src/core/NEON/wrapper/traits.h - platform/external/ComputeLibrary - Git at Google

 /*
  * Copyright (c) 2018-2021 Arm Limited.
  *
  * SPDX-License-Identifier: MIT
  *
  * Permission is hereby granted, free of charge, to any person obtaining a copy
  * of this software and associated documentation files (the "Software"), to
  * deal in the Software without restriction, including without limitation the
  * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
  * sell copies of the Software, and to permit persons to whom the Software is
  * furnished to do so, subject to the following conditions:
  *
  * The above copyright notice and this permission notice shall be included in all
  * copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
  * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
  * SOFTWARE.
  */
 #ifndef ARM_COMPUTE_WRAPPER_TRAITS_H
 #define ARM_COMPUTE_WRAPPER_TRAITS_H

 #include <arm_neon.h>

 #if defined(ARM_COMPUTE_ENABLE_SVE)
 #include <arm_sve.h>
 #endif /* defined(ARM_COMPUTE_ENABLE_SVE) */

 namespace arm_compute
 {
 namespace wrapper
 {
 namespace traits
 {
 // *INDENT-OFF*
 // clang-format off

 /** 64-bit vector tag */
 struct vector_64_tag {};
 /** 128-bit vector tag */
 struct vector_128_tag {};

 /** Create the appropriate SIMD vector given its type and size in terms of elements */
 template <typename T, int S> struct neon_vector;

 // Specializations
 #ifndef DOXYGEN_SKIP_THIS
 template <> struct neon_vector<uint8_t, 8>{ using scalar_type = uint8_t; using type = uint8x8_t; using tag_type = vector_64_tag; };
 template <> struct neon_vector<int8_t, 8>{ using scalar_type = int8_t; using type = int8x8_t; using tag_type = vector_64_tag; };
 template <> struct neon_vector<uint8_t, 16>{ using scalar_type = uint8_t; using type = uint8x16_t; using tag_type = vector_128_tag; };
 template <> struct neon_vector<int8_t, 16>{ using scalar_type = int8_t; using type = int8x16_t; using tag_type = vector_128_tag; };
 template <> struct neon_vector<uint16_t, 4>{ using scalar_type = uint16_t; using type = uint16x4_t; using tag_type = vector_64_tag; };
 template <> struct neon_vector<int16_t, 4>{ using scalar_type = int16_t; using type = int16x4_t; using tag_type = vector_64_tag; };
 template <> struct neon_vector<uint16_t, 8>{ using scalar_type = uint16_t; using type = uint16x8_t; using tag_type = vector_128_tag; };
 template <> struct neon_vector<uint16_t, 16>{ using scalar_type = uint16_t; using type = uint16x8x2_t; };
 template <> struct neon_vector<int16_t, 8>{ using scalar_type = int16_t; using type = int16x8_t; using tag_type = vector_128_tag; };
 template <> struct neon_vector<int16_t, 16>{ using scalar_type = int16_t; using type = int16x8x2_t; };
 template <> struct neon_vector<uint32_t, 2>{ using scalar_type = uint32_t; using type = uint32x2_t; using tag_type = vector_64_tag; };
 template <> struct neon_vector<int32_t, 2>{ using scalar_type = int32_t; using type = int32x2_t; using tag_type = vector_64_tag; };
 template <> struct neon_vector<uint32_t, 4>{ using scalar_type = uint32_t; using type = uint32x4_t; using tag_type = vector_128_tag; };
 template <> struct neon_vector<int32_t, 4>{ using scalar_type = int32_t; using type = int32x4_t; using tag_type = vector_128_tag; };
 template <> struct neon_vector<uint64_t, 1>{ using scalar_type = uint64_t;using type = uint64x1_t; using tag_type = vector_64_tag; };
 template <> struct neon_vector<int64_t, 1>{ using scalar_type = int64_t; using type = int64x1_t; using tag_type = vector_64_tag; };
 template <> struct neon_vector<uint64_t, 2>{ using scalar_type = uint64_t; using type = uint64x2_t; using tag_type = vector_128_tag; };
 template <> struct neon_vector<int64_t, 2>{ using scalar_type = int64_t; using type = int64x2_t; using tag_type = vector_128_tag; };
 template <> struct neon_vector<float_t, 2>{ using scalar_type = float_t; using type = float32x2_t; using tag_type = vector_64_tag; };
 template <> struct neon_vector<float_t, 4>{ using scalar_type = float_t; using type = float32x4_t; using tag_type = vector_128_tag; };

 #ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
 template <> struct neon_vector<float16_t, 4>{ using scalar_type = float16_t; using type = float16x4_t; using tag_type = vector_64_tag; };
 template <> struct neon_vector<float16_t, 8>{ using scalar_type = float16_t; using type = float16x8_t; using tag_type = vector_128_tag; };
 #endif // __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
 #endif /* DOXYGEN_SKIP_THIS */

 /**  Helper type template to get the type of a neon vector */
 template <typename T, int S> using neon_vector_t = typename neon_vector<T, S>::type;
 /**  Helper type template to get the tag type of a neon vector */
 template <typename T, int S> using neon_vector_tag_t = typename neon_vector<T, S>::tag_type;

 /** Vector bit-width enum class */
 enum class BitWidth
 {
     W64,  /**< 64-bit width */
     W128, /**< 128-bit width */
 };

 /** Create the appropriate SIMD vector given its type and size in terms of bits */
 template <typename T, BitWidth BW> struct neon_bitvector;
 // Specializations
 #ifndef DOXYGEN_SKIP_THIS
 template <> struct neon_bitvector<uint8_t, BitWidth::W64>{ using type = uint8x8_t; using tag_type = vector_64_tag; };
 template <> struct neon_bitvector<int8_t, BitWidth::W64>{ using type = int8x8_t; using tag_type = vector_64_tag; };
 template <> struct neon_bitvector<uint8_t, BitWidth::W128>{ using type = uint8x16_t; using tag_type = vector_128_tag; };
 template <> struct neon_bitvector<int8_t, BitWidth::W128>{ using type = int8x16_t; using tag_type = vector_128_tag; };
 template <> struct neon_bitvector<uint16_t, BitWidth::W64>{ using type = uint16x4_t; using tag_type = vector_64_tag; };
 template <> struct neon_bitvector<int16_t, BitWidth::W64>{ using type = int16x4_t; using tag_type = vector_64_tag; };
 template <> struct neon_bitvector<uint16_t, BitWidth::W128>{ using type = uint16x8_t; using tag_type = vector_128_tag; };
 template <> struct neon_bitvector<int16_t, BitWidth::W128>{ using type = int16x8_t; using tag_type = vector_128_tag; };
 template <> struct neon_bitvector<uint32_t, BitWidth::W64>{ using type = uint32x2_t; using tag_type = vector_64_tag; };
 template <> struct neon_bitvector<int32_t, BitWidth::W64>{ using type = int32x2_t; using tag_type = vector_64_tag; };
 template <> struct neon_bitvector<uint32_t, BitWidth::W128>{ using type = uint32x4_t; using tag_type = vector_128_tag; };
 template <> struct neon_bitvector<int32_t, BitWidth::W128>{ using type = int32x4_t; using tag_type = vector_128_tag; };
 template <> struct neon_bitvector<uint64_t, BitWidth::W64>{ using type = uint64x1_t; using tag_type = vector_64_tag; };
 template <> struct neon_bitvector<int64_t, BitWidth::W64>{ using type = int64x1_t; using tag_type = vector_64_tag; };
 template <> struct neon_bitvector<uint64_t, BitWidth::W128>{ using type = uint64x2_t; using tag_type = vector_128_tag; };
 template <> struct neon_bitvector<int64_t, BitWidth::W128>{ using type = int64x2_t; using tag_type = vector_128_tag; };
 template <> struct neon_bitvector<float_t, BitWidth::W64>{ using type = float32x2_t; using tag_type = vector_64_tag; };
 template <> struct neon_bitvector<float_t, BitWidth::W128>{ using type = float32x4_t; using tag_type = vector_128_tag; };
 #ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
 template <> struct neon_bitvector<float16_t, BitWidth::W64>{ using type = float16x4_t; using tag_type = vector_64_tag; };
 template <> struct neon_bitvector<float16_t, BitWidth::W128>{ using type = float16x8_t; using tag_type = vector_128_tag; };
 #endif // __ARM_FEATURE_FP16_VECTOR_ARITHMETIC


 #if defined(ARM_COMPUTE_ENABLE_SVE)
 /** Create the appropriate SVE vector given its type */
 template <typename T> struct sve_vector;

 template <> struct sve_vector<uint8_t>{ using scalar_type = uint8_t; using type = svuint8_t; };
 template <> struct sve_vector<int8_t>{ using scalar_type = int8_t; using type = svint8_t; };
 #endif /* defined(ARM_COMPUTE_ENABLE_SVE) */

 #endif /* DOXYGEN_SKIP_THIS */

 /**  Helper type template to get the type of a neon vector */
 template <typename T, BitWidth BW> using neon_bitvector_t = typename neon_bitvector<T, BW>::type;
 /**  Helper type template to get the tag type of a neon vector */
 template <typename T, BitWidth BW> using neon_bitvector_tag_t = typename neon_bitvector<T, BW>::tag_type;

 /** Promote a type */
 template <typename T> struct promote { };
 template <> struct promote<uint8_t> { using type = uint16_t; };
 template <> struct promote<int8_t> { using type = int16_t; };
 template <> struct promote<uint16_t> { using type = uint32_t; };
 template <> struct promote<int16_t> { using type = int32_t; };
 template <> struct promote<uint32_t> { using type = uint64_t; };
 template <> struct promote<int32_t> { using type = int64_t; };
 template <> struct promote<float> { using type = float; };
 template <> struct promote<half> { using type = half; };

 /** Get promoted type */
 template <typename T>
 using promote_t = typename promote<T>::type;

 // clang-format on
 // *INDENT-ON*
 } // namespace traits
 } // namespace wrapper
 } // namespace arm_compute
 #endif /* ARM_COMPUTE_WRAPPER_TRAITS_H */
	/*
	* Copyright (c) 2018-2021 Arm Limited.
	*
	* SPDX-License-Identifier: MIT
	*
	* Permission is hereby granted, free of charge, to any person obtaining a copy
	* of this software and associated documentation files (the "Software"), to
	* deal in the Software without restriction, including without limitation the
	* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
	* sell copies of the Software, and to permit persons to whom the Software is
	* furnished to do so, subject to the following conditions:
	*
	* The above copyright notice and this permission notice shall be included in all
	* copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
	* SOFTWARE.
	*/
	#ifndef ARM_COMPUTE_WRAPPER_TRAITS_H
	#define ARM_COMPUTE_WRAPPER_TRAITS_H

	#include <arm_neon.h>

	#if defined(ARM_COMPUTE_ENABLE_SVE)
	#include <arm_sve.h>
	#endif /* defined(ARM_COMPUTE_ENABLE_SVE) */

	namespace arm_compute
	{
	namespace wrapper
	{
	namespace traits
	{
	// INDENT-OFF
	// clang-format off

	/** 64-bit vector tag */
	struct vector_64_tag {};
	/** 128-bit vector tag */
	struct vector_128_tag {};

	/** Create the appropriate SIMD vector given its type and size in terms of elements */
	template <typename T, int S> struct neon_vector;

	// Specializations
	#ifndef DOXYGEN_SKIP_THIS
	template <> struct neon_vector<uint8_t, 8>{ using scalar_type = uint8_t; using type = uint8x8_t; using tag_type = vector_64_tag; };
	template <> struct neon_vector<int8_t, 8>{ using scalar_type = int8_t; using type = int8x8_t; using tag_type = vector_64_tag; };
	template <> struct neon_vector<uint8_t, 16>{ using scalar_type = uint8_t; using type = uint8x16_t; using tag_type = vector_128_tag; };
	template <> struct neon_vector<int8_t, 16>{ using scalar_type = int8_t; using type = int8x16_t; using tag_type = vector_128_tag; };
	template <> struct neon_vector<uint16_t, 4>{ using scalar_type = uint16_t; using type = uint16x4_t; using tag_type = vector_64_tag; };
	template <> struct neon_vector<int16_t, 4>{ using scalar_type = int16_t; using type = int16x4_t; using tag_type = vector_64_tag; };
	template <> struct neon_vector<uint16_t, 8>{ using scalar_type = uint16_t; using type = uint16x8_t; using tag_type = vector_128_tag; };
	template <> struct neon_vector<uint16_t, 16>{ using scalar_type = uint16_t; using type = uint16x8x2_t; };
	template <> struct neon_vector<int16_t, 8>{ using scalar_type = int16_t; using type = int16x8_t; using tag_type = vector_128_tag; };
	template <> struct neon_vector<int16_t, 16>{ using scalar_type = int16_t; using type = int16x8x2_t; };
	template <> struct neon_vector<uint32_t, 2>{ using scalar_type = uint32_t; using type = uint32x2_t; using tag_type = vector_64_tag; };
	template <> struct neon_vector<int32_t, 2>{ using scalar_type = int32_t; using type = int32x2_t; using tag_type = vector_64_tag; };
	template <> struct neon_vector<uint32_t, 4>{ using scalar_type = uint32_t; using type = uint32x4_t; using tag_type = vector_128_tag; };
	template <> struct neon_vector<int32_t, 4>{ using scalar_type = int32_t; using type = int32x4_t; using tag_type = vector_128_tag; };
	template <> struct neon_vector<uint64_t, 1>{ using scalar_type = uint64_t;using type = uint64x1_t; using tag_type = vector_64_tag; };
	template <> struct neon_vector<int64_t, 1>{ using scalar_type = int64_t; using type = int64x1_t; using tag_type = vector_64_tag; };
	template <> struct neon_vector<uint64_t, 2>{ using scalar_type = uint64_t; using type = uint64x2_t; using tag_type = vector_128_tag; };
	template <> struct neon_vector<int64_t, 2>{ using scalar_type = int64_t; using type = int64x2_t; using tag_type = vector_128_tag; };
	template <> struct neon_vector<float_t, 2>{ using scalar_type = float_t; using type = float32x2_t; using tag_type = vector_64_tag; };
	template <> struct neon_vector<float_t, 4>{ using scalar_type = float_t; using type = float32x4_t; using tag_type = vector_128_tag; };

	#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
	template <> struct neon_vector<float16_t, 4>{ using scalar_type = float16_t; using type = float16x4_t; using tag_type = vector_64_tag; };
	template <> struct neon_vector<float16_t, 8>{ using scalar_type = float16_t; using type = float16x8_t; using tag_type = vector_128_tag; };
	#endif // __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
	#endif /* DOXYGEN_SKIP_THIS */

	/** Helper type template to get the type of a neon vector */
	template <typename T, int S> using neon_vector_t = typename neon_vector<T, S>::type;
	/** Helper type template to get the tag type of a neon vector */
	template <typename T, int S> using neon_vector_tag_t = typename neon_vector<T, S>::tag_type;

	/** Vector bit-width enum class */
	enum class BitWidth
	{
	W64, /*< 64-bit width /
	W128, /*< 128-bit width /
	};

	/** Create the appropriate SIMD vector given its type and size in terms of bits */
	template <typename T, BitWidth BW> struct neon_bitvector;
	// Specializations
	#ifndef DOXYGEN_SKIP_THIS
	template <> struct neon_bitvector<uint8_t, BitWidth::W64>{ using type = uint8x8_t; using tag_type = vector_64_tag; };
	template <> struct neon_bitvector<int8_t, BitWidth::W64>{ using type = int8x8_t; using tag_type = vector_64_tag; };
	template <> struct neon_bitvector<uint8_t, BitWidth::W128>{ using type = uint8x16_t; using tag_type = vector_128_tag; };
	template <> struct neon_bitvector<int8_t, BitWidth::W128>{ using type = int8x16_t; using tag_type = vector_128_tag; };
	template <> struct neon_bitvector<uint16_t, BitWidth::W64>{ using type = uint16x4_t; using tag_type = vector_64_tag; };
	template <> struct neon_bitvector<int16_t, BitWidth::W64>{ using type = int16x4_t; using tag_type = vector_64_tag; };
	template <> struct neon_bitvector<uint16_t, BitWidth::W128>{ using type = uint16x8_t; using tag_type = vector_128_tag; };
	template <> struct neon_bitvector<int16_t, BitWidth::W128>{ using type = int16x8_t; using tag_type = vector_128_tag; };
	template <> struct neon_bitvector<uint32_t, BitWidth::W64>{ using type = uint32x2_t; using tag_type = vector_64_tag; };
	template <> struct neon_bitvector<int32_t, BitWidth::W64>{ using type = int32x2_t; using tag_type = vector_64_tag; };
	template <> struct neon_bitvector<uint32_t, BitWidth::W128>{ using type = uint32x4_t; using tag_type = vector_128_tag; };
	template <> struct neon_bitvector<int32_t, BitWidth::W128>{ using type = int32x4_t; using tag_type = vector_128_tag; };
	template <> struct neon_bitvector<uint64_t, BitWidth::W64>{ using type = uint64x1_t; using tag_type = vector_64_tag; };
	template <> struct neon_bitvector<int64_t, BitWidth::W64>{ using type = int64x1_t; using tag_type = vector_64_tag; };
	template <> struct neon_bitvector<uint64_t, BitWidth::W128>{ using type = uint64x2_t; using tag_type = vector_128_tag; };
	template <> struct neon_bitvector<int64_t, BitWidth::W128>{ using type = int64x2_t; using tag_type = vector_128_tag; };
	template <> struct neon_bitvector<float_t, BitWidth::W64>{ using type = float32x2_t; using tag_type = vector_64_tag; };
	template <> struct neon_bitvector<float_t, BitWidth::W128>{ using type = float32x4_t; using tag_type = vector_128_tag; };
	#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
	template <> struct neon_bitvector<float16_t, BitWidth::W64>{ using type = float16x4_t; using tag_type = vector_64_tag; };
	template <> struct neon_bitvector<float16_t, BitWidth::W128>{ using type = float16x8_t; using tag_type = vector_128_tag; };
	#endif // __ARM_FEATURE_FP16_VECTOR_ARITHMETIC


	#if defined(ARM_COMPUTE_ENABLE_SVE)
	/** Create the appropriate SVE vector given its type */
	template <typename T> struct sve_vector;

	template <> struct sve_vector<uint8_t>{ using scalar_type = uint8_t; using type = svuint8_t; };
	template <> struct sve_vector<int8_t>{ using scalar_type = int8_t; using type = svint8_t; };
	#endif /* defined(ARM_COMPUTE_ENABLE_SVE) */

	#endif /* DOXYGEN_SKIP_THIS */

	/** Helper type template to get the type of a neon vector */
	template <typename T, BitWidth BW> using neon_bitvector_t = typename neon_bitvector<T, BW>::type;
	/** Helper type template to get the tag type of a neon vector */
	template <typename T, BitWidth BW> using neon_bitvector_tag_t = typename neon_bitvector<T, BW>::tag_type;

	/** Promote a type */
	template <typename T> struct promote { };
	template <> struct promote<uint8_t> { using type = uint16_t; };
	template <> struct promote<int8_t> { using type = int16_t; };
	template <> struct promote<uint16_t> { using type = uint32_t; };
	template <> struct promote<int16_t> { using type = int32_t; };
	template <> struct promote<uint32_t> { using type = uint64_t; };
	template <> struct promote<int32_t> { using type = int64_t; };
	template <> struct promote<float> { using type = float; };
	template <> struct promote<half> { using type = half; };

	/** Get promoted type */
	template <typename T>
	using promote_t = typename promote<T>::type;

	// clang-format on
	// INDENT-ON
	} // namespace traits
	} // namespace wrapper
	} // namespace arm_compute
	#endif /* ARM_COMPUTE_WRAPPER_TRAITS_H */