"""Implementation of the LeNet network.""" from typing import Callable, Dict, Optional, Tuple from einops.layers.torch import Rearrange import torch from torch import nn from text_recognizer.networks.misc import activation_function class LeNet(nn.Module): """LeNet network for character prediction.""" def __init__( self, channels: Tuple[int, ...] = (1, 32, 64), kernel_sizes: Tuple[int, ...] = (3, 3, 2), hidden_size: Tuple[int, ...] = (9216, 128), dropout_rate: float = 0.2, num_classes: int = 10, activation_fn: Optional[str] = "relu", ) -> None: """Initialization of the LeNet network. Args: channels (Tuple[int, ...]): Channels in the convolutional layers. Defaults to (1, 32, 64). kernel_sizes (Tuple[int, ...]): Kernel sizes in the convolutional layers. Defaults to (3, 3, 2). hidden_size (Tuple[int, ...]): Size of the flattend output form the convolutional layers. Defaults to (9216, 128). dropout_rate (float): The dropout rate. Defaults to 0.2. num_classes (int): Number of classes. Defaults to 10. activation_fn (Optional[str]): The name of non-linear activation function. Defaults to relu. """ super().__init__() activation_fn = activation_function(activation_fn) self.layers = [ nn.Conv2d( in_channels=channels[0], out_channels=channels[1], kernel_size=kernel_sizes[0], ), activation_fn, nn.Conv2d( in_channels=channels[1], out_channels=channels[2], kernel_size=kernel_sizes[1], ), activation_fn, nn.MaxPool2d(kernel_sizes[2]), nn.Dropout(p=dropout_rate), Rearrange("b c h w -> b (c h w)"), nn.Linear(in_features=hidden_size[0], out_features=hidden_size[1]), activation_fn, nn.Dropout(p=dropout_rate), nn.Linear(in_features=hidden_size[1], out_features=num_classes), ] self.layers = nn.Sequential(*self.layers) def forward(self, x: torch.Tensor) -> torch.Tensor: """The feedforward pass.""" # If batch dimenstion is missing, it needs to be added. if len(x.shape) == 3: x = x.unsqueeze(0) return self.layers(x)