flang/runtime/complex-reduction.h - llvm-project - Git at Google

 /*===-- flang/runtime/complex-reduction.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
  *
  * ===-----------------------------------------------------------------------===
  */

 /* Wraps the C++-coded complex-valued SUM and PRODUCT reductions with
  * C-coded wrapper functions returning _Complex values, to avoid problems
  * with C++ build compilers that don't support C's _Complex.
  */

 #ifndef FORTRAN_RUNTIME_COMPLEX_REDUCTION_H_
 #define FORTRAN_RUNTIME_COMPLEX_REDUCTION_H_

 #include "flang/Runtime/entry-names.h"
 #include <complex.h>

 struct CppDescriptor; /* dummy type name for Fortran::runtime::Descriptor */

 #if defined(_MSC_VER) && !(defined(__clang_major__) && __clang_major__ >= 12)
 typedef _Fcomplex float_Complex_t;
 typedef _Dcomplex double_Complex_t;
 typedef _Lcomplex long_double_Complex_t;
 #else
 typedef float _Complex float_Complex_t;
 typedef double _Complex double_Complex_t;
 typedef long double long_double_Complex_t;
 #endif

 #define REDUCTION_ARGS \
   const struct CppDescriptor *x, const char *source, int line, int dim /*=0*/, \
       const struct CppDescriptor *mask /*=NULL*/
 #define REDUCTION_ARG_NAMES x, source, line, dim, mask

 float_Complex_t RTNAME(SumComplex2)(REDUCTION_ARGS);
 float_Complex_t RTNAME(SumComplex3)(REDUCTION_ARGS);
 float_Complex_t RTNAME(SumComplex4)(REDUCTION_ARGS);
 double_Complex_t RTNAME(SumComplex8)(REDUCTION_ARGS);
 long_double_Complex_t RTNAME(SumComplex10)(REDUCTION_ARGS);
 long_double_Complex_t RTNAME(SumComplex16)(REDUCTION_ARGS);

 float_Complex_t RTNAME(ProductComplex2)(REDUCTION_ARGS);
 float_Complex_t RTNAME(ProductComplex3)(REDUCTION_ARGS);
 float_Complex_t RTNAME(ProductComplex4)(REDUCTION_ARGS);
 double_Complex_t RTNAME(ProductComplex8)(REDUCTION_ARGS);
 long_double_Complex_t RTNAME(ProductComplex10)(REDUCTION_ARGS);
 long_double_Complex_t RTNAME(ProductComplex16)(REDUCTION_ARGS);

 #define DOT_PRODUCT_ARGS \
   const struct CppDescriptor *x, const struct CppDescriptor *y, \
       const char *source, int line, int dim /*=0*/, \
       const struct CppDescriptor *mask /*=NULL*/
 #define DOT_PRODUCT_ARG_NAMES x, y, source, line, dim, mask

 float_Complex_t RTNAME(DotProductComplex2)(DOT_PRODUCT_ARGS);
 float_Complex_t RTNAME(DotProductComplex3)(DOT_PRODUCT_ARGS);
 float_Complex_t RTNAME(DotProductComplex4)(DOT_PRODUCT_ARGS);
 double_Complex_t RTNAME(DotProductComplex8)(DOT_PRODUCT_ARGS);
 long_double_Complex_t RTNAME(DotProductComplex10)(DOT_PRODUCT_ARGS);
 long_double_Complex_t RTNAME(DotProductComplex16)(DOT_PRODUCT_ARGS);

 #endif // FORTRAN_RUNTIME_COMPLEX_REDUCTION_H_
	/===-- flang/runtime/complex-reduction.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
	*
	* ===-----------------------------------------------------------------------===
	*/

	/* Wraps the C++-coded complex-valued SUM and PRODUCT reductions with
	* C-coded wrapper functions returning _Complex values, to avoid problems
	* with C++ build compilers that don't support C's _Complex.
	*/

	#ifndef FORTRAN_RUNTIME_COMPLEX_REDUCTION_H_
	#define FORTRAN_RUNTIME_COMPLEX_REDUCTION_H_

	#include "flang/Runtime/entry-names.h"
	#include <complex.h>

	struct CppDescriptor; /* dummy type name for Fortran::runtime::Descriptor */

	#if defined(_MSC_VER) && !(defined(__clang_major__) && __clang_major__ >= 12)
	typedef _Fcomplex float_Complex_t;
	typedef _Dcomplex double_Complex_t;
	typedef _Lcomplex long_double_Complex_t;
	#else
	typedef float _Complex float_Complex_t;
	typedef double _Complex double_Complex_t;
	typedef long double long_double_Complex_t;
	#endif

	#define REDUCTION_ARGS \
	const struct CppDescriptor x, const char source, int line, int dim /=0/, \
	const struct CppDescriptor mask /=NULL*/
	#define REDUCTION_ARG_NAMES x, source, line, dim, mask

	float_Complex_t RTNAME(SumComplex2)(REDUCTION_ARGS);
	float_Complex_t RTNAME(SumComplex3)(REDUCTION_ARGS);
	float_Complex_t RTNAME(SumComplex4)(REDUCTION_ARGS);
	double_Complex_t RTNAME(SumComplex8)(REDUCTION_ARGS);
	long_double_Complex_t RTNAME(SumComplex10)(REDUCTION_ARGS);
	long_double_Complex_t RTNAME(SumComplex16)(REDUCTION_ARGS);

	float_Complex_t RTNAME(ProductComplex2)(REDUCTION_ARGS);
	float_Complex_t RTNAME(ProductComplex3)(REDUCTION_ARGS);
	float_Complex_t RTNAME(ProductComplex4)(REDUCTION_ARGS);
	double_Complex_t RTNAME(ProductComplex8)(REDUCTION_ARGS);
	long_double_Complex_t RTNAME(ProductComplex10)(REDUCTION_ARGS);
	long_double_Complex_t RTNAME(ProductComplex16)(REDUCTION_ARGS);

	#define DOT_PRODUCT_ARGS \
	const struct CppDescriptor x, const struct CppDescriptor y, \
	const char source, int line, int dim /=0*/, \
	const struct CppDescriptor mask /=NULL*/
	#define DOT_PRODUCT_ARG_NAMES x, y, source, line, dim, mask

	float_Complex_t RTNAME(DotProductComplex2)(DOT_PRODUCT_ARGS);
	float_Complex_t RTNAME(DotProductComplex3)(DOT_PRODUCT_ARGS);
	float_Complex_t RTNAME(DotProductComplex4)(DOT_PRODUCT_ARGS);
	double_Complex_t RTNAME(DotProductComplex8)(DOT_PRODUCT_ARGS);
	long_double_Complex_t RTNAME(DotProductComplex10)(DOT_PRODUCT_ARGS);
	long_double_Complex_t RTNAME(DotProductComplex16)(DOT_PRODUCT_ARGS);

	#endif // FORTRAN_RUNTIME_COMPLEX_REDUCTION_H_