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calc_metrics.py
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calc_metrics.py
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# SPDX-FileCopyrightText: Copyright (c) 2021-2022 NVIDIA CORPORATION & AFFILIATES. All rights reserved.
# SPDX-License-Identifier: LicenseRef-NvidiaProprietary
#
# NVIDIA CORPORATION, its affiliates and licensors retain all intellectual
# property and proprietary rights in and to this material, related
# documentation and any modifications thereto. Any use, reproduction,
# disclosure or distribution of this material and related documentation
# without an express license agreement from NVIDIA CORPORATION or
# its affiliates is strictly prohibited.
"""Calculate quality metrics for previous training run or pretrained network pickle."""
from configs import cfg as opts
import os
import click
import json
import tempfile
import copy
import torch
import dnnlib
import legacy
from metrics import metric_main
from metrics import metric_utils
from torch_utils import training_stats
from torch_utils import custom_ops
from torch_utils import misc
from torch_utils.ops import conv2d_gradfix
#----------------------------------------------------------------------------
def subprocess_fn(rank, args, temp_dir):
dnnlib.util.Logger(should_flush=True)
# Init torch.distributed.
if args.num_gpus > 1:
init_file = os.path.abspath(os.path.join(temp_dir, '.torch_distributed_init'))
if os.name == 'nt':
init_method = 'file:///' + init_file.replace('\\', '/')
torch.distributed.init_process_group(backend='gloo', init_method=init_method, rank=rank, world_size=args.num_gpus)
else:
init_method = f'file://{init_file}'
torch.distributed.init_process_group(backend='nccl', init_method=init_method, rank=rank, world_size=args.num_gpus)
# Init torch_utils.
sync_device = torch.device('cuda', rank) if args.num_gpus > 1 else None
training_stats.init_multiprocessing(rank=rank, sync_device=sync_device)
if rank != 0 or not args.verbose:
custom_ops.verbosity = 'none'
# Configure torch.
device = torch.device('cuda', rank)
torch.backends.cuda.matmul.allow_tf32 = False
torch.backends.cudnn.allow_tf32 = False
conv2d_gradfix.enabled = True
# Print network summary.
G = copy.deepcopy(args.G).eval().requires_grad_(False).to(device)
if rank == 0 and args.verbose:
z = torch.empty([1, G.z_dim], device=device)
c = torch.empty([1, G.c_dim], device=device)
misc.print_module_summary(G, [z, c])
# Calculate each metric.
for metric in args.metrics:
if rank == 0 and args.verbose:
print(f'Calculating {metric}...')
progress = metric_utils.ProgressMonitor(verbose=args.verbose)
result_dict = metric_main.calc_metric(metric=metric, G=G, G_kwargs=args.metric_kwargs, dataset_kwargs=args.dataset_kwargs,
num_gpus=args.num_gpus, rank=rank, device=device, progress=progress)
if rank == 0:
metric_main.report_metric(result_dict, run_dir=args.run_dir, snapshot_pkl=args.resume)
if rank == 0 and args.verbose:
print()
# Done.
if rank == 0 and args.verbose:
print('Exiting...')
#----------------------------------------------------------------------------
def parse_comma_separated_list(s):
if isinstance(s, list):
return s
if s is None or s.lower() == 'none' or s == '':
return []
return s.split(',')
#----------------------------------------------------------------------------
def calc_metrics():
"""Calculate quality metrics for previous training run or pretrained network pickle.
Examples:
\b
# Previous training run: look up options automatically, save result to JSONL file.
python calc_metrics.py --metrics=eqt50k_int,eqr50k \\
--network=~/training-runs/00000-stylegan3-r-mydataset/network-snapshot-000000.pkl
\b
# Pre-trained network pickle: specify dataset explicitly, print result to stdout.
python calc_metrics.py --metrics=fid50k_full --data=~/datasets/ffhq-1024x1024.zip --mirror=1 \\
--network=https://api.ngc.nvidia.com/v2/models/nvidia/research/stylegan3/versions/1/files/stylegan3-t-ffhq-1024x1024.pkl
\b
Recommended metrics:
fid50k_full Frechet inception distance against the full dataset.
kid50k_full Kernel inception distance against the full dataset.
pr50k3_full Precision and recall againt the full dataset.
ppl2_wend Perceptual path length in W, endpoints, full image.
eqt50k_int Equivariance w.r.t. integer translation (EQ-T).
eqt50k_frac Equivariance w.r.t. fractional translation (EQ-T_frac).
eqr50k Equivariance w.r.t. rotation (EQ-R).
\b
Legacy metrics:
fid50k Frechet inception distance against 50k real images.
kid50k Kernel inception distance against 50k real images.
pr50k3 Precision and recall against 50k real images.
is50k Inception score for CIFAR-10.
"""
dnnlib.util.Logger(should_flush=True)
outdir = os.path.join(opts.outdir, opts.experiment)
if 'pkl' not in opts.resume:
opts.resume = os.path.join(outdir, f'network-snapshot-{opts.resume}.pkl')
# Validate arguments.
args = dnnlib.EasyDict(metrics=opts.metrics, num_gpus=opts.gpus, resume=opts.resume, verbose=opts.verbose)
if not all(metric_main.is_valid_metric(metric) for metric in args.metrics):
raise Exception ('\n'.join(['--metrics can only contain the following values:'] + metric_main.list_valid_metrics()))
if not args.num_gpus >= 1:
raise Exception ('--gpus must be at least 1')
# Load network.
if not dnnlib.util.is_url(opts.resume, allow_file_urls=True) and not os.path.isfile(opts.resume):
raise Exception ('--network must point to a file or URL')
if args.verbose:
print(f'Loading network from "{opts.resume}"...')
with dnnlib.util.open_url(opts.resume, verbose=args.verbose) as f:
network_dict = legacy.load_network_pkl(f)
args.G = network_dict['G_ema'] # subclass of torch.nn.Module
# Initialize dataset options.
if opts.data is not None:
args.dataset_kwargs = dnnlib.EasyDict(class_name='training.dataset.ImageFolderDataset', path=opts.data)
elif network_dict['training_set_kwargs'] is not None:
args.dataset_kwargs = dnnlib.EasyDict(network_dict['training_set_kwargs'])
else:
raise Exception ('Could not look up dataset options; please specify --data')
# Finalize dataset options.
args.dataset_kwargs.resolution = args.G.img_resolution
args.dataset_kwargs.use_labels = (args.G.c_dim != 0)
if opts.mirror is not None:
args.dataset_kwargs.xflip = opts.mirror
# inference options
args.metric_kwargs = dnnlib.EasyDict(
neural_rendering_resolution=opts.neural_rendering_resolution_infer,
chunk=(None, opts.chunk//opts.batch*opts.gpus)[opts.chunk>0],
coarse=opts.get('coarse', True))
# Print dataset options.
if args.verbose:
print('Dataset options:')
print(json.dumps(args.dataset_kwargs, indent=2))
print('Metric options:')
print(json.dumps(args.metric_kwargs, indent=2))
# Locate run dir.
args.run_dir = None
if os.path.isfile(opts.resume):
pkl_dir = os.path.dirname(opts.resume)
if os.path.isfile(os.path.join(pkl_dir, 'training_options.json')):
args.run_dir = pkl_dir
# Launch processes.
if args.verbose:
print('Launching processes...')
torch.multiprocessing.set_start_method('spawn')
with tempfile.TemporaryDirectory() as temp_dir:
if args.num_gpus == 1:
subprocess_fn(rank=0, args=args, temp_dir=temp_dir)
else:
torch.multiprocessing.spawn(fn=subprocess_fn, args=(args, temp_dir), nprocs=args.num_gpus)
#----------------------------------------------------------------------------
if __name__ == "__main__":
calc_metrics() # pylint: disable=no-value-for-parameter
#----------------------------------------------------------------------------