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diff --git a/lib/percept/src/percept_image.erl b/lib/percept/src/percept_image.erl
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+++ b/lib/percept/src/percept_image.erl
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+%% 
+%% %CopyrightBegin%
+%% 
+%% Copyright Ericsson AB 2007-2009. 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%
+
+-module(percept_image).
+-export([	proc_lifetime/5,
+		percentage/3,
+		graph/3, 
+		graph/4, 
+		activities/3, 
+		activities/4]).
+-record(graph_area, {x = 0, y = 0, width, height}).
+-compile(inline).
+
+%%% -------------------------------------
+%%% GRAF
+%%% -------------------------------------
+
+%% graph(Widht, Height, Range, Data)
+
+graph(Width, Height, {RXmin, RYmin, RXmax, RYmax}, Data) ->
+    Data2 = [{X, Y1 + Y2} || {X, Y1, Y2} <- Data],
+    MinMax = percept_analyzer:minmax(Data2),
+    {Xmin, Ymin, Xmax, Ymax} = MinMax, 
+    graf1(Width, Height,{	lists:min([RXmin, Xmin]), 
+    				lists:min([RYmin, Ymin]),
+    				lists:max([RXmax, Xmax]), 
+				lists:max([RYmax, Ymax])}, Data).
+
+%% graph(Widht, Height, Data) = Image
+%% In:
+%%	Width = integer(),
+%%	Height = integer(),
+%%	Data = [{Time, Procs, Ports}]
+%%	Time = float()
+%%	Procs = integer()
+%%	Ports = integer()
+%% Out:
+%%	Image = binary()
+
+graph(Width, Height, Data) ->
+    Data2 = [{X, Y1 + Y2} || {X, Y1, Y2} <- Data],
+    Bounds = percept_analyzer:minmax(Data2),
+    graf1(Width, Height, Bounds, Data).
+
+graf1(Width, Height, {Xmin, Ymin, Xmax, Ymax}, Data) ->
+    % Calculate areas
+    HO = 20,
+    GrafArea   = #graph_area{x = HO, y = 4, width = Width - 2*HO, height = Height - 17},
+    XticksArea = #graph_area{x = HO, y = Height - 13, width = Width - 2*HO, height = 13},
+    YticksArea = #graph_area{x = 1,  y = 4, width = HO, height = Height - 17},
+    
+    %% Initiate Image
+
+    Image = egd:create(Width, Height),
+ 
+    %% Set colors
+    
+    Black = egd:color(Image, {0, 0, 0}),
+    ProcColor = egd:color(Image, {0, 255, 0}),
+    PortColor = egd:color(Image, {255, 0, 0}),
+    
+    %% Draw graf, xticks and yticks
+    draw_graf(Image, Data, {Black, ProcColor, PortColor}, GrafArea, {Xmin, Ymin, Xmax, Ymax}),
+    draw_xticks(Image, Black, XticksArea, {Xmin, Xmax}, Data),
+    draw_yticks(Image, Black, YticksArea, {Ymin, Ymax}),
+    
+    %% Kill image and return binaries
+    Binary = egd:render(Image, png),
+    egd:destroy(Image),
+    Binary.
+
+%% draw_graf(Image, Data, Color, GraphArea, DataBounds)
+%% Image, port to Image
+%% Data, list of three tuple data, (X, Y1, Y2)
+%% Color, {ForegroundColor, ProcFillColor, PortFillColor}
+%% DataBounds, {Xmin, Ymin, Xmax, Ymax}
+
+draw_graf(Im, Data, Colors, GA = #graph_area{x = X0, y = Y0, width = Width, height = Height}, {Xmin, _Ymin, Xmax, Ymax}) ->
+    Dx = (Width)/(Xmax - Xmin),
+    Dy = (Height)/(Ymax),
+    Plotdata = [{trunc(X0 + X*Dx - Xmin*Dx), trunc(Y0 + Height - Y1*Dy), trunc(Y0 + Height - (Y1 + Y2)*Dy)} || {X, Y1, Y2} <- Data],
+    draw_graf(Im, Plotdata, Colors, GA).
+
+draw_graf(Im, [{X1, Yproc1, Yport1}, {X2, Yproc2, Yport2}|Data], C, GA) when X2 - X1 < 1 ->
+    draw_graf(Im, [{X1, [{Yproc2, Yport2},{Yproc1, Yport1}]}|Data], C, GA);
+
+draw_graf(Im, [{X1, Ys1}, {X2, Yproc2, Yport2}|Data], C, GA) when X2 - X1 < 1, is_list(Ys1) ->
+    draw_graf(Im, [{X1, [{Yproc2, Yport2}|Ys1]}|Data], C, GA);
+
+draw_graf(Im, [{X1, Yproc1, Yport1}, {X2, Yproc2, Yport2}|Data], C = {B, PrC, PoC}, GA = #graph_area{y = Y0, height = H})  ->
+    GyZero  = trunc(Y0 + H),
+    egd:filledRectangle(Im, {X1, GyZero}, {X2, Yproc1}, PrC),
+    egd:filledRectangle(Im, {X1, Yproc1}, {X2, Yport1}, PoC),
+    egd:line(Im, {X1, Yport1}, {X2, Yport1}, B), % top line
+    egd:line(Im, {X1, Yport2}, {X1, Yport1}, B), % right line
+    egd:line(Im, {X2, Yport1}, {X2, Yport2}, B), % right line
+    draw_graf(Im, [{X2, Yproc2, Yport2}|Data], C, GA);
+
+draw_graf(Im, [{X1, Ys1 = [{Yproc1,Yport1}|_]}, {X2, Yproc2, Yport2}|Data], C = {B, PrC, PoC}, GA = #graph_area{y = Y0, height = H})  ->
+    GyZero  = trunc(Y0 + H),
+    Yprocs = [Yp || {Yp, _} <- Ys1],
+    Yports = [Yp || {_, Yp} <- Ys1],
+
+    YprMin = lists:min(Yprocs),
+    YprMax = lists:max(Yprocs),
+    YpoMax = lists:max(Yports),
+    egd:filledRectangle(Im, {X1, GyZero}, {X2, Yproc1}, PrC),
+    egd:filledRectangle(Im, {X1, Yproc1}, {X2, Yport1}, PoC),
+    egd:filledRectangle(Im, {X1, Yport1}, {X2, Yport1}, B), % top line
+    egd:filledRectangle(Im, {X2, Yport1}, {X2, Yport2}, B), % right line
+
+    egd:filledRectangle(Im, {X1, GyZero}, {X1, YprMin}, PrC), % left proc green line
+    egd:filledRectangle(Im, {X1, YprMax}, {X1, YpoMax}, PoC), % left port line
+    egd:filledRectangle(Im, {X1, YprMax}, {X1, YprMin}, B),
+     
+    draw_graf(Im, [{X2, Yproc2, Yport2}|Data], C, GA);
+draw_graf(_, _, _, _) -> ok.
+
+draw_xticks(Image, Color, XticksArea, {Xmin, Xmax}, Data) ->
+    #graph_area{x = X0, y = Y0, width = Width} = XticksArea,
+    
+    DX = Width/(Xmax - Xmin),
+    Offset = X0 - Xmin*DX, 
+    Y = trunc(Y0),
+    Font = load_font(),
+    {FontW, _FontH} = egd_font:size(Font),
+    egd:filledRectangle(Image, {trunc(X0), Y}, {trunc(X0 + Width), Y}, Color), 
+    lists:foldl(
+    	fun ({X,_,_}, PX) ->
+	    X1 = trunc(Offset + X*DX),
+	    
+	    % Optimization:
+	    % if offset has past half the previous text
+	    % start checking this text
+	    
+	    if 
+	    	X1 > PX ->
+		    Text = lists:flatten(io_lib:format("~.3f", [float(X)])),
+		    TextLength = length(Text),
+		    TextWidth = TextLength*FontW,
+		    Spacing = 2,
+		    if 
+		    	X1 > PX + round(TextWidth/2) + Spacing ->
+		    	    egd:line(Image, {X1, Y - 3}, {X1, Y + 3}, Color),
+		    	    text(Image, {X1 - round(TextWidth/2), Y + 2}, Font, Text, Color),
+			    X1 + round(TextWidth/2) + Spacing;
+			true ->
+			    PX
+		    end;
+		true ->
+		    PX
+	    end
+	end, 0, Data).
+
+draw_yticks(Im, Color, TickArea, {_,Ymax}) ->
+    #graph_area{x = X0, y = Y0, width = Width, height = Height} = TickArea,
+    Font = load_font(),
+    X = trunc(X0 + Width),
+    Dy = (Height)/(Ymax),
+    Yts = if 
+	Height/(Ymax*12) < 1.0 -> round(1 + Ymax*15/Height);
+	true -> 1
+    end,
+    egd:filledRectangle(Im, {X, trunc(0 + Y0)}, {X, trunc(Y0 + Height)}, Color),
+    draw_yticks0(Im, Font, Color, 0, Yts, Ymax, {X, Height, Dy}).
+
+draw_yticks0(Im, Font, Color, Yi, Yts, Ymax, Area) when Yi < Ymax -> 
+    {X, Height, Dy} = Area, 
+    Y = round(Height - (Yi*Dy) + 3),
+
+    egd:filledRectangle(Im, {X - 3, Y}, {X + 3, Y}, Color), 
+    Text = lists:flatten(io_lib:format("~p", [Yi])),
+    text(Im, {0, Y - 4}, Font, Text, Color),
+    draw_yticks0(Im, Font, Color, Yi + Yts, Yts, Ymax, Area);
+draw_yticks0(_, _, _, _, _, _, _) -> ok.
+
+%%% -------------------------------------
+%%% ACTIVITIES
+%%% -------------------------------------
+
+%% activities(Width, Height, Range, Activities) -> Binary
+%% In:
+%%	Width = integer()
+%%	Height = integer()
+%%	Range = {float(), float()}
+%%	Activities = [{float(), active | inactive}]
+%% Out:
+%%	Binary = binary()
+
+activities(Width, Height, {UXmin, UXmax}, Activities) ->
+    Xs = [ X || {X,_} <- Activities],
+    Xmin = lists:min(Xs),
+    Xmax = lists:max(Xs),
+    activities0(Width, Height, {lists:min([Xmin, UXmin]), lists:max([UXmax, Xmax])}, Activities).
+
+activities(Width, Height, Activities) ->
+    Xs = [ X || {X,_} <- Activities],
+    Xmin = lists:min(Xs),
+    Xmax = lists:max(Xs),
+    activities0(Width, Height, {Xmin, Xmax}, Activities).
+
+activities0(Width, Height, {Xmin, Xmax}, Activities) ->
+    Image = egd:create(Width, Height),
+    Grey = egd:color(Image, {200, 200, 200}),
+    HO = 20,
+    ActivityArea = #graph_area{x = HO, y = 0, width = Width - 2*HO, height = Height},
+    egd:filledRectangle(Image, {0, 0}, {Width, Height}, Grey),
+    draw_activity(Image, {Xmin, Xmax}, ActivityArea, Activities),
+    Binary = egd:render(Image, png),
+    egd:destroy(Image),
+    Binary.
+
+draw_activity(Image, {Xmin, Xmax}, Area = #graph_area{ width = Width }, Acts) ->
+    White = egd:color({255, 255, 255}),
+    Green = egd:color({0,250, 0}),
+    Black = egd:color({0, 0, 0}),
+
+    Dx    = Width/(Xmax - Xmin),
+
+    draw_activity(Image, {Xmin, Xmax}, Area, {White, Green, Black}, Dx, Acts).
+
+draw_activity(_, _, _, _, _, [_]) -> ok;
+draw_activity(Image, {Xmin, Xmax}, Area = #graph_area{ height = Height, x = X0 }, {Cw, Cg, Cb}, Dx, [{Xa1, State}, {Xa2, Act2} | Acts]) ->
+    X1 = erlang:trunc(X0 + Dx*Xa1 - Xmin*Dx),
+    X2 = erlang:trunc(X0 + Dx*Xa2 - Xmin*Dx),
+
+    case State of
+	inactive ->
+	    egd:filledRectangle(Image, {X1, 0}, {X2, Height - 1}, Cw),
+	    egd:rectangle(Image, {X1, 0}, {X2, Height - 1}, Cb);
+	active ->
+	    egd:filledRectangle(Image, {X1, 0}, {X2, Height - 1}, Cg),
+	    egd:rectangle(Image, {X1, 0}, {X2, Height - 1}, Cb)
+    end,
+    draw_activity(Image, {Xmin, Xmax}, Area, {Cw, Cg, Cb}, Dx, [{Xa2, Act2} | Acts]).
+
+ 
+
+%%% -------------------------------------
+%%% Process lifetime
+%%% Used by processes page
+%%% -------------------------------------
+
+proc_lifetime(Width, Height, Start, End, ProfileTime) ->
+    Im = egd:create(round(Width), round(Height)),
+    Black = egd:color(Im, {0, 0, 0}),
+    Green = egd:color(Im, {0, 255, 0}),
+
+    % Ratio and coordinates
+
+    DX = (Width-1)/ProfileTime,
+    X1 = round(DX*Start),
+    X2 = round(DX*End),
+
+    % Paint
+    egd:filledRectangle(Im, {X1, 0}, {X2, Height - 1}, Green),
+    egd:rectangle(Im, {X1, 0}, {X2, Height - 1}, Black),
+
+    Binary = egd:render(Im, png),
+    egd:destroy(Im),
+    Binary.
+
+%%% -------------------------------------
+%%% Percentage
+%%% Used by process_info page
+%%% Percentage should be 0.0 -> 1.0
+%%% -------------------------------------
+percentage(Width, Height, Percentage) ->
+    Im = egd:create(round(Width), round(Height)),
+    Font = load_font(),
+    Black = egd:color(Im, {0, 0, 0}),
+    Green = egd:color(Im, {0, 255, 0}),
+
+    % Ratio and coordinates
+
+    X = round(Width - 1 - Percentage*(Width - 1)),
+
+    % Paint
+    egd:filledRectangle(Im, {X, 0}, {Width - 1, Height - 1}, Green),
+    {FontW, _} = egd_font:size(Font), 
+    String = lists:flatten(io_lib:format("~.10B %", [round(100*Percentage)])),
+
+    text(	Im, 
+		{round(Width/2 - (FontW*length(String)/2)), 0}, 
+    		Font,
+		String,
+		Black),
+    egd:rectangle(Im, {X, 0}, {Width - 1, Height - 1}, Black),
+    
+    Binary = egd:render(Im, png),
+    egd:destroy(Im),
+    Binary.
+
+
+load_font() ->
+    Filename = filename:join([code:priv_dir(percept),"fonts", "6x11_latin1.wingsfont"]),
+    egd_font:load(Filename).
+    
+text(Image, {X,Y}, Font, Text, Color) ->
+    egd:text(Image, {X,Y-2}, Font, Text, Color).