[40] | 1 | % relabel_i_j: relabel an image series with two indices, according to the time matrix given by ImaDoc
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| 2 | %----------------------------------------------------------------------
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| 3 | function GUI_input=relabel_i_j(num_i1,num_i2,num_j1,num_j2,Series)
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| 4 | %requests for the visibility of input windows in the GUI series (activated directly by the selection in the menu ACTION)
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| 5 | if ~exist('num_i1','var')
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| 6 | GUI_input={};
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| 7 | return %exit the function
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| 8 | end
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| 9 |
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| 10 | %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%enable waitbar
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| 11 | hseries=guidata(Series.hseries);%handles of the GUI series
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| 12 | WaitbarPos=get(hseries.waitbar_frame,'Position');
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| 13 | %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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| 14 |
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| 15 | basename=fullfile(Series.RootPath,Series.RootFile) ;
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| 16 |
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| 17 | %create dir of the new images
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| 18 | [dir_images,namebase]=fileparts(basename);
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| 19 | [path,subdir_ima]=fileparts(dir_images);
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| 20 | curdir=pwd;
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| 21 | cd(path);
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| 22 | mkdir([subdir_ima '_ij']);
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| 23 | cd(curdir);
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| 24 | basename_new=fullfile(path,[subdir_ima '_ij'],namebase);
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| 25 |
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| 26 | % read imadoc
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| 27 | [XmlData,warntext]=imadoc2struct([basename '.xml']);
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| 28 | nbfield1=size(XmlData.Time,1)
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| 29 | nbfield2=size(XmlData.Time,2)
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| 30 |
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[41] | 31 | answer=msgbox_uvmat('INPUT_Y-N','apply image rescaling function levels.m')
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[40] | 32 | test_level=isequal(answer,'Yes')
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| 33 |
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| 34 | %copy the xml file
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| 35 | if exist([basename '.xml'],'file')
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| 36 | copyfile([basename '.xml'],[basename_new '.xml']);% copy the .civ file
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| 37 | t=xmltree([basename_new '.xml']);
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| 38 |
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| 39 | %update information on the first image name in the series
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| 40 | uid_Heading=find(t,'ImaDoc/Heading');
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| 41 | if isempty(uid_Heading)
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| 42 | [t,uid_Heading]=add(t,1,'element','Heading');
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| 43 | end
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| 44 | uid_ImageName=find(t,'ImaDoc/Heading/ImageName');
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| 45 | ImageName=name_generator(basename_new,num_i1(1),num_j1(1),'.png','_i_j');
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| 46 | [pth,ImageName]=fileparts(ImageName);
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| 47 | ImageName=[ImageName '.png']
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| 48 | if isempty(uid_ImageName)
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| 49 | [t,uid_ImageName]=add(t,uid_Heading,'element','ImageName');
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| 50 | end
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| 51 | uid_value=children(t,uid_ImageName);
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| 52 | if isempty(uid_value)
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| 53 | t=add(t,uid_ImageName,'chardata',ImageName)%indicate name of the first image, with ;png extension
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| 54 | else
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| 55 | t=set(t,uid_value(1),'value',ImageName)%indicate name of the first image, with ;png extension
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| 56 | end
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| 57 |
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| 58 | % %add information about image transform
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| 59 | % [t,new_uid]=add(t,1,'element','ImageTransform');
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| 60 | % [t,NameFunction_uid]=add(t,new_uid,'element','NameFunction');
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| 61 | % [t]=add(t,NameFunction_uid,'chardata','sub_background');
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| 62 | % [t,NbSlice_uid]=add(t,new_uid,'element','NbSlice');
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| 63 | % [t]=add(t,new_uid,'chardata',num2str(nbslice_i));
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| 64 | % [t,NbSlidingImages_uid]=add(t,new_uid,'element','NbSlidingImages');
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| 65 | % [t]=add(t,NbSlidingImages_uid,'chardata',num2str(nbaver));
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| 66 | % [t,LuminosityRank_uid]=add(t,new_uid,'element','RankBackground');
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| 67 | % [t]=add(t,LuminosityRank_uid,'chardata',num2str(rank));% luminosity rank almong the nbaver sliding images
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| 68 | save(t,[basename_new '.xml'])
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| 69 | end
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| 70 |
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| 71 | %main loop
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| 72 | for ifile=1:nbfield1*nbfield2
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| 73 | update_waitbar(hseries.waitbar,WaitbarPos,ifile/(nbfield1*nbfield2))
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| 74 | filename=name_generator(basename,ifile-1,1,Series.FileExt,Series.NomType);
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| 75 | num_j=mod(ifile-1,nbfield2)+1;
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| 76 | num_i=floor((ifile-1)/nbfield2)+1;
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| 77 | filename_new=name_generator(basename_new,num_i,num_j,'.png','_i_j');
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| 78 | if test_level
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| 79 | A=imread(filename);
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| 80 | C=levels(A);
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| 81 | imwrite(C,filename_new)
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| 82 | else
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| 83 | copyfile(filename,filename_new);
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| 84 | end
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| 85 | end
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| 86 |
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| 87 |
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| 88 |
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| 89 | function C=levels(A)
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| 90 | %whos A;
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| 91 | B=double(A(:,:,1));
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| 92 | windowsize=round(min(size(B,1),size(B,2))/20);
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| 93 | windowsize=floor(windowsize/2)*2+1;
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| 94 | ix=[1/2-windowsize/2:-1/2+windowsize/2];%
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| 95 | %del=np/3;
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| 96 | %fct=exp(-(ix/del).^2);
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| 97 | fct2=cos(ix/(windowsize-1)/2*pi/2);
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| 98 | %Mfiltre=(ones(5,5)/5^2);
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| 99 | %Mfiltre=fct2';
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| 100 | Mfiltre=fct2'*fct2;
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| 101 | Mfiltre=Mfiltre/(sum(sum(Mfiltre)));
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| 102 |
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[71] | 103 | C=filter2(Mfiltre,B);
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[40] | 104 | C(:,1:windowsize)=C(:,windowsize)*ones(1,windowsize);
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| 105 | C(:,end-windowsize+1:end)=C(:,end-windowsize+1)*ones(1,windowsize);
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| 106 | C(1:windowsize,:)=ones(windowsize,1)*C(windowsize,:);
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| 107 | C(end-windowsize+1:end,:)=ones(windowsize,1)*C(end-windowsize,:);
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| 108 | C=tanh(B./(2*C));
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| 109 | [n,c]=hist(reshape(C,1,[]),100);
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| 110 | % figure;plot(c,n);
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| 111 |
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| 112 | [m,i]=max(n);
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| 113 | c_max=c(i);
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| 114 | [dummy,index]=sort(abs(c-c(i)));
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| 115 | n=n(index);
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| 116 | c=c(index);
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| 117 | i_select = find(cumsum(n)<0.95*sum(n));
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| 118 | if isempty(i_select)
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| 119 | i_select = 1:length(c);
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| 120 | end
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| 121 | c_select=c(i_select);
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| 122 | n_select=n(i_select);
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| 123 | cmin=min(c_select);
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| 124 | cmax=max(c_select);
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| 125 | C=(C-cmin)/(cmax-cmin)*256;
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| 126 | C=uint8(C);
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