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pytorch/torch/_dynamo/convert_frame.py
James Wu b2fc9cfea1 [precompile] Add CompilePackage to serialize dynamo states. (#155118) 
Adding a per torch.compile() object CompilePackage which tracks dynamo artifact. CompilePackage is considered a low level component and should not be directly exposed to end users. It has the following interface:

1. `CompilePackage.__init__()` which optionally takes previously serialized dynamo states.
     a. when `dynamo` argument is None, it will contruct a brand new CompilePackage object.
     b. when `dynamo` argument is not None, it will load a pre-compiled dynamo state.
2. `package.save()` which dumps the dynamo states into _DynamoCacheEntry.
3. `package.install(backends)` which will handle all the side-effectful global scope updates with compiled functions and resume functions.

This diff focus on making the low level mechanism for precompile. It will be left to upper level interface to use these API to build more user-facing frontend.

Differential Revision: [D75956538](https://our.internmc.facebook.com/intern/diff/D75956538/)

Pull Request resolved: https://github.com/pytorch/pytorch/pull/155118
Approved by: https://github.com/jamesjwu

Co-authored-by: James Wu <jjwu@meta.com>
2025-06-13 13:54:10 +00:00

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# mypy: allow-untyped-decorators
"""
This module implements TorchDynamo's core frame conversion functionality, transforming Python
frames into FX graphs. It handles:
- Frame analysis and bytecode transformation
- Guard creation and management for dynamic behaviors
- Cache management for recompilation
- Error handling and fallback mechanisms
Key classes:
- ConvertFrame: Main entry point for frame conversion with error handling
- ConvertFrameAssert: Implements core frame to graph conversion logic
- Tracker: Tracks input/output code objects during conversion
- CatchErrorsWrapper: Provides error handling and suppression logic
The conversion process preserves program semantics while enabling optimizations
through torch.compile() and related systems.
"""
from __future__ import annotations
import collections
import contextlib
import cProfile
import dis
import functools
import gc
import itertools
import logging
import os
import pstats
import random
import subprocess
import sys
import threading
import time
import traceback
import typing
import weakref
from pathlib import Path
from types import CellType, CodeType, FunctionType, ModuleType
from typing import Any, Callable, Optional, TypeVar, Union
from typing_extensions import ParamSpec
from weakref import ReferenceType
import torch
import torch._logging
from torch._C._dynamo.guards import GlobalStateGuard
from torch._dynamo.callback import CallbackTrigger
from torch._dynamo.distributed import get_compile_pg
from torch._dynamo.symbolic_convert import TensorifyState
from torch._guards import compile_context, CompileContext, CompileId, tracing
from torch._logging import structured
from torch._utils_internal import (
compile_time_strobelight_meta,
justknobs_check,
maybe_upload_prof_stats_to_manifold,
signpost_event,
)
from torch.fx._lazy_graph_module import _use_lazy_graph_module
from torch.fx.experimental.symbolic_shapes import (
ConstraintViolationError,
GuardOnDataDependentSymNode,
)
from torch.fx.graph_module import _forward_from_src as original_forward_from_src
from torch.monitor import _WaitCounter
from torch.nn.parallel.distributed import DistributedDataParallel
from torch.utils._python_dispatch import (
_disable_current_modes,
is_in_torch_dispatch_mode,
)
from torch.utils._traceback import CapturedTraceback, format_traceback_short
from . import config, decorators, exc, graph_break_hints, trace_rules
from .bytecode_analysis import remove_dead_code, remove_pointless_jumps
from .bytecode_transformation import (
check_inst_exn_tab_entries_valid,
Instruction,
is_generator,
propagate_inst_exn_table_entries,
transform_code_object,
)
from .cache_size import (
CacheSizeRelevantForFrame,
compute_cache_size,
exceeds_recompile_limit,
is_recompilation,
)
from .eval_frame import (
always_optimize_code_objects,
dynamo_tls,
skip_code,
TorchPatcher,
)
from .exc import (
augment_exc_message,
BackendCompilerFailed,
FailOnRecompileLimitHit,
format_error_msg,
InternalTorchDynamoError,
PackageError,
RecompileLimitExceeded,
ShortenTraceback,
SkipCodeRecursiveException,
TorchRuntimeError,
UncapturedHigherOrderOpError,
unimplemented_v2,
Unsupported,
)
from .guards import (
CheckFunctionManager,
get_and_maybe_log_recompilation_reasons,
GuardedCode,
)
from .hooks import Hooks
from .pgo import put_code_state
from .replay_record import ExecutionRecord
from .resume_execution import TORCH_DYNAMO_RESUME_IN_PREFIX
from .symbolic_convert import (
DistributedState,
ExceptionStack,
InstructionTranslator,
LocalState,
SpeculationLog,
)
from .trace_rules import is_numpy
from .types import ConvertFrameReturn, FrameAction, FrameExecStrategy, wrap_guarded_code
from .utils import (
chromium_event_timed,
CleanupManager,
CompileTimeInstructionCounter,
counters,
dynamo_timed,
format_bytecode,
gen_record_file_name,
get_metrics_context,
increment_frame,
is_namedtuple,
istype,
LazyString,
maybe_disable_inference_mode,
maybe_disable_inference_mode_for_fake_prop,
orig_code_map,
reset_graph_break_dup_checker,
setup_compile_debug,
to_int_us,
troubleshooting_url,
write_record_to_file,
)
from .variables.torch_function import torch_function_mode_stack_state_mgr
np: Optional[ModuleType]
try:
import numpy as np
except ModuleNotFoundError:
np = None
if typing.TYPE_CHECKING:
from .backends.registry import CompilerFn
from .package import CompilePackage
from .repro.after_dynamo import WrapBackendDebug
from .types import BytecodeHook, CacheEntry, DynamoFrameType
from .variables.builder import FrameStateSizeEntry
log = logging.getLogger(__name__)
bytecode_log = torch._logging.getArtifactLogger(__name__, "bytecode")
graph_break_log = torch._logging.getArtifactLogger(__name__, "graph_breaks")
compile_lock = threading.RLock()
_T = TypeVar("_T")
_P = ParamSpec("_P")
class TODO_UNKNOWN:
pass
class Tracker:
def __init__(self) -> None:
self.seen: list[ReferenceType[CodeType]] = []
self.seen_ids: set[int] = set()
def add(self, strong_obj: CodeType) -> None:
idx = id(strong_obj)
if idx not in self.seen_ids:
obj = weakref.ref(strong_obj, lambda _: self.seen_ids.remove(idx))
self.seen.append(obj)
self.seen_ids.add(idx)
def __contains__(self, item: CodeType) -> bool:
return id(item) in self.seen_ids
def clear(self) -> None:
self.seen.clear()
self.seen_ids.clear()
input_codes = Tracker()
output_codes = Tracker()
initial_global_state: Optional[GlobalStateGuard] = None
@functools.wraps(original_forward_from_src)
def fx_forward_from_src_skip_result(
src: str, globals: dict[str, Any], co_fields: Optional[dict[str, str]] = None
) -> FunctionType:
# we monkey patch FX to prevent infinite loop of trying to convert
# our generated code
result = original_forward_from_src(src, globals, co_fields)
skip_code(result.__code__)
return result
def preserve_global_state(fn: Callable[_P, _T]) -> Callable[_P, _T]:
"""
Context manager to:
1) Save/restore torch.is_grad_enabled() state
2) Save/restore python random state
3) Save/restore torch random state
4) Monkey patch torch.fx.graph_module._forward_from_src
"""
@functools.wraps(fn)
def _fn(*args: _P.args, **kwargs: _P.kwargs) -> _T:
guards = GlobalStateGuard()
prior_grad_mode = torch.is_grad_enabled()
# Just in case we get left in a bad dispatch state we want to restore
# it. This can happen because the dispatch bits aren't a true
# stack/counter - so we can't just increment/decrement them as we enter
# and leave.
with (
torch._C._PreserveDispatchKeyGuard(),
maybe_disable_inference_mode(),
maybe_disable_inference_mode_for_fake_prop(),
):
prior_inference_mode = torch.is_inference_mode_enabled()
prior_deterministic = torch.are_deterministic_algorithms_enabled()
prior_warn_only = torch.is_deterministic_algorithms_warn_only_enabled()
prior_mobile_allocator_state = (
torch._C._is_default_mobile_cpu_allocator_set()
)
py_rng_state = random.getstate()
prior_dtype = torch.get_default_dtype()
torch_rng_state = torch.random.get_rng_state()
cuda_rng_state = None
if torch.cuda.is_available():
cuda_rng_state = torch.cuda.get_rng_state()
allow_tf32 = torch._C._get_cublas_allow_tf32()
prior_fwd_from_src = torch.fx.graph_module._forward_from_src
torch.fx.graph_module._forward_from_src = fx_forward_from_src_skip_result
cleanup = setup_compile_debug()
exit_stack = contextlib.ExitStack()
exit_stack.enter_context(
torch.fx._symbolic_trace._maybe_revert_all_patches()
)
exit_stack.enter_context(torch_function_mode_stack_state_mgr)
try:
return fn(*args, **kwargs)
finally:
cleanup.close()
assert torch._C._len_torch_function_stack() == 0, (
"Torch function mode stack state changed while dynamo tracing, please report a bug"
)
exit_stack.close()
torch._C._set_grad_enabled(prior_grad_mode)
torch.autograd.grad_mode._enter_inference_mode(prior_inference_mode)
torch.use_deterministic_algorithms(
prior_deterministic, warn_only=prior_warn_only
)
random.setstate(py_rng_state)
torch.random.set_rng_state(torch_rng_state)
torch.set_default_dtype(prior_dtype)
curr_mobile_allocator_state = (
torch._C._is_default_mobile_cpu_allocator_set()
)
if prior_mobile_allocator_state != curr_mobile_allocator_state:
torch._C._unset_default_mobile_cpu_allocator()
if cuda_rng_state is not None:
torch.cuda.set_rng_state(cuda_rng_state)
torch._C._set_cublas_allow_tf32(allow_tf32)
torch.fx.graph_module._forward_from_src = prior_fwd_from_src
assert guards.check(), (
f"Global {guards.reason()}state changed while dynamo tracing, please report a bug"
)
_fn._torchdynamo_orig_callable = fn # type: ignore[attr-defined]
return _fn
@TorchPatcher.suppress_torch_distributed_warnings
def has_tensor_in_frame(frame: DynamoFrameType) -> bool:
"""Check if the frame has torch.* related bits"""
# Check if the function was decorated using torch._dynamo.optimize
if frame.f_code in always_optimize_code_objects:
return True
# Check if there is global import of torch.*
for co_name in frame.f_code.co_names:
if co_name in frame.f_globals:
obj = frame.f_globals[co_name]
if isinstance(obj, ModuleType) and (
obj.__name__.startswith("torch.") or obj is torch
):
return True
# ... or a global import of numpy.*
if np and config.trace_numpy and (obj is np or is_numpy(obj)):
return True
seen_ids: dict[int, bool] = {}
def has_tensor(obj: object) -> bool:
"""Recursively check if the obj has a tensor"""
obj_id = id(obj)
if obj_id in seen_ids:
return seen_ids[obj_id]
seen_ids[obj_id] = False
if isinstance(obj, (torch.Tensor, torch.nn.Module)) or (
istype(obj, type) and issubclass(obj, torch.nn.Module)
):
seen_ids[obj_id] = True
return seen_ids[obj_id]
elif (
config.trace_numpy
and np
and (istype(obj, np.ndarray) or isinstance(obj, np.generic))
):
seen_ids[obj_id] = True
return seen_ids[obj_id]
elif istype(obj, (list, tuple)):
seen_ids[obj_id] = any(has_tensor(v) for v in obj)
return seen_ids[obj_id]
elif istype(obj, dict):
# Some packages like pytest can be updated during runtime. So, make a
# copy of values to avoid issues like "RuntimeError: dictionary
# changed size during iteration"
values = list(obj.values())
seen_ids[obj_id] = any(has_tensor(v) for v in values)
return seen_ids[obj_id]
elif istype(obj, (str, int, float, type(None), bool)):
seen_ids[obj_id] = False
return seen_ids[obj_id]
elif is_namedtuple(obj) and hasattr(obj, "_fields"):
seen_ids[obj_id] = any(has_tensor(getattr(obj, v)) for v in obj._fields)
return seen_ids[obj_id]
else:
# if config.debug:
# print(
# f"Assuming that object of type {type(obj)} does not have a tensor"
# )
return False
# Check if the passed arguments are of type Tensor
for value in frame.f_locals.values():
if has_tensor(value):
return True
log.debug(
"skipping because no torch.* %s \
%s %s",
frame.f_code.co_name,
frame.f_code.co_filename,
frame.f_code.co_firstlineno,
)
return False
def exception_handler(
e: Exception,
code: CodeType,
frame: Optional[DynamoFrameType] = None,
export: bool = False,
) -> None:
record_filename = None
if hasattr(e, "exec_record"):
record_filename = gen_record_file_name(e, code)
write_record_to_file(record_filename, e.exec_record)
e.record_filename = record_filename # type: ignore[attr-defined]
augment_exc_message(e, export=export)
FRAME_COUNTER = 0
FRAME_COMPILE_COUNTER: typing.Counter[Union[int, FrameStateSizeEntry]] = (
collections.Counter()
)
def maybe_cprofile(func: Callable[_P, _T]) -> Callable[_P, _T]:
if config.cprofile:
return cprofile_wrapper(func)
return func
def cprofile_wrapper(func: Callable[_P, _T]) -> Callable[_P, _T]:
@functools.wraps(func)
def profile_wrapper(*args: _P.args, **kwargs: _P.kwargs) -> _T:
trace_id = CompileContext.current_trace_id()
assert trace_id, "Trace id is None"
profile_path = Path(
f"/tmp/{func.__name__}_{str(trace_id).replace('/', '_')}.profile"
)
prof = cProfile.Profile()
try:
prof.enable()
start_ts = time.time()
retval = prof.runcall(func, *args, **kwargs)
profile_latency = time.time() - start_ts
prof.disable()
except ValueError:
log.exception("failed to enable cProfile")
profile_latency = 0
retval = func(*args, **kwargs)
log.warning(
"### Cprofile for %s trace id [%s] took %.3f seconds ###",
func.__name__,
trace_id,
profile_latency,
)
ps = pstats.Stats(prof)
try:
prof.dump_stats(profile_path)
except OSError:
log.exception("Cannot write to %s", profile_path)
log.warning("Raw profile at %s", profile_path)
svg_path = profile_path.with_suffix(".svg")
try:
gprof2dot_process = subprocess.Popen(
[
"gprof2dot",
"-f",
"pstats",
"--node-label=total-time-percentage",
"--node-label=self-time-percentage",
"--node-label=total-time",
str(profile_path),
],
stdout=subprocess.PIPE,
)
subprocess.check_call(
["dot", "-Tsvg", "-o", str(svg_path)],
stdin=gprof2dot_process.stdout,
)
log.warning("Generated SVG from profile at %s", svg_path)
except FileNotFoundError:
log.warning(
"Failed to generate SVG from profile -- dumping stats instead."
"Try installing gprof2dot and dot for a better visualization"
)
ps.sort_stats(pstats.SortKey.TIME).print_stats(20)
ps.sort_stats(pstats.SortKey.CUMULATIVE).print_stats(20)
if manifold_link := maybe_upload_prof_stats_to_manifold(
str(profile_path)
): # fb-only
torch._logging.trace_structured(
"link",
lambda: {"name": "cprofile_manifold_url", "url": manifold_link},
)
return retval
return profile_wrapper
class ConvertFrameAssert:
def __init__(
self,
compiler_fn: CompilerFn,
one_graph: bool = True,
export: bool = False,
export_constraints: Optional[typing.Never] = None,
package: Optional[CompilePackage] = None,
) -> None:
# assert export_constraints is None
reset_graph_break_dup_checker()
self._torchdynamo_orig_callable = compiler_fn
self._one_graph = one_graph
self._export = export
self._export_constraints = export_constraints
self._package = package
@property
def _clone_with_backend(self) -> Callable[[CompilerFn], ConvertFrameAssert]:
return lambda backend: convert_frame_assert(
backend,
self._one_graph,
self._export,
self._export_constraints,
)
def __call__(
self,
frame: DynamoFrameType,
cache_entry: Optional[CacheEntry],
hooks: Hooks,
frame_state: dict[str, Union[int, FrameStateSizeEntry]],
*,
skip: int = 0,
) -> ConvertFrameReturn:
increment_frame()
code = frame.f_code
cache_size = compute_cache_size(frame, cache_entry)
input_codes.add(code)
if code in output_codes:
return ConvertFrameReturn()
if (
os.environ.get("TORCHDYNAMO_DEBUG_FUNCTION")
and os.environ.get("TORCHDYNAMO_DEBUG_FUNCTION") != code.co_name
):
return ConvertFrameReturn()
if code.co_name == "<genexpr>" and code.co_filename.endswith(
(
"transformers/file_utils.py",
"transformers/utils/generic.py",
"diffusers/utils/outputs.py",
)
):
# not needed, but cleans up torchbench error stats
return ConvertFrameReturn()
if code.co_name == "__setattr__":
# setattr could be tricky to handle generally,
# but also not likely useful to compile- skip the whole frame
return ConvertFrameReturn()
if code.co_name == "__init__" and code.co_filename.startswith(
os.path.dirname(torch.optim.__file__)
):
# optimizer support is still incomplete see
# test_state_dict in test/dynamo/test_optimizers.py
return ConvertFrameReturn()
# Check if the frame is generated by an exec builtin call
# TODO - Running exec generated frame seems propagates f_globals to the
# next frames.
if code.co_name == "<module>" and code.co_filename == "<string>":
return ConvertFrameReturn()
if (
code.co_name == "<lambda>"
and code.co_filename == "<string>"
and not bool(frame.f_builtins)
):
# namedtuple subclass constructor. Empty builtins cause issue with
# len keyword in LIST_LEN guard.
return ConvertFrameReturn()
if is_generator(code):
unimplemented_v2(
gb_type="Attempt to trace generator",
context="",
explanation="Generators cannot be compiled directly with `torch.compile`.",
hints=[
"Call a generator from inside of a non-generator Python function and "
"compile that function instead.",
*graph_break_hints.FUNDAMENTAL,
],
)
if not has_tensor_in_frame(frame):
return ConvertFrameReturn()
# skip tracing non-recursive disabled functions
# detect if the previous frame (non-convert_frame) is a non-recursive disable wrapper
prev_frame = sys._getframe()
while (
prev_frame
and "torch/_dynamo/convert_frame.py" in prev_frame.f_code.co_filename
):
prev_frame = prev_frame.f_back # type: ignore[assignment]
if (
prev_frame
and prev_frame.f_code is decorators._nonrecursive_disable_wrapper_code
):
return ConvertFrameReturn(apply_to_code=False)
global initial_global_state
initial_global_state = GlobalStateGuard()
global FRAME_COUNTER
if "_id" not in frame_state:
frame_state["_id"] = FRAME_COUNTER
FRAME_COUNTER += 1
frame_id = frame_state["_id"]
assert isinstance(frame_id, int)
frame_compile_id = FRAME_COMPILE_COUNTER[frame_id]
FRAME_COMPILE_COUNTER[frame_id] += 1
compiled_autograd_id = None
if prior := CompileContext.current_compile_id():
compiled_autograd_id = prior.compiled_autograd_id
compile_id = CompileId(
compiled_autograd_id=compiled_autograd_id,
frame_id=frame_id,
frame_compile_id=frame_compile_id,
)
signpost_event(
"dynamo",
"_convert_frame_assert._compile",
{
"co_name": code.co_name,
"frame_id": frame_id,
"compile_id": str(compile_id),
"co_filename": code.co_filename,
"co_firstlineno": code.co_firstlineno,
"cache_size": cache_size.num_cache_entries_with_same_id_matched_objs,
"accumulated_cache_size": cache_size.num_cache_entries,
},
)
# Record traced frames, skipping Dynamo generated ones.
if not code.co_name.startswith(TORCH_DYNAMO_RESUME_IN_PREFIX):
info = f"{code.co_name} {code.co_filename}:{code.co_firstlineno}"
dynamo_tls.traced_frame_infos.append(info)
with compile_context(CompileContext(compile_id)):
return _compile(
frame.f_code,
frame.f_globals,
frame.f_locals,
frame.f_builtins,
frame.closure,
self._torchdynamo_orig_callable,
self._one_graph,
self._export,
self._export_constraints,
hooks,
cache_entry,
cache_size,
frame,
frame_state=frame_state,
compile_id=compile_id,
skip=skip + 1,
package=self._package,
)
def convert_frame_assert(
compiler_fn: CompilerFn,
one_graph: bool = True,
export: bool = False,
export_constraints: Optional[typing.Never] = None,
package: Optional[CompilePackage] = None,
) -> ConvertFrameAssert:
"""Fully convert a frame into an FX graph"""
return ConvertFrameAssert(
compiler_fn, one_graph, export, export_constraints, package
)
from collections import OrderedDict
from torch.utils.hooks import RemovableHandle
if typing.TYPE_CHECKING:
from .output_graph import OutputGraph
# we have to use `OrderedDict` to make `RemovableHandle` work.
_bytecode_hooks: dict[int, BytecodeHook] = OrderedDict()
def register_bytecode_hook(hook: BytecodeHook) -> RemovableHandle:
"""Register hooks for bytecode generated by Dynamo. The hook can do some
logging, as well as return a new code object to be used. Please refer
to `BytecodeHook` for the hook signature.
"""
handle = RemovableHandle(_bytecode_hooks)
_bytecode_hooks[handle.id] = hook
return handle
def _compile(
code: CodeType,
globals: dict[str, object],
locals: dict[str, object],
builtins: dict[str, object],
closure: tuple[CellType],
compiler_fn: CompilerFn,
one_graph: bool,
export: bool,
export_constraints: Optional[typing.Never],
hooks: Hooks,
cache_entry: Optional[CacheEntry],
cache_size: CacheSizeRelevantForFrame,
frame: Optional[DynamoFrameType] = None,
frame_state: Optional[dict[str, Union[int, FrameStateSizeEntry]]] = None,
*,
compile_id: CompileId,
skip: int = 0,
package: Optional[CompilePackage] = None,
) -> ConvertFrameReturn:
from torch.fx.experimental.validator import (
bisect,
BisectValidationException,
translation_validation_enabled,
ValidationException,
)
# Only nonlocal defs here please!
# Time spent compiling this frame before restarting or failing analysis
dynamo_time_before_restart: float = 0.0
output: Optional[OutputGraph] = None
tracer: Optional[InstructionTranslator] = None
tf_mode_stack: list[torch.overrides.TorchFunctionMode] = (
torch.overrides._get_current_function_mode_stack()
)
@preserve_global_state
def transform(
instructions: list[Instruction], code_options: dict[str, object]
) -> None:
nonlocal output
nonlocal tracer
speculation_log.restart() # type: ignore[has-type]
exn_vt_stack = ExceptionStack()
tracer = InstructionTranslator(
instructions,
code,
locals,
globals,
builtins,
closure,
tf_mode_stack,
code_options,
compiler_fn,
one_graph,
export,
export_constraints,
frame_state=frame_state,
speculation_log=speculation_log, # type: ignore[has-type]
exn_vt_stack=exn_vt_stack,
distributed_state=distributed_state, # type: ignore[has-type]
package=package,
)
try:
tracer.output.mark_bytecode_tracing_start()
with tracing(tracer.output.tracing_context), tracer.set_current_tx():
tracer.run()
except exc.UnspecializeRestartAnalysis:
speculation_log.clear() # type: ignore[has-type]
raise
except (
exc.SpeculationRestartAnalysis,
exc.TensorifyScalarRestartAnalysis,
exc.SkipFrame,
):
raise
except Exception:
if translation_validation_enabled():
bisect(tracer.output.shape_env)
raise
finally:
tracer.output.call_cleanup_hooks()
output = tracer.output
assert output is not None
assert output.output_instructions
instructions[:] = output.output_instructions
code_options.update(output.code_options)
propagate_inst_exn_table_entries(instructions)
check_inst_exn_tab_entries_valid(instructions)
instructions[:] = remove_pointless_jumps(remove_dead_code(instructions))
@compile_time_strobelight_meta(phase_name="compile_inner")
def compile_inner(
code: CodeType,
one_graph: bool,
hooks: Hooks,
transform: Callable[[list[Instruction], dict[str, Any]], Any],
) -> ConvertFrameReturn:
with contextlib.ExitStack() as stack:
stack.enter_context(
torch._dynamo.callback_handler.install_callbacks(
CallbackTrigger.DYNAMO, str(CompileContext.current_compile_id())
)
)
stack.enter_context(CompileTimeInstructionCounter.record())
return _compile_inner(code, one_graph, hooks, transform)
return (
ConvertFrameReturn()
) # dead, but see https://github.com/python/mypy/issues/7577
@maybe_cprofile
def _compile_inner(
code: CodeType,
one_graph: bool,
hooks: Hooks,
transform: Callable[[list[Instruction], dict[str, Any]], Any],
) -> ConvertFrameReturn:
nonlocal dynamo_time_before_restart
last_attempt_start_time = start_time = time.time()
def log_bytecode(
prefix: str, name: str, filename: str, line_no: int, code: CodeType
) -> None:
if bytecode_log.isEnabledFor(logging.DEBUG):
bytecode_log.debug(
format_bytecode(prefix, name, filename, line_no, code)
)
log_bytecode(
"ORIGINAL BYTECODE",
code.co_name,
code.co_filename,
code.co_firstlineno,
code,
)
out_code = None
for attempt in itertools.count():
CompileContext.get().attempt = attempt
try:
with dynamo_timed(
f"compile_attempt_{attempt}", log_pt2_compile_event=True
):
out_code = transform_code_object(code, transform)
break
except exc.RestartAnalysis as e:
if not isinstance(e, exc.TensorifyScalarRestartAnalysis):
TensorifyState.clear()
log.info(
"Restarting analysis due to %s",
LazyString(format_traceback_short, e.__traceback__),
)
# If restart reason is None just log the type of the exception
restart_reasons.add(e.restart_reason or str(type(e)))
# We now have a new "last attempt", reset the clock
last_attempt_start_time = time.time()
if attempt > 100:
unimplemented_v2(
gb_type="Excessive RestartAnalysis() calls",
context="",
explanation="Dynamo attempted to trace the same frame 100+ times. "
"Giving up on compiling as the compile time tradeoff is likely not "
"worth the performance gain.",
hints=[],
)
except exc.SkipFrame as e:
if not isinstance(e, exc.TensorifyScalarRestartAnalysis):
TensorifyState.clear()
log.debug(
"Skipping frame %s %s \
%s %s",
e,
code.co_name,
code.co_filename,
code.co_firstlineno,
)
if one_graph:
log.debug("No graph captured with one_graph=True")
return ConvertFrameReturn()
assert distributed_state is None or distributed_state.all_states is not None, ( # type: ignore[has-type]
"compiler collective wasn't run before compilation completed"
)
assert out_code is not None
log_bytecode(
"MODIFIED BYTECODE",
code.co_name,
code.co_filename,
code.co_firstlineno,
out_code,
)
for hook in _bytecode_hooks.values():
hook_output = hook(code, out_code)
if hook_output is not None:
out_code = hook_output
orig_code_map[out_code] = code
output_codes.add(out_code)
dynamo_time_before_restart = last_attempt_start_time - start_time
assert output is not None
# Tests for new code objects.
# The rationale for these tests can be found in torch/csrc/dynamo/eval_frame.c
# Only test once the code object is created.
# They are not tested during runtime.
def count_args(code: CodeType) -> int:
import inspect
return (
code.co_argcount
+ code.co_kwonlyargcount
+ bool(code.co_flags & inspect.CO_VARARGS)
+ bool(code.co_flags & inspect.CO_VARKEYWORDS)
)
assert out_code is not None
total_argcount_old = count_args(code)
total_argcount_new = count_args(out_code)
msg = "arg mismatch: "
msg += f"old code object has args {code.co_varnames[:total_argcount_old]}, "
msg += f"new code object has args {out_code.co_varnames[:total_argcount_new]}"
assert (
code.co_varnames[:total_argcount_old]
== out_code.co_varnames[:total_argcount_new]
), msg
msg = "free var mismatch: "
msg += f"old code object has free var {code.co_freevars}, "
msg += f"new code object has free var {out_code.co_freevars}"
assert code.co_freevars == out_code.co_freevars, msg
msg = "cell var mismatch: "
msg += f"old code object has cell var {code.co_cellvars}, "
msg += f"new code object has cell var {out_code.co_cellvars}"
assert code.co_cellvars == out_code.co_cellvars, msg
# Skipping Dynamo on a frame without any extracted graph.
# This does not affect eager functionality. But this is necessary
# for export for cases where Dynamo-reconstructed bytecode can create
# new function frames, confusing export in thinking that there
# are extra graphs now.
if output.export and output.is_empty_graph():
return ConvertFrameReturn()
assert output.guards is not None
CleanupManager.instance[out_code] = output.cleanups
nonlocal cache_entry
with dynamo_timed("build_guards", log_pt2_compile_event=True):
check_fn = CheckFunctionManager(
code,
output,
cache_entry,
hooks.guard_fail_fn if hooks else None,
hooks.guard_filter_fn if hooks else None,
guards_serialization_mode="save" if package else None,
)
if package is not None:
assert check_fn.guards_state is not None
package.add_guarded_code(check_fn.guards_state, out_code)
compile_id_str = str(compile_id) if compile_id is not None else "Unknown"
annotation_str = "Torch-Compiled Region: " + compile_id_str
guarded_code = GuardedCode(
out_code,
check_fn.guard_manager, # type: ignore[arg-type]
compile_id,
annotation_str,
)
if not output.is_empty_graph() and hooks.guard_export_fn is not None:
# We should not run the guard_export_fn when Dynamo does not
# generate any graph. This can happen in export when TorchDynamo
# generated bytecode has some reconstruction logic for mutated
# variables which can trigger TorchDynamo on the children frames but
# they are benign and do not generate any new graphs.
hooks.guard_export_fn(output.guards)
return wrap_guarded_code(guarded_code)
metrics_context = get_metrics_context()
code_context = (
package.code_context(code) if package is not None else contextlib.nullcontext()
)
with (
_use_lazy_graph_module(config.use_lazy_graph_module),
compile_context(CompileContext(compile_id)),
chromium_event_timed(
"dynamo", reset_event_log_on_exit=True, log_pt2_compile_event=True
),
_WaitCounter("pytorch.wait_counter.entire_forward_compile").guard(),
metrics_context,
dynamo_timed(
"_compile.compile_inner",
phase_name="entire_frame_compile",
dynamo_compile_column_us="dynamo_cumulative_compile_time_us",
),
code_context,
):
restart_reasons: set[str] = set()
# This is shared across restarts
speculation_log = SpeculationLog()
if compile_pg := get_compile_pg():
distributed_state = DistributedState(compile_pg, LocalState())
else:
distributed_state = None
# Check recompilations
recompile_reason: Optional[str] = None
if is_recompilation(cache_size) and frame:
reasons = get_and_maybe_log_recompilation_reasons(cache_entry, frame)
recompile_reason = (
"Unable to find recompilation reasons" if not reasons else reasons[0]
)
metrics_context.update_outer({"recompile_reason": recompile_reason})
exceeded, limit_type = exceeds_recompile_limit(cache_size, compile_id)
if exceeded:
def format_func_info(code: CodeType) -> str:
return f"'{code.co_name}' ({code.co_filename}:{code.co_firstlineno})"
log.warning(
"torch._dynamo hit config.%s (%s)\n"
" function: %s\n"
" last reason: %s\n"
'To log all recompilation reasons, use TORCH_LOGS="recompiles".\n'
"To diagnose recompilation issues, see %s.",
limit_type,
getattr(config, limit_type),
format_func_info(code),
recompile_reason,
troubleshooting_url,
)
if config.fail_on_recompile_limit_hit:
raise FailOnRecompileLimitHit(
f"{limit_type} reached, because fail_on_recompile_limit_hit = True this is a HARD failure"
)
elif one_graph:
raise FailOnRecompileLimitHit(
f"{limit_type} reached with one_graph=True. Excessive recompilations can degrade "
"performance due to the compilation overhead of each recompilation. To monitor "
"recompilations, enable TORCH_LOGS=recompiles. If recompilations are expected, consider "
"increasing torch._dynamo.config.cache_size_limit to an appropriate value."
)
elif justknobs_check(
"pytorch/compiler:skip_code_recursive_on_recompile_limit_hit"
):
raise RecompileLimitExceeded(f"{limit_type} reached")
else:
# do not recursively skip frames
unimplemented_v2(
gb_type="Dynamo cache limit exceeded",
context=f"Limit type: {limit_type}",
explanation="Dynamo attempted to recompile the code object too many times, "
f"exceeding the {limit_type} cache size limit."
"Giving up on compiling as the compile time tradeoff is likely not "
"worth the performance gain.",
hints=[],
)
log.debug(
"torchdynamo start compiling %s %s:%s, stack (elided %s frames):\n%s",
code.co_name,
code.co_filename,
code.co_firstlineno,
skip + 2,
# -2: omit current frame, omit contextlib decorator
"".join(CapturedTraceback.extract(skip=2 + skip).format()),
)
# -4: -2 as above, plus trace_structured frames
#
# NB: the frame looks like this:
#
# # handled by skip argument
# torch/_dynamo/convert_frame.py:1069 in catch_errors
# torch/_dynamo/convert_frame.py:910 in _convert_frame
# torch/_dynamo/convert_frame.py:464 in _convert_frame_assert
# torch/_utils_internal.py:70 in wrapper_function
#
# # 2 current frame and context lib
# env/lib/python3.10/contextlib.py:79 in inner
# torch/_dynamo/convert_frame.py:776 in _compile
#
# # 2 extra here
# torch/_logging/_internal.py:1064 in trace_structured
# torch/_dynamo/convert_frame.py:780 in <lambda>
convert_frame_intern = structured.intern_string(__file__)
# Initialize the ChromiumEventLogger on start
torch._logging.trace_structured(
"dynamo_start",
lambda: {
"stack": list(
itertools.takewhile(
lambda f: f["filename"] != convert_frame_intern,
structured.from_traceback(
CapturedTraceback.extract(skip=4 + skip).summary()
),
)
)
+ [
{
"line": code.co_firstlineno,
"name": code.co_name,
"filename": structured.intern_string(code.co_filename),
}
]
},
)
start_time_ns = time.time_ns()
fail_type: Optional[str] = None
fail_reason: Optional[str] = None
fail_user_frame_filename: Optional[str] = None
fail_user_frame_lineno: Optional[int] = None
torch._dynamo.utils.ReinplaceCounters.clear()
guarded_code = None
try:
guarded_code = compile_inner(code, one_graph, hooks, transform)
# NB: We only put_code_state in success case. Success case here
# does include graph breaks; specifically, if a graph break still
# resulted in a partially compiled graph, we WILL return here. An
# Unsupported exception will only bubble to the top level if we
# are unable to compile the frame at all. In this case, there's
# no point in uploading the code state, because we will always
# fail exactly the same way even without the update. (It's useful
# to upload for graph break though, because this can prevent
# extra graph break compilations.)
put_code_state()
return guarded_code
except Exception as e:
# NB: e's msg is mutated here to add user stack, but we DON'T want
# that stack in the Scuba logged fail_reason. So we grab the fail
# info here and add it to the metrics context below.
fail_type = type(e).__qualname__
fail_reason = str(e)
exception_handler(e, code, frame, export=export)
# NB: this is the post-mutation exception
torch._logging.trace_structured(
"artifact",
metadata_fn=lambda: {
"name": "dynamo_error",
"encoding": "string",
},
payload_fn=lambda: traceback.format_exc(),
)
fail_user_frame_filename, fail_user_frame_lineno = exc.get_exc_message(
e, compile_id
)
if isinstance(
e,
(
Unsupported,
TorchRuntimeError,
BackendCompilerFailed,
AssertionError,
ConstraintViolationError,
GuardOnDataDependentSymNode,
ValidationException,
UncapturedHigherOrderOpError,
BisectValidationException,
ShortenTraceback,
PackageError,
),
):
raise
else:
# Rewrap for clarity
raise InternalTorchDynamoError(
f"{type(e).__qualname__}: {str(e)}"
).with_traceback(e.__traceback__) from None
finally:
# === WARNING WARNING WARNING ===
# If you commit a bug here, it will suppress writing to
# dynamo_compile table, and we will not have telemetry.
# Be extra careful when making changes here!
if torch._dynamo.config.run_gc_after_compile:
with dynamo_timed("gc", dynamo_compile_column_us="gc_time_us"):
log.info("run_gc_after_compile: running gc")
gc.collect(1)
if tracer:
tracer.output.local_scope = {}
from .utils import curr_frame
frame_key = str(curr_frame)
if fail_reason is None and output is not None:
guard_count = len(output.guards)
shape_env_guard_count = len(output.shape_env.guards)
graph_op_count = output.count_calls()
graph_node_count = len(output.graph.nodes)
graph_input_count = len(output.placeholders)
non_compliant_ops = {op.__qualname__ for op in output.non_compliant_ops}
compliant_custom_ops = {
op.__qualname__ for op in output.compliant_custom_ops
}
torch._dynamo.utils.ReinplaceCounters.log()
else:
guard_count = None
shape_env_guard_count = None
graph_op_count = None
graph_node_count = None
graph_input_count = None
non_compliant_ops = set({})
compliant_custom_ops = set({})
restart_reasons = set()
# If compilation failed, the entire time is wasted
dynamo_time_before_restart = (time.time_ns() - start_time_ns) / 1e9
metrics = {
"frame_key": frame_key,
"co_name": code.co_name,
"co_filename": code.co_filename,
"co_firstlineno": code.co_firstlineno,
"cache_size": cache_size.num_cache_entries_with_same_id_matched_objs,
"accumulated_cache_size": cache_size.num_cache_entries,
"guard_count": guard_count,
"shape_env_guard_count": shape_env_guard_count,
"graph_op_count": graph_op_count,
"graph_node_count": graph_node_count,
"graph_input_count": graph_input_count,
"fail_type": fail_type,
"fail_reason": fail_reason,
"fail_user_frame_filename": fail_user_frame_filename,
"fail_user_frame_lineno": fail_user_frame_lineno,
"non_compliant_ops": non_compliant_ops,
"compliant_custom_ops": compliant_custom_ops,
"restart_reasons": restart_reasons,
"dynamo_time_before_restart_s": dynamo_time_before_restart,
"has_guarded_code": guarded_code is not None,
"config_suppress_errors": config.suppress_errors,
"config_inline_inbuilt_nn_modules": config.inline_inbuilt_nn_modules,
"specialize_float": config.specialize_float,
"is_forward": True,
"dynamo_compile_time_before_restart_us": to_int_us(
dynamo_time_before_restart
),
}
# TODO: replace with CompileEventLogger.compilation_metrics
# There are some columns here not in PT2 Compile Events
# so we need to slightly change it
metrics_context.update_outer(metrics)
# === END WARNING WARNING WARNING ===
class ConvertFrame:
def __init__(
self,
compiler_fn: CompilerFn,
hooks: Hooks,
package: Optional[CompilePackage] = None,
) -> None:
self._torchdynamo_orig_callable = compiler_fn
self._inner_convert = convert_frame_assert(
compiler_fn, one_graph=False, package=package
)
self._hooks = hooks
@property
def _clone_with_backend(self) -> Callable[[WrapBackendDebug], ConvertFrame]:
return lambda backend: convert_frame(backend, self._hooks)
def __call__(
self,
frame: DynamoFrameType,
cache_entry: Optional[CacheEntry],
hooks: Hooks,
frame_state: dict[str, Union[int, FrameStateSizeEntry]],
skip: int = 0,
) -> ConvertFrameReturn:
input_codes.add(frame.f_code)
counters["frames"]["total"] += 1
try:
result = self._inner_convert(
frame, cache_entry, hooks, frame_state, skip=skip + 1
)
counters["frames"]["ok"] += 1
return result
except Exception as e:
# These two exception types are "soft" failure, in the sense that
# we know this is due to something we didn't implement all the
# way, scare the user less about it. That being said, if you
# are trying to understand why a graph break happened, it's still
# important to have this information, so offer it.
#
# NB: NotImplementedError used to be on this list, but actually
# it is impossible for it to reach here, as it is converted into
# InternalTorchDynamoError. This behavior seemed reasonable
# to me (ezyang, Aug 2023) so I kept it, but maybe at some point
# someone wanted these to also get suppressed. If so, you'll
# need to make these exceptions not get wrapped
# We intentionally don't want to suppress error here.
if isinstance(e, UncapturedHigherOrderOpError):
raise
soft_fail = isinstance(e, Unsupported)
# This is a soft failure. In the sense, the code path reaches here
# when we do not support graph breaks on bytecodes like LOAD_ATTR,
# BUILD_SET etc. In such case, we can fallback to eager without
# scaring users.
if soft_fail and graph_break_log.isEnabledFor(logging.DEBUG):
# Log this message in the graph break. Also use the string
# "skip: " to tell that the whole frame is falling back to
# eager.
if hasattr(e, "compile_id") and hasattr(e, "real_stack"):
with compile_context(CompileContext(e.compile_id)): # type: ignore[attr-defined]
user_stack = e.real_stack
user_stack_formatted = "".join(
traceback.format_list(user_stack)
)
user_stack_trace = f"Graph break: skip: from user code at:\n{user_stack_formatted}"
torch._logging.trace_structured(
"artifact",
metadata_fn=lambda: {
"name": "dynamo_graph_break_reason",
"encoding": "string",
},
payload_fn=lambda: f"{user_stack_trace}\n{traceback.format_exc()}",
)
graph_break_log.debug(
user_stack_trace,
exc_info=True,
)
if not config.suppress_errors and not soft_fail:
raise
# Suppress the error. NB: It's very important to do the
# suppression logging HERE, where the actual suppression
# happens. Previously it was somewhere else and so it was
# possible to accidentally not log at all.
record_filename = getattr(e, "record_filename", None)
code = frame.f_code
error_msg = format_error_msg(e, code, record_filename, frame)
if soft_fail:
log.info(error_msg, exc_info=True)
else:
log.warning(error_msg, exc_info=True)
if isinstance(e, SkipCodeRecursiveException):
return ConvertFrameReturn(
frame_exec_strategy=FrameExecStrategy(
FrameAction.SKIP, FrameAction.SKIP
)
)
elif isinstance(e, RecompileLimitExceeded):
return ConvertFrameReturn(
frame_exec_strategy=FrameExecStrategy(
FrameAction.RUN_ONLY, FrameAction.RUN_ONLY
)
)
return ConvertFrameReturn()
def convert_frame(
compiler_fn: CompilerFn, hooks: Hooks, package: Optional[CompilePackage] = None
) -> ConvertFrame:
"""Try to convert a frame into an FX graph, if error leave frame unmodified"""
return ConvertFrame(compiler_fn, hooks, package=package)
# TODO mlazos: add support for same args, or record them
def replay(filename: str) -> None:
from .backends.debugging import eager
original_replay_val = config.replay_record_enabled
config.replay_record_enabled = False
with open(filename, "rb") as in_file:
record = ExecutionRecord.load(in_file)
record.globals = dict(itertools.chain(record.globals.items(), globals().items()))
try:
_compile(
record.code,
record.globals,
record.locals,
record.builtins,
record.closure,
compiler_fn=eager,
one_graph=False,
export=False,
export_constraints=None,
hooks=Hooks(),
cache_size=CacheSizeRelevantForFrame(0, 0),
cache_entry=None,
frame=None,
frame_state={},
compile_id=CompileId(frame_id=42, frame_compile_id=999),
)
finally:
config.replay_record_enabled = original_replay_val
def first_real_inst_idx(code: CodeType) -> int:
if sys.version_info < (3, 11):
return 0
for inst in dis.get_instructions(code):
if inst.opname == "RESUME":
return inst.offset // 2
raise RuntimeError("RESUME instruction not found in code")
class ConvertFrameProtocol(typing.Protocol):
def __call__(
self,
frame: DynamoFrameType,
cache_entry: Optional[CacheEntry],
hooks: Hooks,
frame_state: dict[str, Union[int, FrameStateSizeEntry]],
*,
skip: int = 0,
) -> ConvertFrameReturn: ...
class CatchErrorsWrapper:
def __init__(self, callback: ConvertFrameProtocol, hooks: Hooks) -> None:
functools.wraps(callback)(self)
self._torchdynamo_orig_callable = callback
self.hooks = hooks
def __call__(
self,
frame: DynamoFrameType,
cache_entry: Optional[CacheEntry],
frame_state: dict[str, Union[int, FrameStateSizeEntry]],
) -> ConvertFrameReturn:
assert frame_state is not None
input_codes.add(frame.f_code)
is_skipfile = trace_rules.check(frame.f_code)
if sys.version_info >= (3, 13):
has_started_execution = frame.f_lasti > first_real_inst_idx(frame.f_code)
else:
has_started_execution = frame.f_lasti >= first_real_inst_idx(frame.f_code)
if (
# TODO: the first condition is not covered by any test
has_started_execution
or is_skipfile
or config.disable
or (
is_in_torch_dispatch_mode(include_infra_modes=False)
and not getattr(self._torchdynamo_orig_callable, "_export", False)
)
):
if log.isEnabledFor(logging.DEBUG):
if has_started_execution:
skip_reason = "traced frame already"
elif trace_rules.check(frame.f_code):
skip_reason = "in skipfiles"
elif is_in_torch_dispatch_mode(include_infra_modes=False):
skip_reason = "non-infra torch dispatch mode present, this is not supported today in torch.compile"
else:
skip_reason = "dynamo tracing is disabled"
log.debug(
"skipping: %s (reason: %s, file: %s)",
frame.f_code.co_name,
skip_reason,
frame.f_code.co_filename,
)
return ConvertFrameReturn()
if frame.f_code.co_filename == "<string>" and frame.f_code.co_name == "__new__":
# nametuple constructor
return ConvertFrameReturn()
if torch._dynamo.utils.get_optimize_ddp_mode() == "ddp_optimizer":
ddp_module = DistributedDataParallel._get_active_ddp_module()
if ddp_module:
with compile_lock:
from torch._dynamo.backends.distributed import DDPOptimizer
ddp_optimizer = DDPOptimizer(
bucket_bytes_cap=ddp_module.bucket_bytes_cap,
backend_compile_fn=self._torchdynamo_orig_callable._torchdynamo_orig_callable, # type: ignore[attr-defined]
)
assert hasattr(
self._torchdynamo_orig_callable, "_clone_with_backend"
), (
"DDPOptimizer only supports callback fns that know how to clone themselves."
)
hijacked_callback = (
self._torchdynamo_orig_callable._clone_with_backend(
ddp_optimizer.compile_fn,
)
)
return hijacked_callback(
frame, cache_entry, self.hooks, frame_state
)
with compile_lock, _disable_current_modes():
# skip=1: skip this frame
return self._torchdynamo_orig_callable(
frame, cache_entry, self.hooks, frame_state, skip=1
)
def catch_errors_wrapper(
callback: ConvertFrameProtocol, hooks: Hooks
) -> CatchErrorsWrapper:
return CatchErrorsWrapper(callback, hooks)
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