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CharacterGAN / models /stylegan2 /stylegan2-pytorch /ppl.py

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	import argparse

	import torch
	from torch.nn import functional as F
	import numpy as np
	from tqdm import tqdm

	import lpips
	from model import Generator


	def normalize(x):
	return x / torch.sqrt(x.pow(2).sum(-1, keepdim=True))


	def slerp(a, b, t):
	a = normalize(a)
	b = normalize(b)
	d = (a * b).sum(-1, keepdim=True)
	p = t * torch.acos(d)
	c = normalize(b - d * a)
	d = a * torch.cos(p) + c * torch.sin(p)

	return normalize(d)


	def lerp(a, b, t):
	return a + (b - a) * t


	if __name__ == '__main__':
	device = 'cuda'

	parser = argparse.ArgumentParser()

	parser.add_argument('--space', choices=['z', 'w'])
	parser.add_argument('--batch', type=int, default=64)
	parser.add_argument('--n_sample', type=int, default=5000)
	parser.add_argument('--size', type=int, default=256)
	parser.add_argument('--eps', type=float, default=1e-4)
	parser.add_argument('--crop', action='store_true')
	parser.add_argument('ckpt', metavar='CHECKPOINT')

	args = parser.parse_args()

	latent_dim = 512

	ckpt = torch.load(args.ckpt)

	g = Generator(args.size, latent_dim, 8).to(device)
	g.load_state_dict(ckpt['g_ema'])
	g.eval()

	percept = lpips.PerceptualLoss(
	model='net-lin', net='vgg', use_gpu=device.startswith('cuda')
	)

	distances = []

	n_batch = args.n_sample // args.batch
	resid = args.n_sample - (n_batch * args.batch)
	batch_sizes = [args.batch] * n_batch + [resid]

	with torch.no_grad():
	for batch in tqdm(batch_sizes):
	noise = g.make_noise()

	inputs = torch.randn([batch * 2, latent_dim], device=device)
	lerp_t = torch.rand(batch, device=device)

	if args.space == 'w':
	latent = g.get_latent(inputs)
	latent_t0, latent_t1 = latent[::2], latent[1::2]
	latent_e0 = lerp(latent_t0, latent_t1, lerp_t[:, None])
	latent_e1 = lerp(latent_t0, latent_t1, lerp_t[:, None] + args.eps)
	latent_e = torch.stack([latent_e0, latent_e1], 1).view(*latent.shape)

	image, _ = g([latent_e], input_is_latent=True, noise=noise)

	if args.crop:
	c = image.shape[2] // 8
	image = image[:, :, c * 3 : c * 7, c * 2 : c * 6]

	factor = image.shape[2] // 256

	if factor > 1:
	image = F.interpolate(
	image, size=(256, 256), mode='bilinear', align_corners=False
	)

	dist = percept(image[::2], image[1::2]).view(image.shape[0] // 2) / (
	args.eps ** 2
	)
	distances.append(dist.to('cpu').numpy())

	distances = np.concatenate(distances, 0)

	lo = np.percentile(distances, 1, interpolation='lower')
	hi = np.percentile(distances, 99, interpolation='higher')
	filtered_dist = np.extract(
	np.logical_and(lo <= distances, distances <= hi), distances
	)

	print('ppl:', filtered_dist.mean())