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import numpy as np | |
import torch | |
import torch.nn as nn | |
from scipy import linalg | |
from tqdm import tqdm | |
from basicsr.archs.inception import InceptionV3 | |
def load_patched_inception_v3(device='cuda', resize_input=True, normalize_input=False): | |
# we may not resize the input, but in [rosinality/stylegan2-pytorch] it | |
# does resize the input. | |
inception = InceptionV3([3], resize_input=resize_input, normalize_input=normalize_input) | |
inception = nn.DataParallel(inception).eval().to(device) | |
return inception | |
def extract_inception_features(data_generator, inception, len_generator=None, device='cuda'): | |
"""Extract inception features. | |
Args: | |
data_generator (generator): A data generator. | |
inception (nn.Module): Inception model. | |
len_generator (int): Length of the data_generator to show the | |
progressbar. Default: None. | |
device (str): Device. Default: cuda. | |
Returns: | |
Tensor: Extracted features. | |
""" | |
if len_generator is not None: | |
pbar = tqdm(total=len_generator, unit='batch', desc='Extract') | |
else: | |
pbar = None | |
features = [] | |
for data in data_generator: | |
if pbar: | |
pbar.update(1) | |
data = data.to(device) | |
feature = inception(data)[0].view(data.shape[0], -1) | |
features.append(feature.to('cpu')) | |
if pbar: | |
pbar.close() | |
features = torch.cat(features, 0) | |
return features | |
def calculate_fid(mu1, sigma1, mu2, sigma2, eps=1e-6): | |
"""Numpy implementation of the Frechet Distance. | |
The Frechet distance between two multivariate Gaussians X_1 ~ N(mu_1, C_1) | |
and X_2 ~ N(mu_2, C_2) is | |
d^2 = ||mu_1 - mu_2||^2 + Tr(C_1 + C_2 - 2*sqrt(C_1*C_2)). | |
Stable version by Dougal J. Sutherland. | |
Args: | |
mu1 (np.array): The sample mean over activations. | |
sigma1 (np.array): The covariance matrix over activations for | |
generated samples. | |
mu2 (np.array): The sample mean over activations, precalculated on an | |
representative data set. | |
sigma2 (np.array): The covariance matrix over activations, | |
precalculated on an representative data set. | |
Returns: | |
float: The Frechet Distance. | |
""" | |
assert mu1.shape == mu2.shape, 'Two mean vectors have different lengths' | |
assert sigma1.shape == sigma2.shape, ('Two covariances have different dimensions') | |
cov_sqrt, _ = linalg.sqrtm(sigma1 @ sigma2, disp=False) | |
# Product might be almost singular | |
if not np.isfinite(cov_sqrt).all(): | |
print('Product of cov matrices is singular. Adding {eps} to diagonal of cov estimates') | |
offset = np.eye(sigma1.shape[0]) * eps | |
cov_sqrt = linalg.sqrtm((sigma1 + offset) @ (sigma2 + offset)) | |
# Numerical error might give slight imaginary component | |
if np.iscomplexobj(cov_sqrt): | |
if not np.allclose(np.diagonal(cov_sqrt).imag, 0, atol=1e-3): | |
m = np.max(np.abs(cov_sqrt.imag)) | |
raise ValueError(f'Imaginary component {m}') | |
cov_sqrt = cov_sqrt.real | |
mean_diff = mu1 - mu2 | |
mean_norm = mean_diff @ mean_diff | |
trace = np.trace(sigma1) + np.trace(sigma2) - 2 * np.trace(cov_sqrt) | |
fid = mean_norm + trace | |
return fid | |