186 lines
6.6 KiB
Python
186 lines
6.6 KiB
Python
import re
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from typing import Callable, List
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import torch
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from torch import Tensor
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__all__: List[str] = []
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class _CodeParser:
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def __init__(self, code_string: str):
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optional_ws = r"\s*"
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required_ws = r"\s+"
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template_params = r"(?P<template_params>\<.+\>)"
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return_type = r"(?P<return_type>\w+)"
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function_name = r"(?P<function_name>\w+)"
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function_params = r"(?P<function_params>\(.+\))"
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function_body = r"(?P<function_body>\{.+\})"
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pattern = (
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optional_ws
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+ "template"
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+ optional_ws
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+ template_params
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+ optional_ws
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+ return_type
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+ required_ws
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+ function_name
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+ optional_ws
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+ function_params
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+ optional_ws
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+ function_body
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+ optional_ws
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)
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result = re.match(
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pattern, code_string, re.DOTALL
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) # DOTALL for matching multiline
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if result is None:
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raise Exception(
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f"Couldn't parse code, please check correctness:\n {code_string}"
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)
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self.template_params = result["template_params"]
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self.return_type = result["return_type"]
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self.function_name = result["function_name"]
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self.function_params = result["function_params"]
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self.function_body = result["function_body"]
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class _JittedFunction:
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def __init__(
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self, code_string: str, return_by_ref: bool, num_outputs: int, **kwargs
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):
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self.code_string = code_string
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assert (
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return_by_ref or num_outputs == 1
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), "Return by value only works for single output. "
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self.return_by_ref = return_by_ref
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self.num_outputs = num_outputs
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parsed_code = _CodeParser(code_string)
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self.kernel_name = parsed_code.function_name
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self.kwargs_dict = kwargs
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self.is_cuda_available = torch.cuda.is_available()
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def __call__(self, *tensors: Tensor, **kwargs):
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# Jiterator follow torch.cuda's lazy initialization behavior
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# Defer checking cuda's availability at the function invocation time
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assert (
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self.is_cuda_available
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), "Jiterator is only supported on CUDA and ROCm GPUs, none are available."
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assert len(tensors) <= 8, "jiterator only supports up to 8 tensor inputs."
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expanded_kwargs = self.kwargs_dict.copy()
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for key, value in kwargs.items():
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if key in self.kwargs_dict:
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expanded_kwargs[key] = value
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else:
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raise KeyError(f"{key} is not declared in function definition")
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return torch._C._cuda_jiterator_compile_and_launch_kernel(
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self.code_string,
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self.kernel_name,
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self.return_by_ref,
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self.num_outputs,
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tensors,
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expanded_kwargs,
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)
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def _create_jit_fn(code_string: str, **kwargs) -> Callable:
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"""
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Create a jiterator-generated cuda kernel for an elementwise op.
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The code string has to be a valid CUDA function that describes the computation for a single element. The code
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string has to follow the c++ template pattern, as shown in the example below. This function will be inlined
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into elementwise kernel template, and compiled on the fly. Compiled kernel will be cached in memory, as well as
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local temp dir.
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Jiterator-generated kernels accepts noncontiguous tensors, and supports broadcasting and type promotion.
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Args:
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code_string (str): CUDA code string to be compiled by jiterator. The entry functor must return by value.
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kwargs (Dict, optional): Keyword arguments for generated function
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Example::
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code_string = "template <typename T> T my_kernel(T x, T y, T alpha) { return -x + alpha * y; }"
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jitted_fn = create_jit_fn(code_string, alpha=1.0)
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a = torch.rand(3, device='cuda')
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b = torch.rand(3, device='cuda')
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# invoke jitted function like a regular python function
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result = jitted_fn(a, b, alpha=3.14)
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code_string also allows multiple function definitions, and the last function will be treated as the entry function.
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Example::
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code_string = "template <typename T> T util_fn(T x, T y) { return ::sin(x) + ::cos(y); }"
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code_string += "template <typename T> T my_kernel(T x, T y, T val) { return ::min(val, util_fn(x, y)); }"
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jitted_fn = create_jit_fn(code_string, val=0.0)
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a = torch.rand(3, device='cuda')
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b = torch.rand(3, device='cuda')
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# invoke jitted function like a regular python function
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result = jitted_fn(a, b) # using default val=0.0
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Jiterator can be used together with python registration to override an operator's cuda kernel.
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Following example is overriding gelu's cuda kernel with relu.
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Example::
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code_string = "template <typename T> T my_gelu(T a) { return a > 0 ? a : 0; }"
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my_gelu = create_jit_fn(code_string)
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my_lib = torch.library.Library("aten", "IMPL")
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my_lib.impl('aten::gelu', my_gelu, "CUDA")
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# torch.nn.GELU and torch.nn.function.gelu are now overridden
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a = torch.rand(3, device='cuda')
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torch.allclose(torch.nn.functional.gelu(a), torch.nn.functional.relu(a))
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.. warning::
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This API is in beta and may change in future releases.
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.. warning::
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This API only supports up to 8 inputs and 1 output
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.. warning::
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All input tensors must live in CUDA device
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"""
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return _JittedFunction(code_string, return_by_ref=False, num_outputs=1, **kwargs)
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def _create_multi_output_jit_fn(
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code_string: str, num_outputs: int, **kwargs
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) -> Callable:
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"""
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Create a jiterator-generated cuda kernel for an elementwise op that supports returning one or more outputs.
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Args:
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code_string (str): CUDA code string to be compiled by jiterator. The entry functor must return value by reference.
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num_outputs(int): number of outputs return by the kernel
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kwargs (Dict, optional): Keyword arguments for generated function
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Example::
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code_string = "template <typename T> void my_kernel(T x, T y, T alpha, T& out) { out = -x + alpha * y; }"
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jitted_fn = create_jit_fn(code_string, alpha=1.0)
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a = torch.rand(3, device='cuda')
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b = torch.rand(3, device='cuda')
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# invoke jitted function like a regular python function
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result = jitted_fn(a, b, alpha=3.14)
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.. warning::
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This API is in beta and may change in future releases.
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.. warning::
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This API only supports up to 8 inputs and 8 outputs
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"""
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return _JittedFunction(
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code_string, return_by_ref=True, num_outputs=num_outputs, **kwargs
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)
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