250

Alright, I'm toying around with converting a PIL image object back and forth to a numpy array so I can do some faster pixel by pixel transformations than PIL's PixelAccess object would allow. I've figured out how to place the pixel information in a useful 3D numpy array by way of:

pic = Image.open("foo.jpg")
pix = numpy.array(pic.getdata()).reshape(pic.size[0], pic.size[1], 3)

But I can't seem to figure out how to load it back into the PIL object after I've done all my awesome transforms. I'm aware of the putdata() method, but can't quite seem to get it to behave.

  • 6
    Note that pic.size[0] and pic.size[1] should be swapped (ie. reshape(pic.size[1], pic.size[0], 3)), since size is width x height or x * y, while matrix ordering is rows x columns. – foges Mar 21 '18 at 15:16
284

You're not saying how exactly putdata() is not behaving. I'm assuming you're doing

>>> pic.putdata(a)
Traceback (most recent call last):
  File "...blablabla.../PIL/Image.py", line 1185, in putdata
    self.im.putdata(data, scale, offset)
SystemError: new style getargs format but argument is not a tuple

This is because putdata expects a sequence of tuples and you're giving it a numpy array. This

>>> data = list(tuple(pixel) for pixel in pix)
>>> pic.putdata(data)

will work but it is very slow.

As of PIL 1.1.6, the "proper" way to convert between images and numpy arrays is simply

>>> pix = numpy.array(pic)

although the resulting array is in a different format than yours (3-d array or rows/columns/rgb in this case).

Then, after you make your changes to the array, you should be able to do either pic.putdata(pix) or create a new image with Image.fromarray(pix).

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  • 2
    First, shouldn't it be pic.putdata(data)? And numpy.asarray(pic) produces a readonly array, so you need to call numpy.array(pic), and you didn't answer the question... from the link you provided it appears to be pic = Image.fromarray(pix). Fix your answer and I'll accept it. – akdom Dec 23 '08 at 19:10
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    Thanks for this...Image.fromarray is not listed in the PIL documentation (!) so I'd never have found it if it weren't for this. – Nathan Reed Jul 15 '12 at 5:20
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    That page lists numpy.asarray(pic) as the "proper" way to convert, not numpy.array(pic). As per this answer array will make a copy whereas asarray will not (but then the asarray result will be read-only). – Arthur Tacca Nov 30 '16 at 10:13
  • A warning here (from my own mistake): you need to consider the scale and ranges of the data as well. In many usecases you'd render Images with 0-255 bytes, but you might expect these to get converted to for example 0.0-1.0 in the numpy array. Some unit conversions from uint8 do this, but in this case, it doesn't.. so check it :) – BjornW Jan 21 '19 at 10:15
189

Open I as an array:

>>> I = numpy.asarray(PIL.Image.open('test.jpg'))

Do some stuff to I, then, convert it back to an image:

>>> im = PIL.Image.fromarray(numpy.uint8(I))

Filter numpy images with FFT, Python

If you want to do it explicitly for some reason, there are pil2array() and array2pil() functions using getdata() on this page in correlation.zip.

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  • 2
    @ArditS.: Did you import Image first? Do you have PIL installed? – endolith Nov 9 '13 at 17:04
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    Is the uint8 conversion necessary? – Neil Traft Jan 16 '14 at 5:33
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    numpy.asarray(Image.open(filename)) seems to work for .jpg images but not for .png. The result displays as array(<PngImagePlugin.PngImageFile image mode=LA size=500x500 at 0x3468198>, dtype=object). There seem to be no obviously-named methods of the PngImagePlugin.PngImageFile object for solving this. Guess I should ask this as a new question but it's very relevant to this thread. Anybody understand what's going wrong here? – jez Dec 1 '15 at 23:59
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    @Rebs: here's the reason why this is so much faster: getdata() returns a sequence like object (pillow.readthedocs.io/en/3.4.x/reference/…), but a pillow image implements the __array_interface__ which numpy can use to access the raw bytes of an image without having to pass through an iterator (see github.com/python-pillow/Pillow/blob/… and docs.scipy.org/doc/numpy/reference/arrays.interface.html). You can even just use numpy.array(PIL.Image.open('test.jpg')) – tdp2110 Jul 28 '17 at 17:34
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    @jez Check if the Image object is closed before you convert it to numpy. The same happened to me and I found I closed the image object somewhere. – Shaohua Li Aug 18 '18 at 14:34
64

I am using Pillow 4.1.1 (the successor of PIL) in Python 3.5. The conversion between Pillow and numpy is straightforward.

from PIL import Image
import numpy as np
im = Image.open('1.jpg')
im2arr = np.array(im) # im2arr.shape: height x width x channel
arr2im = Image.fromarray(im2arr)

One thing that needs noticing is that Pillow-style im is column-major while numpy-style im2arr is row-major. However, the function Image.fromarray already takes this into consideration. That is, arr2im.size == im.size and arr2im.mode == im.mode in the above example.

We should take care of the HxWxC data format when processing the transformed numpy arrays, e.g. do the transform im2arr = np.rollaxis(im2arr, 2, 0) or im2arr = np.transpose(im2arr, (2, 0, 1)) into CxHxW format.

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  • 2
    This is about the cleanest example, including import statements (thanks for that detail). Let's vote this answer up to increase visibility. – David Parks Apr 7 '18 at 15:17
  • I found that when I converted a PIL drawn image to a numpy array, when using matplotlib imshow on the array, it showed it upside down requiring a np.flipud to fix. Although my PIL image was created from scratch using ImageDraw.Draw. I think one must be careful where the origin of their coordinates comes from. – CMCDragonkai Apr 13 '18 at 7:21
  • Bless you!! I have been looking for this answer for half a day. It solves my problem of restoring the original axis after of the plot image to the original one. – Tinkerbell Jun 27 '18 at 10:21
16

You need to convert your image to a numpy array this way:

import numpy
import PIL

img = PIL.Image.open("foo.jpg").convert("L")
imgarr = numpy.array(img) 
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  • This way of conversion retains the image but results in a loss of colors. Anyway to avoid the color loss? – Moondra Jan 15 '17 at 16:13
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    @moondra If I understand your question, you can replace .convert("L") by .convert("RGB") – Billal Begueradj Jan 15 '17 at 16:18
3

The example, I have used today:

import PIL
import numpy
from PIL import Image

def resize_image(numpy_array_image, new_height):
    # convert nympy array image to PIL.Image
    image = Image.fromarray(numpy.uint8(numpy_array_image))
    old_width = float(image.size[0])
    old_height = float(image.size[1])
    ratio = float( new_height / old_height)
    new_width = int(old_width * ratio)
    image = image.resize((new_width, new_height), PIL.Image.ANTIALIAS)
    # convert PIL.Image into nympy array back again
    return array(image)
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0

If your image is stored in a Blob format (i.e. in a database) you can use the same technique explained by Billal Begueradj to convert your image from Blobs to a byte array.

In my case, I needed my images where stored in a blob column in a db table:

def select_all_X_values(conn):
    cur = conn.cursor()
    cur.execute("SELECT ImageData from PiecesTable")    
    rows = cur.fetchall()    
    return rows

I then created a helper function to change my dataset into np.array:

X_dataset = select_all_X_values(conn)
imagesList = convertToByteIO(np.array(X_dataset))

def convertToByteIO(imagesArray):
    """
    # Converts an array of images into an array of Bytes
    """
    imagesList = []

    for i in range(len(imagesArray)):  
        img = Image.open(BytesIO(imagesArray[i])).convert("RGB")
        imagesList.insert(i, np.array(img))

    return imagesList

After this, I was able to use the byteArrays in my Neural Network.

plt.imshow(imagesList[0])
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0

Convert Numpy to PIL image and PIL to Numpy

import numpy as np
from PIL import Image

def pilToNumpy(img):
    return np.array(img)

def NumpyToPil(img):
    return Image.fromarray(img)
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-1
def imshow(img):
    img = img / 2 + 0.5     # unnormalize
    npimg = img.numpy()
    plt.imshow(np.transpose(npimg, (1, 2, 0)))
    plt.show()

You can transform the image into numpy by parsing the image into numpy() function after squishing out the features( unnormalization)

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