(stack_counts[k, st] - 1).clamp(min=0),
]
stack[k, st, stack_counts[k, st]] = val_push
- recorded_stack_counts[:, (1 + nb_digits) * t + 1] = stack_counts[k, st]
+ recorded_stack_counts[:, (1 + nb_digits) * t] = stack_counts[k, st]
stack_counts[k[op == 0], st[op == 0]] += 1
stack_counts[k[op == 1], st[op == 1]] -= 1
result[:, (1 + nb_digits) * t] = st * 2 + op
n_op = seq[(1 + nb_digits) * t]
if t > 0:
s += " "
+ if recorded_stack_counts is not None:
+ s += f"[{recorded_stack_counts[(1 + nb_digits)*t]}] "
s += f"POP" if n_op % 2 == 1 else f"PSH"
if nb_stacks > 1:
s += f"_{n_op//2}"
s += " ?"
else:
s += f" {seq[(1 + nb_digits) * t + 1 + d] - 2 * nb_stacks:1d}"
- if recorded_stack_counts is not None:
- s += f"[{recorded_stack_counts[(1 + nb_digits)*t+1]}] "
return s
######################################################################
if __name__ == "__main__":
- nb, nb_steps, nb_stacks, nb_digits = 150000, 10, 1, 1
+ nb, nb_steps, nb_stacks, nb_digits = 150000, 20, 2, 1
seq, recorded_stack_counts = generate_sequences(
nb=nb,
nb_steps=nb_steps,
nb_digits=nb_digits,
)
- print("-- TRAIN -----------------------------")
-
for n in range(min(10, seq.size(0))):
- # print(seq_to_str(seq[n], recorded_stack_counts[n]))
- print(seq_to_str(seq[n], nb_stacks=nb_stacks, nb_digits=nb_digits))
+ print(
+ seq_to_str(
+ seq[n],
+ nb_stacks=nb_stacks,
+ nb_digits=nb_digits,
+ recorded_stack_counts=recorded_stack_counts[n],
+ )
+ )
+ # print(seq_to_str(seq[n], nb_stacks=nb_stacks, nb_digits=nb_digits))
print("-- PREPARED FOR TEST -----------------")