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_import_c_extension.pyi
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_import_c_extension.pyi
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import collections
from typing import Any, Dict, List, Optional, Protocol, Tuple, Union, overload
from typing_extensions import TypeAlias
import numpy as np
import google.protobuf.message
import torch
from caffe2.proto import caffe2_pb2
from . import core
# pybind11 will automatically accept either Python str or bytes for C++ APIs
# that accept std::string.
_PybindStr: TypeAlias = Union[str, bytes]
_PerOpEnginePrefType: TypeAlias = Dict[int, Dict[str, List[str]]]
_EnginePrefType: TypeAlias = Dict[int, List[str]]
Int8Tensor = collections.namedtuple(
'Int8Tensor', ['data', 'scale', 'zero_point']
)
class _HasProto(Protocol):
def Proto(self) -> Any: ...
class TensorCPU:
def init(self, dims: List[int], caffe_type: int) -> None: ...
def to_torch(self) -> torch.Tensor: ...
class Blob:
def feed(
self,
arg: Any,
device_option: Union[
None, str, bytes, google.protobuf.message.Message, _HasProto,
] = None,
) -> bool: ...
def is_tensor(self) -> bool: ...
def as_tensor(self) -> TensorCPU: ...
def tensor(self) -> TensorCPU: ...
def to_torch(self) -> torch.Tensor: ...
def fetch(self) -> Any: ...
class Net:
def run(self) -> None: ...
def cancel(self) -> None: ...
class Workspace:
@overload
def __init__(self) -> None: ...
@overload
def __init__(self, workspace: Workspace) -> None: ...
@property
def blobs(self) -> Dict[str, Blob]: ...
def create_blob(self, name: _PybindStr) -> Blob: ...
def fetch_blob(self, name: _PybindStr) -> Any: ...
def fetch_int8_blob(
self, name: Union[str, bytes, core.BlobReference]
) -> Int8Tensor: ...
def _create_net(self, _def: bytes, overwrite: bool) -> Net: ...
def create_net(
self,
net: Union[str, bytes, core.Net, caffe2_pb2.NetDef],
overwrite: bool = False,
) -> Net: ...
def _run_net(self, _def: bytes) -> None: ...
def _run_operator(self, _def: bytes) -> None: ...
def _run_plan(self, _def: bytes) -> None: ...
def run(
self,
obj: Union[
caffe2_pb2.PlanDef,
caffe2_pb2.NetDef,
caffe2_pb2.OperatorDef,
_HasProto,
],
) -> None: ...
def feed_blob(
self,
name: Union[str, bytes, core.BlobReference],
arr: Union[caffe2_pb2.TensorProto, np.ndarray],
device_option: Optional[caffe2_pb2.DeviceOption] = None,
) -> bool: ...
def remove_blob(self, blob: Any) -> None: ...
current: Workspace
class Argument:
@property
def name(self) -> str: ...
@property
def description(self) -> str: ...
@property
def required(self) -> bool: ...
class OpSchema:
@staticmethod
def get(key: str) -> OpSchema: ...
@property
def args(self) -> List[Argument]: ...
@property
def input_desc(self) -> List[Tuple[str, str]]: ...
@property
def output_desc(self) -> List[Tuple[str, str]]: ...
@property
def max_input(self) -> int: ...
@property
def max_output(self) -> int: ...
@property
def min_input(self) -> int: ...
@property
def min_output(self) -> int: ...
def inplace_enforced(self, x: int, y: int) -> bool: ...
class DummyName:
...
class Graph:
...
class Node:
...
class Edge:
...
class NeuralNetOperator:
...
class NeuralNetData:
...
class NNSubgraph:
...
class NNMatchGraph:
...
class Annotation:
...
is_asan: bool
has_mkldnn: bool
use_mkldnn: bool
has_fbgemm: bool
use_rocm: bool
use_trt: bool
define_caffe2_no_operator_schema: bool
def registered_dbs() -> List[str]: ...
def get_build_options() -> Dict[str, str]: ...
def set_per_op_engine_pref(pref: _PerOpEnginePrefType) -> None: ...
def set_global_engine_pref(pref: _EnginePrefType) -> None: ...
def set_engine_pref(
per_op_pref: _PerOpEnginePrefType, global_pref: _EnginePrefType
) -> None: ...
def set_op_engine_pref(
op_type: _PybindStr, op_pref: _EnginePrefType
) -> None: ...
def op_registry_key(op_type: _PybindStr, engine: _PybindStr) -> str: ...
def global_init(args: List[str]) -> None: ...
def registered_operators() -> List[str]: ...
def on_module_exit() -> None: ...
@overload
def switch_workspace(ws: Workspace): ...
@overload
def switch_workspace(name: _PybindStr, create_if_missing: Optional[bool] = None): ...
def create_child_workspace(
parent_ws_name: _PybindStr, child_ws_name: _PybindStr
) -> None: ...
def root_folder() -> str: ...
def current_workspace() -> str: ...
def workspaces() -> List[str]: ...
def benchmark_net(
name: _PybindStr, warmup_runs: int, main_runs: int, run_individual: bool
) -> List[float]: ...
def benchmark_net_once(name: _PybindStr) -> float: ...
def blobs() -> Dict[str, Blob]: ...
def has_blob(name: _PybindStr) -> bool: ...
def create_blob(name: _PybindStr) -> bool: ...
def reset_blob(name: _PybindStr) -> None: ...
@overload
def deserialize_blob(content: _PybindStr) -> Blob: ...
@overload
def deserialize_blob(name: _PybindStr, serialized: bytes) -> None: ...
def serialize_blob(name: _PybindStr) -> bytes: ...
def get_stats() -> Dict[str, int]: ...
def is_numa_enabled() -> bool: ...
def get_num_numa_nodes() -> int: ...
def get_blob_numa_node(blob_name: _PybindStr) -> int: ...
def get_blob_size_bytes(blob_name: _PybindStr) -> int: ...
def create_offline_tensor(
name: _PybindStr, dims: List[int], datatype: int
) -> bool: ...
def fakeFp16FuseOps(net_str: bytes) -> bytes: ...
def num_cuda_devices() -> int: ...
def get_cuda_version() -> int: ...
def get_cudnn_version() -> int: ...
def get_gpu_memory_info(device_id: int) -> Tuple[int, int]: ...
def get_device_properties(deviceid: int) -> Dict[str, Any]: ...
def num_hip_devices() -> int: ...
def get_hip_version() -> int: ...
def get_miopen_version() -> int: ...
has_hip_support: bool
has_cuda_support: bool
has_gpu_support: bool