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CharacterGAN / netdissect /tool /allunitsample.py

mfrashad

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	'''
	A simple tool to generate sample of output of a GAN,
	subject to filtering, sorting, or intervention.
	'''

	import torch, numpy, os, argparse, sys, shutil, errno, numbers
	from PIL import Image
	from torch.utils.data import TensorDataset
	from netdissect.zdataset import standard_z_sample
	from netdissect.progress import default_progress, verbose_progress
	from netdissect.autoeval import autoimport_eval
	from netdissect.workerpool import WorkerBase, WorkerPool
	from netdissect.nethook import retain_layers
	from netdissect.runningstats import RunningTopK

	def main():
	parser = argparse.ArgumentParser(description='GAN sample making utility')
	parser.add_argument('--model', type=str, default=None,
	help='constructor for the model to test')
	parser.add_argument('--pthfile', type=str, default=None,
	help='filename of .pth file for the model')
	parser.add_argument('--outdir', type=str, default='images',
	help='directory for image output')
	parser.add_argument('--size', type=int, default=100,
	help='number of images to output')
	parser.add_argument('--test_size', type=int, default=None,
	help='number of images to test')
	parser.add_argument('--layer', type=str, default=None,
	help='layer to inspect')
	parser.add_argument('--seed', type=int, default=1,
	help='seed')
	parser.add_argument('--quiet', action='store_true', default=False,
	help='silences console output')
	if len(sys.argv) == 1:
	parser.print_usage(sys.stderr)
	sys.exit(1)
	args = parser.parse_args()
	verbose_progress(not args.quiet)

	# Instantiate the model
	model = autoimport_eval(args.model)
	if args.pthfile is not None:
	data = torch.load(args.pthfile)
	if 'state_dict' in data:
	meta = {}
	for key in data:
	if isinstance(data[key], numbers.Number):
	meta[key] = data[key]
	data = data['state_dict']
	model.load_state_dict(data)
	# Unwrap any DataParallel-wrapped model
	if isinstance(model, torch.nn.DataParallel):
	model = next(model.children())
	# Examine first conv in model to determine input feature size.
	first_layer = [c for c in model.modules()
	if isinstance(c, (torch.nn.Conv2d, torch.nn.ConvTranspose2d,
	torch.nn.Linear))][0]
	# 4d input if convolutional, 2d input if first layer is linear.
	if isinstance(first_layer, (torch.nn.Conv2d, torch.nn.ConvTranspose2d)):
	z_channels = first_layer.in_channels
	spatialdims = (1, 1)
	else:
	z_channels = first_layer.in_features
	spatialdims = ()
	# Instrument the model
	retain_layers(model, [args.layer])
	model.cuda()

	if args.test_size is None:
	args.test_size = args.size * 20
	z_universe = standard_z_sample(args.test_size, z_channels,
	seed=args.seed)
	z_universe = z_universe.view(tuple(z_universe.shape) + spatialdims)
	indexes = get_all_highest_znums(
	model, z_universe, args.size, seed=args.seed)
	save_chosen_unit_images(args.outdir, model, z_universe, indexes,
	lightbox=True)


	def get_all_highest_znums(model, z_universe, size,
	batch_size=10, seed=1):
	# The model should have been instrumented already
	retained_items = list(model.retained.items())
	assert len(retained_items) == 1
	layer = retained_items[0][0]
	# By default, a 10% sample
	progress = default_progress()
	num_units = None
	with torch.no_grad():
	# Pass 1: collect max activation stats
	z_loader = torch.utils.data.DataLoader(TensorDataset(z_universe),
	batch_size=batch_size, num_workers=2,
	pin_memory=True)
	rtk = RunningTopK(k=size)
	for [z] in progress(z_loader, desc='Finding max activations'):
	z = z.cuda()
	model(z)
	feature = model.retained[layer]
	num_units = feature.shape[1]
	max_feature = feature.view(
	feature.shape[0], num_units, -1).max(2)[0]
	rtk.add(max_feature)
	td, ti = rtk.result()
	highest = ti.sort(1)[0]
	return highest

	def save_chosen_unit_images(dirname, model, z_universe, indices,
	shared_dir="shared_images",
	unitdir_template="unit_{}",
	name_template="image_{}.jpg",
	lightbox=False, batch_size=50, seed=1):
	all_indices = torch.unique(indices.view(-1), sorted=True)
	z_sample = z_universe[all_indices]
	progress = default_progress()
	sdir = os.path.join(dirname, shared_dir)
	created_hashdirs = set()
	for index in range(len(z_universe)):
	hd = hashdir(index)
	if hd not in created_hashdirs:
	created_hashdirs.add(hd)
	os.makedirs(os.path.join(sdir, hd), exist_ok=True)
	with torch.no_grad():
	# Pass 2: now generate images
	z_loader = torch.utils.data.DataLoader(TensorDataset(z_sample),
	batch_size=batch_size, num_workers=2,
	pin_memory=True)
	saver = WorkerPool(SaveImageWorker)
	for batch_num, [z] in enumerate(progress(z_loader,
	desc='Saving images')):
	z = z.cuda()
	start_index = batch_num * batch_size
	im = ((model(z) + 1) / 2 * 255).clamp(0, 255).byte().permute(
	0, 2, 3, 1).cpu()
	for i in range(len(im)):
	index = all_indices[i + start_index].item()
	filename = os.path.join(sdir, hashdir(index),
	name_template.format(index))
	saver.add(im[i].numpy(), filename)
	saver.join()
	linker = WorkerPool(MakeLinkWorker)
	for u in progress(range(len(indices)), desc='Making links'):
	udir = os.path.join(dirname, unitdir_template.format(u))
	os.makedirs(udir, exist_ok=True)
	for r in range(indices.shape[1]):
	index = indices[u,r].item()
	fn = name_template.format(index)
	# sourcename = os.path.join('..', shared_dir, fn)
	sourcename = os.path.join(sdir, hashdir(index), fn)
	targname = os.path.join(udir, fn)
	linker.add(sourcename, targname)
	if lightbox:
	copy_lightbox_to(udir)
	linker.join()

	def copy_lightbox_to(dirname):
	srcdir = os.path.realpath(
	os.path.join(os.getcwd(), os.path.dirname(__file__)))
	shutil.copy(os.path.join(srcdir, 'lightbox.html'),
	os.path.join(dirname, '+lightbox.html'))

	def hashdir(index):
	# To keep the number of files the shared directory lower, split it
	# into 100 subdirectories named as follows.
	return '%02d' % (index % 100)

	class SaveImageWorker(WorkerBase):
	# Saving images can be sped up by sending jpeg encoding and
	# file-writing work to a pool.
	def work(self, data, filename):
	Image.fromarray(data).save(filename, optimize=True, quality=100)

	class MakeLinkWorker(WorkerBase):
	# Creating symbolic links is a bit slow and can be done faster
	# in parallel rather than waiting for each to be created.
	def work(self, sourcename, targname):
	try:
	os.link(sourcename, targname)
	except OSError as e:
	if e.errno == errno.EEXIST:
	os.remove(targname)
	os.link(sourcename, targname)
	else:
	raise

	class MakeSyminkWorker(WorkerBase):
	# Creating symbolic links is a bit slow and can be done faster
	# in parallel rather than waiting for each to be created.
	def work(self, sourcename, targname):
	try:
	os.symlink(sourcename, targname)
	except OSError as e:
	if e.errno == errno.EEXIST:
	os.remove(targname)
	os.symlink(sourcename, targname)
	else:
	raise

	if __name__ == '__main__':
	main()