Classify imported files from multiple folders into cell array

2 vues (au cours des 30 derniers jours)
Tessa Kol
Tessa Kol le 13 Oct 2020
Commenté : Tessa Kol le 13 Oct 2020
Dear all,
I have multiple files located in multiple folders. De main folder I called 'test'. De main folder contains 6 subfolders. In each subfolder there are multiple files. I open all the files with the following line of code:
files = dir(fullfile(uigetdir,'\**\*.data*'));
The result is attached to this post (test.mat). In total I have 53 .data files.
With the code below I can import the data of every .data file and put it into a seperate cell. I thus get a cell array of 1x53 for runData, expData and velData.
rhoPart = 2314.3;
files = dir(fullfile(uigetdir,'\**\*.data*'));
k = 1;
for i = 1:numel(files)
fid = fopen(fullfile(files(i).folder,files(i).name),'r');
%% Reading the data
% Read all the data from the file
dataRead = textscan(fid,'%f %f %f %f %f %f %f %f %f %f %f %f %f %f','HeaderLines',1);
frewind(fid);
% Read the headerline from the file
Headerline = textscan(fgetl(fid),'%f %f %f %f %f %f %f %f %f','HeaderLines',0);
% Write headerline N, time, xmin, ymin, zmin, xmax, ymax, zmax
runData{k} = [Headerline{1}(:) Headerline{2}(:) Headerline{3}(:) Headerline{4}(:) Headerline{5}(:) Headerline{6}(:) Headerline{7}(:) Headerline{8}(:) Headerline{9}(:)];
% Write only the x, y, and z components of the particles, particle radius, z component+ particle radius and volume of the particle
expData{k} = [dataRead{1}(:,1) dataRead{2}(:,1) dataRead{3}(:,1) dataRead{7}(:,1) dataRead{3}(:,1)+dataRead{7}(:,1) rhoPart*(4/3)*pi*(dataRead{7}(:,1).^3)];
% Write only the vx,vy,vz of the particles and magnitude
velData{k} = [dataRead{4}(:,1) dataRead{5}(:,1) dataRead{6}(:,1) sqrt(dataRead{4}(:,1).^2 + dataRead{5}(:,1).^2 + dataRead{6}(:,1).^2)];
fclose(fid);
k = k + 1;
end
However, I want to structure this cell array into a cell array of 1x14:
Cell 1:
Folder 1
siloMultiParamMPIset1.1.data.0 siloMultiParamMPIset1.1.data.1 siloMultiParamMPIset1.1.data.2 siloMultiParamMPIset1.1.data.3 siloMultiParamMPIset1.1.data.15 siloMultiParamMPIset1.1.data.16 siloMultiParamMPIset1.1.data.17
Cell 2:
Folder 2
siloMultiParamMPIset1.1.data.0 siloMultiParamMPIset1.1.data.2 siloMultiParamMPIset1.1.data.3 siloMultiParamMPIset1.1.data.4 siloMultiParamMPIset1.1.data.5 siloMultiParamMPIset1.1.data.26 siloMultiParamMPIset1.1.data.27
...
Cell 13:
Folder 6
siloMP1DV1_muSP_0.7684_muRP_0.4443.4.data.1596 siloMP1DV1_muSP_0.7684_muRP_0.4443.4.data.1597
Cell 14:
Folder 6
siloMP1DV1_muSP_0.7987_muRP_0.3228.5.data.1264 siloMP1DV1_muSP_0.7987_muRP_0.3228.5.data.1265 siloMP1DV1_muSP_0.7987_muRP_0.3228.5.data.1266

Réponses (1)

Sudhakar Shinde
Sudhakar Shinde le 13 Oct 2020
You could try this example.
load test.mat;
folder={files.folder};
name = {files.name};
for i=1:6
Data{i} = name(contains(folder, ['test\',num2str(i)]));
end
The resulted output in cell:
Folder1 contains 7 data, folder2 contains 8 data etc.
Below snap shows folder1 data:
  2 commentaires
Tessa Kol
Tessa Kol le 13 Oct 2020
Modifié(e) : Tessa Kol le 13 Oct 2020
I think that structering the files has to be done after opening all the files. I already managed to structure the data to there corresponding folder. With the following code:
%% Loading the data
rhoPart = 2314.3;
files = dir(fullfile('C:\Users\tvvan\Desktop\test','\**\*.data*'));
folders = {files.folder};
folder_groups = findgroups(folders);
% Read only the files every 0.02 seconds approximitaly, which corresponds to the time increment of the experiment
k = 1;
for i = 1:numel(files)
fid = fopen(fullfile(files(i).folder,files(i).name),'r');
%% Reading the data
% Read all the data from the file
dataRead = textscan(fid,'%f %f %f %f %f %f %f %f %f %f %f %f %f %f','HeaderLines',1);
frewind(fid);
% Read the headerline from the file
Headerline = textscan(fgetl(fid),'%f %f %f %f %f %f %f %f %f','HeaderLines',0);
% Write headerline N, time, xmin, ymin, zmin, xmax, ymax, zmax
runData{k} = [Headerline{1}(:) Headerline{2}(:) Headerline{3}(:) Headerline{4}(:) Headerline{5}(:) Headerline{6}(:) Headerline{7}(:) Headerline{8}(:) Headerline{9}(:)];
% Write only the x, y, and z components of the particles, particle radius, z component+ particle radius and volume of the particle
expData{k} = [dataRead{1}(:,1) dataRead{2}(:,1) dataRead{3}(:,1) dataRead{7}(:,1) dataRead{3}(:,1)+dataRead{7}(:,1) rhoPart*(4/3)*pi*(dataRead{7}(:,1).^3)];
% Write only the vx,vy,vz of the particles and magnitude
velData{k} = [dataRead{4}(:,1) dataRead{5}(:,1) dataRead{6}(:,1) sqrt(dataRead{4}(:,1).^2 + dataRead{5}(:,1).^2 + dataRead{6}(:,1).^2)];
fclose(fid);
k = k + 1;
end
%% Classify (into a structure)
runData_struc = splitapply(@(x) {x}, runData, folder_groups);
expData_struc = splitapply(@(x) {x}, expData, folder_groups);
velData_struc = splitapply(@(x) {x}, velData, folder_groups);
Then I get the following:
However, this is not exactly what I wanted. I wanted to have a 1x14 cell array. Because folder 5 and 6 contain 5 series of files, thus every serie needs a separate cell. And the files in the folder are not imported into natural order.
Tessa Kol
Tessa Kol le 13 Oct 2020
I want something like in the figure below:

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