1 | % 'struct2nc': create a netcdf file from a Matlab structure |
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2 | %--------------------------------------------------------------------- |
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3 | % errormsg=struct2nc(flname,Data,action) |
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4 | % |
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5 | % OUTPUT: |
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6 | % errormsg=error message, =[]: default, no error |
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7 | % |
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8 | % INPUT: |
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9 | % flname: name of the netcdf file to create (must end with the extension '.nc') |
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10 | % Data: structure containing all the information of the netcdf file (or netcdf object) |
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11 | % with fields: |
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12 | % (optional) .ListGlobalAttribute: list (cell array of character strings) of the names of the global attributes Att_1, Att_2... |
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13 | % .Att_1,Att_2...: values of the global attributes |
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14 | % (requested) .ListVarName: list of the variable names Var_1, Var_2....(cell array of character strings). |
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15 | % (requested) .VarDimName: list of dimension names for each element of .ListVarName (cell array of string cells) |
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16 | % (optional) .VarAttribute: cell array of structures of the form .VarAttribute{ivar}.key=value, defining an attribute key name and value for the variable #ivar |
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17 | % (requested) .Var1, .Var2....: variables (Matlab arrays) with names listed in .ListVarName |
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18 | % action: if ='keep_open', don't close the file after creation, keep it open for further data input |
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19 | |
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20 | %======================================================================= |
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21 | % Copyright 2008-2022, LEGI UMR 5519 / CNRS UGA G-INP, Grenoble, France |
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22 | % http://www.legi.grenoble-inp.fr |
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23 | % Joel.Sommeria - Joel.Sommeria (A) legi.cnrs.fr |
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24 | % |
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25 | % This file is part of the toolbox UVMAT. |
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26 | % |
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27 | % UVMAT is free software; you can redistribute it and/or modify |
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28 | % it under the terms of the GNU General Public License as published |
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29 | % by the Free Software Foundation; either version 2 of the license, |
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30 | % or (at your option) any later version. |
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31 | % |
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32 | % UVMAT is distributed in the hope that it will be useful, |
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33 | % but WITHOUT ANY WARRANTY; without even the implied warranty of |
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34 | % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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35 | % GNU General Public License (see LICENSE.txt) for more details. |
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36 | %======================================================================= |
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37 | |
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38 | function [errormsg,nc]=struct2nc(flname,Data,action,ListDimName,DimValue,VarDimIndex) |
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39 | nc=[]; |
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40 | if ~ischar(flname) |
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41 | errormsg='invalid input for the netcf file name'; |
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42 | return |
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43 | end |
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44 | FilePath=fileparts(flname); |
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45 | if ~strcmp(FilePath,'') && ~exist(FilePath,'dir') |
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46 | errormsg=['directory ' FilePath ' needs to be created']; |
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47 | return |
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48 | end |
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49 | if ~exist('Data','var') |
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50 | errormsg='no data input for the netcdf file'; |
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51 | return |
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52 | end |
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53 | |
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54 | %% check the validity of the input field structure |
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55 | if ~ (exist('action','var') && strcmp(action,'keep_open')) |
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56 | [errormsg,ListDimName,DimValue,VarDimIndex]=check_field_structure(Data); |
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57 | if ~isempty(errormsg) |
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58 | errormsg=['error in struct2nc:invalid input structure_' errormsg]; |
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59 | return |
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60 | end |
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61 | end |
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62 | ListVarName=Data.ListVarName; |
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63 | |
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64 | %% create the netcdf file with name flname in format NETCDF4 |
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65 | cmode = netcdf.getConstant('NETCDF4'); |
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66 | cmode = bitor(cmode, netcdf.getConstant('CLASSIC_MODEL')); |
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67 | cmode = bitor(cmode, netcdf.getConstant('CLOBBER')); |
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68 | nc = netcdf.create(flname, cmode); |
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69 | |
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70 | %% write global constants |
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71 | if isfield(Data,'ListGlobalAttribute') |
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72 | keys=Data.ListGlobalAttribute; |
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73 | for iattr=1:length(keys) |
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74 | if isfield(Data,keys{iattr}) |
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75 | testvar=0; |
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76 | for ivar=1:length(ListVarName)% eliminate possible global attributes with the same name as a variable |
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77 | if isequal(ListVarName{ivar}, keys{iattr}) |
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78 | testvar=1; |
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79 | break |
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80 | end |
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81 | end |
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82 | if ~testvar |
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83 | eval(['cte=Data.' keys{iattr} ';']) |
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84 | if (ischar(cte) ||isnumeric(cte)) && ~isempty(cte)%&& ~isequal(cte,'') |
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85 | %write constant only if it is numeric or char string, and not empty |
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86 | netcdf.putAtt(nc,netcdf.getConstant('NC_GLOBAL'),keys{iattr},cte) |
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87 | end |
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88 | end |
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89 | end |
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90 | end |
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91 | end |
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92 | |
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93 | %% create the dimensions |
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94 | dimid=zeros(1,length(ListDimName)); |
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95 | for idim=1:length(ListDimName) |
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96 | dimid(idim) = netcdf.defDim(nc,ListDimName{idim},DimValue(idim)); |
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97 | end |
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98 | VarAttribute={}; %default |
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99 | testattr=0; |
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100 | if isfield(Data,'VarAttribute') |
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101 | VarAttribute=Data.VarAttribute; |
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102 | testattr=1; |
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103 | end |
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104 | |
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105 | |
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106 | %% create the variables |
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107 | varid=nan(1,length(Data.ListVarName)); |
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108 | for ivar=1:length(ListVarName) |
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109 | if isfield(Data,ListVarName{ivar}) |
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110 | VarClass{ivar}=class(Data.(ListVarName{ivar})); |
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111 | VarType=''; |
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112 | switch VarClass{ivar} |
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113 | case {'single','double'} |
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114 | VarType='nc_float'; % store all floating reals as single |
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115 | case {'int8','uint8','int16','uint16','int32','uint32','int64','uint64'} |
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116 | VarType='nc_int'; |
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117 | case 'logical' |
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118 | VarType='nc_int'; |
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119 | Data.(ListVarName{ivar})=uint8(Data.(ListVarName{ivar})); |
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120 | end |
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121 | if ~isempty(VarType) |
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122 | varid(ivar)=netcdf.defVar(nc,ListVarName{ivar},VarType,dimid(VarDimIndex{ivar}));%define variable |
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123 | end |
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124 | end |
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125 | end |
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126 | |
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127 | %% write variable attributes |
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128 | if testattr |
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129 | for ivar=1:min(numel(VarAttribute),numel(ListVarName)) |
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130 | if isstruct(VarAttribute{ivar}) && ~isnan(varid(ivar)) |
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131 | attr_names=fields(VarAttribute{ivar}); |
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132 | for iattr=1:length(attr_names) |
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133 | attr_val=VarAttribute{ivar}.(attr_names{iattr}); |
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134 | if ~isempty(attr_names{iattr})&& ~isempty(attr_val)&&~iscell(attr_val) |
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135 | netcdf.putAtt(nc,varid(ivar),attr_names{iattr},attr_val); |
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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 | netcdf.endDef(nc); %put in data mode |
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142 | |
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143 | %% fill the variables with input data |
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144 | if ~(exist('action','var') && strcmp(action,'keep_open')) |
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145 | for ivar=1:length(ListVarName) |
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146 | if ~isnan(varid(ivar)) |
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147 | VarVal=Data.(ListVarName{ivar}); |
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148 | if strcmp(VarClass{ivar},'single') |
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149 | VarVal=single(VarVal); |
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150 | end |
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151 | %varval=values of the current variable |
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152 | VarDimName=Data.VarDimName{ivar}; |
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153 | if ischar(VarDimName) |
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154 | VarDimName={VarDimName}; |
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155 | end |
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156 | siz=size(VarVal); |
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157 | testrange=(numel(VarDimName)==1 && strcmp(VarDimName{1},ListVarName{ivar}) && numel(VarVal)==2);% case of a coordinate defined on a regular mesh by the first and last values. |
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158 | testline=isequal(length(siz),2) && isequal(siz(1),1)&& isequal(siz(2), DimValue(VarDimIndex{ivar}));%matlab vector |
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159 | %testcolumn=isequal(length(siz),2) && isequal(siz(1), DimValue(VarDimIndex{ivar}))&& isequal(siz(2),1);%matlab column vector |
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160 | if testline || testrange |
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161 | if testrange |
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162 | VarVal=linspace(VarVal(1),VarVal(2),DimValue(VarDimIndex{ivar}));% restitute the whole array of coordinate values from the first and last values |
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163 | end |
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164 | netcdf.putVar(nc,varid(ivar), VarVal'); |
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165 | else |
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166 | netcdf.putVar(nc,varid(ivar), VarVal); |
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167 | end |
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168 | end |
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169 | end |
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170 | end |
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171 | netcdf.close(nc) |
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172 | [success,errormsg] = fileattrib(flname ,'+w');% allow writing access for the group of users |
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173 | %'check_field_structure': check the validity of the field struture representation consistant with the netcdf format |
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174 | %------------------------------------------------------------------------ |
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175 | % [errormsg,ListDimName,DimValue,VarDimIndex]=check_field_structure(Data) |
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176 | % |
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177 | % OUTPUT: |
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178 | % errormsg: error message which is not empty when the input structure does not have the right form |
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179 | % ListDimName: list of dimension names (cell array of cahr strings) |
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180 | % DimValue: list of dimension values (numerical array with the same dimension as ListDimName) |
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181 | % VarDimIndex: cell array of dimension index (in the list ListDimName) for each element of Data.ListVarName |
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182 | % |
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183 | % INPUT: |
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184 | % Data: structure containing |
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185 | % (optional) .ListGlobalAttribute: cell listing the names of the global attributes |
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186 | % .Att_1,Att_2... : values of the global attributes |
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187 | % (requested) .ListVarName: list of variable names to select (cell array of char strings {'VarName1', 'VarName2',...} ) |
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188 | % (requested) .VarDimName: list of dimension names for each element of .ListVarName (cell array of string cells) |
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189 | % (requested) .Var1, .Var2....: variables (Matlab arrays) with names listed in .ListVarName |
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190 | |
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191 | |
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192 | function [errormsg,ListDimName,DimValue,VarDimIndex]=check_field_structure(Data) |
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193 | errormsg=''; |
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194 | ListDimName={}; |
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195 | DimValue=[]; %default |
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196 | VarDimIndex={}; |
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197 | if ~isstruct(Data) |
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198 | errormsg='input field is not a structure'; |
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199 | return |
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200 | end |
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201 | if isfield(Data,'ListVarName') && iscell(Data.ListVarName) |
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202 | nbfield=numel(Data.ListVarName); |
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203 | else |
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204 | errormsg='input field does not contain the cell array of variable names .ListVarName'; |
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205 | return |
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206 | end |
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207 | %check dimension names |
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208 | if (isfield(Data,'VarDimName') && iscell(Data.VarDimName)) |
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209 | if numel(Data.VarDimName)~=nbfield |
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210 | errormsg=' .ListVarName and .VarDimName have different lengths'; |
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211 | return |
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212 | end |
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213 | else |
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214 | errormsg='input field does not contain the cell array of dimension names .VarDimName'; |
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215 | return |
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216 | end |
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217 | nbdim=0; |
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218 | ListDimName={}; |
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219 | |
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220 | %% main loop on the list of variables |
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221 | VarDimIndex=cell(1,nbfield); |
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222 | for ivar=1:nbfield |
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223 | VarName=Data.ListVarName{ivar}; |
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224 | if ~isfield(Data,VarName) |
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225 | errormsg=['the listed variable ' VarName ' is not found']; |
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226 | return |
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227 | end |
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228 | sizvar=size(Data.(VarName));% sizvar = dimension of variable |
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229 | DimCell=Data.VarDimName{ivar}; |
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230 | if ischar(DimCell) |
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231 | DimCell={DimCell};%case of a single dimension name, defined by a string |
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232 | elseif ~iscell(DimCell) |
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233 | errormsg=['wrong format for .VarDimName{' num2str(ivar) ' (must be the cell of dimension names of the variable ' VarName]; |
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234 | return |
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235 | end |
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236 | nbcoord=numel(sizvar);%nbre of coordinates for variable named VarName |
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237 | testrange=0; |
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238 | if numel(DimCell)==0 |
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239 | errormsg=['empty declared dimension .VarDimName{' num2str(ivar) '} for ' VarName]; |
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240 | return |
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241 | elseif numel(DimCell)==1% one dimension declared |
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242 | if nbcoord==2 |
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243 | if sizvar(1)==1 |
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244 | sizvar(1)=sizvar(2); |
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245 | elseif sizvar(2)==1 |
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246 | else |
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247 | errormsg=['1 dimension declared in .VarDimName{' num2str(ivar) '} inconsistent with the nbre of dimensions =2 of the variable ' VarName]; |
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248 | return |
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249 | end |
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250 | if sizvar(1)==2 && isequal(VarName,DimCell{1}) |
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251 | testrange=1;% test for a dimension variable representing a range |
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252 | end |
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253 | else |
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254 | errormsg=['1 dimension declared in .VarDimName{' num2str(ivar) '} inconsistent with the nbre of dimensions =' num2str(nbcoord) ' of the variable ' VarName]; |
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255 | return |
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256 | end |
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257 | else |
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258 | if numel(DimCell)>nbcoord |
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259 | sizvar(nbcoord+1:numel(DimCell))=1;% case of singleton dimensions (not seen by the function size) |
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260 | elseif nbcoord > numel(DimCell) |
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261 | errormsg=['nbre of declared dimensions in .VarDimName{' num2str(ivar) '} smaller than the nbre of dimensions =' num2str(nbcoord) ' of the variable ' VarName]; |
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262 | return |
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263 | end |
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264 | end |
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265 | DimIndex=[]; |
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266 | for idim=1:numel(DimCell) %loop on the coordinates of variable #ivar |
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267 | DimName=DimCell{idim}; |
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268 | iprev=find(strcmp(DimName,ListDimName),1);%look for dimension name DimName in the current list |
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269 | if isempty(iprev)% append the dimension name to the current list |
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270 | nbdim=nbdim+1; |
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271 | RangeTest(nbdim)=0; %default |
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272 | if sizvar(idim)==2 && strcmp(DimName,VarName)%case of a coordinate defined by the two end values (regular spacing) |
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273 | RangeTest(nbdim)=1; %to be updated for a later variable |
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274 | end |
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275 | DimValue(nbdim)=sizvar(idim); |
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276 | ListDimName{nbdim}=DimName; |
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277 | DimIndex=[DimIndex nbdim]; |
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278 | else % DimName is detected in the current list of dimension names |
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279 | if ~isequal(DimValue(iprev),sizvar(idim)) |
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280 | if isequal(DimValue(iprev),2)&& RangeTest(iprev) % the dimension has been already detected as a range [min max] |
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281 | DimValue(iprev)=sizvar(idim); %update with actual value |
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282 | elseif ~testrange |
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283 | errormsg=['dimension declaration inconsistent with the size =[' num2str(sizvar) '] for ' VarName]; |
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284 | return |
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285 | end |
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286 | end |
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287 | DimIndex=[DimIndex iprev]; |
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288 | end |
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289 | end |
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290 | VarDimIndex{ivar}=DimIndex; |
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291 | end |
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