%% -*- erlang-indent-level: 2 -*-
%%-----------------------------------------------------------------------
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2006-2016. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(dialyzer_worker).
-export([launch/4]).
-export_type([worker/0]).
-type worker() :: pid(). %%opaque
-type mode() :: dialyzer_coordinator:mode().
-type coordinator() :: dialyzer_coordinator:coordinator().
-type init_data() :: dialyzer_coordinator:init_data().
-type job() :: dialyzer_coordinator:job().
-record(state, {
mode :: mode(),
job :: job(),
coordinator :: coordinator(),
init_data :: init_data(),
depends_on = [] :: list()
}).
-include("dialyzer.hrl").
%% -define(DEBUG, true).
-ifdef(DEBUG).
-define(debug(X__, Y__), io:format(X__, Y__)).
-else.
-define(debug(X__, Y__), ok).
-endif.
%%--------------------------------------------------------------------
-spec launch(mode(), job(), init_data(), coordinator()) -> worker().
launch(Mode, Job, InitData, Coordinator) ->
State = #state{mode = Mode,
job = Job,
init_data = InitData,
coordinator = Coordinator},
InitState =
case Mode of
X when X =:= 'typesig'; X =:= 'dataflow' -> initializing;
X when X =:= 'compile'; X =:= 'warnings' -> running
end,
spawn_link(fun() -> loop(InitState, State) end).
%%--------------------------------------------------------------------
loop(updating, State) ->
?debug("Update: ~p\n",[State#state.job]),
NextStatus =
case waits_more_success_typings(State) of
true -> waiting;
false -> running
end,
loop(NextStatus, State);
loop(initializing, #state{job = SCC, init_data = InitData} = State) ->
DependsOn = dialyzer_succ_typings:find_depends_on(SCC, InitData),
?debug("Deps ~p: ~p\n",[State#state.job, DependsOn]),
loop(updating, State#state{depends_on = DependsOn});
loop(waiting, State) ->
?debug("Wait: ~p\n",[State#state.job]),
NewState = wait_for_success_typings(State),
loop(updating, NewState);
loop(running, #state{mode = 'compile'} = State) ->
dialyzer_coordinator:wait_activation(),
?debug("Compile: ~s\n",[State#state.job]),
Result =
case start_compilation(State) of
{ok, EstimatedSize, Data} ->
Label = ask_coordinator_for_label(EstimatedSize, State),
continue_compilation(Label, Data);
{error, _Reason} = Error ->
Error
end,
report_to_coordinator(Result, State);
loop(running, #state{mode = 'warnings'} = State) ->
dialyzer_coordinator:wait_activation(),
?debug("Warning: ~s\n",[State#state.job]),
Result = collect_warnings(State),
report_to_coordinator(Result, State);
loop(running, #state{mode = Mode} = State) when
Mode =:= 'typesig'; Mode =:= 'dataflow' ->
request_activation(State),
?debug("Run: ~p\n",[State#state.job]),
NotFixpoint = do_work(State),
ok = broadcast_done(State),
report_to_coordinator(NotFixpoint, State).
waits_more_success_typings(#state{depends_on = Depends}) ->
Depends =/= [].
broadcast_done(#state{job = SCC, init_data = InitData,
coordinator = Coordinator}) ->
RequiredBy = dialyzer_succ_typings:find_required_by(SCC, InitData),
{Callers, Unknown} =
dialyzer_coordinator:sccs_to_pids(RequiredBy, Coordinator),
send_done(Callers, SCC),
continue_broadcast_done(Unknown, SCC, Coordinator).
send_done(Callers, SCC) ->
?debug("Sending ~p: ~p\n",[SCC, Callers]),
SendSTFun = fun(PID) -> PID ! {done, SCC} end,
lists:foreach(SendSTFun, Callers).
continue_broadcast_done([], _SCC, _Coordinator) -> ok;
continue_broadcast_done(Rest, SCC, Coordinator) ->
%% This time limit should be greater than the time required
%% by the coordinator to spawn all processes.
timer:sleep(500),
{Callers, Unknown} = dialyzer_coordinator:sccs_to_pids(Rest, Coordinator),
send_done(Callers, SCC),
continue_broadcast_done(Unknown, SCC, Coordinator).
wait_for_success_typings(#state{depends_on = DependsOn} = State) ->
receive
{done, SCC} ->
?debug("GOT ~p: ~p\n",[State#state.job, SCC]),
State#state{depends_on = DependsOn -- [SCC]}
after
5000 ->
?debug("Still Waiting ~p: ~p\n",[State#state.job, DependsOn]),
State
end.
request_activation(#state{coordinator = Coordinator}) ->
dialyzer_coordinator:request_activation(Coordinator).
do_work(#state{mode = Mode, job = Job, init_data = InitData}) ->
case Mode of
typesig -> dialyzer_succ_typings:find_succ_types_for_scc(Job, InitData);
dataflow -> dialyzer_succ_typings:refine_one_module(Job, InitData)
end.
report_to_coordinator(Result, #state{job = Job, coordinator = Coordinator}) ->
?debug("Done: ~p\n",[Job]),
dialyzer_coordinator:job_done(Job, Result, Coordinator).
start_compilation(#state{job = Job, init_data = InitData}) ->
dialyzer_analysis_callgraph:start_compilation(Job, InitData).
ask_coordinator_for_label(EstimatedSize, #state{coordinator = Coordinator}) ->
dialyzer_coordinator:get_next_label(EstimatedSize, Coordinator).
continue_compilation(Label, Data) ->
dialyzer_analysis_callgraph:continue_compilation(Label, Data).
collect_warnings(#state{job = Job, init_data = InitData}) ->
dialyzer_succ_typings:collect_warnings(Job, InitData).