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// Scilab ( http://www.scilab.org/ ) - This file is part of Scilab
// Copyright (C) 2004-2006 - INRIA - Fabrice Leray
// Copyright (C) 2008 - INRIA - Jean-Baptiste Silvy
// This file must be used under the terms of the CeCILL.
// This source file is licensed as described in the file COPYING, which
// you should have received as part of this distribution.  The terms
// are also available at    
// http://www.cecill.info/licences/Licence_CeCILL_V2-en.txt

function plot(varargin)
// Try to build a new better parser that could manage things like:
// plot(x,y,'X',1:10); // where X stands for Xdata (Matlab recognize
//it and treats it well...

[lhs,rhs]=argn(0);

if ~rhs
	//LineSpec and PropertySpec examples:
	t = 0:%pi/20:2*%pi;
	subplot(211);
	plot(t,sin(t),'ro-.',t,cos(t),'cya+',t,abs(sin(t)),'--mo');
	subplot(212);
	plot([t ;t],[sin(t) ;cos(t)],'xdat',[1:2]);
	return;
end



CurColor = 0; // current color used if no color specified via LineSpec
// nor PropertyName



ListArg = varargin;

//detect and set the current axes now:
if type(ListArg(1)) == 9
  hdle = ListArg(1);
  if (hdle.type == "Axes")
    sca(ListArg(1));
    ListArg(1) = null(); // remove this parameter from the list
  else
    warning("Handle should be an Axes handle")
    return;
  end
end


nv = size(ListArg)


argTypes=[];
couple=[];

typeOfPlot = 'plot';
provided_data = 2;

for curArgIndex=1:nv
  argTypes(curArgIndex,1) = type(ListArg(curArgIndex))
end

Ttmp=argTypes;

for i=1:nv-1
  acceptedTypes=[];
  acceptedTypes=find(Ttmp(i,1)==1 & or(Ttmp(i+1,1)==[1,13,130])) // to accept double, macro function or primitive as second argument

  if (acceptedTypes<>[]) then
    couple=[couple i];
    Ttmp(i,1)  = 99; // Replace a known type by 99 (no meaning) to count it once only!
    Ttmp(i+1,1)= 99; // to avoid having (x1,y1,x2,y2) ->couple=[1,2,3]
    // With this trick, couple=[1,3];
  end

end


if (couple==[]) // No data couple found
  // Search for at least a single data , i.e.: plot(y)

  if (argTypes(1,1)==1 & ListArg(1)<>[]) then // case plot(SINGLE y,...)
    couple = 1; 
    provided_data = 1;
    
    if (modulo(nv-couple,2)<>0) then
      P1 = couple+2 // Position of the first PropertyName field
    else
      P1 = couple+1
    end
    
  else
    warning("Error inside input argument : no data");
    return;
  end
  
else
  
  // Some test to check wrong inputs
  //
  // 1. Test if 2 data couples (first : type==1, second : type=[1,13,130]) 
  // are at least separated by 2 indices
  if (couple(2:$)-couple(1:$-1)<2)
    warning("Error inside input argument !");
    return;
  end

  // 2. Test if no string couples happen before P1 (see below for P1 definition)
  for index=1:couple($)
    acceptedTypes=[];
    acceptedTypes=find(Ttmp(index,1)==10 & Ttmp(index+1,1)==10)
    
    if (acceptedTypes<>[]) then
      warning("Error inside input argument : String argument is an unknown option.");
      return;
    end
  end


  
  if (modulo(nv-(couple($)+1),2)<>0) then
    P1 = couple($)+3 // Position of the first PropertyName field
  else
    P1 = couple($)+2
  end
  
end

numplot = size(couple,'*');

xyIndexLineSpec = zeros(numplot,3); 
// xyIndexLineSpec is a matrix storing the index of x, y and linespec
// if one of these indices is 0 => it does not exist
// (which is possible for x and linepsec, not for y)

if (provided_data == 2) then

  for curCouple=1:size(couple,'*')
    xyIndexLineSpec(curCouple,1:2) = couple(curCouple) +[0,1] // x,y index storage

    if (couple(curCouple)+2 < P1)
      if (argTypes(couple(curCouple)+2,1)==10) then // LineSpec treatment
	xyIndexLineSpec(curCouple,3) = couple(curCouple)+2;
      end
    end
  end
else
  // we are in the case where: plot(SINGLE y,... x not specified
  // or plot(handle,SINGLE y,...
  xyIndexLineSpec(1,1) = 0; // no x specified
  xyIndexLineSpec(1,2) = couple;

//pause;

if (couple+1 < P1)
  if (argTypes(couple+1,1)==10) then // LineSpec treatment
    xyIndexLineSpec(1,3) = couple+1;
  end
end
end



// delay the drawing commands
// smart drawlater
current_figure=gcf();
cur_draw_mode = current_figure.immediate_drawing;
current_figure.immediate_drawing = 'off';

// check wether this is the first plot for the axes in which we will draw
curAxes = gca();
// save auto_clear state.
OldAutoClear = curAxes.auto_clear;

isFirstPlot = (curAxes.children == [])

//Now, we plot the decomposed plots one by one with their own linespec
// provided_data = 2 : x and y are provided

FinalAgreg=[]; // Final Compound containing all the new created plots.

//for i=numplot:-1:1
for i=1:numplot
  // Set off auto_clear for allowing multiple graphics entity
  // will be restored behond
  if i>1 then
    curAxes.auto_clear='off';
  end
  
  //default values
  Marker=[];
  MarkerSize=1;
  Color=[];
  LineStyle=1;
  Line = %F;
  Marker = %F;

  if (provided_data == 2) then
    
    if (type(ListArg(xyIndexLineSpec(i,2))) == 13 | type(ListArg(xyIndexLineSpec(i,2))) == 130)
      // A function (macro or primitive) is given. We need to build the vector or matrix.
      sizefirstarg = size(ListArg(xyIndexLineSpec(i,1)));
      buildFunc = ListArg(xyIndexLineSpec(i,2));
      firstarg = ListArg(xyIndexLineSpec(i,1));
      tmp = [];

      for ii=1:sizefirstarg(1,2)
        for jj=1:sizefirstarg(1,1)
 	  
          // function evaluation may fail
          // try/cacth is buggy for now
          // so use execstr until the bug is fixed
          err = execstr('tmp(jj,ii) = buildFunc(firstarg(jj,ii))','errcatch','n');

          if (err <> 0) then
            // reset data
            ResetFigureDDM(current_figure, cur_draw_mode);

            // get error
            [err_message, err_number, err_line, err_func] = lasterror(%t);

			clear buildFunc;
            // print it
            if (err_func <> "") then
			// ascii(10) = \n
             error(msprintf(gettext("%s: Error : unable to evaluate input function ''%s''.") + ascii(10) + gettext("Error %d at line %d of the function: ''%s''"), "plot", err_func,err_number, err_line, err_message));
            else
             error(msprintf(gettext("%s: Error : unable to evaluate input function.") + ascii(10) + gettext("Error %d at line %d of the function: ''%s''"), "plot", err_number, err_line, err_message));
            end
            // exit function
            return;
          end

        end
      end

      
      ListArg(xyIndexLineSpec(i,2)) = tmp;
      // if there is an other iteration, we will have error message redefining function.
      // we need to clear here and not before, because user must see the warning if needed.
      clear buildFunc;
    end
    [X,Y] = checkXYPair(typeOfPlot,ListArg(xyIndexLineSpec(i,1)),ListArg(xyIndexLineSpec(i,2)),current_figure,cur_draw_mode)
  else
    if or(size(ListArg(xyIndexLineSpec(1,2)))==1)  // If this is a vector
      X=1:length(ListArg(xyIndexLineSpec(1,2))); // insert an abcsissa vector of same length,
    else                                  // if this is a matrix,
      X=1:size(ListArg(xyIndexLineSpec(1,2)),1); // insert an abcsissa vector with 
    end
    [X,Y] = checkXYPair(typeOfPlot,X,ListArg(xyIndexLineSpec(1,2)),current_figure,cur_draw_mode)
  end

  // Case if 'Xdata', 'Ydata' or 'Zdata' have been set in (PropertyName,Propertyvalue) couples
  // must be taken into account now
  
  // P1 is the position of the first PropertyName field.
  Property = P1;
  
  while (Property <= nv-1)
    PropertyName  = ListArg(Property);
    PropertyValue = ListArg(Property+1);
    
    // Xdata can ONLY be a vector (cf. Matlab help)
    PName = getPlotPropertyName(PropertyName,current_figure,cur_draw_mode);
    if (PName == 'xdata')
      
      if (type(PropertyValue)<>1 | and(size(PropertyValue)<>1))
	warning("Xdata value must be a column or row vector.");
	ResetFigureDDM(current_figure, cur_draw_mode);
	return;
      else
	PropertyValue = PropertyValue(:); // force
	if or(size(X))==1  // If X is a vector (inevitably a column vector because checkXYPair always returns a column vector)
	  X = PropertyValue; // X is replaced by PropertyValue
	  [X,Y] = checkXYPair(typeOfPlot,X,Y,current_figure,cur_draw_mode)
	else // X is a matrix
	  if size(PropertyValue,'*') == size(X,1)
	    for j=1:size(PropertyValue,'*')
	      X(j,:) = PropertyValue(j,1);
	    end
	  else
	    str='plot : incompatible dimensions in input arguments';
	    warning(str);
	    ResetFigureDDM(current_figure, cur_draw_mode);
	  end
	end
      end
      
      // Ydata ONLY be a vector (contrary to what is said by the Matlab help)
    elseif (PName == 'ydata')
      
      if (type(PropertyValue)<>1 | and(size(PropertyValue)<>1))
	warning("Ydata value must be a column or row vector.");
	ResetFigureDDM(current_figure, cur_draw_mode);
	return;
      else
	PropertyValue = PropertyValue(:); // force
	if or(size(Y))==1  // If Y is a vector (inevitably a column vector because checkXYPair always returns a column vector)
	  Y = PropertyValue; // Y is replaced by PropertyValue
	  [X,Y] = checkXYPair(typeOfPlot,X,Y,current_figure,cur_draw_mode)
	else // Y is a matrix
	  if size(PropertyValue,'*') == size(Y,1)
	    for j=1:size(PropertyValue,'*')
	      Y(j,:) = PropertyValue(j);
	    end
	  else
	    str='plot : incompatible dimensions in input arguments';
	    warning(str);
	    ResetFigureDDM(current_figure, cur_draw_mode);
	  end
	end
	
      end
      
      // Zdata will be treated after plot building
    end
    
    Property = Property+2;
  end
  

  
  //Now we have an array xyIndexLineSpec [numplot x 3] containing indices pointing on T for :
  // - x (<>0 if existing)
  // - y
  // - linespec (<>0 if existing)
  // for each plot passed in argument
  //       x | y | linespec
  //       ----------------
  //plot1   0|i1 |0    <=> plot(y)
  //plot2  i2|i3 |0    <=> plot(x,y)
  //plot3  i4|i5 |i6   <=> plot(x,y,LINESPEC)
  //...
  
  
  
  if (xyIndexLineSpec(i,3)<>0) then // if we have a line spec <=> index <> 0
    [Color,Line,LineStyle,Marker,MarkerStyle,MarkerSize,fail] = getLineSpec(ListArg(xyIndexLineSpec(i,3)),current_figure,cur_draw_mode); 
  end

  // The plot is made now :
  err = execstr('plot2d(X,Y)','errcatch','m');
  
  if err <> 0
    mprintf("Error %d : in plot2d called by plot",err);
    ResetFigureDDM(current_figure, cur_draw_mode);
    return;
  end
  
  agreg=gce();  // when using plot2d, we always have an Compound as the current entity

  FinalAgreg = [agreg FinalAgreg];

  if Color==[]
    DefaultColor = %T;
  else
    DefaultColor = %F; 
  end

  for ii=size(agreg.children,'*'):-1:1
    curPolyline=agreg.children(ii); // we apply linespec to the lines

    // Color treatment : if no color specified by LineSpec nor PropertyName
    // Set the default color to the curve
    if DefaultColor == %T
      [Color,CurColor] = setDefaultColor(CurColor);
    end

    if (Marker == %T)
      curPolyline.mark_style=MarkerStyle;
      curPolyline.mark_mode ='on';
      curPolyline.mark_foreground = Color;
      curPolyline.mark_style=MarkerStyle;
      curPolyline.mark_size=MarkerSize;
    else
      curPolyline.mark_mode ='off'
    end

    if (Line == %T)
      curPolyline.line_mode='on';
      curPolyline.foreground = Color;
      curPolyline.line_style = LineStyle;
    else
      curPolyline.line_mode='off'
    end

    if (Line == %F & Marker ==%F) // no linespec nor PropertyName set
      curPolyline.line_mode='on';
      curPolyline.foreground = Color;
      curPolyline.line_style = LineStyle;
    end

  end
end

//Reset auto_clear Property
curAxes.auto_clear = OldAutoClear;

///////////////////////////////////
//Global Property treatment      //
//PropertyName and PropertyValue //
///////////////////////////////////



// Those properties will be applied to Agreg children
Agreg = glue(FinalAgreg(1:$))

nbCompound = find(Agreg.children.type=="Compound")

while (nbCompound<>[])
  nbCompound=nbCompound(1);
  unglue(Agreg.children(nbCompound));
  nbCompound=find(Agreg.children.type=="Compound")
end



// P1 is the position of the first PropertyName field.
Property = P1;

Curves = Agreg.children
//Curves(:,1) = Curves(:,$:-1:1);

// set mark_size_unit to 'point' for all the curves
Curves.mark_size_unit='point';

while (Property <= nv-1)
  setPlotProperty(ListArg(Property),ListArg(Property+1),Curves,current_figure,cur_draw_mode)
  
  Property = Property+2;
end

// force drawing of box like in matlab
// for a first plot
// unless we are using centered axes
// to keep compatibility with Scilab 4
if  isFirstPlot & curAxes.x_location <> "origin" & curAxes.y_location <> "origin" then
  curAxes.box = "on";
end



//postponed drawings are done now !
// smart drawnow
ResetFigureDDM(current_figure, cur_draw_mode)

endfunction