def test_glob(ctx, parallel):
contents = b"meow!"
with ctx() as path:
dirpath = bf.dirname(path)
a_path = bf.join(dirpath, "ab")
with bf.BlobFile(a_path, "wb") as w:
w.write(contents)
b_path = bf.join(dirpath, "bb")
with bf.BlobFile(b_path, "wb") as w:
w.write(contents)
def assert_listing_equal(path, desired):
desired = sorted([bf.join(dirpath, p) for p in desired])
actual = sorted(list(bf.glob(path, parallel=parallel)))
assert actual == desired, f"{actual} != {desired}"
assert_listing_equal(bf.join(dirpath, "*b"), ["ab", "bb"])
assert_listing_equal(bf.join(dirpath, "a*"), ["ab"])
assert_listing_equal(bf.join(dirpath, "ab*"), ["ab"])
assert_listing_equal(bf.join(dirpath, "*"), ["ab", "bb"])
assert_listing_equal(bf.join(dirpath, "bb"), ["bb"])
path = bf.join(dirpath, "test.txt")
with bf.BlobFile(path, "wb") as w:
w.write(contents)
path = bf.join(dirpath, "subdir", "test.txt")
bf.makedirs(bf.dirname(path))
with bf.BlobFile(path, "wb") as f:
f.write(contents)
path = bf.join(dirpath, "subdir", "subsubdir", "test.txt")
if "://" not in path:
# implicit directory
bf.makedirs(bf.dirname(path))
with bf.BlobFile(path, "wb") as f:
f.write(contents)
assert_listing_equal(bf.join(dirpath, "*/test.txt"), ["subdir/test.txt"])
assert_listing_equal(bf.join(dirpath, "*/*.txt"), ["subdir/test.txt"])
if "://" in path:
# local glob doesn't handle ** the same way as remote glob
assert_listing_equal(
bf.join(dirpath, "**.txt"),
["test.txt", "subdir/test.txt", "subdir/subsubdir/test.txt"],
)
else:
assert_listing_equal(bf.join(dirpath, "**.txt"), ["test.txt"])
assert_listing_equal(bf.join(dirpath, "*/test"), [])
assert_listing_equal(bf.join(dirpath, "subdir/test.txt"), ["subdir/test.txt"])
# directories
assert_listing_equal(bf.join(dirpath, "*"), ["ab", "bb", "subdir", "test.txt"])
assert_listing_equal(bf.join(dirpath, "subdir"), ["subdir"])
assert_listing_equal(bf.join(dirpath, "subdir/"), ["subdir"])
assert_listing_equal(bf.join(dirpath, "*/"), ["subdir"])
assert_listing_equal(bf.join(dirpath, "*dir"), ["subdir"])
assert_listing_equal(bf.join(dirpath, "subdir/*dir"), ["subdir/subsubdir"])
assert_listing_equal(bf.join(dirpath, "subdir/*dir/"), ["subdir/subsubdir"])
assert_listing_equal(bf.join(dirpath, "su*ir/*dir/"), ["subdir/subsubdir"])
def find_ema_checkpoint(main_checkpoint, step, rate):
if main_checkpoint is None:
return None
filename = f"ema_{rate}_{(step):06d}.pt"
path = bf.join(bf.dirname(main_checkpoint), filename)
if bf.exists(path):
return path
return None
def _load_optimizer_state(self):
main_checkpoint = find_resume_checkpoint() or self.resume_checkpoint
opt_checkpoint = bf.join(bf.dirname(main_checkpoint),
f"opt{self.resume_step:06}.pt")
if bf.exists(opt_checkpoint):
logger.log(
f"loading optimizer state from checkpoint: {opt_checkpoint}")
state_dict = dist_util.load_state_dict(
opt_checkpoint, map_location=dist_util.dev())
self.opt.load_state_dict(state_dict)
def test_isdir(ctx):
contents = b"meow!"
with ctx() as path:
assert not bf.isdir(path)
_write_contents(path, contents)
assert not bf.isdir(path)
dirpath = path + ".dir"
bf.makedirs(dirpath)
assert bf.isdir(dirpath)
assert not bf.isdir(dirpath[:-1])
filepath = bf.join(path + ".otherdir", "subdir", "file.name")
if "://" not in path:
# implicit directory
bf.makedirs(bf.dirname(filepath))
dirpath = bf.dirname(bf.dirname(filepath))
_write_contents(filepath, contents)
assert bf.isdir(dirpath)
assert not bf.isdir(dirpath[:-1])
def test_listdir(ctx):
contents = b"meow!"
with ctx() as path:
dirpath = bf.dirname(path)
a_path = bf.join(dirpath, "a")
with bf.BlobFile(a_path, "wb") as w:
w.write(contents)
b_path = bf.join(dirpath, "b")
with bf.BlobFile(b_path, "wb") as w:
w.write(contents)
bf.makedirs(bf.join(dirpath, "c"))
assert sorted(list(bf.listdir(dirpath))) == ["a", "b", "c"]
def test_read_write(ctx, streaming):
contents = b"meow!\npurr\n"
with ctx() as path:
path = bf.join(path, "a folder", "a.file")
bf.makedirs(bf.dirname(path))
with bf.BlobFile(path, "wb", streaming=streaming) as w:
w.write(contents)
with bf.BlobFile(path, "rb", streaming=streaming) as r:
assert r.read() == contents
with bf.BlobFile(path, "rb", streaming=streaming) as r:
lines = list(r)
assert b"".join(lines) == contents
def test_scanglob(ctx):
contents = b"meow!"
with ctx() as path:
dirpath = bf.dirname(path)
a_path = bf.join(dirpath, "ab")
with bf.BlobFile(a_path, "wb") as w:
w.write(contents)
b_path = bf.join(dirpath, "bb")
with bf.BlobFile(b_path, "wb") as w:
w.write(contents)
path = bf.join(dirpath, "test.txt")
with bf.BlobFile(path, "wb") as w:
w.write(contents)
path = bf.join(dirpath, "subdir", "test.txt")
bf.makedirs(bf.dirname(path))
with bf.BlobFile(path, "wb") as f:
f.write(contents)
entries = sorted(list(bf.scanglob(bf.join(dirpath, "*b*"))))
assert entries[0].name == "ab" and entries[0].is_file
assert entries[1].name == "bb" and entries[1].is_file
assert entries[2].name == "subdir" and entries[2].is_dir
def test_create_local_intermediate_dirs():
contents = b"meow"
with _get_temp_local_path() as path:
dirpath = bf.dirname(path)
with chdir(dirpath):
for filepath in [
bf.join(dirpath, "dirname", "file.name"),
bf.join("..", bf.basename(dirpath), "file.name"),
"./file.name",
"file.name",
]:
with bf.BlobFile(filepath, "wb") as f:
f.write(contents)
def test_rmtree(ctx):
contents = b"meow!"
with ctx() as path:
root = bf.dirname(path)
destroy_path = bf.join(root, "destroy")
bf.makedirs(destroy_path)
save_path = bf.join(root, "save")
bf.makedirs(save_path)
# implicit dir
if not "://" in path:
bf.makedirs(bf.join(destroy_path, "adir"))
with bf.BlobFile(bf.join(destroy_path, "adir/b"), "wb") as w:
w.write(contents)
# explicit dir
bf.makedirs(bf.join(destroy_path, "bdir"))
with bf.BlobFile(bf.join(destroy_path, "bdir/b"), "wb") as w:
w.write(contents)
bf.makedirs(bf.join(save_path, "somedir"))
with bf.BlobFile(bf.join(save_path, "somefile"), "wb") as w:
w.write(contents)
def assert_listing_equal(path, desired):
actual = list(bf.walk(path))
# ordering of os walk is weird, only compare sorted order
assert sorted(actual) == sorted(desired), f"{actual} != {desired}"
assert_listing_equal(
root,
[
(root, ["destroy", "save"], []),
(destroy_path, ["adir", "bdir"], []),
(bf.join(destroy_path, "adir"), [], ["b"]),
(bf.join(destroy_path, "bdir"), [], ["b"]),
(save_path, ["somedir"], ["somefile"]),
(bf.join(save_path, "somedir"), [], []),
],
)
bf.rmtree(destroy_path)
assert_listing_equal(
root,
[
(root, ["save"], []),
(save_path, ["somedir"], ["somefile"]),
(bf.join(save_path, "somedir"), [], []),
],
)
def test_az_path():
contents = b"meow!\npurr\n"
with _get_temp_as_path() as path:
path = _convert_https_to_az(path)
path = bf.join(path, "a folder", "a.file")
path = _convert_https_to_az(path)
bf.makedirs(_convert_https_to_az(bf.dirname(path)))
with bf.BlobFile(path, "wb") as w:
w.write(contents)
with bf.BlobFile(path, "rb") as r:
assert r.read() == contents
with bf.BlobFile(path, "rb") as r:
lines = list(r)
assert b"".join(lines) == contents
def test_dirname():
testcases = [
("a", ""),
("a/b", "a"),
("a/b/c", "a/b"),
("a/b/c/", "a/b/c"),
("a/b/c/////", "a/b/c"),
("", ""),
("gs://a", "gs://a"),
("gs://a/", "gs://a"),
("gs://a/////", "gs://a"),
("gs://a/b", "gs://a"),
("gs://a/b/c/test.filename", "gs://a/b/c"),
("gs://a/b/c/", "gs://a/b"),
("gs://a/b/c/////", "gs://a/b"),
(
"https://a.blob.core.windows.net/container",
"https://a.blob.core.windows.net/container",
),
(
"https://a.blob.core.windows.net/container/",
"https://a.blob.core.windows.net/container",
),
(
"https://a.blob.core.windows.net/container/////",
"https://a.blob.core.windows.net/container",
),
(
"https://a.blob.core.windows.net/container/b",
"https://a.blob.core.windows.net/container",
),
(
"https://a.blob.core.windows.net/container/b/c/test.filename",
"https://a.blob.core.windows.net/container/b/c",
),
(
"https://a.blob.core.windows.net/container/b/c/",
"https://a.blob.core.windows.net/container/b",
),
(
"https://a.blob.core.windows.net/container/b/c//////",
"https://a.blob.core.windows.net/container/b",
),
]
for input_, desired_output in testcases:
actual_output = bf.dirname(input_)
assert desired_output == actual_output, f"{input_}"
def test_walk(ctx, topdown):
contents = b"meow!"
with ctx() as path:
dirpath = bf.dirname(path)
a_path = bf.join(dirpath, "a")
with bf.BlobFile(a_path, "wb") as w:
w.write(contents)
bf.makedirs(bf.join(dirpath, "c/d"))
b_path = bf.join(dirpath, "c/d/b")
with bf.BlobFile(b_path, "wb") as w:
w.write(contents)
expected = [
(dirpath, ["c"], ["a"]),
(bf.join(dirpath, "c"), ["d"], []),
(bf.join(dirpath, "c", "d"), [], ["b"]),
]
if not topdown:
expected = list(reversed(expected))
assert list(bf.walk(dirpath, topdown=topdown)) == expected
def test_scandir(ctx):
contents = b"meow!"
with ctx() as path:
dirpath = bf.dirname(path)
a_path = bf.join(dirpath, "a")
with bf.BlobFile(a_path, "wb") as w:
w.write(contents)
b_path = bf.join(dirpath, "b")
with bf.BlobFile(b_path, "wb") as w:
w.write(contents)
bf.makedirs(bf.join(dirpath, "c"))
entries = sorted(list(bf.scandir(dirpath)))
assert [e.name for e in entries] == ["a", "b", "c"]
assert [e.path for e in entries
] == [bf.join(dirpath, name) for name in ["a", "b", "c"]]
assert [e.is_dir for e in entries] == [False, False, True]
assert [e.is_file for e in entries] == [True, True, False]
assert entries[0].stat.size == len(contents)
assert entries[1].stat.size == len(contents)
assert entries[2].stat is None
def test_listdir_sharded(ctx):
contents = b"meow!"
with ctx() as path:
dirpath = bf.dirname(path)
with bf.BlobFile(bf.join(dirpath, "a"), "wb") as w:
w.write(contents)
with bf.BlobFile(bf.join(dirpath, "aa"), "wb") as w:
w.write(contents)
with bf.BlobFile(bf.join(dirpath, "b"), "wb") as w:
w.write(contents)
with bf.BlobFile(bf.join(dirpath, "ca"), "wb") as w:
w.write(contents)
bf.makedirs(bf.join(dirpath, "c"))
with bf.BlobFile(bf.join(dirpath, "c/a"), "wb") as w:
w.write(contents)
# this should also test shard_prefix_length=2 but that takes too long
assert sorted(list(bf.listdir(dirpath, shard_prefix_length=1))) == [
"a",
"aa",
"b",
"c",
"ca",
]
def test_rmdir(ctx):
contents = b"meow!"
with ctx() as path:
dirpath = bf.dirname(path)
# this is an error for a local path but not for a blob path
bf.rmdir(bf.join(dirpath, "fakedirname"))
new_dirpath = bf.join(dirpath, "dirname")
bf.makedirs(new_dirpath)
assert bf.exists(new_dirpath)
bf.rmdir(new_dirpath)
assert not bf.exists(new_dirpath)
# double delete is fine
bf.rmdir(new_dirpath)
# implicit dir
new_filepath = bf.join(dirpath, "dirname", "name")
_write_contents(new_filepath, contents)
with pytest.raises(OSError):
# not empty dir
bf.rmdir(new_dirpath)
bf.remove(new_filepath)
bf.rmdir(new_dirpath)
def main():
args = create_argparser().parse_args()
dist_util.setup_dist()
logger.configure()
logger.log("creating model and diffusion...")
model, diffusion = create_classifier_and_diffusion(
**args_to_dict(args,
classifier_and_diffusion_defaults().keys()))
model.to(dist_util.dev())
if args.noised:
schedule_sampler = create_named_schedule_sampler(
args.schedule_sampler, diffusion)
resume_step = 0
if args.resume_checkpoint:
resume_step = parse_resume_step_from_filename(args.resume_checkpoint)
if dist.get_rank() == 0:
logger.log(
f"loading model from checkpoint: {args.resume_checkpoint}... at {resume_step} step"
)
model.load_state_dict(
dist_util.load_state_dict(args.resume_checkpoint,
map_location=dist_util.dev()))
# Needed for creating correct EMAs and fp16 parameters.
dist_util.sync_params(model.parameters())
mp_trainer = MixedPrecisionTrainer(model=model,
use_fp16=args.classifier_use_fp16,
initial_lg_loss_scale=16.0)
model = DDP(
model,
device_ids=[dist_util.dev()],
output_device=dist_util.dev(),
broadcast_buffers=False,
bucket_cap_mb=128,
find_unused_parameters=False,
)
logger.log("creating data loader...")
data = load_data(
data_dir=args.data_dir,
batch_size=args.batch_size,
image_size=args.image_size,
class_cond=True,
random_crop=True,
)
if args.val_data_dir:
val_data = load_data(
data_dir=args.val_data_dir,
batch_size=args.batch_size,
image_size=args.image_size,
class_cond=True,
)
else:
val_data = None
logger.log(f"creating optimizer...")
opt = AdamW(mp_trainer.master_params,
lr=args.lr,
weight_decay=args.weight_decay)
if args.resume_checkpoint:
opt_checkpoint = bf.join(bf.dirname(args.resume_checkpoint),
f"opt{resume_step:06}.pt")
logger.log(
f"loading optimizer state from checkpoint: {opt_checkpoint}")
opt.load_state_dict(
dist_util.load_state_dict(opt_checkpoint,
map_location=dist_util.dev()))
logger.log("training classifier model...")
def forward_backward_log(data_loader, prefix="train"):
batch, extra = next(data_loader)
labels = extra["y"].to(dist_util.dev())
batch = batch.to(dist_util.dev())
# Noisy images
if args.noised:
t, _ = schedule_sampler.sample(batch.shape[0], dist_util.dev())
batch = diffusion.q_sample(batch, t)
else:
t = th.zeros(batch.shape[0], dtype=th.long, device=dist_util.dev())
for i, (sub_batch, sub_labels, sub_t) in enumerate(
split_microbatches(args.microbatch, batch, labels, t)):
logits = model(sub_batch, timesteps=sub_t)
loss = F.cross_entropy(logits, sub_labels, reduction="none")
losses = {}
losses[f"{prefix}_loss"] = loss.detach()
losses[f"{prefix}_acc@1"] = compute_top_k(logits,
sub_labels,
k=1,
reduction="none")
losses[f"{prefix}_acc@5"] = compute_top_k(logits,
sub_labels,
k=5,
reduction="none")
log_loss_dict(diffusion, sub_t, losses)
del losses
loss = loss.mean()
if loss.requires_grad:
if i == 0:
mp_trainer.zero_grad()
mp_trainer.backward(loss * len(sub_batch) / len(batch))
for step in range(args.iterations - resume_step):
logger.logkv("step", step + resume_step)
logger.logkv(
"samples",
(step + resume_step + 1) * args.batch_size * dist.get_world_size(),
)
if args.anneal_lr:
set_annealed_lr(opt, args.lr,
(step + resume_step) / args.iterations)
forward_backward_log(data)
mp_trainer.optimize(opt)
if val_data is not None and not step % args.eval_interval:
with th.no_grad():
with model.no_sync():
model.eval()
forward_backward_log(val_data, prefix="val")
model.train()
if not step % args.log_interval:
logger.dumpkvs()
if (step and dist.get_rank() == 0
and not (step + resume_step) % args.save_interval):
logger.log("saving model...")
save_model(mp_trainer, opt, step + resume_step)
if dist.get_rank() == 0:
logger.log("saving model...")
save_model(mp_trainer, opt, step + resume_step)
dist.barrier()
