From: François Fleuret Date: Wed, 21 Jun 2023 15:18:18 +0000 (+0200) Subject: Update. X-Git-Url: https://fleuret.org/cgi-bin/gitweb/gitweb.cgi?a=commitdiff_plain;h=5fff2918fdcc35016195cd209afc864e9cd2ac32;p=culture.git Update. --- diff --git a/main.py b/main.py index e723866..43d2900 100755 --- a/main.py +++ b/main.py @@ -172,7 +172,12 @@ for n in vars(args): def masked_inplace_autoregression( model, batch_size, input, ar_mask, forbidden_tokens=None, device=torch.device("cpu") ): - for input, ar_mask in zip(input.split(batch_size), ar_mask.split(batch_size)): + for input, ar_mask in tqdm.tqdm( + zip(input.split(batch_size), ar_mask.split(batch_size)), + dynamic_ncols=True, + desc="autoregression", + total=input.size(0) // batch_size, + ): i = (ar_mask.sum(0) > 0).nonzero() if i.min() > 0: model( @@ -659,7 +664,7 @@ class TaskMaze(Task): def generate_snake_sequences( - nb, height, width, nb_colors, length, device=torch.device("cpu") + nb, height, width, nb_colors, length, prompt_length, device=torch.device("cpu") ): worlds = torch.randint(nb_colors, (nb, height, width), device=device) nb_prior_visits = torch.zeros(nb, height, width, device=device) @@ -722,7 +727,8 @@ def generate_snake_sequences( sequences_prior_visits[:, 2 * l] = nb_prior_visits[ i, snake_position[:, 0], snake_position[:, 1] ] - nb_prior_visits[i, snake_position[:, 0], snake_position[:, 1]] += 1 + if l < prompt_length: + nb_prior_visits[i, snake_position[:, 0], snake_position[:, 1]] += 1 sequences[:, 2 * l + 1] = snake_direction # nb x 2 @@ -735,6 +741,30 @@ def generate_snake_sequences( # exit(0) +def snake_solver(input, ar_mask): + for n in range(input.size(0)): + i, j, memory = 0, 0, {} + # print(input[n]) + # print(ar_mask[n]) + for l in range(input.size(1) // 2): + if ar_mask[n, 2 * l] == 1: + if memory.get((i, j)) is None: + input[n, 2 * l] = -1 + else: + input[n, 2 * l] = memory[(i, j)] + else: + # print(f'@3 {memory=}') + if memory.get((i, j)) is None: + memory[(i, j)] = input[n, 2 * l] + else: + assert memory[(i, j)] == input[n, 2 * l], f"n={n} l={l}" + # print(f'@1 {i=} {j=}') + d = input[n, 2 * l + 1].item() + i += (d + 1) % 2 * (d - 1) + j += d % 2 * (d - 2) + # print(f'@2 {i=} {j=}') + + class TaskSnake(Task): def __init__( self, @@ -745,18 +775,32 @@ class TaskSnake(Task): width, nb_colors, length, + prompt_length, device=torch.device("cpu"), ): self.batch_size = batch_size self.height = height self.width = width self.device = device + self.prompt_length = prompt_length self.train_input, self.train_prior_visits = generate_snake_sequences( - nb_train_samples, height, width, nb_colors, length, self.device + nb_train_samples, + height, + width, + nb_colors, + length, + prompt_length, + self.device, ) self.test_input, self.test_prior_visits = generate_snake_sequences( - nb_test_samples, height, width, nb_colors, length, self.device + nb_test_samples, + height, + width, + nb_colors, + length, + prompt_length, + self.device, ) self.nb_codes = max(self.train_input.max(), self.test_input.max()) + 1 @@ -784,15 +828,20 @@ class TaskSnake(Task): def compute_nb_correct(input, prior_visits): result = input.clone() i = torch.arange(result.size(1), device=result.device)[None, :] - ar_mask = torch.logical_and(i >= i.size(0) // 2, i % 2 == 0).long() + ar_mask = ( + torch.logical_and(i >= self.prompt_length * 2, i % 2 == 0) + .long() + .expand_as(result) + ) result *= 1 - ar_mask + + # snake_solver(result,ar_mask) + masked_inplace_autoregression( model, self.batch_size, result, ar_mask, device=self.device ) - nb_total = ( - (prior_visits > 0) * ar_mask - ).sum() + nb_total = ((prior_visits > 0) * ar_mask).sum() nb_correct = ( (result == input).long() * (prior_visits > 0) * ar_mask @@ -803,16 +852,16 @@ class TaskSnake(Task): return nb_total, nb_correct - train_nb_total, train_nb_correct = compute_nb_correct( - self.train_input, self.train_prior_visits - ) + # train_nb_total, train_nb_correct = compute_nb_correct( + # self.train_input, self.train_prior_visits + # ) - log_string( - f"accuracy_train nb_total {train_nb_total} nb_correct {train_nb_correct} accuracy {(100.0*train_nb_correct)/train_nb_total:.02f}%" - ) + # log_string( + # f"accuracy_train nb_total {train_nb_total} nb_correct {train_nb_correct} accuracy {(100.0*train_nb_correct)/train_nb_total:.02f}%" + # ) test_nb_total, test_nb_correct = compute_nb_correct( - self.test_input, self.test_prior_visits + self.test_input[:1000], self.test_prior_visits[:1000] ) log_string( @@ -882,6 +931,7 @@ elif args.task == "snake": width=args.snake_width, nb_colors=args.snake_nb_colors, length=args.snake_length, + prompt_length=args.snake_length // 2, device=device, )