parser.add_argument('--synthesis_sampling',
action='store_true', default = True)
+parser.add_argument('--no_checkpoint',
+ action='store_true', default = False)
+
parser.add_argument('--checkpoint_name',
type = str, default = 'checkpoint.pth')
height, width, many_colors = False,
device = torch.device('cpu')):
+ def generate_descr(nb):
+ descr = picoclvr.generate(
+ nb,
+ height = self.height, width = self.width,
+ many_colors = many_colors
+ )
+
+ descr = [ s.strip().split(' ') for s in descr ]
+ l = max([ len(s) for s in descr ])
+ descr = [ s + [ '<unk>' ] * (l - len(s)) for s in descr ]
+
+ return descr
+
self.height = height
self.width = width
self.batch_size = batch_size
self.device = device
nb = args.data_size if args.data_size > 0 else 250000
- descr = picoclvr.generate(
- nb,
- height = self.height, width = self.width,
- many_colors = many_colors
- )
-
- # self.test_descr = descr[:nb // 5]
- # self.train_descr = descr[nb // 5:]
-
- descr = [ s.strip().split(' ') for s in descr ]
- l = max([ len(s) for s in descr ])
- descr = [ s + [ '<unk>' ] * (l - len(s)) for s in descr ]
+ self.train_descr = generate_descr((nb * 4) // 5)
+ self.test_descr = generate_descr((nb * 1) // 5)
+ # Build the tokenizer
tokens = set()
- for s in descr:
- for t in s: tokens.add(t)
+ for d in [ self.train_descr, self.test_descr ]:
+ for s in d:
+ for t in s: tokens.add(t)
self.token2id = dict([ (t, n) for n, t in enumerate(tokens) ])
self.id2token = dict([ (n, t) for n, t in enumerate(tokens) ])
- t = [ [ self.token2id[u] for u in s ] for s in descr ]
- data_input = torch.tensor(t, device = self.device)
-
- self.test_input = data_input[:nb // 5]
- self.train_input = data_input[nb // 5:]
+ t = [ [ self.token2id[u] for u in s ] for s in self.train_descr ]
+ self.train_input = torch.tensor(t, device = self.device)
+ t = [ [ self.token2id[u] for u in s ] for s in self.test_descr ]
+ self.test_input = torch.tensor(t, device = self.device)
def batches(self, split = 'train'):
assert split in { 'train', 'test' }
img = [ picoclvr.descr2img(d, height = self.height, width = self.width) for d in descr ]
img = torch.cat(img, 0)
- file_name = f'result_picoclvr_{n_epoch:04d}.png'
+ image_name = f'result_picoclvr_{n_epoch:04d}.png'
torchvision.utils.save_image(
img / 255.,
- file_name, nrow = nb_per_primer, pad_value = 0.8
+ image_name, nrow = nb_per_primer, pad_value = 0.8
)
- log_string(f'wrote {file_name}')
+ log_string(f'wrote {image_name}')
nb_missing = sum( [
x[2] for x in picoclvr.nb_missing_properties(
nb_epochs_finished = 0
-try:
- checkpoint = torch.load(args.checkpoint_name, map_location = device)
- nb_epochs_finished = checkpoint['nb_epochs_finished']
- model.load_state_dict(checkpoint['model_state'])
- optimizer.load_state_dict(checkpoint['optimizer_state'])
- print(f'Checkpoint loaded with {nb_epochs_finished} epochs finished.')
-
-except FileNotFoundError:
- print('Starting from scratch.')
+if args.no_checkpoint:
+ log_string(f'Not trying to load checkpoint.')
-except:
- print('Error when loading the checkpoint.')
- exit(1)
+else:
+ try:
+ checkpoint = torch.load(args.checkpoint_name, map_location = device)
+ nb_epochs_finished = checkpoint['nb_epochs_finished']
+ model.load_state_dict(checkpoint['model_state'])
+ optimizer.load_state_dict(checkpoint['optimizer_state'])
+ log_string(f'Checkpoint loaded with {nb_epochs_finished} epochs finished.')
+
+ except FileNotFoundError:
+ log_string('Starting from scratch.')
+
+ except:
+ log_string('Error when loading the checkpoint.')
+ exit(1)
######################################################################