I have a matrix in the type of a Numpy array. How would I write it to disk it as an image? Any format works (png, jpeg, bmp...). One important constraint is that PIL is not present.
This uses PIL, but maybe some might find it useful:
import scipy.misc scipy.misc.imsave('outfile.jpg', image_array)
EDIT: The current
scipy version started to normalize all images so that min(data) become black and max(data) become white. This is unwanted if the data should be exact grey levels or exact RGB channels. The solution:
import scipy.misc scipy.misc.toimage(image_array, cmin=0.0, cmax=...).save('outfile.jpg')
import matplotlib matplotlib.image.imsave('name.png', array)
Works with matplotlib 1.3.1, I don't know about lower version. From the docstring:
Arguments: *fname*: A string containing a path to a filename, or a Python file-like object. If *format* is *None* and *fname* is a string, the output format is deduced from the extension of the filename. *arr*: An MxN (luminance), MxNx3 (RGB) or MxNx4 (RGBA) array.
opencv for python (documentation here).
import cv2 import numpy as np img = ... # Your image as a numpy array cv2.imwrite("filename.png", img)
useful if you need to do more processing other than saving.
Pure Python (2 & 3), a snippet without 3rd party dependencies.
This function writes compressed, true-color (4 bytes per pixel)
def write_png(buf, width, height): """ buf: must be bytes or a bytearray in Python3.x, a regular string in Python2.x. """ import zlib, struct # reverse the vertical line order and add null bytes at the start width_byte_4 = width * 4 raw_data = b''.join( b'\x00' + buf[span:span + width_byte_4] for span in range((height - 1) * width_byte_4, -1, - width_byte_4) ) def png_pack(png_tag, data): chunk_head = png_tag + data return (struct.pack("!I", len(data)) + chunk_head + struct.pack("!I", 0xFFFFFFFF & zlib.crc32(chunk_head))) return b''.join([ b'\x89PNG\r\n\x1a\n', png_pack(b'IHDR', struct.pack("!2I5B", width, height, 8, 6, 0, 0, 0)), png_pack(b'IDAT', zlib.compress(raw_data, 9)), png_pack(b'IEND', b'')])
... The data should be written directly to a file opened as binary, as in:
data = write_png(buf, 64, 64) with open("my_image.png", 'wb') as fh: fh.write(data)
for saving a numpy array as image, U have several choices:
1) best of other: OpenCV
import cv2 cv2.imwrite('file name with extension(like .jpg)', numpy_array)
from matplotlib import pyplot as plt plt.imsave('file name with extension(like .jpg)', numpy_array)
from PIL import Image image = Image.fromarray(numpy_array) image.save('file name with extension(like .jpg)')
Addendum to @ideasman42's answer:
def saveAsPNG(array, filename): import struct if any([len(row) != len(array) for row in array]): raise ValueError, "Array should have elements of equal size" #First row becomes top row of image. flat = ; map(flat.extend, reversed(array)) #Big-endian, unsigned 32-byte integer. buf = b''.join([struct.pack('>I', ((0xffFFff & i32)<<8)|(i32>>24) ) for i32 in flat]) #Rotate from ARGB to RGBA. data = write_png(buf, len(array), len(array)) f = open(filename, 'wb') f.write(data) f.close()
So you can do:
saveAsPNG([[0xffFF0000, 0xffFFFF00], [0xff00aa77, 0xff333333]], 'test_grid.png')
(Transparency also works, by reducing the high byte from
For those looking for a direct fully working example:
from PIL import Image import numpy w,h = 200,100 img = numpy.zeros((h,w,3),dtype=numpy.uint8) # has to be unsigned bytes img[:] = (0,0,255) # fill blue x,y = 40,20 img[y:y+30, x:x+50] = (255,0,0) # 50x30 red box Image.fromarray(img).convert("RGB").save("art.png") # don't need to convert
also, if you want high quality jpeg's
.save(file, subsampling=0, quality=100)
matplotlib svn has a new function to save images as just an image -- no axes etc. it's a very simple function to backport too, if you don't want to install svn (copied straight from image.py in matplotlib svn, removed the docstring for brevity):
def imsave(fname, arr, vmin=None, vmax=None, cmap=None, format=None, origin=None): from matplotlib.backends.backend_agg import FigureCanvasAgg as FigureCanvas from matplotlib.figure import Figure fig = Figure(figsize=arr.shape[::-1], dpi=1, frameon=False) canvas = FigureCanvas(fig) fig.figimage(arr, cmap=cmap, vmin=vmin, vmax=vmax, origin=origin) fig.savefig(fname, dpi=1, format=format)
Imageio is a Python library that provides an easy interface to read and write a wide range of image data, including animated images, video, volumetric data, and scientific formats. It is cross-platform, runs on Python 2.7 and 3.4+, and is easy to install.
This is example for grayscale image:
import numpy as np import imageio # data is numpy array with grayscale value for each pixel. data = np.array([70,80,82,72,58,58,60,63,54,58,60,48,89,115,121,119]) # 16 pixels can be converted into square of 4x4 or 2x8 or 8x2 data = data.reshape((4, 4)).astype('uint8') # save image imageio.imwrite('pic.jpg', data)
The world probably doesn't need yet another package for writing a numpy array to a PNG file, but for those who can't get enough, I recently put up
numpngw on github:
and on pypi: https://pypi.python.org/pypi/numpngw/
The only external dependency is numpy.
Here's the first example from the
examples directory of the repository. The essential line is simply
img is a numpy array. All the code before that line is import statements and code to create
import numpy as np from numpngw import write_png # Example 1 # # Create an 8-bit RGB image. img = np.zeros((80, 128, 3), dtype=np.uint8) grad = np.linspace(0, 255, img.shape) img[:16, :, :] = 127 img[16:32, :, 0] = grad img[32:48, :, 1] = grad[::-1] img[48:64, :, 2] = grad img[64:, :, :] = 127 write_png('example1.png', img)
Here's the PNG file that it creates:
Also, I used
numpngw.write_apng to create the animations in Voronoi diagram in Manhattan metric.
If you happen to use [Py]Qt already, you may be interested in qimage2ndarray. Starting with version 1.4 (just released), PySide is supported as well, and there will be a tiny
imsave(filename, array) function similar to scipy's, but using Qt instead of PIL. With 1.3, just use something like the following:
qImage = array2qimage(image, normalize = False) # create QImage from ndarray success = qImage.save(filename) # use Qt's image IO functions for saving PNG/JPG/..
(Another advantage of 1.4 is that it is a pure python solution, which makes this even more lightweight.)
so this should work as I tested (you have to have pygame installed if you do not have pygame install it by using pip -> pip install pygame (that sometimes does not work so in that case you will have to download the wheel or sth but that you can look up on google)):
import pygame pygame.init() win = pygame.display.set_mode((128, 128)) pygame.surfarray.blit_array(win, yourarray) pygame.display.update() pygame.image.save(win, 'yourfilename.png')
just remember to change display width and height according to your array
here is an example, run this code:
import pygame from numpy import zeros pygame.init() win = pygame.display.set_mode((128, 128)) striped = zeros((128, 128, 3)) striped[:] = (255, 0, 0) striped[:, ::3] = (0, 255, 255) pygame.surfarray.blit_array(win, striped) pygame.display.update() pygame.image.save(win, 'yourfilename.png')
In the folowing answer has the methods as proposed by @Nima Farhadi in time measurement.
The fastest is CV2 , but it's important to change colors order from RGB to BGR. The simples is matplotlib.
It's important to assure, that the array have unsigned integer format uint8/16/32.
#Matplotlib from matplotlib import pyplot as plt plt.imsave('c_plt.png', c.astype(np.uint8)) #PIL from PIL import Image image = Image.fromarray(c.astype(np.uint8)) image.save('c_pil.png') #CV2, OpenCV import cv2 cv2.imwrite('c_cv2.png', cv2.cvtColor(c, cv2.COLOR_RGB2BGR))