from __future__ import annotations from dataclasses import dataclass, field from typing import Callable import torch from prototorch.core.distances import euclidean_distance from prototorch.core.initializers import ( AbstractLinearTransformInitializer, EyeLinearTransformInitializer, ) from prototorch.models.architectures.base import BaseYArchitecture from prototorch.nn.wrappers import LambdaLayer from torch import Tensor from torch.nn.parameter import Parameter class SimpleComparisonMixin(BaseYArchitecture): """ Simple Comparison A comparison layer that only uses the positions of the components and the batch for dissimilarity computation. """ # HyperParameters # ---------------------------------------------------------------------------------------------- @dataclass class HyperParameters(BaseYArchitecture.HyperParameters): """ comparison_fn: The comparison / dissimilarity function to use. Default: euclidean_distance. comparison_args: Keyword arguments for the comparison function. Default: {}. """ comparison_fn: Callable = euclidean_distance comparison_args: dict = field(default_factory=lambda: dict()) comparison_parameters: dict = field(default_factory=lambda: dict()) # Steps # ---------------------------------------------------------------------------------------------- def init_comparison(self, hparams: HyperParameters): self.comparison_layer = LambdaLayer( fn=hparams.comparison_fn, **hparams.comparison_args, ) self.comparison_kwargs: dict[str, Tensor] = dict() def comparison(self, batch, components): comp_tensor, _ = components batch_tensor, _ = batch comp_tensor = comp_tensor.unsqueeze(1) distances = self.comparison_layer( batch_tensor, comp_tensor, **self.comparison_kwargs, ) return distances class OmegaComparisonMixin(SimpleComparisonMixin): """ Omega Comparison A comparison layer that uses the positions of the components and the batch for dissimilarity computation. """ _omega: torch.Tensor # HyperParameters # ---------------------------------------------------------------------------------------------- @dataclass class HyperParameters(SimpleComparisonMixin.HyperParameters): """ input_dim: Necessary Field: The dimensionality of the input. latent_dim: The dimensionality of the latent space. Default: 2. omega_initializer: The initializer to use for the omega matrix. Default: EyeLinearTransformInitializer. """ input_dim: int | None = None latent_dim: int = 2 omega_initializer: type[ AbstractLinearTransformInitializer] = EyeLinearTransformInitializer omega_initializer_kwargs: dict = field(default_factory=lambda: dict()) # Steps # ---------------------------------------------------------------------------------------------- def init_comparison(self, hparams: HyperParameters) -> None: super().init_comparison(hparams) # Initialize the omega matrix if hparams.input_dim is None: raise ValueError("input_dim must be specified.") else: omega = hparams.omega_initializer( **hparams.omega_initializer_kwargs).generate( hparams.input_dim, hparams.latent_dim, ) self.register_parameter("_omega", Parameter(omega)) self.comparison_kwargs = dict(omega=self._omega) # Properties # ---------------------------------------------------------------------------------------------- @property def omega_matrix(self): ''' Omega Matrix. Mapping applied to data and prototypes. ''' return self._omega.detach().cpu() @property def lambda_matrix(self): ''' Lambda Matrix. ''' omega = self._omega.detach() lam = omega @ omega.T return lam.detach().cpu() @property def relevance_profile(self): ''' Relevance Profile. Main Diagonal of the Lambda Matrix. ''' return self.lambda_matrix.diag().abs() @property def classification_influence_profile(self): ''' Classification Influence Profile. Influence of each dimension. ''' lam = self.lambda_matrix return lam.abs().sum(0)