%% -*- 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_codeserver.erl
%%% Author : Tobias Lindahl <[email protected]>
%%% Description :
%%%
%%% Created : 4 Apr 2005 by Tobias Lindahl <[email protected]>
%%%-------------------------------------------------------------------
-module(dialyzer_codeserver).
-export([delete/1,
finalize_contracts/2,
finalize_exported_types/2,
finalize_records/2,
get_contracts/1,
get_exported_types/1,
get_exports/1,
get_records/1,
get_next_core_label/1,
get_temp_contracts/1,
get_temp_exported_types/1,
get_temp_records/1,
insert/3,
insert_exports/2,
insert_temp_exported_types/2,
is_exported/2,
lookup_mod_code/2,
lookup_mfa_code/2,
lookup_mod_records/2,
lookup_mod_contracts/2,
lookup_mfa_contract/2,
new/0,
set_next_core_label/2,
set_temp_records/2,
store_records/3,
store_temp_records/3,
store_contracts/3,
store_temp_contracts/3]).
-export_type([codeserver/0]).
-include("dialyzer.hrl").
%%--------------------------------------------------------------------
-record(codeserver, {table_pid :: pid(),
exported_types = sets:new() :: set(), % set(mfa())
temp_exported_types = sets:new() :: set(), % set(mfa())
exports = sets:new() :: set(), % set(mfa())
next_core_label = 0 :: label(),
records = dict:new() :: dict(),
temp_records = dict:new() :: dict(),
contracts = dict:new() :: dict(),
temp_contracts = dict:new() :: dict()}).
-opaque codeserver() :: #codeserver{}.
%%--------------------------------------------------------------------
-spec new() -> codeserver().
new() ->
#codeserver{table_pid = table__new()}.
-spec delete(codeserver()) -> 'ok'.
delete(#codeserver{table_pid = TablePid}) ->
table__delete(TablePid).
-spec insert(atom(), cerl:c_module(), codeserver()) -> codeserver().
insert(Mod, ModCode, CS) ->
NewTablePid = table__insert(CS#codeserver.table_pid, Mod, ModCode),
CS#codeserver{table_pid = NewTablePid}.
-spec insert_temp_exported_types(set(), codeserver()) -> codeserver().
insert_temp_exported_types(Set, CS) ->
CS#codeserver{temp_exported_types = Set}.
-spec insert_exports([mfa()], codeserver()) -> codeserver().
insert_exports(List, #codeserver{exports = Exports} = CS) ->
Set = sets:from_list(List),
NewExports = sets:union(Exports, Set),
CS#codeserver{exports = NewExports}.
-spec is_exported(mfa(), codeserver()) -> boolean().
is_exported(MFA, #codeserver{exports = Exports}) ->
sets:is_element(MFA, Exports).
-spec get_exported_types(codeserver()) -> set(). % set(mfa())
get_exported_types(#codeserver{exported_types = ExpTypes}) ->
ExpTypes.
-spec get_temp_exported_types(codeserver()) -> set().
get_temp_exported_types(#codeserver{temp_exported_types = TempExpTypes}) ->
TempExpTypes.
-spec get_exports(codeserver()) -> set(). % set(mfa())
get_exports(#codeserver{exports = Exports}) ->
Exports.
-spec finalize_exported_types(set(), codeserver()) -> codeserver().
finalize_exported_types(Set, CS) ->
CS#codeserver{exported_types = Set, temp_exported_types = sets:new()}.
-spec lookup_mod_code(atom(), codeserver()) -> cerl:c_module().
lookup_mod_code(Mod, CS) when is_atom(Mod) ->
table__lookup(CS#codeserver.table_pid, Mod).
-spec lookup_mfa_code(mfa(), codeserver()) -> {cerl:c_var(), cerl:c_fun()}.
lookup_mfa_code({_M, _F, _A} = MFA, CS) ->
table__lookup(CS#codeserver.table_pid, MFA).
-spec get_next_core_label(codeserver()) -> label().
get_next_core_label(#codeserver{next_core_label = NCL}) ->
NCL.
-spec set_next_core_label(label(), codeserver()) -> codeserver().
set_next_core_label(NCL, CS) ->
CS#codeserver{next_core_label = NCL}.
-spec store_records(atom(), dict(), codeserver()) -> codeserver().
store_records(Mod, Dict, #codeserver{records = RecDict} = CS)
when is_atom(Mod) ->
case dict:size(Dict) =:= 0 of
true -> CS;
false -> CS#codeserver{records = dict:store(Mod, Dict, RecDict)}
end.
-spec lookup_mod_records(atom(), codeserver()) -> dict().
lookup_mod_records(Mod, #codeserver{records = RecDict})
when is_atom(Mod) ->
case dict:find(Mod, RecDict) of
error -> dict:new();
{ok, Dict} -> Dict
end.
-spec get_records(codeserver()) -> dict().
get_records(#codeserver{records = RecDict}) ->
RecDict.
-spec store_temp_records(atom(), dict(), codeserver()) -> codeserver().
store_temp_records(Mod, Dict, #codeserver{temp_records = TempRecDict} = CS)
when is_atom(Mod) ->
case dict:size(Dict) =:= 0 of
true -> CS;
false -> CS#codeserver{temp_records = dict:store(Mod, Dict, TempRecDict)}
end.
-spec get_temp_records(codeserver()) -> dict().
get_temp_records(#codeserver{temp_records = TempRecDict}) ->
TempRecDict.
-spec set_temp_records(dict(), codeserver()) -> codeserver().
set_temp_records(Dict, CS) ->
CS#codeserver{temp_records = Dict}.
-spec finalize_records(dict(), codeserver()) -> codeserver().
finalize_records(Dict, CS) ->
CS#codeserver{records = Dict, temp_records = dict:new()}.
-spec store_contracts(atom(), dict(), codeserver()) -> codeserver().
store_contracts(Mod, Dict, #codeserver{contracts = C} = CS) when is_atom(Mod) ->
case dict:size(Dict) =:= 0 of
true -> CS;
false -> CS#codeserver{contracts = dict:store(Mod, Dict, C)}
end.
-spec lookup_mod_contracts(atom(), codeserver()) -> dict().
lookup_mod_contracts(Mod, #codeserver{contracts = ContDict})
when is_atom(Mod) ->
case dict:find(Mod, ContDict) of
error -> dict:new();
{ok, Dict} -> Dict
end.
-spec lookup_mfa_contract(mfa(), codeserver()) ->
'error' | {'ok', dialyzer_contracts:file_contract()}.
lookup_mfa_contract({M,_F,_A} = MFA, #codeserver{contracts = ContDict}) ->
case dict:find(M, ContDict) of
error -> error;
{ok, Dict} -> dict:find(MFA, Dict)
end.
-spec get_contracts(codeserver()) -> dict().
get_contracts(#codeserver{contracts = ContDict}) ->
ContDict.
-spec store_temp_contracts(atom(), dict(), codeserver()) -> codeserver().
store_temp_contracts(Mod, Dict, #codeserver{temp_contracts = C} = CS)
when is_atom(Mod) ->
case dict:size(Dict) =:= 0 of
true -> CS;
false -> CS#codeserver{temp_contracts = dict:store(Mod, Dict, C)}
end.
-spec get_temp_contracts(codeserver()) -> dict().
get_temp_contracts(#codeserver{temp_contracts = TempContDict}) ->
TempContDict.
-spec finalize_contracts(dict(), codeserver()) -> codeserver().
finalize_contracts(Dict, CS) ->
CS#codeserver{contracts = Dict, temp_contracts = dict:new()}.
table__new() ->
spawn_link(fun() -> table__loop(none, dict:new()) end).
table__delete(TablePid) ->
TablePid ! stop,
ok.
table__lookup(TablePid, Key) ->
TablePid ! {self(), lookup, Key},
receive
{TablePid, Key, Ans} -> Ans
end.
table__insert(TablePid, Key, Val) ->
TablePid ! {insert, [{Key, term_to_binary(Val, [compressed])}]},
TablePid.
table__loop(Cached, Map) ->
receive
stop -> ok;
{Pid, lookup, {M, F, A} = MFA} ->
{NewCached, Ans} =
case Cached of
{M, Tree} ->
[Val] = [VarFun || {Var, _Fun} = VarFun <- cerl:module_defs(Tree),
cerl:fname_id(Var) =:= F,
cerl:fname_arity(Var) =:= A],
{Cached, Val};
_ ->
Tree = fetch_and_expand(M, Map),
[Val] = [VarFun || {Var, _Fun} = VarFun <- cerl:module_defs(Tree),
cerl:fname_id(Var) =:= F,
cerl:fname_arity(Var) =:= A],
{{M, Tree}, Val}
end,
Pid ! {self(), MFA, Ans},
table__loop(NewCached, Map);
{Pid, lookup, Mod} when is_atom(Mod) ->
Ans = case Cached of
{Mod, Tree} -> Tree;
_ -> fetch_and_expand(Mod, Map)
end,
Pid ! {self(), Mod, Ans},
table__loop({Mod, Ans}, Map);
{insert, List} ->
NewMap = lists:foldl(fun({Key, Val}, AccMap) ->
dict:store(Key, Val, AccMap)
end, Map, List),
table__loop(Cached, NewMap)
end.
fetch_and_expand(Mod, Map) ->
try
Bin = dict:fetch(Mod, Map),
binary_to_term(Bin)
catch
_:_ ->
S = atom_to_list(Mod),
Msg = "found no module named '" ++ S ++ "' in the analyzed files",
exit({error, Msg})
end.