1 | %'plot_field': plot any field with the structure defined in the uvmat package
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2 | %------------------------------------------------------------------------
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3 | %
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4 | % This function is used by uvmat to plot fields. It automatically chooses the representation
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5 | % appropriate to the input field structure:
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6 | % 2D vector fields are represented by arrows, 2D scalar fiedlds by grey scale images or contour plots, 1D fields are represented by usual plot with (abscissa, ordinate).
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7 | % The input field structure is first tested by check_field_structure.m,
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8 | % then split into blocks of related variables by find_field_indices.m.
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9 | % The dimensionality of each block is obtained by this fuction
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10 | % considering the presence of variables with the attribute .Role='coord_x'
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11 | % and/or coord_y and/or coord_z (case of unstructured coordinates), or
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12 | % dimension variables (case of matrices).
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13 | %
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14 | % function [PlotType,PlotParamOut,haxes]= plot_field(Data,haxes,PlotParam,htext,PosColorbar)
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15 | %
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16 | % OUPUT:
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17 | % PlotType: type of plot: 'text','line'(curve plot),'plane':2D view,'volume'
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18 | % PlotParamOut: structure, representing the updated plotting parameters, in case of automatic scaling
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19 | % haxes: handle of the plotting axis, when a new figure is created.
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20 | %
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21 | %INPUT
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22 | % Data: structure describing the field to plot
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23 | % (optional) .ListGlobalAttribute: cell listing the names of the global attributes
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24 | % .Att_1,Att_2... : values of the global attributes
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25 | % (requested) .ListVarName: list of variable names to select (cell array of char strings {'VarName1', 'VarName2',...} )
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26 | % (requested) .VarDimName: list of dimension names for each element of .ListVarName (cell array of string cells)
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27 | % .VarAttribute: cell of attributes for each element of .ListVarName (cell array of structures of the form VarAtt.key=value)
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28 | % (requested) .Var1, .Var2....: variables (Matlab arrays) with names listed in .ListVarName
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29 | %
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30 | % Variable attribute .Role :
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31 | % The only variable attribute used for plotting purpose is .Role which can take
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32 | % the values
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33 | % Role = 'scalar': (default) represents a scalar field
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34 | % = 'coord_x', 'coord_y', 'coord_z': represents a separate set of
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35 | % unstructured coordinate x, y or z
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36 | % = 'vector': represents a vector field whose number of components
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37 | % is given by the last dimension (called 'nb_dim')
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38 | % = 'vector_x', 'vector_y', 'vector_z' :represents the x, y or z component of a vector
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39 | % = 'warnflag' : provides a warning flag about the quality of data in a 'Field', default=0, no warning
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40 | % = 'errorflag': provides an error flag marking false data,
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41 | % default=0, no error. Different non zero values can represent different criteria of elimination.
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42 | %
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43 | %
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44 | % additional elements characterizing the projection object (should not be necessary)--
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45 | % Data.Style : style of projection object
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46 | % Data.XObject,.YObject: set of coordinates defining the object position;
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47 | % Data.ProjMode=type of projection ;
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48 | % Data.ProjAngle=angle of projection;
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49 | % Data.DX,.DY,.DZ=increments;
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50 | % Data.MaxY,MinY: min and max Y
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51 |
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52 | % haxes: handle of the plotting axes to update with the new plot. If this input is absent or not a valid axes handle, a new figure is created.
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53 | %
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54 | % PlotParam: parameters for plotting, as read on the uvmat interface (by function 'read_plot_param.m')
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55 | % .FixedLimits:=0 (default) adjust axes limit to the X,Y data, =1: preserves the previous axes limits
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56 | % .Auto_xy: =0 (default): kepp 1 to 1 aspect ratio for x and y scales, =1: automatic adjustment of the graph
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57 | % --scalars--
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58 | % .Scalar.MaxA: upper bound (saturation color) for the scalar representation, max(field) by default
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59 | % .Scalar.MinA: lower bound (saturation) for the scalar representation, min(field) by default
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60 | % .Scalar.AutoScal: =1 (default) lower and upper bounds of the scalar representation set to the min and max of the field
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61 | % =0 lower and upper bound imposed by .AMax and .MinA
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62 | % .Scalar.BW= 1 black and white representation imposed, =0 by default.
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63 | % .Scalar.Contours= 1: represent scalars by contour plots (Matlab function 'contour'); =0 by default
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64 | % .IncrA : contour interval
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65 | % -- vectors--
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66 | % .Vectors.VecScale: scale for the vector representation
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67 | % .Vectors.AutoVec: =0 (default) automatic length for vector representation, =1: length set by .VecScale
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68 | % .Vectors.HideFalse= 0 (default) false vectors represented in magenta, =1: false vectors not represented;
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69 | % .Vectors.HideWarning= 0 (default) vectors marked by warnflag~=0 marked in black, 1: no warning representation;
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70 | % .Vectors.decimate4 = 0 (default) all vectors reprtesented, =1: half of the vectors represented along each coordinate
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71 | % -- vector color--
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72 | % .Vectors.ColorCode= 'black','white': imposed color (default ='blue')
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73 | % 'rgb', : three colors red, blue, green depending
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74 | % on thresholds .colcode1 and .colcode2 on the input scalar value (C)
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75 | % 'brg': like rgb but reversed color order (blue, green, red)
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76 | % '64 colors': continuous color from blue to red (multijet)
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77 | % .Vectors.colcode1 : first threshold for rgb, first value for'continuous'
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78 | % .Vectors.colcode2 : second threshold for rgb, last value (saturation) for 'continuous'
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79 | % .Vectors.FixedCbounds; =0 (default): the bounds on C representation are min and max, =1: they are fixed by .Minc and .MaxC
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80 | % .Vectors.MinC = imposed minimum of the scalar field used for vector color;
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81 | % .Vectors.MaxC = imposed maximum of the scalar field used for vector color;
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82 | %
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83 | %
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84 | % PosColorbar: if not empty, display a colorbar for B&W images
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85 | % imposed position of the colorbar (ex [0.821 0.471 0.019 0.445])
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86 |
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87 | %AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
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88 | % Copyright Joel Sommeria, 2008, LEGI / CNRS-UJF-INPG, sommeria@coriolis-legi.org.
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89 | %AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
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90 | % This file is part of the toolbox UVMAT.
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91 | %
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92 | % UVMAT is free software; you can redistribute it and/or modify
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93 | % it under the terms of the GNU General Public License as published by
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94 | % the Free Software Foundation; either version 2 of the License, or
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95 | % (at your option) any later version.
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96 | %
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97 | % UVMAT is distributed in the hope that it will be useful,
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98 | % but WITHOUT ANY WARRANTY; without even the implied warranty of
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99 | % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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100 | % GNU General Public License (file UVMAT/COPYING.txt) for more details.
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101 | %AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
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102 |
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103 | function [PlotType,PlotParamOut,haxes]= plot_field(Data,haxes,PlotParam,htext,PosColorbar)
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104 | % TODO:
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105 | % use htext: handles of the text edit box (uicontrol)
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106 | % introduce PlotParam.Hold: 'on' or 'off' (for curves)
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107 |
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108 | %default output
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109 | if ~exist('PlotParam','var'),PlotParam=[];end;
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110 | if ~exist('htext','var'),htext=[];end;
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111 | if ~exist('PosColorbar','var'),PosColorbar=[];end;
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112 | PlotType='text'; %default
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113 | PlotParamOut=PlotParam;%default
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114 |
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115 | % check input structure
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116 | [Data,errormsg]=check_field_structure(Data);
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117 |
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118 | if ~isempty(errormsg)
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119 | msgbox_uvmat('ERROR',['input of plot_field/check_field_structure: ' errormsg])
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120 | display(['input of plot_field/check_field_structure:: ' errormsg])
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121 | return
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122 | end
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123 |
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124 | testnewfig=1;%test to create a new figure (default)
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125 | testzoomaxes=0;%test for the existence of a zoom secondary figure attached to the plotting axes
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126 | if exist('haxes','var')
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127 | if ishandle(haxes)
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128 | if isequal(get(haxes,'Type'),'axes')
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129 | % axes(haxes)
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130 | testnewfig=0;
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131 | AxeData=get(haxes,'UserData');
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132 | if isfield(AxeData,'ZoomAxes')&& ishandle(AxeData.ZoomAxes)
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133 | if isequal(get(AxeData.ZoomAxes,'Type'),'axes')
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134 | testzoomaxes=1;
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135 | zoomaxes=AxeData.ZoomAxes;
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136 | end
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137 | end
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138 | end
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139 | end
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140 | end
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141 | if isfield(PlotParam,'text_display_1') && ishandle(PlotParam.text_display_1)
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142 | PlotParam=read_plot_param(PlotParam);
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143 | end
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144 | if testnewfig% create a new figure and axes if the plotting axes does not exist
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145 | hfig=figure;
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146 | % if isfield(Data,'IndexObj') && isfield(Data,'Style') && isfield(Data,'ProjMode')
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147 | % figname=[num2str(Data.IndexObj) '-' Data.Style];
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148 | % set(hfig,'Name',figname)
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149 | % end
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150 | % testhandle=0;
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151 | if isfield(PlotParam,'text_display_1') && ishandle(PlotParam.text_display_1)
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152 | set(hfig,'UserData',PlotParam)
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153 | % testhandle=1;
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154 | end
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155 | set(hfig,'Units','normalized')
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156 | set(hfig,'WindowButtonDownFcn','mouse_down')
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157 | %set(hfig,'WindowButtonMotionFcn',{'mouse_motion',PlotParam})%set mouse action function
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158 | set(hfig,'WindowButtonMotionFcn','mouse_motion')%set mouse action function
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159 | set(hfig,'WindowButtonUpFcn','mouse_up')%set mouse action function
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160 | haxes=axes;
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161 | set(haxes,'position',[0.13,0.2,0.775,0.73])
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162 | PlotParam.NextPlot='add'; %parameter for plot_profile and plot_his
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163 | else
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164 | hfig=get(haxes,'parent');
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165 | set(0,'CurrentFigure',hfig)
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166 | set(hfig,'CurrentAxes',haxes)
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167 | end
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168 |
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169 | if isfield(PlotParam,'Auto_xy') && isequal(PlotParam.Auto_xy,1)
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170 | set(haxes,'DataAspectRatioMode','auto')%automatic aspect ratio
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171 | end
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172 |
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173 | % check the cells of fields :
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174 | % testnbdim=1;
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175 | [CellVarIndex,NbDim,VarType,errormsg]=find_field_indices(Data);
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176 |
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177 | if ~isempty(errormsg)
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178 | msgbox_uvmat('ERROR',['input of plot_field/find_field_indices: ' errormsg])
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179 | display(['input of plot_field: ' errormsg])
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180 | return
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181 | end
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182 | if ~isfield(Data,'NbDim') %& ~isfield(Data,'Style')%determine the space dimensionb if not defined: choose the kind of plot
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183 | [Data.NbDim]=max(NbDim);
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184 | end
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185 | errormsg=[];
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186 | if isequal(Data.NbDim,0)
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187 | AxeData=plot_text(Data,htext);
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188 | PlotType='text';
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189 | errormsg=[];
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190 | elseif isequal(Data.NbDim,1)
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191 | [AxeData]=plot_profile(Data,CellVarIndex,VarType,haxes,PlotParam);%
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192 | if testzoomaxes
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193 | [AxeData,zoomaxes,PlotParamOut]=plot_profile(Data,CellVarIndex,VarType,zoomaxes,PlotParam);
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194 | AxeData.ZoomAxes=zoomaxes;
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195 | end
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196 | PlotType='line';
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197 | errormsg=[];
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198 | elseif isequal(Data.NbDim,2)
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199 | ind_select=find(NbDim>=2);
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200 | if numel(ind_select)>2
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201 | errormsg='more than two fields to map';
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202 | else
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203 | [AxeData,xx,PlotParamOut,PlotType,errormsg]=plot_plane(Data,CellVarIndex(ind_select),VarType(ind_select),haxes,PlotParam,htext,PosColorbar);
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204 | if testzoomaxes && isempty(errormsg)
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205 | [AxeData,zoomaxes,PlotParamOut,xx,errormsg]=plot_plane(Data,CellVarIndex(ind_select),VarType(ind_select),zoomaxes,PlotParam,1,PosColorbar);
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206 | %AxeData.ZoomAxes=zoomaxes;
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207 | Data.ZoomAxes=zoomaxes;
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208 | end
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209 | end
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210 | elseif isequal(Data.NbDim,3)
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211 | errormsg='volume plot not implemented yet';
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212 | end
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213 | if ~isempty(errormsg)
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214 | msgbox_uvmat('ERROR','volume plot not implemented yet')
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215 | return
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216 | end
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217 |
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218 | %display (or delete) error message
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219 | htext=findobj(haxes,'Tag','hTxt');
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220 | if isfield(Data,'Txt')
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221 | if isempty(htext)
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222 | Xlim=get(haxes,'XLim');
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223 | Ylim=get(haxes,'YLim');
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224 | htext=text(Xlim(1),(Ylim(1)+Ylim(2))/2,Data.Txt,'Tag','hTxt','Color','r');
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225 | set(htext,'Interpreter','none')
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226 | else
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227 | set(htext,'String',Data.Txt)
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228 | end
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229 | elseif ~isempty(htext)
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230 | delete(htext)
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231 | end
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232 |
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233 | % set graph aspect ratio
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234 | if isfield(AxeData,'Mesh')
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235 | Data.Mesh=AxeData.Mesh;
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236 | end
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237 |
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238 | %set(haxes,'UserData',AxeData)
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239 | set(haxes,'UserData',Data)
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240 | % if ~testnewfig
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241 | % %set(0,'Children',hstack);%put back the initial figure stack after plot creation
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242 | %
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243 | % end
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244 |
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245 |
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246 | %-------------------------------------------------------------------
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247 | function hdisplay=plot_text(FieldData,hdisplay_in)
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248 | %-------------------------------------------------------------------
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249 | if exist('hdisplay_in','var') && ~isempty(hdisplay_in) && ishandle(hdisplay_in) && isequal(get(hdisplay_in,'Type'),'uicontrol')
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250 | hdisplay=hdisplay_in;
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251 | else
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252 | figure;%create new figure
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253 | hdisplay=uicontrol('Style','edit', 'Units','normalized','Position', [0 0 1 1],'Max',2,'FontName','monospaced');
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254 | end
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255 |
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256 | ff=fields(FieldData);%list of field names
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257 | vv=struct2cell(FieldData);%list of field values
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258 |
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259 | for icell=1:length(vv)
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260 | Tabcell{icell,1}=ff{icell};
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261 | ss=vv{icell};
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262 | sizss=size(ss);
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263 | if isnumeric(ss)
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264 | if sizss(1)<=1 && length(ss)<5
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265 | displ{icell}=num2str(ss);
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266 | else
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267 | displ{icell}=[class(ss) ', size ' num2str(size(ss))];
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268 | end
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269 | elseif ischar(ss)
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270 | displ{icell}=ss;
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271 | elseif iscell(ss)
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272 | sizcell=size(ss);
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273 | if sizcell(1)==1 && length(sizcell)==2 %line cell
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274 | ssline='{''';
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275 | for icolumn=1:sizcell(2)
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276 | if isnumeric(ss{icolumn})
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277 | if size(ss{icolumn},1)<=1 && length(ss{icolumn})<5
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278 | sscolumn=num2str(ss{icolumn});%line vector
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279 | else
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280 | sscolumn=[class(ss{icolumn}) ', size ' num2str(size(ss{icolumn}))];
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281 | end
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282 | elseif ischar(ss{icolumn})
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283 | sscolumn=ss{icolumn};
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284 | else
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285 | sscolumn=class(ss{icolumn});
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286 | end
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287 | if icolumn==1
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288 | ssline=[ssline sscolumn];
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289 | else
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290 | ssline=[ssline ''',''' sscolumn];
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291 | end
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292 | end
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293 | displ{icell}=[ssline '''}'];
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294 | else
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295 | displ{icell}=[class(ss) ', size ' num2str(sizcell)];
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296 | end
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297 | else
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298 | displ{icell}=class(ss);
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299 | end
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300 | Tabcell{icell,2}=displ{icell};
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301 | end
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302 | Tabchar=cell2tab(Tabcell,': ');
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303 | set(hdisplay,'String', Tabchar)
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304 |
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305 |
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306 | %-------------------------------------------------------------------
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307 | function [AxeData,haxes]=plot_profile(data,CellVarIndex,VarType,haxes,PlotParam)
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308 | %-------------------------------------------------------------------
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309 | %TODO: modify existing plot if it exists
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310 |
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311 | hfig=get(haxes,'parent');
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312 | AxeData=data;
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313 |
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314 | ColorOrder=[1 0 0;0 0.5 0;0 0 1;0 0.75 0.75;0.75 0 0.75;0.75 0.75 0;0.25 0.25 0.25];
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315 | set(haxes,'ColorOrder',ColorOrder)
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316 | if isfield(PlotParam,'NextPlot')
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317 | set(haxes,'NextPlot',PlotParam.NextPlot)
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318 | end
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319 | % adjust the size of the plot to include the whole field,
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320 | if isfield(PlotParam,'FixedLimits') && isequal(PlotParam.FixedLimits,1) %adjust the graph limits*
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321 | set(haxes,'XLimMode', 'manual')
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322 | set(haxes,'YLimMode', 'manual')
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323 | else
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324 | set(haxes,'XLimMode', 'auto')
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325 | set(haxes,'YLimMode', 'auto')
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326 | end
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327 | legend_str={};
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328 |
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329 | %% prepare the string for plot command
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330 | %initiate the plot command
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331 | plotstr='hhh=plot(';
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332 | textmean={};
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333 | coord_x_index=[];
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334 | test_newplot=1;
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335 | % hh=findobj(haxes,'tag','plot_line');
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336 | % num_curve=numel(hh);
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337 | % icurve=0;
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338 |
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339 | %loop on input fields
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340 | for icell=1:length(CellVarIndex)
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341 | VarIndex=CellVarIndex{icell};% indices of the selected variables in the list data.ListVarName
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342 | if ~isempty(VarType{icell}.coord_x)
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343 | coord_x_index=VarType{icell}.coord_x;
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344 | else
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345 | coord_x_index_cell=VarType{icell}.coord(1);
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346 | if isequal(coord_x_index_cell,0)
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347 | continue % the cell has no abscissa, skip it
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348 | end
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349 | if ~isempty(coord_x_index)&&~isequal(coord_x_index_cell,coord_x_index)
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350 | continue %all the selected variables must have the same first dimension
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351 | else
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352 | coord_x_index=coord_x_index_cell;
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353 | end
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354 | end
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355 | testplot=ones(size(data.ListVarName));%default test for plotted variables
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356 | xtitle=data.ListVarName{coord_x_index};
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357 | eval(['coord_x{icell}=data.' data.ListVarName{coord_x_index} ';']);%coordinate variable set as coord_x
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358 | if isfield(data,'VarAttribute')&& numel(data.VarAttribute)>=coord_x_index && isfield(data.VarAttribute{coord_x_index},'units')
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359 | xtitle=[xtitle '(' data.VarAttribute{coord_x_index}.units ')'];
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360 | end
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361 | eval(['coord_x{icell}=data.' data.ListVarName{coord_x_index} ';']);%coordinate variable set as coord_x
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362 | testplot(coord_x_index)=0;
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363 | if ~isempty(VarType{icell}.ancillary')
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364 | testplot(VarType{icell}.ancillary)=0;
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365 | end
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366 | if ~isempty(VarType{icell}.warnflag')
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367 | testplot(VarType{icell}.warnflag)=0;
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368 | end
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369 | if isfield(data,'VarAttribute')
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370 | VarAttribute=data.VarAttribute;
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371 | for ivar=1:length(VarIndex)
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372 | if length(VarAttribute)>=VarIndex(ivar) && isfield(VarAttribute{VarIndex(ivar)},'long_name')
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373 | plotname{VarIndex(ivar)}=VarAttribute{VarIndex(ivar)}.long_name;
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374 | else
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375 | plotname{VarIndex(ivar)}=data.ListVarName{VarIndex(ivar)};%name for display in plot A METTRE
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---|
376 | end
|
---|
377 | end
|
---|
378 | end
|
---|
379 | % test_newplot=0;%default
|
---|
380 | % if num_curve>=icurve+numel(find(testplot(VarIndex)))%update existing curves
|
---|
381 | % if ~isempty(VarType{icell}.discrete')
|
---|
382 | % charplot_0='+';
|
---|
383 | % LineStyle='none';
|
---|
384 | % else
|
---|
385 | % charplot_0='none';
|
---|
386 | % LineStyle='-';
|
---|
387 | % end
|
---|
388 | % for ivar=1:length(VarIndex)
|
---|
389 | % if testplot(VarIndex(ivar))
|
---|
390 | % icurve=icurve+1;
|
---|
391 | % VarName=data.ListVarName{VarIndex(ivar)};
|
---|
392 | % eval(['data.' VarName '=squeeze(data.' VarName ');'])
|
---|
393 | % set(hh(icurve),'LineStyle',LineStyle)
|
---|
394 | % set(hh(icurve),'Marker',charplot_0)
|
---|
395 | % set(hh(icurve),'XData',coord_x{icell})
|
---|
396 | % eval(['yy=data.' VarName ';'])
|
---|
397 | % set(hh(icurve),'YData',yy);
|
---|
398 | % end
|
---|
399 | % end
|
---|
400 | % else% new plot
|
---|
401 | if ~isempty(VarType{icell}.discrete')
|
---|
402 | charplot_0='''+''';
|
---|
403 | else
|
---|
404 | charplot_0='''-''';
|
---|
405 | end
|
---|
406 | for ivar=1:length(VarIndex)
|
---|
407 | if testplot(VarIndex(ivar))
|
---|
408 | VarName=data.ListVarName{VarIndex(ivar)};
|
---|
409 | eval(['data.' VarName '=squeeze(data.' VarName ');'])
|
---|
410 | plotstr=[plotstr 'coord_x{' num2str(icell) '},data.' VarName ',' charplot_0 ','];
|
---|
411 | eval(['nbcomponent2=size(data.' VarName ',2);']);
|
---|
412 | eval(['nbcomponent1=size(data.' VarName ',1);']);
|
---|
413 | if numel(coord_x{icell})==2
|
---|
414 | coord_x{icell}=linspace(coord_x{icell}(1),coord_x{icell}(2),nbcomponent1);
|
---|
415 | end
|
---|
416 | eval(['varmean=mean(double(data.' VarName '));']);%mean value
|
---|
417 | textmean=[textmean; {[VarName 'mean= ' num2str(varmean,4)]}];
|
---|
418 | if nbcomponent1==1|| nbcomponent2==1
|
---|
419 | legend_str=[legend_str {VarName}]; %variable with one component
|
---|
420 | else %variable with severals components
|
---|
421 | for ic=1:min(nbcomponent1,nbcomponent2)
|
---|
422 | legend_str=[legend_str [VarName '_' num2str(ic)]]; %variable with severals components
|
---|
423 | end % labeled by their index (e.g. color component)
|
---|
424 | end
|
---|
425 | end
|
---|
426 | end
|
---|
427 | end
|
---|
428 |
|
---|
429 | %% activate the plot
|
---|
430 | if test_newplot && ~isequal(plotstr,'hhh=plot(')
|
---|
431 | plotstr=[plotstr '''tag'',''plot_line'');'];
|
---|
432 | %execute plot (instruction plotstr)
|
---|
433 | % set(hfig,'CurrentAxes',haxes)
|
---|
434 | % axes(haxes)% select the plotting axes for plot operation
|
---|
435 | eval(plotstr)
|
---|
436 |
|
---|
437 | %%%%%
|
---|
438 | grid(haxes, 'on')
|
---|
439 | hxlabel=xlabel(xtitle);
|
---|
440 | set(hxlabel,'Interpreter','none')% desable tex interpreter
|
---|
441 | if length(legend_str)>=1
|
---|
442 | hylabel=ylabel(legend_str{end});
|
---|
443 | set(hylabel,'Interpreter','none')% desable tex interpreter
|
---|
444 | end
|
---|
445 | if ~isempty(legend_str)
|
---|
446 | hlegend=findobj(hfig,'Tag','legend');
|
---|
447 | if isempty(hlegend)
|
---|
448 | hlegend=legend(legend_str);
|
---|
449 | txt=ver;
|
---|
450 | Release=txt(1).Release;
|
---|
451 | relnumb=str2num(Release(3:4));
|
---|
452 | if relnumb >= 14
|
---|
453 | set(hlegend,'Interpreter','none')% desable tex interpreter
|
---|
454 | end
|
---|
455 | else
|
---|
456 | legend_old=get(hlegend,'String');
|
---|
457 | if isequal(size(legend_old,1),size(legend_str,1))&&~isequal(legend_old,legend_str)
|
---|
458 | set(hlegend,'String',[legend_old legend_str]);
|
---|
459 | end
|
---|
460 | end
|
---|
461 | end
|
---|
462 | title_str='';
|
---|
463 | if isfield(data,'filename')
|
---|
464 | [Path, title_str, ext]=fileparts(data.filename);
|
---|
465 | title_str=[title_str ext];
|
---|
466 | end
|
---|
467 | if isfield(data,'Action')
|
---|
468 | if ~isequal(title_str,'')
|
---|
469 | title_str=[title_str ', '];
|
---|
470 | end
|
---|
471 | title_str=[title_str data.Action];
|
---|
472 | end
|
---|
473 | htitle=title(title_str);
|
---|
474 | txt=ver;
|
---|
475 | Release=txt(1).Release;
|
---|
476 | relnumb=str2num(Release(3:4));
|
---|
477 | if relnumb >= 14
|
---|
478 | set(htitle,'Interpreter','none')% desable tex interpreter
|
---|
479 | end
|
---|
480 | % A REPRENDRE Mean
|
---|
481 | % hlist=findobj(gcf,'Style','listbox','Tag','liststat');
|
---|
482 | % if isempty(hlist)
|
---|
483 | % 'text'
|
---|
484 | % textmean
|
---|
485 | % set(gca,'position',[0.13,0.2,0.775,0.73])
|
---|
486 | % uicontrol('Style','popupmenu','Position',[20 20 200 20],'String',textmean,'Tag','liststat');
|
---|
487 | % else
|
---|
488 | % set(hlist(1),'String',textmean)
|
---|
489 | % end
|
---|
490 | end
|
---|
491 |
|
---|
492 |
|
---|
493 | %-------------------------------------------------------------------
|
---|
494 | function [AxeData,haxes,PlotParamOut,PlotType,errormsg]=plot_plane(Data,CellVarIndex,VarTypeCell,haxes,PlotParam,htext,PosColorbar)
|
---|
495 | %-------------------------------------------------------------------
|
---|
496 |
|
---|
497 | grid(haxes, 'off')
|
---|
498 | %default plotting parameters
|
---|
499 | PlotType='plane';%default
|
---|
500 | if ~exist('PlotParam','var')
|
---|
501 | PlotParam=[];
|
---|
502 | end
|
---|
503 | if ~isfield(PlotParam,'Scalar')
|
---|
504 | PlotParam.Scalar=[];
|
---|
505 | end
|
---|
506 | if ~isfield(PlotParam,'Vectors')
|
---|
507 | PlotParam.Vectors=[];
|
---|
508 | end
|
---|
509 | PlotParamOut=PlotParam;%default
|
---|
510 | hfig=get(haxes,'parent');
|
---|
511 | hcol=findobj(hfig,'Tag','Colorbar'); %look for colorbar axes
|
---|
512 | hima=findobj(haxes,'Tag','ima');% search existing image in the current axes
|
---|
513 | AxeData=get(haxes,'UserData'); %default
|
---|
514 | if ~isstruct(AxeData)% AxeData must be a structure
|
---|
515 | AxeData=[];
|
---|
516 | end
|
---|
517 | AxeData.NbDim=2;
|
---|
518 | if isfield(Data,'ObjectCoord')
|
---|
519 | AxeData.ObjectCoord=Data.ObjectCoord;
|
---|
520 | end
|
---|
521 | errormsg=[];%default
|
---|
522 | test_ima=0; %default: test for image or map plot
|
---|
523 | test_vec=0; %default: test for vector plots
|
---|
524 | test_black=0;
|
---|
525 | test_false=0;
|
---|
526 | test_C=0;
|
---|
527 | XName='';
|
---|
528 | x_units='';
|
---|
529 | YName='';
|
---|
530 | y_units='';
|
---|
531 | for icell=1:length(CellVarIndex) % length(CellVarIndex) =1 or 2 (from the calling function)
|
---|
532 | VarType=VarTypeCell{icell};
|
---|
533 | ivar_X=VarType.coord_x; % defines (unique) index for the variable representing unstructured x coordinate (default =[])
|
---|
534 | ivar_Y=VarType.coord_y; % defines (unique)index for the variable representing unstructured y coordinate (default =[])
|
---|
535 | ivar_U=VarType.vector_x; % defines (unique) index for the variable representing x vector component (default =[])
|
---|
536 | ivar_V=VarType.vector_y; % defines (unique) index for the variable representing y vector component (default =[])
|
---|
537 | ivar_C=[VarType.scalar VarType.image VarType.color VarType.ancillary]; %defines index (indices) for the scalar or ancillary fields
|
---|
538 | if numel(ivar_C)>1
|
---|
539 | errormsg= 'error in plot_field: too many scalar inputs';
|
---|
540 | return
|
---|
541 | end
|
---|
542 | ivar_F=VarType.warnflag; %defines index (unique) for warning flag variable
|
---|
543 | ivar_FF=VarType.errorflag; %defines index (unique) for error flag variable
|
---|
544 | ind_coord=find(VarType.coord);
|
---|
545 | if numel(ind_coord)==2
|
---|
546 | VarType.coord=VarType.coord(ind_coord);
|
---|
547 | end
|
---|
548 | % idim_Y=[];
|
---|
549 | % test_grid=0;
|
---|
550 | if ~isempty(ivar_U) && ~isempty(ivar_V)% vector components detected
|
---|
551 | if test_vec
|
---|
552 | errormsg='error in plot_field: attempt to plot two vector fields';
|
---|
553 | return
|
---|
554 | else
|
---|
555 | test_vec=1;
|
---|
556 | eval(['vec_U=Data.' Data.ListVarName{ivar_U} ';'])
|
---|
557 | eval(['vec_V=Data.' Data.ListVarName{ivar_V} ';'])
|
---|
558 | if ~isempty(ivar_X) && ~isempty(ivar_Y)% 2D field (with unstructured coordinates or structured ones (then ivar_X and ivar_Y empty)
|
---|
559 | eval(['vec_X=Data.' Data.ListVarName{ivar_X} ';'])
|
---|
560 | eval(['vec_Y=Data.' Data.ListVarName{ivar_Y} ';'])
|
---|
561 | elseif numel(VarType.coord)==2 && ~isequal(VarType.coord,[0 0]);%coordinates defines by dimension variables
|
---|
562 | eval(['y=Data.' Data.ListVarName{VarType.coord(1)} ';'])
|
---|
563 | eval(['x=Data.' Data.ListVarName{VarType.coord(2)} ';'])
|
---|
564 | if numel(y)==2 % y defined by first and last values on aregular mesh
|
---|
565 | y=linspace(y(1),y(2),size(vec_U,1));
|
---|
566 | end
|
---|
567 | if numel(x)==2 % y defined by first and last values on aregular mesh
|
---|
568 | x=linspace(x(1),x(2),size(vec_U,2));
|
---|
569 | end
|
---|
570 | [vec_X,vec_Y]=meshgrid(x,y);
|
---|
571 | else
|
---|
572 | errormsg='error in plot_field: invalid coordinate definition for vector field';
|
---|
573 | return
|
---|
574 | end
|
---|
575 | if ~isempty(ivar_C)
|
---|
576 | eval(['vec_C=Data.' Data.ListVarName{ivar_C} ';']) ;
|
---|
577 | vec_C=reshape(vec_C,1,numel(vec_C));
|
---|
578 | test_C=1;
|
---|
579 | end
|
---|
580 | if ~isempty(ivar_F)%~(isfield(PlotParam.Vectors,'HideWarning')&& isequal(PlotParam.Vectors.HideWarning,1))
|
---|
581 | if test_vec
|
---|
582 | eval(['vec_F=Data.' Data.ListVarName{ivar_F} ';']) % warning flags for dubious vectors
|
---|
583 | if ~(isfield(PlotParam.Vectors,'HideWarning') && isequal(PlotParam.Vectors.HideWarning,1))
|
---|
584 | test_black=1;
|
---|
585 | end
|
---|
586 | end
|
---|
587 | end
|
---|
588 | if ~isempty(ivar_FF) %&& ~test_false
|
---|
589 | if test_vec% TODO: deal with FF for structured coordinates
|
---|
590 | eval(['vec_FF=Data.' Data.ListVarName{ivar_FF} ';']) % flags for false vectors
|
---|
591 | end
|
---|
592 | end
|
---|
593 | end
|
---|
594 | elseif ~isempty(ivar_C) %scalar or image
|
---|
595 | if test_ima
|
---|
596 | errormsg='attempt to plot two scalar fields or images';
|
---|
597 | return
|
---|
598 | end
|
---|
599 | eval(['A=squeeze(Data.' Data.ListVarName{ivar_C} ');']) ;% scalar represented as color image
|
---|
600 | test_ima=1;
|
---|
601 | if ~isempty(ivar_X) && ~isempty(ivar_Y)% 2D field (with unstructured coordinates or structured ones (then ivar_X and ivar_Y empty)
|
---|
602 | XName=Data.ListVarName{ivar_X};
|
---|
603 | YName=Data.ListVarName{ivar_Y};
|
---|
604 | eval(['AX=Data.' XName ';'])
|
---|
605 | eval(['AY=Data.' YName ';'])
|
---|
606 | [A,AX,AY]=proj_grid(AX',AY',A',[],[],'np>256'); % interpolate on a grid
|
---|
607 | if isfield(Data,'VarAttribute')
|
---|
608 | if numel(Data.VarAttribute)>=ivar_X && isfield(Data.VarAttribute{ivar_X},'units')
|
---|
609 | x_units=['(' Data.VarAttribute{ivar_X}.units ')'];
|
---|
610 | end
|
---|
611 | if numel(Data.VarAttribute)>=ivar_Y && isfield(Data.VarAttribute{ivar_Y},'units')
|
---|
612 | y_units=['(' Data.VarAttribute{ivar_Y}.units ')'];
|
---|
613 | end
|
---|
614 | end
|
---|
615 | elseif numel(VarType.coord)==2 %structured coordinates
|
---|
616 | XName=Data.ListVarName{VarType.coord(2)};
|
---|
617 | YName=Data.ListVarName{VarType.coord(1)};
|
---|
618 | eval(['AY=Data.' Data.ListVarName{VarType.coord(1)} ';'])
|
---|
619 | eval(['AX=Data.' Data.ListVarName{VarType.coord(2)} ';'])
|
---|
620 | test_interp_X=0; %default, regularly meshed X coordinate
|
---|
621 | test_interp_Y=0; %default, regularly meshed Y coordinate
|
---|
622 | if isfield(Data,'VarAttribute')
|
---|
623 | if numel(Data.VarAttribute)>=VarType.coord(2) && isfield(Data.VarAttribute{VarType.coord(2)},'units')
|
---|
624 | x_units=['(' Data.VarAttribute{VarType.coord(2)}.units ')'];
|
---|
625 | end
|
---|
626 | if numel(Data.VarAttribute)>=VarType.coord(1) && isfield(Data.VarAttribute{VarType.coord(1)},'units')
|
---|
627 | y_units=['(' Data.VarAttribute{VarType.coord(1)}.units ')'];
|
---|
628 | end
|
---|
629 | end
|
---|
630 | if numel(AY)>2
|
---|
631 | DAY=diff(AY);
|
---|
632 | DAY_min=min(DAY);
|
---|
633 | DAY_max=max(DAY);
|
---|
634 | if sign(DAY_min)~=sign(DAY_max);% =1 for increasing values, 0 otherwise
|
---|
635 | errormsg=['errror in plot_field.m: non monotonic dimension variable ' Data.ListVarName{VarType.coord(1)} ];
|
---|
636 | return
|
---|
637 | end
|
---|
638 | test_interp_Y=(DAY_max-DAY_min)> 0.0001*abs(DAY_max);
|
---|
639 | end
|
---|
640 | if numel(AX)>2
|
---|
641 | DAX=diff(AX);
|
---|
642 | DAX_min=min(DAX);
|
---|
643 | DAX_max=max(DAX);
|
---|
644 | if sign(DAX_min)~=sign(DAX_max);% =1 for increasing values, 0 otherwise
|
---|
645 | errormsg=['errror in plot_field.m: non monotonic dimension variable ' Data.ListVarName{VarType.coord(2)} ];
|
---|
646 | return
|
---|
647 | end
|
---|
648 | test_interp_X=(DAX_max-DAX_min)> 0.0001*abs(DAX_max);
|
---|
649 | end
|
---|
650 | if test_interp_Y
|
---|
651 | npxy(1)=max([256 floor((AY(end)-AY(1))/DAY_min) floor((AY(end)-AY(1))/DAY_max)]);
|
---|
652 | yI=linspace(AY(1),AY(end),npxy(1));
|
---|
653 | if ~test_interp_X
|
---|
654 | xI=linspace(AX(1),AX(end),size(A,2));%default
|
---|
655 | AX=xI;
|
---|
656 | end
|
---|
657 | end
|
---|
658 | if test_interp_X
|
---|
659 | npxy(1)=max([256 floor((AX(end)-AX(1))/DAX_min) floor((AX(end)-AX(1))/DAX_max)]);
|
---|
660 | xI=linspace(AX(1),AX(end),npxy(2));
|
---|
661 | if ~test_interp_Y
|
---|
662 | yI=linspace(AY(1),AY(end),size(A,1));
|
---|
663 | AY=yI;
|
---|
664 | end
|
---|
665 | end
|
---|
666 | if test_interp_X || test_interp_Y
|
---|
667 | [AX2D,AY2D]=meshgrid(AX,AY);
|
---|
668 | A=interp2(AX2D,AY2D,double(A),xI,yI');
|
---|
669 | end
|
---|
670 | AX=[AX(1) AX(end)];% keep only the lower and upper bounds for image represnetation
|
---|
671 | AY=[AY(1) AY(end)];
|
---|
672 | else
|
---|
673 | errormsg='error in plot_field: invalid coordinate definition ';
|
---|
674 | return
|
---|
675 | end
|
---|
676 | %x_label=[Data.ListVarName{ivar_X} '(' x_units ')'];
|
---|
677 | end
|
---|
678 | end
|
---|
679 |
|
---|
680 | %% image or scalar plot %%%%%%%%%%%%%%%%%%%%%%%%%%
|
---|
681 |
|
---|
682 | if ~isfield(PlotParam.Scalar,'Contours')
|
---|
683 | PlotParam.Scalar.Contours=0; %default
|
---|
684 | end
|
---|
685 | PlotParamOut=PlotParam; %default
|
---|
686 | if test_ima
|
---|
687 | % distinguish B/W and color images
|
---|
688 | np=size(A);%size of image
|
---|
689 | siz=numel(np);
|
---|
690 | if siz>3
|
---|
691 | errormsg=['unrecognized scalar type: ' num2str(siz) ' dimensions'];
|
---|
692 | return
|
---|
693 | end
|
---|
694 | if siz==3
|
---|
695 | if np(3)==1
|
---|
696 | siz=2;%B W image
|
---|
697 | elseif np(3)==3
|
---|
698 | siz=3;%color image
|
---|
699 | else
|
---|
700 | errormsg=['unrecognized scalar type: ' num2str(np(3)) ' color components'];
|
---|
701 | return
|
---|
702 | end
|
---|
703 | end
|
---|
704 |
|
---|
705 | %set the color map
|
---|
706 | if isfield(PlotParam.Scalar,'BW')
|
---|
707 | BW=PlotParam.Scalar.BW; %test for BW gray scale images
|
---|
708 | else
|
---|
709 | BW=(siz==2) && (isa(A,'uint8')|| isa(A,'uint16'));% non color images represented in gray scale by default
|
---|
710 | end
|
---|
711 |
|
---|
712 | %case of grey level images or contour plot
|
---|
713 | if siz==2
|
---|
714 | if ~isfield(PlotParam.Scalar,'AutoScal')
|
---|
715 | PlotParam.Scalar.AutoScal=0;%default
|
---|
716 | end
|
---|
717 | if ~isfield(PlotParam.Scalar,'MinA')
|
---|
718 | PlotParam.Scalar.MinA=[];%default
|
---|
719 | end
|
---|
720 | if ~isfield(PlotParam.Scalar,'MaxA')
|
---|
721 | PlotParam.Scalar.MaxA=[];%default
|
---|
722 | end
|
---|
723 | if isequal(PlotParam.Scalar.AutoScal,0)||isempty(PlotParam.Scalar.MinA)||~isa(PlotParam.Scalar.MinA,'double') %correct if there is no numerical data in edit box
|
---|
724 | MinA=double(min(min(A)));
|
---|
725 | else
|
---|
726 | MinA=PlotParam.Scalar.MinA;
|
---|
727 | end;
|
---|
728 | if isequal(PlotParam.Scalar.AutoScal,0)||isempty(PlotParam.Scalar.MaxA)||~isa(PlotParam.Scalar.MaxA,'double') %correct if there is no numerical data in edit box
|
---|
729 | MaxA=double(max(max(A)));
|
---|
730 | else
|
---|
731 | MaxA=PlotParam.Scalar.MaxA;
|
---|
732 | end;
|
---|
733 | PlotParamOut.Scalar.MinA=MinA;
|
---|
734 | PlotParamOut.Scalar.MaxA=MaxA;
|
---|
735 |
|
---|
736 | % case of contour plot
|
---|
737 | if isequal(PlotParam.Scalar.Contours,1)
|
---|
738 | if ~isempty(hima) && ishandle(hima)
|
---|
739 | delete(hima)
|
---|
740 | end
|
---|
741 | if ~isfield(PlotParam.Scalar,'IncrA')
|
---|
742 | PlotParam.Scalar.IncrA=NaN;
|
---|
743 | end
|
---|
744 | if isnan(PlotParam.Scalar.IncrA)% | PlotParam.Scalar.AutoScal==0
|
---|
745 | cont=colbartick(MinA,MaxA);
|
---|
746 | intercont=cont(2)-cont(1);%default
|
---|
747 | PlotParamOut.Scalar.IncrA=intercont;
|
---|
748 | else
|
---|
749 | intercont=PlotParam.Scalar.IncrA;
|
---|
750 | end
|
---|
751 | B=A;
|
---|
752 | abscontmin=intercont*floor(MinA/intercont);
|
---|
753 | abscontmax=intercont*ceil(MaxA/intercont);
|
---|
754 | contmin=intercont*floor(min(min(B))/intercont);
|
---|
755 | contmax=intercont*ceil(max(max(B))/intercont);
|
---|
756 | cont_pos_plus=0:intercont:contmax;
|
---|
757 | cont_pos_min=double(contmin):intercont:-intercont;
|
---|
758 | cont_pos=[cont_pos_min cont_pos_plus];
|
---|
759 | sizpx=(AX(end)-AX(1))/(np(2)-1);
|
---|
760 | sizpy=(AY(1)-AY(end))/(np(1)-1);
|
---|
761 | x_cont=AX(1):sizpx:AX(end); % pixel x coordinates for image display
|
---|
762 | y_cont=AY(1):-sizpy:AY(end); % pixel x coordinates for image display
|
---|
763 | % axes(haxes)% set the input axes handle as current axis
|
---|
764 | txt=ver;%version of Matlab
|
---|
765 | Release=txt(1).Release;
|
---|
766 | relnumb=str2double(Release(3:4));
|
---|
767 | if relnumb >= 14
|
---|
768 | vec=linspace(0,1,(abscontmax-abscontmin)/intercont);%define a greyscale colormap with steps intercont
|
---|
769 | map=[vec' vec' vec'];
|
---|
770 | colormap(map);
|
---|
771 | [var,hcontour]=contour(x_cont,y_cont,B,cont_pos);
|
---|
772 | set(hcontour,'Fill','on')
|
---|
773 | set(hcontour,'LineStyle','none')
|
---|
774 | hold on
|
---|
775 | end
|
---|
776 | [var_p,hcontour_p]=contour(x_cont,y_cont,B,cont_pos_plus,'k-');
|
---|
777 | hold on
|
---|
778 | [var_m,hcontour_m]=contour(x_cont,y_cont,B,cont_pos_min,':');
|
---|
779 | set(hcontour_m,'LineColor',[1 1 1])
|
---|
780 | hold off
|
---|
781 | caxis([abscontmin abscontmax])
|
---|
782 | colormap(map);
|
---|
783 | end
|
---|
784 |
|
---|
785 | % set colormap for image display
|
---|
786 | if ~isequal(PlotParam.Scalar.Contours,1)
|
---|
787 | % rescale the grey levels with min and max, put a grey scale colorbar
|
---|
788 | B=A;
|
---|
789 | if BW
|
---|
790 | vec=linspace(0,1,255);%define a linear greyscale colormap
|
---|
791 | map=[vec' vec' vec'];
|
---|
792 | colormap(map); %grey scale color map
|
---|
793 | else
|
---|
794 | colormap('default'); % standard faulse colors for div, vort , scalar fields
|
---|
795 | end
|
---|
796 | end
|
---|
797 |
|
---|
798 | % case of color images
|
---|
799 | else
|
---|
800 | if BW
|
---|
801 | B=uint16(sum(A,3));
|
---|
802 | else
|
---|
803 | B=uint8(A);
|
---|
804 | end
|
---|
805 | MinA=0;
|
---|
806 | MaxA=255;
|
---|
807 | end
|
---|
808 |
|
---|
809 | % display usual image
|
---|
810 | if ~isequal(PlotParam.Scalar.Contours,1)
|
---|
811 | % interpolate field to increase resolution of image display
|
---|
812 | test_interp=1;
|
---|
813 | if max(np) <= 64
|
---|
814 | npxy=8*np;% increase the resolution 8 times
|
---|
815 | elseif max(np) <= 128
|
---|
816 | npxy=4*np;% increase the resolution 4 times
|
---|
817 | elseif max(np) <= 256
|
---|
818 | npxy=2*np;% increase the resolution 2 times
|
---|
819 | else
|
---|
820 | npxy=np;
|
---|
821 | test_interp=0; % no interpolation done
|
---|
822 | end
|
---|
823 | if test_interp==1%if we interpolate
|
---|
824 | x=linspace(AX(1),AX(2),np(2));
|
---|
825 | y=linspace(AY(1),AY(2),np(1));
|
---|
826 | [X,Y]=meshgrid(x,y);
|
---|
827 | xi=linspace(AX(1),AX(2),npxy(2));
|
---|
828 | yi=linspace(AY(1),AY(2),npxy(1));
|
---|
829 | B = interp2(X,Y,double(B),xi,yi');
|
---|
830 | end
|
---|
831 | % create new image if there no image handle is found
|
---|
832 | if isempty(hima)
|
---|
833 | % axes(haxes)% set haxes the current axes for image creation
|
---|
834 | % set(hfig,'CurrentAxes',haxes) % set haxes the current axes for image creation
|
---|
835 | tag=get(haxes,'Tag');
|
---|
836 | if MinA<MaxA
|
---|
837 | hima=imagesc(AX,AY,B,[MinA MaxA]);
|
---|
838 | else % to deal with uniform field
|
---|
839 | hima=imagesc(AX,AY,B,[MaxA-1 MaxA]);
|
---|
840 | end
|
---|
841 | set(hima,'Tag','ima','HitTest','off')
|
---|
842 | set(haxes,'Tag',tag);%preserve the axes tag (removed by image fct !!!)
|
---|
843 | % update an existing image
|
---|
844 | else
|
---|
845 | set(hima,'CData',B);
|
---|
846 | if MinA<MaxA
|
---|
847 | set(haxes,'CLim',[MinA MaxA])
|
---|
848 | %caxis([MinA MaxA])
|
---|
849 | else
|
---|
850 | set(haxes,'CLim',[MinA MaxA])
|
---|
851 | %caxis([MaxA-1 MaxA])
|
---|
852 | end
|
---|
853 | set(hima,'XData',AX);
|
---|
854 | set(hima,'YData',AY);
|
---|
855 | end
|
---|
856 | end
|
---|
857 | if ~isstruct(AxeData)
|
---|
858 | AxeData=[];
|
---|
859 | end
|
---|
860 | AxeData.A=A;
|
---|
861 | AxeData.AX=[AX(1) AX(end)];
|
---|
862 | AxeData.AY=[AY(1) AY(end)];
|
---|
863 | test_ima=1;
|
---|
864 |
|
---|
865 | %display the colorbar code for B/W images if Poscolorbar not empty
|
---|
866 | if siz==2 && exist('PosColorbar','var')&& ~isempty(PosColorbar)
|
---|
867 | if isempty(hcol)||~ishandle(hcol)
|
---|
868 | hcol=colorbar;%create new colorbar
|
---|
869 | end
|
---|
870 | if length(PosColorbar)==4
|
---|
871 | set(hcol,'Position',PosColorbar)
|
---|
872 | end
|
---|
873 | %YTick=0;%default
|
---|
874 | if MaxA>MinA
|
---|
875 | if isequal(PlotParam.Scalar.Contours,1)
|
---|
876 | colbarlim=get(hcol,'YLim');
|
---|
877 | scale_bar=(colbarlim(2)-colbarlim(1))/(abscontmax-abscontmin);
|
---|
878 | YTick=cont_pos(2:end-1);
|
---|
879 | YTick_scaled=colbarlim(1)+scale_bar*(YTick-abscontmin);
|
---|
880 | set(hcol,'YTick',YTick_scaled);
|
---|
881 | elseif (isfield(PlotParam.Scalar,'BW') && isequal(PlotParam.Scalar.BW,1))||isa(A,'uint8')|| isa(A,'uint16')%images
|
---|
882 | hi=get(hcol,'children');
|
---|
883 | if iscell(hi)%multiple images in colorbar
|
---|
884 | hi=hi{1};
|
---|
885 | end
|
---|
886 | set(hi,'YData',[MinA MaxA])
|
---|
887 | set(hi,'CData',(1:256)')
|
---|
888 | set(hcol,'YLim',[MinA MaxA])
|
---|
889 | YTick=colbartick(MinA,MaxA);
|
---|
890 | set(hcol,'YTick',YTick)
|
---|
891 | else
|
---|
892 | hi=get(hcol,'children');
|
---|
893 | if iscell(hi)%multiple images in colorbar
|
---|
894 | hi=hi{1};
|
---|
895 | end
|
---|
896 | set(hi,'YData',[MinA MaxA])
|
---|
897 | set(hi,'CData',(1:64)')
|
---|
898 | YTick=colbartick(MinA,MaxA);
|
---|
899 | set(hcol,'YLim',[MinA MaxA])
|
---|
900 | set(hcol,'YTick',YTick)
|
---|
901 | end
|
---|
902 | set(hcol,'Yticklabel',num2str(YTick'));
|
---|
903 | end
|
---|
904 | elseif ishandle(hcol)
|
---|
905 | delete(hcol); %erase existing colorbar if not needed
|
---|
906 | end
|
---|
907 | else%no scalar plot
|
---|
908 | if ~isempty(hima) && ishandle(hima)
|
---|
909 | delete(hima)
|
---|
910 | end
|
---|
911 | if ~isempty(hcol)&& ishandle(hcol)
|
---|
912 | delete(hcol)
|
---|
913 | end
|
---|
914 | AxeData.A=[];
|
---|
915 | AxeData.AX=[];
|
---|
916 | AxeData.AY=[];
|
---|
917 | PlotParamOut=rmfield(PlotParamOut,'Scalar');
|
---|
918 | end
|
---|
919 |
|
---|
920 | %% vector plot %%%%%%%%%%%%%%%%%%%%%%%%%%
|
---|
921 | if test_vec
|
---|
922 | %vector scale representation
|
---|
923 | if size(vec_U,1)==numel(vec_Y) && size(vec_U,2)==numel(vec_X); % x, y coordinate variables
|
---|
924 | [vec_X,vec_Y]=meshgrid(vec_X,vec_Y);
|
---|
925 | end
|
---|
926 | vec_X=reshape(vec_X,1,numel(vec_X));%reshape in matlab vectors
|
---|
927 | vec_Y=reshape(vec_Y,1,numel(vec_Y));
|
---|
928 | vec_U=reshape(vec_U,1,numel(vec_U));
|
---|
929 | vec_V=reshape(vec_V,1,numel(vec_V));
|
---|
930 | MinMaxX=max(vec_X)-min(vec_X);
|
---|
931 | MinMaxY=max(vec_Y)-min(vec_Y);
|
---|
932 | AxeData.Mesh=sqrt((MinMaxX*MinMaxY)/length(vec_X));
|
---|
933 | if ~isfield(PlotParam.Vectors,'AutoVec') || isequal(PlotParam.Vectors.AutoVec,0)|| ~isfield(PlotParam.Vectors,'VecScale')...
|
---|
934 | ||isempty(PlotParam.Vectors.VecScale)||~isa(PlotParam.Vectors.VecScale,'double') %automatic vector scale
|
---|
935 | % scale=[];
|
---|
936 | if test_false %remove false vectors
|
---|
937 | indsel=find(AxeData.FF==0);%indsel =indices of good vectors
|
---|
938 | else
|
---|
939 | indsel=[1:numel(vec_X)];%
|
---|
940 | end
|
---|
941 | if isempty(vec_U)
|
---|
942 | scale=1;
|
---|
943 | else
|
---|
944 | if isempty(indsel)
|
---|
945 | MaxU=max(abs(vec_U));
|
---|
946 | MaxV=max(abs(vec_V));
|
---|
947 | else
|
---|
948 | MaxU=max(abs(vec_U(indsel)));
|
---|
949 | MaxV=max(abs(vec_V(indsel)));
|
---|
950 | end
|
---|
951 | scale=MinMaxX/(max(MaxU,MaxV)*50);
|
---|
952 | PlotParam.Vectors.VecScale=scale;%update the 'scale' display
|
---|
953 | end
|
---|
954 | else
|
---|
955 | scale=PlotParam.Vectors.VecScale; %impose the length of vector representation
|
---|
956 | end;
|
---|
957 |
|
---|
958 | %record vectors on the plotting axes
|
---|
959 | if test_C==0
|
---|
960 | vec_C=ones(1,numel(vec_X));
|
---|
961 | end
|
---|
962 | AxeData.X=vec_X';
|
---|
963 | AxeData.Y=vec_Y';
|
---|
964 | AxeData.U=vec_U';
|
---|
965 | AxeData.V=vec_V';
|
---|
966 | AxeData.C=vec_C';
|
---|
967 | if isempty(ivar_F)
|
---|
968 | AxeData.F=[];
|
---|
969 | else
|
---|
970 | AxeData.F=vec_F';
|
---|
971 | end
|
---|
972 | if isempty(ivar_FF)
|
---|
973 | AxeData.FF=[];
|
---|
974 | else
|
---|
975 | AxeData.FF=vec_FF';
|
---|
976 | end
|
---|
977 |
|
---|
978 | %decimate by a factor 2 in vector mesh(4 in nbre of vectors)
|
---|
979 | if isfield(PlotParam.Vectors,'decimate4')&isequal(PlotParam.Vectors.decimate4,1)
|
---|
980 | diffy=diff(vec_Y); %difference dy=vec_Y(i+1)-vec_Y(i)
|
---|
981 | dy_thresh=max(abs(diffy))/2;
|
---|
982 | ind_jump=find(abs(diffy) > dy_thresh); %indices with diff(vec_Y)> max/2, detect change of line
|
---|
983 | ind_sel=1:ind_jump(1);%select the first line
|
---|
984 | for i=2:2:length(ind_jump)-1
|
---|
985 | ind_sel=[ind_sel [ind_jump(i)+1:ind_jump(i+1)]];% select the odd lines
|
---|
986 | end
|
---|
987 | nb_sel=length(ind_sel);
|
---|
988 | ind_sel=ind_sel(1:2:nb_sel);% take half the points on a line
|
---|
989 | vec_X=vec_X(ind_sel);
|
---|
990 | vec_Y=vec_Y(ind_sel);
|
---|
991 | vec_U=vec_U(ind_sel);
|
---|
992 | vec_V=vec_V(ind_sel);
|
---|
993 | vec_C=vec_C(ind_sel);
|
---|
994 | if ~isempty(ivar_F)
|
---|
995 | vec_F=vec_F(ind_sel);
|
---|
996 | end
|
---|
997 | if ~isempty(ivar_FF)
|
---|
998 | vec_FF=vec_FF(ind_sel);
|
---|
999 | end
|
---|
1000 | end
|
---|
1001 |
|
---|
1002 | %get main level color code
|
---|
1003 | [colorlist,col_vec,PlotParamOut.Vectors]=set_col_vec(PlotParam.Vectors,vec_C);
|
---|
1004 |
|
---|
1005 | % take flags into account: add flag colors to the list of colors
|
---|
1006 | sizlist=size(colorlist);
|
---|
1007 | nbcolor=sizlist(1);
|
---|
1008 | if test_black
|
---|
1009 | nbcolor=nbcolor+1;
|
---|
1010 | colorlist(nbcolor,:)=[0 0 0]; %add black to the list of colors
|
---|
1011 | if ~isempty(ivar_FF)
|
---|
1012 | ind_flag=find(vec_F~=1 & vec_F~=0 & vec_FF==0); %flag warning but not false
|
---|
1013 | else
|
---|
1014 | ind_flag=find(vec_F~=1 & vec_F~=0);
|
---|
1015 | end
|
---|
1016 | col_vec(ind_flag)=nbcolor;
|
---|
1017 | end
|
---|
1018 | nbcolor=nbcolor+1;
|
---|
1019 | if ~isempty(ivar_FF)
|
---|
1020 | ind_flag=find(vec_FF~=0);
|
---|
1021 | if isfield(PlotParam.Vectors,'HideFalse') && PlotParam.Vectors.HideFalse==1
|
---|
1022 | colorlist(nbcolor,:)=[NaN NaN NaN];% no plot of false vectors
|
---|
1023 | else
|
---|
1024 | colorlist(nbcolor,:)=[1 0 1];% magenta color
|
---|
1025 | end
|
---|
1026 | col_vec(ind_flag)=nbcolor;
|
---|
1027 | end
|
---|
1028 | %plot vectors:
|
---|
1029 | quiresetn(haxes,vec_X,vec_Y,vec_U,vec_V,scale,colorlist,col_vec);
|
---|
1030 |
|
---|
1031 | else
|
---|
1032 | hvec=findobj(haxes,'Tag','vel');
|
---|
1033 | if ~isempty(hvec)
|
---|
1034 | delete(hvec);
|
---|
1035 | end
|
---|
1036 | AxeData.X=[];
|
---|
1037 | AxeData.Y=[];
|
---|
1038 | AxeData.U=[];
|
---|
1039 | AxeData.V=[];
|
---|
1040 | AxeData.C=[];
|
---|
1041 | AxeData.W=[];
|
---|
1042 | AxeData.F=[];
|
---|
1043 | AxeData.FF=[];
|
---|
1044 | AxeData.Mesh=[];
|
---|
1045 | PlotParamOut=rmfield(PlotParamOut,'Vectors');
|
---|
1046 | end
|
---|
1047 | if isfield(Data,'Z')
|
---|
1048 | AxeData.Z=Data.Z;% A REVOIR
|
---|
1049 | end
|
---|
1050 | listfields={'AY','AX','A','X','Y','U','V','C','W','F','FF'};
|
---|
1051 | listdim={'AY','AX',{'AY','AX'},'nb_vectors','nb_vectors','nb_vectors','nb_vectors','nb_vectors','nb_vectors','nb_vectors','nb_vectors'};
|
---|
1052 | Role={'coord_y','coord_x','scalar','coord_x','coord_y','vector_x','vector_y','scalar','vector_z','warnflag','errorflag'};
|
---|
1053 | %ind_select=[];
|
---|
1054 | nbvar=0;
|
---|
1055 | AxeData.ListVarName={};
|
---|
1056 | AxeData.VarDimName={};
|
---|
1057 | AxeData.VarAttribute={};
|
---|
1058 | for ilist=1:numel(listfields)
|
---|
1059 | eval(['testvar=isfield(AxeData,listfields{ilist}) && ~isempty(AxeData.' listfields{ilist} ');'])
|
---|
1060 | if testvar
|
---|
1061 | nbvar=nbvar+1;
|
---|
1062 | AxeData.ListVarName{nbvar}=listfields{ilist};
|
---|
1063 | AxeData.VarDimName{nbvar}=listdim{ilist};
|
---|
1064 | AxeData.VarAttribute{nbvar}.Role=Role{ilist};
|
---|
1065 | end
|
---|
1066 | end
|
---|
1067 | %store the coordinate extrema occupied by the field
|
---|
1068 | test_lim=0;
|
---|
1069 | if test_vec
|
---|
1070 | Xlim=[min(vec_X) max(vec_X)];
|
---|
1071 | Ylim=[min(vec_Y) max(vec_Y)];
|
---|
1072 | test_lim=1;
|
---|
1073 | if test_ima%both background image and vectors coexist, take the wider bound
|
---|
1074 | Xlim(1)=min(AX(1),Xlim(1));
|
---|
1075 | Xlim(2)=max(AX(end),Xlim(2));
|
---|
1076 | Ylim(1)=min(AY(end),Ylim(1));
|
---|
1077 | Ylim(2)=max(AY(1),Ylim(2));
|
---|
1078 | end
|
---|
1079 | elseif test_ima %only image plot
|
---|
1080 | Xlim(1)=min(AX(1),AX(end));
|
---|
1081 | Xlim(2)=max(AX(1),AX(end));
|
---|
1082 | Ylim(1)=min(AY(1),AY(end));
|
---|
1083 | Ylim(2)=max(AY(1),AY(end));
|
---|
1084 | test_lim=1;
|
---|
1085 | end
|
---|
1086 | AxeData.RangeX=Xlim;
|
---|
1087 | AxeData.RangeY=Ylim;
|
---|
1088 | % adjust the size of the plot to include the whole field, except if PlotParam.FixedLimits=1
|
---|
1089 | if ~(isfield(PlotParam,'FixedLimits') && PlotParam.FixedLimits) && test_lim
|
---|
1090 | if Xlim(2)>Xlim(1)
|
---|
1091 | set(haxes,'XLim',Xlim);% set x limits of frame in axes coordinates
|
---|
1092 | end
|
---|
1093 | if Ylim(2)>Ylim(1)
|
---|
1094 | set(haxes,'YLim',Ylim);% set y limits of frame in axes coordinate
|
---|
1095 | end
|
---|
1096 | end
|
---|
1097 | if ~(isfield(PlotParam,'Auto_xy') && isequal(PlotParam.Auto_xy,1))
|
---|
1098 | set(haxes,'DataAspectRatio',[1 1 1])
|
---|
1099 | end
|
---|
1100 | set(haxes,'YDir','normal')
|
---|
1101 | set(get(haxes,'XLabel'),'String',[XName x_units]);
|
---|
1102 | set(get(haxes,'YLabel'),'String',[YName y_units]);
|
---|
1103 |
|
---|
1104 | %-------------------------------------------------------------------
|
---|
1105 | % --- function for plotting vectors
|
---|
1106 | %INPUT:
|
---|
1107 | % haxes: handles of the plotting axes
|
---|
1108 | % x,y,u,v: vectors coordinates and vector components to plot, arrays withb the same dimension
|
---|
1109 | % scale: scaling factor for vector length representation
|
---|
1110 | % colorlist(icolor,:): list of vector colors, dim (nbcolor,3), depending on color #i
|
---|
1111 | % col_vec: matlab vector setting the color number #i for each velocity vector
|
---|
1112 | function quiresetn(haxes,x,y,u,v,scale,colorlist,col_vec)
|
---|
1113 | %-------------------------------------------------------------------
|
---|
1114 | %define arrows
|
---|
1115 | theta=0.5 ;%angle arrow
|
---|
1116 | alpha=0.3 ;%length arrow
|
---|
1117 | rot=alpha*[cos(theta) -sin(theta); sin(theta) cos(theta)]';
|
---|
1118 | %find the existing lines
|
---|
1119 | %h=findobj(gca,'Type','Line');% search existing lines in the current axes
|
---|
1120 | h=findobj(haxes,'Tag','vel');% search existing lines in the current axes
|
---|
1121 | sizh=size(h);
|
---|
1122 | set(h,'EraseMode','xor');
|
---|
1123 | set(haxes,'NextPlot','replacechildren');
|
---|
1124 |
|
---|
1125 | %drawnow
|
---|
1126 | %create lines (if no lines) or modify them
|
---|
1127 | if ~isequal(size(col_vec),size(x))
|
---|
1128 | col_vec=ones(size(x));% case of error in col_vec input
|
---|
1129 | end
|
---|
1130 | sizlist=size(colorlist);
|
---|
1131 | ncolor=sizlist(1);
|
---|
1132 |
|
---|
1133 | for icolor=1:ncolor
|
---|
1134 | %determine the line positions for each color icolor
|
---|
1135 | ind=find(col_vec==icolor);
|
---|
1136 | xc=x(ind);
|
---|
1137 | yc=y(ind);
|
---|
1138 | uc=u(ind)*scale;
|
---|
1139 | vc=v(ind)*scale;
|
---|
1140 | n=size(xc);
|
---|
1141 | xN=NaN*ones(size(xc));
|
---|
1142 | matx=[xc(:)-uc(:)/2 xc(:)+uc(:)/2 xN(:)]';
|
---|
1143 | % matx=[xc(:) xc(:)+uc(:) xN(:)]';
|
---|
1144 | matx=reshape(matx,1,3*n(2));
|
---|
1145 | maty=[yc(:)-vc(:)/2 yc(:)+vc(:)/2 xN(:)]';
|
---|
1146 | % maty=[yc(:) yc(:)+vc(:) xN(:)]';
|
---|
1147 | maty=reshape(maty,1,3*n(2));
|
---|
1148 |
|
---|
1149 | %determine arrow heads
|
---|
1150 | arrowplus=rot*[uc;vc];
|
---|
1151 | arrowmoins=rot'*[uc;vc];
|
---|
1152 | x1=xc+uc/2-arrowplus(1,:);
|
---|
1153 | x2=xc+uc/2;
|
---|
1154 | x3=xc+uc/2-arrowmoins(1,:);
|
---|
1155 | y1=yc+vc/2-arrowplus(2,:);
|
---|
1156 | y2=yc+vc/2;
|
---|
1157 | y3=yc+vc/2-arrowmoins(2,:);
|
---|
1158 | % x1=xc+uc-arrowplus(1,:);
|
---|
1159 | % x2=xc+uc;
|
---|
1160 | % x3=xc+uc-arrowmoins(1,:);
|
---|
1161 | % y1=yc+vc-arrowplus(2,:);
|
---|
1162 | % y2=yc+vc;
|
---|
1163 | % y3=yc+vc-arrowmoins(2,:);
|
---|
1164 | matxar=[x1(:) x2(:) x3(:) xN(:)]';
|
---|
1165 | matxar=reshape(matxar,1,4*n(2));
|
---|
1166 | matyar=[y1(:) y2(:) y3(:) xN(:)]';
|
---|
1167 | matyar=reshape(matyar,1,4*n(2));
|
---|
1168 | %draw the line or modify the existing ones
|
---|
1169 | hx = [x1;x2;x3];
|
---|
1170 | hy = [y1;y2;y3];
|
---|
1171 | tri=reshape([1:3*length(uc)],3,[])';
|
---|
1172 | d = tri(:,[1 2 3 1])';
|
---|
1173 |
|
---|
1174 | isn=isnan(colorlist(icolor,:));%test if color NaN
|
---|
1175 | if 2*icolor > sizh(1) %if icolor exceeds the number of existing ones
|
---|
1176 | %axes(haxes)
|
---|
1177 | % hfig=get(haxes,'parent');
|
---|
1178 | % axes(haxes)
|
---|
1179 | % set(0,'CurrentFigure',hfig)
|
---|
1180 | % set(hfig,'CurrentAxes',haxes)
|
---|
1181 | if ~isn(1) %if the vectors are visible color not nan
|
---|
1182 | if n(2)>0
|
---|
1183 | hold on
|
---|
1184 | line(matx,maty,'Color',colorlist(icolor,:),'Tag','vel');% plot new lines
|
---|
1185 | line(matxar,matyar,'Color',colorlist(icolor,:),'Tag','vel');% plot arrows
|
---|
1186 | % fill(hx(d),hy(d),colorlist(icolor,:),'EdgeColor','none','
|
---|
1187 | % Tag','Vel');
|
---|
1188 | end
|
---|
1189 | end
|
---|
1190 | else
|
---|
1191 | if isn(1)
|
---|
1192 | delete(h(2*icolor-1))
|
---|
1193 | delete(h(2*icolor))
|
---|
1194 | else
|
---|
1195 | set(h(2*icolor-1),'Xdata',matx,'Ydata',maty);
|
---|
1196 | set(h(2*icolor-1),'Color',colorlist(icolor,:));
|
---|
1197 | set(h(2*icolor-1),'EraseMode','xor');
|
---|
1198 | set(h(2*icolor),'Xdata',matxar,'Ydata',matyar);
|
---|
1199 | set(h(2*icolor),'Color',colorlist(icolor,:));
|
---|
1200 | set(h(2*icolor),'EraseMode','xor');
|
---|
1201 | end
|
---|
1202 | end
|
---|
1203 | end
|
---|
1204 | if sizh(1) > 2*ncolor
|
---|
1205 | for icolor=ncolor+1 : sizh(1)/2%delete additional objects
|
---|
1206 | delete(h(2*icolor-1))
|
---|
1207 | delete(h(2*icolor))
|
---|
1208 | end
|
---|
1209 | end
|
---|
1210 |
|
---|
1211 | %-------------------------------------------------------------------
|
---|
1212 | % ---- determine tick positions for colorbar
|
---|
1213 | function YTick=colbartick(MinA,MaxA)
|
---|
1214 | %-------------------------------------------------------------------
|
---|
1215 | %determine tick positions with "simple" values between MinA and MaxA
|
---|
1216 | YTick=0;%default
|
---|
1217 | maxabs=max([abs(MinA) abs(MaxA)]);
|
---|
1218 | if maxabs>0
|
---|
1219 | ord=10^(floor(log10(maxabs)));%order of magnitude
|
---|
1220 | div=1;
|
---|
1221 | siz2=1;
|
---|
1222 | while siz2<2
|
---|
1223 | % values=[-9:div:9];
|
---|
1224 | values=-10:div:10;
|
---|
1225 | ind=find((ord*values-MaxA)<0 & (ord*values-MinA)>0);%indices of 'values' such that MinA<ord*values<MaxA
|
---|
1226 | siz=size(ind);
|
---|
1227 | if siz(2)<4%if there are less than 4 selected values (4 levels)
|
---|
1228 | values=-9:0.5*div:9;
|
---|
1229 | ind=find((ord*values-MaxA)<0 & (ord*values-MinA)>0);
|
---|
1230 | end
|
---|
1231 | siz2=size(ind,2);
|
---|
1232 | % siz2=siz(2)
|
---|
1233 | div=div/10;
|
---|
1234 | end
|
---|
1235 | YTick=ord*values(ind);
|
---|
1236 | end
|
---|
1237 |
|
---|