""" This module provides Source classes that track the origins of values in PyTorch Dynamo. Sources represent where values come from (e.g. local variables, globals, attributes) and are used for guard generation and code reconstruction during compilation. The module includes specialized sources for: - Local variables and synthetic locals - Global variables and constants - Object attributes and method calls - NN module specialization (specialized vs unspecialized) - Random values and tensor properties - Default argument handling - FSDP (Fully Sharded Data Parallel) modules Sources play a key role in Dynamo's guard system by tracking value origins for guard generation, and in code reconstruction by providing methods to rebuild the code needed to recreate values. """ import dataclasses import enum import functools from collections.abc import Callable from typing import Any, Optional, TYPE_CHECKING, Union from torch import device as device_type from torch._guards import ( ChainedSource, dataclass_with_cached_hash, Guard, GuardSource, Source, ) from . import utils from .bytecode_transformation import ( create_binary_subscr, create_build_tuple, create_call_function, ) if TYPE_CHECKING: from .codegen import PyCodegen # It shouldn't be supported to construct an NNModuleVariable inside an FSDP module, # so those cases are omitted intentionally # represents nn.Modules tracked with NNModuleVariable (specialized is implicit in the variable name) _GUARD_SOURCE_SPECIALIZED_NN_MODULE = { GuardSource.LOCAL: GuardSource.LOCAL_SPECIALIZED_NN_MODULE, GuardSource.GLOBAL: GuardSource.GLOBAL_SPECIALIZED_NN_MODULE, GuardSource.LOCAL_SPECIALIZED_NN_MODULE: GuardSource.LOCAL_SPECIALIZED_NN_MODULE, GuardSource.GLOBAL_SPECIALIZED_NN_MODULE: GuardSource.GLOBAL_SPECIALIZED_NN_MODULE, # Just to ensure that guard_source() works GuardSource.LOCAL_UNSPECIALIZED_NN_MODULE: GuardSource.LOCAL_UNSPECIALIZED_NN_MODULE, GuardSource.GLOBAL_UNSPECIALIZED_NN_MODULE: GuardSource.GLOBAL_UNSPECIALIZED_NN_MODULE, GuardSource.LOCAL_UNSPECIALIZED_BUILTIN_NN_MODULE: GuardSource.LOCAL_UNSPECIALIZED_BUILTIN_NN_MODULE, GuardSource.GLOBAL_UNSPECIALIZED_BUILTIN_NN_MODULE: GuardSource.GLOBAL_UNSPECIALIZED_BUILTIN_NN_MODULE, GuardSource.LOCAL_FSDP_MODULE: GuardSource.LOCAL_FSDP_MODULE, GuardSource.GLOBAL_FSDP_MODULE: GuardSource.GLOBAL_FSDP_MODULE, } # represents nn.Modules tracked with UnspecializedNNModuleVariable _GUARD_SOURCE_UNSPECIALIZED_NN_MODULE = { GuardSource.LOCAL: GuardSource.LOCAL_UNSPECIALIZED_NN_MODULE, GuardSource.GLOBAL: GuardSource.GLOBAL_UNSPECIALIZED_NN_MODULE, GuardSource.LOCAL_UNSPECIALIZED_NN_MODULE: GuardSource.LOCAL_UNSPECIALIZED_NN_MODULE, GuardSource.GLOBAL_UNSPECIALIZED_NN_MODULE: GuardSource.GLOBAL_UNSPECIALIZED_NN_MODULE, # this happens for an UnspecializedNNModule submodule on a NNModuleVariable GuardSource.LOCAL_SPECIALIZED_NN_MODULE: GuardSource.LOCAL_UNSPECIALIZED_NN_MODULE, GuardSource.GLOBAL_SPECIALIZED_NN_MODULE: GuardSource.GLOBAL_UNSPECIALIZED_NN_MODULE, # Just to ensure that guard_source() works GuardSource.LOCAL_UNSPECIALIZED_BUILTIN_NN_MODULE: GuardSource.LOCAL_UNSPECIALIZED_BUILTIN_NN_MODULE, GuardSource.GLOBAL_UNSPECIALIZED_BUILTIN_NN_MODULE: GuardSource.GLOBAL_UNSPECIALIZED_BUILTIN_NN_MODULE, GuardSource.LOCAL_FSDP_MODULE: GuardSource.LOCAL_FSDP_MODULE, GuardSource.GLOBAL_FSDP_MODULE: GuardSource.GLOBAL_FSDP_MODULE, } # represents nn.Modules tracked with UnspecializedBuiltinNNModuleVariable _GUARD_SOURCE_UNSPECIALIZED_BUILTIN_NN_MODULE = { GuardSource.LOCAL: GuardSource.LOCAL_UNSPECIALIZED_BUILTIN_NN_MODULE, GuardSource.GLOBAL: GuardSource.GLOBAL_UNSPECIALIZED_BUILTIN_NN_MODULE, GuardSource.LOCAL_UNSPECIALIZED_NN_MODULE: GuardSource.LOCAL_UNSPECIALIZED_BUILTIN_NN_MODULE, GuardSource.GLOBAL_UNSPECIALIZED_NN_MODULE: GuardSource.GLOBAL_UNSPECIALIZED_BUILTIN_NN_MODULE, GuardSource.LOCAL_SPECIALIZED_NN_MODULE: GuardSource.LOCAL_UNSPECIALIZED_BUILTIN_NN_MODULE, GuardSource.GLOBAL_SPECIALIZED_NN_MODULE: GuardSource.GLOBAL_UNSPECIALIZED_BUILTIN_NN_MODULE, # Just to ensure that guard_source() works GuardSource.LOCAL_UNSPECIALIZED_BUILTIN_NN_MODULE: GuardSource.LOCAL_UNSPECIALIZED_BUILTIN_NN_MODULE, GuardSource.GLOBAL_UNSPECIALIZED_BUILTIN_NN_MODULE: GuardSource.GLOBAL_UNSPECIALIZED_BUILTIN_NN_MODULE, GuardSource.LOCAL_FSDP_MODULE: GuardSource.LOCAL_FSDP_MODULE, GuardSource.GLOBAL_FSDP_MODULE: GuardSource.GLOBAL_FSDP_MODULE, } _GUARD_SOURCE_FSDP_MODULE = { GuardSource.LOCAL: GuardSource.LOCAL_FSDP_MODULE, GuardSource.GLOBAL: GuardSource.GLOBAL_FSDP_MODULE, GuardSource.LOCAL_SPECIALIZED_NN_MODULE: GuardSource.LOCAL_FSDP_MODULE, GuardSource.GLOBAL_SPECIALIZED_NN_MODULE: GuardSource.GLOBAL_FSDP_MODULE, GuardSource.LOCAL_FSDP_MODULE: GuardSource.LOCAL_FSDP_MODULE, GuardSource.GLOBAL_FSDP_MODULE: GuardSource.GLOBAL_FSDP_MODULE, GuardSource.LOCAL_UNSPECIALIZED_NN_MODULE: GuardSource.LOCAL_FSDP_MODULE, GuardSource.GLOBAL_UNSPECIALIZED_NN_MODULE: GuardSource.GLOBAL_FSDP_MODULE, GuardSource.LOCAL_UNSPECIALIZED_BUILTIN_NN_MODULE: GuardSource.LOCAL_FSDP_MODULE, GuardSource.GLOBAL_UNSPECIALIZED_BUILTIN_NN_MODULE: GuardSource.GLOBAL_FSDP_MODULE, } def is_constant_source(source: Source) -> bool: if isinstance(source, ConstantSource): return True try: if source.guard_source == GuardSource.CONSTANT: return True except NotImplementedError: pass return False def _get_source_debug_name(source: Optional[Source]) -> str: if source is None: return "" else: try: return source.name except NotImplementedError: return "" def _esc_str(s: Any, apply_repr: bool = False) -> str: """ Escapes curly brackets for format strings. e.g. "frozenset({0})" becomes "frozenset({{0}})". This is used by _name_template for example, because it's expected to return a format string, but we may wish to include strings that should not be accidentally formatted. """ if apply_repr: s = repr(s) else: s = str(s) return s.replace("{", "{{").replace("}", "}}") @dataclass_with_cached_hash(frozen=True) class LocalSource(Source): local_name: str # Whether this local is an input to the root frame. is_input: bool = False # Whether we know this input is dynamic (based on example_inputs) # For non tensors, we simply look at the first index of the tuple dynamism: Optional[frozenset[str]] = None # Whether the item at this source is the _content_ of a cell that is # dereferenced from the root frame, i.e., it's a part of the `co_cellvars` # or `co_freevars`. is_derefed_cell_contents: bool = False def reconstruct(self, codegen: "PyCodegen") -> None: if self.is_derefed_cell_contents: codegen.load_deref(self.local_name) else: codegen.append_output(codegen.create_load(self.local_name)) @property def guard_source(self) -> GuardSource: return GuardSource.LOCAL @functools.cached_property def _name_template(self) -> str: return f"L[{_esc_str(self.local_name, apply_repr=True)}]" @dataclass_with_cached_hash(frozen=True) class TempLocalSource(Source): # like LocalSource, but cannot be guarded on local_name: str def reconstruct(self, codegen: "PyCodegen") -> None: codegen.append_output(codegen.create_load(self.local_name)) @property def guard_source(self) -> GuardSource: return GuardSource.TEMP_LOCAL @property def _name_template(self) -> str: raise NotImplementedError( "Cannot create guard on TempLocalSource - this is an internal Dynamo bug. Please file an issue on GitHub." ) @dataclass_with_cached_hash(frozen=True) class SyntheticLocalSource(Source): local_name: str def reconstruct(self, codegen: "PyCodegen") -> None: codegen.append_output(codegen.create_load(self.local_name)) @property def guard_source(self) -> GuardSource: return GuardSource.SYNTHETIC_LOCAL @functools.cached_property def _name_template(self) -> str: return f"SYNTHETIC_LOCAL[{_esc_str(self.local_name, apply_repr=True)}]" @dataclass_with_cached_hash(frozen=True) class RandomValueSource(Source): random_call_index: int @property def guard_source(self) -> GuardSource: return GuardSource.RANDOM_VALUE def reconstruct(self, codegen: "PyCodegen") -> None: codegen.append_output(codegen.create_load(codegen.tx.output.random_values_var)) codegen.append_output(codegen.create_load_const(self.random_call_index)) codegen.append_output(create_binary_subscr()) @functools.cached_property def _name_template(self) -> str: return f"random_value_{_esc_str(self.random_call_index)}" @dataclass_with_cached_hash(frozen=True) class GlobalSource(Source): global_name: str def reconstruct(self, codegen: "PyCodegen") -> None: codegen.append_output(codegen.create_load_global(self.global_name, add=True)) @property def guard_source(self) -> GuardSource: return GuardSource.GLOBAL @functools.cached_property def _name_template(self) -> str: return f"G[{_esc_str(self.global_name, apply_repr=True)}]" @dataclass_with_cached_hash(frozen=True) class GlobalWeakRefSource(Source): global_name: str def reconstruct(self, codegen: "PyCodegen") -> None: codegen.add_push_null( lambda: codegen.append_output( codegen.create_load_global(self.global_name, add=True) ) ) codegen.extend_output(create_call_function(0, False)) @property def guard_source(self) -> GuardSource: return GuardSource.GLOBAL @functools.cached_property def _name_template(self) -> str: return f"G[{_esc_str(self.global_name, apply_repr=True)}]()" @dataclass_with_cached_hash(frozen=True) class WeakRefCallSource(ChainedSource): def reconstruct(self, codegen: "PyCodegen") -> None: codegen.add_push_null(lambda: codegen(self.base)) codegen.extend_output(create_call_function(0, False)) @property def _name_template(self) -> str: return "{0}()" @dataclass_with_cached_hash(frozen=True) class CallFunctionNoArgsSource(WeakRefCallSource): pass @dataclass_with_cached_hash(frozen=True) class AttrSource(ChainedSource): member: str def __post_init__(self) -> None: assert self.base, "Can't construct an AttrSource without a valid base source" if "." in self.member: member_parts = self.member.split(".") object.__setattr__( self, "base", AttrSource(self.base, ".".join(member_parts[:-1])) ) object.__setattr__(self, "member", member_parts[-1]) def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) codegen.extend_output(codegen.create_load_attrs(self.member)) @functools.cached_property def _name_template(self) -> str: if not self.member.isidentifier(): return f"getattr({{0}}, {_esc_str(self.member, apply_repr=True)})" return f"{{0}}.{_esc_str(self.member)}" @dataclass_with_cached_hash(frozen=True) class GenericAttrSource(ChainedSource): member: str def __post_init__(self) -> None: assert self.base, "Can't construct an AttrSource without a valid base source" if "." in self.member: member_parts = self.member.split(".") object.__setattr__( self, "base", AttrSource(self.base, ".".join(member_parts[:-1])) ) object.__setattr__(self, "member", member_parts[-1]) def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) codegen.extend_output(codegen.create_load_attrs(self.member)) @functools.cached_property def _name_template(self) -> str: return ( f"object.__getattribute__({{0}}, {_esc_str(self.member, apply_repr=True)})" ) # Represents obj.__dict__ where obj is a type object @dataclass_with_cached_hash(frozen=True) class TypeDictSource(ChainedSource): def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) codegen.extend_output(codegen.create_load_attrs("__dict__")) @property def _name_template(self) -> str: # type(ob).__dict__ can return a proxy of the dict. But in the C++ # guard accessor, we are use type->tp_dict which is a dict. So, # forcefully pass a dict object to ensure that the GuardManager # registers that its working on a dict object. return "dict({0}.__dict__)" # Represents obj.__mro__ where object is type object @dataclass_with_cached_hash(frozen=True) class TypeMROSource(ChainedSource): def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) codegen.extend_output(codegen.create_load_attrs("__mro__")) @property def _name_template(self) -> str: return "{0}.__mro__" @dataclass_with_cached_hash(frozen=True) class LocalCellSource(Source): """ Conceptually, this class is `LocalSource` for cell objects implicitly generated by Python (e.g., captured variables). """ local_name: str def reconstruct(self, codegen: "PyCodegen") -> None: # Although `LOAD_FAST` and `LOAD_CLOSURE` have the same semantics, # Dynamo's bytecode transformation differentiates them slightly, so we # always emit `LOAD_CLOSURE` here. codegen.append_output(codegen.create_load_closure(self.local_name)) # All the other methods are intentionally unimplemented because e.g., a # local cell object should never be used for guards. # Represents obj.__code__ where object is type object @dataclass_with_cached_hash(frozen=True) class CodeSource(ChainedSource): def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) codegen.extend_output(codegen.create_load_attrs("__code__")) @property def _name_template(self) -> str: return "{0}.__code__" # Represents obj.__closure__ where object is type object @dataclass_with_cached_hash(frozen=True) class ClosureSource(ChainedSource): def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) codegen.extend_output(codegen.create_load_attrs("__closure__")) @property def _name_template(self) -> str: return "{0}.__closure__" # Represents tensor.grad source. It could be represented by AttrSource as well. # But, we could access grad field on tensor directly in C++ without going # through the Python bytecodes. Therefore, we use a separate source for grad # field. @dataclass_with_cached_hash(frozen=True) class GradSource(ChainedSource): member: str = "grad" def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) codegen.extend_output(codegen.create_load_attrs(self.member)) @functools.cached_property def _name_template(self) -> str: return f"{{0}}.{_esc_str(self.member)}" @dataclass_with_cached_hash(frozen=True) class ParamBufferSource(AttrSource): @functools.cached_property def guard_source(self) -> GuardSource: return _GUARD_SOURCE_SPECIALIZED_NN_MODULE[self.base.guard_source] # Special AttrSource to differentiate module._buffers or module._parameters @dataclass_with_cached_hash(frozen=True) class UnspecializedParamBufferSource(AttrSource): pass # This source is intended to be used in places where a source is needed but it is expected # that the symbol will be simplified out later on. Symbols with ephemeral sources are # prioritized to be simplified out when e.g. compared against a symbol without an ephemeral # source. Guarding on this source is an error. # # Example: During subclass view fake-ification, any close-over ViewFunc state should be # symbolicized / fake-ified to avoid invalid specialization during view replay. This source # is useful for symbols utilized in the middle of the view chain that are not expected to be # present within the final view shape metadata. @dataclass_with_cached_hash(frozen=True) class EphemeralSource(Source): desc: Optional[str] = None @property def guard_source(self) -> GuardSource: return GuardSource.EPHEMERAL @functools.cached_property def _name_template(self) -> str: desc = ": " + self.desc if self.desc is not None else "" return f"" def make_guard(self, fn: Callable[..., Any]) -> Guard: raise NotImplementedError def is_ephemeral(self) -> bool: return True @dataclass_with_cached_hash(frozen=True) class SkipGuardSource(ChainedSource): def reconstruct(self, codegen: "PyCodegen") -> None: self.base.reconstruct(codegen) @property def _name_template(self) -> str: return "{0}" class TensorProperty(enum.Enum): SIZE = 0 STRIDE = 1 STORAGE_OFFSET = 2 def method_name(self) -> str: if self is TensorProperty.SIZE: return "size" elif self is TensorProperty.STRIDE: return "stride" elif self is TensorProperty.STORAGE_OFFSET: return "storage_offset" else: raise AssertionError(f"unhandled {_esc_str(self)}") @dataclass_with_cached_hash(frozen=True) class TensorPropertySource(ChainedSource): prop: TensorProperty idx: Optional[int] = None # None for STORAGE_OFFSET def __post_init__(self) -> None: assert self.base is not None if self.prop is TensorProperty.STORAGE_OFFSET: assert self.idx is None else: assert self.idx is not None def reconstruct(self, codegen: "PyCodegen") -> None: codegen.add_push_null( lambda: codegen.load_import_from( utils.__name__, f"call_{_esc_str(self.prop.method_name())}" ) ) codegen(self.base) if self.idx is not None: codegen.append_output(codegen.create_load_const(self.idx)) codegen.extend_output( create_call_function(2 if self.idx is not None else 1, False) ) @functools.cached_property def _name_template(self) -> str: if self.prop is TensorProperty.SIZE: return f"{{0}}.size()[{_esc_str(self.idx)}]" elif self.prop is TensorProperty.STRIDE: return f"{{0}}.stride()[{_esc_str(self.idx)}]" elif self.prop is TensorProperty.STORAGE_OFFSET: assert self.idx is None return "{0}.storage_offset()" else: raise AssertionError(f"unhandled {_esc_str(self.prop)}") @dataclass_with_cached_hash(frozen=True) class IndexedSource(ChainedSource): idx: int def __post_init__(self) -> None: assert self.base is not None def reconstruct(self, codegen: "PyCodegen") -> None: raise NotImplementedError @functools.cached_property def _name_template(self) -> str: return f"({_esc_str(self.idx)}, {{0}})" @dataclass_with_cached_hash(frozen=True) class NegateSource(ChainedSource): def __post_init__(self) -> None: assert self.base is not None def reconstruct(self, codegen: "PyCodegen") -> None: raise NotImplementedError @property def _name_template(self) -> str: # NB: use method call so that function stripping regexes work return "{0}.__neg__()" @dataclass_with_cached_hash(frozen=True) class ConvertIntSource(ChainedSource): def __post_init__(self) -> None: assert self.base is not None def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) @property def _name_template(self) -> str: return "cast_symbool_to_symint_guardless({0})" @dataclass_with_cached_hash(frozen=True) class DynamicScalarSource(ChainedSource): is_int: bool def __post_init__(self) -> None: assert self.base is not None def reconstruct(self, codegen: "PyCodegen") -> None: # Integer casting at reconstruction helps reduce the amount of DynamicInts returned # to the user, in favor of plain ints. # For example, a compiled region that only does int arithmetic could return a # DynamicInt without the casting here. codegen.add_push_null(lambda: codegen.load_import_from("builtins", "int")) codegen(self.base) codegen.extend_output(create_call_function(1, False)) @property def _name_template(self) -> str: return "int({0})" @dataclass_with_cached_hash(frozen=True) class FlattenScriptObjectSource(ChainedSource): def __post_init__(self) -> None: assert self.base is not None def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) @property def _name_template(self) -> str: return "{0}.__obj_flatten__()" @dataclass_with_cached_hash(frozen=True) class ScriptObjectQualifiedNameSource(ChainedSource): def __post_init__(self) -> None: assert self.base is not None def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) @property def _name_template(self) -> str: return "{0}._type().qualified_name()" class AttrProxySource(ChainedSource): def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) @property def _name_template(self) -> str: return "{0}.get_base()" @dataclass_with_cached_hash(frozen=True) class DefaultsSource(ChainedSource): idx_key: Union[int, str] is_kw: bool = False field: str = dataclasses.field(init=False, repr=False, compare=False) _name: str = dataclasses.field(init=False, repr=False, compare=False) def __post_init__(self) -> None: assert self.base, ( "Base must be a valid source in order to properly track and guard this Defaults to its origin." ) if self.is_kw: assert isinstance(self.idx_key, str) object.__setattr__(self, "field", "__kwdefaults__") object.__setattr__( self, "_name", f"{{0}}.{_esc_str(self.field)}['{_esc_str(self.idx_key)}']", ) else: assert isinstance(self.idx_key, int) object.__setattr__(self, "field", "__defaults__") object.__setattr__( self, "_name", f"{{0}}.{_esc_str(self.field)}[{_esc_str(self.idx_key)}]" ) def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) codegen.extend_output(codegen.create_load_attrs(self.field)) codegen.append_output(codegen.create_load_const(self.idx_key)) codegen.append_output(create_binary_subscr()) @functools.cached_property def _name_template(self) -> str: return self._name @dataclass_with_cached_hash(frozen=True) class GetItemSource(ChainedSource): index: Any index_is_slice: bool = False def __post_init__(self) -> None: assert self.base is not None if isinstance(self.index, slice): # store the hashable version of the slice so the whole GetItemSource is hashable super().__setattr__("index", self.index.__reduce__()) super().__setattr__("index_is_slice", True) def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) if self.index_is_slice: codegen.append_output(codegen.create_load_const(self.unpack_slice())) else: codegen.append_output(codegen.create_load_const(self.index)) codegen.append_output(create_binary_subscr()) def unpack_slice(self) -> slice: assert self.index_is_slice slice_class, slice_args = self.index return slice_class(*slice_args) @functools.cached_property def _name_template(self) -> str: # Index can be of following types # 1) index is a slice - example 1:4 # 2) index is a constant - example string, integer assert not isinstance(self.index, Source) if self.index_is_slice: return f"{{0}}[{_esc_str(self.unpack_slice(), apply_repr=True)}]" else: return f"{{0}}[{_esc_str(self.index, apply_repr=True)}]" @dataclass_with_cached_hash(frozen=True) class ConstDictKeySource(ChainedSource): index: Any def reconstruct(self, codegen: "PyCodegen") -> None: codegen.add_push_null( lambda: codegen.load_import_from(utils.__name__, "dict_keys_getitem") ) codegen(self.base) codegen.append_output(codegen.create_load_const(self.index)) codegen.extend_output(create_call_function(2, False)) @functools.cached_property def _name_template(self) -> str: # The list creation will be CSE'd by PyExprCSEPass return f"list(dict.keys({{0}}))[{_esc_str(self.index, apply_repr=True)}]" def is_dict_key(self) -> bool: return True @dataclass_with_cached_hash(frozen=True) class NonSerializableSetGetItemSource(ChainedSource): index: int def __post_init__(self) -> None: from .variables import ConstantVariable assert ConstantVariable.is_literal(self.index) def reconstruct(self, codegen: "PyCodegen") -> None: codegen.add_push_null( lambda: codegen.load_import_from(utils.__name__, "set_getitem") ) codegen(self.base) codegen.append_output(codegen.create_load_const(self.index)) codegen.extend_output(create_call_function(2, False)) @functools.cached_property def _name_template(self) -> str: # set ordering might not be stable return f"list({{0}})[{_esc_str(self.index, apply_repr=True)}]" def is_dict_key(self) -> bool: return False # Used to access an item from the dictionary @dataclass_with_cached_hash(frozen=True) class DictGetItemSource(ChainedSource): # Key to access in the dictionary. It can be one of the following types # 1) ConstDictKeySource # 2) constant - like string, integer index: Any def __post_init__(self) -> None: from .variables import ConstantVariable assert isinstance( self.index, ConstDictKeySource ) or ConstantVariable.is_literal(self.index) def reconstruct(self, codegen: "PyCodegen") -> None: # Load dict codegen(self.base) # Load key if isinstance(self.index, Source): codegen(self.index) else: codegen.append_output(codegen.create_load_const(self.index)) codegen.append_output(create_binary_subscr()) @functools.cached_property def _name_template(self) -> str: if isinstance(self.index, ConstDictKeySource): return f"{{0}}[{_esc_str(self.index.name)}]" else: return f"{{0}}[{_esc_str(self.index, apply_repr=True)}]" # Same as DictGetItemSource but used for dict.__getitem__ calls to ensure that # torch.compile does not run the overridden __getitem__ method @dataclass_with_cached_hash(frozen=True) class DictSubclassGetItemSource(ChainedSource): # Key to access in the dictionary. It can be one of the following types # 1) ConstDictKeySource # 2) constant - like string, integer index: Any def __post_init__(self) -> None: from .variables import ConstantVariable assert isinstance( self.index, ConstDictKeySource ) or ConstantVariable.is_literal(self.index) def reconstruct(self, codegen: "PyCodegen") -> None: # reconstruct dict.__getitem__(dct, key) # Load dict.__getitem__ codegen.add_push_null( lambda: codegen.load_import_from(utils.__name__, "dict_getitem") ) # Load dict codegen(self.base) # Load key if isinstance(self.index, Source): codegen(self.index) else: codegen.append_output(codegen.create_load_const(self.index)) codegen.extend_output(create_call_function(2, False)) @functools.cached_property def _name_template(self) -> str: if isinstance(self.index, ConstDictKeySource): return f"dict.__getitem__({{0}}, {_esc_str(self.index.name)})" else: return f"{{0}}[{_esc_str(self.index, apply_repr=True)}]" @dataclass_with_cached_hash(frozen=True) class ListGetItemSource(GetItemSource): """ Same as GetItemSource with reconstruct and name overridden to be list specific. """ def reconstruct(self, codegen: "PyCodegen") -> None: # Reconstruct list.__getitem__(lst, index) to avoid any side effects # from possibly overridden __getitem__. # Load list.__getitem__ codegen.add_push_null( lambda: codegen.load_import_from(utils.__name__, "list_getitem") ) # Load the list codegen(self.base) # Load the index if self.index_is_slice: raise RuntimeError( "List[slice] is a temporary object and should not have a source" ) else: codegen.append_output(codegen.create_load_const(self.index)) codegen.extend_output(create_call_function(2, False)) @functools.cached_property def _name_template(self) -> str: # Index can be of following types # 1) index is a slice - example 1:4 # 2) index is a constant - example string, integer assert not isinstance(self.index, Source) if self.index_is_slice: raise RuntimeError( "List[slice] is a temporary object and should not have a source" ) else: return f"list.__getitem__({{0}}, {_esc_str(self.index, apply_repr=True)})" @dataclass_with_cached_hash(frozen=True) class TupleIteratorGetItemSource(GetItemSource): def reconstruct(self, codegen: "PyCodegen") -> None: codegen.add_push_null( lambda: codegen.load_import_from(utils.__name__, "tuple_iterator_getitem") ) codegen(self.base) codegen.append_output(codegen.create_load_const(self.index)) codegen.extend_output(create_call_function(2, False)) @functools.cached_property def _name_template(self) -> str: return ( f"___tuple_iterator_getitem({{0}}, {_esc_str(self.index, apply_repr=True)})" ) @dataclass_with_cached_hash(frozen=True) class NamedTupleFieldsSource(ChainedSource): def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) codegen.extend_output(codegen.create_load_attrs("_fields")) @property def _name_template(self) -> str: return "___namedtuple_fields({0})" @dataclass_with_cached_hash(frozen=True) class DataclassFieldsSource(ChainedSource): def reconstruct(self, codegen: "PyCodegen") -> None: codegen.add_push_null( lambda: codegen.load_import_from(utils.__name__, "dataclass_fields") ) codegen(self.base) codegen.extend_output(create_call_function(1, False)) @property def _name_template(self) -> str: return "___dataclass_fields({0})" @dataclass_with_cached_hash(frozen=True) class TypeSource(ChainedSource): def __post_init__(self) -> None: assert self.base is not None def reconstruct(self, codegen: "PyCodegen") -> None: codegen.add_push_null(lambda: codegen.load_import_from("builtins", "type")) codegen(self.base) codegen.extend_output(create_call_function(1, False)) @property def _name_template(self) -> str: return "type({0})" @dataclass_with_cached_hash(frozen=True) class OptimizerSource(ChainedSource): def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) @property def _name_template(self) -> str: return "{0}" @dataclass_with_cached_hash(frozen=True) class NNModuleSource(ChainedSource): def reconstruct(self, codegen: "PyCodegen") -> None: codegen(self.base) @functools.cached_property def guard_source(self) -> GuardSource: return _GUARD_SOURCE_SPECIALIZED_NN_MODULE[self.base.guard_source] @property def _name_template(self) -> str: return "{0}" @dataclass_with_cached_hash(frozen=True) class UnspecializedNNModuleSource(NNModuleSource): @functools.cached_property def guard_source(self) -> GuardSource: return _GUARD_SOURCE_UNSPECIALIZED_NN_MODULE[self.base.guard_source] @dataclass_with_cached_hash(frozen=True) class UnspecializedBuiltinNNModuleSource(UnspecializedNNModuleSource): @functools.cached_property def guard_source(self) -> GuardSource: return _GUARD_SOURCE_UNSPECIALIZED_BUILTIN_NN_MODULE[self.base.guard_source] @dataclass_with_cached_hash(frozen=True) class FSDPNNModuleSource(NNModuleSource): @functools.cached_property def guard_source(self) -> GuardSource: return _GUARD_SOURCE_FSDP_MODULE[self.base.guard_source] @dataclass_with_cached_hash(frozen=True) class GlobalStateSource(Source): @property def _name_template(self) -> str: return "" @property def guard_source(self) -> GuardSource: return GuardSource.GLOBAL @dataclass_with_cached_hash(frozen=True) class TorchSource(Source): """Points to the actual `torch` module - used instead of GlobalSource in case the user has overridden `torch` in their local namespace""" def __init__(self, *args: Any, **kwargs: Any) -> None: super().__init__(*args, **kwargs) from .guards import GuardBuilder, install_guard install_guard(self.make_guard(GuardBuilder.ID_MATCH)) @property def _name_template(self) -> str: return "__import__('torch')" def reconstruct(self, codegen: "PyCodegen") -> None: codegen.extend_output( [ codegen.create_load_const(0), # level create_build_tuple(0), # fromlist codegen.create_import_name("torch"), ] ) @property def guard_source(self) -> GuardSource: return GuardSource.GLOBAL @dataclass_with_cached_hash(frozen=True) class CollectionsSource(Source): """Points to the actual `collections` module - used instead of GlobalSource in case the user has overridden `collections` in their local namespace""" def __init__(self, *args: Any, **kwargs: Any) -> None: super().__init__(*args, **kwargs) from .guards import GuardBuilder, install_guard install_guard(self.make_guard(GuardBuilder.ID_MATCH)) @property def _name_template(self) -> str: return "__import__('collections')" def reconstruct(self, codegen: "PyCodegen") -> None: codegen.extend_output( [ codegen.create_load_const(0), # level create_build_tuple(0), # fromlist codegen.create_import_name("collections"), ] ) @property def guard_source(self) -> GuardSource: return GuardSource.GLOBAL @dataclass_with_cached_hash(frozen=True) class TorchFunctionModeStackSource(Source): ind: int @functools.cached_property def _name_template(self) -> str: return f"___get_torch_function_mode_stack_at({_esc_str(self._get_index())})" def _get_index(self) -> int: from .variables.torch_function import TorchFunctionModeStackVariable return TorchFunctionModeStackVariable.get_mode_index(self.ind) def reconstruct(self, codegen: "PyCodegen") -> None: codegen.add_push_null( lambda: codegen.load_import_from( utils.__name__, "get_torch_function_mode_stack_at" ) ) codegen.extend_output([codegen.create_load_const(self._get_index())]) codegen.extend_output(create_call_function(1, False)) @property def guard_source(self) -> GuardSource: return GuardSource.GLOBAL @dataclass_with_cached_hash(frozen=True) class ConstantSource(Source): source_name: str def reconstruct(self, codegen: "PyCodegen") -> None: codegen.append_output(codegen.create_load_global(self.source_name, add=False)) @property def guard_source(self) -> GuardSource: return GuardSource.CONSTANT @functools.cached_property def _name_template(self) -> str: return self.source_name def make_guard(self, fn: Any) -> Any: raise NotImplementedError @dataclass_with_cached_hash(frozen=True) class NumpyTensorSource(ChainedSource): @property def _name_template(self) -> str: return "___from_numpy({0})" def reconstruct(self, codegen: "PyCodegen") -> None: codegen.add_push_null(lambda: codegen.load_import_from("torch", "as_tensor")) codegen(self.base) codegen.extend_output(create_call_function(1, False)) @dataclass_with_cached_hash(frozen=True) class SubclassAttrListSource(ChainedSource): @property def _name_template(self) -> str: return "{0}.__tensor_flatten__()[0]" # NB: We don't expect you to actually ever generate guards against this # source, it is ephemeral @dataclass_with_cached_hash(frozen=True) class FloatTensorSource(ChainedSource): @property def _name_template(self) -> str: return "___as_tensor({0})" @dataclass_with_cached_hash(frozen=True) class CallMethodItemSource(ChainedSource): @property def _name_template(self) -> str: return "{0}.item()" # This is a synthetic source that is associated with the singleton # shape env guard we always register for all frames. We get the actual # guard contents from the ambient ShapeEnv @dataclass_with_cached_hash(frozen=True) class ShapeEnvSource(Source): @property def _name_template(self) -> str: return "" @property def guard_source(self) -> GuardSource: return GuardSource.SHAPE_ENV @dataclass_with_cached_hash(frozen=True) class CurrentStreamSource(Source): device: device_type @functools.cached_property def _name_template(self) -> str: return f"___get_current_stream(torch.device('{_esc_str(self.device.type)}', {_esc_str(self.device.index)}))" def reconstruct(self, codegen: "PyCodegen") -> None: num_args = 1 codegen.add_push_null( lambda: codegen.load_import_from(utils.__name__, "get_current_stream") ) codegen.add_push_null(lambda: codegen.load_import_from("torch", "device")) codegen.extend_output([codegen.create_load_const(self.device.type)]) if self.device.index is not None: num_args += 1 codegen.extend_output([codegen.create_load_const(self.device.index)]) codegen.extend_output(create_call_function(num_args, False)) codegen.extend_output(create_call_function(1, False)) @property def guard_source(self) -> GuardSource: return GuardSource.GLOBAL @dataclass_with_cached_hash(frozen=True) class BackwardStateSource(Source): @property def _name_template(self) -> str: return "" @property def guard_source(self) -> GuardSource: return GuardSource.BACKWARD_STATE def get_local_source_name( source: Source, *, only_allow_input: bool = False ) -> Optional[str]: if isinstance(source, ChainedSource): return get_local_source_name(source.base, only_allow_input=only_allow_input) if not isinstance(source, LocalSource): return None if only_allow_input and not source.is_input: return None return source.local_name def is_from_local_source(source: Source, *, only_allow_input: bool = False) -> bool: return get_local_source_name(source, only_allow_input=only_allow_input) is not None def is_from_global_source(source: Source) -> bool: return get_global_source_name(source) is not None def get_global_source_name(source: Source) -> Optional[str]: if isinstance(source, ChainedSource): return get_global_source_name(source.base) if not isinstance(source, GlobalSource): return None return source.global_name def is_from_nonlocal_source(source: Source) -> bool: if isinstance(source, ChainedSource): return is_from_nonlocal_source(source.base) return ( isinstance(source, LocalSource) and source.is_derefed_cell_contents and not source.is_input ) def is_from_closure_source(source: Source) -> bool: if isinstance(source, ClosureSource): return True if isinstance(source, ChainedSource): return is_from_closure_source(source.base) return False def is_from_source(source: Source, target: Source) -> bool: if isinstance(source, ChainedSource): return is_from_source(source.base, target) return source == target @functools.lru_cache def is_from_unspecialized_nn_module_source(source: Source) -> bool: if isinstance(source, UnspecializedNNModuleSource): return True if isinstance(source, ChainedSource): return is_from_unspecialized_nn_module_source(source.base) return False @functools.lru_cache def is_from_unspecialized_builtin_nn_module_source(source: Source) -> bool: if isinstance(source, UnspecializedBuiltinNNModuleSource): return True if isinstance(source, ChainedSource): return is_from_unspecialized_builtin_nn_module_source(source.base) return False @functools.lru_cache def is_from_unspecialized_param_buffer_source(source: Source) -> bool: if isinstance(source, UnspecializedParamBufferSource): return True if isinstance(source, ChainedSource): return is_from_unspecialized_param_buffer_source(source.base) return False @functools.lru_cache def is_from_flatten_script_object_source(source: Source) -> bool: if isinstance(source, FlattenScriptObjectSource): return True elif isinstance(source, ChainedSource): return is_from_flatten_script_object_source(source.base) return False @functools.lru_cache def is_from_optimizer_source(source: Source) -> bool: if isinstance(source, OptimizerSource): return True if isinstance(source, ChainedSource): return is_from_optimizer_source(source.base) return False # TODO: can probably write a generic "test this on everything in the chain" # helper @functools.lru_cache def is_from_defaults(source: Source) -> bool: if isinstance(source, DefaultsSource): return True # Accessed with func.__kwdefaults__["foo"] if ( isinstance(source, DictGetItemSource) and isinstance(source.base, AttrSource) and source.base.member == "__kwdefaults__" ): return True # Accessed with func.__defaults__[0] if ( isinstance(source, GetItemSource) and isinstance(source.base, AttrSource) and source.base.member == "__defaults__" ): return True if isinstance(source, ChainedSource): return is_from_defaults(source.base) return False @functools.lru_cache def is_from_skip_guard_source(source: Source) -> bool: if isinstance(source, SkipGuardSource): return True if isinstance(source, ChainedSource): return is_from_skip_guard_source(source.base) return False