-line | force a new line.
|
16.2.4.1 List formatting
A shortcut syntax exists for lists and enumerated lists:
(** Here is a {b list}
- item 1
- item 2
- item 3
The list is ended by the blank line.*)
is equivalent to:
(** Here is a {b list}
{ul {- item 1}
{- item 2}
{- item 3}}
The list is ended by the blank line.*)
The same shortcut is available for enumerated lists, using ’+’
instead of ’-’.
Note that only one list can be defined by this shortcut in nested lists.
16.2.4.2 Cross-reference formatting
Cross-references are fully qualified element names, as in the example
{!Foo.Bar.t}. This is an ambiguous reference as it may designate
a type name, a value name, a class name, etc. It is possible to make
explicit the intended syntactic class, using {!type:Foo.Bar.t} to
designate a type, and {!val:Foo.Bar.t} a value of the same name.
The list of possible syntactic class is as follows:
tag | syntactic class |
|
module: | module |
modtype: | module type |
class: | class |
classtype: | class type |
val: | value |
type: | type |
exception: | exception |
attribute: | attribute |
method: | class method |
section: | ocamldoc section |
const: | variant constructor |
recfield: | record field
|
In the case of variant constructors or record field, the constructor
or field name should be preceded by the name of the correspond type –
to avoid the ambiguity of several types having the same constructor
names. For example, the constructor Node of the type tree will be
referenced as {!tree.Node} or {!const:tree.Node}, or possibly
{!Mod1.Mod2.tree.Node} from outside the module.
16.2.4.3 First sentence
In the description of a value, type, exception, module, module type, class
or class type, the first sentence is sometimes used in indexes, or
when just a part of the description is needed. The first sentence
is composed of the first characters of the description, until
-
the first dot followed by a blank, or
- the first blank line
outside of the following text formatting :
{ul list } ,
{ol list } ,
[ string ] ,
{[ string ]} ,
{v string v} ,
{% string %} ,
{! string } ,
{^ text } ,
{_ text } .
16.2.4.4 Target-specific formatting
The content inside {%foo: ... %} is target-specific and will only be
interpreted by the backend foo, and ignored by the others. The
backends of the distribution are latex, html, texi and man. If
no target is specified (syntax {% ... %}), latex is chosen by
default. Custom generators may support their own target prefix.
16.2.4.5 Recognized HTML tags
The HTML tags <b>..</b>,
<code>..</code>,
<i>..</i>,
<ul>..</ul>,
<ol>..</ol>,
<li>..</li>,
<center>..</center> and
<h[0-9]>..</h[0-9]> can be used instead of, respectively,
{b ..} ,
[..] ,
{i ..} ,
{ul ..} ,
{ol ..} ,
{li ..} ,
{C ..} and
{[0-9] ..}.
16.2.5 Documentation tags (@-tags)
Predefined tags
The following table gives the list of predefined @-tags, with their
syntax and meaning.
@author string | The author of the element. One author per
@author tag.
There may be several @author tags for the same element. |
@deprecated text | The text should describe when the element was
deprecated, what to use as a replacement, and possibly the reason
for deprecation. |
@param id text | Associate the given description (text) to the
given parameter name id. This tag is used for functions,
methods, classes and functors. |
@raise Exc text | Explain that the element may raise
the exception Exc. |
@return text | Describe the return value and
its possible values. This tag is used for functions
and methods. |
@see < URL > text | Add a reference to the URL
with the given text as comment. |
@see 'filename' text | Add a reference to the given file name
(written between single quotes), with the given text as comment. |
@see "document-name" text | Add a reference to the given
document name (written between double quotes), with the given text
as comment. |
@since string | Indicate when the element was introduced. |
@before version text | Associate the given description (text)
to the given version in order to document compatibility issues. |
@version string | The version number for the element. |
Custom tags
You can use custom tags in the documentation comments, but they will
have no effect if the generator used does not handle them. To use a
custom tag, for example foo, just put @foo with some text in your
comment, as in:
(** My comment to show you a custom tag.
@foo this is the text argument to the [foo] custom tag.
*)
To handle custom tags, you need to define a custom generator,
as explained in section 16.3.2.
16.3 Custom generators
OCamldoc operates in two steps:
-
analysis of the source files;
- generation of documentation, through a documentation generator,
which is an object of class Odoc_args.class_generator.
Users can provide their own documentation generator to be used during
step 2 instead of the default generators.
All the information retrieved during the analysis step is available through
the Odoc_info module, which gives access to all the types and functions
representing the elements found in the given modules, with their associated
description.
The files you can use to define custom generators are installed in the
ocamldoc sub-directory of the OCaml standard library.
16.3.1 The generator modules
The type of a generator module depends on the kind of generated documentation.
Here is the list of generator module types, with the name of the generator
class in the module :
-
for HTML : Odoc_html.Html_generator (class html),
- for LATEX : Odoc_latex.Latex_generator (class latex),
- for TeXinfo : Odoc_texi.Texi_generator (class texi),
- for man pages : Odoc_man.Man_generator (class man),
- for graphviz (dot) : Odoc_dot.Dot_generator (class dot),
- for other kinds : Odoc_gen.Base (class generator).
That is, to define a new generator, one must implement a module with
the expected signature, and with the given generator class, providing
the generate method as entry point to make the generator generates
documentation for a given list of modules :
method generate : Odoc_info.Module.t_module list -> unit
This method will be called with the list of analysed and possibly
merged Odoc_info.t_module structures.
It is recommended to inherit from the current generator of the same
kind as the one you want to define. Doing so, it is possible to
load various custom generators to combine improvements brought by each one.
This is done using first class modules (see chapter 8.9).
The easiest way to define a custom generator is the following this example,
here extending the current HTML generator. We don’t have to know if this is
the original HTML generator defined in ocamldoc or if it has been extended
already by a previously loaded custom generator :
module Generator (G : Odoc_html.Html_generator) =
struct
class html =
object(self)
inherit G.html as html
(* ... *)
method generate module_list =
(* ... *)
()
(* ... *)
end
end;;
let _ = Odoc_args.extend_html_generator (module Generator : Odoc_gen.Html_functor);;
To know which methods to override and/or which methods are available,
have a look at the different base implementations, depending on the
kind of generator you are extending :
16.3.2 Handling custom tags
Making a custom generator handle custom tags (see
16.2.5) is very simple.
For HTML
Here is how to develop a HTML generator handling your custom tags.
The class Odoc_html.Generator.html inherits
from the class Odoc_html.info, containing a field tag_functions which is a
list pairs composed of a custom tag (e.g. "foo") and a function taking
a text and returning HTML code (of type string).
To handle a new tag bar, extend the current HTML generator
and complete the tag_functions field:
module Generator (G : Odoc_html.Html_generator) =
struct
class html =
object(self)
inherit G.html
(** Return HTML code for the given text of a bar tag. *)
method html_of_bar t = (* your code here *)
initializer
tag_functions <- ("bar", self#html_of_bar) :: tag_functions
end
end
let _ = Odoc_args.extend_html_generator (module Generator : Odoc_gen.Html_functor);;
Another method of the class Odoc_html.info will look for the
function associated to a custom tag and apply it to the text given to
the tag. If no function is associated to a custom tag, then the method
prints a warning message on stderr.
For other generators
You can act the same way for other kinds of generators.
16.4 Adding command line options
The command line analysis is performed after loading the module containing the
documentation generator, thus allowing command line options to be added to the
list of existing ones. Adding an option can be done with the function
Odoc_args.add_option : string * Arg.spec * string -> unit
Note: Existing command line options can be redefined using
this function.
16.4.1 Compilation and usage
Defining a custom generator class in one file
Let custom.ml be the file defining a new generator class.
Compilation of custom.ml can be performed by the following command :
ocamlc -I +ocamldoc -c custom.ml
The file custom.cmo is created and can be used this way :
ocamldoc -g custom.cmo other-options source-files
Options selecting a built-in generator to ocamldoc, such as
-html, have no effect if a custom generator of the same kind is provided using
-g. If the kinds do not match, the selected built-in generator is used and the
custom one is ignored.
Defining a custom generator class in several files
It is possible to define a generator class in several modules, which
are defined in several files file1.ml[i],
file2.ml[i], ..., filen.ml[i]. A .cma
library file must be created, including all these files.
The following commands create the custom.cma file from files
file1.ml[i], ..., filen.ml[i] :
ocamlc -I +ocamldoc -c file
1.ml[i]
ocamlc -I +ocamldoc -c file2.ml[i]
...
ocamlc -I +ocamldoc -c filen.ml[i]
ocamlc -o custom.cma -a file1.cmo file2.cmo ... filen.cmo
Then, the following command uses custom.cma as custom generator:
ocamldoc -g custom.cma other-options source-files