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_python_dispatcher.py
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_python_dispatcher.py
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import re
import torch._C as C
"""
PythonDispatcher class is a thin python-binding to C++ dispatcher and it
is designed to show how dispatcher precompute works. In particular,
it shows for a certain op `foo`, what the computed dispatch table looks
like after user register their kernels to certains dispatch keys.
In the real C++ dispatcher we support many dispatch keys for different
functionalities. For simplicity PythonDispatcher only supports dispatch
keys for a single example of each use case. These use cases are listed below:
- CPU/AutogradCPU: represents in-tree backends which we usually have dedicated inference &
autograd kernel in pytorch core library.
E.g. CPU, CUDA
- QuantizedCPU/AutogradOther: represents in-tree backends which we usually have backend specific
inference kernels, but they share the same autograd kernel specified in AutogradOther.
E.g. QuantizedCPU, QuantizedCUDA
- XLA/AutogradXLA: represents out-of-tree backends which we don't have either inference or autograd
kernel defined in pytorch core library. Backend owner is responsible for registering both
inference & autograd kernels in their extensions(e.g. torch-xla) for the operators they support.
E.g. XLA, XPU, MLC
- CompositeExplicitAutograd: alias key mapped to inference kernels of all backends like CPU, CUDA, XLA etc.
Kernels registered to this key MUST work for inference for all backends.
- Autograd: alias key mapped to autograd of all backends like AutogradCPU, AutogradXLA, AutogradOther.
Kernels registered to this key MUST work for autograd for all backends.
- CompositeImplicitAutograd: alias key CompositeImplicitAutograd = CompositeExplicitAutograd + Autograd
Kernels registered to this key MUST work for both inference + autograd for all backends.
Note we only allow registrations to alias keys inside pytorch core library. E.g
you shouldn't register a CompositeImplicitAutograd or CompositeExplicitAutograd
kernel from torch-xla extension, instead you should upstream the kernel into
pytorch/pytorch repo so that it's available for all backends and continuously
tested even without the extension.
Usage:
dispatcher = PythonDispatcher()
dispatcher.register(["CPU", "XLA", "CompositeImplicitAutograd"])
print(dispatcher.dispatchTable()) # This tells you exactly which kernel is used for certain backend.
# For more debugging information
# print(dispatcher.keys())
# print(dispatcher.registrations())
# print(dispatcher.rawRegistrations())
# print(dispatcher.rawDispatchTable())
PythonDispatcher calls C++ dispatcher under the hood for to precompute dispatch table.
This file only provides the simplified API for developers, revelant test code is located in
test/test_dispatch.py
"""
class PythonDispatcher:
namespace = "__test__"
name = "foo"
runtime_keys = [
"CPU", "AutogradCPU",
"QuantizedCPU", "AutogradOther",
"XLA", "AutogradXLA",
]
alias_keys = [
"CompositeExplicitAutograd",
"Autograd",
"CompositeImplicitAutograd",
]
supported_keys = runtime_keys + alias_keys
def __init__(self):
C._dispatch_check_invariants(self.name) # type: ignore[attr-defined]
self.ref = C._dispatch_library("FRAGMENT", self.namespace, "") # type: ignore[attr-defined]
self.ref.def_("foo(Tensor x) -> Tensor")
"""
Returns a list of dispatch keys supported by PythonDispatcher.
You can register kernels to these keys.
"""
def keys(self):
return self.supported_keys
"""
Register kernels to the target dispatchKeys.
dispatchKeys(list[str]): a list of dispatch keys that you want to register
your own kernel. Note that you don't need to write the kernel yourself in
this PythonDispatcher.E.g. for CPU key, a kernel(e.g fn_CPU for CPU) is
automatically generated and registered.
"""
def register(self, dispatchKeys):
# Overriden is not supported and triggers a warning in C++ dispatcher.
if len(set(dispatchKeys)) != len(dispatchKeys):
raise RuntimeError(f"Overriden is not allowed but found duplicates in {dispatchKeys}.")
# We currently forbid this in codegen instead of C++ dispatcher.
if 'CompositeImplicitAutograd' in dispatchKeys and 'CompositeExplicitAutograd' in dispatchKeys:
raise RuntimeError("Registration to both CompositeImplicitAutograd and CompositeExplicitAutograd is not allowed.")
for key in dispatchKeys:
if key not in self.supported_keys:
raise RuntimeError(f"{key} is not supported, please select a dispatch key in {self.supported_keys}.")
self.ref.impl_t_t("foo", dispatch=key, debug="fn_" + key)
"""
Helper function to format (key, kernel).
"""
def _format_line(self, key, kernel):
return "{:<15} {}\n".format(key, kernel)
"""
Helper function to print a table header.
"""
def _format_header(self, header):
s = f"""
{header}
"""
s += self._format_line("key", "kernel")
s += "---------------------------\n"
return s
"""
Returns raw output of all registration info for debugging only.
Use registrations() for a simplified version.
"""
def rawRegistrations(self):
return C._dispatch_dump("{}::{}".format(self.namespace, self.name)) # type: ignore[attr-defined]
"""
Returns raw output of computed dispatch table for debugging only.
Use dispatchTable() for a simplified version.
"""
def rawDispatchTable(self):
return C._dispatch_dump_table("{}::{}".format(self.namespace, self.name)) # type: ignore[attr-defined]
"""
Returns a table(str) including all the registrations from users.
Note this includes registrations to both runtime keys and alias keys.
"""
def registrations(self):
output = self._format_header("Registered Kernels")
state = self.rawRegistrations()
state_entries = state.split('\n')
for line in state_entries:
first = line.split(":")[0]
if any(first.startswith(k) for k in self.supported_keys):
kernel = line.split("::")[0].split(" ")[1]
output += self._format_line(first, kernel)
return output
"""
Returns the computed dispatch table(str). Note this only include
runtime keys, registrations to alias keys have been decoded to their
mapped runtime keys.
"""
def dispatchTable(self):
output = self._format_header("Computed Dispatch Table")
table = self.rawDispatchTable()
table_entries = table.split('\n')
regex = re.compile(r"registered at .*FallbackKernel\.cpp.*(\[)")
for line in table_entries:
k = line.split(":")[0]
if k in self.runtime_keys:
entry = regex.sub('[', line)
output += self._format_line(k, entry.split(": ")[1])
return output