stylegan3/metrics/kernel_inception_distance.py
Janne Hellsten 583f2bdd13 Remove UTF-8 byte order markers (BOMs)
BOMs barf on UTF-8 decoding within PyTorch:

    File "D:\Soft\Miniconda3\lib\site-packages\torch\utils_cpp_extension_versioner.py", line 16, in hash_source_files
    hash_value = update_hash(hash_value, file.read())
    UnicodeDecodeError: 'gbk' codec can't decode byte 0xbf in position 2: illegal multibyte sequence

Should fix #10, #14
2021-10-13 13:00:26 +03:00

46 lines
2.3 KiB
Python

# Copyright (c) 2021, NVIDIA CORPORATION & AFFILIATES. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
"""Kernel Inception Distance (KID) from the paper "Demystifying MMD
GANs". Matches the original implementation by Binkowski et al. at
https://github.com/mbinkowski/MMD-GAN/blob/master/gan/compute_scores.py"""
import numpy as np
from . import metric_utils
#----------------------------------------------------------------------------
def compute_kid(opts, max_real, num_gen, num_subsets, max_subset_size):
# Direct TorchScript translation of http://download.tensorflow.org/models/image/imagenet/inception-2015-12-05.tgz
detector_url = 'https://api.ngc.nvidia.com/v2/models/nvidia/research/stylegan3/versions/1/files/metrics/inception-2015-12-05.pkl'
detector_kwargs = dict(return_features=True) # Return raw features before the softmax layer.
real_features = metric_utils.compute_feature_stats_for_dataset(
opts=opts, detector_url=detector_url, detector_kwargs=detector_kwargs,
rel_lo=0, rel_hi=0, capture_all=True, max_items=max_real).get_all()
gen_features = metric_utils.compute_feature_stats_for_generator(
opts=opts, detector_url=detector_url, detector_kwargs=detector_kwargs,
rel_lo=0, rel_hi=1, capture_all=True, max_items=num_gen).get_all()
if opts.rank != 0:
return float('nan')
n = real_features.shape[1]
m = min(min(real_features.shape[0], gen_features.shape[0]), max_subset_size)
t = 0
for _subset_idx in range(num_subsets):
x = gen_features[np.random.choice(gen_features.shape[0], m, replace=False)]
y = real_features[np.random.choice(real_features.shape[0], m, replace=False)]
a = (x @ x.T / n + 1) ** 3 + (y @ y.T / n + 1) ** 3
b = (x @ y.T / n + 1) ** 3
t += (a.sum() - np.diag(a).sum()) / (m - 1) - b.sum() * 2 / m
kid = t / num_subsets / m
return float(kid)
#----------------------------------------------------------------------------