def generate(nb_starting_values=3, max_input=9, prog_len=6, nb_runs=5):
prog_len = (1 + torch.randint(2 * prog_len, (1,))).clamp(max=prog_len).item()
- prog = [rpl_ops[k] for k in torch.randint(len(rpl_ops), (prog_len,))]
- result = []
- for _ in range(nb_runs):
- stack = [x.item() for x in torch.randint(max_input + 1, (nb_starting_values,))]
- result_stack = rpl_exec(prog, stack)
- result = result + ["<input>"] + stack + ["<output>"] + result_stack
+ while True:
+ no_empty_stack = True
+ prog = [rpl_ops[k] for k in torch.randint(len(rpl_ops), (prog_len,))]
+
+ result = []
+ for _ in range(nb_runs):
+ stack = [
+ x.item() for x in torch.randint(max_input + 1, (nb_starting_values,))
+ ]
+ result_stack = rpl_exec(prog, stack)
+ if len(result_stack) == 0:
+ no_empty_stack = False
+ result = result + ["<input>"] + stack + ["<output>"] + result_stack
+
+ result = result + ["<prog>"] + prog
+ result = result + ["<end>"]
+ if no_empty_stack:
+ break
- result = result + ["<prog>"] + prog
- result = result + ["<end>"]
return result
if len(set(prog) - set(rpl_ops)) > 0:
# Program is not valid, we count 100% error
for start_stack, target_stack in io:
- stacks.append((start_stack, target_stack, "N/A", False))
+ stacks.append((start_stack, target_stack, ["N/A"], False))
nb_total += len(target_stack)
nb_errors += len(target_stack)