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72 lines
2.5 KiB
72 lines
2.5 KiB
import torch
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from utils import PURE_RGB
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# def smoothness_loss(outputs):
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# # Sort outputs for smoothness calculation
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# sorted_outputs, _ = torch.sort(outputs, dim=0)
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# first_elements = sorted_outputs[:2]
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# # Concatenate the first element at the end of the sorted_outputs
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# extended_sorted_outputs = torch.cat((sorted_outputs, first_elements), dim=0)
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# # Calculate smoothness in the sorted outputs
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# first_derivative = torch.diff(extended_sorted_outputs, n=1, dim=0)
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# second_derivative = torch.diff(first_derivative, n=1, dim=0)
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# smoothness_loss = torch.mean(torch.abs(second_derivative))
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# return smoothness_loss
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def preservation_loss(inputs, outputs):
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# Distance Preservation Component
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# Encourages the model to keep relative distances from the RGB space in the transformed space
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# Calculate RGB Norm
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max_rgb_distance = torch.sqrt(torch.tensor(2 + 1)) # scale to [0, 1]
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rgb_norm = (
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torch.triu(torch.norm(inputs[:, None, :] - inputs[None, :, :], dim=-1))
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/ max_rgb_distance
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)
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rgb_norm = (
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rgb_norm % 1
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) # connect (0, 0, 0) and (1, 1, 1): max_rgb_distance in the RGB space
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# print(rgb_norm)
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# Calculate 1D Space Norm (modulo 1 to account for circularity)
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transformed_norm = torch.triu(
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torch.norm((outputs[:, None] - outputs[None, :]) % 1, dim=-1)
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)
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diff = torch.abs(rgb_norm - transformed_norm)
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# print(diff)
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return torch.mean(diff)
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def separation_loss(red, green, blue):
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# Separation Component
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# Encourages the model to keep R, G, B values equally separated in the transformed space
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red_loss = torch.abs(0 - red)
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green_loss = torch.abs(1 / 3 - green) / (2 / 3)
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blue_loss = torch.abs(2 / 3 - blue) / (2 / 3)
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return red_loss + green_loss + blue_loss
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def calculate_separation_loss(model):
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# Wrapper function to calculate separation loss
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outputs = model(PURE_RGB.to(model.device))
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red, green, blue = outputs[0], outputs[1], outputs[2]
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return separation_loss(red, green, blue)
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if __name__ == "__main__":
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# test preservation loss
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# create torch vector containing pure R, G, B.
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test_input = torch.tensor(
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[[1, 0, 0], [0, 1, 0], [0, 0, 1], [0, 0, 0], [1, 1, 1]], dtype=torch.float32
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)
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test_output = torch.tensor([[0], [1 / 3], [2 / 3], [0], [0]], dtype=torch.float32)
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print(preservation_loss(test_input[:3], test_output[:3]))
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rgb = torch.tensor([[0], [1 / 3], [2 / 3]], dtype=torch.float32)
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print(separation_loss(red=rgb[0], green=rgb[1], blue=rgb[2]))
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