1 | %'tps_coeff_field': calculate the thin plate spline (tps) coefficients within subdomains for a field structure |
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2 | %--------------------------------------------------------------------- |
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3 | % DataOut=tps_coeff_field(DataIn,checkall) |
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4 | % |
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5 | % OUTPUT: |
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6 | % DataOut: output field structure, reproducing the input field structure DataIn and adding the fields: |
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7 | % .Coord_tps |
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8 | % .[VarName '_tps'] for each eligible input variable VarName (scalar or vector components) |
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9 | % errormsg: error message, = '' by default |
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10 | % |
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11 | % INPUT: |
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12 | % DataIn: intput field structure |
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13 | % checkall:=1 if tps is needed for all fields (a projection mode interp_tps has been chosen), |
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14 | % =0 otherwise (tps only needed to get spatial derivatives of scattered data) |
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15 | % |
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16 | % called functions: |
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17 | % 'find_field_cells': analyse the input field structure, grouping the variables into 'fields' with common coordinates |
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18 | % 'set_subdomains': sort a set of points defined by scattered coordinates in subdomains, as needed for tps interpolation |
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19 | % 'tps_coeff': calculate the thin plate spline (tps) coefficients for a single domain. |
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20 | |
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21 | %======================================================================= |
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22 | % Copyright 2008-2022, LEGI UMR 5519 / CNRS UGA G-INP, Grenoble, France |
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23 | % http://www.legi.grenoble-inp.fr |
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24 | % Joel.Sommeria - Joel.Sommeria (A) legi.cnrs.fr |
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25 | % |
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26 | % This file is part of the toolbox UVMAT. |
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27 | % |
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28 | % UVMAT is free software; you can redistribute it and/or modify |
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29 | % it under the terms of the GNU General Public License as published |
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30 | % by the Free Software Foundation; either version 2 of the license, |
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31 | % or (at your option) any later version. |
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32 | % |
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33 | % UVMAT is distributed in the hope that it will be useful, |
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34 | % but WITHOUT ANY WARRANTY; without even the implied warranty of |
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35 | % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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36 | % GNU General Public License (see LICENSE.txt) for more details. |
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37 | %======================================================================= |
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38 | |
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39 | function [DataOut,errormsg]=tps_coeff_field(DataIn,checkall) |
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40 | DataOut=DataIn;%default |
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41 | SubDomainNbPoint=1000; %default, estimated nbre of data source points in a subdomain used for tps |
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42 | if isfield(DataIn,'SubDomain') |
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43 | SubDomainNbPoint=DataIn.SubDomain;%old convention |
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44 | end |
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45 | if isfield(DataIn,'SubDomainNbPoint') |
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46 | SubDomainNbPoint=DataIn.SubDomainNbPoint;% |
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47 | end |
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48 | [CellInfo,NbDimArray,errormsg]=find_field_cells(DataIn); |
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49 | if ~isempty(errormsg) |
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50 | errormsg=['tps_coeff_field/find_field_cells/' errormsg]; |
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51 | return |
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52 | end |
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53 | nbtps=0;% indicate the number of tps coordinate sets in the field structure (in general =1) |
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54 | |
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55 | for icell=1:numel(CellInfo); |
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56 | if NbDimArray(icell)>=2 && strcmp(CellInfo{icell}.CoordType,'scattered') %if the coordinates are scattered |
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57 | NbCoord=NbDimArray(icell);% dimension of space |
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58 | nbtps=nbtps+1;% indicate the number of tps coordinate sets in the field structure (in general =1) |
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59 | X=DataIn.(DataIn.ListVarName{CellInfo{icell}.CoordIndex(end)});% value of x coordinate |
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60 | Y=DataIn.(DataIn.ListVarName{CellInfo{icell}.CoordIndex(end-1)});% value of y coordinate |
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61 | check_interp_tps=false(numel(DataIn.ListVarName),1); |
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62 | Index_interp=[];% indices of variables to interpolate |
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63 | if isfield(CellInfo{icell},'VarIndex_scalar')%interpolate scalar |
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64 | Index_interp=[Index_interp CellInfo{icell}.VarIndex_scalar]; |
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65 | end |
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66 | if isfield(CellInfo{icell},'VarIndex_vector_x')%interpolate vector x component |
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67 | Index_interp=[Index_interp CellInfo{icell}.VarIndex_vector_x]; |
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68 | end |
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69 | if isfield(CellInfo{icell},'VarIndex_vector_y')%interpolate vector y component |
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70 | Index_interp=[Index_interp CellInfo{icell}.VarIndex_vector_y]; |
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71 | end |
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72 | for iselect=1:numel(Index_interp) |
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73 | Attr=DataIn.VarAttribute{Index_interp(iselect)}; |
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74 | if ~isfield(Attr,'VarIndex_tps')&& (checkall || (isfield(Attr,'ProjModeRequest')&&strcmp(Attr.ProjModeRequest,'interp_tps'))) |
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75 | check_interp_tps(Index_interp(iselect))=1; |
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76 | end |
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77 | end |
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78 | ListVarInterp=DataIn.ListVarName(check_interp_tps); |
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79 | VarIndexInterp=find(check_interp_tps); |
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80 | if ~isempty(ListVarInterp) |
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81 | % exclude data points marked 'false' for interpolation |
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82 | if isfield(CellInfo{icell},'VarIndex_errorflag') |
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83 | FF=DataIn.(DataIn.ListVarName{CellInfo{icell}.VarIndex_errorflag});% error flag |
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84 | X=X(FF==0); |
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85 | Y=Y(FF==0); |
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86 | for ilist=1:numel(ListVarInterp) |
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87 | DataIn.(ListVarInterp{ilist})=DataIn.(ListVarInterp{ilist})(FF==0); |
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88 | end |
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89 | end |
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90 | term=''; |
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91 | if nbtps>1 |
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92 | term=['_' num2str(nbtps-1)]; |
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93 | end |
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94 | ListNewVar=cell(1,numel(ListVarInterp)+3); |
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95 | ListNewVar(1:3)={['SubRange' term],['NbCentre' term],['Coord_tps' term]}; |
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96 | for ilist=1:numel(ListVarInterp) |
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97 | ListNewVar{ilist+3}=[ListVarInterp{ilist} '_tps' term]; |
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98 | end |
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99 | nbvar=numel(DataIn.ListVarName); |
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100 | DataOut.ListVarName=[DataIn.ListVarName ListNewVar]; |
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101 | DataOut.VarDimName=[DataIn.VarDimName {{'nb_coord','nb_bounds',['nb_subdomain' term]}} {['nb_subdomain' term]} ... |
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102 | {{['nb_tps' term],'nb_coord',['nb_subdomain' term]}}]; |
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103 | DataOut.VarAttribute{nbvar+3}.Role='coord_tps'; |
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104 | [SubRange,NbCentre,IndSelSubDomain] =set_subdomains([X Y],SubDomainNbPoint);% create subdomains for tps |
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105 | for isub=1:size(SubRange,3) |
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106 | ind_sel=IndSelSubDomain(1:NbCentre(isub),isub);% array indices selected for the subdomain |
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107 | DataOut.(['Coord_tps' term])(1:NbCentre(isub),1:2,isub)=[X(ind_sel) Y(ind_sel)]; |
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108 | DataOut.(['Coord_tps' term])(NbCentre(isub)+1:NbCentre(isub)+3,1:2,isub)=0;%matrix of zeros to complement the matrix Coord_tps (conveninent for file storage) |
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109 | end |
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110 | for ivar=1:numel(ListVarInterp) |
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111 | DataOut.VarDimName{nbvar+3+ivar}={['nb_tps' term],['nb_subdomain' term]}; |
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112 | DataOut.VarAttribute{nbvar+3+ivar}=DataIn.VarAttribute{CellInfo{icell}.VarIndex_vector_x};%reproduce attributes of velocity |
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113 | if ~isfield(DataIn.VarAttribute{VarIndexInterp(ivar)},'Role') |
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114 | DataOut.VarAttribute{nbvar+3+ivar}.Role='scalar_tps'; |
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115 | else |
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116 | DataOut.VarAttribute{nbvar+3+ivar}.Role=[DataIn.VarAttribute{VarIndexInterp(ivar)}.Role '_tps']; |
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117 | end |
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118 | DataOut.VarAttribute{VarIndexInterp(ivar)}.VarIndex_tps=nbvar+3+ivar;% indicate the tps correspondance in the source data |
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119 | end |
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120 | if isfield(DataOut,'ListDimName')%cleaning' |
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121 | DataOut=rmfield(DataOut,'ListDimName'); |
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122 | end |
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123 | if isfield(DataOut,'DimValue')%cleaning |
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124 | DataOut=rmfield(DataOut,'DimValue'); |
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125 | end |
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126 | DataOut.(['SubRange' term])=SubRange; |
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127 | DataOut.(['NbCentre' term])=NbCentre; |
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128 | for ilist=1:numel(VarIndexInterp) |
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129 | for isub=1:size(SubRange,3) |
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130 | ind_sel=IndSelSubDomain(1:NbCentre(isub),isub);% array indices selected for the subdomain |
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131 | [tild,Var_tps(1:NbCentre(isub)+NbCoord+1,isub)]=tps_coeff([X(ind_sel) Y(ind_sel)],DataIn.(ListVarInterp{ilist})(ind_sel),0);%calculate the tps coeff in the subdomain |
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132 | end |
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133 | DataOut.(ListNewVar{ilist+3})=Var_tps; |
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134 | end |
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135 | end |
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136 | end |
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137 | end |
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