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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.
import re
import contextlib
import numpy as np
import torch
import warnings
import dnnlib
from guided_diffusion import dist_util, logger
#----------------------------------------------------------------------------
# Cached construction of constant tensors. Avoids CPU=>GPU copy when the
# same constant is used multiple times.
_constant_cache = dict()
def constant(value, shape=None, dtype=None, device=None, memory_format=None):
value = np.asarray(value)
if shape is not None:
shape = tuple(shape)
if dtype is None:
dtype = torch.get_default_dtype()
if device is None:
device = torch.device('cpu')
if memory_format is None:
memory_format = torch.contiguous_format
key = (value.shape, value.dtype, value.tobytes(), shape, dtype, device,
memory_format)
tensor = _constant_cache.get(key, None)
if tensor is None:
tensor = torch.as_tensor(value.copy(), dtype=dtype, device=device)
if shape is not None:
tensor, _ = torch.broadcast_tensors(tensor, torch.empty(shape))
tensor = tensor.contiguous(memory_format=memory_format)
_constant_cache[key] = tensor
return tensor
#----------------------------------------------------------------------------
# Replace NaN/Inf with specified numerical values.
try:
nan_to_num = torch.nan_to_num # 1.8.0a0
except AttributeError:
def nan_to_num(input, nan=0.0, posinf=None, neginf=None, *, out=None): # pylint: disable=redefined-builtin
assert isinstance(input, torch.Tensor)
if posinf is None:
posinf = torch.finfo(input.dtype).max
if neginf is None:
neginf = torch.finfo(input.dtype).min
assert nan == 0
return torch.clamp(input.unsqueeze(0).nansum(0),
min=neginf,
max=posinf,
out=out)
#----------------------------------------------------------------------------
# Symbolic assert.
try:
symbolic_assert = torch._assert # 1.8.0a0 # pylint: disable=protected-access
except AttributeError:
symbolic_assert = torch.Assert # 1.7.0
#----------------------------------------------------------------------------
# Context manager to temporarily suppress known warnings in torch.jit.trace().
# Note: Cannot use catch_warnings because of https://bugs.python.org/issue29672
@contextlib.contextmanager
def suppress_tracer_warnings():
flt = ('ignore', None, torch.jit.TracerWarning, None, 0)
warnings.filters.insert(0, flt)
yield
warnings.filters.remove(flt)
#----------------------------------------------------------------------------
# Assert that the shape of a tensor matches the given list of integers.
# None indicates that the size of a dimension is allowed to vary.
# Performs symbolic assertion when used in torch.jit.trace().
def assert_shape(tensor, ref_shape):
if tensor.ndim != len(ref_shape):
raise AssertionError(
f'Wrong number of dimensions: got {tensor.ndim}, expected {len(ref_shape)}'
)
for idx, (size, ref_size) in enumerate(zip(tensor.shape, ref_shape)):
if ref_size is None:
pass
elif isinstance(ref_size, torch.Tensor):
with suppress_tracer_warnings(
): # as_tensor results are registered as constants
symbolic_assert(torch.equal(torch.as_tensor(size), ref_size),
f'Wrong size for dimension {idx}')
elif isinstance(size, torch.Tensor):
with suppress_tracer_warnings(
): # as_tensor results are registered as constants
symbolic_assert(
torch.equal(size, torch.as_tensor(ref_size)),
f'Wrong size for dimension {idx}: expected {ref_size}')
elif size != ref_size:
raise AssertionError(
f'Wrong size for dimension {idx}: got {size}, expected {ref_size}'
)
#----------------------------------------------------------------------------
# Function decorator that calls torch.autograd.profiler.record_function().
def profiled_function(fn):
def decorator(*args, **kwargs):
with torch.autograd.profiler.record_function(fn.__name__):
return fn(*args, **kwargs)
decorator.__name__ = fn.__name__
return decorator
#----------------------------------------------------------------------------
# Sampler for torch.utils.data.DataLoader that loops over the dataset
# indefinitely, shuffling items as it goes.
class InfiniteSampler(torch.utils.data.Sampler):
def __init__(self,
dataset,
rank=0,
num_replicas=1,
shuffle=True,
seed=0,
window_size=0.5):
assert len(dataset) > 0
assert num_replicas > 0
assert 0 <= rank < num_replicas
assert 0 <= window_size <= 1
super().__init__(dataset)
self.dataset = dataset
self.rank = rank
self.num_replicas = num_replicas
self.shuffle = shuffle
self.seed = seed
self.window_size = window_size
def __iter__(self):
order = np.arange(len(self.dataset))
rnd = None
window = 0
if self.shuffle:
rnd = np.random.RandomState(self.seed)
rnd.shuffle(order)
window = int(np.rint(order.size * self.window_size))
idx = 0
while True:
i = idx % order.size
if idx % self.num_replicas == self.rank:
yield order[i]
if window >= 2:
j = (i - rnd.randint(window)) % order.size
order[i], order[j] = order[j], order[i]
idx += 1
#----------------------------------------------------------------------------
# Utilities for operating with torch.nn.Module parameters and buffers.
def params_and_buffers(module):
assert isinstance(module, torch.nn.Module)
return list(module.parameters()) + list(module.buffers())
def named_params_and_buffers(module):
assert isinstance(module, torch.nn.Module)
return list(module.named_parameters()) + list(module.named_buffers())
def copy_params_and_buffers(src_module, dst_module, require_all=False, load_except=(), model_name=''):
assert isinstance(src_module, torch.nn.Module)
assert isinstance(dst_module, torch.nn.Module)
src_tensors = dict(named_params_and_buffers(src_module))
for name, tensor in named_params_and_buffers(dst_module):
assert (name in src_tensors) or (not require_all)
if name in src_tensors:
try:
if name in load_except:
logger.log('ignore load_except module: ', name)
else:
tensor.copy_(src_tensors[name].detach()).requires_grad_(
tensor.requires_grad)
except:
print(name)
#----------------------------------------------------------------------------
# Context manager for easily enabling/disabling DistributedDataParallel
# synchronization.
@contextlib.contextmanager
def ddp_sync(module, sync):
assert isinstance(module, torch.nn.Module)
if sync or not isinstance(module,
torch.nn.parallel.DistributedDataParallel):
yield
else:
with module.no_sync():
yield
#----------------------------------------------------------------------------
# Check DistributedDataParallel consistency across processes.
def check_ddp_consistency(module, ignore_regex=None):
assert isinstance(module, torch.nn.Module)
for name, tensor in named_params_and_buffers(module):
fullname = type(module).__name__ + '.' + name
# print(fullname)
if ignore_regex is not None and re.fullmatch(ignore_regex, fullname):
continue
tensor = tensor.detach()
if tensor.is_floating_point():
tensor = nan_to_num(tensor)
other = tensor.clone()
torch.distributed.broadcast(tensor=other, src=0)
assert (tensor == other).all(), fullname
#----------------------------------------------------------------------------
# Print summary table of module hierarchy.
def print_module_summary(module, inputs, max_nesting=3, skip_redundant=True):
assert isinstance(module, torch.nn.Module)
assert not isinstance(module, torch.jit.ScriptModule)
assert isinstance(inputs, (tuple, list))
# Register hooks.
entries = []
nesting = [0]
def pre_hook(_mod, _inputs):
nesting[0] += 1
def post_hook(mod, _inputs, outputs):
nesting[0] -= 1
if nesting[0] <= max_nesting:
outputs = list(outputs) if isinstance(outputs,
(tuple,
list)) else [outputs]
outputs = [t for t in outputs if isinstance(t, torch.Tensor)]
entries.append(dnnlib.EasyDict(mod=mod, outputs=outputs))
hooks = [
mod.register_forward_pre_hook(pre_hook) for mod in module.modules()
]
hooks += [mod.register_forward_hook(post_hook) for mod in module.modules()]
# Run module.
outputs = module(*inputs)
for hook in hooks:
hook.remove()
# Identify unique outputs, parameters, and buffers.
tensors_seen = set()
for e in entries:
e.unique_params = [
t for t in e.mod.parameters() if id(t) not in tensors_seen
]
e.unique_buffers = [
t for t in e.mod.buffers() if id(t) not in tensors_seen
]
e.unique_outputs = [t for t in e.outputs if id(t) not in tensors_seen]
tensors_seen |= {
id(t)
for t in e.unique_params + e.unique_buffers + e.unique_outputs
}
# Filter out redundant entries.
if skip_redundant:
entries = [
e for e in entries if len(e.unique_params) or len(e.unique_buffers)
or len(e.unique_outputs)
]
# Construct table.
rows = [[
type(module).__name__, 'Parameters', 'Buffers', 'Output shape',
'Datatype'
]]
rows += [['---'] * len(rows[0])]
param_total = 0
buffer_total = 0
submodule_names = {mod: name for name, mod in module.named_modules()}
for e in entries:
name = '<top-level>' if e.mod is module else submodule_names[e.mod]
param_size = sum(t.numel() for t in e.unique_params)
buffer_size = sum(t.numel() for t in e.unique_buffers)
output_shapes = [str(list(t.shape)) for t in e.outputs]
output_dtypes = [str(t.dtype).split('.')[-1] for t in e.outputs]
rows += [[
name + (':0' if len(e.outputs) >= 2 else ''),
str(param_size) if param_size else '-',
str(buffer_size) if buffer_size else '-',
(output_shapes + ['-'])[0],
(output_dtypes + ['-'])[0],
]]
for idx in range(1, len(e.outputs)):
rows += [[
name + f':{idx}', '-', '-', output_shapes[idx],
output_dtypes[idx]
]]
param_total += param_size
buffer_total += buffer_size
rows += [['---'] * len(rows[0])]
rows += [['Total', str(param_total), str(buffer_total), '-', '-']]
# Print table.
widths = [max(len(cell) for cell in column) for column in zip(*rows)]
print()
for row in rows:
print(' '.join(cell + ' ' * (width - len(cell))
for cell, width in zip(row, widths)))
print()
return outputs
#----------------------------------------------------------------------------
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