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utils.py
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utils.py
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"""
Some codes from https://github.com/Newmu/dcgan_code
"""
from __future__ import division
import math
import json
import random
import pprint
import scipy.misc
import numpy as np
from time import gmtime, strftime
from six.moves import xrange
import tensorflow as tf
import tensorflow.contrib.slim as slim
pp = pprint.PrettyPrinter()
get_stddev = lambda x, k_h, k_w: 1/math.sqrt(k_w*k_h*x.get_shape()[-1])
def initialize_uninitialized(sess):
global_vars = tf.global_variables()
is_not_initialized = sess.run([tf.is_variable_initialized(var) for var in global_vars])
not_initialized_vars = [v for (v,f) in zip(global_vars, is_not_initialized) if not f]
print [str(i.name) for i in not_initialized_vars]
if len(not_initialized_vars):
sess.run(tf.variables_initializer(not_initialized_vars))
def show_all_variables():
model_vars = tf.trainable_variables()
slim.model_analyzer.analyze_vars(model_vars, print_info=True)
def get_image(image_path, input_height, input_width,
resize_height=64, resize_width=64,
crop=True, grayscale=False):
image = imread(image_path, grayscale)
return transform(image, input_height, input_width,
resize_height, resize_width, crop)
def save_images(images, size, image_path):
return imsave(inverse_transform(images), size, image_path)
def imread(path, grayscale = False):
if (grayscale):
return scipy.misc.imread(path, flatten = True).astype(np.float)
else:
return scipy.misc.imread(path).astype(np.float)
def merge_images(images, size):
return inverse_transform(images)
def merge(images, size):
h, w = images.shape[1], images.shape[2]
if (images.shape[3] in (3,4)):
c = images.shape[3]
img = np.zeros((h * size[0], w * size[1], c))
for idx, image in enumerate(images):
i = idx % size[1]
j = idx // size[1]
img[j * h:j * h + h, i * w:i * w + w, :] = image
return img
elif images.shape[3]==1:
img = np.zeros((h * size[0], w * size[1]))
for idx, image in enumerate(images):
i = idx % size[1]
j = idx // size[1]
img[j * h:j * h + h, i * w:i * w + w] = image[:,:,0]
return img
else:
raise ValueError('in merge(images,size) images parameter '
'must have dimensions: HxW or HxWx3 or HxWx4')
def imsave(images, size, path):
image = np.squeeze(merge(images, size))
return scipy.misc.imsave(path, image)
def center_crop(x, crop_h, crop_w,
resize_h=64, resize_w=64):
if crop_w is None:
crop_w = crop_h
h, w = x.shape[:2]
j = int(round((h - crop_h)/2.))
i = int(round((w - crop_w)/2.))
return scipy.misc.imresize(
x[j:j+crop_h, i:i+crop_w], [resize_h, resize_w])
def transform(image, input_height, input_width,
resize_height=64, resize_width=64, crop=True):
if crop:
cropped_image = center_crop(
image, input_height, input_width,
resize_height, resize_width)
else:
cropped_image = scipy.misc.imresize(image, [resize_height, resize_width])
return np.array(cropped_image)/127.5 - 1.
def inverse_transform(images):
return (images+1.)/2.
def make_gif(images, fname, duration=2, true_image=False):
import moviepy.editor as mpy
def make_frame(t):
try:
x = images[int(len(images)/duration*t)]
except:
x = images[-1]
if true_image:
return x.astype(np.uint8)
else:
return ((x+1)/2*255).astype(np.uint8)
clip = mpy.VideoClip(make_frame, duration=duration)
clip.write_gif(fname, fps = len(images) / duration)
def visualize(sess, dcgan, config, option):
image_frame_dim = int(math.ceil(config.batch_size**.5))
if option == 0:
z_sample = np.random.uniform(-0.5, 0.5, size=(config.batch_size, dcgan.z_dim))
samples = sess.run(dcgan.sampler, feed_dict={dcgan.z: z_sample})
save_images(samples, [image_frame_dim, image_frame_dim], './samples/test_%s.png' % strftime("%Y-%m-%d-%H-%M-%S", gmtime()))
elif option == 1:
values = np.arange(0, 1, 1./config.batch_size)
for idx in xrange(dcgan.z_dim):
print(" [*] %d" % idx)
z_sample = np.random.uniform(-1, 1, size=(config.batch_size , dcgan.z_dim))
for kdx, z in enumerate(z_sample):
z[idx] = values[kdx]
if config.dataset == "mnist":
y = np.random.choice(10, config.batch_size)
y_one_hot = np.zeros((config.batch_size, 10))
y_one_hot[np.arange(config.batch_size), y] = 1
samples = sess.run(dcgan.sampler, feed_dict={dcgan.z: z_sample, dcgan.y: y_one_hot})
else:
samples = sess.run(dcgan.sampler, feed_dict={dcgan.z: z_sample})
save_images(samples, [image_frame_dim, image_frame_dim], './samples/test_arange_%s.png' % (idx))
elif option == 2:
values = np.arange(0, 1, 1./config.batch_size)
for idx in [random.randint(0, dcgan.z_dim - 1) for _ in xrange(dcgan.z_dim)]:
print(" [*] %d" % idx)
z = np.random.uniform(-0.2, 0.2, size=(dcgan.z_dim))
z_sample = np.tile(z, (config.batch_size, 1))
#z_sample = np.zeros([config.batch_size, dcgan.z_dim])
for kdx, z in enumerate(z_sample):
z[idx] = values[kdx]
if config.dataset == "mnist":
y = np.random.choice(10, config.batch_size)
y_one_hot = np.zeros((config.batch_size, 10))
y_one_hot[np.arange(config.batch_size), y] = 1
samples = sess.run(dcgan.sampler, feed_dict={dcgan.z: z_sample, dcgan.y: y_one_hot})
else:
samples = sess.run(dcgan.sampler, feed_dict={dcgan.z: z_sample})
try:
make_gif(samples, './samples/test_gif_%s.gif' % (idx))
except:
save_images(samples, [image_frame_dim, image_frame_dim], './samples/test_%s.png' % strftime("%Y-%m-%d-%H-%M-%S", gmtime()))
elif option == 3:
values = np.arange(0, 1, 1./config.batch_size)
for idx in xrange(dcgan.z_dim):
print(" [*] %d" % idx)
z_sample = np.zeros([config.batch_size, dcgan.z_dim])
for kdx, z in enumerate(z_sample):
z[idx] = values[kdx]
samples = sess.run(dcgan.sampler, feed_dict={dcgan.z: z_sample})
make_gif(samples, './samples/test_gif_%s.gif' % (idx))
elif option == 4:
image_set = []
values = np.arange(0, 1, 1./config.batch_size)
for idx in xrange(dcgan.z_dim):
print(" [*] %d" % idx)
z_sample = np.zeros([config.batch_size, dcgan.z_dim])
for kdx, z in enumerate(z_sample): z[idx] = values[kdx]
image_set.append(sess.run(dcgan.sampler, feed_dict={dcgan.z: z_sample}))
make_gif(image_set[-1], './samples/test_gif_%s.gif' % (idx))
new_image_set = [merge(np.array([images[idx] for images in image_set]), [10, 10]) \
for idx in range(64) + range(63, -1, -1)]
make_gif(new_image_set, './samples/test_gif_merged.gif', duration=8)
def image_manifold_size(num_images):
manifold_h = int(np.floor(np.sqrt(num_images)))
manifold_w = int(np.ceil(np.sqrt(num_images)))
assert manifold_h * manifold_w == num_images
return manifold_h, manifold_w