clang/lib/Headers/__clang_cuda_math_forward_declares.h - llvm-project - Git at Google

 /*===- __clang_math_forward_declares.h - Prototypes of __device__ math fns --===
  *
  * Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
  * See https://llvm.org/LICENSE.txt for license information.
  * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
  *
  *===-----------------------------------------------------------------------===
  */
 #ifndef __CLANG__CUDA_MATH_FORWARD_DECLARES_H__
 #define __CLANG__CUDA_MATH_FORWARD_DECLARES_H__
 #if !defined(__CUDA__) && !__HIP__
 #error "This file is for CUDA/HIP compilation only."
 #endif

 // This file forward-declares of some math functions we (or the CUDA headers)
 // will define later.  We need to do this, and do it before cmath is included,
 // because the standard library may have constexpr math functions.  In the
 // absence of a prior __device__ decl, those constexpr functions may become
 // implicitly host+device.  host+device functions can't be overloaded, so that
 // would preclude the use of our own __device__ overloads for these functions.

 #pragma push_macro("__DEVICE__")
 #define __DEVICE__                                                             \
   static __inline__ __attribute__((always_inline)) __attribute__((device))

 __DEVICE__ long abs(long);
 __DEVICE__ long long abs(long long);
 __DEVICE__ double abs(double);
 __DEVICE__ float abs(float);
 __DEVICE__ int abs(int);
 __DEVICE__ double acos(double);
 __DEVICE__ float acos(float);
 __DEVICE__ double acosh(double);
 __DEVICE__ float acosh(float);
 __DEVICE__ double asin(double);
 __DEVICE__ float asin(float);
 __DEVICE__ double asinh(double);
 __DEVICE__ float asinh(float);
 __DEVICE__ double atan2(double, double);
 __DEVICE__ float atan2(float, float);
 __DEVICE__ double atan(double);
 __DEVICE__ float atan(float);
 __DEVICE__ double atanh(double);
 __DEVICE__ float atanh(float);
 __DEVICE__ double cbrt(double);
 __DEVICE__ float cbrt(float);
 __DEVICE__ double ceil(double);
 __DEVICE__ float ceil(float);
 __DEVICE__ double copysign(double, double);
 __DEVICE__ float copysign(float, float);
 __DEVICE__ double cos(double);
 __DEVICE__ float cos(float);
 __DEVICE__ double cosh(double);
 __DEVICE__ float cosh(float);
 __DEVICE__ double erfc(double);
 __DEVICE__ float erfc(float);
 __DEVICE__ double erf(double);
 __DEVICE__ float erf(float);
 __DEVICE__ double exp2(double);
 __DEVICE__ float exp2(float);
 __DEVICE__ double exp(double);
 __DEVICE__ float exp(float);
 __DEVICE__ double expm1(double);
 __DEVICE__ float expm1(float);
 __DEVICE__ double fabs(double);
 __DEVICE__ float fabs(float);
 __DEVICE__ double fdim(double, double);
 __DEVICE__ float fdim(float, float);
 __DEVICE__ double floor(double);
 __DEVICE__ float floor(float);
 __DEVICE__ double fma(double, double, double);
 __DEVICE__ float fma(float, float, float);
 __DEVICE__ double fmax(double, double);
 __DEVICE__ float fmax(float, float);
 __DEVICE__ double fmin(double, double);
 __DEVICE__ float fmin(float, float);
 __DEVICE__ double fmod(double, double);
 __DEVICE__ float fmod(float, float);
 __DEVICE__ int fpclassify(double);
 __DEVICE__ int fpclassify(float);
 __DEVICE__ double frexp(double, int *);
 __DEVICE__ float frexp(float, int *);
 __DEVICE__ double hypot(double, double);
 __DEVICE__ float hypot(float, float);
 __DEVICE__ int ilogb(double);
 __DEVICE__ int ilogb(float);
 #ifdef _MSC_VER
 __DEVICE__ bool isfinite(long double);
 #endif
 __DEVICE__ bool isfinite(double);
 __DEVICE__ bool isfinite(float);
 __DEVICE__ bool isgreater(double, double);
 __DEVICE__ bool isgreaterequal(double, double);
 __DEVICE__ bool isgreaterequal(float, float);
 __DEVICE__ bool isgreater(float, float);
 #ifdef _MSC_VER
 __DEVICE__ bool isinf(long double);
 #endif
 __DEVICE__ bool isinf(double);
 __DEVICE__ bool isinf(float);
 __DEVICE__ bool isless(double, double);
 __DEVICE__ bool islessequal(double, double);
 __DEVICE__ bool islessequal(float, float);
 __DEVICE__ bool isless(float, float);
 __DEVICE__ bool islessgreater(double, double);
 __DEVICE__ bool islessgreater(float, float);
 #ifdef _MSC_VER
 __DEVICE__ bool isnan(long double);
 #endif
 __DEVICE__ bool isnan(double);
 __DEVICE__ bool isnan(float);
 __DEVICE__ bool isnormal(double);
 __DEVICE__ bool isnormal(float);
 __DEVICE__ bool isunordered(double, double);
 __DEVICE__ bool isunordered(float, float);
 __DEVICE__ long labs(long);
 __DEVICE__ double ldexp(double, int);
 __DEVICE__ float ldexp(float, int);
 __DEVICE__ double lgamma(double);
 __DEVICE__ float lgamma(float);
 __DEVICE__ long long llabs(long long);
 __DEVICE__ long long llrint(double);
 __DEVICE__ long long llrint(float);
 __DEVICE__ double log10(double);
 __DEVICE__ float log10(float);
 __DEVICE__ double log1p(double);
 __DEVICE__ float log1p(float);
 __DEVICE__ double log2(double);
 __DEVICE__ float log2(float);
 __DEVICE__ double logb(double);
 __DEVICE__ float logb(float);
 __DEVICE__ double log(double);
 __DEVICE__ float log(float);
 __DEVICE__ long lrint(double);
 __DEVICE__ long lrint(float);
 __DEVICE__ long lround(double);
 __DEVICE__ long lround(float);
 __DEVICE__ long long llround(float); // No llround(double).
 __DEVICE__ double modf(double, double *);
 __DEVICE__ float modf(float, float *);
 __DEVICE__ double nan(const char *);
 __DEVICE__ float nanf(const char *);
 __DEVICE__ double nearbyint(double);
 __DEVICE__ float nearbyint(float);
 __DEVICE__ double nextafter(double, double);
 __DEVICE__ float nextafter(float, float);
 __DEVICE__ double pow(double, double);
 __DEVICE__ double pow(double, int);
 __DEVICE__ float pow(float, float);
 __DEVICE__ float pow(float, int);
 __DEVICE__ double remainder(double, double);
 __DEVICE__ float remainder(float, float);
 __DEVICE__ double remquo(double, double, int *);
 __DEVICE__ float remquo(float, float, int *);
 __DEVICE__ double rint(double);
 __DEVICE__ float rint(float);
 __DEVICE__ double round(double);
 __DEVICE__ float round(float);
 __DEVICE__ double scalbln(double, long);
 __DEVICE__ float scalbln(float, long);
 __DEVICE__ double scalbn(double, int);
 __DEVICE__ float scalbn(float, int);
 #ifdef _MSC_VER
 __DEVICE__ bool signbit(long double);
 #endif
 __DEVICE__ bool signbit(double);
 __DEVICE__ bool signbit(float);
 __DEVICE__ double sin(double);
 __DEVICE__ float sin(float);
 __DEVICE__ double sinh(double);
 __DEVICE__ float sinh(float);
 __DEVICE__ double sqrt(double);
 __DEVICE__ float sqrt(float);
 __DEVICE__ double tan(double);
 __DEVICE__ float tan(float);
 __DEVICE__ double tanh(double);
 __DEVICE__ float tanh(float);
 __DEVICE__ double tgamma(double);
 __DEVICE__ float tgamma(float);
 __DEVICE__ double trunc(double);
 __DEVICE__ float trunc(float);

 // Notably missing above is nexttoward, which we don't define on
 // the device side because libdevice doesn't give us an implementation, and we
 // don't want to be in the business of writing one ourselves.

 // We need to define these overloads in exactly the namespace our standard
 // library uses (including the right inline namespace), otherwise they won't be
 // picked up by other functions in the standard library (e.g. functions in
 // <complex>).  Thus the ugliness below.
 #ifdef _LIBCPP_BEGIN_NAMESPACE_STD
 _LIBCPP_BEGIN_NAMESPACE_STD
 #else
 namespace std {
 #ifdef _GLIBCXX_BEGIN_NAMESPACE_VERSION
 _GLIBCXX_BEGIN_NAMESPACE_VERSION
 #endif
 #endif

 using ::abs;
 using ::acos;
 using ::acosh;
 using ::asin;
 using ::asinh;
 using ::atan;
 using ::atan2;
 using ::atanh;
 using ::cbrt;
 using ::ceil;
 using ::copysign;
 using ::cos;
 using ::cosh;
 using ::erf;
 using ::erfc;
 using ::exp;
 using ::exp2;
 using ::expm1;
 using ::fabs;
 using ::fdim;
 using ::floor;
 using ::fma;
 using ::fmax;
 using ::fmin;
 using ::fmod;
 using ::fpclassify;
 using ::frexp;
 using ::hypot;
 using ::ilogb;
 using ::isfinite;
 using ::isgreater;
 using ::isgreaterequal;
 using ::isinf;
 using ::isless;
 using ::islessequal;
 using ::islessgreater;
 using ::isnan;
 using ::isnormal;
 using ::isunordered;
 using ::labs;
 using ::ldexp;
 using ::lgamma;
 using ::llabs;
 using ::llrint;
 using ::log;
 using ::log10;
 using ::log1p;
 using ::log2;
 using ::logb;
 using ::lrint;
 using ::lround;
 using ::llround;
 using ::modf;
 using ::nan;
 using ::nanf;
 using ::nearbyint;
 using ::nextafter;
 using ::pow;
 using ::remainder;
 using ::remquo;
 using ::rint;
 using ::round;
 using ::scalbln;
 using ::scalbn;
 using ::signbit;
 using ::sin;
 using ::sinh;
 using ::sqrt;
 using ::tan;
 using ::tanh;
 using ::tgamma;
 using ::trunc;

 #ifdef _LIBCPP_END_NAMESPACE_STD
 _LIBCPP_END_NAMESPACE_STD
 #else
 #ifdef _GLIBCXX_BEGIN_NAMESPACE_VERSION
 _GLIBCXX_END_NAMESPACE_VERSION
 #endif
 } // namespace std
 #endif

 #pragma pop_macro("__DEVICE__")

 #endif
	/*===- __clang_math_forward_declares.h - Prototypes of __device__ math fns --===
	*
	* Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	* See https://llvm.org/LICENSE.txt for license information.
	* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	*
	*===-----------------------------------------------------------------------===
	*/
	#ifndef __CLANG__CUDA_MATH_FORWARD_DECLARES_H__
	#define __CLANG__CUDA_MATH_FORWARD_DECLARES_H__
	#if !defined(__CUDA__) && !__HIP__
	#error "This file is for CUDA/HIP compilation only."
	#endif

	// This file forward-declares of some math functions we (or the CUDA headers)
	// will define later. We need to do this, and do it before cmath is included,
	// because the standard library may have constexpr math functions. In the
	// absence of a prior __device__ decl, those constexpr functions may become
	// implicitly host+device. host+device functions can't be overloaded, so that
	// would preclude the use of our own __device__ overloads for these functions.

	#pragma push_macro("__DEVICE__")
	#define __DEVICE__ \
	static __inline__ __attribute__((always_inline)) __attribute__((device))

	__DEVICE__ long abs(long);
	__DEVICE__ long long abs(long long);
	__DEVICE__ double abs(double);
	__DEVICE__ float abs(float);
	__DEVICE__ int abs(int);
	__DEVICE__ double acos(double);
	__DEVICE__ float acos(float);
	__DEVICE__ double acosh(double);
	__DEVICE__ float acosh(float);
	__DEVICE__ double asin(double);
	__DEVICE__ float asin(float);
	__DEVICE__ double asinh(double);
	__DEVICE__ float asinh(float);
	__DEVICE__ double atan2(double, double);
	__DEVICE__ float atan2(float, float);
	__DEVICE__ double atan(double);
	__DEVICE__ float atan(float);
	__DEVICE__ double atanh(double);
	__DEVICE__ float atanh(float);
	__DEVICE__ double cbrt(double);
	__DEVICE__ float cbrt(float);
	__DEVICE__ double ceil(double);
	__DEVICE__ float ceil(float);
	__DEVICE__ double copysign(double, double);
	__DEVICE__ float copysign(float, float);
	__DEVICE__ double cos(double);
	__DEVICE__ float cos(float);
	__DEVICE__ double cosh(double);
	__DEVICE__ float cosh(float);
	__DEVICE__ double erfc(double);
	__DEVICE__ float erfc(float);
	__DEVICE__ double erf(double);
	__DEVICE__ float erf(float);
	__DEVICE__ double exp2(double);
	__DEVICE__ float exp2(float);
	__DEVICE__ double exp(double);
	__DEVICE__ float exp(float);
	__DEVICE__ double expm1(double);
	__DEVICE__ float expm1(float);
	__DEVICE__ double fabs(double);
	__DEVICE__ float fabs(float);
	__DEVICE__ double fdim(double, double);
	__DEVICE__ float fdim(float, float);
	__DEVICE__ double floor(double);
	__DEVICE__ float floor(float);
	__DEVICE__ double fma(double, double, double);
	__DEVICE__ float fma(float, float, float);
	__DEVICE__ double fmax(double, double);
	__DEVICE__ float fmax(float, float);
	__DEVICE__ double fmin(double, double);
	__DEVICE__ float fmin(float, float);
	__DEVICE__ double fmod(double, double);
	__DEVICE__ float fmod(float, float);
	__DEVICE__ int fpclassify(double);
	__DEVICE__ int fpclassify(float);
	__DEVICE__ double frexp(double, int *);
	__DEVICE__ float frexp(float, int *);
	__DEVICE__ double hypot(double, double);
	__DEVICE__ float hypot(float, float);
	__DEVICE__ int ilogb(double);
	__DEVICE__ int ilogb(float);
	#ifdef _MSC_VER
	__DEVICE__ bool isfinite(long double);
	#endif
	__DEVICE__ bool isfinite(double);
	__DEVICE__ bool isfinite(float);
	__DEVICE__ bool isgreater(double, double);
	__DEVICE__ bool isgreaterequal(double, double);
	__DEVICE__ bool isgreaterequal(float, float);
	__DEVICE__ bool isgreater(float, float);
	#ifdef _MSC_VER
	__DEVICE__ bool isinf(long double);
	#endif
	__DEVICE__ bool isinf(double);
	__DEVICE__ bool isinf(float);
	__DEVICE__ bool isless(double, double);
	__DEVICE__ bool islessequal(double, double);
	__DEVICE__ bool islessequal(float, float);
	__DEVICE__ bool isless(float, float);
	__DEVICE__ bool islessgreater(double, double);
	__DEVICE__ bool islessgreater(float, float);
	#ifdef _MSC_VER
	__DEVICE__ bool isnan(long double);
	#endif
	__DEVICE__ bool isnan(double);
	__DEVICE__ bool isnan(float);
	__DEVICE__ bool isnormal(double);
	__DEVICE__ bool isnormal(float);
	__DEVICE__ bool isunordered(double, double);
	__DEVICE__ bool isunordered(float, float);
	__DEVICE__ long labs(long);
	__DEVICE__ double ldexp(double, int);
	__DEVICE__ float ldexp(float, int);
	__DEVICE__ double lgamma(double);
	__DEVICE__ float lgamma(float);
	__DEVICE__ long long llabs(long long);
	__DEVICE__ long long llrint(double);
	__DEVICE__ long long llrint(float);
	__DEVICE__ double log10(double);
	__DEVICE__ float log10(float);
	__DEVICE__ double log1p(double);
	__DEVICE__ float log1p(float);
	__DEVICE__ double log2(double);
	__DEVICE__ float log2(float);
	__DEVICE__ double logb(double);
	__DEVICE__ float logb(float);
	__DEVICE__ double log(double);
	__DEVICE__ float log(float);
	__DEVICE__ long lrint(double);
	__DEVICE__ long lrint(float);
	__DEVICE__ long lround(double);
	__DEVICE__ long lround(float);
	__DEVICE__ long long llround(float); // No llround(double).
	__DEVICE__ double modf(double, double *);
	__DEVICE__ float modf(float, float *);
	__DEVICE__ double nan(const char *);
	__DEVICE__ float nanf(const char *);
	__DEVICE__ double nearbyint(double);
	__DEVICE__ float nearbyint(float);
	__DEVICE__ double nextafter(double, double);
	__DEVICE__ float nextafter(float, float);
	__DEVICE__ double pow(double, double);
	__DEVICE__ double pow(double, int);
	__DEVICE__ float pow(float, float);
	__DEVICE__ float pow(float, int);
	__DEVICE__ double remainder(double, double);
	__DEVICE__ float remainder(float, float);
	__DEVICE__ double remquo(double, double, int *);
	__DEVICE__ float remquo(float, float, int *);
	__DEVICE__ double rint(double);
	__DEVICE__ float rint(float);
	__DEVICE__ double round(double);
	__DEVICE__ float round(float);
	__DEVICE__ double scalbln(double, long);
	__DEVICE__ float scalbln(float, long);
	__DEVICE__ double scalbn(double, int);
	__DEVICE__ float scalbn(float, int);
	#ifdef _MSC_VER
	__DEVICE__ bool signbit(long double);
	#endif
	__DEVICE__ bool signbit(double);
	__DEVICE__ bool signbit(float);
	__DEVICE__ double sin(double);
	__DEVICE__ float sin(float);
	__DEVICE__ double sinh(double);
	__DEVICE__ float sinh(float);
	__DEVICE__ double sqrt(double);
	__DEVICE__ float sqrt(float);
	__DEVICE__ double tan(double);
	__DEVICE__ float tan(float);
	__DEVICE__ double tanh(double);
	__DEVICE__ float tanh(float);
	__DEVICE__ double tgamma(double);
	__DEVICE__ float tgamma(float);
	__DEVICE__ double trunc(double);
	__DEVICE__ float trunc(float);

	// Notably missing above is nexttoward, which we don't define on
	// the device side because libdevice doesn't give us an implementation, and we
	// don't want to be in the business of writing one ourselves.

	// We need to define these overloads in exactly the namespace our standard
	// library uses (including the right inline namespace), otherwise they won't be
	// picked up by other functions in the standard library (e.g. functions in
	// <complex>). Thus the ugliness below.
	#ifdef _LIBCPP_BEGIN_NAMESPACE_STD
	_LIBCPP_BEGIN_NAMESPACE_STD
	#else
	namespace std {
	#ifdef _GLIBCXX_BEGIN_NAMESPACE_VERSION
	_GLIBCXX_BEGIN_NAMESPACE_VERSION
	#endif
	#endif

	using ::abs;
	using ::acos;
	using ::acosh;
	using ::asin;
	using ::asinh;
	using ::atan;
	using ::atan2;
	using ::atanh;
	using ::cbrt;
	using ::ceil;
	using ::copysign;
	using ::cos;
	using ::cosh;
	using ::erf;
	using ::erfc;
	using ::exp;
	using ::exp2;
	using ::expm1;
	using ::fabs;
	using ::fdim;
	using ::floor;
	using ::fma;
	using ::fmax;
	using ::fmin;
	using ::fmod;
	using ::fpclassify;
	using ::frexp;
	using ::hypot;
	using ::ilogb;
	using ::isfinite;
	using ::isgreater;
	using ::isgreaterequal;
	using ::isinf;
	using ::isless;
	using ::islessequal;
	using ::islessgreater;
	using ::isnan;
	using ::isnormal;
	using ::isunordered;
	using ::labs;
	using ::ldexp;
	using ::lgamma;
	using ::llabs;
	using ::llrint;
	using ::log;
	using ::log10;
	using ::log1p;
	using ::log2;
	using ::logb;
	using ::lrint;
	using ::lround;
	using ::llround;
	using ::modf;
	using ::nan;
	using ::nanf;
	using ::nearbyint;
	using ::nextafter;
	using ::pow;
	using ::remainder;
	using ::remquo;
	using ::rint;
	using ::round;
	using ::scalbln;
	using ::scalbn;
	using ::signbit;
	using ::sin;
	using ::sinh;
	using ::sqrt;
	using ::tan;
	using ::tanh;
	using ::tgamma;
	using ::trunc;

	#ifdef _LIBCPP_END_NAMESPACE_STD
	_LIBCPP_END_NAMESPACE_STD
	#else
	#ifdef _GLIBCXX_BEGIN_NAMESPACE_VERSION
	_GLIBCXX_END_NAMESPACE_VERSION
	#endif
	} // namespace std
	#endif

	#pragma pop_macro("__DEVICE__")

	#endif