%% -*- erlang-indent-level: 2 -*-
%%----------------------------------------------------------------------
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2006-2010. All Rights Reserved.
%%
%% The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
%% compliance with the License. You should have received a copy of the
%% Erlang Public License along with this software. If not, it can be
%% retrieved online at http://www.erlang.org/.
%%
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and limitations
%% under the License.
%%
%% %CopyrightEnd%
%%
%%%-------------------------------------------------------------------
%%% File : dialyzer_plt.erl
%%% Author : Tobias Lindahl <[email protected]>
%%% Description : Interface to display information in the persistent
%%% lookup tables.
%%%
%%% Created : 23 Jul 2004 by Tobias Lindahl <[email protected]>
%%%-------------------------------------------------------------------
-module(dialyzer_plt).
-export([check_plt/3,
compute_md5_from_files/1,
contains_mfa/2,
contains_module/2,
delete_contract_list/2,
delete_list/2,
delete_module/2,
included_files/1,
from_file/1,
get_default_plt/0,
get_types/1,
get_exported_types/1,
%% insert/3,
insert_list/2,
insert_contract_list/2,
insert_types/2,
insert_exported_types/2,
lookup/2,
lookup_contract/2,
lookup_module/2,
merge_plts/1,
merge_plts_or_report_conflicts/2,
new/0,
plt_and_info_from_file/1,
get_specs/1,
get_specs/4,
to_file/4]).
%% Debug utilities
-export([pp_non_returning/0, pp_mod/1]).
-export_type([plt/0, plt_info/0]).
%%----------------------------------------------------------------------
-type mod_deps() :: dict().
-type deep_string() :: string() | [deep_string()].
%% The following are used for searching the PLT when using the GUI
%% (e.g. in show or search PLT contents). The user might be searching
%% with a partial specification, in which case the missing items
%% default to '_'
-type arity_patt() :: '_' | arity().
-type mfa_patt() :: {module(), atom(), arity_patt()}.
%%----------------------------------------------------------------------
-record(plt, {info = table_new() :: dict(),
types = table_new() :: dict(),
contracts = table_new() :: dict(),
exported_types = sets:new() :: set()}).
-opaque plt() :: #plt{}.
-include("dialyzer.hrl").
-type file_md5() :: {file:filename(), binary()}.
-type plt_info() :: {[file_md5()], dict()}.
-record(file_plt, {version = "" :: string(),
file_md5_list = [] :: [file_md5()],
info = dict:new() :: dict(),
contracts = dict:new() :: dict(),
types = dict:new() :: dict(),
exported_types = sets:new() :: set(),
mod_deps :: mod_deps(),
implementation_md5 = [] :: [file_md5()]}).
%%----------------------------------------------------------------------
-spec new() -> plt().
new() ->
#plt{}.
-spec delete_module(plt(), atom()) -> plt().
delete_module(#plt{info = Info, types = Types, contracts = Contracts,
exported_types = ExpTypes}, Mod) ->
#plt{info = table_delete_module(Info, Mod),
types = table_delete_module2(Types, Mod),
contracts = table_delete_module(Contracts, Mod),
exported_types = table_delete_module1(ExpTypes, Mod)}.
-spec delete_list(plt(), [mfa() | integer()]) -> plt().
delete_list(#plt{info = Info, types = Types, contracts = Contracts,
exported_types = ExpTypes}, List) ->
#plt{info = table_delete_list(Info, List),
types = Types,
contracts = table_delete_list(Contracts, List),
exported_types = ExpTypes}.
-spec insert_contract_list(plt(), dialyzer_contracts:plt_contracts()) -> plt().
insert_contract_list(#plt{contracts = Contracts} = PLT, List) ->
PLT#plt{contracts = table_insert_list(Contracts, List)}.
-spec lookup_contract(plt(), mfa_patt()) -> 'none' | {'value', #contract{}}.
lookup_contract(#plt{contracts = Contracts},
{M, F, _} = MFA) when is_atom(M), is_atom(F) ->
table_lookup(Contracts, MFA).
-spec delete_contract_list(plt(), [mfa()]) -> plt().
delete_contract_list(#plt{contracts = Contracts} = PLT, List) ->
PLT#plt{contracts = table_delete_list(Contracts, List)}.
%% -spec insert(plt(), mfa() | integer(), {_, _}) -> plt().
%%
%% insert(#plt{info = Info} = PLT, Id, Types) ->
%% PLT#plt{info = table_insert(Info, Id, Types)}.
-type ret_args_types() :: {erl_types:erl_type(), [erl_types:erl_type()]}.
-spec insert_list(plt(), [{mfa() | integer(), ret_args_types()}]) -> plt().
insert_list(#plt{info = Info} = PLT, List) ->
PLT#plt{info = table_insert_list(Info, List)}.
-spec lookup(plt(), integer() | mfa_patt()) ->
'none' | {'value', ret_args_types()}.
lookup(#plt{info = Info}, {M, F, _} = MFA) when is_atom(M), is_atom(F) ->
table_lookup(Info, MFA);
lookup(#plt{info = Info}, Label) when is_integer(Label) ->
table_lookup(Info, Label).
-spec insert_types(plt(), dict()) -> plt().
insert_types(PLT, Rec) ->
PLT#plt{types = Rec}.
-spec insert_exported_types(plt(), set()) -> plt().
insert_exported_types(PLT, Set) ->
PLT#plt{exported_types = Set}.
-spec get_types(plt()) -> dict().
get_types(#plt{types = Types}) ->
Types.
-spec get_exported_types(plt()) -> set().
get_exported_types(#plt{exported_types = ExpTypes}) ->
ExpTypes.
-type mfa_types() :: {mfa(), erl_types:erl_type(), [erl_types:erl_type()]}.
-spec lookup_module(plt(), atom()) -> 'none' | {'value', [mfa_types()]}.
lookup_module(#plt{info = Info}, M) when is_atom(M) ->
table_lookup_module(Info, M).
-spec contains_module(plt(), atom()) -> boolean().
contains_module(#plt{info = Info, contracts = Cs}, M) when is_atom(M) ->
table_contains_module(Info, M) orelse table_contains_module(Cs, M).
-spec contains_mfa(plt(), mfa()) -> boolean().
contains_mfa(#plt{info = Info, contracts = Contracts}, MFA) ->
(table_lookup(Info, MFA) =/= none)
orelse (table_lookup(Contracts, MFA) =/= none).
-spec get_default_plt() -> file:filename().
get_default_plt() ->
case os:getenv("DIALYZER_PLT") of
false ->
case os:getenv("HOME") of
false ->
plt_error("The HOME environment variable needs to be set " ++
"so that Dialyzer knows where to find the default PLT");
HomeDir -> filename:join(HomeDir, ".dialyzer_plt")
end;
UserSpecPlt -> UserSpecPlt
end.
-spec plt_and_info_from_file(file:filename()) -> {plt(), plt_info()}.
plt_and_info_from_file(FileName) ->
from_file(FileName, true).
-spec from_file(file:filename()) -> plt().
from_file(FileName) ->
from_file(FileName, false).
from_file(FileName, ReturnInfo) ->
case get_record_from_file(FileName) of
{ok, Rec} ->
case check_version(Rec) of
error ->
Msg = io_lib:format("Old PLT file ~s\n", [FileName]),
plt_error(Msg);
ok ->
Plt = #plt{info = Rec#file_plt.info,
types = Rec#file_plt.types,
contracts = Rec#file_plt.contracts,
exported_types = Rec#file_plt.exported_types},
case ReturnInfo of
false -> Plt;
true ->
PltInfo = {Rec#file_plt.file_md5_list,
Rec#file_plt.mod_deps},
{Plt, PltInfo}
end
end;
{error, Reason} ->
Msg = io_lib:format("Could not read PLT file ~s: ~p\n",
[FileName, Reason]),
plt_error(Msg)
end.
-type err_rsn() :: 'not_valid' | 'no_such_file' | 'read_error'.
-spec included_files(file:filename()) -> {'ok', [file:filename()]}
| {'error', err_rsn()}.
included_files(FileName) ->
case get_record_from_file(FileName) of
{ok, #file_plt{file_md5_list = Md5}} ->
{ok, [File || {File, _} <- Md5]};
{error, _What} = Error ->
Error
end.
check_version(#file_plt{version = ?VSN, implementation_md5 = ImplMd5}) ->
case compute_new_md5(ImplMd5, [], []) of
ok -> ok;
{differ, _, _} -> error;
{error, _} -> error
end;
check_version(#file_plt{}) -> error.
get_record_from_file(FileName) ->
case file:read_file(FileName) of
{ok, Bin} ->
try binary_to_term(Bin) of
#file_plt{} = FilePLT -> {ok, FilePLT};
_ -> {error, not_valid}
catch
_:_ -> {error, not_valid}
end;
{error, enoent} ->
{error, no_such_file};
{error, _} ->
{error, read_error}
end.
-spec merge_plts([plt()]) -> plt().
merge_plts(List) ->
InfoList = [Info || #plt{info = Info} <- List],
TypesList = [Types || #plt{types = Types} <- List],
ExpTypesList = [ExpTypes || #plt{exported_types = ExpTypes} <- List],
ContractsList = [Contracts || #plt{contracts = Contracts} <- List],
#plt{info = table_merge(InfoList),
types = table_merge(TypesList),
exported_types = sets_merge(ExpTypesList),
contracts = table_merge(ContractsList)}.
-spec merge_disj_plts([plt()]) -> plt().
merge_disj_plts(List) ->
InfoList = [Info || #plt{info = Info} <- List],
TypesList = [Types || #plt{types = Types} <- List],
ExpTypesList = [ExpTypes || #plt{exported_types = ExpTypes} <- List],
ContractsList = [Contracts || #plt{contracts = Contracts} <- List],
#plt{info = table_disj_merge(InfoList),
types = table_disj_merge(TypesList),
exported_types = sets_disj_merge(ExpTypesList),
contracts = table_disj_merge(ContractsList)}.
-spec merge_plts_or_report_conflicts([file:filename()], [plt()]) -> plt().
merge_plts_or_report_conflicts(PltFiles, Plts) ->
try
merge_disj_plts(Plts)
catch throw:{dialyzer_error, not_disjoint_plts} ->
IncFiles = lists:append([begin {ok, Fs} = included_files(F), Fs end
|| F <- PltFiles]),
ConfFiles = find_duplicates(IncFiles),
Msg = io_lib:format("Could not merge PLTs since they are not disjoint\n"
"The following files are included in more than one "
"PLTs:\n~p\n", [ConfFiles]),
error(Msg)
end.
find_duplicates(List) ->
ModList = [filename:basename(E) || E <- List],
SortedList = lists:usort(ModList),
lists:usort(ModList -- SortedList).
-spec to_file(file:filename(), plt(), mod_deps(), {[file_md5()], mod_deps()}) -> 'ok'.
to_file(FileName,
#plt{info = Info, types = Types, contracts = Contracts,
exported_types = ExpTypes},
ModDeps, {MD5, OldModDeps}) ->
NewModDeps = dict:merge(fun(_Key, OldVal, NewVal) ->
ordsets:union(OldVal, NewVal)
end,
OldModDeps, ModDeps),
ImplMd5 = compute_implementation_md5(),
Record = #file_plt{version = ?VSN,
file_md5_list = MD5,
info = Info,
contracts = Contracts,
types = Types,
exported_types = ExpTypes,
mod_deps = NewModDeps,
implementation_md5 = ImplMd5},
Bin = term_to_binary(Record, [compressed]),
case file:write_file(FileName, Bin) of
ok -> ok;
{error, Reason} ->
Msg = io_lib:format("Could not write PLT file ~s: ~w\n",
[FileName, Reason]),
throw({dialyzer_error, Msg})
end.
-type md5_diff() :: [{'differ', atom()} | {'removed', atom()}].
-type check_error() :: err_rsn() | {'no_file_to_remove', file:filename()}.
-spec check_plt(file:filename(), [file:filename()], [file:filename()]) ->
'ok'
| {'error', check_error()}
| {'differ', [file_md5()], md5_diff(), mod_deps()}
| {'old_version', [file_md5()]}.
check_plt(FileName, RemoveFiles, AddFiles) ->
case get_record_from_file(FileName) of
{ok, #file_plt{file_md5_list = Md5, mod_deps = ModDeps} = Rec} ->
case check_version(Rec) of
ok ->
case compute_new_md5(Md5, RemoveFiles, AddFiles) of
ok -> ok;
{differ, NewMd5, DiffMd5} -> {differ, NewMd5, DiffMd5, ModDeps};
{error, _What} = Err -> Err
end;
error ->
case compute_new_md5(Md5, RemoveFiles, AddFiles) of
ok -> {old_version, Md5};
{differ, NewMd5, _DiffMd5} -> {old_version, NewMd5};
{error, _What} = Err -> Err
end
end;
Error -> Error
end.
compute_new_md5(Md5, [], []) ->
compute_new_md5_1(Md5, [], []);
compute_new_md5(Md5, RemoveFiles0, AddFiles0) ->
%% Assume that files are first removed and then added. Files that
%% are both removed and added will be checked for consistency in the
%% normal way. If they have moved, we assume that they differ.
RemoveFiles = RemoveFiles0 -- AddFiles0,
AddFiles = AddFiles0 -- RemoveFiles0,
InitDiffList = init_diff_list(RemoveFiles, AddFiles),
case init_md5_list(Md5, RemoveFiles, AddFiles) of
{ok, NewMd5} -> compute_new_md5_1(NewMd5, [], InitDiffList);
{error, _What} = Error -> Error
end.
compute_new_md5_1([{File, Md5} = Entry|Entries], NewList, Diff) ->
case compute_md5_from_file(File) of
Md5 -> compute_new_md5_1(Entries, [Entry|NewList], Diff);
NewMd5 ->
ModName = beam_file_to_module(File),
compute_new_md5_1(Entries, [{File, NewMd5}|NewList], [{differ, ModName}|Diff])
end;
compute_new_md5_1([], _NewList, []) ->
ok;
compute_new_md5_1([], NewList, Diff) ->
{differ, lists:keysort(1, NewList), Diff}.
-spec compute_implementation_md5() -> [file_md5()].
compute_implementation_md5() ->
Dir = code:lib_dir(hipe),
Files1 = ["erl_bif_types.beam", "erl_types.beam"],
Files2 = [filename:join([Dir, "ebin", F]) || F <- Files1],
compute_md5_from_files(Files2).
-spec compute_md5_from_files([file:filename()]) -> [file_md5()].
compute_md5_from_files(Files) ->
lists:keysort(1, [{F, compute_md5_from_file(F)} || F <- Files]).
compute_md5_from_file(File) ->
case filelib:is_regular(File) of
false ->
Msg = io_lib:format("Not a regular file: ~s\n", [File]),
throw({dialyzer_error, Msg});
true ->
case dialyzer_utils:get_abstract_code_from_beam(File) of
error ->
Msg = io_lib:format("Could not get abstract code for file: ~s (please recompile it with +debug_info)\n", [File]),
throw({dialyzer_error, Msg});
{ok, Abs} ->
erlang:md5(term_to_binary(Abs))
end
end.
init_diff_list(RemoveFiles, AddFiles) ->
RemoveSet0 = sets:from_list([beam_file_to_module(F) || F <- RemoveFiles]),
AddSet0 = sets:from_list([beam_file_to_module(F) || F <- AddFiles]),
DiffSet = sets:intersection(AddSet0, RemoveSet0),
RemoveSet = sets:subtract(RemoveSet0, DiffSet),
%% Added files and diff files will appear as diff files from the md5 check.
[{removed, F} || F <- sets:to_list(RemoveSet)].
init_md5_list(Md5, RemoveFiles, AddFiles) ->
Files = [{remove, F} || F <- RemoveFiles] ++ [{add, F} || F <- AddFiles],
DiffFiles = lists:keysort(2, Files),
Md5Sorted = lists:keysort(1, Md5),
init_md5_list_1(Md5Sorted, DiffFiles, []).
init_md5_list_1([{File, _Md5}|Md5Left], [{remove, File}|DiffLeft], Acc) ->
init_md5_list_1(Md5Left, DiffLeft, Acc);
init_md5_list_1([{File, _Md5} = Entry|Md5Left], [{add, File}|DiffLeft], Acc) ->
init_md5_list_1(Md5Left, DiffLeft, [Entry|Acc]);
init_md5_list_1([{File1, _Md5} = Entry|Md5Left] = Md5List,
[{Tag, File2}|DiffLeft] = DiffList, Acc) ->
case File1 < File2 of
true -> init_md5_list_1(Md5Left, DiffList, [Entry|Acc]);
false ->
%% Just an assert.
true = File1 > File2,
case Tag of
add -> init_md5_list_1(Md5List, DiffLeft, [{File2, <<>>}|Acc]);
remove -> {error, {no_file_to_remove, File2}}
end
end;
init_md5_list_1([], DiffList, Acc) ->
AddFiles = [{F, <<>>} || {add, F} <- DiffList],
{ok, lists:reverse(Acc, AddFiles)};
init_md5_list_1(Md5List, [], Acc) ->
{ok, lists:reverse(Acc, Md5List)}.
%%---------------------------------------------------------------------------
%% Edoc
-spec get_specs(plt()) -> string().
get_specs(#plt{info = Info}) ->
%% TODO: Should print contracts as well.
L = lists:sort([{MFA, Val} || {{_,_,_} = MFA, Val} <- table_to_list(Info)]),
lists:flatten(create_specs(L, [])).
beam_file_to_module(Filename) ->
list_to_atom(filename:basename(Filename, ".beam")).
-spec get_specs(plt(), atom(), atom(), arity_patt()) -> 'none' | string().
get_specs(#plt{info = Info}, M, F, A) when is_atom(M), is_atom(F) ->
MFA = {M, F, A},
case table_lookup(Info, MFA) of
none -> none;
{value, Val} -> lists:flatten(create_specs([{MFA, Val}], []))
end.
create_specs([{{M, F, _A}, {Ret, Args}}|Left], M) ->
[io_lib:format("-spec ~w(~s) -> ~s\n",
[F, expand_args(Args), erl_types:t_to_string(Ret)])
| create_specs(Left, M)];
create_specs(List = [{{M, _F, _A}, {_Ret, _Args}}| _], _M) ->
[io_lib:format("\n\n%% ------- Module: ~w -------\n\n", [M])
| create_specs(List, M)];
create_specs([], _) ->
[].
expand_args([]) ->
[];
expand_args([ArgType]) ->
case erl_types:t_is_any(ArgType) of
true -> ["_"];
false -> [erl_types:t_to_string(ArgType)]
end;
expand_args([ArgType|Left]) ->
[case erl_types:t_is_any(ArgType) of
true -> "_";
false -> erl_types:t_to_string(ArgType)
end ++
","|expand_args(Left)].
-spec plt_error(deep_string()) -> no_return().
plt_error(Msg) ->
throw({dialyzer_error, lists:flatten(Msg)}).
%%---------------------------------------------------------------------------
%% Ets table
table_new() ->
dict:new().
table_to_list(Plt) ->
dict:to_list(Plt).
table_delete_module(Plt, Mod) ->
dict:filter(fun({M, _F, _A}, _Val) -> M =/= Mod;
(_, _) -> true
end, Plt).
table_delete_module1(Plt, Mod) ->
sets:filter(fun({M, _F, _A}) -> M =/= Mod end, Plt).
table_delete_module2(Plt, Mod) ->
dict:filter(fun(M, _Val) -> M =/= Mod end, Plt).
table_delete_list(Plt, [H|T]) ->
table_delete_list(dict:erase(H, Plt), T);
table_delete_list(Plt, []) ->
Plt.
table_insert_list(Plt, [{Key, Val}|Left]) ->
table_insert_list(table_insert(Plt, Key, Val), Left);
table_insert_list(Plt, []) ->
Plt.
table_insert(Plt, Key, {_Ret, _Arg} = Obj) ->
dict:store(Key, Obj, Plt);
table_insert(Plt, Key, #contract{} = C) ->
dict:store(Key, C, Plt).
table_lookup(Plt, Obj) ->
case dict:find(Obj, Plt) of
error -> none;
{ok, Val} -> {value, Val}
end.
table_lookup_module(Plt, Mod) ->
List = dict:fold(fun(Key, Val, Acc) ->
case Key of
{Mod, _F, _A} -> [{Key, element(1, Val),
element(2, Val)}|Acc];
_ -> Acc
end
end, [], Plt),
case List =:= [] of
true -> none;
false -> {value, List}
end.
table_contains_module(Plt, Mod) ->
dict:fold(fun({M, _F, _A}, _Val, _Acc) when M =:= Mod -> true;
(_, _, Acc) -> Acc
end, false, Plt).
table_merge([H|T]) ->
table_merge(T, H).
table_merge([], Acc) ->
Acc;
table_merge([Plt|Plts], Acc) ->
NewAcc = dict:merge(fun(_Key, Val, Val) -> Val end, Plt, Acc),
table_merge(Plts, NewAcc).
table_disj_merge([H|T]) ->
table_disj_merge(T, H).
table_disj_merge([], Acc) ->
Acc;
table_disj_merge([Plt|Plts], Acc) ->
case table_is_disjoint(Plt, Acc) of
true ->
NewAcc = dict:merge(fun(_Key, _Val1, _Val2) -> gazonk end,
Plt, Acc),
table_disj_merge(Plts, NewAcc);
false -> throw({dialyzer_error, not_disjoint_plts})
end.
table_is_disjoint(T1, T2) ->
K1 = dict:fetch_keys(T1),
K2 = dict:fetch_keys(T2),
lists:all(fun(E) -> not lists:member(E, K2) end, K1).
sets_merge([H|T]) ->
sets_merge(T, H).
sets_merge([], Acc) ->
Acc;
sets_merge([Plt|Plts], Acc) ->
NewAcc = sets:union(Plt, Acc),
sets_merge(Plts, NewAcc).
sets_disj_merge([H|T]) ->
sets_disj_merge(T, H).
sets_disj_merge([], Acc) ->
Acc;
sets_disj_merge([Plt|Plts], Acc) ->
case sets:is_disjoint(Plt, Acc) of
true ->
NewAcc = sets:union(Plt, Acc),
sets_disj_merge(Plts, NewAcc);
false -> throw({dialyzer_error, not_disjoint_plts})
end.
%%---------------------------------------------------------------------------
%% Debug utilities.
-spec pp_non_returning() -> 'ok'.
pp_non_returning() ->
PltFile = get_default_plt(),
Plt = from_file(PltFile),
List = table_to_list(Plt#plt.info),
Unit = [{MFA, erl_types:t_fun(Args, Ret)} || {MFA, {Ret, Args}} <- List,
erl_types:t_is_unit(Ret)],
None = [{MFA, erl_types:t_fun(Args, Ret)} || {MFA, {Ret, Args}} <- List,
erl_types:t_is_none(Ret)],
io:format("=========================================\n"),
io:format("= Loops =\n"),
io:format("=========================================\n\n"),
lists:foreach(fun({{M, F, _}, Type}) ->
io:format("~w:~w~s.\n",
[M, F, dialyzer_utils:format_sig(Type)])
end, lists:sort(Unit)),
io:format("\n"),
io:format("=========================================\n"),
io:format("= Errors =\n"),
io:format("=========================================\n\n"),
lists:foreach(fun({{M, F, _}, Type}) ->
io:format("~w:~w~s.\n",
[M, F, dialyzer_utils:format_sig(Type)])
end, lists:sort(None)).
-spec pp_mod(atom()) -> 'ok'.
pp_mod(Mod) when is_atom(Mod) ->
PltFile = get_default_plt(),
Plt = from_file(PltFile),
case lookup_module(Plt, Mod) of
{value, List} ->
lists:foreach(fun({{_, F, _}, Ret, Args}) ->
T = erl_types:t_fun(Args, Ret),
S = dialyzer_utils:format_sig(T),
io:format("-spec ~w~s.\n", [F, S])
end, lists:sort(List));
none ->
io:format("dialyzer: Found no module named '~s' in the PLT\n", [Mod])
end.