1 | %'read_civdata': reads new civ data from netcdf files
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2 | %------------------------------------------------------------------
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3 | %
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4 | % function [Field,VelTypeOut]=read_civdata(FileName,FieldNames,VelType)
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5 | %
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6 | % OUTPUT:
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7 | % Field: structure representing the selected field, containing
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8 | % .Txt: (char string) error message if any
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9 | % .ListGlobalAttribute: list of global attributes containing:
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10 | % .NbCoord: number of vector components
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11 | % .NbDim: number of dimensions (=2 or 3)
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12 | % .Dt: time interval for the corresponding image pair
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13 | % .Time: absolute time (average of the initial image pair)
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14 | % .CivStage: =0,
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15 | % =1, civ1 has been performed only
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16 | % =2, fix1 has been performed
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17 | % =3, pacth1 has been performed
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18 | % =4, civ2 has been performed
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19 | % =5, fix2 has been performed
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20 | % =6, pacth2 has been performed
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21 | % .CoordUnit: 'pixel'
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22 | % .ListVarName: {'X' 'Y' 'U' 'V' 'F' 'FF'}
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23 | % .X, .Y, .Z: set of vector coordinates
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24 | % .U,.V,.W: corresponding set of vector components
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25 | % .F: warning flags
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26 | % .FF: error flag, =0 for good vectors
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27 | % .C: scalar associated with velocity (used for vector colors)
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28 | %
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29 | % VelTypeOut: velocity type corresponding to the selected field: ='civ1','interp1','interp2','civ2'....
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30 | %
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31 | % INPUT:
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32 | % FileName: file name (string).
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33 | % FieldNames =cell of field names to get, which can contain the strings:
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34 | % 'ima_cor': image correlation, vec_c or vec2_C
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35 | % 'vort','div','strain': requires velocity derivatives DUDX...
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36 | % 'error': error estimate (vec_E or vec2_E)
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37 | %
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38 | % VelType : character string indicating the types of velocity fields to read ('civ1','civ2'...)
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39 | % if vel_type=[] or'*', a priority choice, given by vel_type_out{1,2}, is done depending
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40 | % if vel_type='filter'; a structured field is sought (filter2 in priority, then filter1)
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41 | %
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42 | % FUNCTIONS called:
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43 | % 'varcivx_generator':, sets the names of vaiables to read in the netcdf file
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44 | % 'nc2struct': reads a netcdf file
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45 |
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46 | %=======================================================================
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47 | % Copyright 2008-2024, LEGI UMR 5519 / CNRS UGA G-INP, Grenoble, France
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48 | % http://www.legi.grenoble-inp.fr
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49 | % Joel.Sommeria - Joel.Sommeria (A) univ-grenoble-alpes.fr
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50 | %
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51 | % This file is part of the toolbox UVMAT.
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52 | %
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53 | % UVMAT is free software; you can redistribute it and/or modify
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54 | % it under the terms of the GNU General Public License as published
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55 | % by the Free Software Foundation; either version 2 of the license,
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56 | % or (at your option) any later version.
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57 | %
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58 | % UVMAT is distributed in the hope that it will be useful,
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59 | % but WITHOUT ANY WARRANTY; without even the implied warranty of
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60 | % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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61 | % GNU General Public License (see LICENSE.txt) for more details.
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62 | %=======================================================================
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63 |
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64 | function [Field,VelTypeOut,errormsg]=read_pivdata_fluidimage(FileName,FieldNames,VelType)
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65 |
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66 | %% default input
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67 | if ~exist('VelType','var')
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68 | VelType='';
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69 | end
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70 | if isequal(VelType,'*')
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71 | VelType='';
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72 | end
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73 | if isempty(VelType)
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74 | VelType='';
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75 | end
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76 | if ~exist('FieldNames','var')
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77 | FieldNames=[]; %default
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78 | end
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79 | if isempty(FieldNames)||isempty(FieldNames{1})
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80 | FieldNames={'vec(U,V)'};
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81 | end
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82 | Field=[];
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83 | VelTypeOut=VelType;
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84 | errormsg='';
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85 | if ~exist(FileName,'file')
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86 | errormsg=['input file ' FileName ' does not exist'];
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87 | return
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88 | end
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89 | if ischar(FieldNames), FieldNames={FieldNames}; end
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90 | ProjModeRequest='';
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91 | for ilist=1:length(FieldNames)
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92 | if ~isempty(FieldNames{ilist})
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93 | switch FieldNames{ilist}
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94 | case {'U','V','norm(U,V)'}
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95 | if ~strcmp(FieldNames{1},'vec(U,V)')% if the scalar is not used as color of vectors
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96 | ProjModeRequest='interp_lin';
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97 | end
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98 | case {'curl(U,V)','div(U,V)','strain(U,V)'}
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99 | ProjModeRequest='interp_tps';
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100 | end
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101 | end
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102 | end
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103 |
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104 | %% read the hdf file
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105 | Datasets=hdf5load(FileName);%read the hdf file
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106 |
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107 | %% Global attributes
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108 | Field.ListGlobalAttribute={'Dt','Time','CivStage','NbCoord','NbDim','TimeUnit','CoordUnit'};
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109 | Field.Dt=1;
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110 | Field.Time=0;
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111 | if isfield(Datasets, 'piv1')
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112 | Field.CivStage=6;
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113 | else
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114 | Field.CivStage=3;
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115 | end
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116 | Field.NbCoord=2;
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117 | Field.NbDim=2;
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118 | Field.TimeUnit='s';
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119 | Field.CoordUnit='pixel';
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120 |
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121 | %% reading data
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122 | Field.ListVarName={'X' 'Y' 'U' 'V' 'C' 'F' 'FF'};
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123 | Field.VarDimName={'nb_vec' 'nb_vec' 'nb_vec' 'nb_vec' 'nb_vec' 'nb_vec' 'nb_vec'};
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124 | % Field.VarAttribute{1}.Role='coord_x';
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125 | % Field.VarAttribute{2}.Role='coord_y';
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126 | % Field.VarAttribute{3}.Role='vector_x';
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127 | % Field.VarAttribute{3}.FieldName={'vec(U,V)'};
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128 |
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129 | VelTypeOut=VelType;
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130 | switch VelType
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131 | case {'civ1','filter1'}
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132 | Data=Datasets.piv0;
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133 | %VelTypeOut='filter1';
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134 | case {'civ2','filter2'}
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135 | Data=Datasets.piv1;
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136 | %VelTypeOut='filter2';
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137 | case ''% no field specified as input, choose the most appropriate
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138 | if isfield(Datasets, 'piv1')
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139 | Data=Datasets.piv1;
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140 | VelTypeOut='filter2';
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141 | else
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142 | Data=Datasets.piv0;
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143 | VelTypeOut='filter1';
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144 | end
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145 | end
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146 | npy=double(Datasets.couple.shape_images(1)); %number of pixels along y for the image sources
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147 | switch VelType
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148 | case {'civ1','civ2'}
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149 | Field.X= double(Data.xs);
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150 | Field.Y= npy-double(Data.ys);
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151 | Field.U= double(Data.deltaxs);
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152 | Field.V= -double(Data.deltays);
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153 | checkcolor=1;%color representation of the correlation and errors
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154 | case 'filter1'
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155 | Field.X= double(Data.ixvecs_approx);
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156 | Field.Y= npy-double(Data.iyvecs_approx);
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157 | Field.U= double(Data.deltaxs_approx);
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158 | Field.V= -double(Data.deltays_approx);
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159 | checkcolor=0;%no color representation of the correlation and errors
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160 | case {'filter2',''}
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161 | Field.X= double(Data.xs_smooth);
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162 | Field.Y= npy-double(Data.ys_smooth);
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163 | Field.U= double(Data.deltaxs_smooth);
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164 | Field.V= -double(Data.deltays_smooth);
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165 | checkcolor=1;%color representation of the correlation and errors
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166 | end
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167 | Field.U(isnan(Field.U)) = 0;
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168 | Field.V(isnan(Field.V)) = 0;
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169 | Field.C=ones(size(Field.U));%default
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170 | Field.F=zeros(size(Field.U));
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171 | Field.FF=zeros(size(Field.U));
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172 | if checkcolor
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173 | Field.C = double(Data.correls_max);
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174 | Field.F(Data.errors.keys + 1)=1; % !!! convention matlab vs python
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175 | Field.FF(Data.errors.keys + 1)=1;
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176 | end
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177 |
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178 | %% set variable attributes
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179 | ivar_U_tps=[];
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180 | ivar_V_tps=[];
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181 | role={'coord_x','coord_y','vector_x','vector_y','ancillary','warnflag','errorflag'};
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182 | vardetect=ones(size(role));
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183 | var_ind=find(vardetect);
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184 | for ivar=1:numel(var_ind)
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185 | Field.VarAttribute{ivar}.Role=role{var_ind(ivar)};
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186 | Field.VarAttribute{ivar}.Mesh=0.025;%typical mesh for histograms O.025 pixel (used in series)
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187 | Field.VarAttribute{ivar}.ProjModeRequest=ProjModeRequest;
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188 | if strcmp(role{var_ind(ivar)},'vector_x')
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189 | Field.VarAttribute{ivar}.FieldName=FieldNames;
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190 | ivar_U=ivar;
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191 | end
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192 | if strcmp(role{var_ind(ivar)},'vector_x_tps')
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193 | Field.VarAttribute{ivar}.FieldName=FieldNames;
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194 | ivar_U_tps=ivar;
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195 | end
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196 | if strcmp(role{var_ind(ivar)},'vector_y')
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197 | Field.VarAttribute{ivar}.FieldName=FieldNames;
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198 | ivar_V=ivar;
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199 | end
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200 | if strcmp(role{var_ind(ivar)},'vector_y_tps')
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201 | Field.VarAttribute{ivar}.FieldName=FieldNames;
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202 | ivar_V_tps=ivar;
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203 | end
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204 | end
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205 | if ~isempty(ivar_U_tps)
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206 | Field.VarAttribute{ivar_U}.VarIndex_tps=ivar_U_tps;
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207 | end
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208 | if ~isempty(ivar_V_tps)
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209 | Field.VarAttribute{ivar_V}.VarIndex_tps=ivar_V_tps;
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210 | end
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211 |
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212 |
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