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/*===---- f16cintrin.h - F16C intrinsics -----------------------------------===
 *
 * 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
 *
 *===-----------------------------------------------------------------------===
 */

#if !defined __IMMINTRIN_H
#error "Never use <f16cintrin.h> directly; include <immintrin.h> instead."
#endif

#ifndef __F16CINTRIN_H
#define __F16CINTRIN_H

/* Define the default attributes for the functions in this file. */
#define __DEFAULT_FN_ATTRS128 \
  __attribute__((__always_inline__, __nodebug__, __target__("f16c"), __min_vector_width__(128)))
#define __DEFAULT_FN_ATTRS256 \
  __attribute__((__always_inline__, __nodebug__, __target__("f16c"), __min_vector_width__(256)))

/* NOTE: Intel documents the 128-bit versions of these as being in emmintrin.h,
 * but that's because icc can emulate these without f16c using a library call.
 * Since we don't do that let's leave these in f16cintrin.h.
 */

/// Converts a 16-bit half-precision float value into a 32-bit float
///    value.
///
/// \headerfile <x86intrin.h>
///
/// This intrinsic corresponds to the <c> VCVTPH2PS </c> instruction.
///
/// \param __a
///    A 16-bit half-precision float value.
/// \returns The converted 32-bit float value.
static __inline float __DEFAULT_FN_ATTRS128
_cvtsh_ss(unsigned short __a)
{
  __v8hi __v = {(short)__a, 0, 0, 0, 0, 0, 0, 0};
  __v4sf __r = __builtin_ia32_vcvtph2ps(__v);
  return __r[0];
}

/// Converts a 32-bit single-precision float value to a 16-bit
///    half-precision float value.
///
/// \headerfile <x86intrin.h>
///
/// \code
/// unsigned short _cvtss_sh(float a, const int imm);
/// \endcode
///
/// This intrinsic corresponds to the <c> VCVTPS2PH </c> instruction.
///
/// \param a
///    A 32-bit single-precision float value to be converted to a 16-bit
///    half-precision float value.
/// \param imm
///    An immediate value controlling rounding using bits [2:0]: \n
///    000: Nearest \n
///    001: Down \n
///    010: Up \n
///    011: Truncate \n
///    1XX: Use MXCSR.RC for rounding
/// \returns The converted 16-bit half-precision float value.
#define _cvtss_sh(a, imm) __extension__ ({ \
  (unsigned short)(((__v8hi)__builtin_ia32_vcvtps2ph((__v4sf){a, 0, 0, 0}, \
                                                     (imm)))[0]); })

/// Converts a 128-bit vector containing 32-bit float values into a
///    128-bit vector containing 16-bit half-precision float values.
///
/// \headerfile <x86intrin.h>
///
/// \code
/// __m128i _mm_cvtps_ph(__m128 a, const int imm);
/// \endcode
///
/// This intrinsic corresponds to the <c> VCVTPS2PH </c> instruction.
///
/// \param a
///    A 128-bit vector containing 32-bit float values.
/// \param imm
///    An immediate value controlling rounding using bits [2:0]: \n
///    000: Nearest \n
///    001: Down \n
///    010: Up \n
///    011: Truncate \n
///    1XX: Use MXCSR.RC for rounding
/// \returns A 128-bit vector containing converted 16-bit half-precision float
///    values. The lower 64 bits are used to store the converted 16-bit
///    half-precision floating-point values.
#define _mm_cvtps_ph(a, imm) \
  ((__m128i)__builtin_ia32_vcvtps2ph((__v4sf)(__m128)(a), (imm)))

/// Converts a 128-bit vector containing 16-bit half-precision float
///    values into a 128-bit vector containing 32-bit float values.
///
/// \headerfile <x86intrin.h>
///
/// This intrinsic corresponds to the <c> VCVTPH2PS </c> instruction.
///
/// \param __a
///    A 128-bit vector containing 16-bit half-precision float values. The lower
///    64 bits are used in the conversion.
/// \returns A 128-bit vector of [4 x float] containing converted float values.
static __inline __m128 __DEFAULT_FN_ATTRS128
_mm_cvtph_ps(__m128i __a)
{
  return (__m128)__builtin_ia32_vcvtph2ps((__v8hi)__a);
}

/// Converts a 256-bit vector of [8 x float] into a 128-bit vector
///    containing 16-bit half-precision float values.
///
/// \headerfile <x86intrin.h>
///
/// \code
/// __m128i _mm256_cvtps_ph(__m256 a, const int imm);
/// \endcode
///
/// This intrinsic corresponds to the <c> VCVTPS2PH </c> instruction.
///
/// \param a
///    A 256-bit vector containing 32-bit single-precision float values to be
///    converted to 16-bit half-precision float values.
/// \param imm
///    An immediate value controlling rounding using bits [2:0]: \n
///    000: Nearest \n
///    001: Down \n
///    010: Up \n
///    011: Truncate \n
///    1XX: Use MXCSR.RC for rounding
/// \returns A 128-bit vector containing the converted 16-bit half-precision
///    float values.
#define _mm256_cvtps_ph(a, imm) \
 ((__m128i)__builtin_ia32_vcvtps2ph256((__v8sf)(__m256)(a), (imm)))

/// Converts a 128-bit vector containing 16-bit half-precision float
///    values into a 256-bit vector of [8 x float].
///
/// \headerfile <x86intrin.h>
///
/// This intrinsic corresponds to the <c> VCVTPH2PS </c> instruction.
///
/// \param __a
///    A 128-bit vector containing 16-bit half-precision float values to be
///    converted to 32-bit single-precision float values.
/// \returns A vector of [8 x float] containing the converted 32-bit
///    single-precision float values.
static __inline __m256 __DEFAULT_FN_ATTRS256
_mm256_cvtph_ps(__m128i __a)
{
  return (__m256)__builtin_ia32_vcvtph2ps256((__v8hi)__a);
}

#undef __DEFAULT_FN_ATTRS128
#undef __DEFAULT_FN_ATTRS256

#endif /* __F16CINTRIN_H */

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