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# Data loading based on https://github.com/NVIDIA/flownet2-pytorch
import numpy as np
import torch
import torch.utils.data as data
import torch.nn.functional as F
import os
import math
import random
from glob import glob
import os.path as osp
from utils import frame_utils
from utils.augmentor import FlowAugmentor, SparseFlowAugmentor
class FlowDataset(data.Dataset):
def __init__(self, aug_params=None, sparse=False):
self.augmentor = None
self.sparse = sparse
if aug_params is not None:
if sparse:
self.augmentor = SparseFlowAugmentor(**aug_params)
else:
self.augmentor = FlowAugmentor(**aug_params)
self.is_test = False
self.init_seed = False
self.flow_list = []
self.image_list = []
self.extra_info = []
def __getitem__(self, index):
if self.is_test:
img1 = frame_utils.read_gen(self.image_list[index][0])
img2 = frame_utils.read_gen(self.image_list[index][1])
img1 = np.array(img1).astype(np.uint8)[..., :3]
img2 = np.array(img2).astype(np.uint8)[..., :3]
img1 = torch.from_numpy(img1).permute(2, 0, 1).float()
img2 = torch.from_numpy(img2).permute(2, 0, 1).float()
return img1, img2, self.extra_info[index]
if not self.init_seed:
worker_info = torch.utils.data.get_worker_info()
if worker_info is not None:
torch.manual_seed(worker_info.id)
np.random.seed(worker_info.id)
random.seed(worker_info.id)
self.init_seed = True
index = index % len(self.image_list)
valid = None
if self.sparse:
flow, valid = frame_utils.readFlowKITTI(self.flow_list[index])
else:
flow = frame_utils.read_gen(self.flow_list[index])
img1 = frame_utils.read_gen(self.image_list[index][0])
img2 = frame_utils.read_gen(self.image_list[index][1])
flow = np.array(flow).astype(np.float32)
img1 = np.array(img1).astype(np.uint8)
img2 = np.array(img2).astype(np.uint8)
# grayscale images
if len(img1.shape) == 2:
img1 = np.tile(img1[...,None], (1, 1, 3))
img2 = np.tile(img2[...,None], (1, 1, 3))
else:
img1 = img1[..., :3]
img2 = img2[..., :3]
if self.augmentor is not None:
if self.sparse:
img1, img2, flow, valid = self.augmentor(img1, img2, flow, valid)
else:
img1, img2, flow = self.augmentor(img1, img2, flow)
img1 = torch.from_numpy(img1).permute(2, 0, 1).float()
img2 = torch.from_numpy(img2).permute(2, 0, 1).float()
flow = torch.from_numpy(flow).permute(2, 0, 1).float()
if valid is not None:
valid = torch.from_numpy(valid)
else:
valid = (flow[0].abs() < 1000) & (flow[1].abs() < 1000)
return img1, img2, flow, valid.float()
def __rmul__(self, v):
self.flow_list = v * self.flow_list
self.image_list = v * self.image_list
return self
def __len__(self):
return len(self.image_list)
class MpiSintel(FlowDataset):
def __init__(self, aug_params=None, split='training', root='datasets/Sintel', dstype='clean'):
super(MpiSintel, self).__init__(aug_params)
flow_root = osp.join(root, split, 'flow')
image_root = osp.join(root, split, dstype)
if split == 'test':
self.is_test = True
for scene in os.listdir(image_root):
image_list = sorted(glob(osp.join(image_root, scene, '*.png')))
for i in range(len(image_list)-1):
self.image_list += [ [image_list[i], image_list[i+1]] ]
self.extra_info += [ (scene, i) ] # scene and frame_id
if split != 'test':
self.flow_list += sorted(glob(osp.join(flow_root, scene, '*.flo')))
class FlyingChairs(FlowDataset):
def __init__(self, aug_params=None, split='train', root='datasets/FlyingChairs_release/data'):
super(FlyingChairs, self).__init__(aug_params)
images = sorted(glob(osp.join(root, '*.ppm')))
flows = sorted(glob(osp.join(root, '*.flo')))
assert (len(images)//2 == len(flows))
split_list = np.loadtxt('chairs_split.txt', dtype=np.int32)
for i in range(len(flows)):
xid = split_list[i]
if (split=='training' and xid==1) or (split=='validation' and xid==2):
self.flow_list += [ flows[i] ]
self.image_list += [ [images[2*i], images[2*i+1]] ]
class FlyingThings3D(FlowDataset):
def __init__(self, aug_params=None, root='datasets/FlyingThings3D', dstype='frames_cleanpass'):
super(FlyingThings3D, self).__init__(aug_params)
for cam in ['left']:
for direction in ['into_future', 'into_past']:
image_dirs = sorted(glob(osp.join(root, dstype, 'TRAIN/*/*')))
image_dirs = sorted([osp.join(f, cam) for f in image_dirs])
flow_dirs = sorted(glob(osp.join(root, 'optical_flow/TRAIN/*/*')))
flow_dirs = sorted([osp.join(f, direction, cam) for f in flow_dirs])
for idir, fdir in zip(image_dirs, flow_dirs):
images = sorted(glob(osp.join(idir, '*.png')) )
flows = sorted(glob(osp.join(fdir, '*.pfm')) )
for i in range(len(flows)-1):
if direction == 'into_future':
self.image_list += [ [images[i], images[i+1]] ]
self.flow_list += [ flows[i] ]
elif direction == 'into_past':
self.image_list += [ [images[i+1], images[i]] ]
self.flow_list += [ flows[i+1] ]
class KITTI(FlowDataset):
def __init__(self, aug_params=None, split='training', root='datasets/KITTI'):
super(KITTI, self).__init__(aug_params, sparse=True)
if split == 'testing':
self.is_test = True
root = osp.join(root, split)
images1 = sorted(glob(osp.join(root, 'image_2/*_10.png')))
images2 = sorted(glob(osp.join(root, 'image_2/*_11.png')))
for img1, img2 in zip(images1, images2):
frame_id = img1.split('/')[-1]
self.extra_info += [ [frame_id] ]
self.image_list += [ [img1, img2] ]
if split == 'training':
self.flow_list = sorted(glob(osp.join(root, 'flow_occ/*_10.png')))
class HD1K(FlowDataset):
def __init__(self, aug_params=None, root='datasets/HD1k'):
super(HD1K, self).__init__(aug_params, sparse=True)
seq_ix = 0
while 1:
flows = sorted(glob(os.path.join(root, 'hd1k_flow_gt', 'flow_occ/%06d_*.png' % seq_ix)))
images = sorted(glob(os.path.join(root, 'hd1k_input', 'image_2/%06d_*.png' % seq_ix)))
if len(flows) == 0:
break
for i in range(len(flows)-1):
self.flow_list += [flows[i]]
self.image_list += [ [images[i], images[i+1]] ]
seq_ix += 1
def fetch_dataloader(args, TRAIN_DS='C+T+K+S+H'):
""" Create the data loader for the corresponding trainign set """
if args.stage == 'chairs':
aug_params = {'crop_size': args.image_size, 'min_scale': -0.1, 'max_scale': 1.0, 'do_flip': True}
train_dataset = FlyingChairs(aug_params, split='training')
elif args.stage == 'things':
aug_params = {'crop_size': args.image_size, 'min_scale': -0.4, 'max_scale': 0.8, 'do_flip': True}
clean_dataset = FlyingThings3D(aug_params, dstype='frames_cleanpass')
final_dataset = FlyingThings3D(aug_params, dstype='frames_finalpass')
train_dataset = clean_dataset + final_dataset
elif args.stage == 'sintel':
aug_params = {'crop_size': args.image_size, 'min_scale': -0.2, 'max_scale': 0.6, 'do_flip': True}
things = FlyingThings3D(aug_params, dstype='frames_cleanpass')
sintel_clean = MpiSintel(aug_params, split='training', dstype='clean')
sintel_final = MpiSintel(aug_params, split='training', dstype='final')
if TRAIN_DS == 'C+T+K+S+H':
kitti = KITTI({'crop_size': args.image_size, 'min_scale': -0.3, 'max_scale': 0.5, 'do_flip': True})
hd1k = HD1K({'crop_size': args.image_size, 'min_scale': -0.5, 'max_scale': 0.2, 'do_flip': True})
train_dataset = 100*sintel_clean + 100*sintel_final + 200*kitti + 5*hd1k + things
elif TRAIN_DS == 'C+T+K/S':
train_dataset = 100*sintel_clean + 100*sintel_final + things
elif args.stage == 'kitti':
aug_params = {'crop_size': args.image_size, 'min_scale': -0.2, 'max_scale': 0.4, 'do_flip': False}
train_dataset = KITTI(aug_params, split='training')
train_loader = data.DataLoader(train_dataset, batch_size=args.batch_size,
pin_memory=False, shuffle=True, num_workers=4, drop_last=True)
print('Training with %d image pairs' % len(train_dataset))
return train_loader
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