parser.add_argument("--checkpoint_name", type=str, default="checkpoint.pth")
##############################
-# picoclvr options
+# rpl options
+
+parser.add_argument("--rpl-nb_starting_values", type=int, default=5)
+
+parser.add_argument("--rpl-max_input", type=int, default=9)
+
+parser.add_argument("--rpl-prog_len", type=int, default=10)
+
+parser.add_argument("--rpl-nb_runs", type=int, default=8)
+
+##############################
+# sandbox options
parser.add_argument("--sandbox_level", type=int, default=0)
nb_train_samples=args.nb_train_samples,
nb_test_samples=args.nb_test_samples,
batch_size=args.batch_size,
+ nb_starting_values=args.rpl_nb_starting_values,
+ max_input=args.rpl_max_input,
+ prog_len=args.rpl_prog_len,
+ nb_runs=args.rpl_nb_runs,
logger=log_string,
device=device,
)
self.token2id = dict([(c, n) for n, c in enumerate(symbols)])
self.id2token = dict([(n, c) for c, n in self.token2id.items()])
- self.t_nul, self.t_prog = self.token2id["<nul>"], self.token2id["<prog>"]
+ self.t_nul = self.token2id["<nul>"]
+ self.t_prog = self.token2id["<prog>"]
+ self.t_input = self.token2id["<input>"]
+ self.t_output = self.token2id["<output>"]
self.train_input = self.tensorize(train_sequences)
self.test_input = self.tensorize(test_sequences)
self, n_epoch, model, result_dir, logger, deterministic_synthesis
):
# --------------------------------------------------------------------
- def compute_nb_errors(input, nb_to_log=0):
+ def compute_nb_errors_prog(input, nb_to_log=0):
result = input.clone()
s = (result == self.t_prog).long()
ar_mask = (s.cumsum(dim=1) - s).clamp(min=0, max=1)
return sum_nb_total, sum_nb_errors
+ # --------------------------------------------------------------------
+ def compute_nb_errors_output(input, nb_to_log=0):
+ result = input.clone()
+ k = torch.arange(result.size(1), device=result.device)[None,:]
+ last_output_idx = ((result == self.t_output) * k).max(dim=1,keep_dim=True)
+ first_prog_idx = ((result == self.t_prog) * k).min(dim=1,keep_dim=True)
+ ar_mask = (k > last_output_idx).long() * (k < first_prog_idx)
+ result = (1 - ar_mask) * result + ar_mask * self.t_nul
+
+ masked_inplace_autoregression(
+ model,
+ self.batch_size,
+ result,
+ ar_mask,
+ deterministic_synthesis,
+ device=self.device,
+ )
+
+ sum_nb_total, sum_nb_errors = 0, 0
+ for x, y in zip(input, result):
+ seq = [self.id2token[i.item()] for i in y]
+ sum_nb_total += 1
+ sum_nb_errors += 0 if (x-y).abs().max() == 0 else 1
+ if nb_to_log > 0:
+ gt_seq = [self.id2token[i.item()] for i in x]
+ _, _, gt_prog, _ = rpl.compute_nb_errors(gt_seq)
+ gt_prog = " ".join([str(x) for x in gt_prog])
+ prog = " ".join([str(x) for x in prog])
+ comment = "*" if nb_errors == 0 else "-"
+ logger(f"{comment} PROG [{gt_prog}] PREDICTED [{prog}]")
+ for start_stack, target_stack, result_stack, correct in stacks:
+ comment = "*" if correct else "-"
+ start_stack = " ".join([str(x) for x in start_stack])
+ target_stack = " ".join([str(x) for x in target_stack])
+ result_stack = " ".join([str(x) for x in result_stack])
+ logger(
+ f" {comment} [{start_stack}] -> [{target_stack}] PREDICTED [{result_stack}]"
+ )
+ nb_to_log -= 1
+
+ return sum_nb_total, sum_nb_errors
+
# --------------------------------------------------------------------
- test_nb_total, test_nb_errors = compute_nb_errors(
+ test_nb_total, test_nb_errors = compute_nb_errors_prog(
self.test_input[:1000].to(self.device), nb_to_log=10
)
projects / picoclvr.git / commitdiff