def process(self):
""" Main processing function of the sort tool """
# Setting default argument values that cannot be set by argparse
# Set output dir to the same value as input dir
# if the user didn't specify it.
if self.args.output_dir is None:
logger.verbose("No output directory provided. Using input dir as output dir.")
self.args.output_dir = self.args.input_dir
# Assigning default threshold values based on grouping method
if (self.args.final_process == "folders"
and self.args.min_threshold < 0.0):
method = self.args.group_method.lower()
if method == 'face-cnn':
self.args.min_threshold = 7.2
elif method == 'hist':
self.args.min_threshold = 0.3
# Load VGG Face if sorting by face
if self.args.sort_method.lower() == "face":
conf = Config("global", configfile=self.args.configfile)
allow_growth = (conf.config_dict["allow_growth"] and
self.args.backend.lower() == "gpu" and
get_backend() == "nvidia")
self.vgg_face = VGGFace(backend=self.args.backend,
allow_growth=allow_growth,
loglevel=self.args.loglevel)
# If logging is enabled, prepare container
if self.args.log_changes:
self.changes = dict()
# Assign default sort_log.json value if user didn't specify one
if self.args.log_file_path == 'sort_log.json':
self.args.log_file_path = os.path.join(self.args.input_dir,
'sort_log.json')
# Set serializer based on logfile extension
self.serializer = get_serializer_from_filename(self.args.log_file_path)
# Prepare sort, group and final process method names
_sort = "sort_" + self.args.sort_method.lower()
_group = "group_" + self.args.group_method.lower()
_final = "final_process_" + self.args.final_process.lower()
if _sort.startswith('sort_color-'):
self.args.color_method = _sort.replace('sort_color-', '')
_sort = _sort[:10]
self.args.sort_method = _sort.replace('-', '_')
self.args.group_method = _group.replace('-', '_')
self.args.final_process = _final.replace('-', '_')
self.sort_process()
def process(self):
""" Main processing function of the sort tool """
# Setting default argument values that cannot be set by argparse
# Set output dir to the same value as input dir
# if the user didn't specify it.
if self.args.output_dir.lower() == "_output_dir":
self.args.output_dir = self.args.input_dir
# Assigning default threshold values based on grouping method
if (self.args.final_process == "folders"
and self.args.min_threshold < 0.0):
method = self.args.group_method.lower()
if method == 'face-cnn':
self.args.min_threshold = 7.2
elif method == 'hist':
self.args.min_threshold = 0.3
# Load VGG Face if sorting by face
if self.args.sort_method.lower() == "face":
self.vgg_face = VGGFace(backend=self.args.backend,
loglevel=self.args.loglevel)
# If logging is enabled, prepare container
if self.args.log_changes:
self.changes = dict()
# Assign default sort_log.json value if user didn't specify one
if self.args.log_file_path == 'sort_log.json':
self.args.log_file_path = os.path.join(self.args.input_dir,
'sort_log.json')
# Set serializer based on logfile extension
serializer_ext = os.path.splitext(self.args.log_file_path)[-1]
self.serializer = Serializer.get_serializer_from_ext(
serializer_ext)
# Prepare sort, group and final process method names
_sort = "sort_" + self.args.sort_method.lower()
_group = "group_" + self.args.group_method.lower()
_final = "final_process_" + self.args.final_process.lower()
self.args.sort_method = _sort.replace('-', '_')
self.args.group_method = _group.replace('-', '_')
self.args.final_process = _final.replace('-', '_')
self.sort_process()
class Sort():
""" Sorts folders of faces based on input criteria """
# pylint: disable=no-member
def __init__(self, arguments):
self.args = arguments
self.changes = None
self.serializer = None
self.vgg_face = None
# TODO set this as ImagesLoader in init. Need to move all processes to use it
self._loader = None
def process(self):
""" Main processing function of the sort tool """
# Setting default argument values that cannot be set by argparse
# Set output dir to the same value as input dir
# if the user didn't specify it.
if self.args.output_dir is None:
logger.verbose(
"No output directory provided. Using input dir as output dir.")
self.args.output_dir = self.args.input_dir
# Assigning default threshold values based on grouping method
if (self.args.final_process == "folders"
and self.args.min_threshold < 0.0):
method = self.args.group_method.lower()
if method == 'face-cnn':
self.args.min_threshold = 7.2
elif method == 'hist':
self.args.min_threshold = 0.3
# Load VGG Face if sorting by face
if self.args.sort_method.lower() == "face":
self.vgg_face = VGGFace(backend=self.args.backend,
loglevel=self.args.loglevel)
# If logging is enabled, prepare container
if self.args.log_changes:
self.changes = dict()
# Assign default sort_log.json value if user didn't specify one
if self.args.log_file_path == 'sort_log.json':
self.args.log_file_path = os.path.join(self.args.input_dir,
'sort_log.json')
# Set serializer based on logfile extension
self.serializer = get_serializer_from_filename(
self.args.log_file_path)
# Prepare sort, group and final process method names
_sort = "sort_" + self.args.sort_method.lower()
_group = "group_" + self.args.group_method.lower()
_final = "final_process_" + self.args.final_process.lower()
if _sort.startswith('sort_color-'):
self.args.color_method = _sort.replace('sort_color-', '')
_sort = _sort[:10]
self.args.sort_method = _sort.replace('-', '_')
self.args.group_method = _group.replace('-', '_')
self.args.final_process = _final.replace('-', '_')
self.sort_process()
@staticmethod
def launch_aligner():
""" Load the aligner plugin to retrieve landmarks """
extractor = Extractor(None, "fan", None, normalize_method="hist")
extractor.set_batchsize("align", 1)
extractor.launch()
return extractor
@staticmethod
def alignment_dict(filename, image):
""" Set the image to an ExtractMedia object for alignment """
height, width = image.shape[:2]
face = DetectedFace(x=0, w=width, y=0, h=height)
return ExtractMedia(filename, image, detected_faces=[face])
def _get_landmarks(self):
""" Multi-threaded, parallel and sequentially ordered landmark loader """
extractor = self.launch_aligner()
filename_list, image_list = self._get_images()
feed_list = list(map(Sort.alignment_dict, filename_list, image_list))
landmarks = np.zeros((len(feed_list), 68, 2), dtype='float32')
logger.info("Finding landmarks in images...")
# TODO thread the put to queue so we don't have to put and get at the same time
# Or even better, set up a proper background loader from disk (i.e. use lib.image.ImageIO)
for idx, feed in enumerate(
tqdm(feed_list, desc="Aligning...", file=sys.stdout)):
extractor.input_queue.put(feed)
landmarks[idx] = next(
extractor.detected_faces()).detected_faces[0].landmarks_xy
return filename_list, image_list, landmarks
def _get_images(self):
""" Multi-threaded, parallel and sequentially ordered image loader """
logger.info("Loading images...")
filename_list = self.find_images(self.args.input_dir)
with futures.ThreadPoolExecutor() as executor:
image_list = list(
tqdm(executor.map(read_image, filename_list),
desc="Loading Images...",
file=sys.stdout,
total=len(filename_list)))
return filename_list, image_list
def sort_process(self):
"""
This method dynamically assigns the functions that will be used to run
the core process of sorting, optionally grouping, renaming/moving into
folders. After the functions are assigned they are executed.
"""
sort_method = self.args.sort_method.lower()
group_method = self.args.group_method.lower()
final_method = self.args.final_process.lower()
img_list = getattr(self, sort_method)()
if "folders" in final_method:
# Check if non-dissim sort method and group method are not the same
if group_method.replace('group_', '') not in sort_method:
img_list = self.reload_images(group_method, img_list)
img_list = getattr(self, group_method)(img_list)
else:
img_list = getattr(self, group_method)(img_list)
getattr(self, final_method)(img_list)
logger.info("Done.")
# Methods for sorting
def sort_blur(self):
""" Sort by blur amount """
logger.info("Sorting by estimated image blur...")
filename_list, image_list = self._get_images()
logger.info("Estimating blur...")
blurs = [self.estimate_blur(img) for img in image_list]
logger.info("Sorting...")
matched_list = list(zip(filename_list, blurs))
img_list = sorted(matched_list,
key=operator.itemgetter(1),
reverse=True)
return img_list
def sort_face(self):
""" Sort by identity similarity """
logger.info("Sorting by identity similarity...")
# TODO This should be set in init
self._loader = ImagesLoader(self.args.input_dir)
filenames = []
preds = np.empty((self._loader.count, 512), dtype="float32")
for idx, (filename, image) in enumerate(
tqdm(self._loader.load(),
desc="Classifying Faces...",
total=self._loader.count)):
filenames.append(filename)
preds[idx] = self.vgg_face.predict(image)
logger.info("Sorting by ward linkage...")
indices = self.vgg_face.sorted_similarity(preds, method="ward")
img_list = np.array(filenames)[indices]
return img_list
def sort_face_cnn(self):
""" Sort by landmark similarity """
logger.info("Sorting by landmark similarity...")
filename_list, _, landmarks = self._get_landmarks()
img_list = list(zip(filename_list, landmarks))
logger.info("Comparing landmarks and sorting...")
img_list_len = len(img_list)
for i in tqdm(range(0, img_list_len - 1),
desc="Comparing...",
file=sys.stdout):
min_score = float("inf")
j_min_score = i + 1
for j in range(i + 1, img_list_len):
fl1 = img_list[i][1]
fl2 = img_list[j][1]
score = np.sum(np.absolute((fl2 - fl1).flatten()))
if score < min_score:
min_score = score
j_min_score = j
(img_list[i + 1], img_list[j_min_score]) = (img_list[j_min_score],
img_list[i + 1])
return img_list
def sort_face_cnn_dissim(self):
""" Sort by landmark dissimilarity """
logger.info("Sorting by landmark dissimilarity...")
filename_list, _, landmarks = self._get_landmarks()
scores = np.zeros(len(filename_list), dtype='float32')
img_list = list(
list(items) for items in zip(filename_list, landmarks, scores))
logger.info("Comparing landmarks...")
img_list_len = len(img_list)
for i in tqdm(range(0, img_list_len - 1),
desc="Comparing...",
file=sys.stdout):
score_total = 0
for j in range(i + 1, img_list_len):
if i == j:
continue
fl1 = img_list[i][1]
fl2 = img_list[j][1]
score_total += np.sum(np.absolute((fl2 - fl1).flatten()))
img_list[i][2] = score_total
logger.info("Sorting...")
img_list = sorted(img_list, key=operator.itemgetter(2), reverse=True)
return img_list
def sort_face_yaw(self):
""" Sort by estimated face yaw angle """
logger.info("Sorting by estimated face yaw angle..")
filename_list, _, landmarks = self._get_landmarks()
logger.info("Estimating yaw...")
yaws = [self.calc_landmarks_face_yaw(mark) for mark in landmarks]
logger.info("Sorting...")
matched_list = list(zip(filename_list, yaws))
img_list = sorted(matched_list,
key=operator.itemgetter(1),
reverse=True)
return img_list
def sort_hist(self):
""" Sort by image histogram similarity """
logger.info("Sorting by histogram similarity...")
filename_list, image_list = self._get_images()
distance = cv2.HISTCMP_BHATTACHARYYA
logger.info("Calculating histograms...")
histograms = [
cv2.calcHist([img], [0], None, [256], [0, 256])
for img in image_list
]
img_list = list(zip(filename_list, histograms))
logger.info("Comparing histograms and sorting...")
img_list_len = len(img_list)
for i in tqdm(range(0, img_list_len - 1),
desc="Comparing",
file=sys.stdout):
min_score = float("inf")
j_min_score = i + 1
for j in range(i + 1, img_list_len):
score = cv2.compareHist(img_list[i][1], img_list[j][1],
distance)
if score < min_score:
min_score = score
j_min_score = j
(img_list[i + 1], img_list[j_min_score]) = (img_list[j_min_score],
img_list[i + 1])
return img_list
def sort_hist_dissim(self):
""" Sort by image histogram dissimilarity """
logger.info("Sorting by histogram dissimilarity...")
filename_list, image_list = self._get_images()
scores = np.zeros(len(filename_list), dtype='float32')
distance = cv2.HISTCMP_BHATTACHARYYA
logger.info("Calculating histograms...")
histograms = [
cv2.calcHist([img], [0], None, [256], [0, 256])
for img in image_list
]
img_list = list(
list(items) for items in zip(filename_list, histograms, scores))
logger.info("Comparing histograms...")
img_list_len = len(img_list)
for i in tqdm(range(0, img_list_len),
desc="Comparing",
file=sys.stdout):
score_total = 0
for j in range(0, img_list_len):
if i == j:
continue
score_total += cv2.compareHist(img_list[i][1], img_list[j][1],
distance)
img_list[i][2] = score_total
logger.info("Sorting...")
img_list = sorted(img_list, key=operator.itemgetter(2), reverse=True)
return img_list
def sort_color(self):
""" Score by channel average intensity """
logger.info("Sorting by channel average intensity...")
desired_channel = {'gray': 0, 'luma': 0, 'orange': 1, 'green': 2}
method = self.args.color_method
channel_to_sort = next(v for (k, v) in desired_channel.items()
if method.endswith(k))
filename_list, image_list = self._get_images()
logger.info("Converting to appropriate colorspace...")
same_size = all(img.size == image_list[0].size for img in image_list)
images = np.array(image_list,
dtype='float32')[None,
...] if same_size else image_list
converted_images = self._convert_color(images, same_size, method)
logger.info("Scoring each image...")
if same_size:
scores = np.average(converted_images[0], axis=(1, 2))
else:
progress_bar = tqdm(converted_images,
desc="Scoring",
file=sys.stdout)
scores = np.array(
[np.average(image, axis=(0, 1)) for image in progress_bar])
logger.info("Sorting...")
matched_list = list(zip(filename_list, scores[:, channel_to_sort]))
sorted_file_img_list = sorted(matched_list,
key=operator.itemgetter(1),
reverse=True)
return sorted_file_img_list
# Methods for grouping
def group_blur(self, img_list):
""" Group into bins by blur """
# Starting the binning process
num_bins = self.args.num_bins
# The last bin will get all extra images if it's
# not possible to distribute them evenly
num_per_bin = len(img_list) // num_bins
remainder = len(img_list) % num_bins
logger.info("Grouping by blur...")
bins = [[] for _ in range(num_bins)]
idx = 0
for i in range(num_bins):
for _ in range(num_per_bin):
bins[i].append(img_list[idx][0])
idx += 1
# If remainder is 0, nothing gets added to the last bin.
for i in range(1, remainder + 1):
bins[-1].append(img_list[-i][0])
return bins
def group_face_cnn(self, img_list):
""" Group into bins by CNN face similarity """
logger.info("Grouping by face-cnn similarity...")
# Groups are of the form: group_num -> reference faces
reference_groups = dict()
# Bins array, where index is the group number and value is
# an array containing the file paths to the images in that group.
bins = []
# Comparison threshold used to decide how similar
# faces have to be to be grouped together.
# It is multiplied by 1000 here to allow the cli option to use smaller
# numbers.
min_threshold = self.args.min_threshold * 1000
img_list_len = len(img_list)
for i in tqdm(range(0, img_list_len - 1),
desc="Grouping",
file=sys.stdout):
fl1 = img_list[i][1]
current_best = [-1, float("inf")]
for key, references in reference_groups.items():
try:
score = self.get_avg_score_faces_cnn(fl1, references)
except TypeError:
score = float("inf")
except ZeroDivisionError:
score = float("inf")
if score < current_best[1]:
current_best[0], current_best[1] = key, score
if current_best[1] < min_threshold:
reference_groups[current_best[0]].append(fl1[0])
bins[current_best[0]].append(img_list[i][0])
else:
reference_groups[len(reference_groups)] = [img_list[i][1]]
bins.append([img_list[i][0]])
return bins
def group_face_yaw(self, img_list):
""" Group into bins by yaw of face """
# Starting the binning process
num_bins = self.args.num_bins
# The last bin will get all extra images if it's
# not possible to distribute them evenly
num_per_bin = len(img_list) // num_bins
remainder = len(img_list) % num_bins
logger.info("Grouping by face-yaw...")
bins = [[] for _ in range(num_bins)]
idx = 0
for i in range(num_bins):
for _ in range(num_per_bin):
bins[i].append(img_list[idx][0])
idx += 1
# If remainder is 0, nothing gets added to the last bin.
for i in range(1, remainder + 1):
bins[-1].append(img_list[-i][0])
return bins
def group_hist(self, img_list):
""" Group into bins by histogram """
logger.info("Grouping by histogram...")
# Groups are of the form: group_num -> reference histogram
reference_groups = dict()
# Bins array, where index is the group number and value is
# an array containing the file paths to the images in that group
bins = []
min_threshold = self.args.min_threshold
img_list_len = len(img_list)
reference_groups[0] = [img_list[0][1]]
bins.append([img_list[0][0]])
for i in tqdm(range(1, img_list_len), desc="Grouping",
file=sys.stdout):
current_best = [-1, float("inf")]
for key, value in reference_groups.items():
score = self.get_avg_score_hist(img_list[i][1], value)
if score < current_best[1]:
current_best[0], current_best[1] = key, score
if current_best[1] < min_threshold:
reference_groups[current_best[0]].append(img_list[i][1])
bins[current_best[0]].append(img_list[i][0])
else:
reference_groups[len(reference_groups)] = [img_list[i][1]]
bins.append([img_list[i][0]])
return bins
# Final process methods
def final_process_rename(self, img_list):
""" Rename the files """
output_dir = self.args.output_dir
process_file = self.set_process_file_method(self.args.log_changes,
self.args.keep_original)
# Make sure output directory exists
if not os.path.exists(output_dir):
os.makedirs(output_dir)
description = ("Copying and Renaming"
if self.args.keep_original else "Moving and Renaming")
for i in tqdm(range(0, len(img_list)),
desc=description,
leave=False,
file=sys.stdout):
src = img_list[i] if isinstance(img_list[i],
str) else img_list[i][0]
src_basename = os.path.basename(src)
dst = os.path.join(output_dir, '{:05d}_{}'.format(i, src_basename))
try:
process_file(src, dst, self.changes)
except FileNotFoundError as err:
logger.error(err)
logger.error('fail to rename %s', src)
for i in tqdm(range(0, len(img_list)),
desc=description,
file=sys.stdout):
renaming = self.set_renaming_method(self.args.log_changes)
fname = img_list[i] if isinstance(img_list[i],
str) else img_list[i][0]
src, dst = renaming(fname, output_dir, i, self.changes)
try:
os.rename(src, dst)
except FileNotFoundError as err:
logger.error(err)
logger.error('fail to rename %s', format(src))
if self.args.log_changes:
self.write_to_log(self.changes)
def final_process_folders(self, bins):
""" Move the files to folders """
output_dir = self.args.output_dir
process_file = self.set_process_file_method(self.args.log_changes,
self.args.keep_original)
# First create new directories to avoid checking
# for directory existence in the moving loop
logger.info("Creating group directories.")
for i in range(len(bins)):
directory = os.path.join(output_dir, str(i))
if not os.path.exists(directory):
os.makedirs(directory)
description = ("Copying into Groups"
if self.args.keep_original else "Moving into Groups")
logger.info("Total groups found: %s", len(bins))
for i in tqdm(range(len(bins)), desc=description, file=sys.stdout):
for j in range(len(bins[i])):
src = bins[i][j]
src_basename = os.path.basename(src)
dst = os.path.join(output_dir, str(i), src_basename)
try:
process_file(src, dst, self.changes)
except FileNotFoundError as err:
logger.error(err)
logger.error("Failed to move '%s' to '%s'", src, dst)
if self.args.log_changes:
self.write_to_log(self.changes)
# Various helper methods
def write_to_log(self, changes):
""" Write the changes to log file """
logger.info("Writing sort log to: '%s'", self.args.log_file_path)
self.serializer.save(self.args.log_file_path, changes)
def reload_images(self, group_method, img_list):
"""
Reloads the image list by replacing the comparative values with those
that the chosen grouping method expects.
:param group_method: str name of the grouping method that will be used.
:param img_list: image list that has been sorted by one of the sort
methods.
:return: img_list but with the comparative values that the chosen
grouping method expects.
"""
logger.info("Preparing to group...")
if group_method == 'group_blur':
filename_list, image_list = self._get_images()
blurs = [self.estimate_blur(img) for img in image_list]
temp_list = list(zip(filename_list, blurs))
elif group_method == 'group_face_cnn':
filename_list, image_list, landmarks = self._get_landmarks()
temp_list = list(zip(filename_list, landmarks))
elif group_method == 'group_face_yaw':
filename_list, image_list, landmarks = self._get_landmarks()
yaws = [self.calc_landmarks_face_yaw(mark) for mark in landmarks]
temp_list = list(zip(filename_list, yaws))
elif group_method == 'group_hist':
filename_list, image_list = self._get_images()
histograms = [
cv2.calcHist([img], [0], None, [256], [0, 256])
for img in image_list
]
temp_list = list(zip(filename_list, histograms))
else:
raise ValueError("{} group_method not found.".format(group_method))
return self.splice_lists(img_list, temp_list)
@staticmethod
def _convert_color(imgs, same_size, method):
""" Helper function to convert colorspaces """
if method.endswith('gray'):
conversion = np.array([[0.0722], [0.7152], [0.2126]])
else:
conversion = np.array([[0.25, 0.5, 0.25], [-0.5, 0.0, 0.5],
[-0.25, 0.5, -0.25]])
if same_size:
path = 'greedy'
operation = 'bijk, kl -> bijl' if method.endswith(
'gray') else 'bijl, kl -> bijk'
else:
operation = 'ijk, kl -> ijl' if method.endswith(
'gray') else 'ijl, kl -> ijk'
path = np.einsum_path(operation,
imgs[0][..., :3],
conversion,
optimize='optimal')[0]
progress_bar = tqdm(imgs, desc="Converting", file=sys.stdout)
images = [
np.einsum(operation, img[..., :3], conversion,
optimize=path).astype('float32') for img in progress_bar
]
return images
@staticmethod
def splice_lists(sorted_list, new_vals_list):
"""
This method replaces the value at index 1 in each sub-list in the
sorted_list with the value that is calculated for the same img_path,
but found in new_vals_list.
Format of lists: [[img_path, value], [img_path2, value2], ...]
:param sorted_list: list that has been sorted by one of the sort
methods.
:param new_vals_list: list that has been loaded by a different method
than the sorted_list.
:return: list that is sorted in the same way as the input sorted list
but the values corresponding to each image are from new_vals_list.
"""
new_list = []
# Make new list of just image paths to serve as an index
val_index_list = [i[0] for i in new_vals_list]
for i in tqdm(range(len(sorted_list)),
desc="Splicing",
file=sys.stdout):
current_img = sorted_list[i] if isinstance(
sorted_list[i], str) else sorted_list[i][0]
new_val_index = val_index_list.index(current_img)
new_list.append([current_img, new_vals_list[new_val_index][1]])
return new_list
@staticmethod
def find_images(input_dir):
""" Return list of images at specified location """
result = []
extensions = [".jpg", ".png", ".jpeg"]
for root, _, files in os.walk(input_dir):
for file in files:
if os.path.splitext(file)[1].lower() in extensions:
result.append(os.path.join(root, file))
break
return result
@staticmethod
def estimate_blur(image):
"""
Estimate the amount of blur an image has with the variance of the Laplacian.
Normalize by pixel number to offset the effect of image size on pixel gradients & variance
"""
if image.ndim == 3:
image = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
blur_map = cv2.Laplacian(image, cv2.CV_32F)
score = np.var(blur_map) / np.sqrt(image.shape[0] * image.shape[1])
return score
@staticmethod
def calc_landmarks_face_pitch(flm):
""" UNUSED - Calculate the amount of pitch in a face """
var_t = ((flm[6][1] - flm[8][1]) + (flm[10][1] - flm[8][1])) / 2.0
var_b = flm[8][1]
return var_b - var_t
@staticmethod
def calc_landmarks_face_yaw(flm):
""" Calculate the amount of yaw in a face """
var_l = ((flm[27][0] - flm[0][0]) + (flm[28][0] - flm[1][0]) +
(flm[29][0] - flm[2][0])) / 3.0
var_r = ((flm[16][0] - flm[27][0]) + (flm[15][0] - flm[28][0]) +
(flm[14][0] - flm[29][0])) / 3.0
return var_r - var_l
@staticmethod
def set_process_file_method(log_changes, keep_original):
"""
Assigns the final file processing method based on whether changes are
being logged and whether the original files are being kept in the
input directory.
Relevant cli arguments: -k, -l
:return: function reference
"""
if log_changes:
if keep_original:
def process_file(src, dst, changes):
""" Process file method if logging changes
and keeping original """
copyfile(src, dst)
changes[src] = dst
else:
def process_file(src, dst, changes):
""" Process file method if logging changes
and not keeping original """
os.rename(src, dst)
changes[src] = dst
else:
if keep_original:
def process_file(src, dst, changes): # pylint: disable=unused-argument
""" Process file method if not logging changes
and keeping original """
copyfile(src, dst)
else:
def process_file(src, dst, changes): # pylint: disable=unused-argument
""" Process file method if not logging changes
and not keeping original """
os.rename(src, dst)
return process_file
@staticmethod
def set_renaming_method(log_changes):
""" Set the method for renaming files """
if log_changes:
def renaming(src, output_dir, i, changes):
""" Rename files method if logging changes """
src_basename = os.path.basename(src)
__src = os.path.join(output_dir,
'{:05d}_{}'.format(i, src_basename))
dst = os.path.join(
output_dir,
'{:05d}{}'.format(i,
os.path.splitext(src_basename)[1]))
changes[src] = dst
return __src, dst
else:
def renaming(src, output_dir, i, changes): # pylint: disable=unused-argument
""" Rename files method if not logging changes """
src_basename = os.path.basename(src)
src = os.path.join(output_dir,
'{:05d}_{}'.format(i, src_basename))
dst = os.path.join(
output_dir,
'{:05d}{}'.format(i,
os.path.splitext(src_basename)[1]))
return src, dst
return renaming
@staticmethod
def get_avg_score_hist(img1, references):
""" Return the average histogram score between a face and
reference image """
scores = []
for img2 in references:
score = cv2.compareHist(img1, img2, cv2.HISTCMP_BHATTACHARYYA)
scores.append(score)
return sum(scores) / len(scores)
@staticmethod
def get_avg_score_faces_cnn(fl1, references):
""" Return the average CNN similarity score
between a face and reference image """
scores = []
for fl2 in references:
score = np.sum(np.absolute((fl2 - fl1).flatten()))
scores.append(score)
return sum(scores) / len(scores)
class Sort():
""" Sorts folders of faces based on input criteria """
# pylint: disable=no-member
def __init__(self, arguments):
self.args = arguments
self.changes = None
self.serializer = None
self.vgg_face = None
def process(self):
""" Main processing function of the sort tool """
# Setting default argument values that cannot be set by argparse
# Set output dir to the same value as input dir
# if the user didn't specify it.
if self.args.output_dir is None:
logger.verbose(
"No output directory provided. Using input dir as output dir.")
self.args.output_dir = self.args.input_dir
# Assigning default threshold values based on grouping method
if (self.args.final_process == "folders"
and self.args.min_threshold < 0.0):
method = self.args.group_method.lower()
if method == 'face-cnn':
self.args.min_threshold = 7.2
elif method == 'hist':
self.args.min_threshold = 0.3
# Load VGG Face if sorting by face
if self.args.sort_method.lower() == "face":
self.vgg_face = VGGFace(backend=self.args.backend,
loglevel=self.args.loglevel)
# If logging is enabled, prepare container
if self.args.log_changes:
self.changes = dict()
# Assign default sort_log.json value if user didn't specify one
if self.args.log_file_path == 'sort_log.json':
self.args.log_file_path = os.path.join(self.args.input_dir,
'sort_log.json')
# Set serializer based on logfile extension
serializer_ext = os.path.splitext(self.args.log_file_path)[-1]
self.serializer = Serializer.get_serializer_from_ext(
serializer_ext)
# Prepare sort, group and final process method names
_sort = "sort_" + self.args.sort_method.lower()
_group = "group_" + self.args.group_method.lower()
_final = "final_process_" + self.args.final_process.lower()
self.args.sort_method = _sort.replace('-', '_')
self.args.group_method = _group.replace('-', '_')
self.args.final_process = _final.replace('-', '_')
self.sort_process()
@staticmethod
def launch_aligner():
""" Load the aligner plugin to retrieve landmarks """
kwargs = dict(in_queue=queue_manager.get_queue("in"),
out_queue=queue_manager.get_queue("out"),
queue_size=8)
aligner = PluginLoader.get_aligner("fan")(normalize_method="hist")
aligner.batchsize = 1
aligner.initialize(**kwargs)
aligner.start()
@staticmethod
def alignment_dict(image):
""" Set the image to a dict for alignment """
height, width = image.shape[:2]
face = DetectedFace(x=0, w=width, y=0, h=height)
return {"image": image, "detected_faces": [face]}
@staticmethod
def get_landmarks(filename):
""" Extract the face from a frame (If not alignments file found) """
image = read_image(filename, raise_error=True)
feed = Sort.alignment_dict(image)
feed["filename"] = filename
queue_manager.get_queue("in").put(feed)
face = queue_manager.get_queue("out").get()
landmarks = face["detected_faces"][0].landmarks_xy
return landmarks
def sort_process(self):
"""
This method dynamically assigns the functions that will be used to run
the core process of sorting, optionally grouping, renaming/moving into
folders. After the functions are assigned they are executed.
"""
sort_method = self.args.sort_method.lower()
group_method = self.args.group_method.lower()
final_method = self.args.final_process.lower()
img_list = getattr(self, sort_method)()
if "folders" in final_method:
# Check if non-dissim sort method and group method are not the same
if group_method.replace('group_', '') not in sort_method:
img_list = self.reload_images(group_method, img_list)
img_list = getattr(self, group_method)(img_list)
else:
img_list = getattr(self, group_method)(img_list)
getattr(self, final_method)(img_list)
logger.info("Done.")
# Methods for sorting
def sort_blur(self):
""" Sort by blur amount """
input_dir = self.args.input_dir
logger.info("Sorting by blur...")
img_list = [[img, self.estimate_blur(img)] for img in tqdm(
self.find_images(input_dir), desc="Loading", file=sys.stdout)]
logger.info("Sorting...")
img_list = sorted(img_list, key=operator.itemgetter(1), reverse=True)
return img_list
def sort_face(self):
""" Sort by face similarity """
input_dir = self.args.input_dir
logger.info("Sorting by face similarity...")
images = np.array(self.find_images(input_dir))
preds = np.array([
self.vgg_face.predict(read_image(img, raise_error=True))
for img in tqdm(images, desc="loading", file=sys.stdout)
])
logger.info(
"Sorting. Depending on ths size of your dataset, this may take a few "
"minutes...")
indices = self.vgg_face.sorted_similarity(preds, method="ward")
img_list = images[indices]
return img_list
def sort_face_cnn(self):
""" Sort by CNN similarity """
self.launch_aligner()
input_dir = self.args.input_dir
logger.info("Sorting by face-cnn similarity...")
img_list = []
for img in tqdm(self.find_images(input_dir),
desc="Loading",
file=sys.stdout):
landmarks = self.get_landmarks(img)
img_list.append(
[img,
np.array(landmarks) if landmarks else np.zeros((68, 2))])
queue_manager.terminate_queues()
img_list_len = len(img_list)
for i in tqdm(range(0, img_list_len - 1),
desc="Sorting",
file=sys.stdout):
min_score = float("inf")
j_min_score = i + 1
for j in range(i + 1, len(img_list)):
fl1 = img_list[i][1]
fl2 = img_list[j][1]
score = np.sum(np.absolute((fl2 - fl1).flatten()))
if score < min_score:
min_score = score
j_min_score = j
(img_list[i + 1], img_list[j_min_score]) = (img_list[j_min_score],
img_list[i + 1])
return img_list
def sort_face_cnn_dissim(self):
""" Sort by CNN dissimilarity """
self.launch_aligner()
input_dir = self.args.input_dir
logger.info("Sorting by face-cnn dissimilarity...")
img_list = []
for img in tqdm(self.find_images(input_dir),
desc="Loading",
file=sys.stdout):
landmarks = self.get_landmarks(img)
img_list.append([
img,
np.array(landmarks) if landmarks else np.zeros((68, 2)), 0
])
img_list_len = len(img_list)
for i in tqdm(range(0, img_list_len - 1),
desc="Sorting",
file=sys.stdout):
score_total = 0
for j in range(i + 1, len(img_list)):
if i == j:
continue
fl1 = img_list[i][1]
fl2 = img_list[j][1]
score_total += np.sum(np.absolute((fl2 - fl1).flatten()))
img_list[i][2] = score_total
logger.info("Sorting...")
img_list = sorted(img_list, key=operator.itemgetter(2), reverse=True)
return img_list
def sort_face_yaw(self):
""" Sort by yaw of face """
self.launch_aligner()
input_dir = self.args.input_dir
img_list = []
for img in tqdm(self.find_images(input_dir),
desc="Loading",
file=sys.stdout):
landmarks = self.get_landmarks(img)
img_list.append(
[img, self.calc_landmarks_face_yaw(np.array(landmarks))])
logger.info("Sorting by face-yaw...")
img_list = sorted(img_list, key=operator.itemgetter(1), reverse=True)
return img_list
def sort_hist(self):
""" Sort by histogram of face similarity """
input_dir = self.args.input_dir
logger.info("Sorting by histogram similarity...")
img_list = [[
img,
cv2.calcHist([read_image(img, raise_error=True)], [0], None, [256],
[0, 256])
] for img in tqdm(
self.find_images(input_dir), desc="Loading", file=sys.stdout)]
img_list_len = len(img_list)
for i in tqdm(range(0, img_list_len - 1),
desc="Sorting",
file=sys.stdout):
min_score = float("inf")
j_min_score = i + 1
for j in range(i + 1, len(img_list)):
score = cv2.compareHist(img_list[i][1], img_list[j][1],
cv2.HISTCMP_BHATTACHARYYA)
if score < min_score:
min_score = score
j_min_score = j
(img_list[i + 1], img_list[j_min_score]) = (img_list[j_min_score],
img_list[i + 1])
return img_list
def sort_hist_dissim(self):
""" Sort by histigram of face dissimilarity """
input_dir = self.args.input_dir
logger.info("Sorting by histogram dissimilarity...")
img_list = [[
img,
cv2.calcHist([read_image(img, raise_error=True)], [0], None, [256],
[0, 256]), 0
] for img in tqdm(
self.find_images(input_dir), desc="Loading", file=sys.stdout)]
img_list_len = len(img_list)
for i in tqdm(range(0, img_list_len), desc="Sorting", file=sys.stdout):
score_total = 0
for j in range(0, img_list_len):
if i == j:
continue
score_total += cv2.compareHist(img_list[i][1], img_list[j][1],
cv2.HISTCMP_BHATTACHARYYA)
img_list[i][2] = score_total
logger.info("Sorting...")
img_list = sorted(img_list, key=operator.itemgetter(2), reverse=True)
return img_list
# Methods for grouping
def group_blur(self, img_list):
""" Group into bins by blur """
# Starting the binning process
num_bins = self.args.num_bins
# The last bin will get all extra images if it's
# not possible to distribute them evenly
num_per_bin = len(img_list) // num_bins
remainder = len(img_list) % num_bins
logger.info("Grouping by blur...")
bins = [[] for _ in range(num_bins)]
idx = 0
for i in range(num_bins):
for _ in range(num_per_bin):
bins[i].append(img_list[idx][0])
idx += 1
# If remainder is 0, nothing gets added to the last bin.
for i in range(1, remainder + 1):
bins[-1].append(img_list[-i][0])
return bins
def group_face_cnn(self, img_list):
""" Group into bins by CNN face similarity """
logger.info("Grouping by face-cnn similarity...")
# Groups are of the form: group_num -> reference faces
reference_groups = dict()
# Bins array, where index is the group number and value is
# an array containing the file paths to the images in that group.
bins = []
# Comparison threshold used to decide how similar
# faces have to be to be grouped together.
# It is multiplied by 1000 here to allow the cli option to use smaller
# numbers.
min_threshold = self.args.min_threshold * 1000
img_list_len = len(img_list)
for i in tqdm(range(0, img_list_len - 1),
desc="Grouping",
file=sys.stdout):
fl1 = img_list[i][1]
current_best = [-1, float("inf")]
for key, references in reference_groups.items():
try:
score = self.get_avg_score_faces_cnn(fl1, references)
except TypeError:
score = float("inf")
except ZeroDivisionError:
score = float("inf")
if score < current_best[1]:
current_best[0], current_best[1] = key, score
if current_best[1] < min_threshold:
reference_groups[current_best[0]].append(fl1[0])
bins[current_best[0]].append(img_list[i][0])
else:
reference_groups[len(reference_groups)] = [img_list[i][1]]
bins.append([img_list[i][0]])
return bins
def group_face_yaw(self, img_list):
""" Group into bins by yaw of face """
# Starting the binning process
num_bins = self.args.num_bins
# The last bin will get all extra images if it's
# not possible to distribute them evenly
num_per_bin = len(img_list) // num_bins
remainder = len(img_list) % num_bins
logger.info("Grouping by face-yaw...")
bins = [[] for _ in range(num_bins)]
idx = 0
for i in range(num_bins):
for _ in range(num_per_bin):
bins[i].append(img_list[idx][0])
idx += 1
# If remainder is 0, nothing gets added to the last bin.
for i in range(1, remainder + 1):
bins[-1].append(img_list[-i][0])
return bins
def group_hist(self, img_list):
""" Group into bins by histogram """
logger.info("Grouping by histogram...")
# Groups are of the form: group_num -> reference histogram
reference_groups = dict()
# Bins array, where index is the group number and value is
# an array containing the file paths to the images in that group
bins = []
min_threshold = self.args.min_threshold
img_list_len = len(img_list)
reference_groups[0] = [img_list[0][1]]
bins.append([img_list[0][0]])
for i in tqdm(range(1, img_list_len), desc="Grouping",
file=sys.stdout):
current_best = [-1, float("inf")]
for key, value in reference_groups.items():
score = self.get_avg_score_hist(img_list[i][1], value)
if score < current_best[1]:
current_best[0], current_best[1] = key, score
if current_best[1] < min_threshold:
reference_groups[current_best[0]].append(img_list[i][1])
bins[current_best[0]].append(img_list[i][0])
else:
reference_groups[len(reference_groups)] = [img_list[i][1]]
bins.append([img_list[i][0]])
return bins
# Final process methods
def final_process_rename(self, img_list):
""" Rename the files """
output_dir = self.args.output_dir
process_file = self.set_process_file_method(self.args.log_changes,
self.args.keep_original)
# Make sure output directory exists
if not os.path.exists(output_dir):
os.makedirs(output_dir)
description = ("Copying and Renaming"
if self.args.keep_original else "Moving and Renaming")
for i in tqdm(range(0, len(img_list)),
desc=description,
leave=False,
file=sys.stdout):
src = img_list[i] if isinstance(img_list[i],
str) else img_list[i][0]
src_basename = os.path.basename(src)
dst = os.path.join(output_dir, '{:05d}_{}'.format(i, src_basename))
try:
process_file(src, dst, self.changes)
except FileNotFoundError as err:
logger.error(err)
logger.error('fail to rename %s', src)
for i in tqdm(range(0, len(img_list)),
desc=description,
file=sys.stdout):
renaming = self.set_renaming_method(self.args.log_changes)
fname = img_list[i] if isinstance(img_list[i],
str) else img_list[i][0]
src, dst = renaming(fname, output_dir, i, self.changes)
try:
os.rename(src, dst)
except FileNotFoundError as err:
logger.error(err)
logger.error('fail to rename %s', format(src))
if self.args.log_changes:
self.write_to_log(self.changes)
def final_process_folders(self, bins):
""" Move the files to folders """
output_dir = self.args.output_dir
process_file = self.set_process_file_method(self.args.log_changes,
self.args.keep_original)
# First create new directories to avoid checking
# for directory existence in the moving loop
logger.info("Creating group directories.")
for i in range(len(bins)):
directory = os.path.join(output_dir, str(i))
if not os.path.exists(directory):
os.makedirs(directory)
description = ("Copying into Groups"
if self.args.keep_original else "Moving into Groups")
logger.info("Total groups found: %s", len(bins))
for i in tqdm(range(len(bins)), desc=description, file=sys.stdout):
for j in range(len(bins[i])):
src = bins[i][j]
src_basename = os.path.basename(src)
dst = os.path.join(output_dir, str(i), src_basename)
try:
process_file(src, dst, self.changes)
except FileNotFoundError as err:
logger.error(err)
logger.error("Failed to move '%s' to '%s'", src, dst)
if self.args.log_changes:
self.write_to_log(self.changes)
# Various helper methods
def write_to_log(self, changes):
""" Write the changes to log file """
logger.info("Writing sort log to: '%s'", self.args.log_file_path)
with open(self.args.log_file_path, 'w') as lfile:
lfile.write(self.serializer.marshal(changes))
def reload_images(self, group_method, img_list):
"""
Reloads the image list by replacing the comparative values with those
that the chosen grouping method expects.
:param group_method: str name of the grouping method that will be used.
:param img_list: image list that has been sorted by one of the sort
methods.
:return: img_list but with the comparative values that the chosen
grouping method expects.
"""
input_dir = self.args.input_dir
logger.info("Preparing to group...")
if group_method == 'group_blur':
temp_list = [[
img,
self.estimate_blur(read_image(img, raise_error=True))
] for img in tqdm(
self.find_images(input_dir), desc="Reloading", file=sys.stdout)
]
elif group_method == 'group_face_cnn':
self.launch_aligner()
temp_list = []
for img in tqdm(self.find_images(input_dir),
desc="Reloading",
file=sys.stdout):
landmarks = self.get_landmarks(img)
temp_list.append([
img,
np.array(landmarks) if landmarks else np.zeros((68, 2))
])
elif group_method == 'group_face_yaw':
self.launch_aligner()
temp_list = []
for img in tqdm(self.find_images(input_dir),
desc="Reloading",
file=sys.stdout):
landmarks = self.get_landmarks(img)
temp_list.append(
[img,
self.calc_landmarks_face_yaw(np.array(landmarks))])
elif group_method == 'group_hist':
temp_list = [[
img,
cv2.calcHist([read_image(img, raise_error=True)], [0], None,
[256], [0, 256])
] for img in tqdm(
self.find_images(input_dir), desc="Reloading", file=sys.stdout)
]
else:
raise ValueError("{} group_method not found.".format(group_method))
return self.splice_lists(img_list, temp_list)
@staticmethod
def splice_lists(sorted_list, new_vals_list):
"""
This method replaces the value at index 1 in each sub-list in the
sorted_list with the value that is calculated for the same img_path,
but found in new_vals_list.
Format of lists: [[img_path, value], [img_path2, value2], ...]
:param sorted_list: list that has been sorted by one of the sort
methods.
:param new_vals_list: list that has been loaded by a different method
than the sorted_list.
:return: list that is sorted in the same way as the input sorted list
but the values corresponding to each image are from new_vals_list.
"""
new_list = []
# Make new list of just image paths to serve as an index
val_index_list = [i[0] for i in new_vals_list]
for i in tqdm(range(len(sorted_list)),
desc="Splicing",
file=sys.stdout):
current_img = sorted_list[i] if isinstance(
sorted_list[i], str) else sorted_list[i][0]
new_val_index = val_index_list.index(current_img)
new_list.append([current_img, new_vals_list[new_val_index][1]])
return new_list
@staticmethod
def find_images(input_dir):
""" Return list of images at specified location """
result = []
extensions = [".jpg", ".png", ".jpeg"]
for root, _, files in os.walk(input_dir):
for file in files:
if os.path.splitext(file)[1].lower() in extensions:
result.append(os.path.join(root, file))
return result
@staticmethod
def estimate_blur(image_file):
"""
Estimate the amount of blur an image has with the variance of the Laplacian.
Normalize by pixel number to offset the effect of image size on pixel gradients & variance
"""
image = read_image(image_file, raise_error=True)
if image.ndim == 3:
image = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
blur_map = cv2.Laplacian(image, cv2.CV_32F)
score = np.var(blur_map) / np.sqrt(image.shape[0] * image.shape[1])
return score
@staticmethod
def calc_landmarks_face_pitch(flm):
""" UNUSED - Calculate the amount of pitch in a face """
var_t = ((flm[6][1] - flm[8][1]) + (flm[10][1] - flm[8][1])) / 2.0
var_b = flm[8][1]
return var_b - var_t
@staticmethod
def calc_landmarks_face_yaw(flm):
""" Calculate the amount of yaw in a face """
var_l = ((flm[27][0] - flm[0][0]) + (flm[28][0] - flm[1][0]) +
(flm[29][0] - flm[2][0])) / 3.0
var_r = ((flm[16][0] - flm[27][0]) + (flm[15][0] - flm[28][0]) +
(flm[14][0] - flm[29][0])) / 3.0
return var_r - var_l
@staticmethod
def set_process_file_method(log_changes, keep_original):
"""
Assigns the final file processing method based on whether changes are
being logged and whether the original files are being kept in the
input directory.
Relevant cli arguments: -k, -l
:return: function reference
"""
if log_changes:
if keep_original:
def process_file(src, dst, changes):
""" Process file method if logging changes
and keeping original """
copyfile(src, dst)
changes[src] = dst
else:
def process_file(src, dst, changes):
""" Process file method if logging changes
and not keeping original """
os.rename(src, dst)
changes[src] = dst
else:
if keep_original:
def process_file(src, dst, changes): # pylint: disable=unused-argument
""" Process file method if not logging changes
and keeping original """
copyfile(src, dst)
else:
def process_file(src, dst, changes): # pylint: disable=unused-argument
""" Process file method if not logging changes
and not keeping original """
os.rename(src, dst)
return process_file
@staticmethod
def set_renaming_method(log_changes):
""" Set the method for renaming files """
if log_changes:
def renaming(src, output_dir, i, changes):
""" Rename files method if logging changes """
src_basename = os.path.basename(src)
__src = os.path.join(output_dir,
'{:05d}_{}'.format(i, src_basename))
dst = os.path.join(
output_dir,
'{:05d}{}'.format(i,
os.path.splitext(src_basename)[1]))
changes[src] = dst
return __src, dst
else:
def renaming(src, output_dir, i, changes): # pylint: disable=unused-argument
""" Rename files method if not logging changes """
src_basename = os.path.basename(src)
src = os.path.join(output_dir,
'{:05d}_{}'.format(i, src_basename))
dst = os.path.join(
output_dir,
'{:05d}{}'.format(i,
os.path.splitext(src_basename)[1]))
return src, dst
return renaming
@staticmethod
def get_avg_score_hist(img1, references):
""" Return the average histogram score between a face and
reference image """
scores = []
for img2 in references:
score = cv2.compareHist(img1, img2, cv2.HISTCMP_BHATTACHARYYA)
scores.append(score)
return sum(scores) / len(scores)
@staticmethod
def get_avg_score_faces_cnn(fl1, references):
""" Return the average CNN similarity score
between a face and reference image """
scores = []
for fl2 in references:
score = np.sum(np.absolute((fl2 - fl1).flatten()))
scores.append(score)
return sum(scores) / len(scores)
