def predict(pipe, prefix, batch_size = 8, resize = None):
sintel_resize = (448, 1024) if resize is None else resize
sintel_dataset = sintel.list_data()
prefix = prefix + '_sintel'
if not os.path.exists(prefix):
os.mkdir(prefix)
flo = sintel.Flo(1024, 436)
for div in ('test',):
for k, dataset in sintel_dataset[div].items():
if k == 'clean':
continue
output_folder = os.path.join(prefix, k)
if not os.path.exists(output_folder):
os.mkdir(output_folder)
img1, img2 = [[sintel.load(p) for p in data] for data in list(zip(*dataset))[:2]]
for result, entry in zip(pipe.predict(img1, img2, batch_size = 1, resize = sintel_resize), dataset):
flow, occ_mask, warped = result
img1 = entry[0]
fname = os.path.basename(img1)
seq = os.path.basename(os.path.dirname(img1))
seq_output_folder = os.path.join(output_folder, seq)
if not os.path.exists(seq_output_folder):
os.mkdir(seq_output_folder)
flo.save(flow, os.path.join(seq_output_folder, fname.replace('.png', '.flo')))
'''
KITTI 2012:
Submission instructions: For the optical flow benchmark, all flow fields of the test set must be provided in the root directory of a zip file using the file format described in the readme.txt (16 bit color png) and the file name convention of the ground truth (000000_10.png, ... , 000194_10.png).
KITTI 2015:
Submission instructions: Provide a zip file which contains the 'disp_0' directory (stereo), the 'flow' directory (flow), or the 'disp_0', 'disp_1' and 'flow' directories (scene flow) in its root folder. Use the file format and naming described in the readme.txt (000000_10.png,...,000199_10.png).
'''
kitti_resize = (512, 1152) if resize is None else resize
kitti_dataset = kitti.read_dataset_testing(resize = kitti_resize)
prefix = prefix.replace('sintel', 'kitti')
if not os.path.exists(prefix):
os.mkdir(prefix)
for k, dataset in kitti_dataset.items():
output_folder = os.path.join(prefix, k)
if not os.path.exists(output_folder):
os.mkdir(output_folder)
img1 = kitti_dataset[k]['image_0']
img2 = kitti_dataset[k]['image_1']
cnt = 0
for result in pipe.predict(img1, img2, batch_size = 1, resize = kitti_resize):
flow, occ_mask, warped = result
out_name = os.path.join(output_folder, '%06d_10.png' % cnt)
cnt = cnt + 1
pred = np.ones((flow.shape[0], flow.shape[1], 3)).astype(np.uint16)
pred[:, :, 2] = (64.0 * (flow[:, :, 0] + 512)).astype(np.uint16)
pred[:, :, 1] = (64.0 * (flow[:, :, 1] + 512)).astype(np.uint16)
cv2.imwrite(out_name, pred)
def predict(pipe, prefix, batch_size=8):
sintel_dataset = sintel.list_data(sintel.sintel_path)
if not os.path.exists(prefix):
os.mkdir(prefix)
flo = sintel.Flo(1024, 436)
for div in ('test', ):
for k, dataset in sintel_dataset[div].items():
output_folder = os.path.join(prefix, k)
if not os.path.exists(output_folder):
os.mkdir(output_folder)
img1, img2 = [[sintel.load(p) for p in data]
for data in zip(*dataset)]
for flow, entry in zip(
pipe.predict(img1, img2, batch_size=batch_size), dataset):
img1 = entry[0]
fname = os.path.basename(img1).replace('.png', '.flo')
seq = os.path.basename(os.path.dirname(img1))
seq_output_folder = os.path.join(output_folder, seq)
if not os.path.exists(seq_output_folder):
os.mkdir(seq_output_folder)
flo.save(flow, os.path.join(seq_output_folder, fname))
sys.exit(0)
# ======== If to do validation ========
def validate():
validation_result = {}
for dataset_name in validation_datasets:
validation_result[dataset_name] = pipe.validate(*validation_datasets[dataset_name], batch_size = args.batch)
return validation_result
if args.valid:
log = logger.FileLog(os.path.join(repoRoot, 'logs', 'val', '{}.val.log'.format(run_id)), screen=True)
# sintel
sintel_dataset = sintel.list_data()
for div in ('training2', 'training'):
for k, dataset in sintel_dataset[div].items():
img1, img2, flow, mask = [[sintel.load(p) for p in data] for data in zip(*dataset)]
val_epe = pipe.validate(img1, img2, flow, mask, batch_size=args.batch, resize = infer_resize)
log.log('steps={}, sintel.{}.{}:epe={}'.format(steps, div, k, val_epe))
sys.stdout.flush()
# kitti
read_resize = (370, 1224) # if infer_resize is None else infer_resize
for kitti_version in ('2012', '2015'):
dataset = kitti.read_dataset(editions = kitti_version, parts = 'mixed', resize = read_resize)
val_epe = pipe.validate(dataset['image_0'], dataset['image_1'], dataset['flow'], dataset['occ'], batch_size=args.batch, resize = infer_resize, return_type = 'epe')
log.log('steps={}, kitti.{}:epe={}'.format(steps, kitti_version, val_epe))
sys.stdout.flush()
val_epe = pipe.validate(dataset['image_0'], dataset['image_1'], dataset['flow'], dataset['occ'], batch_size=args.batch, resize = infer_resize, return_type = 'kitti')
'//msralab/ProjectData/ehealth02/v-dinliu/Flow2D/Data/FlyingChairs_release/FlyingChairs_train_val.txt'
)
client = DatasetClient()
trainSize = len(trainSet)
validationSize = len(validationSet)
validationImg1, validationImg2, validationFlow = zip(
*[fetch_data(i) for i in validationSet])
elif train_cfg.dataset.value == 'sintel':
print('loading sintel dataset ...')
subsets = train_cfg.subsets.value
print(subsets[0], subsets[1])
trainImg1 = []
trainImg2 = []
trainFlow = []
sintel_dataset = sintel.list_data(sintel.sintel_path)
for k, dataset in sintel_dataset[subsets[0]].items():
if train_cfg.fast.get(False):
dataset = dataset[:8]
img1, img2, flow = [[sintel.load(p) for p in data]
for data in zip(*dataset)]
trainImg1.extend(img1)
trainImg2.extend(img2)
trainFlow.extend(flow)
trainSize = len(trainImg1)
validationImg1 = []
validationImg2 = []
validationFlow = []
for k, dataset in sintel_dataset[subsets[1]].items():
if train_cfg.fast.get(False):