I am trying to take what is originally a list "ThetaVect1" which is turned in to an np.ndarray which has a shape of (16,), changing it to a (4,4) array and then using np.newaxis to get a third dimension which I am trying to set to be 3, but can not figure out how.
The thought is, that once I do that I can add coloring to my greyscale images based on random numbers np.random.randint(0,255) that vary for each "pixel". So while I can get print(Greyscale_Theta1_RGB.shape) = (4,4,1) I can not get it in to the (4,4,3) format. I believe this is what needs to be done.
I am trying to work via the following idea here
Greyscale_ThetaVect1 = np.array(ThetaVect1,dtype=np.uint8) print(Greyscale_ThetaVect1.shape) Greyscale_Theta1 = np.reshape(Greyscale_ThetaVect1, (-1, 4)) Greyscale_Theta1_RGB = Greyscale_Theta1[:,:,None] # Greyscale_Theta1_RGB [:,:,0] = np.random.randint(0,255) # Greyscale_Theta1_RGB [:,:,1] = np.random.randint(0,255) # Greyscale_Theta1_RGB [:,:,2] = np.random.randint(0,255) print(Greyscale_Theta1_RGB.shape) save_file = "CM.jpg" i = Image.fromarray(Greyscale_Theta1).save(save_file) i = Image.open("CM.jpg") i.show()
Using Mark Setchell's great answer together with the accepted answer here I am trying to put random colors in the 2-D image array. I got something using this code:
for k,l in enumerate(rgb): print(l) rgb[k] = l * [random.randint(0, 255),random.randint(0, 255),random.randint(0, 255)]
It is not quite correct as there are evident black lines as well as a black strip at the beginning. The image is enlarged to show the straight black lines.
I also removed the gradient by changing f to :
f = lambda i, j: int((128)) and was able to get this interesting image, though notice that there are not pixels but lines instead.