73 lines
2.4 KiB
Python
73 lines
2.4 KiB
Python
import torch.nn as nn
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from ...util import append_dims, instantiate_from_config
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class Denoiser(nn.Module):
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def __init__(self, weighting_config, scaling_config):
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super().__init__()
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self.weighting = instantiate_from_config(weighting_config)
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self.scaling = instantiate_from_config(scaling_config)
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def possibly_quantize_sigma(self, sigma):
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return sigma
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def possibly_quantize_c_noise(self, c_noise):
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return c_noise
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def w(self, sigma):
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return self.weighting(sigma)
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def __call__(self, network, input, sigma, cond):
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sigma = self.possibly_quantize_sigma(sigma)
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sigma_shape = sigma.shape
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sigma = append_dims(sigma, input.ndim)
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c_skip, c_out, c_in, c_noise = self.scaling(sigma)
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c_noise = self.possibly_quantize_c_noise(c_noise.reshape(sigma_shape))
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return network(input * c_in, c_noise, cond) * c_out + input * c_skip
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class DiscreteDenoiser(Denoiser):
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def __init__(
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self,
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weighting_config,
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scaling_config,
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num_idx,
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discretization_config,
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do_append_zero=False,
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quantize_c_noise=True,
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flip=True,
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):
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super().__init__(weighting_config, scaling_config)
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sigmas = instantiate_from_config(discretization_config)(
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num_idx, do_append_zero=do_append_zero, flip=flip
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)
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self.register_buffer("sigmas", sigmas)
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self.quantize_c_noise = quantize_c_noise
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def sigma_to_idx(self, sigma):
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dists = sigma - self.sigmas[:, None]
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return dists.abs().argmin(dim=0).view(sigma.shape)
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def idx_to_sigma(self, idx):
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return self.sigmas[idx]
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def possibly_quantize_sigma(self, sigma):
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return self.idx_to_sigma(self.sigma_to_idx(sigma))
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def possibly_quantize_c_noise(self, c_noise):
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if self.quantize_c_noise:
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return self.sigma_to_idx(c_noise)
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else:
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return c_noise
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class DiscreteDenoiserWithControl(DiscreteDenoiser):
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def __call__(self, network, input, sigma, cond, control_scale):
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sigma = self.possibly_quantize_sigma(sigma)
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sigma_shape = sigma.shape
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sigma = append_dims(sigma, input.ndim)
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c_skip, c_out, c_in, c_noise = self.scaling(sigma)
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c_noise = self.possibly_quantize_c_noise(c_noise.reshape(sigma_shape))
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return network(input * c_in, c_noise, cond, control_scale) * c_out + input * c_skip
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