From 093903fd61089f7207453236c177d8ca9f3cfdad Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Bj=C3=B6rn-Egil=20Dahlberg?= Date: Mon, 17 May 2010 17:20:18 +0200 Subject: Teach eprof to use the new breakpoints --- lib/tools/src/eprof.erl | 696 +++++++++++++++++++++++------------------------- 1 file changed, 328 insertions(+), 368 deletions(-) (limited to 'lib/tools') diff --git a/lib/tools/src/eprof.erl b/lib/tools/src/eprof.erl index b4313d6888..e14574fd59 100644 --- a/lib/tools/src/eprof.erl +++ b/lib/tools/src/eprof.erl @@ -23,456 +23,416 @@ -module(eprof). -behaviour(gen_server). --export([start/0, stop/0, dump/0, total_analyse/0, - start_profiling/1, profile/2, profile/4, profile/1, - stop_profiling/0, analyse/0, log/1]). +-export([start/0, + stop/0, + dump/0, + start_profiling/1, start_profiling/2, + profile/1, profile/2, profile/3, profile/4, profile/5, + stop_profiling/0, + analyze/0, analyze/1, analyze/2, + log/1]). %% Internal exports -export([init/1, - call/4, handle_call/3, handle_cast/2, handle_info/2, terminate/2, code_change/3]). +-record(bpd, { + n = 0, + us = 0, + p = gb_trees:empty(), + mfa = [] + }). --include_lib("stdlib/include/qlc.hrl"). +-record(state, { + profiling = false, + pattern = {'_','_','_'}, + rootset = [], + reply = undefined, + bpd = #bpd{} + }). --import(lists, [flatten/1,reverse/1,keysort/2]). --record(state, {table = notable, - proc = noproc, - profiling = false, - pfunc = undefined, - pop = running, - ptime = 0, - overhead = 0, - rootset = []}). - -%%%%%%%%%%%%%% +%% -------------------------------------------------------------------- %% +%% +%% API +%% +%% -------------------------------------------------------------------- %% -start() -> gen_server:start({local, eprof}, eprof, [], []). -stop() -> gen_server:call(eprof, stop, infinity). +start() -> gen_server:start({local, ?MODULE}, ?MODULE, [], []). +stop() -> gen_server:call(?MODULE, stop, infinity). +profile(Fun) when is_function(Fun) -> + profile([], Fun); +profile(Rs) when is_list(Rs) -> + start_profiling(Rs). profile(Pids, Fun) -> - start(), - gen_server:call(eprof, {profile,Pids,erlang,apply,[Fun,[]]},infinity). + profile(Pids, Fun, {'_','_','_'}). + +profile(Pids, Fun, Pattern) -> + profile(Pids, Pattern, erlang, apply, [Fun,[]]). profile(Pids, M, F, A) -> + profile(Pids, {'_','_','_'}, M, F, A). + +profile(Pids, Pattern, M, F, A) -> start(), - gen_server:call(eprof, {profile,Pids,M,F,A},infinity). + gen_server:call(?MODULE, {profile,Pids,Pattern, M,F,A},infinity). dump() -> - gen_server:call(eprof, dump, infinity). + gen_server:call(?MODULE, dump, infinity). -analyse() -> - gen_server:call(eprof, analyse, infinity). +analyze() -> + analyze(procs). -log(File) -> - gen_server:call(eprof, {logfile, File}, infinity). +analyze(Type) when is_atom(Type) -> + analyze(Type, []); +analyze(Opts) when is_list(Opts) -> + analyze(procs, Opts). +analyze(Type, Opts) when is_list(Opts) -> + gen_server:call(?MODULE, {analyze, Type, Opts}, infinity). -total_analyse() -> - gen_server:call(eprof, total_analyse, infinity). +log(File) -> + gen_server:call(?MODULE, {logfile, File}, infinity). start_profiling(Rootset) -> + start_profiling(Rootset, {'_','_','_'}). +start_profiling(Rootset, Pattern) -> start(), - gen_server:call(eprof, {profile, Rootset}, infinity). + gen_server:call(?MODULE, {profile, Rootset, Pattern}, infinity). stop_profiling() -> - gen_server:call(eprof, stop_profiling, infinity). + gen_server:call(?MODULE, stop_profiling, infinity). -profile(Rs) -> - start_profiling(Rs). -%%%%%%%%%%%%%%%% +%% -------------------------------------------------------------------- %% +%% +%% init +%% +%% -------------------------------------------------------------------- %% -init(_) -> +init([]) -> process_flag(trap_exit, true), - process_flag(priority, max), - put(three_one, {3,1}), %To avoid building garbage. {ok, #state{}}. -subtr({X1,Y1,Z1}, {X1,Y1,Z2}) -> - Z1 - Z2; -subtr({X1,Y1,Z1}, {X2,Y2,Z2}) -> - (((X1-X2) * 1000000) + Y1 - Y2) * 1000000 + Z1 - Z2. +%% -------------------------------------------------------------------- %% +%% +%% handle_call +%% +%% -------------------------------------------------------------------- %% + +%% analyze + +sum_bp_total_n_us(Mfas) -> + lists:foldl(fun ({_, {Ci,Usi}}, {Co, Uso}) -> {Co + Ci, Uso + Usi} end, {0,0}, Mfas). + +print_bp_mfa(Mfas, {_Tn, Tus}, Opts) -> + print(["FUNCTION", "CALLS", " %", "TIME", "uS / CALLS"]), + print(["--------", "-----", "---", "----", "----------"]), + lists:foreach(fun + ({_, {Count, Time}}) when Count =:= 0; Time < 1 -> + ok; + ({Mfa, {Count, Time}}) -> + print([s(Mfa), s(Time), s(Count), s("~.2f", [100*(Time/Tus)]), s("~.2f", [Time/Count])]), + ok + end, filter_mfa(sort_mfa(Mfas, proplists:get_value(sort, Opts)), proplists:get_value(thresholds, Opts))), + ok. -update_call_statistics(Tab, Key, Time) -> - try ets:update_counter(Tab, Key, Time) of - NewTime when is_integer(NewTime) -> - ets:update_counter(Tab, Key, get(three_one)) - catch - error:badarg -> - ets:insert(Tab, {Key,Time,1}) - end. +handle_call({analyze, _, _}, _, #state{ bpd = #bpd{ p = {0,nil}, us = 0, n = 0} = Bpd } = S) when is_record(Bpd, bpd) -> + {reply, nothing_to_analyze, S}; +handle_call({analyze, procs, Opts}, _, #state{ bpd = #bpd{ p = Ps, us = Tus} = Bpd} = S) when is_record(Bpd, bpd) -> + lists:foreach(fun + ({Pid, Mfas}) -> + {Pn, Pus} = sum_bp_total_n_us(Mfas), + io:format("~n****** Process ~w -- ~s % of profiled time *** ~n", [Pid, s("~.2f", [100.0*(Pus/Tus)])]), + print_bp_mfa(Mfas, {Pn,Pus}, Opts), + ok + end, gb_trees:to_list(Ps)), + {reply, ok, S}; -update_other_statistics(Tab, Key, Time) -> - try - ets:update_counter(Tab, Key, Time) - catch - error:badarg -> - ets:insert(Tab, {Key,Time,0}) - end. +handle_call({analyze, total, Opts}, _, #state{ bpd = #bpd{ mfa = Mfas, n = Tn, us = Tus} = Bpd} = S) when is_record(Bpd, bpd) -> + print_bp_mfa(Mfas, {Tn, Tus}, Opts), + {reply, ok, S}; -do_messages({trace_ts,From,Op,Mfa,Time}, Tab, undefined,_PrevOp0,_PrevTime0) -> - PrevFunc = [From|Mfa], - receive - {trace_ts,_,_,_,_}=Ts -> do_messages(Ts, Tab, PrevFunc, Op, Time) - after 0 -> - {PrevFunc,Op,Time} - end; -do_messages({trace_ts,From,Op,Mfa,Time}, Tab, PrevFunc0, call, PrevTime0) -> - update_call_statistics(Tab, PrevFunc0, subtr(Time, PrevTime0)), - PrevFunc = case Op of - exit -> undefined; - out -> undefined; - _ -> [From|Mfa] - end, - receive - {trace_ts,_,_,_,_}=Ts -> do_messages(Ts, Tab, PrevFunc, Op, Time) - after 0 -> - {PrevFunc,Op,Time} - end; -do_messages({trace_ts,From,Op,Mfa,Time}, Tab, PrevFunc0, _PrevOp0, PrevTime0) -> - update_other_statistics(Tab, PrevFunc0, subtr(Time, PrevTime0)), - PrevFunc = case Op of - exit -> undefined; - out -> undefined; - _ -> [From|Mfa] - end, - receive - {trace_ts,_,_,_,_}=Ts -> do_messages(Ts, Tab, PrevFunc, Op, Time) - after 0 -> - {PrevFunc,Op,Time} - end. +handle_call({analyze, Type, _Opts}, _, S) -> + {reply, {error, {undefined, Type}}, S}; -%%%%%%%%%%%%%%%%%% +%% profile -handle_cast(_Req, S) -> {noreply, S}. +handle_call({profile, _Rootset, _Pattern, _M,_F,_A}, _From, #state{ profiling = true } = S)-> + {reply, {error, already_profiling}, S}; -terminate(_Reason,_S) -> - call_trace_for_all(false), - normal. +handle_call({profile, Rootset, Pattern, M,F,A}, From, S) -> -%%%%%%%%%%%%%%%%%% + set_pattern_trace(false, S#state.pattern), + set_process_trace(false, S#state.rootset), -handle_call({logfile, F}, _FromTag, Status) -> - case file:open(F, [write]) of - {ok, Fd} -> - case get(fd) of - undefined -> ok; - FdOld -> file:close(FdOld) - end, - put(fd, Fd), - {reply, ok, Status}; - {error, _} -> - {reply, error, Status} - end; - -handle_call({profile, Rootset}, {From, _Tag}, S) -> - link(From), - maybe_delete(S#state.table), - io:format("eprof: Starting profiling ..... ~n",[]), - ptrac(S#state.rootset, false, all()), - flush_receive(), - Tab = ets:new(eprof, [set, public]), - case ptrac(Rootset, true, all()) of - false -> - {reply, error, #state{}}; + Pid = setup_profiling(M,F,A), + case set_process_trace(true, [Pid|Rootset]) of true -> - uni_schedule(), - call_trace_for_all(true), - erase(replyto), - {reply, profiling, #state{table = Tab, - proc = From, - profiling = true, - rootset = Rootset}} + set_pattern_trace(true, Pattern), + execute_profiling(Pid), + {noreply, #state{ + profiling = true, + rootset = [Pid|Rootset], + reply = From, + pattern = Pattern + }}; + false -> + exit(Pid, kill), + {reply, error, #state{}} end; -handle_call(stop_profiling, _FromTag, S) when S#state.profiling -> - ptrac(S#state.rootset, false, all()), - call_trace_for_all(false), - multi_schedule(), - io:format("eprof: Stop profiling~n",[]), - ets:delete(S#state.table, nofunc), - {reply, profiling_stopped, S#state{profiling = false}}; +handle_call({profile, Rootset, Pattern}, From, S) -> -handle_call(stop_profiling, _FromTag, S) -> - {reply, profiling_already_stopped, S}; + set_pattern_trace(false, S#state.pattern), + set_process_trace(false, S#state.rootset), -handle_call({profile, Rootset, M, F, A}, FromTag, S) -> - io:format("eprof: Starting profiling..... ~n", []), - maybe_delete(S#state.table), - ptrac(S#state.rootset, false, all()), - flush_receive(), - put(replyto, FromTag), - Tab = ets:new(eprof, [set, public]), - P = spawn_link(eprof, call, [self(), M, F, A]), - case ptrac([P|Rootset], true, all()) of + case set_process_trace(true, Rootset) of true -> - uni_schedule(), - call_trace_for_all(true), - P ! {self(),go}, - {noreply, #state{table = Tab, - profiling = true, - rootset = [P|Rootset]}}; + T0 = now(), + set_pattern_trace(true, Pattern), + {reply, profiling, #state{ + profiling = true, + rootset = Rootset, + start_ts = T0, + reply = From, + pattern = Pattern + }}; false -> - exit(P, kill), - erase(replyto), {reply, error, #state{}} end; -handle_call(dump, _FromTag, S) -> - {reply, dump(S#state.table), S}; - -handle_call(analyse, _FromTag, S) -> - {reply, analyse(S), S}; +handle_call(stop_profiling, _From, #state{ profiling = false } = S) -> + {reply, profiling_already_stopped, S}; -handle_call(total_analyse, _FromTag, S) -> - {reply, total_analyse(S), S}; +handle_call(stop_profiling, _From, #state{ profiling = true } = S) -> -handle_call(stop, _FromTag, S) -> - multi_schedule(), - {stop, normal, stopped, S}. - -%%%%%%%%%%%%%%%%%%% - -handle_info({trace_ts,_From,_Op,_Func,_Time}=M, S0) when S0#state.profiling -> - Start = erlang:now(), - #state{table=Tab,pop=PrevOp0,ptime=PrevTime0,pfunc=PrevFunc0, - overhead=Overhead0} = S0, - {PrevFunc,PrevOp,PrevTime} = do_messages(M, Tab, PrevFunc0, PrevOp0, PrevTime0), - Overhead = Overhead0 + subtr(erlang:now(), Start), - S = S0#state{overhead=Overhead,pfunc=PrevFunc,pop=PrevOp,ptime=PrevTime}, - {noreply,S}; - -handle_info({trace_ts, From, _, _, _}, S) when not S#state.profiling -> - ptrac([From], false, all()), - {noreply, S}; + set_pattern_trace(pause, S#state.pattern), -handle_info({_P, {answer, A}}, S) -> - ptrac(S#state.rootset, false, all()), - io:format("eprof: Stop profiling~n",[]), - {From,_Tag} = get(replyto), - catch unlink(From), - ets:delete(S#state.table, nofunc), - gen_server:reply(erase(replyto), {ok, A}), - multi_schedule(), - {noreply, S#state{profiling = false, - rootset = []}}; - -handle_info({'EXIT', P, Reason}, - #state{profiling=true,proc=P,table=T,rootset=RootSet}) -> - maybe_delete(T), - ptrac(RootSet, false, all()), - multi_schedule(), - io:format("eprof: Profiling failed\n",[]), - case erase(replyto) of - undefined -> - {noreply, #state{}}; - FromTag -> - gen_server:reply(FromTag, {error, Reason}), - {noreply, #state{}} - end; + Bpd = collect_bpd(), -handle_info({'EXIT',_P,_Reason}, S) -> - {noreply, S}. + set_process_trace(false, S#state.rootset), + set_pattern_trace(false, S#state.pattern), -uni_schedule() -> - erlang:system_flag(multi_scheduling, block). + {reply, profiling_stopped, S#state{ + profiling = false, + rootset = [], + pattern = {'_','_','_'}, + bpd = Bpd + }}; -multi_schedule() -> - erlang:system_flag(multi_scheduling, unblock). +handle_call(stop, _FromTag, S) -> + {stop, normal, stopped, S}; -%%%%%%%%%%%%%%%%%% +handle_call(Command, _From, State)-> + io:format("handle_call: ~p~nstate: ~p~n", [Command,State]), + {reply, Command, State}. -call(Top, M, F, A) -> - receive - {Top,go} -> - Top ! {self(), {answer, apply(M,F,A)}} - end. +%% -------------------------------------------------------------------- %% +%% +%% handle_cast +%% +%% -------------------------------------------------------------------- %% -call_trace_for_all(Flag) -> - erlang:trace_pattern(on_load, Flag, [local]), - erlang:trace_pattern({'_','_','_'}, Flag, [local]). +handle_cast(_Msg, State) -> + {noreply, State}. -ptrac([P|T], How, Flags) when is_pid(P) -> - case dotrace(P, How, Flags) of - true -> - ptrac(T, How, Flags); - false when How -> - false; - false -> - ptrac(T, How, Flags) - end; +%% -------------------------------------------------------------------- %% +%% +%% handle_info +%% +%% -------------------------------------------------------------------- %% -ptrac([P|T], How, Flags) when is_atom(P) -> - case whereis(P) of - undefined when How -> - false; - undefined when not How -> - ptrac(T, How, Flags); - Pid -> - ptrac([Pid|T], How, Flags) - end; +handle_info({trace, _Pid, _Cmd, _Type}, S) -> + {noreply, S}; +handle_info({trace, _Parent, spawn, _Pid, _Mfa}, S) -> + {noreply, S}; +handle_info({'EXIT', _, normal}, S) -> + {noreply, S}; +handle_info({'EXIT', _, Reason}, #state{ reply = FromTag } = S) -> -ptrac([H|_],_How,_Flags) -> - io:format("** eprof bad process ~w~n",[H]), - false; + set_process_trace(false, S#state.rootset), + set_pattern_trace(false, S#state.pattern), -ptrac([],_,_) -> true. + gen_server:reply(FromTag, {error, Reason}), + {noreply, S#state{ + profiling = false, + rootset = [], + pattern = {'_','_','_'} + }}; -dotrace(P, How, What) -> - case (catch erlang:trace(P, How, What)) of - 1 -> - true; - _Other when not How -> - true; - _Other -> - io:format("** eprof: bad process: ~p,~p,~p~n", [P,How,What]), - false - end. +% check if Pid is spawned process? +handle_info({_Pid, {answer, Result}}, #state{ reply = {From,_} = FromTag} = S) -> -all() -> [call,arity,return_to,running,timestamp,set_on_spawn]. - -total_analyse(#state{table=notable}) -> - nothing_to_analyse; -total_analyse(S) -> - #state{table = T, overhead = Overhead} = S, - QH = qlc:q([{{From,Mfa},Time,Count} || - {[From|Mfa],Time,Count} <- ets:table(T)]), - Pcalls = reverse(keysort(2, replicas(qlc:eval(QH)))), - Time = collect_times(Pcalls), - format("FUNCTION~44s TIME ~n", ["CALLS"]), - printit(Pcalls, Time), - format("\nTotal time: ~.2f\n", [Time / 1000000]), - format("Measurement overhead: ~.2f\n", [Overhead / 1000000]). - -analyse(#state{table=notable}) -> - nothing_to_analyse; -analyse(S) -> - #state{table = T, overhead = Overhead} = S, - Pids = ordsets:from_list(flatten(ets:match(T, {['$1'|'_'],'_', '_'}))), - Times = sum(ets:match(T, {'_','$1', '_'})), - format("FUNCTION~44s TIME ~n", ["CALLS"]), - do_pids(Pids, T, 0, Times), - format("\nTotal time: ~.2f\n", [Times / 1000000]), - format("Measurement overhead: ~.2f\n", [Overhead / 1000000]). - -do_pids([Pid|Tail], T, AckTime, Total) -> - Pcalls = - reverse(keysort(2, to_tups(ets:match(T, {[Pid|'$1'], '$2','$3'})))), - Time = collect_times(Pcalls), - PercentTotal = 100 * (divide(Time, Total)), - format("~n****** Process ~w -- ~s % of profiled time *** ~n", - [Pid, fpf(PercentTotal)]), - printit(Pcalls, Time), - do_pids(Tail, T, AckTime + Time, Total); -do_pids([], _, _, _) -> - ok. + set_pattern_trace(pause, S#state.pattern), -printit([],_) -> ok; -printit([{{Mod,Fun,Arity}, Time, Calls} |Tail], ProcTime) -> - format("~s ~s ~s % ~n", [ff(Mod,Fun,Arity), fint(Calls), - fpf(100*(divide(Time,ProcTime)))]), - printit(Tail, ProcTime); -printit([{{_,{Mod,Fun,Arity}}, Time, Calls} |Tail], ProcTime) -> - format("~s ~s ~s % ~n", [ff(Mod,Fun,Arity), fint(Calls), - fpf(100*(divide(Time,ProcTime)))]), - printit(Tail, ProcTime); -printit([_|T], Time) -> - printit(T, Time). - -ff(Mod,Fun,Arity) -> - pad(flatten(io_lib:format("~w:~w/~w", [Mod,Fun, Arity])),45). - -pad(Str, Len) -> - Strlen = length(Str), - if - Strlen > Len -> strip_tail(Str, 45); - true -> lists:append(Str, mklist(Len-Strlen)) - end. + Bpd = collect_bpd(), -strip_tail([_|_], 0) ->[]; -strip_tail([H|T], I) -> [H|strip_tail(T, I-1)]; -strip_tail([],_I) -> []. + set_process_trace(false, S#state.rootset), + set_pattern_trace(false, S#state.pattern), -fpf(F) -> strip_tail(flatten(io_lib:format("~w", [round(F)])), 5). -fint(Int) -> pad(flatten(io_lib:format("~w",[Int])), 10). + catch unlink(From), + gen_server:reply(FromTag, {ok, Result}), + {noreply, S#state{ + profiling = false, + rootset = [], + pattern = {'_','_','_'}, + bpd = Bpd + }}; + +handle_info(Info, State) -> + io:format("handle_info: ~p~nstate: ~p~n", [Info,State]), + {noreply, State}. + +%% -------------------------------------------------------------------- %% +%% +%% termination +%% +%% -------------------------------------------------------------------- %% -mklist(0) -> []; -mklist(I) -> [$ |mklist(I-1)]. +terminate(_Reason, _State) -> + set_pattern_trace(false, {'_','_','_'}), + ok. -to_tups(L) -> lists:map(fun(List) -> erlang:list_to_tuple(List) end, L). +%% -------------------------------------------------------------------- %% +%% +%% code_change +%% +%% -------------------------------------------------------------------- %% -divide(X,Y) -> X / Y. +code_change(_OldVsn, State, _Extra) -> + {ok, State}. -collect_times([]) -> 0; -collect_times([Tup|Tail]) -> element(2, Tup) + collect_times(Tail). -dump(T) -> - L = ets:tab2list(T), - format(L). +%% -------------------------------------------------------------------- %% +%% +%% AUX Functions +%% +%% -------------------------------------------------------------------- %% -format([H|T]) -> - format("~p~n", [H]), format(T); -format([]) -> ok. +setup_profiling(M,F,A) -> + spawn_link(fun() -> sprint_profile(M,F,A) end). -format(F, A) -> - io:format(F,A), - case get(fd) of - undefined -> ok; - Fd -> io:format(Fd, F,A) +sprint_profile(M, F, A) -> + receive + {Pid, execute} -> + Pid ! {self(), {answer, erlang:apply(M,F,A)}} end. -maybe_delete(T) -> - catch ets:delete(T). +execute_profiling(Pid) -> + Pid ! {self(), execute}. -sum([[H]|T]) -> H + sum(T); -sum([]) -> 0. - -replicas(L) -> - replicas(L, []). +set_pattern_trace(Flag, Pattern) -> + erlang:system_flag(multi_scheduling, block), + erlang:trace_pattern(on_load, Flag, [call_time]), + erlang:trace_pattern(Pattern, Flag, [call_time]), + erlang:system_flag(multi_scheduling, unblock), + ok. -replicas([{{Pid, {Mod,Fun,Arity}}, Ack,Calls} |Tail], Result) -> - case search({Mod,Fun,Arity},Result) of - false -> - replicas(Tail, [{{Pid, {Mod,Fun,Arity}}, Ack,Calls} |Result]); - {Ack2, Calls2} -> - Result2 = del({Mod,Fun,Arity}, Result), - replicas(Tail, [{{Pid, {Mod,Fun,Arity}}, - Ack+Ack2,Calls+Calls2} |Result2]) - end; +set_process_trace(Flag, Pids) -> + % do we need procs for meta info? + % could be useful + set_process_trace(Flag, Pids, [call, set_on_spawn]). +set_process_trace(_, [], _) -> true; +set_process_trace(Flag, [Pid|Pids], Options) when is_pid(Pid) -> + try + erlang:trace(Pid, Flag, Options) + catch + _:_ -> + false + end, + set_process_trace(Flag, Pids, Options); +set_process_trace(Flag, [Name|Pids], Options) when is_atom(Name) -> + case whereis(Name) of + undefined -> + set_process_trace(Flag, Pids, Options); + Pid -> + set_process_trace(Flag, [Pid|Pids], Options) + end. -replicas([_|T], Ack) -> %% Whimpy - replicas(T, Ack); - -replicas([], Res) -> Res. - -search(Key, [{{_,Key}, Ack, Calls}|_]) -> - {Ack, Calls}; -search(Key, [_|T]) -> - search(Key, T); -search(_Key,[]) -> false. - -del(Key, [{{_,Key},_Ack,_Calls}|T]) -> - T; -del(Key, [H | Tail]) -> - [H|del(Key, Tail)]; -del(_Key,[]) -> []. - -flush_receive() -> - receive - {trace_ts, From, _, _, _} when is_pid(From) -> - ptrac([From], false, all()), - flush_receive(); - _ -> - flush_receive() - after 0 -> - ok +collect_bpd() -> + collect_bpd([M || M <- [element(1, Mi) || Mi <- code:all_loaded()], M =/= ?MODULE]). + +collect_bpd(Ms) when is_list(Ms) -> + collect_bpdf(collect_mfas(Ms) ++ erlang:system_info(snifs)). + +collect_mfas(Ms) -> + lists:foldl(fun + (M, Mfas) -> + Mfas ++ [{M, F, A} || {F, A} <- M:module_info(functions)] + end, [], Ms). + +collect_bpdf(Mfas) -> + collect_bpdf(Mfas, #bpd{}). +collect_bpdf([], Bpd) -> + Bpd; +collect_bpdf([Mfa|Mfas], #bpd{n = N, us = Us, p = Tree, mfa = Code } = Bpd) -> + case erlang:trace_info(Mfa, call_time) of + {call_time, []} -> + collect_bpdf(Mfas, Bpd); + {call_time, Data} when is_list(Data) -> + {CTn, CTus, CTree} = collect_bpdfp(Mfa, Tree, Data), + collect_bpdf(Mfas, Bpd#bpd{ + n = CTn + N, + us = CTus + Us, + p = CTree, + mfa = [{Mfa, {CTn, CTus}}|Code] + }); + {call_time, false} -> + collect_bpdf(Mfas, Bpd); + {call_time, _Other} -> + collect_bpdf(Mfas, Bpd) end. -code_change(_OldVsn, State, _Extra) -> - {ok,State}. +collect_bpdfp(Mfa, Tree, Data) -> + lists:foldl(fun + ({Pid, Ni, Si, Usi}, {PTno, PTuso, To}) -> + Time = Si * 1000000 + Usi, + Ti1 = case gb_trees:lookup(Pid, To) of + none -> + gb_trees:enter(Pid, [{Mfa, {Ni, Time}}], To); + {value, Pmfas} -> + gb_trees:enter(Pid, [{Mfa, {Ni, Time}}|Pmfas], To) + end, + {PTno + Ni, PTuso + Time, Ti1} + end, {0,0, Tree}, Data). + +%% manipulators + +sort_mfa(Bpfs, ascending) when is_list(Bpfs) -> + lists:sort(fun + ({_,{_,A}}, {_,{_,B}}) when A > B -> true; + (_, _) -> false + end, Bpfs); +sort_mfa(Bpfs, descending) when is_list(Bpfs) -> + lists:sort(fun + ({_,{_,A}}, {_,{_,B}}) when A < B -> true; + (_, _) -> false + end, Bpfs); +sort_mfa(Bpfs, _) when is_list(Bpfs) -> sort_mfa(Bpfs, ascending). + +filter_mfa(Bpfs, Ts) when is_list(Ts) -> + filter_mfa(Bpfs, [], proplists:get_value(calls, Ts, 0), proplists:get_value(time, Ts, 0)); +filter_mfa(Bpfs, _) -> Bpfs. +filter_mfa([], Out, _, _) -> lists:reverse(Out); +filter_mfa([{_, {C, T}}=Bpf|Bpfs], Out, Ct, Tt) when C >= Ct, T >= Tt -> filter_mfa(Bpfs, [Bpf|Out], Ct, Tt); +filter_mfa([_|Bpfs], Out, Ct, Tt) -> filter_mfa(Bpfs, Out, Ct, Tt). + + +s({M,F,A}) -> s("~w:~w/~w",[M,F,A]); +s(Term) -> s("~p", [Term]). +s(Format, Terms) -> lists:flatten(io_lib:format(Format, Terms)). + +print([_,_,_] = Strings) -> + print("~.44s ~14s ~14s~n", Strings); +print([_,_,_,_] = Strings) -> + print("~.44s ~14s ~14s ~7s ~n", Strings); +print(Strings) -> + print("~.44s ~14s ~14s ~7s [~7s]~n", Strings). +print(Format, Strings) -> + io:format(Format, Strings). -- cgit v1.2.3