ComfyUI_extras_full / miniCUDA124 /include /crt /device_double_functions.hpp

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	/*
	* Copyright 1993-2017 NVIDIA Corporation. All rights reserved.
	*
	* NOTICE TO LICENSEE:
	*
	* This source code and/or documentation ("Licensed Deliverables") are
	* subject to NVIDIA intellectual property rights under U.S. and
	* international Copyright laws.
	*
	* These Licensed Deliverables contained herein is PROPRIETARY and
	* CONFIDENTIAL to NVIDIA and is being provided under the terms and
	* conditions of a form of NVIDIA software license agreement by and
	* between NVIDIA and Licensee ("License Agreement") or electronically
	* accepted by Licensee. Notwithstanding any terms or conditions to
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	* of the Licensed Deliverables to any third party without the express
	* written consent of NVIDIA is prohibited.
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	* U.S. Government End Users. These Licensed Deliverables are a
	* "commercial item" as that term is defined at 48 C.F.R. 2.101 (OCT
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	* computer software documentation" as such terms are used in 48
	* C.F.R. 12.212 (SEPT 1995) and is provided to the U.S. Government
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	* 48 C.F.R. 227.7202-1 through 227.7202-4 (JUNE 1995), all
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	* Any use of the Licensed Deliverables in individual and commercial
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	*/

	#if !defined(__CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS__)
	#if defined(_MSC_VER)
	#pragma message("crt/device_double_functions.hpp is an internal header file and must not be used directly. Please use cuda_runtime_api.h or cuda_runtime.h instead.")
	#else
	#warning "crt/device_double_functions.hpp is an internal header file and must not be used directly. Please use cuda_runtime_api.h or cuda_runtime.h instead."
	#endif
	#define __CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS__
	#define __UNDEF_CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS_DEVICE_DOUBLE_FUNCTIONS_HPP__
	#endif

	#if !defined(__DEVICE_DOUBLE_FUNCTIONS_HPP__)
	#define __DEVICE_DOUBLE_FUNCTIONS_HPP__

	/*******************************************************************************
	* *
	* *
	* *
	*******************************************************************************/

	#if defined(__cplusplus) && defined(__CUDACC__)

	/*******************************************************************************
	* *
	* *
	* *
	*******************************************************************************/

	#if defined(__CUDACC_RTC__)
	#define __DEVICE_DOUBLE_FUNCTIONS_DECL__ __device__
	#else
	#define __DEVICE_DOUBLE_FUNCTIONS_DECL__ static __inline__ __device__
	#endif /* __CUDACC_RTC__ */

	#include "builtin_types.h"
	#include "device_types.h"
	#include "host_defines.h"

	/*******************************************************************************
	* *
	* *
	* *
	*******************************************************************************/

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ double fma(double a, double b, double c, enum cudaRoundMode mode)
	{
	return mode == cudaRoundZero ? __fma_rz(a, b, c) :
	mode == cudaRoundPosInf ? __fma_ru(a, b, c) :
	mode == cudaRoundMinInf ? __fma_rd(a, b, c) :
	__fma_rn(a, b, c);
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ double dmul(double a, double b, enum cudaRoundMode mode)
	{
	return mode == cudaRoundZero ? __dmul_rz(a, b) :
	mode == cudaRoundPosInf ? __dmul_ru(a, b) :
	mode == cudaRoundMinInf ? __dmul_rd(a, b) :
	__dmul_rn(a, b);
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ double dadd(double a, double b, enum cudaRoundMode mode)
	{
	return mode == cudaRoundZero ? __dadd_rz(a, b) :
	mode == cudaRoundPosInf ? __dadd_ru(a, b) :
	mode == cudaRoundMinInf ? __dadd_rd(a, b) :
	__dadd_rn(a, b);
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ double dsub(double a, double b, enum cudaRoundMode mode)
	{
	return mode == cudaRoundZero ? __dsub_rz(a, b) :
	mode == cudaRoundPosInf ? __dsub_ru(a, b) :
	mode == cudaRoundMinInf ? __dsub_rd(a, b) :
	__dsub_rn(a, b);
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ int double2int(double a, enum cudaRoundMode mode)
	{
	return mode == cudaRoundNearest ? __double2int_rn(a) :
	mode == cudaRoundPosInf ? __double2int_ru(a) :
	mode == cudaRoundMinInf ? __double2int_rd(a) :
	__double2int_rz(a);
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ unsigned int double2uint(double a, enum cudaRoundMode mode)
	{
	return mode == cudaRoundNearest ? __double2uint_rn(a) :
	mode == cudaRoundPosInf ? __double2uint_ru(a) :
	mode == cudaRoundMinInf ? __double2uint_rd(a) :
	__double2uint_rz(a);
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ long long int double2ll(double a, enum cudaRoundMode mode)
	{
	return mode == cudaRoundNearest ? __double2ll_rn(a) :
	mode == cudaRoundPosInf ? __double2ll_ru(a) :
	mode == cudaRoundMinInf ? __double2ll_rd(a) :
	__double2ll_rz(a);
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ unsigned long long int double2ull(double a, enum cudaRoundMode mode)
	{
	return mode == cudaRoundNearest ? __double2ull_rn(a) :
	mode == cudaRoundPosInf ? __double2ull_ru(a) :
	mode == cudaRoundMinInf ? __double2ull_rd(a) :
	__double2ull_rz(a);
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ double ll2double(long long int a, enum cudaRoundMode mode)
	{
	return mode == cudaRoundZero ? __ll2double_rz(a) :
	mode == cudaRoundPosInf ? __ll2double_ru(a) :
	mode == cudaRoundMinInf ? __ll2double_rd(a) :
	__ll2double_rn(a);
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ double ull2double(unsigned long long int a, enum cudaRoundMode mode)
	{
	return mode == cudaRoundZero ? __ull2double_rz(a) :
	mode == cudaRoundPosInf ? __ull2double_ru(a) :
	mode == cudaRoundMinInf ? __ull2double_rd(a) :
	__ull2double_rn(a);
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ double int2double(int a, enum cudaRoundMode mode)
	{
	return (double)a;
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ double uint2double(unsigned int a, enum cudaRoundMode mode)
	{
	return (double)a;
	}

	__DEVICE_DOUBLE_FUNCTIONS_DECL__ double float2double(float a, enum cudaRoundMode mode)
	{
	return (double)a;
	}

	#undef __DEVICE_DOUBLE_FUNCTIONS_DECL__

	#endif /* __cplusplus && __CUDACC__ */

	#endif /* !__DEVICE_DOUBLE_FUNCTIONS_HPP__ */

	#if defined(__UNDEF_CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS_DEVICE_DOUBLE_FUNCTIONS_HPP__)
	#undef __CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS__
	#undef __UNDEF_CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS_DEVICE_DOUBLE_FUNCTIONS_HPP__
	#endif