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| from typing import Tuple, Dict, Optional | |
| import torch | |
| import torch.nn as nn | |
| import torch.nn.functional as F | |
| class BaseAdversarialLoss: | |
| def pre_generator_step(self, real_batch: torch.Tensor, fake_batch: torch.Tensor, | |
| generator: nn.Module, discriminator: nn.Module): | |
| """ | |
| Prepare for generator step | |
| :param real_batch: Tensor, a batch of real samples | |
| :param fake_batch: Tensor, a batch of samples produced by generator | |
| :param generator: | |
| :param discriminator: | |
| :return: None | |
| """ | |
| def pre_discriminator_step(self, real_batch: torch.Tensor, fake_batch: torch.Tensor, | |
| generator: nn.Module, discriminator: nn.Module): | |
| """ | |
| Prepare for discriminator step | |
| :param real_batch: Tensor, a batch of real samples | |
| :param fake_batch: Tensor, a batch of samples produced by generator | |
| :param generator: | |
| :param discriminator: | |
| :return: None | |
| """ | |
| def generator_loss(self, real_batch: torch.Tensor, fake_batch: torch.Tensor, | |
| discr_real_pred: torch.Tensor, discr_fake_pred: torch.Tensor, | |
| mask: Optional[torch.Tensor] = None) \ | |
| -> Tuple[torch.Tensor, Dict[str, torch.Tensor]]: | |
| """ | |
| Calculate generator loss | |
| :param real_batch: Tensor, a batch of real samples | |
| :param fake_batch: Tensor, a batch of samples produced by generator | |
| :param discr_real_pred: Tensor, discriminator output for real_batch | |
| :param discr_fake_pred: Tensor, discriminator output for fake_batch | |
| :param mask: Tensor, actual mask, which was at input of generator when making fake_batch | |
| :return: total generator loss along with some values that might be interesting to log | |
| """ | |
| raise NotImplemented() | |
| def discriminator_loss(self, real_batch: torch.Tensor, fake_batch: torch.Tensor, | |
| discr_real_pred: torch.Tensor, discr_fake_pred: torch.Tensor, | |
| mask: Optional[torch.Tensor] = None) \ | |
| -> Tuple[torch.Tensor, Dict[str, torch.Tensor]]: | |
| """ | |
| Calculate discriminator loss and call .backward() on it | |
| :param real_batch: Tensor, a batch of real samples | |
| :param fake_batch: Tensor, a batch of samples produced by generator | |
| :param discr_real_pred: Tensor, discriminator output for real_batch | |
| :param discr_fake_pred: Tensor, discriminator output for fake_batch | |
| :param mask: Tensor, actual mask, which was at input of generator when making fake_batch | |
| :return: total discriminator loss along with some values that might be interesting to log | |
| """ | |
| raise NotImplemented() | |
| def interpolate_mask(self, mask, shape): | |
| assert mask is not None | |
| assert self.allow_scale_mask or shape == mask.shape[-2:] | |
| if shape != mask.shape[-2:] and self.allow_scale_mask: | |
| if self.mask_scale_mode == 'maxpool': | |
| mask = F.adaptive_max_pool2d(mask, shape) | |
| else: | |
| mask = F.interpolate(mask, size=shape, mode=self.mask_scale_mode) | |
| return mask | |
| def make_r1_gp(discr_real_pred, real_batch): | |
| if torch.is_grad_enabled(): | |
| grad_real = torch.autograd.grad(outputs=discr_real_pred.sum(), inputs=real_batch, create_graph=True)[0] | |
| grad_penalty = (grad_real.view(grad_real.shape[0], -1).norm(2, dim=1) ** 2).mean() | |
| else: | |
| grad_penalty = 0 | |
| real_batch.requires_grad = False | |
| return grad_penalty | |
| class NonSaturatingWithR1(BaseAdversarialLoss): | |
| def __init__(self, gp_coef=5, weight=1, mask_as_fake_target=False, allow_scale_mask=False, | |
| mask_scale_mode='nearest', extra_mask_weight_for_gen=0, | |
| use_unmasked_for_gen=True, use_unmasked_for_discr=True): | |
| self.gp_coef = gp_coef | |
| self.weight = weight | |
| # use for discr => use for gen; | |
| # otherwise we teach only the discr to pay attention to very small difference | |
| assert use_unmasked_for_gen or (not use_unmasked_for_discr) | |
| # mask as target => use unmasked for discr: | |
| # if we don't care about unmasked regions at all | |
| # then it doesn't matter if the value of mask_as_fake_target is true or false | |
| assert use_unmasked_for_discr or (not mask_as_fake_target) | |
| self.use_unmasked_for_gen = use_unmasked_for_gen | |
| self.use_unmasked_for_discr = use_unmasked_for_discr | |
| self.mask_as_fake_target = mask_as_fake_target | |
| self.allow_scale_mask = allow_scale_mask | |
| self.mask_scale_mode = mask_scale_mode | |
| self.extra_mask_weight_for_gen = extra_mask_weight_for_gen | |
| def generator_loss(self, real_batch: torch.Tensor, fake_batch: torch.Tensor, | |
| discr_real_pred: torch.Tensor, discr_fake_pred: torch.Tensor, | |
| mask=None) \ | |
| -> Tuple[torch.Tensor, Dict[str, torch.Tensor]]: | |
| fake_loss = F.softplus(-discr_fake_pred) | |
| if (self.mask_as_fake_target and self.extra_mask_weight_for_gen > 0) or \ | |
| not self.use_unmasked_for_gen: # == if masked region should be treated differently | |
| mask = self.interpolate_mask(mask, discr_fake_pred.shape[-2:]) | |
| if not self.use_unmasked_for_gen: | |
| fake_loss = fake_loss * mask | |
| else: | |
| pixel_weights = 1 + mask * self.extra_mask_weight_for_gen | |
| fake_loss = fake_loss * pixel_weights | |
| return fake_loss.mean() * self.weight, dict() | |
| def pre_discriminator_step(self, real_batch: torch.Tensor, fake_batch: torch.Tensor, | |
| generator: nn.Module, discriminator: nn.Module): | |
| real_batch.requires_grad = True | |
| def discriminator_loss(self, real_batch: torch.Tensor, fake_batch: torch.Tensor, | |
| discr_real_pred: torch.Tensor, discr_fake_pred: torch.Tensor, | |
| mask=None) \ | |
| -> Tuple[torch.Tensor, Dict[str, torch.Tensor]]: | |
| real_loss = F.softplus(-discr_real_pred) | |
| grad_penalty = make_r1_gp(discr_real_pred, real_batch) * self.gp_coef | |
| fake_loss = F.softplus(discr_fake_pred) | |
| if not self.use_unmasked_for_discr or self.mask_as_fake_target: | |
| # == if masked region should be treated differently | |
| mask = self.interpolate_mask(mask, discr_fake_pred.shape[-2:]) | |
| # use_unmasked_for_discr=False only makes sense for fakes; | |
| # for reals there is no difference beetween two regions | |
| fake_loss = fake_loss * mask | |
| if self.mask_as_fake_target: | |
| fake_loss = fake_loss + (1 - mask) * F.softplus(-discr_fake_pred) | |
| sum_discr_loss = real_loss + grad_penalty + fake_loss | |
| metrics = dict(discr_real_out=discr_real_pred.mean(), | |
| discr_fake_out=discr_fake_pred.mean(), | |
| discr_real_gp=grad_penalty) | |
| return sum_discr_loss.mean(), metrics | |
| class BCELoss(BaseAdversarialLoss): | |
| def __init__(self, weight): | |
| self.weight = weight | |
| self.bce_loss = nn.BCEWithLogitsLoss() | |
| def generator_loss(self, discr_fake_pred: torch.Tensor) -> Tuple[torch.Tensor, Dict[str, torch.Tensor]]: | |
| real_mask_gt = torch.zeros(discr_fake_pred.shape).to(discr_fake_pred.device) | |
| fake_loss = self.bce_loss(discr_fake_pred, real_mask_gt) * self.weight | |
| return fake_loss, dict() | |
| def pre_discriminator_step(self, real_batch: torch.Tensor, fake_batch: torch.Tensor, | |
| generator: nn.Module, discriminator: nn.Module): | |
| real_batch.requires_grad = True | |
| def discriminator_loss(self, | |
| mask: torch.Tensor, | |
| discr_real_pred: torch.Tensor, | |
| discr_fake_pred: torch.Tensor) -> Tuple[torch.Tensor, Dict[str, torch.Tensor]]: | |
| real_mask_gt = torch.zeros(discr_real_pred.shape).to(discr_real_pred.device) | |
| sum_discr_loss = (self.bce_loss(discr_real_pred, real_mask_gt) + self.bce_loss(discr_fake_pred, mask)) / 2 | |
| metrics = dict(discr_real_out=discr_real_pred.mean(), | |
| discr_fake_out=discr_fake_pred.mean(), | |
| discr_real_gp=0) | |
| return sum_discr_loss, metrics | |
| def make_discrim_loss(kind, **kwargs): | |
| if kind == 'r1': | |
| return NonSaturatingWithR1(**kwargs) | |
| elif kind == 'bce': | |
| return BCELoss(**kwargs) | |
| raise ValueError(f'Unknown adversarial loss kind {kind}') | |