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mirror of https://github.com/processone/ejabberd.git synced 2024-11-24 16:23:40 +01:00
xmpp.chapril.org-ejabberd/doc/devdoc/funrelg.erl

523 lines
16 KiB
Erlang

%%%----------------------------------------------------------------------
%%% File : funrelg.erl
%%% Author : Badlop <badlop@process-one.net>
%%% Purpose : Function Relation Graph
%%% Created : 3 Apr 2007 by Badlop <badlop@process-one.net>
%%%
%%%
%%% ejabberd, Copyright (C) 2002-2009 ProcessOne
%%%
%%% This program is free software; you can redistribute it and/or
%%% modify it under the terms of the GNU General Public License as
%%% published by the Free Software Foundation; either version 2 of the
%%% License, or (at your option) any later version.
%%%
%%% This program 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
%%% General Public License for more details.
%%%
%%% You should have received a copy of the GNU General Public License
%%% along with this program; if not, write to the Free Software
%%% Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
%%% 02111-1307 USA
%%%
%%%----------------------------------------------------------------------
-module(funrelg).
-author('badlop@process-one.net').
-export([dir/1, file/1, g/0, g/1, gc/0, gc/1, d/0]).
-record(mfa, {mod, func, arity}).
-record(arcs, {id, from, to, occ}).
%% The functions that are not in export and don't call anybody are not drawn
%% The calls to this module that use Mod:Func are drawn as external calls
%%-----------------------------
%% Module handlers
%%-----------------------------
dir([SrcDir, OutDir]) ->
SrcDirAbs = filename:absname(SrcDir),
OutDirAbs = filename:absname(OutDir),
Files = get_files([SrcDirAbs]),
lists:foreach(
fun(F) ->
file(F, OutDirAbs)
end,
Files).
file([SrcDir, OutDir]) ->
SrcFilAbs = filename:absname(SrcDir),
OutDirAbs = filename:absname(OutDir),
file(SrcFilAbs, OutDirAbs).
file(SrcFile, OutDir) ->
case {filename:extension(SrcFile), filename:basename(SrcFile)} of
%% The file must by *.erl, and the first character must be a-z
{".erl", [FirstChar | _]} when (FirstChar >= 97) and (FirstChar =< 122) ->
make_file(SrcFile, OutDir),
d();
_ ->
ok
end.
get_files([]) ->
[];
get_files([FHead | FTail]) ->
case catch file:list_dir(FHead) of
{ok, Files} ->
FilesHead = [filename:join(FHead, FilesN) || FilesN <- Files],
get_files(FilesHead ++ FTail);
{error, enotdir} ->
[FHead] ++ get_files(FTail)
end.
make_file(File, OutDir) ->
FB = filename:basename(File),
FileDot = filename:join(OutDir, FB ++ ".dot"),
Text = gc(File),
{ok,FO}=file:open(FileDot,[write]),
try
io:fwrite(FO,"~s",[Text])
after
file:close(FO)
end,
FileSvg = filename:join(OutDir, filename:basename(File, ".erl") ++ ".svg"),
case os:cmd("dot -Tsvg " ++ FileDot ++ " -o " ++ FileSvg) of
"" -> ok;
ShellResult ->
io:format("Trying to run 'dot', we got this result:~n ~s~n"
"Remember that you need to have Graphviz 'dot' installed.~n", [ShellResult])
end,
ok.
%%====================================================================
%% Internal functions
%%====================================================================
g() ->
g("a.erl").
g(Filename) ->
gc(Filename),
halt().
gc() ->
gc("a.erl").
gc(Filename) ->
{ok, File} = epp_dodger:parse_file(Filename),
ets:new(arcs, [set, public, named_table, {keypos, 2}]),
ets:new(mfa_conversion, [set, public, named_table, {keypos, 1}]),
ets:new(counters, [set, public, named_table]),
ets:insert(counters, {arcs_id, 0}),
ModuleName = get_module_name(File),
Exports = lists:usort(get_exports(File)),
Functions = get_functions(File),
FunctionsParsed = lists:usort(parse_functions(Functions)), % side effects: stores on ets
Privates = FunctionsParsed -- Exports,
%%Externals = get_externals(),
MFAs = get_func_calls(),
AppModules1 = os:cmd("ls -1 ../doc/devdoc/*.html | tr \".\" \" \" | tr \"/\" \" \" | awk '{print $3}'"),
AppModules = [list_to_atom(Str) || Str <- string:tokens(AppModules1, [10])],
ExternalTypes1 = [mfa_to_externaltype(MFA, ModuleName, AppModules, FunctionsParsed) || MFA <- MFAs],
ExternalTypes = lists:usort(ExternalTypes1),
AppExternals = [Function || {Type, Function} <- ExternalTypes, Type == app],
ExmppExternals = [Function || {Type, Function} <- ExternalTypes, Type == exmpp],
OTPExternals = [Function || {Type, Function} <- ExternalTypes, Type == other],
textize(ModuleName, Exports, Privates, AppExternals, ExmppExternals, OTPExternals).
get_arcs_id() ->
ets:update_counter(counters, arcs_id, 1).
insert_arc_normal(FromFunc, FromArity, ToFunc, ToArity) ->
From = #mfa{mod = -1, func = FromFunc, arity = FromArity},
To = #mfa{mod = -1, func = ToFunc, arity = ToArity},
insert_arc(From, To).
insert_arc_external(FromFunc, FromArity, ToMod, ToFunc, ToArity) ->
From = #mfa{mod = -1, func = FromFunc, arity = FromArity},
To = #mfa{mod = ToMod, func = ToFunc, arity = ToArity},
insert_arc(From, To).
insert_arc(From, To) ->
Match = #arcs{
from = From,
to = To,
id='$1',
_='_'},
Select = [{Match, [], ['$1']}],
Ids = ets:select(arcs, Select),
case Ids of
[] ->
ets:insert(arcs,
#arcs{
id = get_arcs_id(),
from = From,
to = To,
occ = 1
}
);
[Id] ->
[Arc] = ets:lookup(arcs, Id),
Arc2 = Arc#arcs{occ = Arc#arcs.occ+1},
ets:insert(arcs, Arc2)
end.
read_arc(Id) ->
ets:lookup(arcs, Id).
d() ->
ets:delete(arcs),
ets:delete(mfa_conversion),
ets:delete(counters).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Get
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
get_module_name(File) ->
Attributes = get_elements(attribute, File),
get_attribute(module, Attributes).
get_exports(File) ->
Attributes = get_elements(attribute, File),
Exports = get_attribute(export, Attributes),
parse_export(Exports).
get_functions(File) ->
get_elements(function, File).
get_elements(Type, L) -> get_elements(Type, L, []).
get_elements(_, [], Res) -> Res;
get_elements(Type, [{tree, Type, _, A} | L], Res) ->
get_elements(Type, L, Res++[A]);
get_elements(Type, [_ | L], Res) ->
get_elements(Type, L, Res).
get_attribute(_, []) -> [];
get_attribute(Name, [{attribute, {tree, atom, _, Name}, [Al]} | As]) ->
case Name of
module ->
{tree, atom, _, Mn} = Al,
Mn;
export ->
{tree, list, _, {list, Exports, _}} = Al,
Exports++get_attribute(Name, As);
_ -> ok
end;
get_attribute(Name, [_ | As]) ->
get_attribute(Name, As).
parse_export(Ex) ->
lists:foldl(
fun(Aq, Res) ->
{tree, arity_qualifier, _, {arity_qualifier, Atom, Inte}} = Aq,
{tree, atom, _, An} = Atom,
{tree, integer, _, In} = Inte,
Res++[{An, In}]
end,
[],
Ex).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Parse
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
parse_functions(Functions) ->
lists:map(
fun(E) ->
{function, {_, _, _, Fn}, Clauses} = E,
Arity = get_function_arity(Clauses),
parse_clauses(Fn, Clauses),
{Fn, Arity}
end,
Functions).
parse_clauses(Fn, Clauses) ->
lists:foreach(
fun(E) ->
{tree, clause, L, C} = E,
{attr, _Ln, _, _} = L,
{clause, Parameters, _, Contents} = C,
Fa = length(Parameters),
parse_contents({Fn, Fa}, Contents)
end,
Clauses).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% OLD
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
parse_contents(F, Contents) ->
{_, Res} = lists:foldl(
fun(C, {Fu, R}) ->
{Fu, R++parse_content(F, C)}
end,
{F, []},
Contents),
Res.
parse_content(F, {tree, application, L, A}) ->
{attr, _Ln, _, _} = L,
parse_application(F, A);
parse_content(F, {tree, list, _, {list, [L], Ls}}) ->
RL = parse_content(F, L),
RL++parse_content(F, Ls);
parse_content(F, {tree, tuple, _, T}) ->
parse_contents(F, T);
parse_content(F, {tree, match_expr, _, M}) ->
{match_expr, _, Value} = M,
parse_content(F, Value);
parse_content(F, {tree, try_expr, _, T}) ->
{try_expr, As, Bs, Cs, Ds} = T,
RAs = parse_contents(F, As),
RBs = parse_contents(F, Bs),
RDs = parse_contents(F, Ds),
RAs++RBs++RDs++parse_contents(F, Cs);
parse_content(F, {tree, block_expr, _, Ts}) ->
parse_contents(F, Ts);
parse_content(F, {tree, catch_expr, _, C}) ->
parse_content(F, C);
parse_content(F, {tree, case_expr, _, C}) ->
{case_expr, Case, Cases} = C,
R2 = parse_content(F, Case),
R2++parse_contents(F, Cases);
parse_content(F, {tree, if_expr, _, Cases}) ->
parse_contents(F, Cases);
parse_content(F, {tree, disjunction, _, Cases}) ->
parse_contents(F, Cases);
parse_content(F, {tree, conjunction, _, Cases}) ->
parse_contents(F, Cases);
parse_content(F, {tree, list_comp, _, L}) ->
{list_comp, A, Bs} = L,
RA = parse_content(F, A),
RA++parse_contents(F, Bs);
parse_content(F, {tree, generator, _, G}) ->
{generator, _, Gen} = G,
parse_content(F, Gen);
parse_content(F, {tree, clause, _, C}) ->
{clause, Clause, When, Second} = C,
R2 = parse_contents(F, Clause),
R3 = parse_content(F, When),
R2++R3++parse_contents(F, Second);
parse_content(F, {tree, fun_expr, _, E}) ->
parse_contents(F, E);
parse_content(F, {tree, record_expr, _, E}) ->
{record_expr, _, _, Records} = E,
parse_contents(F, Records);
parse_content(F, {tree, record_field, _, R}) ->
{record_field, F1, F2} = R,
R2 = parse_content(F, F1),
R2++parse_content(F, F2);
parse_content(F, {tree, receive_expr, _, E}) ->
{receive_expr, E1, _, _} = E,
parse_contents(F, E1);
parse_content(F, {tree, infix_expr, _, I}) ->
{infix_expr, _Operator, T1, T2} = I,
R = parse_content(F, T1),
R++parse_content(F, T2);
parse_content(_F, {tree, prefix_expr, _, _P}) ->
[];
parse_content(_F, {tree, class_qualifier, _, _}) -> [];
parse_content(_F, {tree, implicit_fun, _, _}) -> [];
parse_content(_F, {tree, record_access, _, _}) -> [];
parse_content(_F, {tree, record_index_expr, _, _}) -> [];
parse_content(_F, {tree, macro, _, _}) -> [];
parse_content(_F, {tree, binary, _, _}) -> [];
parse_content(_F, {tree, binary_generator, _, _}) -> [];
parse_content(_F, {tree, binary_comp, _, _}) -> [];
parse_content(_F, {integer, _, _I}) -> [];
parse_content(_F, {float, _, _I}) -> [];
parse_content(_F, {string, _, _S}) -> [];
parse_content(_F, {char, _, _S}) -> [];
parse_content(_F, {atom, _, _A}) -> [];
parse_content(_F, {var, _, _V}) -> [];
parse_content(_F, {nil, _}) -> [];
parse_content(_F, none) -> [];
parse_content(_F, C) -> io:format("Unknown content: ~p~n", [C]), [].
parse_application({Fn, Fa}, {application, {atom, _, Name}, Valores}) ->
Arity = length(Valores),
insert_arc_normal(Fn, Fa, Name, Arity),
Ra = [{arc_normal, Fn, Name}],
Ra++parse_contents({Fn, Fa}, Valores);
parse_application({Fn, Fa}, {application, {tree, module_qualifier, _, M}, Tree2}) ->
case M of
{module_qualifier, {_, _, Tf1}, {_, _, Tf2}} ->
ToArity = length(Tree2),
insert_arc_external(Fn, Fa, Tf1, Tf2, ToArity),
parse_contents({Fn, Fa}, Tree2);
_Other ->
%%io:format("Unknown application module_qualifier: ~p~n", [M]),
parse_contents({Fn, Fa}, Tree2)
end;
parse_application({Fn, Fa}, {application, {tree, record_access, _, _}, Tree2}) ->
parse_contents({Fn, Fa}, Tree2);
parse_application({Fn, Fa}, {application, {var, _, _}, Tree2}) ->
parse_contents({Fn, Fa}, Tree2);
parse_application({Fn, Fa}, {application, Other, Tree2}) ->
io:format("Unknown application tree: ~p~n", [Other]),
parse_contents({Fn, Fa}, Tree2).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Textize
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
textize(ModuleName, Exports, Privates, AppExternals, ExmppExternals, OTPExternals) ->
ExportsS = textize_exports(Exports),
PrivatesS = textize_exports(Privates),
AppExternalsS = textize_externals(AppExternals),
ExmppExternalsS = textize_externals(ExmppExternals),
OTPExternalsS = textize_externals(OTPExternals),
Arcs = textize_arcs(),
io_lib:format(
"digraph ~p {~n"++
" label = \"Module ~p\";~n"++
" labelloc = \"t\";~n"++
" fontname = Helvetica;~n"++
" rankdir = LR;~n"++
" ratio = fill;~n"++
%%" node [shape = box, style = filled, color = olivedrab1, fontsize=40];~s~n"++
%%" node [shape = parallelogram, style = filled, color = rosybrown1, fontsize=40];~s~n"++
%%" node [shape = ellipse, style = filled, color = slategray1, peripheries=3, fontsize=40];~n"++
" node [shape = box, color=darkgreen, fillcolor=Honeydew, style=filled, href=\"PRI~p.html#\\N\"];~s~n"++
" node [shape = box, color=darkgreen, fillcolor=PaleGreen, style=filled, href=\"EXP~p.html#\\N\"];~s~n"++
" node [shape = box, color=darkgreen, fillcolor=Aquamarine, style=filled, href=\"APP\\N\"];~s~n"++
" node [shape = box, color=darkblue, fillcolor=LightSkyBlue,style=filled, href=\"EXM\\N\"];~s~n"++
" node [shape = box, color=darkred, fillcolor=PeachPuff, style=filled, href=\"OTP\\N\"];~s~n"++
" node [shape = box];~n"++
"~s"++
"}~n",
[ModuleName, ModuleName,
ModuleName, PrivatesS,
ModuleName, ExportsS,
AppExternalsS,
ExmppExternalsS,
OTPExternalsS,
Arcs]).
textize_exports(Exports) ->
lists:foldl(
fun({Func, Arity}, R) ->
string:concat(R, io_lib:format(" \"~p/~p\";", [Func, Arity]))
end,
"",
Exports).
textize_externals(Externals) ->
lists:foldl(
fun({Mod, Func, Arity}, R) ->
string:concat(R, io_lib:format(" \"~p:~p/~p\";", [Mod, Func, Arity]));
({Func, Arity}, R) ->
string:concat(R, io_lib:format(" \"~p/~p\";", [Func, Arity]))
end,
"",
Externals).
textize_arcs() ->
Id = ets:first(arcs),
textize_arcs(Id, []).
textize_arcs('$end_of_table', Res) -> Res;
textize_arcs(Id, Res) ->
[Arc] = read_arc(Id),
From = mfa_prepare(Arc#arcs.from),
To = mfa_prepare(Arc#arcs.to),
Edge_attrs = check_loop(From, To)++check_occu(Arc#arcs.occ)++check_external(Arc#arcs.to),
Res2 = io_lib:format(" ~s -> ~s~s;~n", [From, To, Edge_attrs]),
Id_next = ets:next(arcs, Id),
textize_arcs(Id_next, string:concat(Res2, Res)).
get_func_calls() ->
Id = ets:first(arcs),
get_func_calls(Id, []).
get_func_calls('$end_of_table', Res) -> Res;
get_func_calls(Id, Res) ->
[Arc] = read_arc(Id),
MFA = Arc#arcs.to,
Call = MFA,
Id_next = ets:next(arcs, Id),
get_func_calls(Id_next, [Call | Res]).
mfa_prepare(MFAinitial) ->
MFA = try_mfa_conversion(MFAinitial),
Mod = case MFA#mfa.mod of
-1 -> "\"";
M -> io_lib:format("\"~p:", [M])
end,
Func = io_lib:format("~p", [MFA#mfa.func]),
Arity = case MFA#mfa.arity of
-1 -> "\"";
A -> io_lib:format("/~p\"", [A])
end,
string:concat(Mod, string:concat(Func, Arity)).
%% noexternal | app | exmpp | other
mfa_to_externaltype(MFA, ModuleName, AppModules, Functions) ->
case MFA of
{mfa, -1, Fu, Ar} ->
case {is_internal, lists:member({Fu, Ar}, Functions)} of
{is_internal, true} ->
{noexternal, {Fu, Ar}};
{is_internal, false} ->
store_mfa_conversion(MFA, {mfa, -1, Fu, Ar}),
{other, {Fu, Ar}}
end;
{mfa, Mo, Fu, Ar} when Mo == ModuleName ->
store_mfa_conversion(MFA, {mfa, -1, Fu, Ar}),
{noexternal, {Fu, Ar}};
{mfa, Mo, Fu, Ar} ->
Type = case {is_app, lists:member(Mo, AppModules)} of
{is_app, true} -> app;
{is_app, false} ->
case string:str(atom_to_list(Mo), "exmpp") of
0 -> other;
N when is_integer(N) -> exmpp
end
end,
{Type, {Mo, Fu, Ar}}
end.
get_function_arity([{tree, clause, _, {clause, Vars, _, _}} | _]) ->
length(Vars);
get_function_arity(E) ->
io:format("Unknown function arity: ~p~n", [E]).
store_mfa_conversion(MFA1, MFA2) ->
ets:insert(mfa_conversion, {MFA1, MFA2}).
try_mfa_conversion(MFA) ->
case ets:lookup(mfa_conversion, MFA) of
[{MFA,MFA2}] ->
MFA2;
[] ->
MFA
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Utils
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%check_loop(I, I) -> " [color = sandybrown]";
check_loop(I, I) -> "";
check_loop(_, _) -> "".
check_occu(1) -> "";
check_occu(Occ) -> io_lib:format(" [label=\"~p\"]", [Occ]).
check_external(To) ->
case To#mfa.mod of
-1 -> " [style = bold]";
_ -> ""
end.