samim23 · October 13, 2022 07:54 · sinanisler · Sep 17, 2016 · aidiss · Mar 17, 2017
diff --git a/forward.py b/forward.py
 # "Colorizing B/W Movies with Neural Nets", 
 # Network/Code Created by Ryan Dahl, hacked by samim.io to work with movies 
 # BACKGROUND: http://tinyclouds.org/colorize/
 # DEMO: https://www.youtube.com/watch?v=_MJU8VK2PI4
 # USAGE:
 # 1. Download TensorFlow model from: http://tinyclouds.org/colorize/
 # 2. Use FFMPEG or such to extract frames from video.
 # 3. Make sure your images are 224x224 pixels dimension. You can use imagemagicks "mogrify", here some useful commands:
 # mogrify -resize 224x224 *.jpg
 # mogrify -gravity center -background black -extent 224x224 *.jpg
 # mogrify -colorspace sRGB -type TrueColor *.jpg
 # 4. Create a directory "kidframe" next to this python file, put your extracted video frames inside. 
 # 5. Make sure to have a directory called "out" next to it. Inside "out" a second directory analogue to first ("kidframe")-
 # 6. Run: python forward.py
 # 7. Grab your rendered frames at "out/kidframe/xxx0001.jpg". 
 # 8. Recombine frames with FFMPEG, e.g:
 # cat *.jpg | ffmpeg -f image2pipe -r 25 -vcodec mjpeg -i - -vcodec libx264 out.mp4

 import tensorflow as tf
 import skimage.transform
 from skimage.io import imsave, imread
 import os
 from os import listdir, path
 from os.path import isfile, join

 def get_directory(folder):
    foundfile = []

    for path, subdirs, files in os.walk(folder):
        for name in files:
            found = os.path.join(path, name)
            if name.endswith('.jpg'):
                foundfile.append(found)
        break

    foundfile.sort()
    return foundfile

 def load_image(path):
    img = imread(path)
    # crop image from center
    short_edge = min(img.shape[:2])
    yy = int((img.shape[0] - short_edge) / 2)
    xx = int((img.shape[1] - short_edge) / 2)
    crop_img = img[yy : yy + short_edge, xx : xx + short_edge]
    # resize to 224, 224
    img = skimage.transform.resize(crop_img, (224, 224))
    # desaturate image
    return (img[:,:,0] + img[:,:,1] + img[:,:,2]) / 3.0

 with open("colorize.tfmodel", mode='rb') as f:
    fileContent = f.read()

    graph_def = tf.GraphDef()
    graph_def.ParseFromString(fileContent)
    grayscale = tf.placeholder("float", [1, 224, 224, 1])
    tf.import_graph_def(graph_def, input_map={ "grayscale": grayscale }, name='')

 images = get_directory("kidframes")

 for image in images:
    print image
    shark_gray = load_image(image).reshape(1, 224, 224, 1)

    with tf.Session() as sess:
        inferred_rgb = sess.graph.get_tensor_by_name("inferred_rgb:0")
        inferred_batch = sess.run(inferred_rgb, feed_dict={ grayscale: shark_gray })
        filename = "out/"+image
        imsave(filename, inferred_batch[0])
        print "saved " + filename
    #sess.close()
	# "Colorizing B/W Movies with Neural Nets",
	# Network/Code Created by Ryan Dahl, hacked by samim.io to work with movies
	# BACKGROUND: http://tinyclouds.org/colorize/
	# DEMO: https://www.youtube.com/watch?v=_MJU8VK2PI4
	# USAGE:
	# 1. Download TensorFlow model from: http://tinyclouds.org/colorize/
	# 2. Use FFMPEG or such to extract frames from video.
	# 3. Make sure your images are 224x224 pixels dimension. You can use imagemagicks "mogrify", here some useful commands:
	# mogrify -resize 224x224 *.jpg
	# mogrify -gravity center -background black -extent 224x224 *.jpg
	# mogrify -colorspace sRGB -type TrueColor *.jpg
	# 4. Create a directory "kidframe" next to this python file, put your extracted video frames inside.
	# 5. Make sure to have a directory called "out" next to it. Inside "out" a second directory analogue to first ("kidframe")-
	# 6. Run: python forward.py
	# 7. Grab your rendered frames at "out/kidframe/xxx0001.jpg".
	# 8. Recombine frames with FFMPEG, e.g:
	# cat *.jpg \| ffmpeg -f image2pipe -r 25 -vcodec mjpeg -i - -vcodec libx264 out.mp4

	import tensorflow as tf
	import skimage.transform
	from skimage.io import imsave, imread
	import os
	from os import listdir, path
	from os.path import isfile, join

	def get_directory(folder):
	foundfile = []

	for path, subdirs, files in os.walk(folder):
	for name in files:
	found = os.path.join(path, name)
	if name.endswith('.jpg'):
	foundfile.append(found)
	break

	foundfile.sort()
	return foundfile

	def load_image(path):
	img = imread(path)
	# crop image from center
	short_edge = min(img.shape[:2])
	yy = int((img.shape[0] - short_edge) / 2)
	xx = int((img.shape[1] - short_edge) / 2)
	crop_img = img[yy : yy + short_edge, xx : xx + short_edge]
	# resize to 224, 224
	img = skimage.transform.resize(crop_img, (224, 224))
	# desaturate image
	return (img[:,:,0] + img[:,:,1] + img[:,:,2]) / 3.0

	with open("colorize.tfmodel", mode='rb') as f:
	fileContent = f.read()

	graph_def = tf.GraphDef()
	graph_def.ParseFromString(fileContent)
	grayscale = tf.placeholder("float", [1, 224, 224, 1])
	tf.import_graph_def(graph_def, input_map={ "grayscale": grayscale }, name='')

	images = get_directory("kidframes")

	for image in images:
	print image
	shark_gray = load_image(image).reshape(1, 224, 224, 1)

	with tf.Session() as sess:
	inferred_rgb = sess.graph.get_tensor_by_name("inferred_rgb:0")
	inferred_batch = sess.run(inferred_rgb, feed_dict={ grayscale: shark_gray })
	filename = "out/"+image
	imsave(filename, inferred_batch[0])
	print "saved " + filename
	#sess.close()