source: trunk/src/series/turb_correlation_x.m @ 1147

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1%'turb_correlation_x': calculate the x wise correlation function at each point
2%------------------------------------------------------------------------
3% function ParamOut=turb_correlation_x(Param)
4%
5%%%%%%%%%%% GENERAL TO ALL SERIES ACTION FCTS %%%%%%%%%%%%%%%%%%%%%%%%%%%
6%
7%OUTPUT
8% ParamOut: sets options in the GUI series.fig needed for the function
9%
10%INPUT:
11% In run mode, the input parameters are given as a Matlab structure Param copied from the GUI series.
12% In batch mode, Param is the name of the corresponding xml file containing the same information
13% when Param.Action.RUN=0 (as activated when the current Action is selected
14% in series), the function ouput paramOut set the activation of the needed GUI elements
15%
16% Param contains the elements:(use the menu bar command 'export/GUI config' in series to
17% see the current structure Param)
18%    .InputTable: cell of input file names, (several lines for multiple input)
19%                      each line decomposed as {RootPath,SubDir,Rootfile,NomType,Extension}
20%    .OutputSubDir: name of the subdirectory for data outputs
21%    .OutputDirExt: directory extension for data outputs
22%    .Action: .ActionName: name of the current activated function
23%             .ActionPath:   path of the current activated function
24%             .ActionExt: fct extension ('.m', Matlab fct, '.sh', compiled   Matlab fct
25%             .RUN =0 for GUI input, =1 for function activation
26%             .RunMode='local','background', 'cluster': type of function  use
27%             
28%    .IndexRange: set the file or frame indices on which the action must be performed
29%    .FieldTransform: .TransformName: name of the selected transform function
30%                     .TransformPath:   path  of the selected transform function
31%    .InputFields: sub structure describing the input fields withfields
32%              .FieldName: name(s) of the field
33%              .VelType: velocity type
34%              .FieldName_1: name of the second field in case of two input series
35%              .VelType_1: velocity type of the second field in case of two input series
36%              .Coord_y: name of y coordinate variable
37%              .Coord_x: name of x coordinate variable
38%    .ProjObject: %sub structure describing a projection object (read from ancillary GUI set_object)
39%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
40
41%=======================================================================
42% Copyright 2008-2024, LEGI UMR 5519 / CNRS UGA G-INP, Grenoble, France
43%   http://www.legi.grenoble-inp.fr
44%   Joel.Sommeria - Joel.Sommeria (A) univ-grenoble-alpes.fr
45%
46%     This file is part of the toolbox UVMAT.
47%
48%     UVMAT is free software; you can redistribute it and/or modify
49%     it under the terms of the GNU General Public License as published
50%     by the Free Software Foundation; either version 2 of the license,
51%     or (at your option) any later version.
52%
53%     UVMAT is distributed in the hope that it will be useful,
54%     but WITHOUT ANY WARRANTY; without even the implied warranty of
55%     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
56%     GNU General Public License (see LICENSE.txt) for more details.
57%=======================================================================
58
59function ParamOut=turb_correlation_x(Param)
60
61%% set the input elements needed on the GUI series when the action is selected in the menu ActionName
62if isstruct(Param) && isequal(Param.Action.RUN,0)
63    ParamOut.AllowInputSort='off';% allow alphabetic sorting of the list of input file SubDir (options 'off'/'on', 'off' by default)
64    ParamOut.WholeIndexRange='off';% prescribes the file index ranges from min to max (options 'off'/'on', 'off' by default)
65    ParamOut.NbSlice=1;%nbre of slices, 1 prevents splitting in several processes, ('off' by default)
66    ParamOut.VelType='off';% menu for selecting the velocity type (options 'off'/'one'/'two',  'off' by default)
67    ParamOut.FieldName='one';% menu for selecting the field (s) in the input file(options 'off'/'one'/'two', 'off' by default)
68    ParamOut.FieldTransform = 'on';%can use a transform function
69    ParamOut.ProjObject='off';%can use projection object(option 'off'/'on',
70    ParamOut.Mask='off';%can use mask option   (option 'off'/'on', 'off' by default)
71    ParamOut.OutputDirExt='.corr_x';%set the output dir extension
72    ParamOut.OutputFileMode='NbSlice';% '=NbInput': 1 output file per input file index, '=NbInput_i': 1 file per input file index i, '=NbSlice': 1 file per slice
73%     filecell=get_file_series(Param);%check existence of the first input file
74%     if ~exist(filecell{1,1},'file')
75%         msgbox_uvmat('WARNING','the first input file does not exist')
76%     end
77    return
78end
79
80%%%%%%%%%%%%  STANDARD PART  %%%%%%%%%%%%
81ParamOut=[];%default output
82%% read input parameters from an xml file if input is a file name (batch mode)
83checkrun=1;
84if ischar(Param)
85    Param=xml2struct(Param);% read Param as input file (batch case)
86    checkrun=0;
87end
88hseries=findobj(allchild(0),'Tag','series');
89RUNHandle=findobj(hseries,'Tag','RUN');%handle of RUN button in GUI series
90WaitbarHandle=findobj(hseries,'Tag','Waitbar');%handle of waitbar in GUI series
91
92%% define the directory for result file (with path=RootPath{1})
93OutputDir=[Param.OutputSubDir Param.OutputDirExt];
94   
95%% root input file(s) name, type and index series
96RootPath=Param.InputTable(:,1);
97RootFile=Param.InputTable(:,3);
98SubDir=Param.InputTable(:,2);
99NomType=Param.InputTable(:,4);
100FileExt=Param.InputTable(:,5);
101[filecell,i1_series,i2_series,j1_series,j2_series]=get_file_series(Param);
102%%%%%%%%%%%%
103% The cell array filecell is the list of input file names, while
104% filecell{iview,fileindex}:
105%        iview: line in the table corresponding to a given file series
106%        fileindex: file index within  the file series,
107% i1_series(iview,ref_j,ref_i)... are the corresponding arrays of indices i1,i2,j1,j2, depending on the input line iview and the two reference indices ref_i,ref_j
108% i1_series(iview,fileindex) expresses the same indices as a 1D array in file indices
109%%%%%%%%%%%% NbView=1 : a single input series
110NbView=numel(i1_series);%number of input file series (lines in InputTable)
111NbField_j=size(i1_series{1},1); %nb of fields for the j index (bursts or volume slices)
112NbField_i=size(i1_series{1},2); %nb of fields for the i index
113NbField=NbField_j*NbField_i; %total number of fields
114
115%% determine the file type on each line from the first input file
116ImageTypeOptions={'image','multimage','mmreader','video','cine_phantom'};
117NcTypeOptions={'netcdf','civx','civdata'};
118for iview=1:NbView
119    if ~exist(filecell{iview,1}','file')
120        msgbox_uvmat('ERROR',['the first input file ' filecell{iview,1} ' does not exist'])
121        return
122    end
123    [FileInfo{iview},MovieObject{iview}]=get_file_info(filecell{iview,1});
124    FileType{iview}=FileInfo{iview}.FileType;
125    CheckImage{iview}=~isempty(find(strcmp(FileType{iview},ImageTypeOptions)));% =1 for images
126    CheckNc{iview}=~isempty(find(strcmp(FileType{iview},NcTypeOptions)));% =1 for netcdf files
127    if ~isempty(j1_series{iview})
128        frame_index{iview}=j1_series{iview};
129    else
130        frame_index{iview}=i1_series{iview};
131    end
132end
133
134%% calibration data and timing: read the ImaDoc files
135XmlData=[];
136[XmlData,NbSlice_calib,time,errormsg]=read_multimadoc(RootPath,SubDir,RootFile,FileExt,i1_series,i2_series,j1_series,j2_series);
137if size(time,1)>1
138    diff_time=max(max(diff(time)));
139    if diff_time>0
140        msgbox_uvmat('WARNING',['times of series differ by (max) ' num2str(diff_time)])
141    end   
142end
143
144%% coordinate transform or other user defined transform
145transform_fct='';%default
146if isfield(Param,'FieldTransform')&&~isempty(Param.FieldTransform.TransformName)
147    addpath(Param.FieldTransform.TransformPath)
148    transform_fct=str2func(Param.FieldTransform.TransformName);
149    rmpath(Param.FieldTransform.TransformPath)
150end
151
152%%%%%%%%%%%% END STANDARD PART  %%%%%%%%%%%%
153 % EDIT FROM HERE
154
155%% check the validity of  input file types
156if CheckImage{1}
157    FileExtOut='.png'; % write result as .png images for image inputs
158elseif CheckNc{1}
159    FileExtOut='.nc';% write result as .nc files for netcdf inputs
160else
161    msgbox_uvmat('ERROR',['invalid file type input ' FileType{1}])
162    return
163end
164
165
166%% settings for the output file
167NomTypeOut=nomtype2pair(NomType{1});% determine the index nomenclature type for the output file
168first_i=i1_series{1}(1);
169last_i=i1_series{1}(end);
170if isempty(j1_series{1})% if there is no second index j
171    first_j=1;last_j=1;
172else
173    first_j=j1_series{1}(1);
174    last_j=j1_series{1}(end);
175end
176
177%% Set field names and velocity types
178InputFields{1}=[];%default (case of images)
179if isfield(Param,'InputFields')
180    InputFields{1}=Param.InputFields;
181end
182
183nbfiles=0;
184nbmissing=0;
185
186%initialisation
187DataOut.ListGlobalAttribute= {'Conventions'};
188DataOut.Conventions= 'uvmat';
189DataOut.ListVarName={'delta_x','coord_y','coord_x','UUCorr' , 'VVCorr','UVCorr','Counter'};
190DataOut.VarDimName={'delta_x','coord_y','coord_x',...
191    {'delta_x','coord_y','coord_x'},{'delta_x','coord_y','coord_x'},{'delta_x','coord_y','coord_x'},{'delta_x','coord_y','coord_x'}};
192DataOut.UUCorr=0;
193DataOut.Counter=0;
194
195%%%%%%%%%%%%%%%% loop on field indices %%%%%%%%%%%%%%%%
196% First get mean values %
197disp('loop for mean started')
198for index=1:NbField
199    update_waitbar(WaitbarHandle,index/NbField)
200    if ~isempty(RUNHandle)&& ~strcmp(get(RUNHandle,'BusyAction'),'queue')
201        disp('program stopped by user')
202        break
203    end
204    [Field,tild,errormsg] = read_field(filecell{1,index},FileType{iview},InputFields{iview},frame_index{iview}(index));
205    if index==1 %first field
206        if ~isfield(Field,'U')||~isfield(Field,'V')
207            disp_uvmat('ERROR','this function requires the velocity components U and V as input',checkrun)
208            return
209        end
210        [npy,npx]=size(Field.U);
211        UMean=zeros(npy,npx);
212        VMean=zeros(npy,npx);
213        Counter=zeros(npy,npx);
214                % transcripts the global attributes
215        if isfield(Field,'ListGlobalAttribute')
216            DataOut.ListGlobalAttribute= Field.ListGlobalAttribute;
217            for ilist=1:numel(Field.ListGlobalAttribute)
218                AttrName=Field.ListGlobalAttribute{ilist};
219                DataOut.(AttrName)=Field.(AttrName);
220            end
221        end
222    end
223    FF=isnan(Field.U);%|Field.U<-60|Field.U>30;% threshold on U
224    Field.U(FF)=0;% set to 0 the nan values,
225    Field.V(FF)=0;
226    UMean=UMean+Field.U;
227    VMean=VMean+Field.V;
228    Counter=Counter+~FF;
229end
230Counter(Counter==0)=1;
231UMean=UMean./Counter;
232VMean=VMean./Counter;
233
234
235%%%%%%%%%%%%%%%% loop on field indices %%%%%%%%%%%%%%%%
236disp('loop for correlation started')
237for index=1:NbField
238    update_waitbar(WaitbarHandle,index/NbField)
239    if ~isempty(RUNHandle)&& ~strcmp(get(RUNHandle,'BusyAction'),'queue')
240        disp('program stopped by user')
241        break
242    end
243    [Field,tild,errormsg] = read_field(filecell{1,index},FileType{iview},InputFields{iview},frame_index{iview}(index));
244
245    %%%%%%%%%%%% MAIN RUNNING OPERATIONS  %%%%%%%%%%%%
246    if index==1 %first field
247        [npy,npx]=size(Field.U);
248        npcorr=floor(npx/4); %nbre of points for the correlation fct on each side of 0
249        dx=(Field.coord_x(end)-Field.coord_x(1))/(numel(Field.coord_x)-1);
250        DataOut.delta_x=(-dx*npcorr:dx:dx*npcorr)';
251        DataOut.coord_x=Field.coord_x;
252        DataOut.coord_y=Field.coord_y;
253        DataOut.UUCorr=zeros(2*npcorr+1,npy,npx);
254        DataOut.VVCorr=zeros(2*npcorr+1,npy,npx);
255        DataOut.UVCorr=zeros(2*npcorr+1,npy,npx);
256        DataOut.Counter=zeros(2*npcorr+1,npy,npx);
257    end
258    FF=isnan(Field.U);%|Field.U<-60|Field.U>30;% threshold on U
259    Field.U(FF)=0;% set to 0 the nan values,'delta_x'
260    Field.V(FF)=0;
261    Field.U=Field.U-UMean;
262    Field.V=Field.V-VMean;
263    UUCorr=zeros(2*npcorr+1,npy,npx);
264    VVCorr=zeros(2*npcorr+1,npy,npx);
265    UVCorr=zeros(2*npcorr+1,npy,npx);
266    FFCorr=false(2*npcorr+1,npy,npx);
267    for ishift=-npcorr:npcorr% calculate the field U shifted
268        U_shift=circshift(Field.U,[0 -ishift]); %shift U by ishift along the index x
269        V_shift=circshift(Field.V,[0 -ishift]); %shift U by ishift along the index x
270        FF_shift=circshift(FF,[0 -ishift]); %shift U by ishift along the index x
271        if ishift<0
272            U_shift(:,1:-ishift)=0;
273            V_shift(:,1:-ishift)=0;
274            FF_shift(:,1:-ishift)=1;
275        elseif ishift>0
276            U_shift(:,end-ishift:end)=0;
277            V_shift(:,end-ishift:end)=0;
278            FF_shift(:,end-ishift:end)=1;
279        end
280        UUCorr(ishift+npcorr+1,:,:)=Field.U.*U_shift;
281        VVCorr(ishift+npcorr+1,:,:)=Field.V.*V_shift;
282        UVCorr(ishift+npcorr+1,:,:)=Field.U.*V_shift;
283        FFCorr(ishift+npcorr+1,:,:)=FF | FF_shift;     
284    end
285    DataOut.UUCorr=DataOut.UUCorr+UUCorr;
286    DataOut.VVCorr=DataOut.VVCorr+VVCorr;
287    DataOut.UVCorr=DataOut.UVCorr+UVCorr;
288    DataOut.Counter=DataOut.Counter+~FFCorr;
289end
290%%%%%%%%%%%%%%%% end loop on field indices %%%%%%%%%%%%%%%%
291DataOut.Counter(DataOut.Counter==0)=1;
292size(DataOut.UUCorr)
293size(DataOut.VVCorr)
294size(DataOut.Counter)
295DataOut.UUCorr=DataOut.UUCorr./DataOut.Counter;
296DataOut.VVCorr=DataOut.VVCorr./DataOut.Counter;
297DataOut.UVCorr=DataOut.UVCorr./DataOut.Counter;
298%DataOut.Counter(DataOut.Counter==0)=1;% put counter to 1 when it is zero
299% DataOut.UMean=DataOut.UMean./DataOut.Counter; % normalize the mean
300% DataOut.VMean=DataOut.VMean./DataOut.Counter; % normalize the mean
301% U2Mean=U2Mean./DataOut.Counter; % normalize the mean
302% V2Mean=V2Mean./DataOut.Counter; % normalize the mean
303% UVMean=UVMean./DataOut.Counter; % normalize the mean
304% U2Mean_1=U2Mean_1./Counter_1; % normalize the mean
305% V2Mean_1=V2Mean_1./Counter_1; % normalize the mean
306% DataOut.u2Mean=U2Mean-DataOut.UMean.*DataOut.UMean; % normalize the meanFFCorr
307% DataOut.v2Mean=V2Mean-DataOut.VMean.*DataOut.VMean; % normalize the mean
308% DataOut.uvMean=UVMean-DataOut.UMean.*DataOut.VMean; % normalize the mean \
309% DataOut.u2Mean_1=U2Mean_1-DataOut.UMean.*DataOut.UMean; % normalize the mean
310% DataOut.v2Mean_1=V2Mean_1-DataOut.VMean.*DataOut.VMean; % normalize the mean
311
312
313%% calculate the profiles
314% npx=numel(DataOut.coord_x);
315% band=ceil(npx/5) :floor(4*npx/5);% keep only the central band
316% for ivar=3:numel(DataOut.ListVarName)-1
317%     VarName=DataOut.ListVarName{ivar};% name of the variable
318%     DataOut.ListVarName=[DataOut.ListVarName {[VarName 'Profile']}];%append the name of the profile variable
319%     DataOut.VarDimName=[DataOut.VarDimName {'coord_y'}];
320%    DataOut.([VarName 'Profile'])=mean(DataOut.(VarName)(:,band),2); %take the mean profile of U, excluding the edges
321% end
322
323%% writing the result file as netcdf file
324OutputFile=fullfile_uvmat(RootPath{1},OutputDir,RootFile{1},FileExtOut,NomTypeOut,first_i,last_i,first_j,last_j);
325 %case of netcdf input file , determine global attributes
326 errormsg=struct2nc(OutputFile,DataOut); %save result file
327 if isempty(errormsg)
328     disp([OutputFile ' written']);
329 else
330     disp(['error in writting result file: ' errormsg])
331 end
332
333
334%% open the result file with uvmat (in RUN mode)
335if checkrun
336    uvmat(OutputFile)% open the last result file with uvmat
337end
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