%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2011-2018. 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(observer_pro_wx).
-behaviour(wx_object).
-export([start_link/3]).
%% wx_object callbacks
-export([init/1, handle_info/2, terminate/2, code_change/3, handle_call/3,
handle_event/2, handle_cast/2]).
-include_lib("wx/include/wx.hrl").
-include("etop.hrl").
-include("observer_defs.hrl").
-include("etop_defs.hrl").
%% Defines
-define(COL_PID, 0).
-define(COL_NAME, ?COL_PID+1).
%%-define(COL_TIME, 2).
-define(COL_REDS, ?COL_NAME+1).
-define(COL_MEM, ?COL_REDS+1).
-define(COL_MSG, ?COL_MEM+1).
-define(COL_FUN, ?COL_MSG+1).
-define(ID_KILL, 201).
-define(ID_PROC, 202).
-define(ID_REFRESH, 203).
-define(ID_REFRESH_INTERVAL, 204).
-define(ID_DUMP_TO_FILE, 205).
-define(ID_TRACE_PIDS, 206).
-define(ID_TRACE_NAMES, 207).
-define(ID_TRACE_NEW, 208).
-define(ID_TRACE_ALL, 209).
-define(ID_ACCUMULATE, 210).
-define(ID_GARBAGE_COLLECT, 211).
-define(TRACE_PIDS_STR, "Trace selected process identifiers").
-define(TRACE_NAMES_STR, "Trace selected processes, "
"if a process have a registered name "
"processes with same name will be traced on all nodes").
%% Records
-record(sort,
{
sort_key=?COL_REDS,
sort_incr=false
}).
-record(holder, {parent,
info,
next=[],
sort=#sort{},
accum=[],
next_accum=[],
attrs,
node,
backend_pid,
old_backend=false
}).
-record(state, {parent,
grid,
panel,
popup_menu,
parent_notebook,
timer,
procinfo_menu_pids=[],
sel={[], []},
right_clicked_pid,
holder}).
start_link(Notebook, Parent, Config) ->
wx_object:start_link(?MODULE, [Notebook, Parent, Config], []).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
init([Notebook, Parent, Config]) ->
Attrs = observer_lib:create_attrs(),
Self = self(),
Acc = maps:get(acc, Config, false),
Holder = spawn_link(fun() -> init_table_holder(Self, Acc, Attrs) end),
{ProPanel, State} = setup(Notebook, Parent, Holder, Config),
{ProPanel, State#state{holder=Holder}}.
setup(Notebook, Parent, Holder, Config) ->
ProPanel = wxPanel:new(Notebook, []),
Grid = create_list_box(ProPanel, Holder),
Sizer = wxBoxSizer:new(?wxVERTICAL),
wxSizer:add(Sizer, Grid, [{flag, ?wxEXPAND bor ?wxALL},
{proportion, 1},
{border,4}]),
wxWindow:setSizer(ProPanel, Sizer),
State = #state{parent=Parent,
grid=Grid,
panel=ProPanel,
parent_notebook=Notebook,
holder=Holder,
timer=Config
},
{ProPanel, State}.
%% UI-creation
create_pro_menu(Parent, Holder) ->
MenuEntries = [{"File",
[#create_menu{id=?ID_DUMP_TO_FILE, text="Dump to file"}]},
{"View",
[#create_menu{id=?ID_ACCUMULATE, text="Accumulate",
type=check,
check=call(Holder, {get_accum, self()})},
separator,
#create_menu{id=?ID_REFRESH, text="Refresh\tCtrl-R"},
#create_menu{id=?ID_REFRESH_INTERVAL, text="Refresh Interval"}]},
{"Trace",
[#create_menu{id=?ID_TRACE_PIDS, text="Trace processes"},
#create_menu{id=?ID_TRACE_NAMES, text="Trace named processes (all nodes)"},
#create_menu{id=?ID_TRACE_NEW, text="Trace new processes"}
%% , #create_menu{id=?ID_TRACE_ALL_MENU, text="Trace all processes"}
]}
],
observer_wx:create_menus(Parent, MenuEntries).
create_list_box(Panel, Holder) ->
Style = ?wxLC_REPORT bor ?wxLC_VIRTUAL bor ?wxLC_HRULES,
ListCtrl = wxListCtrl:new(Panel, [{style, Style},
{onGetItemText,
fun(_, Row, Col) ->
safe_call(Holder, {get_row, self(), Row, Col})
end},
{onGetItemAttr,
fun(_, Item) ->
safe_call(Holder, {get_attr, self(), Item})
end}
]),
Li = wxListItem:new(),
AddListEntry = fun({Name, Align, DefSize}, Col) ->
wxListItem:setText(Li, Name),
wxListItem:setAlign(Li, Align),
wxListCtrl:insertColumn(ListCtrl, Col, Li),
wxListCtrl:setColumnWidth(ListCtrl, Col, DefSize),
Col + 1
end,
Scale = observer_wx:get_scale(),
ListItems = [{"Pid", ?wxLIST_FORMAT_CENTRE, Scale*120},
{"Name or Initial Func", ?wxLIST_FORMAT_LEFT, Scale*200},
%% {"Time", ?wxLIST_FORMAT_CENTRE, Scale*50},
{"Reds", ?wxLIST_FORMAT_RIGHT, Scale*100},
{"Memory", ?wxLIST_FORMAT_RIGHT, Scale*100},
{"MsgQ", ?wxLIST_FORMAT_RIGHT, Scale*50},
{"Current Function", ?wxLIST_FORMAT_LEFT, Scale*200}],
lists:foldl(AddListEntry, 0, ListItems),
wxListItem:destroy(Li),
wxListCtrl:setItemCount(ListCtrl, 1),
wxListCtrl:connect(ListCtrl, size, [{skip, true}]),
wxListCtrl:connect(ListCtrl, command_list_item_activated),
wxListCtrl:connect(ListCtrl, command_list_item_right_click),
wxListCtrl:connect(ListCtrl, command_list_col_click),
%% Use focused instead of selected, selected doesn't generate events
%% for all multiple selections on Linux
wxListCtrl:connect(ListCtrl, command_list_item_focused),
ListCtrl.
dump_to_file(Parent, FileName, Holder) ->
case file:open(FileName, [write]) of
{ok, Fd} ->
%% Holder closes the file when it's done
Holder ! {dump, Fd};
{error, Reason} ->
FailMsg = file:format_error(Reason),
MD = wxMessageDialog:new(Parent, FailMsg),
wxDialog:showModal(MD),
wxDialog:destroy(MD)
end.
start_procinfo(undefined, _Frame, Opened) ->
Opened;
start_procinfo(Pid, Frame, Opened) ->
case lists:keyfind(Pid, 1, Opened) of
false ->
case observer_procinfo:start(Pid, Frame, self()) of
{error, _} -> Opened;
PI -> [{Pid, PI} | Opened]
end;
{_, PI} ->
wxFrame:raise(PI),
Opened
end.
safe_call(Holder, What) ->
case call(Holder, What, 2000) of
Res when is_atom(Res) -> "";
Res -> Res
end.
call(Holder, What) ->
call(Holder, What, infinity).
call(Holder, What, TMO) ->
Ref = erlang:monitor(process, Holder),
Holder ! What,
receive
{'DOWN', Ref, _, _, _} -> holder_dead;
{Holder, Res} ->
erlang:demonitor(Ref),
Res
after TMO ->
timeout
end.
%%%%%%%%%%%%%%%%%%%%%%% Callbacks %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
handle_info({holder_updated, Count}, State0=#state{grid=Grid}) ->
State = update_selection(State0),
wxListCtrl:setItemCount(Grid, Count),
Count > 0 andalso wxListCtrl:refreshItems(Grid, 0, Count-1),
observer_wx:set_status(io_lib:format("Number of Processes: ~w", [Count])),
{noreply, State};
handle_info(refresh_interval, #state{holder=Holder}=State) ->
Holder ! refresh,
{noreply, State};
handle_info({procinfo_menu_closed, Pid},
#state{procinfo_menu_pids=Opened}=State) ->
NewPids = lists:keydelete(Pid, 1, Opened),
{noreply, State#state{procinfo_menu_pids=NewPids}};
handle_info({procinfo_open, Pid},
#state{panel=Panel, procinfo_menu_pids=Opened}=State) ->
Opened2 = start_procinfo(Pid, Panel, Opened),
{noreply, State#state{procinfo_menu_pids=Opened2}};
handle_info({active, Node},
#state{holder=Holder, timer=Timer, parent=Parent}=State) ->
create_pro_menu(Parent, Holder),
Holder ! {change_node, Node},
{noreply, State#state{timer=observer_lib:start_timer(Timer, 10)}};
handle_info(not_active, #state{timer=Timer0}=State) ->
Timer = observer_lib:stop_timer(Timer0),
{noreply, State#state{timer=Timer}};
handle_info(Info, State) ->
io:format("~p:~p, Unexpected info: ~tp~n", [?MODULE, ?LINE, Info]),
{noreply, State}.
terminate(_Reason, #state{holder=Holder}) ->
Holder ! stop,
etop:stop(),
ok.
code_change(_, _, State) ->
{ok, State}.
handle_call(get_config, _, #state{holder=Holder, timer=Timer}=State) ->
Conf = observer_lib:timer_config(Timer),
Accum = case safe_call(Holder, {get_accum, self()}) of
Bool when is_boolean(Bool) -> Bool;
_ -> false
end,
{reply, Conf#{acc=>Accum}, State};
handle_call(Msg, _From, State) ->
io:format("~p:~p: Unhandled call ~tp~n",[?MODULE, ?LINE, Msg]),
{reply, ok, State}.
handle_cast(Msg, State) ->
io:format("~p:~p: Unhandled cast ~tp~n", [?MODULE, ?LINE, Msg]),
{noreply, State}.
%%%%%%%%%%%%%%%%%%%%LOOP%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
handle_event(#wx{id=?ID_DUMP_TO_FILE}, #state{panel=Panel, holder=Holder}=State) ->
FD = wxFileDialog:new(Panel,
[{style,?wxFD_SAVE bor ?wxFD_OVERWRITE_PROMPT}]),
case wxFileDialog:showModal(FD) of
?wxID_OK ->
Path = wxFileDialog:getPath(FD),
wxDialog:destroy(FD),
dump_to_file(Panel, Path, Holder);
_ ->
wxDialog:destroy(FD)
end,
{noreply, State};
handle_event(#wx{id=?ID_ACCUMULATE,
event=#wxCommand{type=command_menu_selected, commandInt=CmdInt}},
#state{holder=Holder}=State) ->
Holder ! {accum, CmdInt =:= 1},
{noreply, State};
handle_event(#wx{id=?ID_REFRESH, event=#wxCommand{type=command_menu_selected}},
#state{holder=Holder}=State) ->
Holder ! refresh,
{noreply, State};
handle_event(#wx{id=?ID_REFRESH_INTERVAL},
#state{panel=Panel, timer=Timer0}=State) ->
Timer = observer_lib:interval_dialog(Panel, Timer0, 1, 5*60),
{noreply, State#state{timer=Timer}};
handle_event(#wx{id=?ID_KILL}, #state{right_clicked_pid=Pid, sel=Sel0}=State) ->
exit(Pid, kill),
Sel = rm_selected(Pid,Sel0),
{noreply, State#state{sel=Sel}};
handle_event(#wx{id=?ID_GARBAGE_COLLECT}, #state{sel={_, Pids}}=State) ->
_ = [rpc:call(node(Pid), erlang, garbage_collect, [Pid]) || Pid <- Pids],
{noreply, State};
handle_event(#wx{id=?ID_PROC},
#state{panel=Panel, right_clicked_pid=Pid, procinfo_menu_pids=Opened}=State) ->
Opened2 = start_procinfo(Pid, Panel, Opened),
{noreply, State#state{procinfo_menu_pids=Opened2}};
handle_event(#wx{id=?ID_TRACE_PIDS}, #state{sel={_, Pids}, panel=Panel}=State) ->
case Pids of
[] ->
observer_wx:create_txt_dialog(Panel, "No selected processes", "Tracer", ?wxICON_EXCLAMATION),
{noreply, State};
Pids ->
observer_trace_wx:add_processes(Pids),
{noreply, State}
end;
handle_event(#wx{id=?ID_TRACE_NAMES}, #state{sel={SelIds,_Pids}, holder=Holder, panel=Panel}=State) ->
case SelIds of
[] ->
observer_wx:create_txt_dialog(Panel, "No selected processes", "Tracer", ?wxICON_EXCLAMATION),
{noreply, State};
_ ->
PidsOrReg = call(Holder, {get_name_or_pid, self(), SelIds}),
observer_trace_wx:add_processes(PidsOrReg),
{noreply, State}
end;
handle_event(#wx{id=?ID_TRACE_NEW, event=#wxCommand{type=command_menu_selected}}, State) ->
observer_trace_wx:add_processes([new_processes]),
{noreply, State};
handle_event(#wx{event=#wxSize{size={W,_}}},
#state{grid=Grid}=State) ->
observer_lib:set_listctrl_col_size(Grid, W),
{noreply, State};
handle_event(#wx{event=#wxList{type=command_list_item_right_click,
itemIndex=Row}},
#state{panel=Panel, holder=Holder}=State) ->
Pid =
case call(Holder, {get_row, self(), Row, pid}) of
{error, undefined} ->
undefined;
{ok, P} ->
Menu = wxMenu:new(),
wxMenu:append(Menu, ?ID_PROC,
"Process info for " ++ pid_to_list(P)),
wxMenu:append(Menu, ?ID_TRACE_PIDS,
"Trace selected processes",
[{help, ?TRACE_PIDS_STR}]),
wxMenu:append(Menu, ?ID_TRACE_NAMES,
"Trace selected processes by name (all nodes)",
[{help, ?TRACE_NAMES_STR}]),
wxMenu:append(Menu, ?ID_GARBAGE_COLLECT, "Garbage collect processes"),
wxMenu:append(Menu, ?ID_KILL, "Kill process " ++ pid_to_list(P)),
wxWindow:popupMenu(Panel, Menu),
wxMenu:destroy(Menu),
P
end,
{noreply, State#state{right_clicked_pid=Pid}};
handle_event(#wx{event=#wxList{type=command_list_item_focused,
itemIndex=Row}},
#state{grid=Grid,holder=Holder} = State) ->
case Row >= 0 of
true ->
SelIds = [Row|lists:delete(Row, get_selected_items(Grid))],
Pids = call(Holder, {get_pids, self(), SelIds}),
{noreply, State#state{sel={SelIds, Pids}}};
false ->
{noreply, State}
end;
handle_event(#wx{event=#wxList{type=command_list_col_click, col=Col}},
#state{holder=Holder}=State) ->
Holder ! {change_sort, Col},
{noreply, State};
handle_event(#wx{event=#wxList{type=command_list_item_activated}},
#state{panel=Panel, procinfo_menu_pids=Opened,
sel={_, [Pid|_]}}=State) ->
Opened2 = start_procinfo(Pid, Panel, Opened),
{noreply, State#state{procinfo_menu_pids=Opened2}};
handle_event(Event, State) ->
io:format("~p:~p: handle event ~tp\n", [?MODULE, ?LINE, Event]),
{noreply, State}.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
update_selection(State=#state{holder=Holder, grid=Grid,
sel={SelIds0, SelPids0}}) ->
Sel = {SelIds,_SelPids} = call(Holder, {get_rows_from_pids, self(), SelPids0}),
set_focus(SelIds0, SelIds, Grid),
case SelIds =:= SelIds0 of
true -> ok;
false ->
wx:batch(fun() ->
[wxListCtrl:setItemState(Grid, I, 0, ?wxLIST_STATE_SELECTED) ||
I <- SelIds0],
[wxListCtrl:setItemState(Grid, I, 16#FFFF, ?wxLIST_STATE_SELECTED) ||
I <- SelIds]
end)
end,
%%io:format("Update ~p -> ~p~n",[{SelIds0, SelPids0}, Sel]),
State#state{sel=Sel}.
get_selected_items(Grid) ->
get_selected_items(Grid, -1, []).
get_selected_items(Grid, Index, ItemAcc) ->
Item = wxListCtrl:getNextItem(Grid, Index, [{geometry, ?wxLIST_NEXT_ALL},
{state, ?wxLIST_STATE_SELECTED}]),
case Item of
-1 ->
lists:reverse(ItemAcc);
_ ->
get_selected_items(Grid, Item, [Item | ItemAcc])
end.
set_focus([], [], _Grid) -> ok;
set_focus([Same|_], [Same|_], _Grid) -> ok;
set_focus([], [New|_], Grid) ->
wxListCtrl:setItemState(Grid, New, 16#FFFF, ?wxLIST_STATE_FOCUSED);
set_focus([Old|_], [], Grid) ->
wxListCtrl:setItemState(Grid, Old, 0, ?wxLIST_STATE_FOCUSED);
set_focus([Old|_], [New|_], Grid) ->
wxListCtrl:setItemState(Grid, Old, 0, ?wxLIST_STATE_FOCUSED),
wxListCtrl:setItemState(Grid, New, 16#FFFF, ?wxLIST_STATE_FOCUSED).
rm_selected(Pid, {Ids, Pids}) ->
rm_selected(Pid, Ids, Pids, [], []).
rm_selected(Pid, [_Id|Ids], [Pid|Pids], AccIds, AccPids) ->
{lists:reverse(AccIds)++Ids,lists:reverse(AccPids)++Pids};
rm_selected(Pid, [Id|Ids], [OtherPid|Pids], AccIds, AccPids) ->
rm_selected(Pid, Ids, Pids, [Id|AccIds], [OtherPid|AccPids]);
rm_selected(_, [], [], AccIds, AccPids) ->
{lists:reverse(AccIds), lists:reverse(AccPids)}.
%%%%%%%%%%%%%%%%%%%%%%%%%%%TABLE HOLDER%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
init_table_holder(Parent, Accum0, Attrs) ->
process_flag(trap_exit, true),
Backend = spawn_link(node(), observer_backend, procs_info, [self()]),
Accum = case Accum0 of
true -> true;
_ -> []
end,
table_holder(#holder{parent=Parent,
info=array:new(),
node=node(),
backend_pid=Backend,
attrs=Attrs,
accum=Accum
}).
table_holder(#holder{info=Info, attrs=Attrs,
node=Node, backend_pid=Backend, old_backend=Old}=S0) ->
receive
{get_row, From, Row, Col} ->
get_row(From, Row, Col, Info),
table_holder(S0);
{get_attr, From, Row} ->
get_attr(From, Row, Attrs),
table_holder(S0);
{procs_info, Backend, Procs} ->
State = handle_update(Procs, S0),
table_holder(State);
{'EXIT', Backend, normal} when Old =:= false ->
S1 = update_complete(S0),
table_holder(S1#holder{backend_pid=undefined});
{Backend, EtopInfo=#etop_info{}} ->
State = handle_update_old(EtopInfo, S0),
table_holder(State#holder{backend_pid=undefined});
refresh when is_pid(Backend)->
table_holder(S0); %% Already updating
refresh ->
Pid = case Old of
true ->
spawn_link(Node, observer_backend, etop_collect, [self()]);
false ->
spawn_link(Node, observer_backend, procs_info, [self()])
end,
table_holder(S0#holder{backend_pid=Pid});
{change_sort, Col} ->
State = change_sort(Col, S0),
table_holder(State);
{get_pids, From, Indices} ->
get_pids(From, Indices, Info),
table_holder(S0);
{get_rows_from_pids, From, Pids} ->
get_rows_from_pids(From, Pids, Info),
table_holder(S0);
{get_name_or_pid, From, Indices} ->
get_name_or_pid(From, Indices, Info),
table_holder(S0);
{get_node, From} ->
From ! {self(), Node},
table_holder(S0);
{change_node, NewNode} ->
case Node == NewNode of
true ->
table_holder(S0);
false ->
_ = rpc:call(NewNode, code, ensure_loaded, [observer_backend]),
case rpc:call(NewNode, erlang, function_exported,
[observer_backend,procs_info, 1]) of
true ->
self() ! refresh,
table_holder(S0#holder{node=NewNode, old_backend=false});
false ->
self() ! refresh,
table_holder(S0#holder{node=NewNode, old_backend=true});
_ ->
table_holder(S0)
end
end;
{accum, Bool} ->
table_holder(change_accum(Bool,S0));
{get_accum, From} ->
From ! {self(), S0#holder.accum == true},
table_holder(S0);
{dump, Fd} ->
Collector = spawn_link(Node, observer_backend, etop_collect,[self()]),
receive
{Collector, EtopInfo=#etop_info{}} ->
etop_txt:do_update(Fd, EtopInfo, #etop_info{}, #opts{node=Node}),
file:close(Fd),
table_holder(S0);
{'EXIT', Collector, _} ->
table_holder(S0)
end;
stop ->
ok;
{'EXIT', Backend, normal} ->
table_holder(S0);
{'EXIT', Backend, _Reason} ->
%% Node crashed will be noticed soon..
table_holder(S0#holder{backend_pid=undefined});
_What ->
%% io:format("~p: Table holder got ~tp~n",[?MODULE, _What]),
table_holder(S0)
end.
change_sort(Col, S0=#holder{parent=Parent, info=Data, sort=Sort0}) ->
{Sort, ProcInfo}=sort(Col, Sort0, Data),
Parent ! {holder_updated, array:size(Data)},
S0#holder{info=array:from_list(ProcInfo), sort=Sort}.
change_accum(true, S0) ->
S0#holder{accum=true};
change_accum(false, S0=#holder{info=Info}) ->
self() ! refresh,
Accum = [{Pid, Reds} || #etop_proc_info{pid=Pid, reds=Reds} <- array:to_list(Info)],
S0#holder{accum=lists:sort(Accum)}.
handle_update_old(#etop_info{procinfo=ProcInfo0},
S0=#holder{parent=Parent, sort=Sort=#sort{sort_key=KeyField}}) ->
{ProcInfo1, Accum} = accum(ProcInfo0, S0),
{_SO, ProcInfo} = sort(KeyField, Sort#sort{sort_key=undefined}, ProcInfo1),
Info = array:from_list(ProcInfo),
Parent ! {holder_updated, array:size(Info)},
S0#holder{info=Info, accum=Accum}.
handle_update(ProcInfo0, S0=#holder{next=Next, sort=#sort{sort_key=KeyField}}) ->
{ProcInfo1, Accum} = accum(ProcInfo0, S0),
Sort = sort_fun(KeyField, true),
Merge = merge_fun(KeyField),
Merged = Merge(Sort(ProcInfo1), Next),
case Accum of
true -> S0#holder{next=Merged};
_List -> S0#holder{next=Merged, next_accum=Accum}
end.
update_complete(#holder{parent=Parent, sort=#sort{sort_incr=Incr},
next=ProcInfo, accum=Accum, next_accum=NextAccum}=S0) ->
Info = case Incr of
true -> array:from_list(ProcInfo);
false -> array:from_list(lists:reverse(ProcInfo))
end,
Parent ! {holder_updated, array:size(Info)},
S0#holder{info=Info, accum= Accum =:= true orelse NextAccum,
next=[], next_accum=[]}.
accum(ProcInfo, #holder{accum=true}) ->
{ProcInfo, true};
accum(ProcInfo0, #holder{accum=Previous, next_accum=Next}) ->
Accum = [{Pid, Reds} || #etop_proc_info{pid=Pid, reds=Reds} <- ProcInfo0],
ProcInfo = lists:sort(ProcInfo0),
{accum2(ProcInfo,Previous,[]), lists:merge(lists:sort(Accum), Next)}.
accum2([PI=#etop_proc_info{pid=Pid, reds=Reds}|PIs],
[{Pid, OldReds}|Old], Acc) ->
accum2(PIs, Old, [PI#etop_proc_info{reds=Reds-OldReds}|Acc]);
accum2(PIs=[#etop_proc_info{pid=Pid}|_], [{OldPid,_}|Old], Acc)
when Pid > OldPid ->
accum2(PIs, Old, Acc);
accum2([PI|PIs], Old, Acc) ->
accum2(PIs, Old, [PI|Acc]);
accum2([], _, Acc) -> Acc.
sort(Col, Opt, Table)
when not is_list(Table) ->
sort(Col,Opt,array:to_list(Table));
sort(Col, Opt=#sort{sort_key=Col, sort_incr=Bool}, Table) ->
{Opt#sort{sort_incr=not Bool},lists:reverse(Table)};
sort(Col, S=#sort{sort_incr=Incr}, Table) ->
Sort = sort_fun(Col, Incr),
{S#sort{sort_key=Col}, Sort(Table)}.
sort_fun(?COL_NAME, true) ->
fun(Table) -> lists:sort(fun sort_name/2, Table) end;
sort_fun(?COL_NAME, false) ->
fun(Table) -> lists:sort(fun sort_name_rev/2, Table) end;
sort_fun(Col, true) ->
N = col_to_element(Col),
fun(Table) -> lists:keysort(N, Table) end;
sort_fun(Col, false) ->
N = col_to_element(Col),
fun(Table) -> lists:reverse(lists:keysort(N, Table)) end.
merge_fun(?COL_NAME) ->
fun(A,B) -> lists:merge(fun sort_name/2, A, B) end;
merge_fun(Col) ->
KeyField = col_to_element(Col),
fun(A,B) -> lists:keymerge(KeyField, A, B) end.
sort_name(#etop_proc_info{name={_,_,_}=A}, #etop_proc_info{name={_,_,_}=B}) ->
A =< B;
sort_name(#etop_proc_info{name=A}, #etop_proc_info{name=B})
when is_atom(A), is_atom(B) ->
A =< B;
sort_name(#etop_proc_info{name=Reg}, #etop_proc_info{name={M,_F,_A}})
when is_atom(Reg) ->
Reg < M;
sort_name(#etop_proc_info{name={M,_,_}}, #etop_proc_info{name=Reg})
when is_atom(Reg) ->
M < Reg.
sort_name_rev(#etop_proc_info{name={_,_,_}=A}, #etop_proc_info{name={_,_,_}=B}) ->
A >= B;
sort_name_rev(#etop_proc_info{name=A}, #etop_proc_info{name=B})
when is_atom(A), is_atom(B) ->
A >= B;
sort_name_rev(#etop_proc_info{name=Reg}, #etop_proc_info{name={M,_F,_A}})
when is_atom(Reg) ->
Reg >= M;
sort_name_rev(#etop_proc_info{name={M,_,_}}, #etop_proc_info{name=Reg})
when is_atom(Reg) ->
M >= Reg.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
get_procinfo_data(Col, Info) ->
element(col_to_element(Col), Info).
col_to_element(?COL_PID) -> #etop_proc_info.pid;
col_to_element(?COL_NAME) -> #etop_proc_info.name;
col_to_element(?COL_MEM) -> #etop_proc_info.mem;
%%col_to_element(?COL_TIME) -> #etop_proc_info.runtime;
col_to_element(?COL_REDS) -> #etop_proc_info.reds;
col_to_element(?COL_FUN) -> #etop_proc_info.cf;
col_to_element(?COL_MSG) -> #etop_proc_info.mq.
get_pids(From, Indices, ProcInfo) ->
Processes = [(array:get(I, ProcInfo))#etop_proc_info.pid || I <- Indices],
From ! {self(), Processes}.
get_name_or_pid(From, Indices, ProcInfo) ->
Get = fun(#etop_proc_info{name=Name}) when is_atom(Name) -> Name;
(#etop_proc_info{pid=Pid}) -> Pid
end,
Processes = [Get(array:get(I, ProcInfo)) || I <- Indices],
From ! {self(), Processes}.
get_row(From, Row, pid, Info) ->
Pid = case Row =:= -1 of
true -> {error, undefined};
false -> {ok, get_procinfo_data(?COL_PID, array:get(Row, Info))}
end,
From ! {self(), Pid};
get_row(From, Row, Col, Info) ->
Data = case Row >= array:size(Info) of
true ->
"";
false ->
ProcInfo = array:get(Row, Info),
get_procinfo_data(Col, ProcInfo)
end,
From ! {self(), observer_lib:to_str(Data)}.
get_rows_from_pids(From, Pids0, Info) ->
Search = fun(Idx, #etop_proc_info{pid=Pid}, Acc0={Pick0, {Idxs, Pids}}) ->
case ordsets:is_element(Pid, Pick0) of
true ->
Acc = {[Idx|Idxs],[Pid|Pids]},
Pick = ordsets:del_element(Pid, Pick0),
case Pick =:= [] of
true -> throw(Acc);
false -> {Pick, Acc}
end;
false -> Acc0
end
end,
Res = try
{_, R} = array:foldl(Search, {ordsets:from_list(Pids0), {[],[]}}, Info),
R
catch R0 -> R0
end,
From ! {self(), Res}.
get_attr(From, Row, Attrs) ->
Attribute = case Row rem 2 =:= 0 of
true -> Attrs#attrs.even;
false -> Attrs#attrs.odd
end,
From ! {self(), Attribute}.