%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2012-2018. 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_perf_wx).
-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_sync_event/3, handle_cast/2]).
%% Drawing wrappers for DC and GC areas
-export([make_win/4, setup_graph_drawing/1,
refresh_panel/4, precalc/4, add_data/5, interval_dialog/2,
haveGC/0, make_gc/2, destroy_gc/1,
setPen/2, setFont/3, setBrush/2,
strokeLine/5, strokeLines/2, drawRoundedRectangle/6,
drawText/4, getTextExtent/2]).
-behaviour(wx_object).
-include_lib("wx/include/wx.hrl").
-include("observer_defs.hrl").
-define(ID_REFRESH_INTERVAL, 102).
-define(BW, 5).
-define(BH, 5).
-record(state,
{
time = #ti{},
active = false,
parent,
samples, %% Orig data store
wins=[], %% per window content
panel,
paint,
appmon
}).
-define(wxGC, wxGraphicsContext).
-record(paint, {font, small, pen, pen2, pens, dot_pens, usegc = false}).
start_link(Notebook, Parent, Config) ->
wx_object:start_link(?MODULE, [Notebook, Parent, Config], []).
init([Notebook, Parent, Config]) ->
try
Panel = wxPanel:new(Notebook),
Main = wxBoxSizer:new(?wxVERTICAL),
MemIO = wxBoxSizer:new(?wxHORIZONTAL),
CPU = make_win(runq, Panel, Main, ?wxALL),
MEM = make_win(memory, Panel, MemIO, ?wxLEFT),
IO = make_win(io, Panel, MemIO, ?wxLEFT bor ?wxRIGHT),
wxSizer:add(Main, MemIO, [{flag, ?wxEXPAND bor ?wxDOWN},
{proportion, 1}, {border, 5}]),
wxWindow:setSizer(Panel, Main),
Windows = [CPU, MEM, IO],
PaintInfo = setup_graph_drawing(Windows),
process_flag(trap_exit, true),
State0 = #state{parent=Parent,
panel =Panel,
wins = Windows,
paint=PaintInfo,
samples=reset_data(),
time=#ti{fetch=maps:get(fetch, Config, ?FETCH_DATA),
secs=maps:get(secs, Config, ?DISP_SECONDS)}
},
{Panel, State0}
catch _:Err:Stacktrace ->
io:format("~p crashed ~tp: ~tp~n",[?MODULE, Err, Stacktrace]),
{stop, Err}
end.
make_win(Name, Parent, Sizer, Border) ->
Style = ?wxFULL_REPAINT_ON_RESIZE bor ?wxCLIP_CHILDREN,
Panel = wxPanel:new(Parent, [{style,Style}]),
Opts = [{flag, ?wxEXPAND bor Border}, {proportion, 1}, {border, 5}],
wxSizer:add(Sizer, Panel, Opts),
#win{name=Name, panel=Panel}.
setup_graph_drawing(Panels) ->
IsWindows = element(1, os:type()) =:= win32,
IgnoreCB = {callback, fun(_,_) -> ok end},
Do = fun(#win{panel=Panel}) ->
wxWindow:setBackgroundStyle(Panel, ?wxBG_STYLE_SYSTEM),
wxPanel:connect(Panel, paint, [callback]),
IsWindows andalso
wxPanel:connect(Panel, erase_background, [IgnoreCB])
end,
_ = [Do(Panel) || Panel <- Panels],
UseGC = haveGC(),
Version28 = ?wxMAJOR_VERSION =:= 2 andalso ?wxMINOR_VERSION =:= 8,
{Font, SmallFont}
= if UseGC, Version28 ->
%% Def font is really small when using Graphics contexts in 2.8
%% Hardcode it
F = wxFont:new(12,?wxFONTFAMILY_DECORATIVE,?wxFONTSTYLE_NORMAL,?wxFONTWEIGHT_BOLD),
SF = wxFont:new(10, ?wxFONTFAMILY_DECORATIVE, ?wxFONTSTYLE_NORMAL, ?wxFONTWEIGHT_NORMAL),
{F, SF};
true ->
DefFont = wxSystemSettings:getFont(?wxSYS_DEFAULT_GUI_FONT),
DefSize = wxFont:getPointSize(DefFont),
DefFamily = wxFont:getFamily(DefFont),
F = wxFont:new(DefSize-1, DefFamily, ?wxFONTSTYLE_NORMAL, ?wxFONTWEIGHT_BOLD),
SF = wxFont:new(DefSize-2, DefFamily, ?wxFONTSTYLE_NORMAL, ?wxFONTWEIGHT_NORMAL),
{F, SF}
end,
BlackPen = wxPen:new({0,0,0}, [{width, 1}]),
Pens = [wxPen:new(Col, [{width, 1}, {style, ?wxSOLID}])
|| Col <- tuple_to_list(colors())],
DotPens = [wxPen:new(Col, [{width, 1}, {style, ?wxDOT}])
|| Col <- tuple_to_list(colors())],
#paint{usegc = UseGC,
font = Font,
small = SmallFont,
pen = ?wxGREY_PEN,
pen2 = BlackPen,
pens = list_to_tuple(Pens),
dot_pens = list_to_tuple(DotPens)
}.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
handle_event(#wx{id=?ID_REFRESH_INTERVAL, event=#wxCommand{type=command_menu_selected}},
#state{panel=Panel, appmon=Old, wins=Wins0, time=#ti{fetch=F0} = Ti0} = State) ->
case interval_dialog(Panel, Ti0) of
Ti0 -> {noreply, State};
#ti{fetch=F0} = Ti -> %% Same fetch interval force refresh
Wins = [W#win{max=undefined} || W <- Wins0],
{noreply, precalc(State#state{time=Ti, wins=Wins})};
Ti when Old =:= undefined ->
{noreply, State#state{time=Ti}};
Ti -> %% Changed fetch interval, drop all data
{noreply, restart_fetcher(node(Old), State#state{time=Ti})}
end;
handle_event(#wx{event=#wxCommand{type=command_menu_selected}},
State = #state{}) ->
{noreply, State};
handle_event(Event, _State) ->
error({unhandled_event, Event}).
%%%%%%%%%%
handle_sync_event(#wx{obj=Panel, event = #wxPaint{}},_,
#state{active=Active, time=Ti, paint=Paint, wins=Windows}) ->
%% Sigh workaround bug on MacOSX (Id in paint event is always 0)
%% Panel = element(Id, Windows),
Win = lists:keyfind(Panel, #win.panel, Windows),
refresh_panel(Active, Win, Ti, Paint),
ok.
refresh_panel(Active, #win{name=_Id, panel=Panel}=Win, Ti, #paint{usegc=UseGC}=Paint) ->
%% PaintDC must be created in a callback to work on windows.
%% Nothing is drawn until wxPaintDC is destroyed.
GC = make_gc(Panel, UseGC),
if Active -> draw_win(GC, Win, Ti, Paint);
true -> ignore
end,
destroy_gc(GC).
%%%%%%%%%%
handle_call(get_config, _, #state{time=Ti}=State) ->
#ti{fetch=Fetch, secs=Range} = Ti,
{reply, #{fetch=>Fetch, secs=>Range}, State};
handle_call(Event, From, _State) ->
error({unhandled_call, Event, From}).
handle_cast(Event, _State) ->
error({unhandled_cast, Event}).
%%%%%%%%%%
handle_info({stats, 1, _, _, _} = Stats,
#state{panel=Panel, samples=Data, active=Active, wins=Wins0,
appmon=Node, time=#ti{tick=Tick, disp=Disp0}=Ti} = State0) ->
if Active ->
Disp = trunc(Disp0),
Next = max(Tick - Disp, 0),
erlang:send_after(1000 div ?DISP_FREQ, self(), {refresh, Next}),
{Wins, Samples} = add_data(Stats, Data, Wins0, Ti, Active, Node),
State = precalc(State0#state{time=Ti#ti{tick=Next}, wins=Wins, samples=Samples}),
wxWindow:refresh(Panel),
{noreply, State};
true ->
{Wins1, Samples} = add_data(Stats, Data, Wins0, Ti, Active, Node),
Wins = [W#win{max=undefined} || W <- Wins1],
{noreply, State0#state{samples=Samples, wins=Wins, time=Ti#ti{tick=0}}}
end;
handle_info({refresh, Seq}, #state{panel=Panel, time=#ti{tick=Seq, disp=DispF}=Ti} = State0)
when (Seq+1) < (DispF*1.5) ->
Next = Seq+1,
erlang:send_after(1000 div ?DISP_FREQ, self(), {refresh, Next}),
State = precalc(State0#state{time=Ti#ti{tick=Next}}),
catch wxWindow:refresh(Panel),
{noreply, State};
handle_info({refresh, _}, State) ->
{noreply, State};
handle_info({active, Node}, #state{parent=Parent, panel=Panel, appmon=Old} = State) ->
create_menus(Parent, []),
try
Node = node(Old),
wxWindow:refresh(Panel),
erlang:send_after(1000 div ?DISP_FREQ, self(), {refresh, 0}),
{noreply, State#state{active=true}}
catch _:_ ->
{noreply,restart_fetcher(Node, State)}
end;
handle_info(not_active, State = #state{appmon=_Pid}) ->
%% Pid ! exit,
{noreply, State#state{active=false}};
handle_info({'EXIT', Old, _}, State = #state{appmon=Old}) ->
{noreply, State#state{active=false, appmon=undefined}};
handle_info(_Event, State) ->
%% io:format("~p:~p: ~tp~n",[?MODULE,?LINE,_Event]),
{noreply, State}.
%%%%%%%%%%
terminate(_Event, #state{appmon=Pid}) ->
catch Pid ! exit,
ok.
code_change(_, _, State) ->
State.
restart_fetcher(Node, #state{appmon=Old, panel=Panel, time=#ti{fetch=Freq}=Ti, wins=Wins0}=State) ->
catch Old ! exit,
Me = self(),
Pid = spawn_link(Node, observer_backend, fetch_stats, [Me, round(1000/Freq)]),
wxWindow:refresh(Panel),
Wins = [W#win{state=undefined} || W <- Wins0],
precalc(State#state{active=true, appmon=Pid, samples=reset_data(),
wins=Wins, time=Ti#ti{tick=0}}).
reset_data() ->
{0, queue:new()}.
add_data(Stats, Q, Wins, Ti, Active) ->
add_data(Stats, Q, Wins, Ti, Active, ignore).
add_data(Stats, {N, Q0}, Wins, #ti{fetch=Fetch, secs=Secs}, Active, Node)
when N > (Secs*Fetch+1) ->
{{value, Drop}, Q} = queue:out(Q0),
add_data_1(Wins, Stats, N, {Drop,Q}, Active, Node);
add_data(Stats, {N, Q}, Wins, _, Active, Node) ->
add_data_1(Wins, Stats, N+1, {empty, Q}, Active, Node).
add_data_1([#win{state={_,St}}|_]=Wins0, Last, N, {Drop, Q}, Active, Node)
when St /= undefined ->
try
{Wins, Stat} =
lists:mapfoldl(fun(Win0, Entry) ->
{Win1,Stat} = add_data_2(Win0, Last, Entry),
case Active of
true ->
Win = add_data_3(Win1, N, Drop, Stat, Q),
{Win, Stat};
false ->
{Win1, Stat}
end
end, #{}, Wins0),
{Wins, {N,queue:in(Stat#{}, Q)}}
catch no_scheduler_change ->
{[Win#win{state=init_data(Id, Last), info=info(Id, Last, Node)}
|| #win{name=Id}=Win <- Wins0], {0,queue:new()}}
end;
add_data_1(Wins, Stats, 1, {_, Q}, _, Node) ->
{[Win#win{state=init_data(Id, Stats), info=info(Id, Stats, Node)}
|| #win{name=Id}=Win <- Wins], {0,Q}}.
add_data_2(#win{name=Id, state=S0}=Win, Stats, Map) ->
{V1, S1} = collect_data(Id, Stats, S0),
{Win#win{state=S1}, Map#{Id=>V1}}.
add_data_3(#win{name=Id, max={{OldMax, OldEntry},_,_,_},
geom=#{scale:={WS,HS}}, state={Max,_},
graphs=Graphs}=Win,
N, Drop0, Last, Q1)
when N > 3 ->
Drop = case Drop0 of
#{Id:=D} -> D;
_ -> Drop0
end,
case {max_value(Max), Drop =:= OldEntry} of
{OldMax, false} ->
#{Id:=V4} = Last,
{{value, #{Id:=V3}},Q2} = queue:out_r(Q1),
{{value, #{Id:=V2}},Q3} = queue:out_r(Q2),
{{value, #{Id:=V1}},_} = queue:out_r(Q3),
Vals = [V1,V2,V3,V4],
Gs = tuple_size(V1),
Info = lists:zip(lists:seq(Gs, 1, -1), Graphs),
Lines = [add_lines(Vals, Drop, Prev, I, WS, HS) || {I, Prev} <- Info],
Win#win{graphs=Lines, no_samples=N};
_W -> %% Max changed Trigger complete recalc
Win#win{max=undefined}
end;
add_data_3(Win, _, _, _,_) ->
%% Trigger complete recalc
Win#win{max=undefined}.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
create_menus(Parent, _) ->
View = {"View", [#create_menu{id = ?ID_REFRESH_INTERVAL, text = "Graph Settings"}]},
observer_wx:create_menus(Parent, [{"File", []}, View]).
interval_dialog(Parent0, #ti{fetch=Fetch0, secs=Secs0}=Ti) ->
Parent = observer_lib:get_wx_parent(Parent0),
Dialog = wxDialog:new(Parent, ?wxID_ANY, "Load Chart Settings",
[{style, ?wxDEFAULT_DIALOG_STYLE bor
?wxRESIZE_BORDER}]),
{Sl1,FetchSl} = slider(Dialog, "Sample (ms)", trunc(1000 / Fetch0), 100, 10000),
{Sl2, SecsSl} = slider(Dialog, "Length (min)", Secs0 div 60, 1, 10),
TopSizer = wxBoxSizer:new(?wxVERTICAL),
Flags = [{flag, ?wxEXPAND bor ?wxTOP bor ?wxLEFT bor ?wxRIGHT},
{border, 5}, {proportion, 1}],
wxSizer:add(TopSizer, Sl1, Flags),
wxSizer:add(TopSizer, Sl2, Flags),
wxSizer:add(TopSizer, wxDialog:createButtonSizer(Dialog, ?wxOK bor ?wxCANCEL), Flags),
wxWindow:setSizerAndFit(Dialog, TopSizer),
wxSizer:setSizeHints(TopSizer, Dialog),
Res = case wxDialog:showModal(Dialog) of
?wxID_OK ->
Fetch = 1000 / wxSlider:getValue(FetchSl),
Secs = wxSlider:getValue(SecsSl) * 60,
Ti#ti{fetch=Fetch, secs=Secs, disp=?DISP_FREQ/Fetch};
?wxID_CANCEL ->
Ti
end,
wxDialog:destroy(Dialog),
Res.
slider(Parent, Str, Value, Min, Max) ->
Sz = wxBoxSizer:new(?wxHORIZONTAL),
Center = [{flag, ?wxALIGN_CENTER_VERTICAL}],
wxSizer:add(Sz, wxStaticText:new(Parent, ?wxID_ANY, Str), [{proportion, 1}|Center]),
Opt = [{style, ?wxSL_HORIZONTAL bor ?wxSL_LABELS}],
Slider = wxSlider:new(Parent, ?wxID_ANY, Value, Min, Max, Opt),
wxSizer:add(Sz, Slider, [{proportion, 2}|Center]),
case Min > 1 of
false ->
{Sz, Slider};
true ->
CB = fun(#wx{event=Ev},_) -> step(Ev, Slider, Min) end,
wxSlider:connect(Slider, scroll_thumbtrack, [{callback, CB}]),
wxSlider:connect(Slider, scroll_changed, [{callback, CB}]),
{Sz, Slider}
end.
step(_Ev = #wxScroll{commandInt=Value}, Slider, Min) ->
Val = Min * round(Value / Min),
wxSlider:setValue(Slider, Val),
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
mk_max() -> {0, undefined}.
max_value({Max,_}) -> Max.
%% max_data({_,Data}) -> Data. matched in function head
lmax(MState, Tuple, Tuple) when is_tuple(Tuple) ->
lmax(MState, tuple_to_list(Tuple), Tuple);
lmax(MState, Values, State) ->
Max = max_value(MState),
New = lists:max([Max|Values]),
case New >= Max of
false -> MState;
true -> {New, State}
end.
init_data(runq, {stats, _, T0, _, _}) -> {mk_max(),lists:sort(T0)};
init_data(io, {stats, _, _, {{_,In0}, {_,Out0}}, _}) -> {mk_max(), {In0,Out0}};
init_data(memory, _) -> {mk_max(), info(memory, undefined, undefined)};
init_data(alloc, _) -> {mk_max(), unused};
init_data(utilz, _) -> {mk_max(), unused}.
info(runq, {stats, _, T0, _, _}, Node) ->
Dirty = get_dirty_cpu(Node),
{lists:seq(1, length(T0)-Dirty), Dirty};
info(memory, _, _) -> [total, processes, atom, binary, code, ets];
info(io, _, _) -> [input, output];
info(alloc, First, _) -> [Type || {Type, _, _} <- First];
info(utilz, First, _) -> [Type || {Type, _, _} <- First];
info(_, [], _) -> [].
get_dirty_cpu(Node) ->
case rpc:call(node(Node), erlang, system_info, [dirty_cpu_schedulers]) of
{badrpc,_R} -> 0;
N -> N
end.
collect_data(runq, {stats, _, T0, _, _}, {Max,S0}) ->
S1 = lists:sort(T0),
Delta = calc_delta(S1, S0),
Sample = list_to_tuple(Delta),
{Sample, {lmax(Max,Delta,Sample), S1}};
collect_data(io, {stats, _, _, {{_,In0}, {_,Out0}}, _}, {Max,{PIn,POut}}) ->
In = In0-PIn,
Out = Out0-POut,
Sample = {In, Out},
{Sample, {lmax(Max, [In,Out], Sample), {In0, Out0}}};
collect_data(memory, {stats, _, _, _, MemInfo}, {Max, MemTypes}) ->
Vs = [Value || {Type,Value} <- MemInfo, lists:member(Type, MemTypes)],
Sample = list_to_tuple(Vs),
{Sample, {lmax(Max, Vs, Sample),MemTypes}};
collect_data(alloc, MemInfo, Max) ->
Vs = [Carrier || {_Type,_Block,Carrier} <- MemInfo],
Sample = list_to_tuple(Vs),
{Sample, {lmax(Max, Vs, Sample),unused}};
collect_data(utilz, MemInfo, Max) ->
Vs = [round(100*Block/Carrier) || {_Type,Block,Carrier} <- MemInfo],
Sample = list_to_tuple(Vs),
{Sample, {lmax(Max,Vs,Sample),unused}}.
calc_delta([{Id, WN, TN}|Ss], [{Id, WP, TP}|Ps]) ->
[100*(WN-WP) div (TN-TP)|calc_delta(Ss, Ps)];
calc_delta([], []) -> [];
calc_delta(_, _) -> throw(no_scheduler_change).
precalc(#state{samples=Data0, paint=Paint, time=Ti, wins=Wins0}=State) ->
Wins = [precalc(Ti, Data0, Paint, Win) || Win <- Wins0],
State#state{wins=Wins}.
precalc(Ti, {NoSamples,Q}, Paint, #win{name=Id, panel=Panel}=Win) ->
Size = wxWindow:getClientSize(Panel),
case Win of
#win{max=Max, no_samples=NoSamples, size=Size} when is_tuple(Max) ->
Win;
_SomeThingChanged ->
Hs = [Vals || #{Id:=Vals} <- queue:to_list(Q)],
Max = lists:foldl(fun(Vals,Max) -> lmax(Max, Vals, Vals) end,
mk_max(), Hs),
MaxDisp = calc_max(Id, Max),
#{scale:={WS,HS}} = Props = window_geom(Size, MaxDisp, Ti, Panel, Paint),
NoGraphs = try tuple_size(hd(Hs)) catch _:_ -> 0 end,
Graphs = [make_lines(Hs, I, WS, HS) || I <- lists:seq(NoGraphs, 1, -1)],
State = case Win#win.state of
undefined -> {Max, undefined};
{_, St} -> {Max, St}
end,
Win#win{geom=Props, size=Size,
max=MaxDisp,
graphs=Graphs,
no_samples=NoSamples,
state=State}
end.
window_geom({W,H}, {_, Max, _Unit, MaxUnit},
#ti{secs=Secs, fetch=FetchFreq},
Panel, #paint{font=Font}) ->
Str1 = observer_lib:to_str(MaxUnit),
Str2 = observer_lib:to_str(MaxUnit div 2),
Str3 = observer_lib:to_str(0),
{TW,TH,_,_} = wxWindow:getTextExtent(Panel, Str1, [{theFont, Font}]),
{SpaceW, _,_,_} = wxWindow:getTextExtent(Panel, "W", [{theFont, Font}]),
X0 = ?BW+TW+?BW,
X1 = W-?BW*4,
MaxTextY = TH+?BH,
BottomTextY = H-?BH-TH,
Y0 = MaxTextY + (TH / 2),
Y1 = BottomTextY - TH - ?BH,
ScaleW = (X1-X0-1)/(Secs*FetchFreq),
ScaleH = (Y1-Y0-1) / Max,
#{p0=>{X0,Y0}, p1=>{X1,Y1}, scale=>{ScaleW, ScaleH},
txsz=>{TW,TH,SpaceW}, txt=>{BottomTextY, MaxTextY}, strs=>{Str1,Str2,Str3}}.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
draw_win(DC, #win{name=Name, no_samples=Samples, geom=#{scale:={WS,HS}},
graphs=Graphs, max={_,Max,_,_}, info=Info}=Win,
#ti{tick=Tick, fetch=FetchFreq, secs=Secs, disp=DispFreq}=Ti,
Paint=#paint{pens=Pens, dot_pens=Dots}) when Samples >= 2, Graphs =/= [] ->
%% Draw graphs
{X0,Y0,DrawBs} = draw_borders(DC, Ti, Win, Paint),
Offset = Tick / DispFreq,
Full = case Samples > (1+Secs*FetchFreq) of
true -> 1;
false -> 2
end,
Start = X0 + (max(Secs*FetchFreq+Full-Samples, 0) - Offset)*WS,
Last = Secs*FetchFreq*WS+X0,
Dirty = case {Name, Info} of
{runq, {_, DCpu}} -> DCpu;
_ -> 0
end,
NoGraphs = length(Graphs),
NoCpu = NoGraphs - Dirty,
Draw = fun(Lines0, N) ->
case Dirty > 0 andalso N > NoCpu of
true -> setPen(DC, element(1+ ((N-NoCpu-1) rem tuple_size(Dots)), Dots));
false -> setPen(DC, element(1+ ((N-1) rem tuple_size(Pens)), Pens))
end,
Order = lists:reverse(Lines0),
[{_,Y}|Lines] = translate(Order, {Start, Y0}, 0, WS, {X0,Max*HS,Last}, []),
strokeLines(DC, [{Last,Y}|Lines]),
N-1
end,
lists:foldl(Draw, NoGraphs, Graphs),
DrawBs(),
ok;
draw_win(DC, #win{no_samples=Samples} = Win,Ti, #paint{small=Small}=Paint) ->
%% Draw Error Msg
try draw_borders(DC, Ti, Win, Paint) of
{X0,_Y0,DrawBs} ->
Text = case Samples =< 1 of
true -> "Waiting for data";
false -> "Information not available"
end,
setFont(DC, Small, {0,0,0}),
{_,WW} = getSize(DC),
drawText(DC, Text, X0 + 100, WW div 2),
DrawBs(),
ok
catch _:_ -> %% Early redraws fail
ok
end.
translate([{X0,Y}|Rest], {Sx,Sy}=Start, N, WS, {Cx,Cy,Cw}=Clip, Acc) ->
X = min((N-X0)*WS+Sx,Cw),
Next = if X0 > 0 -> N; true -> N+1 end,
case X =< Cx of
true ->
translate(Rest, Start, Next, WS, Clip, [{Cx,Sy-min(Cy,Y)}]);
false ->
translate(Rest, Start, Next, WS, Clip, [{X,Sy-min(Cy,Y)}|Acc])
end;
translate([], _, _, _, _, Acc) ->
Acc.
add_lines(Vals, Drop, OldLines, I, WS, HS) ->
Lines = strip(OldLines, Drop, 2),
New = make_lines(Vals, I, WS, HS),
New ++ Lines.
strip([{X,_}|Rest], Drop, N) when X > 0.0001, N > 0 ->
strip(Rest, Drop, N);
strip([_|Rest], Drop, N) when N > 0 ->
strip(Rest, Drop, N-1);
strip(List, empty, _) -> List;
strip(List, _, _) ->
lists:reverse(strip(lists:reverse(List), empty, 1)).
make_lines(Ds = [Data|_], N, WS, HS) ->
Y = element(N,Data),
make_lines(Ds, N, WS, HS, Y, []).
make_lines([D1 | Ds = [D2|Rest]], N, WS, HS, Y0, Acc0) ->
Y1 = element(N,D1),
Y2 = element(N,D2),
Y3 = case Rest of
[D3|_] -> element(N,D3);
[] -> Y2
end,
This = {0, Y1*HS},
Acc = if (abs(Y1-Y2) * HS) < 3.0 -> [This|Acc0];
WS < 3.0 -> [This|Acc0];
true -> make_splines(Y0,Y1,Y2,Y3,WS,HS,[This|Acc0])
end,
make_lines(Ds, N, WS, HS, Y1, Acc);
make_lines([_D1], _N, _WS, _HS, _Y0, Acc) ->
Acc.
make_splines(Y00,Y10,Y20,Y30,WS,HS,Acc) ->
Y1 = Y10*HS,
Y2 = Y20*HS,
Steps = min(abs(Y1-Y2), WS/2),
if Steps > 2 ->
Y0 = Y00*HS,
Y3 = Y30*HS,
Tan = spline_tan(Y0,Y1,Y2,Y3),
Delta = 1/Steps,
splines(Steps-1, 0.0, Delta, Tan, Y1,Y2, Acc);
true ->
Acc
end.
splines(N, XD, XD0, Tan, Y1,Y2, Acc) when N > 0 ->
Delta = XD+XD0,
Y = max(0, spline(Delta, Tan, Y1,Y2)),
splines(N-1, Delta, XD0, Tan, Y1, Y2, [{1.0-Delta, Y}|Acc]);
splines(_N, _XD, _XD0, _Tan, _Y1,_Y2, Acc) ->
Acc.
spline(T, {M1, M2}, Y1, Y2) ->
%% Hermite Basis Funcs
T2 = T*T, T3 = T*T*T,
H1 = 2*T3-3*T2+1,
H2 = -2*T3+3*T2,
H3 = T3-2*T2+T,
H4 = T3-T2,
%% Result
M1*H3 + Y1*H1 + Y2*H2 + M2*H4.
spline_tan(Y0, Y1, Y2, Y3) ->
S = 1.0,
C = 0.5,
%% Calc tangent values
M1 = S*C*(Y2-Y0),
M2 = S*C*(Y3-Y1),
{M1,M2}.
draw_borders(DC, #ti{secs=Secs, fetch=FetchFreq},
#win{name=Type, geom=Geom, info=Info, max={_,_,Unit,_}},
#paint{pen=Pen, pen2=Pen2, font=Font, small=Small}) ->
#{p0:={GraphX0, GraphY0}, p1:={GraphX1,GraphY1}, scale:={ScaleW0,_},
txsz:={TW,TH,SpaceW}, txt:={BottomTextY, MaxTextY}, strs:={Str1,Str2,Str3}} = Geom,
ScaleW = ScaleW0*FetchFreq,
TopTextX = ?BW*3+TW,
SecondsY = BottomTextY - TH,
GraphY25 = GraphY0 + (GraphY1 - GraphY0) / 4,
GraphY50 = GraphY0 + (GraphY1 - GraphY0) / 2,
GraphY75 = GraphY0 + 3*(GraphY1 - GraphY0) / 4,
setFont(DC, Small, {0,0,0}),
Align = fun(Str, Y) ->
{StrW, _} = getTextExtent(DC, Str),
drawText(DC, Str, GraphX0 - StrW - ?BW, Y)
end,
Align(Str1, MaxTextY),
Align(Str2, GraphY50 - (TH / 2)),
Align(Str3, GraphY1 - (TH / 2) + 1),
setPen(DC, Pen),
DrawSecs = fun(Sec, {Pos, Prev}) ->
Str = observer_lib:to_str(Sec) ++ "s",
X = GraphX0+Pos,
strokeLine(DC, X, GraphY0, X, GraphY1+5),
TxtX = X-SpaceW,
case TxtX > Prev of
true ->
drawText(DC, Str, TxtX, SecondsY),
TxtW = SpaceW*length(Str),
{Pos + 10*ScaleW, TxtX+TxtW};
false ->
{Pos + 10*ScaleW, Prev}
end
end,
lists:foldl(DrawSecs, {0, 0}, lists:seq(Secs,0, -10)),
strokeLine(DC, GraphX0-3, GraphY25, GraphX1, GraphY25),
strokeLine(DC, GraphX0-3, GraphY50, GraphX1, GraphY50),
strokeLine(DC, GraphX0-3, GraphY75, GraphX1, GraphY75),
setFont(DC, Font, {0,0,0}),
Text = fun(X,Y, Str, PenId) ->
if PenId == 0 ->
setFont(DC, Font, {0,0,0});
PenId > 0 ->
Id = 1 + ((PenId-1) rem tuple_size(colors())),
setFont(DC, Font, element(Id, colors()))
end,
drawText(DC, Str, X, Y),
{StrW, _} = getTextExtent(DC, Str),
StrW + X + ?BW*2
end,
case Type of
runq ->
{TextInfo, DirtyCpus} = Info,
drawText(DC, "Scheduler Utilization (%) ", TopTextX, ?BH),
TN0 = Text(TopTextX, BottomTextY, "Scheduler: ", 0),
Id = fun(Id, Pos0) ->
Text(Pos0, BottomTextY, integer_to_list(Id), Id)
end,
TN1 = lists:foldl(Id, TN0, TextInfo),
TN2 = Text(TN1, BottomTextY, "Dirty cpu: ", 0),
TN3 = lists:foldl(Id, TN2, lists:seq(1, DirtyCpus)),
_ = Text(TN3, BottomTextY, "(dotted)", 0),
ok;
memory ->
drawText(DC, "Memory Usage " ++ Unit, TopTextX,?BH),
lists:foldl(fun(MType, {PenId, Pos0}) ->
Str = to_string(MType),
Pos = Text(Pos0, BottomTextY, Str, PenId),
{PenId+1, Pos}
end, {1, TopTextX}, Info);
io ->
drawText(DC, "IO Usage " ++ Unit, TopTextX,?BH),
lists:foldl(fun(MType, {PenId, Pos0}) ->
Str = to_string(MType),
Pos = Text(Pos0, BottomTextY, Str, PenId),
{PenId+1, Pos}
end, {1, TopTextX}, Info);
alloc ->
drawText(DC, "Carrier Size " ++ Unit, TopTextX,?BH);
utilz ->
drawText(DC, "Carrier Utilization (%)" ++ Unit, TopTextX,?BH),
lists:foldl(fun(MType, {PenId, Pos0}) ->
Str = to_string(MType),
Pos = Text(Pos0, BottomTextY, Str, PenId),
{PenId+1, Pos}
end, {1, TopTextX}, Info)
end,
DrawBorder = fun() ->
setPen(DC, Pen2),
strokeLines(DC, [{GraphX0, GraphY0-1}, {GraphX0, GraphY1+1},
{GraphX1, GraphY1+1}, {GraphX1, GraphY0-1},
{GraphX0, GraphY0-1}])
end,
{GraphX0+1, GraphY1, DrawBorder}.
to_string(Atom) ->
Name = atom_to_list(Atom),
case lists:reverse(Name) of
"colla_" ++ Rev ->
uppercase(lists:reverse(Rev));
_ ->
uppercase(Name)
end.
uppercase([C|Rest]) ->
[C-$a+$A|Rest].
calc_max(Type, Max) ->
bytes(Type, Max).
bytes(runq, Max) ->
Upper = calc_max1(max_value(Max)),
{Max, Upper, "", Upper};
bytes(utilz, Max) ->
Upper = calc_max1(max_value(Max)),
{Max, Upper, "", Upper};
bytes(_, Max) ->
B = max_value(Max),
KB = B div 1024,
MB = KB div 1024,
GB = MB div 1024,
if
GB > 10 ->
Upper = calc_max1(GB),
{Max, Upper*1024*1024*1024, "(GB)", Upper};
MB > 10 ->
Upper = calc_max1(MB),
{Max, Upper*1024*1024, "(MB)", Upper};
KB > 0 ->
Upper = calc_max1(KB),
{Max, Upper*1024, "(KB)", Upper};
true ->
Upper = calc_max1(B),
{Max, Upper, "(B)", Upper}
end.
calc_max1(Max) when Max < 10 ->
10;
calc_max1(Max) ->
case Max div 10 of
X when X < 10 ->
case Max rem 10 of
0 -> Max;
_ ->
(X+1)*10
end;
X ->
10*calc_max1(X)
end.
colors() ->
{{240, 100, 100}, {0, 128, 0}, {25, 45, 170}, {255, 165, 0},
{220, 220, 40}, {100, 240, 240},{240, 100, 240}, {160, 40, 40},
{100, 100, 240}, {140, 140, 0}, {25, 200, 100}, {120, 25, 240},
{255, 140, 163}, {25, 120, 120}, {120, 25, 120}, {110, 90, 60}
}.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% wxDC and ?wxGC wrappers
make_gc(Panel,UseGC) ->
DC = case os:type() of
{win32, _} ->
%% Ugly hack to avoid flickering on windows, works on windows only
%% But the other platforms are doublebuffered by default
DC0 = wx:typeCast(wxBufferedPaintDC:new(Panel), wxPaintDC),
wxDC:clear(DC0),
DC0;
_ ->
wxPaintDC:new(Panel)
end,
if UseGC -> {?wxGC:create(DC), DC};
true -> {false, DC}
end.
destroy_gc({GC, DC}) ->
(GC =/= false) andalso ?wxGC:destroy(GC),
case DC =/= false andalso wx:getObjectType(DC) of
false -> ok;
Type -> Type:destroy(DC)
end.
haveGC() ->
try
wxGraphicsRenderer:getDefaultRenderer(),
true
catch _:_ -> false
end.
getSize({_, DC}) ->
wxDC:getSize(DC).
setPen({false, DC}, Pen) ->
wxDC:setPen(DC, Pen);
setPen({GC, _}, Pen) ->
?wxGC:setPen(GC, Pen).
setFont({false, DC}, Font, Color) ->
wxDC:setTextForeground(DC, Color),
wxDC:setFont(DC, Font);
setFont({GC, _}, Font, Color) ->
?wxGC:setFont(GC, Font, Color).
setBrush({false, DC}, Brush) ->
wxDC:setBrush(DC, Brush);
setBrush({GC, _}, Brush) ->
?wxGC:setBrush(GC, Brush).
strokeLine({false, DC}, X0, Y0, X1, Y1) ->
wxDC:drawLine(DC, {round(X0), round(Y0)}, {round(X1), round(Y1)});
strokeLine({GC, _}, X0, Y0, X1, Y1) ->
?wxGC:strokeLine(GC, X0, Y0, X1, Y1).
strokeLines(_, [_]) -> ok;
strokeLines({false, DC}, Lines) ->
wxDC:drawLines(DC, [{round(X), round(Y)} || {X,Y} <- Lines]);
strokeLines({GC, _}, Lines) ->
?wxGC:strokeLines(GC, Lines).
drawRoundedRectangle({false, DC}, X0, Y0, X1, Y1, R) ->
wxDC:drawRoundedRectangle(DC, {round(X0), round(Y0)}, {round(X1), round(Y1)}, round(R));
drawRoundedRectangle({GC, _}, X0, Y0, X1, Y1, R) ->
?wxGC:drawRoundedRectangle(GC, X0, Y0, X1, Y1, R).
drawText({false, DC}, Str, X, Y) ->
wxDC:drawText(DC, Str, {round(X),round(Y)});
drawText({GC, _}, Str, X, Y) ->
?wxGC:drawText(GC, Str, X, Y).
getTextExtent({false, DC}, Str) ->
wxDC:getTextExtent(DC, Str);
getTextExtent({GC, _}, Str) ->
{W,H,_,_} = ?wxGC:getTextExtent(GC, Str),
{W,H}.