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Source code for torch.random

import contextlib
from typing import Generator
import warnings

from torch._C import default_generator
import torch


[docs]def set_rng_state(new_state: torch.Tensor) -> None: r"""Sets the random number generator state. .. note:: This function only works for CPU. For CUDA, please use :func:`torch.manual_seed`, which works for both CPU and CUDA. Args: new_state (torch.ByteTensor): The desired state """ default_generator.set_state(new_state)
[docs]def get_rng_state() -> torch.Tensor: r"""Returns the random number generator state as a `torch.ByteTensor`. .. note:: The returned state is for the default generator on CPU only. See also: :func:`torch.random.fork_rng`. """ return default_generator.get_state()
[docs]def manual_seed(seed) -> torch._C.Generator: r"""Sets the seed for generating random numbers on all devices. Returns a `torch.Generator` object. Args: seed (int): The desired seed. Value must be within the inclusive range `[-0x8000_0000_0000_0000, 0xffff_ffff_ffff_ffff]`. Otherwise, a RuntimeError is raised. Negative inputs are remapped to positive values with the formula `0xffff_ffff_ffff_ffff + seed`. """ seed = int(seed) import torch.cuda if not torch.cuda._is_in_bad_fork(): torch.cuda.manual_seed_all(seed) import torch.mps if not torch.mps._is_in_bad_fork(): torch.mps.manual_seed(seed) import torch.xpu if not torch.xpu._is_in_bad_fork(): torch.xpu.manual_seed_all(seed) _seed_custom_device(seed) return default_generator.manual_seed(seed)
[docs]def seed() -> int: r"""Sets the seed for generating random numbers to a non-deterministic random number on all devices. Returns a 64 bit number used to seed the RNG. """ seed = default_generator.seed() import torch.cuda if not torch.cuda._is_in_bad_fork(): torch.cuda.manual_seed_all(seed) import torch.mps if not torch.mps._is_in_bad_fork(): torch.mps.manual_seed(seed) import torch.xpu if not torch.xpu._is_in_bad_fork(): torch.xpu.manual_seed_all(seed) _seed_custom_device(seed) return seed
def _seed_custom_device(seed) -> None: r"""Sets the seed to generate random numbers for custom device. Args: seed (int): The desired seed. See [Note: support the custom device with privateuse1] """ seed = int(seed) custom_backend_name = torch._C._get_privateuse1_backend_name() if hasattr(torch, custom_backend_name): custom_device_mod = getattr(torch, custom_backend_name) _bad_fork_name = "_is_in_bad_fork" _seed_all_name = "manual_seed_all" if hasattr(custom_device_mod, _bad_fork_name) and hasattr(custom_device_mod, _seed_all_name): if not getattr(custom_device_mod, _bad_fork_name)(): getattr(custom_device_mod, _seed_all_name)(seed) else: message = f"Set seed for `{custom_backend_name}` device does not take effect, please add API's " message += f"`{_bad_fork_name}` and `{_seed_all_name}` to `{custom_backend_name}` device module." warnings.warn(message, UserWarning, stacklevel=3)
[docs]def initial_seed() -> int: r"""Returns the initial seed for generating random numbers as a Python `long`. .. note:: The returned seed is for the default generator on CPU only. """ return default_generator.initial_seed()
_fork_rng_warned_already = False
[docs]@contextlib.contextmanager def fork_rng(devices=None, enabled=True, _caller="fork_rng", _devices_kw="devices", device_type="cuda") -> Generator: """ Forks the RNG, so that when you return, the RNG is reset to the state that it was previously in. Args: devices (iterable of Device IDs): devices for which to fork the RNG. CPU RNG state is always forked. By default, :meth:`fork_rng` operates on all devices, but will emit a warning if your machine has a lot of devices, since this function will run very slowly in that case. If you explicitly specify devices, this warning will be suppressed enabled (bool): if ``False``, the RNG is not forked. This is a convenience argument for easily disabling the context manager without having to delete it and unindent your Python code under it. device_type (str): device type str, default is `cuda`. As for custom device, see details in [Note: support the custom device with privateuse1] """ device_type = torch.device(device_type).type device_mod = getattr(torch, device_type, None) if device_mod is None: raise RuntimeError(f"torch has no module of `{device_type}`, you should register " + "a module by `torch._register_device_module`.") global _fork_rng_warned_already # Internal arguments: # _caller: the function which called fork_rng, which the user used # _devices_kw: the devices keyword of _caller if not enabled: yield return if devices is None: num_devices = device_mod.device_count() if num_devices > 1 and not _fork_rng_warned_already: message = (f"{device_type.upper()} reports that you have {num_devices} available devices, and " f"you have used {_caller} without explicitly specifying which devices are being used. " f"For safety, we initialize *every* {device_type.upper()} device by default, which can " f"be quite slow if you have a lot of {device_type.upper()}s. If you know that you are only" f" making use of a few {device_type.upper()} devices, set the environment variable " f"{device_type.upper()}_VISIBLE_DEVICES or the '{_devices_kw}' keyword argument of {_caller} " "with the set of devices you are actually using. For example, if you are using CPU only, " "set device.upper()_VISIBLE_DEVICES= or devices=[]; if you are using device 0 only, " f"set {device_type.upper()}_VISIBLE_DEVICES=0 or devices=[0]. To initialize all devices " f"and suppress this warning, set the '{_devices_kw}' keyword argument to " f"`range(torch.{device_type}.device_count())`.") warnings.warn(message) _fork_rng_warned_already = True devices = list(range(num_devices)) else: # Protect against user passing us a generator; we need to traverse this # multiple times but a generator will be exhausted upon first traversal devices = list(devices) cpu_rng_state = torch.get_rng_state() device_rng_states = [device_mod.get_rng_state(device) for device in devices] try: yield finally: torch.set_rng_state(cpu_rng_state) for device, device_rng_state in zip(devices, device_rng_states): device_mod.set_rng_state(device_rng_state, device)

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