include/flang/Runtime/transformational.h - llvm-project/flang - Git at Google

 //===-- include/flang/Runtime/transformational.h ----------------*- C++ -*-===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 // Defines the API for the type-independent transformational intrinsic functions
 // that rearrange data in arrays: CSHIFT, EOSHIFT, PACK, RESHAPE, SPREAD,
 // TRANSPOSE, and UNPACK.
 // These are naive allocating implementations; optimized forms that manipulate
 // pointer descriptors or that supply functional views of arrays remain to
 // be defined and may instead be part of lowering (see docs/ArrayComposition.md)
 // for details).

 #ifndef FORTRAN_RUNTIME_TRANSFORMATIONAL_H_
 #define FORTRAN_RUNTIME_TRANSFORMATIONAL_H_

 #include "flang/Common/float128.h"
 #include "flang/Runtime/cpp-type.h"
 #include "flang/Runtime/entry-names.h"
 #include <cinttypes>

 namespace Fortran::runtime {

 class Descriptor;

 extern "C" {

 void RTDECL(Reshape)(Descriptor &result, const Descriptor &source,
     const Descriptor &shape, const Descriptor *pad = nullptr,
     const Descriptor *order = nullptr, const char *sourceFile = nullptr,
     int line = 0);

 void RTDECL(BesselJn_2)(Descriptor &result, int32_t n1, int32_t n2, float x,
     float bn2, float bn2_1, const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselJn_3)(Descriptor &result, int32_t n1, int32_t n2, float x,
     float bn2, float bn2_1, const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselJn_4)(Descriptor &result, int32_t n1, int32_t n2, float x,
     float bn2, float bn2_1, const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselJn_8)(Descriptor &result, int32_t n1, int32_t n2, double x,
     double bn2, double bn2_1, const char *sourceFile = nullptr, int line = 0);

 #if LDBL_MANT_DIG == 64
 void RTDECL(BesselJn_10)(Descriptor &result, int32_t n1, int32_t n2,
     long double x, long double bn2, long double bn2_1,
     const char *sourceFile = nullptr, int line = 0);
 #endif

 #if LDBL_MANT_DIG == 113 || HAS_FLOAT128
 void RTDECL(BesselJn_16)(Descriptor &result, int32_t n1, int32_t n2,
     CppFloat128Type x, CppFloat128Type bn2, CppFloat128Type bn2_1,
     const char *sourceFile = nullptr, int line = 0);
 #endif

 void RTDECL(BesselJnX0_2)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselJnX0_3)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselJnX0_4)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselJnX0_8)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);

 #if LDBL_MANT_DIG == 64
 void RTDECL(BesselJnX0_10)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);
 #endif

 #if LDBL_MANT_DIG == 113 || HAS_FLOAT128
 void RTDECL(BesselJnX0_16)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);
 #endif

 void RTDECL(BesselYn_2)(Descriptor &result, int32_t n1, int32_t n2, float x,
     float bn1, float bn1_1, const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselYn_3)(Descriptor &result, int32_t n1, int32_t n2, float x,
     float bn1, float bn1_1, const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselYn_4)(Descriptor &result, int32_t n1, int32_t n2, float x,
     float bn1, float bn1_1, const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselYn_8)(Descriptor &result, int32_t n1, int32_t n2, double x,
     double bn1, double bn1_1, const char *sourceFile = nullptr, int line = 0);

 #if LDBL_MANT_DIG == 64
 void RTDECL(BesselYn_10)(Descriptor &result, int32_t n1, int32_t n2,
     long double x, long double bn1, long double bn1_1,
     const char *sourceFile = nullptr, int line = 0);
 #endif

 #if LDBL_MANT_DIG == 113 || HAS_FLOAT128
 void RTDECL(BesselYn_16)(Descriptor &result, int32_t n1, int32_t n2,
     CppFloat128Type x, CppFloat128Type bn1, CppFloat128Type bn1_1,
     const char *sourceFile = nullptr, int line = 0);
 #endif

 void RTDECL(BesselYnX0_2)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselYnX0_3)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselYnX0_4)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);

 void RTDECL(BesselYnX0_8)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);

 #if LDBL_MANT_DIG == 64
 void RTDECL(BesselYnX0_10)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);
 #endif

 #if LDBL_MANT_DIG == 113 || HAS_FLOAT128
 void RTDECL(BesselYnX0_16)(Descriptor &result, int32_t n1, int32_t n2,
     const char *sourceFile = nullptr, int line = 0);
 #endif

 void RTDECL(Cshift)(Descriptor &result, const Descriptor &source,
     const Descriptor &shift, int dim = 1, const char *sourceFile = nullptr,
     int line = 0);
 void RTDECL(CshiftVector)(Descriptor &result, const Descriptor &source,
     std::int64_t shift, const char *sourceFile = nullptr, int line = 0);

 void RTDECL(Eoshift)(Descriptor &result, const Descriptor &source,
     const Descriptor &shift, const Descriptor *boundary = nullptr, int dim = 1,
     const char *sourceFile = nullptr, int line = 0);
 void RTDECL(EoshiftVector)(Descriptor &result, const Descriptor &source,
     std::int64_t shift, const Descriptor *boundary = nullptr,
     const char *sourceFile = nullptr, int line = 0);

 void RTDECL(Pack)(Descriptor &result, const Descriptor &source,
     const Descriptor &mask, const Descriptor *vector = nullptr,
     const char *sourceFile = nullptr, int line = 0);

 void RTDECL(Spread)(Descriptor &result, const Descriptor &source, int dim,
     std::int64_t ncopies, const char *sourceFile = nullptr, int line = 0);

 void RTDECL(Transpose)(Descriptor &result, const Descriptor &matrix,
     const char *sourceFile = nullptr, int line = 0);

 void RTDECL(Unpack)(Descriptor &result, const Descriptor &vector,
     const Descriptor &mask, const Descriptor &field,
     const char *sourceFile = nullptr, int line = 0);

 } // extern "C"
 } // namespace Fortran::runtime
 #endif // FORTRAN_RUNTIME_TRANSFORMATIONAL_H_
	//===-- include/flang/Runtime/transformational.h ----------------- C++ --===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	// Defines the API for the type-independent transformational intrinsic functions
	// that rearrange data in arrays: CSHIFT, EOSHIFT, PACK, RESHAPE, SPREAD,
	// TRANSPOSE, and UNPACK.
	// These are naive allocating implementations; optimized forms that manipulate
	// pointer descriptors or that supply functional views of arrays remain to
	// be defined and may instead be part of lowering (see docs/ArrayComposition.md)
	// for details).

	#ifndef FORTRAN_RUNTIME_TRANSFORMATIONAL_H_
	#define FORTRAN_RUNTIME_TRANSFORMATIONAL_H_

	#include "flang/Common/float128.h"
	#include "flang/Runtime/cpp-type.h"
	#include "flang/Runtime/entry-names.h"
	#include <cinttypes>

	namespace Fortran::runtime {

	class Descriptor;

	extern "C" {

	void RTDECL(Reshape)(Descriptor &result, const Descriptor &source,
	const Descriptor &shape, const Descriptor *pad = nullptr,
	const Descriptor order = nullptr, const char sourceFile = nullptr,
	int line = 0);

	void RTDECL(BesselJn_2)(Descriptor &result, int32_t n1, int32_t n2, float x,
	float bn2, float bn2_1, const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselJn_3)(Descriptor &result, int32_t n1, int32_t n2, float x,
	float bn2, float bn2_1, const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselJn_4)(Descriptor &result, int32_t n1, int32_t n2, float x,
	float bn2, float bn2_1, const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselJn_8)(Descriptor &result, int32_t n1, int32_t n2, double x,
	double bn2, double bn2_1, const char *sourceFile = nullptr, int line = 0);

	#if LDBL_MANT_DIG == 64
	void RTDECL(BesselJn_10)(Descriptor &result, int32_t n1, int32_t n2,
	long double x, long double bn2, long double bn2_1,
	const char *sourceFile = nullptr, int line = 0);
	#endif

	#if LDBL_MANT_DIG == 113 \|\| HAS_FLOAT128
	void RTDECL(BesselJn_16)(Descriptor &result, int32_t n1, int32_t n2,
	CppFloat128Type x, CppFloat128Type bn2, CppFloat128Type bn2_1,
	const char *sourceFile = nullptr, int line = 0);
	#endif

	void RTDECL(BesselJnX0_2)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselJnX0_3)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselJnX0_4)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselJnX0_8)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);

	#if LDBL_MANT_DIG == 64
	void RTDECL(BesselJnX0_10)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);
	#endif

	#if LDBL_MANT_DIG == 113 \|\| HAS_FLOAT128
	void RTDECL(BesselJnX0_16)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);
	#endif

	void RTDECL(BesselYn_2)(Descriptor &result, int32_t n1, int32_t n2, float x,
	float bn1, float bn1_1, const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselYn_3)(Descriptor &result, int32_t n1, int32_t n2, float x,
	float bn1, float bn1_1, const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselYn_4)(Descriptor &result, int32_t n1, int32_t n2, float x,
	float bn1, float bn1_1, const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselYn_8)(Descriptor &result, int32_t n1, int32_t n2, double x,
	double bn1, double bn1_1, const char *sourceFile = nullptr, int line = 0);

	#if LDBL_MANT_DIG == 64
	void RTDECL(BesselYn_10)(Descriptor &result, int32_t n1, int32_t n2,
	long double x, long double bn1, long double bn1_1,
	const char *sourceFile = nullptr, int line = 0);
	#endif

	#if LDBL_MANT_DIG == 113 \|\| HAS_FLOAT128
	void RTDECL(BesselYn_16)(Descriptor &result, int32_t n1, int32_t n2,
	CppFloat128Type x, CppFloat128Type bn1, CppFloat128Type bn1_1,
	const char *sourceFile = nullptr, int line = 0);
	#endif

	void RTDECL(BesselYnX0_2)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselYnX0_3)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselYnX0_4)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);

	void RTDECL(BesselYnX0_8)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);

	#if LDBL_MANT_DIG == 64
	void RTDECL(BesselYnX0_10)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);
	#endif

	#if LDBL_MANT_DIG == 113 \|\| HAS_FLOAT128
	void RTDECL(BesselYnX0_16)(Descriptor &result, int32_t n1, int32_t n2,
	const char *sourceFile = nullptr, int line = 0);
	#endif

	void RTDECL(Cshift)(Descriptor &result, const Descriptor &source,
	const Descriptor &shift, int dim = 1, const char *sourceFile = nullptr,
	int line = 0);
	void RTDECL(CshiftVector)(Descriptor &result, const Descriptor &source,
	std::int64_t shift, const char *sourceFile = nullptr, int line = 0);

	void RTDECL(Eoshift)(Descriptor &result, const Descriptor &source,
	const Descriptor &shift, const Descriptor *boundary = nullptr, int dim = 1,
	const char *sourceFile = nullptr, int line = 0);
	void RTDECL(EoshiftVector)(Descriptor &result, const Descriptor &source,
	std::int64_t shift, const Descriptor *boundary = nullptr,
	const char *sourceFile = nullptr, int line = 0);

	void RTDECL(Pack)(Descriptor &result, const Descriptor &source,
	const Descriptor &mask, const Descriptor *vector = nullptr,
	const char *sourceFile = nullptr, int line = 0);

	void RTDECL(Spread)(Descriptor &result, const Descriptor &source, int dim,
	std::int64_t ncopies, const char *sourceFile = nullptr, int line = 0);

	void RTDECL(Transpose)(Descriptor &result, const Descriptor &matrix,
	const char *sourceFile = nullptr, int line = 0);

	void RTDECL(Unpack)(Descriptor &result, const Descriptor &vector,
	const Descriptor &mask, const Descriptor &field,
	const char *sourceFile = nullptr, int line = 0);

	} // extern "C"
	} // namespace Fortran::runtime
	#endif // FORTRAN_RUNTIME_TRANSFORMATIONAL_H_