def list_png_in_dir(dirpath):
"""List all directoties under dirpath."""
filelist = gfile.listdir(dirpath)
filelist = [_ for _ in filelist if _.endswith('.png')]
filelist = [_ for _ in filelist if not _.startswith('IB')]
filelist = sorted(filelist)
filelist.sort(key=lambda f: int(''.join(list(filter(str.isdigit, f))) or -1))
result = [os.path.join(dirpath, _) for _ in filelist if _.endswith('.png')]
return result
def main(_):
if FLAGS.checkpoint_path:
folder_list = gfile.listdir(FLAGS.input_lr_dir)
for folder_name in folder_list:
input_lr_dir = os.path.join(FLAGS.input_lr_dir, folder_name)
output_pre = folder_name
inference(input_lr_dir, FLAGS.input_hr_dir, FLAGS.input_dir_len,
FLAGS.num_resblock, FLAGS.vsr_scale, FLAGS.checkpoint_path,
FLAGS.output_dir, output_pre, FLAGS.output_name,
FLAGS.output_ext)
compute_metrics(FLAGS)
def inference_data_loader(
input_lr_dir,
input_hr_dir=None,
input_dir_len=-1,
):
"""Inference pipeline data loader."""
filedir = input_lr_dir
down_sp = False
if (input_lr_dir is None) or (not gfile.exists(input_lr_dir)):
if (input_hr_dir is None) or (not gfile.exists(input_hr_dir)):
raise ValueError('Input directory not found')
filedir = input_hr_dir
down_sp = True
image_list_lr_temp = gfile.listdir(filedir)
image_list_lr_temp = [_ for _ in image_list_lr_temp if _.endswith('.png')]
image_list_lr_temp = sorted(
image_list_lr_temp
) # first sort according to abc, then sort according to 123
image_list_lr_temp.sort(
key=lambda f: int(''.join(list(filter(str.isdigit, f))) or -1))
if input_dir_len > 0:
image_list_lr_temp = image_list_lr_temp[:input_dir_len]
image_list_lr = [os.path.join(filedir, _) for _ in image_list_lr_temp]
# Read in and preprocess the images
def preprocess_test(name):
with tf.gfile.Open(name, 'rb') as fid:
raw_im = np.asarray(bytearray(fid.read()), dtype=np.uint8)
im = cv2.imdecode(raw_im,
cv2.IMREAD_COLOR).astype(np.float32)[:, :, ::-1]
if down_sp:
icol_blur = cv2.GaussianBlur(im, (0, 0), sigmaX=1.5)
im = icol_blur[::4, ::4, ::]
im = im / 255.0
return im
image_lr = [preprocess_test(_) for _ in image_list_lr]
image_list_lr = image_list_lr[5:0:-1] + image_list_lr
image_lr = image_lr[5:0:-1] + image_lr
Data = collections.namedtuple('Data', 'paths_LR, inputs')
return Data(paths_LR=image_list_lr, inputs=image_lr)
def _next_trajectory_dir(self):
"""Assigns a new output dir for a trajectory under self._output_dir.
Directory names are consecutive integers starting from zero. New directory
index is assigned as the maximum of past indices plus one. Directories that
are not integers are ignored.
Returns:
A path of the new directory.
"""
trajectory_dirs = gfile.listdir(self._output_dir)
def int_or_none(s):
try:
return int(s)
except TypeError:
return None
past_trajectory_ids = [
trajectory_id for trajectory_id in map(int_or_none, trajectory_dirs)
if trajectory_id is not None]
next_trajectory_id = max([-1] + past_trajectory_ids) + 1
return os.path.join(self._output_dir, str(next_trajectory_id))
def compute_metrics(input_flags):
"""Compute metrics."""
if input_flags.is_vid4_eval:
result_list_all = ['calendar', 'city', 'foliage', 'walk']
else:
# Reds4 datasets.
result_list_all = ['000', '011', '015', '020']
result_list_all.sort()
result_list_all = [
os.path.join(input_flags.output_dir, dir) for dir in result_list_all
]
print('all eval path:')
print(result_list_all)
result_list = []
for dir_name in result_list_all:
if gfile.isdir(dir_name):
result_list.append(dir_name)
target_list = gfile.listdir(input_flags.targets)
target_list = [
os.path.join(input_flags.targets, dir_name) for dir_name in target_list
]
target_list.sort()
folder_n = len(result_list)
cutfr = 2
keys = ['PSNR', 'SSIM']
sum_dict = dict.fromkeys(['FrameAvg_' + _ for _ in keys], 0)
len_dict = dict.fromkeys(keys, 0)
avg_dict = dict.fromkeys(['Avg_' + _ for _ in keys], 0)
folder_dict = dict.fromkeys(['FolderAvg_' + _ for _ in keys], 0)
for folder_i in range(folder_n):
print(folder_i)
result = metrics.list_png_in_dir(result_list[folder_i])
target = metrics.list_png_in_dir(target_list[folder_i])
image_no = len(target)
list_dict = {}
for key_i in keys:
list_dict[key_i] = []
for i in range(cutfr, image_no - cutfr):
with tf.gfile.Open(result[i], 'rb') as fid:
raw_im = np.asarray(bytearray(fid.read()), dtype=np.uint8)
output_img = cv2.imdecode(raw_im, cv2.IMREAD_COLOR).astype(
np.float32)[:, :, ::-1]
with tf.gfile.Open(target[i], 'rb') as fid:
raw_im = np.asarray(bytearray(fid.read()), dtype=np.uint8)
target_img = cv2.imdecode(raw_im, cv2.IMREAD_COLOR).astype(
np.float32)[:, :, ::-1]
msg = 'frame %d, tar %s, out %s, ' % (i, str(
target_img.shape), str(output_img.shape))
if (target_img.shape[0] < output_img.shape[0]) or (
target_img.shape[1] <
output_img.shape[1]): # target is not dividable by 4
output_img = output_img[:target_img.shape[0], :target_img.shape[1]]
target_img, _, _ = metrics.crop_8x8(target_img)
output_img, _, _ = metrics.crop_8x8(output_img)
if input_flags.is_vid4_eval:
y_channel = True
else:
y_channel = False
if 'PSNR' in keys: # psnr
list_dict['PSNR'].append(
metrics.psnr(target_img, output_img, y_channel))
msg += 'psnr %02.2f' % (list_dict['PSNR'][-1])
if 'SSIM' in keys: # ssim
list_dict['SSIM'].append(
metrics.ssim(target_img, output_img, y_channel))
msg += ', ssim %02.2f' % (list_dict['SSIM'][-1])
print(msg)
mode = 'w' if folder_i == 0 else 'a'
pd_dict = {}
for cur_num_data in keys:
num_data = cur_num_data + '_%02d' % folder_i
cur_list = np.float32(list_dict[cur_num_data])
pd_dict[num_data] = pd.Series(cur_list)
num_data_sum = cur_list.sum()
num_data_len = cur_list.shape[0]
num_data_mean = num_data_sum / num_data_len
print('%s, max %02.4f, min %02.4f, avg %02.4f' %
(num_data, cur_list.max(), cur_list.min(), num_data_mean))
if folder_i == 0:
avg_dict['Avg_' + cur_num_data] = [num_data_mean]
else:
avg_dict['Avg_' + cur_num_data] += num_data_mean
sum_dict['FrameAvg_' + cur_num_data] += num_data_sum
len_dict[cur_num_data] += num_data_len
folder_dict['FolderAvg_' + cur_num_data] += num_data_mean
csv_filepath = os.path.join(input_flags.output_dir, 'metrics.csv')
with tf.gfile.Open(csv_filepath, 'w') as csvf:
pd.DataFrame(pd_dict).to_csv(csvf, mode=mode)
for num_data in keys:
sum_dict['FrameAvg_' + num_data] = pd.Series(
[sum_dict['FrameAvg_' + num_data] / len_dict[num_data]])
folder_dict['FolderAvg_' + num_data] = pd.Series(
[folder_dict['FolderAvg_' + num_data] / folder_n])
avg_dict['Avg_' + num_data] = pd.Series(
np.float32(avg_dict['Avg_' + num_data]))
print('%s, total frame %d, total avg %02.4f, folder avg %02.4f' %
(num_data, len_dict[num_data], sum_dict['FrameAvg_' + num_data][0],
folder_dict['FolderAvg_' + num_data][0]))
cvs_filepath = os.path.join(input_flags.output_dir, 'metrics.csv')
with tf.gfile.Open(cvs_filepath, 'w') as csvf:
pd.DataFrame(avg_dict).to_csv(csvf, mode='a')
pd.DataFrame(folder_dict).to_csv(csvf, mode='a')
pd.DataFrame(sum_dict).to_csv(csvf, mode='a')
print('Finished.')
