I have been trying to send an image using a socket but a I'm having a big encoding issue. I'm running a server with python-2.7 and a client on python-3.

I think that the problem is in this function:

def decode_image(image):
    imageArray = str(bytearray(image))
    nparr = np.fromstring(imageArray, np.uint8)
    nparr.shape = (320, 240, 3)
    nparr = cv2.cvtColor(nparr, cv2.COLOR_BGR2RGB)
    return nparr

If I run the code with python2.7 interpreter everything works normally, however, with python3 interpreter it doesn't. The error I'm getting is the following:

nparr.shape = (320, 240, 3)
ValueError: cannot reshape array of size 597048 into shape (320,240,3)

Which means that instead of 320*240*3 (230400) decoded elements there are 597048. What is the equivalent way to decode a bytearray with python3 to obtain the same results as with python2.7?

image is a bytes value.

  • 1
    Drop the str() call, it is absolutely not needed in Python 3.
    – Martijn Pieters
    Jul 8 '19 at 18:34
  • What is image here? A binary value in a bytes() object?
    – Martijn Pieters
    Jul 8 '19 at 18:38
  • 1
    Please show your function that sends the image. Jul 8 '19 at 18:41
  • 1
    Side-note: str(bytearray(image)), where image is a Python str object in Python 2, is just an expensive way of creating another str object. str(bytearray(image)) == image in that case.
    – Martijn Pieters
    Jul 8 '19 at 18:52
  • Yes @MartijnPieters , it's a bytes() object.
    – tul1
    Jul 8 '19 at 20:13

You do not need to decode the data, nor do you need to use a bytearray() here at all. Numpy can accept a bytes value directly using numpy.frombuffer().

The error you see is due to the str() call:


which returns the Python representation of the bytearray() object:

>>> bytearray(5)
>>> str(bytearray(5))

str() returned a string with the same data as what was echoed for the first expression. You are passing the bytearray(b' prefix, the literal \x characters and digits to numpy. That's 14 bytes of extra data surrounding your data, and the data itself has been ballooned by a large factor as any non-printable character has been split out into ASCII hex digits plus a backslash and x character. This is why your data can't be reshaped, your binary data was 230400 bytes long, but has been 'reshaped' to a string representation that happens to use 597048 characters, so roughly 2.6 letters per input byte.

If image is a bytes value or an object implementing the Python buffer interface, just pass this value directly to numpy.frombuffer():

nparr = np.frombuffer(image, np.uint8)

If image might be an integer or an iterable of integers in the range (0-255), then just create a bytes() object from that value. So the following line will work correctly for whatever type image might be:

nparr = np.frombuffer(bytes(image), np.uint8)

There are other types that bytearray() might have accepted and still work, but those won't work in your specific code example.


You should decode the bytearray;

imageArray = bytearray(image).decode()

Here's an example (modified from the docs):

>>> np.fromstring(b'1 2'.decode(), dtype=int, sep=' ')
array([1, 2])

On the other hand: str(b'1 2') == "b'1 2'".

  • You don't even need to decode for np.fromstring() to work.
    – Martijn Pieters
    Jul 8 '19 at 18:34
  • And this is image data, this will almost certainly not be decodable as UTF8. Note that they are not using sep in Python 2 either, this is a direct map from byte value to numpy array.
    – Martijn Pieters
    Jul 8 '19 at 18:35
  • Honestly, this answer can't work, so I don't know why it is being upvoted. image is a bytes value with binary image data. bytearray(image).decode() can't ever be decoded as UTF-8 in that case. It certainly doesn't contain ascii numbers separated by spaces.
    – Martijn Pieters
    Jul 8 '19 at 20:47
  • @MartijnPieters, if the OP was using np.fromstring, I was assuming they knew for sure that the data was containing ASCII numbers with an appropriate separator. Of course, bytearrays can contain any sort of bytes that may not be ASCII- or UTF8-decodable, but the usage of np.fromstring suggests that in this case, these bytes should be decodable. I agree that having an image encoded in such a way may be strange, but we don't know what bytearray(image) looks like anyway...
    – ForceBru
    Jul 9 '19 at 9:06
  • In Python 2, np.fromstring() was the equivalent of np.frombuffer(), essentially. The str(bytearray(...)) dance was surprising but perhaps understandable if image wasn’t a (Python 2) str with image data (so an iterable of integers or a single integer or some more exotic form of object that did support the buffer protocol). It could never have been a sequence of ASCII numbers as they never set a separator.
    – Martijn Pieters
    Jul 9 '19 at 9:19

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