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/ distributed / fsdp / _traversal_utils.py
"""
NOTE: This file must be imported like
``import torch.distributed.fsdp._traversal_utils`` and not like
``from torch.distirbuted.fsdp._traversal_utils import ...`` to avoid circular
imports. For brevity, we may import the file as ``traversal_utils``.
"""
import collections
from typing import Deque, List, Set, Tuple
import torch.nn as nn
from torch.distributed._composable.contract import _get_registry
from torch.distributed.fsdp._common_utils import _FSDPState, _get_module_fsdp_state
"""
[Note: FSDP State Traversal]
For the wrapper code path, ``_FSDPState`` is the ``FullyShardedDataParallel``
module wrapping a fully sharded module, and for the non-wrapper code path,
``_FSDPState`` is an object that gets embedded on a fully sharded module.
See [Note: Fully Sharded Module] for the definition.
There are three common traversal idioms: Given a root module,
- ``_get_fsdp_states()`` returns all ``_FSDPState`` s in the tree.
- ``get_fsdp_root_states()`` returns all local root ``_FSDPState`` s in the
tree (i.e. those with ``_is_root == True``).
- ``_get_fsdp_handles()``returns all ``FlatParamHandle`` s in the tree.
All of these methods must take in the root module (i.e. an ``nn.Module``) and
not a general ``_FSDPState`` because ``_FSDPState`` does not support a graph
traversal, whereas ``nn.Module`` has ``nn.Module.modules()`` for traversal.
"""
def _composable(module: nn.Module) -> bool:
"""
Returns if ``module`` can compose with ``fully_shard``.
"""
# TODO: Add any other composable APIs that are mutually exclusive.
return "replicate" not in _get_registry(module)
# TODO (awgu): We may be able to remove this function if we retired the
# `use_orig_params=False` code path since so far we only need the module for
# `FlatParameter` registration, which is not needed for `use_orig_params=True`.
def _get_fsdp_states_with_modules(
module: nn.Module,
) -> Tuple[List[_FSDPState], List[nn.Module]]:
"""
Returns a tuple containing:
1. A list of the ``_FSDPState`` instances in the module tree rooted at
``module`` without any duplicates and following the ``module.modules()``
traversal order (which is assumed to be depth-first).
2. A corresponding list of the modules owning the states in the first list.
For the wrapper code path, both returned lists are the same, each
containing all ``FullyShardedDataParallel`` instances. For the composable
code path, this returns a list of all composable state instances and a list
of the corresponding fully sharded modules. See [Note: Fully Sharded
Module].
NOTE: The traversal does not proceed into any module annotated by an
incompatible API (e.g. ``replicate``).
"""
fsdp_states: List[_FSDPState] = []
fsdp_modules: List[nn.Module] = []
# Track the visited FSDP states since multiple modules may share the same
# one and we want to return a de-duplicated list
visited_fsdp_states: Set[_FSDPState] = set()
# Track the visited modules in case of shared modules, which implies the
# module graph is no longer a tree
visited_modules: Set[nn.Module] = set()
# Perform depth-first search from `module` to ensure that we do not
# traverse into an incompatible API's subtree (use DFS instead of BFS to
# match `.modules()` order)
deque: Deque[nn.Module] = collections.deque()
deque.append(module)
while deque:
submodule = deque.popleft()
visited_modules.add(submodule)
if not _composable(submodule):
continue
for child_module in reversed(list(submodule.children())):
if child_module not in visited_modules:
deque.appendleft(child_module)
optional_state = _get_module_fsdp_state(submodule)
if optional_state is not None and optional_state not in visited_fsdp_states:
visited_fsdp_states.add(optional_state)
fsdp_states.append(optional_state)
fsdp_modules.append(submodule)
return fsdp_states, fsdp_modules
def _get_fsdp_states(module: nn.Module) -> List[_FSDPState]:
"""See :func:`_get_fsdp_states_with_modules`."""
fsdp_states, _ = _get_fsdp_states_with_modules(module)
return fsdp_states
def _get_fsdp_handles(module: nn.Module) -> List:
"""
Returns all ``FlatParamHandle`` s in the module tree rooted at ``module``
following the rules in :func:`_get_fsdp_state`.
"""
return [
handle
for fsdp_state in _get_fsdp_states(module)
for handle in fsdp_state._handles
]