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import torch |
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def get_loss(loss_name, **kwargs): |
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if "silog_mse" == loss_name: |
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criterion = SILogMSELoss(**kwargs) |
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elif "silog_rmse" == loss_name: |
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criterion = SILogRMSELoss(**kwargs) |
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elif "mse_loss" == loss_name: |
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criterion = torch.nn.MSELoss(**kwargs) |
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elif "l1_loss" == loss_name: |
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criterion = torch.nn.L1Loss(**kwargs) |
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elif "l1_loss_with_mask" == loss_name: |
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criterion = L1LossWithMask(**kwargs) |
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elif "mean_abs_rel" == loss_name: |
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criterion = MeanAbsRelLoss() |
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else: |
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raise NotImplementedError |
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return criterion |
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class L1LossWithMask: |
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def __init__(self, batch_reduction=False): |
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self.batch_reduction = batch_reduction |
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def __call__(self, depth_pred, depth_gt, valid_mask=None): |
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diff = depth_pred - depth_gt |
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if valid_mask is not None: |
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diff[~valid_mask] = 0 |
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n = valid_mask.sum((-1, -2)) |
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else: |
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n = depth_gt.shape[-2] * depth_gt.shape[-1] |
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loss = torch.sum(torch.abs(diff)) / n |
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if self.batch_reduction: |
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loss = loss.mean() |
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return loss |
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class MeanAbsRelLoss: |
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def __init__(self) -> None: |
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pass |
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def __call__(self, pred, gt): |
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diff = pred - gt |
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rel_abs = torch.abs(diff / gt) |
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loss = torch.mean(rel_abs, dim=0) |
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return loss |
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class SILogMSELoss: |
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def __init__(self, lamb, log_pred=True, batch_reduction=True): |
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"""Scale Invariant Log MSE Loss |
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Args: |
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lamb (_type_): lambda, lambda=1 -> scale invariant, lambda=0 -> L2 loss |
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log_pred (bool, optional): True if model prediction is logarithmic depht. Will not do log for depth_pred |
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""" |
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super(SILogMSELoss, self).__init__() |
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self.lamb = lamb |
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self.pred_in_log = log_pred |
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self.batch_reduction = batch_reduction |
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def __call__(self, depth_pred, depth_gt, valid_mask=None): |
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log_depth_pred = ( |
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depth_pred if self.pred_in_log else torch.log(torch.clip(depth_pred, 1e-8)) |
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) |
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log_depth_gt = torch.log(depth_gt) |
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diff = log_depth_pred - log_depth_gt |
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if valid_mask is not None: |
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diff[~valid_mask] = 0 |
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n = valid_mask.sum((-1, -2)) |
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else: |
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n = depth_gt.shape[-2] * depth_gt.shape[-1] |
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diff2 = torch.pow(diff, 2) |
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first_term = torch.sum(diff2, (-1, -2)) / n |
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second_term = self.lamb * torch.pow(torch.sum(diff, (-1, -2)), 2) / (n**2) |
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loss = first_term - second_term |
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if self.batch_reduction: |
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loss = loss.mean() |
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return loss |
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class SILogRMSELoss: |
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def __init__(self, lamb, alpha, log_pred=True): |
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"""Scale Invariant Log RMSE Loss |
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Args: |
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lamb (_type_): lambda, lambda=1 -> scale invariant, lambda=0 -> L2 loss |
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alpha: |
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log_pred (bool, optional): True if model prediction is logarithmic depht. Will not do log for depth_pred |
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""" |
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super(SILogRMSELoss, self).__init__() |
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self.lamb = lamb |
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self.alpha = alpha |
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self.pred_in_log = log_pred |
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def __call__(self, depth_pred, depth_gt, valid_mask): |
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log_depth_pred = depth_pred if self.pred_in_log else torch.log(depth_pred) |
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log_depth_gt = torch.log(depth_gt) |
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diff = log_depth_pred - log_depth_gt |
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if valid_mask is not None: |
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diff[~valid_mask] = 0 |
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n = valid_mask.sum((-1, -2)) |
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else: |
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n = depth_gt.shape[-2] * depth_gt.shape[-1] |
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diff2 = torch.pow(diff, 2) |
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first_term = torch.sum(diff2, (-1, -2)) / n |
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second_term = self.lamb * torch.pow(torch.sum(diff, (-1, -2)), 2) / (n**2) |
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loss = torch.sqrt(first_term - second_term).mean() * self.alpha |
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return loss |
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