ai-content-maker/.venv/Lib/site-packages/torch/_export/wrappers.py

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2024-05-03 04:18:51 +03:00
from contextlib import contextmanager
import torch
import torch._custom_ops
from torch._C import DispatchKey
from torch._higher_order_ops.strict_mode import strict_mode
from torch._higher_order_ops.utils import autograd_not_implemented
from torch._ops import HigherOrderOperator
from torch._subclasses.fake_tensor import FakeTensorMode
from torch.fx.experimental.proxy_tensor import ProxyTorchDispatchMode, track_tensor_tree
from torch.utils import _pytree as pytree
_export_tracepoint = HigherOrderOperator("_export_tracepoint")
@_export_tracepoint.py_impl(ProxyTorchDispatchMode)
def export_tracepoint_dispatch_mode(mode, *args, **kwargs):
if not mode.enable_tracing:
return _export_tracepoint(*args, **kwargs)
p_args, p_kwargs = pytree.tree_map(mode.tracer.unwrap_proxy, (args, kwargs))
proxy = mode.tracer.create_proxy(
"call_function", _export_tracepoint, p_args, p_kwargs
)
return track_tensor_tree(args, proxy, constant=None, tracer=mode.tracer)
@_export_tracepoint.py_impl(FakeTensorMode)
def export_tracepoint_fake_tensor_mode(mode, *args, **kwargs):
with mode:
return args
@_export_tracepoint.py_functionalize_impl
def export_tracepoint_functional(ctx, *args, **kwargs):
unwrapped_args = ctx.unwrap_tensors(args)
unwrapped_kwargs = ctx.unwrap_tensors(kwargs)
with ctx.redispatch_to_next():
out = _export_tracepoint(*unwrapped_args, **unwrapped_kwargs)
return ctx.wrap_tensors(out)
_export_tracepoint.py_impl(DispatchKey.Autograd)(
autograd_not_implemented(_export_tracepoint, deferred_error=True)
)
@_export_tracepoint.py_impl(DispatchKey.CPU)
def export_tracepoint_cpu(*args, **kwargs):
return args
def _wrap_submodule(mod, path, module_call_specs):
assert isinstance(mod, torch.nn.Module)
assert path != ""
submodule = mod
for name in path.split("."):
if not hasattr(submodule, name):
raise RuntimeError(f"Couldn't find submodule at path {path}")
submodule = getattr(submodule, name)
def update_module_call_signatures(path, in_spec, out_spec):
if path in module_call_specs:
assert module_call_specs[path]["in_spec"] == in_spec
assert module_call_specs[path]["out_spec"] == out_spec
module_call_specs[path] = {"in_spec": in_spec, "out_spec": out_spec}
def check_flattened(flat_args):
for a in flat_args:
if not (isinstance(a, (torch.Tensor, str, int, float, bool)) or a is None):
raise AssertionError(
f"Only Tensors or scalars are supported as pytree flattened inputs, got: {a}"
)
def pre_hook(module, args, kwargs):
flat_args, in_spec = pytree.tree_flatten((args, kwargs))
check_flattened(flat_args)
flat_args = _export_tracepoint(*flat_args, kind="module_call_inputs", path=path)
args, kwargs = pytree.tree_unflatten(flat_args, in_spec)
return args, kwargs
def post_hook(module, args, kwargs, res):
_, in_spec = pytree.tree_flatten((args, kwargs))
flat_res, out_spec = pytree.tree_flatten(res)
check_flattened(flat_res)
flat_res = _export_tracepoint(*flat_res, kind="module_call_outputs", path=path)
update_module_call_signatures(path, in_spec, out_spec)
return pytree.tree_unflatten(flat_res, out_spec)
pre_handle = submodule.register_forward_pre_hook(pre_hook, with_kwargs=True)
post_handle = submodule.register_forward_hook(post_hook, with_kwargs=True)
return pre_handle, post_handle
@contextmanager
def _wrap_submodules(f, preserve_signature, module_call_signatures):
handles = []
try:
for path in preserve_signature:
handles.extend(_wrap_submodule(f, path, module_call_signatures))
yield
finally:
for handle in handles:
handle.remove()
def _mark_strict_experimental(cls):
def call(self, *args):
return strict_mode(self, args)
cls.__call__ = call
return cls