def convert_matlab_normals_to_numpy_files(mat_files_dir, dst_dir):
file_list = os.listdir(mat_files_dir)
file_list = [
x for x in file_list if x.endswith('mat') and x.find('nm') == -1
]
file_list.sort()
all_valid_depth_masks = []
all_normals = []
for _ind, file_name in enumerate(file_list):
file_path = os.path.join(mat_files_dir, file_name)
dt = scipy.io.loadmat(file_path)
raw_normals = [dt['nx'], dt['ny'], dt['nz']]
raw_normals = np.stack(raw_normals).astype(np.float32)
valid_depth = dt['depthValid'].astype(np.float32)
raw_normals = np.transpose(raw_normals, (1, 2, 0))
all_valid_depth_masks.append(valid_depth)
all_normals.append(raw_normals)
# make filenames
all_filenames = [x.replace('.mat', '') for x in file_list]
# concat
all_normals = np.stack(all_normals)
all_valid_depth_masks = np.stack(all_valid_depth_masks)
assert all_normals.shape[0] == all_valid_depth_masks.shape[0]
assert len(all_filenames) == all_normals.shape[0]
assert all_normals.shape[0] == 1449
save_dict = {
'all_normals': all_normals,
'all_valid_depth_masks': all_valid_depth_masks,
'all_filenames': all_filenames,
}
dst_file = os.path.join(dst_dir, 'all_normals.pklz')
save_pickle(dst_file, save_dict)
print('Wrote', dst_file)
def pickle_data(train_list, dev_list, test_list, data_type='lap14'):
token_vocab_file = os.path.join(vocab_dir, data_type,
config['token_vocab_file'])
char_vocab_file = os.path.join(vocab_dir, data_type,
config['char_vocab_file'])
pos_vocab_file = os.path.join(vocab_dir, data_type,
config['pos_vocab_file'])
dep_type_vocab_file = os.path.join(vocab_dir, data_type,
config['dep_type_vocab_file'])
token_vocab = Vocab.load(token_vocab_file)
char_vocab = Vocab.load(char_vocab_file)
pos_vocab = Vocab.load(pos_vocab_file)
dep_vocab = Vocab.load(dep_type_vocab_file)
processed_train = construct_instance(train_list, token_vocab, char_vocab,
pos_vocab, dep_vocab, True)
processed_dev = construct_instance(dev_list, token_vocab, char_vocab,
pos_vocab, dep_vocab, False)
processed_test = construct_instance(test_list, token_vocab, char_vocab,
pos_vocab, dep_vocab, False)
print('Saving pickle to ', inst_pl_file)
print('Saving sent size Train: %d, Dev: %d, Test:%d' %
(len(processed_train), len(processed_dev), len(processed_test)))
save_pickle(inst_pl_file, [
processed_train, processed_dev, processed_test, token_vocab,
char_vocab, pos_vocab, dep_vocab
])
def main(args):
torch.cuda.set_device(args.gpu)
crit = nn.NLLLoss(ignore_index=-1)
# Dataset and Loader
dataset_val = Dataset(args,
split_name=args.split_name,
batch_per_gpu=args.batchsize)
loader_val = torchdata.DataLoader(dataset_val,
batch_size=args.batchsize,
shuffle=False,
collate_fn=user_scattered_collate,
num_workers=5,
drop_last=True)
# Network Builders
builder = ModelBuilder()
print('Loading encoder from: %s' % (args.weights_encoder))
print('Loading decoder from: %s' % (args.weights_decoder))
net_encoder = builder.build_encoder(arch=args.arch_encoder,
fc_dim=args.fc_dim,
weights=args.weights_encoder)
net_decoder = builder.build_decoder(arch=args.arch_decoder,
fc_dim=args.fc_dim,
num_class=dataset_val.num_classes,
weights=args.weights_decoder,
use_softmax=True)
segmentation_module = SegmentationModule(net_encoder, net_decoder, crit)
segmentation_module.cuda()
# Main loop
if args.dataset.startswith('nyuv2sn'):
metrics = evaluate_surface_normals(segmentation_module, loader_val,
args)
else:
metrics = evaluate_segmentation(segmentation_module, loader_val, args)
save_pickle(args.result_file, metrics)
print('Evaluation Done!')
def pickle_data():
token_vocab = Vocab.load(token_vocab_file)
char_vocab = Vocab.load(char_vocab_file)
ent_type_vocab = Vocab.load(ent_type_vocab_file)
ent_ref_vocab = Vocab.load(ent_ref_vocab_file)
tri_type_vocab = Vocab.load(tri_type_vocab_file)
arg_type_vocab = Vocab.load(arg_type_vocab_file)
action_vocab = Vocab.load(action_vocab_file)
pos_vocab = Vocab.load(pos_vocab_file)
processed_train = construct_instance(train_list, token_vocab, char_vocab, ent_type_vocab, ent_ref_vocab, tri_type_vocab,
arg_type_vocab, action_vocab, pos_vocab)
processed_dev = construct_instance(dev_list, token_vocab, char_vocab, ent_type_vocab, ent_ref_vocab, tri_type_vocab,
arg_type_vocab, action_vocab, pos_vocab, False)
processed_test = construct_instance(test_list, token_vocab, char_vocab, ent_type_vocab, ent_ref_vocab, tri_type_vocab,
arg_type_vocab, action_vocab, pos_vocab, False)
print('Saving pickle to ', inst_pl_file)
print('Saving sent size Train: %d, Dev: %d, Test:%d'%(len(processed_train),len(processed_dev),len(processed_test)))
save_pickle(inst_pl_file, [processed_train, processed_dev, processed_test, token_vocab, char_vocab, ent_type_vocab,
ent_ref_vocab, tri_type_vocab, arg_type_vocab, action_vocab,
pos_vocab])
scale = np.sqrt(3.0 / embedd_dim)
vocab_dict = token_vocab.tok2idx
table = np.empty([len(vocab_dict), embedd_dim], dtype=np.float32)
oov = 0
for word, index in vocab_dict.items():
if word in embedd_dict:
embedding = embedd_dict[word]
elif word.lower() in embedd_dict:
embedding = embedd_dict[word.lower()]
else:
embedding = np.random.uniform(-scale, scale, [1, embedd_dim]).astype(np.float32)
oov += 1
table[index, :] = embedding
np.save(vec_npy_file, table)
print('pretrained embedding oov: %d' % oov)
print()
