%% =====================================================================
%% This library is free software; you can redistribute it and/or modify
%% it under the terms of the GNU Lesser General Public License as
%% published by the Free Software Foundation; either version 2 of the
%% License, or (at your option) any later version.
%%
%% This library is distributed in the hope that it will be useful, but
%% WITHOUT ANY WARRANTY; without even the implied warranty of
%% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
%% Lesser General Public License for more details.
%%
%% You should have received a copy of the GNU Lesser General Public
%% License along with this library; if not, write to the Free Software
%% Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
%% USA
%%
%% $Id$
%%
%% @private
%% @copyright 2003 Richard Carlsson
%% @author Richard Carlsson <[email protected]>
%% @see edoc
%% @see edoc_parse_ref
%% @end
%% =====================================================================
%% @doc Representation and handling of EDoc object references. See
%% {@link edoc_parse_ref} for more details.
-module(edoc_refs).
-export([app/1, app/2, package/1, module/1, module/2, module/3,
function/2, function/3, function/4, type/1, type/2, type/3,
to_string/1, to_label/1, get_uri/2, is_top/2,
relative_module_path/2, relative_package_path/2]).
-import(edoc_lib, [join_uri/2, escape_uri/1]).
-include("edoc.hrl").
-define(INDEX_FILE, "index.html").
%% Creating references:
app(App) ->
{app, App}.
app(App, Ref) ->
{app, App, Ref}.
module(M) ->
{module, M}.
module(M, Ref) ->
{module, M, Ref}.
module(App, M, Ref) ->
app(App, module(M, Ref)).
package(P) ->
{package, P}.
function(F, A) ->
{function, F, A}.
function(M, F, A) ->
module(M, function(F, A)).
function(App, M, F, A) ->
module(App, M, function(F, A)).
type(T) ->
{type, T}.
type(M, T) ->
module(M, type(T)).
type(App, M, T) ->
module(App, M, type(T)).
%% Creating a print string for a reference
to_string({app, A}) ->
"//" ++ atom_to_list(A);
to_string({app, A, Ref}) ->
"//" ++ atom_to_list(A) ++ "/" ++ to_string(Ref);
to_string({module, M}) ->
atom_to_list(M) ;
to_string({module, M, Ref}) ->
atom_to_list(M) ++ ":" ++ to_string(Ref);
to_string({package, P}) ->
atom_to_list(P) ++ ".*";
to_string({function, F, A}) ->
atom_to_list(F) ++ "/" ++ integer_to_list(A);
to_string({type, T}) ->
atom_to_list(T) ++ "()".
%% Creating URIs and anchors.
to_label({function, F, A}) ->
escape_uri(atom_to_list(F)) ++ "-" ++ integer_to_list(A);
to_label({type, T}) ->
"type-" ++ escape_uri(atom_to_list(T)).
get_uri({app, App}, Env) ->
join_uri(app_ref(App, Env), ?INDEX_FILE);
get_uri({app, App, Ref}, Env) ->
app_ref(App, Ref, Env);
get_uri({module, M, Ref}, Env) ->
module_ref(M, Env) ++ "#" ++ to_label(Ref);
get_uri({module, M}, Env) ->
module_ref(M, Env);
get_uri({package, P}, Env) ->
package_ref(P, Env);
get_uri(Ref, _Env) ->
"#" ++ to_label(Ref).
abs_uri({module, M}, Env) ->
module_absref(M, Env);
abs_uri({module, M, Ref}, Env) ->
module_absref(M, Env) ++ "#" ++ to_label(Ref);
abs_uri({package, P}, Env) ->
package_absref(P, Env).
module_ref(M, Env) ->
case (Env#env.modules)(M) of
"" ->
File = packages:last(M) ++ Env#env.file_suffix,
Path = relative_module_path(M, Env#env.package),
join_uri(Path, escape_uri(File));
Base ->
join_uri(Base, module_absref(M, Env))
end.
module_absref(M, Env) ->
join_segments(packages:split(M))
++ escape_uri(Env#env.file_suffix).
package_ref(P, Env) ->
case (Env#env.packages)(P) of
"" ->
join_uri(relative_package_path(P, Env#env.package),
escape_uri(Env#env.package_summary));
Base ->
join_uri(Base, package_absref(P, Env))
end.
package_absref(P, Env) ->
join_uri(join_segments(packages:split(P)),
escape_uri(Env#env.package_summary)).
app_ref(A, Env) ->
case (Env#env.apps)(A) of
"" ->
join_uri(Env#env.app_default,
join_uri(escape_uri(atom_to_list(A)), ?EDOC_DIR));
Base ->
Base
end.
app_ref(A, Ref, Env) ->
join_uri(app_ref(A, Env), abs_uri(Ref, Env)).
is_top({app, _App}, _Env) ->
true;
is_top(_Ref, _Env) ->
false.
%% Each segment of a path must be separately escaped before joining.
join_segments([S]) ->
escape_uri(S);
join_segments([S | Ss]) ->
join_uri(escape_uri(S), join_segments(Ss)).
%% 'From' is always the "current package" here:
%% The empty string is returned if the To module has only one segment,
%% implying a local reference.
relative_module_path(To, From) ->
case first(packages:split(To)) of
[] -> "";
P -> relative_path(P, packages:split(From))
end.
relative_package_path(To, From) ->
relative_path(packages:split(To), packages:split(From)).
%% This takes two lists of path segments (From, To). Note that an empty
%% string will be returned if the paths are the same. Empty leading
%% segments are stripped from both paths.
relative_path(Ts, ["" | Fs]) ->
relative_path(Ts, Fs);
relative_path(["" | Ts], Fs) ->
relative_path(Ts, Fs);
relative_path(Ts, Fs) ->
relative_path_1(Ts, Fs).
relative_path_1([T | Ts], [F | Fs]) when F == T ->
relative_path_1(Ts, Fs);
relative_path_1(Ts, Fs) ->
relative_path_2(Fs, Ts).
relative_path_2([_F | Fs], Ts) ->
relative_path_2(Fs, [".." | Ts]);
relative_path_2([], []) ->
"";
relative_path_2([], Ts) ->
join_segments(Ts).
first([H | T]) when T /= [] -> [H | first(T)];
first(_) -> [].