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340 lines
16 KiB
340 lines
16 KiB
import torch
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from torch._C import _rename_privateuse1_backend, _get_privateuse1_backend_name
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from typing import List, Optional, Union
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__all__ = ["rename_privateuse1_backend", "generate_methods_for_privateuse1_backend"]
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# TODO: Should use `torch._C._get_privateuse1_backend_name()` to get
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# renamed-backend name for `privateuse1`, but the func will cause an
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# error with torch.jit.script, so we use the global variable named
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# `_privateuse1_backend_name`.
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_privateuse1_backend_name = "privateuseone"
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def rename_privateuse1_backend(backend_name: str) -> None:
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r"""
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Rename the privateuse1 backend device to make it more convenient to use as a device name within PyTorch APIs.
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The steps are:
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(1) (In C++) implement kernels for various torch operations, and register them
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to the PrivateUse1 dispatch key.
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(2) (In python) call torch.utils.rename_privateuse1_backend("foo")
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You can now use "foo" as an ordinary device string in python.
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Note: this API can only be called once per process. Attempting to change
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the external backend after it's already been set will result in an error.
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Note(AMP): If you want to support AMP on your device, you can register a custom backend module.
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The backend must register a custom backend module with ``torch._register_device_module("foo", BackendModule)``.
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BackendModule needs to have the following API's:
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(1) ``get_amp_supported_dtype() -> List[torch.dtype]``
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get the supported dtypes on your "foo" device in AMP, maybe the "foo" device supports one more dtype.
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(2) ``is_autocast_enabled() -> bool``
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check the AMP is enabled or not on your "foo" device.
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(3) ``get_autocast_dtype() -> torch.dtype``
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get the supported dtype on your "foo" device in AMP, which is set by ``set_autocast_dtype`` or the
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default dtype, and the default dtype is ``torch.float16``.
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(4) ``set_autocast_enabled(bool) -> None``
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enable the AMP or not on your "foo" device.
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(5) ``set_autocast_dtype(dtype) -> None``
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set the supported dtype on your "foo" device in AMP, and the dtype be contained in the dtypes got
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from ``get_amp_supported_dtype``.
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Note(random): If you want to support to set seed for your device, BackendModule needs to have the following API's:
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(1) ``_is_in_bad_fork() -> bool``
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Return ``True`` if now it is in bad_fork, else return ``False``.
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(2) ``manual_seed_all(seed int) -> None``
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Sets the seed for generating random numbers for your devices.
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(3) ``device_count() -> int``
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Returns the number of "foo"s available.
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(4) ``get_rng_state(device: Union[int, str, torch.device] = 'foo') -> Tensor``
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Returns a list of ByteTensor representing the random number states of all devices.
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(5) ``set_rng_state(new_state: Tensor, device: Union[int, str, torch.device] = 'foo') -> None``
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Sets the random number generator state of the specified "foo" device.
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And there are some common funcs:
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(1) ``is_available() -> bool``
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Returns a bool indicating if "foo" is currently available.
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(2) ``current_device() -> int``
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Returns the index of a currently selected device.
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For more details, see https://pytorch.org/tutorials/advanced/extend_dispatcher.html#get-a-dispatch-key-for-your-backend
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For an existing example, see https://github.com/bdhirsh/pytorch_open_registration_example
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Example::
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>>> # xdoctest: +SKIP("failing")
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>>> torch.utils.rename_privateuse1_backend("foo")
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# This will work, assuming that you've implemented the right C++ kernels
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# to implement torch.ones.
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>>> a = torch.ones(2, device="foo")
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"""
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_rename_privateuse1_backend(backend_name)
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global _privateuse1_backend_name
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_privateuse1_backend_name = backend_name
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def _check_register_once(module, attr):
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if hasattr(module, attr):
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raise RuntimeError(f"The custom device module of {module} has already been registered with {attr}")
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def _normalization_device(custom_backend_name: str, device: Optional[Union[int, str, torch.device]] = None) -> int:
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def _get_current_device_index():
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_get_device_index = "current_device"
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if hasattr(torch, custom_backend_name) and \
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hasattr(getattr(torch, custom_backend_name), _get_device_index):
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return getattr(getattr(torch, custom_backend_name), _get_device_index)()
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else:
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# The default device index is 0.
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return 0
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if device is None:
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return _get_current_device_index()
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# if isinstance(device, str), this means that the parameter passed in is in the string format "foo:0"
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# convert str object to torch.device object, and then process it uniformly
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elif isinstance(device, str):
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device = torch.device(device)
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# variable devcie can only be torch.device type or int type
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if isinstance(device, torch.device):
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if device.type != custom_backend_name:
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raise RuntimeError(f"Invalid device, must be {custom_backend_name} device")
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elif device.index is None:
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device_idx = _get_current_device_index()
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else:
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device_idx = device.index
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# if isinstance(device, int), we can take the index number directly
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else:
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device_idx = device
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return device_idx
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def _generate_tensor_methods_for_privateuse1_backend(custom_backend_name: str) -> None:
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@property # type: ignore[misc]
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def wrap_tensor_backend(self: torch.Tensor) -> bool:
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return self.device.type == custom_backend_name
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_check_register_once(torch.Tensor, f'is_{custom_backend_name}')
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setattr(torch.Tensor, f'is_{custom_backend_name}', wrap_tensor_backend)
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def wrap_tensor_to(self: torch.Tensor, device: Optional[Union[int, torch.device]] = None, non_blocking=False,
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**kwargs) -> torch.Tensor:
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r"""Perform Tensor device conversion. Call the to operator implementation.
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.. note::
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If the ``self`` Tensor already
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has the correct :class:`torch.device`, then ``self`` is returned.
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Otherwise, the returned tensor is a copy of ``self`` with the desired :class:`torch.device`.
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Args:
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device (int, optional): if specified, all parameters will be copied to that device
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non_blocking (bool): If ``True`` and the source is in pinned memory,
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the copy will be asynchronous with respect to the host. Otherwise,
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the argument has no effect.
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**kwargs (dict): For compatibility, may contain the key ``memory_format`` argument.
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"""
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device_idx = _normalization_device(custom_backend_name, device)
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return self.to(device=torch.device(f'{custom_backend_name}:{device_idx}'), non_blocking=non_blocking, **kwargs)
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_check_register_once(torch.Tensor, custom_backend_name)
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setattr(torch.Tensor, custom_backend_name, wrap_tensor_to)
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def _generate_module_methods_for_privateuse1_backend(custom_backend_name: str) -> None:
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# Generate Module attributes and methods depends on Tensor methods,
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# so we need to check whether Tensor methods is already registered.
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if not hasattr(torch.Tensor, custom_backend_name):
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raise RuntimeError(
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f"Can not automatically generate {custom_backend_name}() method for torch.nn.Module."
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f"Because torch.Tensor doesn't has the method {custom_backend_name}()."
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f"For this error, you can try setting for_tensor=True.")
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def wrap_module_to(self: torch.nn.modules.module.T,
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device: Optional[Union[int, torch.device]] = None) -> torch.nn.modules.module.T:
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r"""Move all model parameters and buffers to the custom device.
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This also makes associated parameters and buffers different objects. So
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it should be called before constructing optimizer if the module will
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live on device while being optimized.
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.. note::
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This method modifies the module in-place.
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Args:
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device (int, optional): if specified, all parameters will be copied to that device
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"""
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return self._apply(lambda t: getattr(t, custom_backend_name)(device))
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_check_register_once(torch.nn.Module, custom_backend_name)
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setattr(torch.nn.Module, custom_backend_name, wrap_module_to)
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def _generate_storage_methods_for_privateuse1_backend(custom_backend_name: str,
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unsupported_dtype: Optional[List[torch.dtype]] = None) -> None:
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# Attribute is registered in the _StorageBase class
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# and UntypedStorage obtains through inheritance.
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@property # type: ignore[misc]
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def wrap_storage_backend(self: torch.storage._StorageBase) -> bool:
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r"""Return the internal :class:`torch.UntypedStorage`."""
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return self.device.type == custom_backend_name
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_check_register_once(torch.storage._StorageBase, f'is_{custom_backend_name}')
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setattr(torch.storage._StorageBase, f'is_{custom_backend_name}', wrap_storage_backend)
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def wrap_storage_to(self, device=None, non_blocking=False):
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r"""Return a copy of this object in custom device memory.
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If this object is already in device memory and on the correct device, then
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no copy is performed and the original object is returned.
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Args:
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device (int): The destination device id. Defaults to the current device.
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non_blocking (bool): If ``True`` and the source is in pinned memory,
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the copy will be asynchronous with respect to the host. Otherwise,
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the argument has no effect.
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"""
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# There should be a judgment related to storage device and a judgment related to storage type,
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# but it depends on the extended function, so this part is temporarily omitted in the automatic generation.
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device_idx = _normalization_device(custom_backend_name, device)
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if getattr(self, f'is_{custom_backend_name}'):
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# storage has already on expected device.
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if self.get_device() == device_idx:
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return self
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# For sparse storage, custom need to extend the implementation by themselves.
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if self.is_sparse:
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raise RuntimeError(f"Can not support a sparse storage move to {custom_backend_name} backend")
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# create untyped_storage and copy data
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untyped_storage = torch.UntypedStorage(
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self.size(), device=torch.device(f'{custom_backend_name}:{device_idx}')
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)
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untyped_storage.copy_(self, non_blocking)
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return untyped_storage
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_check_register_once(torch.storage._StorageBase, custom_backend_name)
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setattr(torch.storage._StorageBase, custom_backend_name, wrap_storage_to)
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# Register the corresponding attribute for the TypedStorage class.
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# When the TypedStorage class is removed, the registration is also removed.
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@property # type: ignore[misc]
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def wrap_typed_storage_backend(self: torch.storage.TypedStorage) -> bool:
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torch.storage._warn_typed_storage_removal()
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return self._untyped_storage.device.type == custom_backend_name
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_check_register_once(torch.TypedStorage, f'is_{custom_backend_name}')
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setattr(torch.storage.TypedStorage, f'is_{custom_backend_name}', wrap_typed_storage_backend)
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def wrap_typed_storage_to(self: torch.storage.TypedStorage,
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device=None, non_blocking=False, **kwargs) -> torch.storage.TypedStorage:
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torch.storage._warn_typed_storage_removal()
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if unsupported_dtype and self.dtype in unsupported_dtype:
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raise RuntimeError(f"Cannot create {custom_backend_name} storage "
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f"as {self.dtype} dtype is not supported by this backend")
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custom_backend_storage: torch.UntypedStorage = getattr(
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self._untyped_storage, custom_backend_name)(device, non_blocking, **kwargs)
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return self._new_wrapped_storage(custom_backend_storage)
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_check_register_once(torch.TypedStorage, custom_backend_name)
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setattr(torch.TypedStorage, custom_backend_name, wrap_typed_storage_to)
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def generate_methods_for_privateuse1_backend(for_tensor: bool = True, for_module: bool = True,
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for_storage: bool = False,
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unsupported_dtype: Optional[List[torch.dtype]] = None) -> None:
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r"""
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Automatically generate attributes and methods for the custom backend after rename privateuse1 backend.
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In the default scenario, storage-related methods will not be generated automatically.
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When you implement kernels for various torch operations, and register them to the PrivateUse1 dispatch key.
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And call the function torch.rename_privateuse1_backend("foo") to rename your backend name.
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At this point, you can easily register specific methods and attributes by calling this function.
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Just like torch.Tensor.foo(), torch.Tensor.is_foo, torch.Storage.foo(), torch.Storage.is_foo.
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Note: We recommend you use generic functions (check devices are equal or to(device=)).
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We provide these methods for convenience only and they will be "monkey patched" onto the objects
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and so will not be properly typed. For Storage methods generate, if you need to support sparse data storage,
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you need to extend the implementation yourself.
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Args:
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for_tensor (bool): whether register related methods for torch.Tensor class.
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for_module (bool): whether register related methods for torch.nn.Module class.
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for_storage (bool): whether register related methods for torch.Storage class.
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unsupported_dtype (List[torch.dtype]): takes effect only when the storage method needs to be generated,
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indicating that the storage does not support the torch.dtype type.
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Example::
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>>> # xdoctest: +SKIP("failing")
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>>> torch.utils.rename_privateuse1_backend("foo")
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>>> torch.utils.generate_methods_for_privateuse1_backend()
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# Then automatically generate backend-related attributes and methods.
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>>> a = torch.tensor(2).foo()
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>>> a.is_foo
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>>> hasattr(torch.nn.Module, 'foo')
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"""
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custom_backend_name = _get_privateuse1_backend_name()
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if for_tensor:
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_generate_tensor_methods_for_privateuse1_backend(custom_backend_name)
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if for_module:
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_generate_module_methods_for_privateuse1_backend(custom_backend_name)
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if for_storage:
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_generate_storage_methods_for_privateuse1_backend(custom_backend_name, unsupported_dtype)
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def _get_custom_mod_func(func_name: str):
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r"""
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Return the func named `func_name` defined in custom device module. If not defined,
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return `None`. And the func is registered with `torch.utils.rename_privateuse1_backend('foo')`
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and `torch._register_device_module('foo', BackendModule)`.
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If the custom device module or the func is not defined, it will give warning or error message.
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Args:
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func_name (str): return the callable func named func_name defined in custom device module.
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Example::
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class DummyfooModule:
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@staticmethod
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def is_available():
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return True
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@staticmethod
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def func_name(*args, **kwargs):
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....
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torch.utils.rename_privateuse1_backend("foo")
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torch._register_device_module("foo", DummyfooModule)
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foo_is_available_func = torch.utils.backend_registration._get_custom_mod_func("is_available")
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if foo_is_available_func:
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foo_is_available = foo_is_available_func()
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func_ = torch.utils.backend_registration._get_custom_mod_func("func_name")
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if func_:
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result = func_(*args, **kwargs)
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Attention: This function is not meant to be used directly by users, which is why
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it is marked as private. It is a convenience function for backend implementers to
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more easily call the hooks into their backend extensions.
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"""
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assert isinstance(func_name, str), f"func_name must be `str`, but got `{type(func_name)}`."
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backend_name = _get_privateuse1_backend_name()
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custom_device_mod = getattr(torch, backend_name, None) # type: ignore[arg-type]
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function = getattr(custom_device_mod, func_name, None) # type: ignore[arg-type]
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if custom_device_mod is None or function is None:
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message = f'Try to call torch.{backend_name}.{func_name}. The backend must register a custom backend '
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message += f"module with `torch._register_device_module('{backend_name}', BackendModule)`. And "
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message += f"BackendModule needs to have the following API's:\n `{func_name}(*args, **kwargs)`. \n"
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raise RuntimeError(message)
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return function
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