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helper.py
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helper.py
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import math
import os
import hashlib
from urllib.request import urlretrieve
import zipfile
import gzip
import shutil
import numpy as np
from PIL import Image
from tqdm import tqdm
def _read32(bytestream):
"""
Read 32-bit integer from bytesteam
:param bytestream: A bytestream
:return: 32-bit integer
"""
dt = np.dtype(np.uint32).newbyteorder('>')
return np.frombuffer(bytestream.read(4), dtype=dt)[0]
def _unzip(save_path, _, database_name, data_path):
"""
Unzip wrapper with the same interface as _ungzip
:param save_path: The path of the gzip files
:param database_name: Name of database
:param data_path: Path to extract to
:param _: HACK - Used to have to same interface as _ungzip
"""
print('Extracting {}...'.format(database_name))
with zipfile.ZipFile(save_path) as zf:
zf.extractall(data_path)
def _ungzip(save_path, extract_path, database_name, _):
"""
Unzip a gzip file and extract it to extract_path
:param save_path: The path of the gzip files
:param extract_path: The location to extract the data to
:param database_name: Name of database
:param _: HACK - Used to have to same interface as _unzip
"""
# Get data from save_path
with open(save_path, 'rb') as f:
with gzip.GzipFile(fileobj=f) as bytestream:
magic = _read32(bytestream)
if magic != 2051:
raise ValueError('Invalid magic number {} in file: {}'.format(magic, f.name))
num_images = _read32(bytestream)
rows = _read32(bytestream)
cols = _read32(bytestream)
buf = bytestream.read(rows * cols * num_images)
data = np.frombuffer(buf, dtype=np.uint8)
data = data.reshape(num_images, rows, cols)
# Save data to extract_path
for image_i, image in enumerate(
tqdm(data, unit='File', unit_scale=True, miniters=1, desc='Extracting {}'.format(database_name))):
Image.fromarray(image, 'L').save(os.path.join(extract_path, 'image_{}.jpg'.format(image_i)))
def get_image(image_path, width, height, mode):
"""
Read image from image_path
:param image_path: Path of image
:param width: Width of image
:param height: Height of image
:param mode: Mode of image
:return: Image data
"""
image = Image.open(image_path)
if image.size != (width, height): # HACK - Check if image is from the CELEBA dataset
# Remove most pixels that aren't part of a face
face_width = face_height = 108
j = (image.size[0] - face_width) // 2
i = (image.size[1] - face_height) // 2
image = image.crop([j, i, j + face_width, i + face_height])
image = image.resize([width, height], Image.BILINEAR)
return np.array(image.convert(mode))
def get_batch(image_files, width, height, mode):
data_batch = np.array(
[get_image(sample_file, width, height, mode) for sample_file in image_files]).astype(np.float32)
# Make sure the images are in 4 dimensions
if len(data_batch.shape) < 4:
data_batch = data_batch.reshape(data_batch.shape + (1,))
return data_batch
def images_square_grid(images, mode):
"""
Save images as a square grid
:param images: Images to be used for the grid
:param mode: The mode to use for images
:return: Image of images in a square grid
"""
# Get maximum size for square grid of images
save_size = math.floor(np.sqrt(images.shape[0]))
# Scale to 0-255
images = (((images - images.min()) * 255) / (images.max() - images.min())).astype(np.uint8)
# Put images in a square arrangement
images_in_square = np.reshape(
images[:save_size*save_size],
(save_size, save_size, images.shape[1], images.shape[2], images.shape[3]))
if mode == 'L':
images_in_square = np.squeeze(images_in_square, 4)
# Combine images to grid image
new_im = Image.new(mode, (images.shape[1] * save_size, images.shape[2] * save_size))
for col_i, col_images in enumerate(images_in_square):
for image_i, image in enumerate(col_images):
im = Image.fromarray(image, mode)
new_im.paste(im, (col_i * images.shape[1], image_i * images.shape[2]))
return new_im
def download_extract(database_name, data_path):
"""
Download and extract database
:param database_name: Database name
"""
DATASET_CELEBA_NAME = 'celeba'
DATASET_MNIST_NAME = 'mnist'
if database_name == DATASET_CELEBA_NAME:
url = 'https://s3-us-west-1.amazonaws.com/udacity-dlnfd/datasets/celeba.zip'
hash_code = '00d2c5bc6d35e252742224ab0c1e8fcb'
extract_path = os.path.join(data_path, 'img_align_celeba')
save_path = os.path.join(data_path, 'celeba.zip')
extract_fn = _unzip
elif database_name == DATASET_MNIST_NAME:
url = 'http://yann.lecun.com/exdb/mnist/train-images-idx3-ubyte.gz'
hash_code = 'f68b3c2dcbeaaa9fbdd348bbdeb94873'
extract_path = os.path.join(data_path, 'mnist')
save_path = os.path.join(data_path, 'train-images-idx3-ubyte.gz')
extract_fn = _ungzip
if os.path.exists(extract_path):
print('Found {} Data'.format(database_name))
return
if not os.path.exists(data_path):
os.makedirs(data_path)
if not os.path.exists(save_path):
with DLProgress(unit='B', unit_scale=True, miniters=1, desc='Downloading {}'.format(database_name)) as pbar:
urlretrieve(
url,
save_path,
pbar.hook)
assert hashlib.md5(open(save_path, 'rb').read()).hexdigest() == hash_code, \
'{} file is corrupted. Remove the file and try again.'.format(save_path)
os.makedirs(extract_path)
try:
extract_fn(save_path, extract_path, database_name, data_path)
except Exception as err:
shutil.rmtree(extract_path) # Remove extraction folder if there is an error
raise err
# Remove compressed data
os.remove(save_path)
class Dataset(object):
"""
Dataset
"""
def __init__(self, dataset_name, data_files):
"""
Initalize the class
:param dataset_name: Database name
:param data_files: List of files in the database
"""
DATASET_CELEBA_NAME = 'celeba'
DATASET_MNIST_NAME = 'mnist'
IMAGE_WIDTH = 28
IMAGE_HEIGHT = 28
if dataset_name == DATASET_CELEBA_NAME:
self.image_mode = 'RGB'
image_channels = 3
elif dataset_name == DATASET_MNIST_NAME:
self.image_mode = 'L'
image_channels = 1
self.data_files = data_files
self.shape = len(data_files), IMAGE_WIDTH, IMAGE_HEIGHT, image_channels
def get_batches(self, batch_size):
"""
Generate batches
:param batch_size: Batch Size
:return: Batches of data
"""
IMAGE_MAX_VALUE = 255
current_index = 0
while current_index + batch_size <= self.shape[0]:
data_batch = get_batch(
self.data_files[current_index:current_index + batch_size],
*self.shape[1:3],
self.image_mode)
current_index += batch_size
yield data_batch / IMAGE_MAX_VALUE - 0.5
class DLProgress(tqdm):
"""
Handle Progress Bar while Downloading
"""
last_block = 0
def hook(self, block_num=1, block_size=1, total_size=None):
"""
A hook function that will be called once on establishment of the network connection and
once after each block read thereafter.
:param block_num: A count of blocks transferred so far
:param block_size: Block size in bytes
:param total_size: The total size of the file. This may be -1 on older FTP servers which do not return
a file size in response to a retrieval request.
"""
self.total = total_size
self.update((block_num - self.last_block) * block_size)
self.last_block = block_num