81

How do I display a PyTorch Tensor of shape (3, 224, 224) representing a 224x224 RGB image? Using plt.imshow(image) gives the error:

TypeError: Invalid dimensions for image data

8 Answers 8

164

Given a Tensor representing the image, use .permute() to put the channels as the last dimension:

plt.imshow(  tensor_image.permute(1, 2, 0)  )

Note: permute does not copy or allocate memory, and from_numpy() doesn't either.

4
  • Wow thank you... This worked for me... I was trying to do tensor_image.numpy().reshape([224,224,3]) and visualize it using cv2.imshow() But i was not getting the actual image... whats going wrong here?? Jun 4, 2020 at 14:50
  • 5
    @DevashishPrasad The problem is that reshape([224,224,3]) doesn't do the same thing that permute(1, 2, 0) does. The permute function is similar to transposing a matrix, where rows become columns and columns become rows. The reshape function does something totally unrelated that I don't know how to describe concisely. In short, reshape is the wrong function. Mar 1, 2021 at 17:53
  • what is the shape of tensor_image ? Nov 16, 2022 at 23:02
  • An arguably more readable alternative is plt.imshow(torch.einsum('cwh->whc', tensor_image))
    – rusheb
    Dec 28, 2022 at 17:27
21

As you can see matplotlib works fine even without conversion to numpy array. But PyTorch Tensors ("Image tensors") are channel first, so to use them with matplotlib you need to reshape it:

Code:

from scipy.misc import face
import matplotlib.pyplot as plt
import torch

np_image = face()
print(type(np_image), np_image.shape)
tensor_image = torch.from_numpy(np_image)
print(type(tensor_image), tensor_image.shape)
# reshape to channel first:
tensor_image = tensor_image.view(tensor_image.shape[2], tensor_image.shape[0], tensor_image.shape[1])
print(type(tensor_image), tensor_image.shape)

# If you try to plot image with shape (C, H, W)
# You will get TypeError:
# plt.imshow(tensor_image)

# So we need to reshape it to (H, W, C):
tensor_image = tensor_image.view(tensor_image.shape[1], tensor_image.shape[2], tensor_image.shape[0])
print(type(tensor_image), tensor_image.shape)

plt.imshow(tensor_image)
plt.show()

Output:

<class 'numpy.ndarray'> (768, 1024, 3)
<class 'torch.Tensor'> torch.Size([768, 1024, 3])
<class 'torch.Tensor'> torch.Size([3, 768, 1024])
<class 'torch.Tensor'> torch.Size([768, 1024, 3])
1
  • 1
    Hmm, doesn't work for me, see updated question with the tensor's shape.
    – Tom Hale
    Dec 14, 2018 at 4:40
10

PyTorch modules processing image data expect tensors in the format C × H × W.1
Whereas PILLow and Matplotlib expect image arrays in the format H × W × C.2

You can easily convert tensors to/from this format with a TorchVision transform:

from torchvision.transforms import functional as F

F.to_pil_image(image_tensor)

Or by directly permuting the axes:

image_tensor.permute(1,2,0)

  1. PyTorch modules dealing with image data require tensors to be laid out as C × H × W : channels, height, and width, respectively.

  2. Note how we have to use permute to change the order of the axes from C × H × W to H × W × C to match what Matplotlib expects.

9

Given the image is loaded as described and stored in the variable image:

plt.imshow(transforms.ToPILImage()(image), interpolation="bicubic")
#transforms.ToPILImage()(image).show() # Alternatively

Or as Soumith suggested:

def show(img):
    npimg = img.numpy()
    plt.imshow(np.transpose(npimg, (1, 2, 0)), interpolation='nearest')
1
  • 1
    import torchvision.transforms # maybe add the import to the code
    – Fuji
    May 10, 2021 at 4:46
4

A complete example given an image pathname img_path:

from PIL import Image
image = Image.open(img_path)
plt.imshow(transforms.ToPILImage()(transforms.ToTensor()(image)), interpolation="bicubic")

Note that transforms.* return a class, which is why the funky bracketing.

3

Torch is in shape of channel,height,width need to convert it into height,width, channel so permute.

plt.imshow(white_torch.permute(1, 2, 0))

Or directly if you want

import torch
import torchvision
from torchvision.io import read_image
import torchvision.transforms as T

!wget 'https://images.unsplash.com/photo-1553284965-83fd3e82fa5a?ixlib=rb-1.2.1&ixid=MnwxMjA3fDB8MHxleHBsb3JlLWZlZWR8NHx8fGVufDB8fHx8&w=1000&q=80'  -O white_horse.jpg

white_torch = torchvision.io.read_image('white_horse.jpg')

T.ToPILImage()(white_torch)

enter image description here

0

Use show_image from fastai

from fastai.vision.all import show_image

enter image description here

enter image description here

0

I've written a simple function to visualize the pytorch tensor using matplotlib.

import numpy as np
import matplotlib.pyplot as plt
import torch

def show(*imgs):
    '''
     input imgs can be single or multiple tensor(s), this function uses matplotlib to visualize.
     Single input example:
     show(x) gives the visualization of x, where x should be a torch.Tensor
        if x is a 4D tensor (like image batch with the size of b(atch)*c(hannel)*h(eight)*w(eight), this function splits x in batch dimension, showing b subplots in total, where each subplot displays first 3 channels (3*h*w) at most. 
        if x is a 3D tensor, this function shows first 3 channels at most (in RGB format)
        if x is a 2D tensor, it will be shown as grayscale map
     
     Multiple input example:      
     show(x,y,z) produces three windows, displaying x, y, z respectively, where x,y,z can be in any form described above.
    '''
    img_idx = 0
    for img in imgs:
        img_idx +=1
        plt.figure(img_idx)
        if isinstance(img, torch.Tensor):
            img = img.detach().cpu()

            if img.dim()==4: # 4D tensor
                bz = img.shape[0]
                c = img.shape[1]
                if bz==1 and c==1:  # single grayscale image
                    img=img.squeeze()
                elif bz==1 and c==3: # single RGB image
                    img=img.squeeze()
                    img=img.permute(1,2,0)
                elif bz==1 and c > 3: # multiple feature maps
                    img = img[:,0:3,:,:]
                    img = img.permute(0, 2, 3, 1)[:]
                    print('warning: more than 3 channels! only channels 0,1,2 are preserved!')
                elif bz > 1 and c == 1:  # multiple grayscale images
                    img=img.squeeze()
                elif bz > 1 and c == 3:  # multiple RGB images
                    img = img.permute(0, 2, 3, 1)
                elif bz > 1 and c > 3:  # multiple feature maps
                    img = img[:,0:3,:,:]
                    img = img.permute(0, 2, 3, 1)[:]
                    print('warning: more than 3 channels! only channels 0,1,2 are preserved!')
                else:
                    raise Exception("unsupported type!  " + str(img.size()))
            elif img.dim()==3: # 3D tensor
                bz = 1
                c = img.shape[0]
                if c == 1:  # grayscale
                    img=img.squeeze()
                elif c == 3:  # RGB
                    img = img.permute(1, 2, 0)
                else:
                    raise Exception("unsupported type!  " + str(img.size()))
            elif img.dim()==2:
                pass
            else:
                raise Exception("unsupported type!  "+str(img.size()))


            img = img.numpy()  # convert to numpy
            img = img.squeeze()
            if bz ==1:
                plt.imshow(img, cmap='gray')
                # plt.colorbar()
                # plt.show()
            else:
                for idx in range(0,bz):
                    plt.subplot(int(bz**0.5),int(np.ceil(bz/int(bz**0.5))),int(idx+1))
                    plt.imshow(img[idx], cmap='gray')

        else:
            raise Exception("unsupported type:  "+str(type(img)))

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