How to cut ASCII file with matlab ?

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Mathieu TOCQUER
Mathieu TOCQUER 2022 年 7 月 5 日
コメント済み: Mathieu NOE 2022 年 7 月 5 日
Hy everyone,
I need help.
I'm trying to post process some ASCII files from fluent.
The problem is that I extract several lines from differents sizes (number of cells) and they are put together in the ASCII file.
I would like to cut the files for each lines automatically and I don't konw how ...
Finally i'm trying to create un .mat file with all the data to be able to plot some values.
For now I'm doing it manually (see the code)
clear all
close all
%% Variables
[file,path]=uigetfile('*',MultiSelect='on');
N=length(file);% Nombre de fichier
deltat=1e-5;% Pas de temps
tps=0;
Fs=1/deltat;% Frequence de coupure
% Vecteur temps
temps=linspace(0,(N-1)*deltat,N);
Viscosite_turb=true;
%% Lecture fichiers
delete(gcp('nocreate'))
poolobj=parpool(8);
parfor i=1:N
i/N
nfichier=string(file(i));
fichier=sprintf('%s%s',path,nfichier);
donnee=importdata(fichier,' ');
% Coordonnée
Y_10h(:,i)=donnee.data(1:33,3);
Y_1h(:,i)=donnee.data(34:196,3);
Y_2h(:,i)=donnee.data(197:316,3);
Y_3h(:,i)=donnee.data(317:414,3);
Y_4h(:,i)=donnee.data(415:495,3);
Y_5h(:,i)=donnee.data(496:559,3);
Y_6h(:,i)=donnee.data(560:614,3);
Y_7h(:,i)=donnee.data(615:664,3);
Y_8h(:,i)=donnee.data(665:704,3);
Y_9h(:,i)=donnee.data(705:740,3);
% Pression statique
Pression_statique_10h(:,i)=donnee.data(1:33,4);
Pression_statique_1h(:,i)=donnee.data(34:196,4);
Pression_statique_2h(:,i)=donnee.data(197:316,4);
Pression_statique_3h(:,i)=donnee.data(317:414,4);
Pression_statique_4h(:,i)=donnee.data(415:495,4);
Pression_statique_5h(:,i)=donnee.data(496:559,4);
Pression_statique_6h(:,i)=donnee.data(560:614,4);
Pression_statique_7h(:,i)=donnee.data(615:664,4);
Pression_statique_8h(:,i)=donnee.data(665:704,4);
Pression_statique_9h(:,i)=donnee.data(705:740,4);
% Pression dynamique
Pression_dynamique_10h(:,i)=donnee.data(1:33,5);
Pression_dynamique_1h(:,i)=donnee.data(34:196,5);
Pression_dynamique_2h(:,i)=donnee.data(197:316,5);
Pression_dynamique_3h(:,i)=donnee.data(317:414,5);
Pression_dynamique_4h(:,i)=donnee.data(415:495,5);
Pression_dynamique_5h(:,i)=donnee.data(496:559,5);
Pression_dynamique_6h(:,i)=donnee.data(560:614,5);
Pression_dynamique_7h(:,i)=donnee.data(615:664,5);
Pression_dynamique_8h(:,i)=donnee.data(665:704,5);
Pression_dynamique_9h(:,i)=donnee.data(705:740,5);
% Pression totale
Pression_totale_10h(:,i)=donnee.data(1:33,6);
Pression_totale_1h(:,i)=donnee.data(34:196,6);
Pression_totale_2h(:,i)=donnee.data(197:316,6);
Pression_totale_3h(:,i)=donnee.data(317:414,6);
Pression_totale_4h(:,i)=donnee.data(415:495,6);
Pression_totale_5h(:,i)=donnee.data(496:559,6);
Pression_totale_6h(:,i)=donnee.data(560:614,6);
Pression_totale_7h(:,i)=donnee.data(615:664,6);
Pression_totale_8h(:,i)=donnee.data(665:704,6);
Pression_totale_9h(:,i)=donnee.data(705:740,6);
% Densite
Densite_10h(:,i)=donnee.data(1:33,7);
Densite_1h(:,i)=donnee.data(34:196,7);
Densite_2h(:,i)=donnee.data(197:316,7);
Densite_3h(:,i)=donnee.data(317:414,7);
Densite_4h(:,i)=donnee.data(415:495,7);
Densite_5h(:,i)=donnee.data(496:559,7);
Densite_6h(:,i)=donnee.data(560:614,7);
Densite_7h(:,i)=donnee.data(615:664,7);
Densite_8h(:,i)=donnee.data(665:704,7);
Densite_9h(:,i)=donnee.data(705:740,7);
% Vitesse U
Vitesse_U_10h(:,i)=donnee.data(1:33,8);
Vitesse_U_1h(:,i)=donnee.data(34:196,8);
Vitesse_U_2h(:,i)=donnee.data(197:316,8);
Vitesse_U_3h(:,i)=donnee.data(317:414,8);
Vitesse_U_4h(:,i)=donnee.data(415:495,8);
Vitesse_U_5h(:,i)=donnee.data(496:559,8);
Vitesse_U_6h(:,i)=donnee.data(560:614,8);
Vitesse_U_7h(:,i)=donnee.data(615:664,8);
Vitesse_U_8h(:,i)=donnee.data(665:704,8);
Vitesse_U_9h(:,i)=donnee.data(705:740,8);
% Vitesse V
Vitesse_V_10h(:,i)=donnee.data(1:33,9);
Vitesse_V_1h(:,i)=donnee.data(34:196,9);
Vitesse_V_2h(:,i)=donnee.data(197:316,9);
Vitesse_V_3h(:,i)=donnee.data(317:414,9);
Vitesse_V_4h(:,i)=donnee.data(415:495,9);
Vitesse_V_5h(:,i)=donnee.data(496:559,9);
Vitesse_V_6h(:,i)=donnee.data(560:614,9);
Vitesse_V_7h(:,i)=donnee.data(615:664,9);
Vitesse_V_8h(:,i)=donnee.data(665:704,9);
Vitesse_V_9h(:,i)=donnee.data(705:740,9);
% Temperature statique
Temperature_statique_10h(:,i)=donnee.data(1:33,10);
Temperature_statique_1h(:,i)=donnee.data(34:196,10);
Temperature_statique_2h(:,i)=donnee.data(197:316,10);
Temperature_statique_3h(:,i)=donnee.data(317:414,10);
Temperature_statique_4h(:,i)=donnee.data(415:495,10);
Temperature_statique_5h(:,i)=donnee.data(496:559,10);
Temperature_statique_6h(:,i)=donnee.data(560:614,10);
Temperature_statique_7h(:,i)=donnee.data(615:664,10);
Temperature_statique_8h(:,i)=donnee.data(665:704,10);
Temperature_statique_9h(:,i)=donnee.data(705:740,10);
% Temperature totale
Temperature_totale_10h(:,i)=donnee.data(1:33,11);
Temperature_totale_1h(:,i)=donnee.data(34:196,11);
Temperature_totale_2h(:,i)=donnee.data(197:316,11);
Temperature_totale_3h(:,i)=donnee.data(317:414,11);
Temperature_totale_4h(:,i)=donnee.data(415:495,11);
Temperature_totale_5h(:,i)=donnee.data(496:559,11);
Temperature_totale_6h(:,i)=donnee.data(560:614,11);
Temperature_totale_7h(:,i)=donnee.data(615:664,11);
Temperature_totale_8h(:,i)=donnee.data(665:704,11);
Temperature_totale_9h(:,i)=donnee.data(705:740,11);
% Energie cinétique turbulente
k_10h(:,i)=donnee.data(1:33,12);
k_1h(:,i)=donnee.data(34:196,12);
k_2h(:,i)=donnee.data(197:316,12);
k_3h(:,i)=donnee.data(317:414,12);
k_4h(:,i)=donnee.data(415:495,12);
k_5h(:,i)=donnee.data(496:559,12);
k_6h(:,i)=donnee.data(560:614,12);
k_7h(:,i)=donnee.data(615:664,12);
k_8h(:,i)=donnee.data(665:704,12);
k_9h(:,i)=donnee.data(705:740,12);
% Epsilon
Epsilon_10h(:,i)=donnee.data(1:33,13);
Epsilon_1h(:,i)=donnee.data(34:196,13);
Epsilon_2h(:,i)=donnee.data(197:316,13);
Epsilon_3h(:,i)=donnee.data(317:414,13);
Epsilon_4h(:,i)=donnee.data(415:495,13);
Epsilon_5h(:,i)=donnee.data(496:559,13);
Epsilon_6h(:,i)=donnee.data(560:614,13);
Epsilon_7h(:,i)=donnee.data(615:664,13);
Epsilon_8h(:,i)=donnee.data(665:704,13);
Epsilon_9h(:,i)=donnee.data(705:740,13);
if Viscosite_turb==false
% Viscosité dynamique
mu_10h(:,i)=donnee.data(1:33,14);
mu_1h(:,i)=donnee.data(34:196,14);
mu_2h(:,i)=donnee.data(197:316,14);
mu_3h(:,i)=donnee.data(317:414,14);
mu_4h(:,i)=donnee.data(415:495,14);
mu_5h(:,i)=donnee.data(496:559,14);
mu_6h(:,i)=donnee.data(560:614,14);
mu_7h(:,i)=donnee.data(615:664,14);
mu_8h(:,i)=donnee.data(665:704,14);
mu_9h(:,i)=donnee.data(705:740,14);
% gamma
gamma_10h(:,i)=donnee.data(1:33,15);
gamma_1h(:,i)=donnee.data(34:196,15);
gamma_2h(:,i)=donnee.data(197:316,15);
gamma_3h(:,i)=donnee.data(317:414,15);
gamma_4h(:,i)=donnee.data(415:495,15);
gamma_5h(:,i)=donnee.data(496:559,15);
gamma_6h(:,i)=donnee.data(560:614,15);
gamma_7h(:,i)=donnee.data(615:664,15);
gamma_8h(:,i)=donnee.data(665:704,15);
gamma_9h(:,i)=donnee.data(705:740,15);
% dudx
dudx_10h(:,i)=donnee.data(1:33,16);
dudx_1h(:,i)=donnee.data(34:196,16);
dudx_2h(:,i)=donnee.data(197:316,16);
dudx_3h(:,i)=donnee.data(317:414,16);
dudx_4h(:,i)=donnee.data(415:495,16);
dudx_5h(:,i)=donnee.data(496:559,16);
dudx_6h(:,i)=donnee.data(560:614,16);
dudx_7h(:,i)=donnee.data(615:664,16);
dudx_8h(:,i)=donnee.data(665:704,16);
dudx_9h(:,i)=donnee.data(705:740,16);
% dvdx
dvdx_10h(:,i)=donnee.data(1:33,17);
dvdx_1h(:,i)=donnee.data(34:196,17);
dvdx_2h(:,i)=donnee.data(197:316,17);
dvdx_3h(:,i)=donnee.data(317:414,17);
dvdx_4h(:,i)=donnee.data(415:495,17);
dvdx_5h(:,i)=donnee.data(496:559,17);
dvdx_6h(:,i)=donnee.data(560:614,17);
dvdx_7h(:,i)=donnee.data(615:664,17);
dvdx_8h(:,i)=donnee.data(665:704,17);
dvdx_9h(:,i)=donnee.data(705:740,17);
% dudy
dudy_10h(:,i)=donnee.data(1:33,18);
dudy_1h(:,i)=donnee.data(34:196,18);
dudy_2h(:,i)=donnee.data(197:316,18);
dudy_3h(:,i)=donnee.data(317:414,18);
dudy_4h(:,i)=donnee.data(415:495,18);
dudy_5h(:,i)=donnee.data(496:559,18);
dudy_6h(:,i)=donnee.data(560:614,18);
dudy_7h(:,i)=donnee.data(615:664,18);
dudy_8h(:,i)=donnee.data(665:704,18);
dudy_9h(:,i)=donnee.data(705:740,18);
% dvdy
dvdy_10h(:,i)=donnee.data(1:33,19);
dvdy_1h(:,i)=donnee.data(34:196,19);
dvdy_2h(:,i)=donnee.data(197:316,19);
dvdy_3h(:,i)=donnee.data(317:414,19);
dvdy_4h(:,i)=donnee.data(415:495,19);
dvdy_5h(:,i)=donnee.data(496:559,19);
dvdy_6h(:,i)=donnee.data(560:614,19);
dvdy_7h(:,i)=donnee.data(615:664,19);
dvdy_8h(:,i)=donnee.data(665:704,19);
dvdy_9h(:,i)=donnee.data(705:740,19);
else
% Viscosité turbulente
mut_10h(:,i)=donnee.data(1:33,14);
mut_1h(:,i)=donnee.data(34:196,14);
mut_2h(:,i)=donnee.data(197:316,14);
mut_3h(:,i)=donnee.data(317:414,14);
mut_4h(:,i)=donnee.data(415:495,14);
mut_5h(:,i)=donnee.data(496:559,14);
mut_6h(:,i)=donnee.data(560:614,14);
mut_7h(:,i)=donnee.data(615:664,14);
mut_8h(:,i)=donnee.data(665:704,14);
mut_9h(:,i)=donnee.data(705:740,14);
% Viscosité dynamique
mu_10h(:,i)=donnee.data(1:33,15);
mu_1h(:,i)=donnee.data(34:196,15);
mu_2h(:,i)=donnee.data(197:316,15);
mu_3h(:,i)=donnee.data(317:414,15);
mu_4h(:,i)=donnee.data(415:495,15);
mu_5h(:,i)=donnee.data(496:559,15);
mu_6h(:,i)=donnee.data(560:614,15);
mu_7h(:,i)=donnee.data(615:664,15);
mu_8h(:,i)=donnee.data(665:704,15);
mu_9h(:,i)=donnee.data(705:740,15);
% gamma
gamma_10h(:,i)=donnee.data(1:33,16);
gamma_1h(:,i)=donnee.data(34:196,16);
gamma_2h(:,i)=donnee.data(197:316,16);
gamma_3h(:,i)=donnee.data(317:414,16);
gamma_4h(:,i)=donnee.data(415:495,16);
gamma_5h(:,i)=donnee.data(496:559,16);
gamma_6h(:,i)=donnee.data(560:614,16);
gamma_7h(:,i)=donnee.data(615:664,16);
gamma_8h(:,i)=donnee.data(665:704,16);
gamma_9h(:,i)=donnee.data(705:740,16);
% dudx
dudx_10h(:,i)=donnee.data(1:33,17);
dudx_1h(:,i)=donnee.data(34:196,17);
dudx_2h(:,i)=donnee.data(197:316,17);
dudx_3h(:,i)=donnee.data(317:414,17);
dudx_4h(:,i)=donnee.data(415:495,17);
dudx_5h(:,i)=donnee.data(496:559,17);
dudx_6h(:,i)=donnee.data(560:614,17);
dudx_7h(:,i)=donnee.data(615:664,17);
dudx_8h(:,i)=donnee.data(665:704,17);
dudx_9h(:,i)=donnee.data(705:740,17);
% dvdx
dvdx_10h(:,i)=donnee.data(1:33,18);
dvdx_1h(:,i)=donnee.data(34:196,18);
dvdx_2h(:,i)=donnee.data(197:316,18);
dvdx_3h(:,i)=donnee.data(317:414,18);
dvdx_4h(:,i)=donnee.data(415:495,18);
dvdx_5h(:,i)=donnee.data(496:559,18);
dvdx_6h(:,i)=donnee.data(560:614,18);
dvdx_7h(:,i)=donnee.data(615:664,18);
dvdx_8h(:,i)=donnee.data(665:704,18);
dvdx_9h(:,i)=donnee.data(705:740,18);
% dudy
dudy_10h(:,i)=donnee.data(1:33,19);
dudy_1h(:,i)=donnee.data(34:196,19);
dudy_2h(:,i)=donnee.data(197:316,19);
dudy_3h(:,i)=donnee.data(317:414,19);
dudy_4h(:,i)=donnee.data(415:495,19);
dudy_5h(:,i)=donnee.data(496:559,19);
dudy_6h(:,i)=donnee.data(560:614,19);
dudy_7h(:,i)=donnee.data(615:664,19);
dudy_8h(:,i)=donnee.data(665:704,19);
dudy_9h(:,i)=donnee.data(705:740,19);
% dvdy
dvdy_10h(:,i)=donnee.data(1:33,20);
dvdy_1h(:,i)=donnee.data(34:196,20);
dvdy_2h(:,i)=donnee.data(197:316,20);
dvdy_3h(:,i)=donnee.data(317:414,20);
dvdy_4h(:,i)=donnee.data(415:495,20);
dvdy_5h(:,i)=donnee.data(496:559,20);
dvdy_6h(:,i)=donnee.data(560:614,20);
dvdy_7h(:,i)=donnee.data(615:664,20);
dvdy_8h(:,i)=donnee.data(665:704,20);
dvdy_9h(:,i)=donnee.data(705:740,20);
end
end
delete(poolobj)
Thank's for your help !!
  2 件のコメント
KSSV
KSSV 2022 年 7 月 5 日
You need to attach your file and show us what you want to read.
Mathieu TOCQUER
Mathieu TOCQUER 2022 年 7 月 5 日
Thank you.
I attach the file to the topic.

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採用された回答

Mathieu NOE
Mathieu NOE 2022 年 7 月 5 日
hello Mathieu
this would be my suggestion - create a structure with field names taken from your data file -
See the function file in attachment also - an older wrapper to get headers and numeric content from mixed txt files - still helpfull even though modern matlab releases offer more options - someone will probably prefer a
readtable
code instead.
So my suggestion
[outdata,head] = readclm('data_ligne_100k_3mm.txt'); % or use equivalent function (readtable and alike)
[m,n] = size(outdata);
data_names = split(head);
emptyCells = cellfun('isempty', data_names);
data_names(emptyCells) = []; % remove empty names from list
% find lines matching "1" in the first column (as data block separator)
ind = find(outdata(:,1) < 1.1);
ind = [ind;m+1]; % add end of line index +1
% grouping all these variables under an overarching struct
Content = struct() ;
for ck = 1 : numel(data_names)
fn = data_names{ck};
fn = strrep(fn,'-','_'); % - is not allowed in field names , replaced by _
for cj = 1:numel(ind)-1
start = ind(cj);
stop = ind(cj+1)-1;
str = ['_' num2str(cj-1) 'h'];
fnn = [fn str];
Content.(fnn) = outdata(start:stop,ck);
end
end
will create a structure Content with your data as requested :
Content = struct with fields:
cellnumber_0h: [33×1 double]
cellnumber_1h: [163×1 double]
cellnumber_2h: [120×1 double]
cellnumber_3h: [98×1 double]
cellnumber_4h: [81×1 double]
cellnumber_5h: [64×1 double]
cellnumber_6h: [55×1 double]
cellnumber_7h: [50×1 double]
cellnumber_8h: [40×1 double]
cellnumber_9h: [36×1 double]
x_coordinate_0h: [33×1 double]
x_coordinate_1h: [163×1 double]
x_coordinate_2h: [120×1 double]
x_coordinate_3h: [98×1 double]
x_coordinate_4h: [81×1 double]
x_coordinate_5h: [64×1 double]
x_coordinate_6h: [55×1 double]
x_coordinate_7h: [50×1 double]
x_coordinate_8h: [40×1 double]
x_coordinate_9h: [36×1 double]
y_coordinate_0h: [33×1 double]
y_coordinate_1h: [163×1 double]
y_coordinate_2h: [120×1 double]
y_coordinate_3h: [98×1 double]
y_coordinate_4h: [81×1 double]
y_coordinate_5h: [64×1 double]
y_coordinate_6h: [55×1 double]
y_coordinate_7h: [50×1 double]
y_coordinate_8h: [40×1 double]
y_coordinate_9h: [36×1 double]
pressure_0h: [33×1 double]
pressure_1h: [163×1 double]
pressure_2h: [120×1 double]
pressure_3h: [98×1 double]
pressure_4h: [81×1 double]
pressure_5h: [64×1 double]
pressure_6h: [55×1 double]
pressure_7h: [50×1 double]
pressure_8h: [40×1 double]
pressure_9h: [36×1 double]
dynamic_pressure_0h: [33×1 double]
dynamic_pressure_1h: [163×1 double]
dynamic_pressure_2h: [120×1 double]
dynamic_pressure_3h: [98×1 double]
dynamic_pressure_4h: [81×1 double]
dynamic_pressure_5h: [64×1 double]
dynamic_pressure_6h: [55×1 double]
dynamic_pressure_7h: [50×1 double]
dynamic_pressure_8h: [40×1 double]
dynamic_pressure_9h: [36×1 double]
total_pressure_0h: [33×1 double]
total_pressure_1h: [163×1 double]
total_pressure_2h: [120×1 double]
total_pressure_3h: [98×1 double]
total_pressure_4h: [81×1 double]
total_pressure_5h: [64×1 double]
total_pressure_6h: [55×1 double]
total_pressure_7h: [50×1 double]
total_pressure_8h: [40×1 double]
total_pressure_9h: [36×1 double]
density_0h: [33×1 double]
density_1h: [163×1 double]
density_2h: [120×1 double]
density_3h: [98×1 double]
density_4h: [81×1 double]
density_5h: [64×1 double]
density_6h: [55×1 double]
density_7h: [50×1 double]
density_8h: [40×1 double]
density_9h: [36×1 double]
x_velocity_0h: [33×1 double]
x_velocity_1h: [163×1 double]
x_velocity_2h: [120×1 double]
x_velocity_3h: [98×1 double]
x_velocity_4h: [81×1 double]
x_velocity_5h: [64×1 double]
x_velocity_6h: [55×1 double]
x_velocity_7h: [50×1 double]
x_velocity_8h: [40×1 double]
x_velocity_9h: [36×1 double]
y_velocity_0h: [33×1 double]
y_velocity_1h: [163×1 double]
y_velocity_2h: [120×1 double]
y_velocity_3h: [98×1 double]
y_velocity_4h: [81×1 double]
y_velocity_5h: [64×1 double]
y_velocity_6h: [55×1 double]
y_velocity_7h: [50×1 double]
y_velocity_8h: [40×1 double]
y_velocity_9h: [36×1 double]
temperature_0h: [33×1 double]
temperature_1h: [163×1 double]
temperature_2h: [120×1 double]
temperature_3h: [98×1 double]
temperature_4h: [81×1 double]
temperature_5h: [64×1 double]
temperature_6h: [55×1 double]
temperature_7h: [50×1 double]
temperature_8h: [40×1 double]
temperature_9h: [36×1 double]
total_temperature_0h: [33×1 double]
total_temperature_1h: [163×1 double]
total_temperature_2h: [120×1 double]
total_temperature_3h: [98×1 double]
total_temperature_4h: [81×1 double]
total_temperature_5h: [64×1 double]
total_temperature_6h: [55×1 double]
total_temperature_7h: [50×1 double]
total_temperature_8h: [40×1 double]
total_temperature_9h: [36×1 double]
turb_kinetic_energy_0h: [33×1 double]
turb_kinetic_energy_1h: [163×1 double]
turb_kinetic_energy_2h: [120×1 double]
turb_kinetic_energy_3h: [98×1 double]
turb_kinetic_energy_4h: [81×1 double]
turb_kinetic_energy_5h: [64×1 double]
turb_kinetic_energy_6h: [55×1 double]
turb_kinetic_energy_7h: [50×1 double]
turb_kinetic_energy_8h: [40×1 double]
turb_kinetic_energy_9h: [36×1 double]
turb_diss_rate_0h: [33×1 double]
turb_diss_rate_1h: [163×1 double]
turb_diss_rate_2h: [120×1 double]
turb_diss_rate_3h: [98×1 double]
turb_diss_rate_4h: [81×1 double]
turb_diss_rate_5h: [64×1 double]
turb_diss_rate_6h: [55×1 double]
turb_diss_rate_7h: [50×1 double]
turb_diss_rate_8h: [40×1 double]
turb_diss_rate_9h: [36×1 double]
viscosity_turb_0h: [33×1 double]
viscosity_turb_1h: [163×1 double]
viscosity_turb_2h: [120×1 double]
viscosity_turb_3h: [98×1 double]
viscosity_turb_4h: [81×1 double]
viscosity_turb_5h: [64×1 double]
viscosity_turb_6h: [55×1 double]
viscosity_turb_7h: [50×1 double]
viscosity_turb_8h: [40×1 double]
viscosity_turb_9h: [36×1 double]
viscosity_lam_0h: [33×1 double]
viscosity_lam_1h: [163×1 double]
viscosity_lam_2h: [120×1 double]
viscosity_lam_3h: [98×1 double]
viscosity_lam_4h: [81×1 double]
viscosity_lam_5h: [64×1 double]
viscosity_lam_6h: [55×1 double]
viscosity_lam_7h: [50×1 double]
viscosity_lam_8h: [40×1 double]
viscosity_lam_9h: [36×1 double]
gamma_0h: [33×1 double]
gamma_1h: [163×1 double]
gamma_2h: [120×1 double]
gamma_3h: [98×1 double]
gamma_4h: [81×1 double]
gamma_5h: [64×1 double]
gamma_6h: [55×1 double]
gamma_7h: [50×1 double]
gamma_8h: [40×1 double]
gamma_9h: [36×1 double]
dx_velocity_dx_0h: [33×1 double]
dx_velocity_dx_1h: [163×1 double]
dx_velocity_dx_2h: [120×1 double]
dx_velocity_dx_3h: [98×1 double]
dx_velocity_dx_4h: [81×1 double]
dx_velocity_dx_5h: [64×1 double]
dx_velocity_dx_6h: [55×1 double]
dx_velocity_dx_7h: [50×1 double]
dx_velocity_dx_8h: [40×1 double]
dx_velocity_dx_9h: [36×1 double]
dy_velocity_dx_0h: [33×1 double]
dy_velocity_dx_1h: [163×1 double]
dy_velocity_dx_2h: [120×1 double]
dy_velocity_dx_3h: [98×1 double]
dy_velocity_dx_4h: [81×1 double]
dy_velocity_dx_5h: [64×1 double]
dy_velocity_dx_6h: [55×1 double]
dy_velocity_dx_7h: [50×1 double]
dy_velocity_dx_8h: [40×1 double]
dy_velocity_dx_9h: [36×1 double]
dx_velocity_dy_0h: [33×1 double]
dx_velocity_dy_1h: [163×1 double]
dx_velocity_dy_2h: [120×1 double]
dx_velocity_dy_3h: [98×1 double]
dx_velocity_dy_4h: [81×1 double]
dx_velocity_dy_5h: [64×1 double]
dx_velocity_dy_6h: [55×1 double]
dx_velocity_dy_7h: [50×1 double]
dx_velocity_dy_8h: [40×1 double]
dx_velocity_dy_9h: [36×1 double]
dy_velocity_dy_0h: [33×1 double]
dy_velocity_dy_1h: [163×1 double]
dy_velocity_dy_2h: [120×1 double]
dy_velocity_dy_3h: [98×1 double]
dy_velocity_dy_4h: [81×1 double]
dy_velocity_dy_5h: [64×1 double]
dy_velocity_dy_6h: [55×1 double]
dy_velocity_dy_7h: [50×1 double]
dy_velocity_dy_8h: [40×1 double]
dy_velocity_dy_9h: [36×1 double]
  2 件のコメント
Mathieu TOCQUER
Mathieu TOCQUER 2022 年 7 月 5 日
Thank you a lot Mathieu!!
That will help me.
Mathieu NOE
Mathieu NOE 2022 年 7 月 5 日
My pleasure !
if my suggestion has fullfilled your requirements , would you mind accepting my answer ?
thanks !

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