1) use the sprintf method shown here:
2) use saveas:
or download export_fig:
How to save each image generated in a for loop?
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for i=1:20
volume=randi([2 10], 1,1)
location=randi([10 100], 1, 1)
imagegenerator(volume,location)
end
^This is a simplified example of my code.
I generate random variables which are inputted into a function called imagegenerator, which generates an image.
With the for loop, I'm generating several random images.
I want to
1) save each image with a different name each time (i.e "image 1" "image 2" "image 3", etc.)
2) also save the inputs (volume, location) associated with each image (preferably in the same folder/ with the same name "image 1" "image 2" , etc.)
How can I do this? Thanks!
P.S. I want to be able to use all these images/ their inputs later to put into a machine learning algorithm that'll cluster the images based off the pixels or the inputs (not sure yet).
Risposta accettata
Abolfazl Chaman Motlagh
il 2 Nov 2020
Hi ,you Can use imwrite for saving images. Also use save for 'volume' and 'location'. (you can make datastore and write a Read_function for datastore to import them sequentially for your ML training).
for datastore see this : datastore
Also for images you can use this : imageDatastore
here's some hint: (consider your imagegenerator has image in output).
for i=1:20
volume=randi([2 10], 1,1)
location=randi([10 100], 1, 1)
Name=['image ' num2str(i)];
save([Name '.mat'],'volume','location');
I=imagegenerator(volume,location);
imwrite(I,[Name '.jpg'])
end
7 Commenti
Abolfazl Chaman Motlagh
il 3 Nov 2020
Modificato: Abolfazl Chaman Motlagh
il 3 Nov 2020
about first question : the image is tiny propobly because the size itself . i don't know this related or not , just guessing. but use size(I) if you don't know the size already.
about inverted image. as you can see argument in imagesc is -x. thats why you see an image but the inverted is saving as image. you can use this transform :
image=-image; % invert the image
% because the values are less than 0 if you save it and read it again you'll see the image corrupted
% so need to sacle it to be between 0 to 1
I=(image-min(image,[],'all'))/(max(image,[],'all')-min(image,[],'all'))
% then save I as an image
this will scale up your image for reading.
Abolfazl Chaman Motlagh
il 3 Nov 2020
imageDatastore is a class for saving image addresses. you should have a cell that every cell include path to an image . then write this :
imds=imageDatastore(paths)
for many of application in matlab imageDatastore is supported as Train (Test or validation) of ML or deep learning training process.
every time you use read on your datastore , an image come out as an output.
also Labels of train dataset can be saved in this object.
see:
it doesnt need read function for this class.
if you use special dataset you can use datastore
datastore (example : use .mat file as a dataset)
but in most cases you should write read_function yourself.
for example this function that train a Network need imagedatastore as first argument.
net = trainNetwork(imds,layers,options)
Più risposte (1)
S. Walter
il 2 Nov 2020
Modificato: S. Walter
il 2 Nov 2020
You can print the image:
print('filename','-dpng','-r300')
where '-dpng' can be set to whatever format you want (check out the help file) and '-r300' is the resolution ('-r0' is screen resolution).
To change the filename to image 1 etc you can add the following to your for loop
f_name = ['image ' num2str(i)];
print(f_name,'-dpng','-r300')
Make sure you close your figures after you're done printing them.
Edit: In terms of saving the data, you can just use
save('filename','volume','location')
That will save it as a Matlab .mat file. If you want to write it to file, you should check out "writematrix" or "fprintf".
5 Commenti
S. Walter
il 3 Nov 2020
You can either try
A = gcf
at the end of that snippet of code (gcf = "get current figure"). This stores the figure handle in A.
Or you can do it before:
% PLOT DENSITIES
% Open a new figure window
A = figure;
% Add a colormap
colormap(gray);
% Display the image - store the handle in A
imagesc(-x);
% Make the axis equal and tight
axis equal;
axis tight;
% Turn the axis off
axis off;
% Pause for a moment
pause(1e-6);
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