* Copyright (c) 2025 Huawei Technologies Co., Ltd.
* This program is free software, you can redistribute it and/or modify it under the terms and conditions of
* CANN Open Software License Agreement Version 2.0 (the "License").
* Please refer to the License for details. You may not use this file except in compliance with the License.
* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, EITHER EXPRESS OR IMPLIED,
* INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, MERCHANTABILITY, OR FITNESS FOR A PARTICULAR PURPOSE.
* See LICENSE in the root of the software repository for the full text of the License.
*/
#if !defined(__ASCENDC_INCLUDE_INTERNAL_HEADERS__)
#pragma message("impl/adv_api/detail/select/selectwithbytesmask/selectwithbytesmask_common_impl.h is an internal header file and must not be used directly. Functions or variables defined in this file may be removed in the future. Please use \"#include \"adv_api/select/selectwithbytesmask.h\"\" and use public functions or variables defined in interface headers files.")
#define __ASCENDC_INCLUDE_INTERNAL_HEADERS__
#define __UNDEF_ASCENDC_INCLUDE_INTERNAL_HEADERS_SELECT_SELECTWITHBYTESMASK_SELECTWITHBYTESMASK_COMMON_IMPL_H__
#endif
#ifndef IMPL_SELECT_SELECT_WITH_BYTES_MASK_COMMON_IMPL_H
#define IMPL_SELECT_SELECT_WITH_BYTES_MASK_COMMON_IMPL_H
#include "kernel_tensor.h"
#include "kernel_basic_intf.h"
#include "kernel_utils.h"
#include "kernel_operator_vec_cmpsel_intf.h"
#include "kernel_operator_vec_vconv_intf.h"
namespace AscendC {
template <typename T> __aicore__ inline void InitScalarSelectMask(const LocalTensor<T> &tmpMask, T scalar)
{
SetVectorMask<half, MaskMode::COUNTER>(0, ONE_REPEAT_BYTE_SIZE / sizeof(T));
Duplicate<T, false>(tmpMask, static_cast<T>(scalar), MASK_PLACEHOLDER, 1, 1, 8);
PipeBarrier<PIPE_V>();
SetCmpMask(tmpMask);
PipeBarrier<PIPE_V>();
}
template <typename U>
__aicore__ inline void CastMaskToHalfImpl(const LocalTensor<half> &localMaskTmp, const LocalTensor<U> &mask)
{
if constexpr (sizeof(U) == 4) {
LocalTensor<float> tmpTensor = mask.template ReinterpretCast<float>();
Cast<half, float, false>(localMaskTmp, tmpTensor, RoundMode::CAST_ODD, MASK_PLACEHOLDER, 1,
{ 1, 1, DEFAULT_REPEAT_STRIDE / 2, DEFAULT_REPEAT_STRIDE });
} else if constexpr (sizeof(U) == 2) {
LocalTensor<int16_t> tmpTensor = mask.template ReinterpretCast<int16_t>();
Cast<half, int16_t, false>(localMaskTmp, tmpTensor, RoundMode::CAST_NONE, MASK_PLACEHOLDER, 1,
{ 1, 1, DEFAULT_REPEAT_STRIDE, DEFAULT_REPEAT_STRIDE });
} else if constexpr (sizeof(U) == 1) {
LocalTensor<uint8_t> tmpTensor = mask.template ReinterpretCast<uint8_t>();
Cast<half, uint8_t, false>(localMaskTmp, tmpTensor, RoundMode::CAST_NONE, MASK_PLACEHOLDER, 1,
{ 1, 1, DEFAULT_REPEAT_STRIDE, DEFAULT_REPEAT_STRIDE / 2 });
}
}
template <typename T, typename U, bool reverse = false>
__aicore__ inline void SelectWithBytesMaskPerAxisImpl(const LocalTensor<T>& dst, const LocalTensor<T>& src0, T src1,
const LocalTensor<U>& mask, const LocalTensor<uint8_t>& sharedTmpBuffer, const uint32_t srcAxisLen,
const uint32_t bucketSize)
{
const auto paddingLen = AlignUp(bucketSize / ONE_BYTE_BIT_SIZE, ONE_BLK_SIZE);
const auto localMaskTmpOffset = paddingLen;
const auto localScalarOffset = sizeof(half) * bucketSize;
LocalTensor<uint8_t> localMask = sharedTmpBuffer;
LocalTensor<half> localMaskTmp = sharedTmpBuffer.ReinterpretCast<half>();
SetVectorMask<half, MaskMode::COUNTER>(0, srcAxisLen);
CastMaskToHalfImpl<U>(localMaskTmp, mask);
PipeBarrier<PIPE_V>();
BinaryRepeatParams binaryParams;
UnaryRepeatParams unaryParams;
constexpr auto loopSize = ONE_REPEAT_BYTE_SIZE / sizeof(half);
const auto repeatTime = DivCeil(srcAxisLen, loopSize);
if constexpr (!reverse) {
CompareScalar<half, uint8_t, false>(localMask, localMaskTmp, static_cast<half>(0), CMPMODE::EQ,
MASK_PLACEHOLDER, repeatTime, unaryParams);
} else {
CompareScalar<half, uint8_t, false>(localMask, localMaskTmp, static_cast<half>(0), CMPMODE::NE,
MASK_PLACEHOLDER, repeatTime, unaryParams);
}
PipeBarrier<PIPE_V>();
Select(dst, localMask, src0, 1, binaryParams);
}
template <typename U>
__aicore__ inline void RemoveRedundantMask(const LocalTensor<U>& dst, const LocalTensor<U>& mask,
const LocalTensor<uint8_t>& sharedTmpBuffer, const SelectWithBytesMaskShapeInfo& info)
{
LocalTensor<uint16_t> tmpDst = dst.template ReinterpretCast<uint16_t>();
LocalTensor<uint16_t> tmpMask = mask.template ReinterpretCast<uint16_t>();
uint64_t rsvdCnt;
GatherMask<uint16_t>(tmpDst, tmpMask, REDUCEV2_MODE_SEVEN, true, info.srcLastAxis * sizeof(U) / sizeof(uint16_t),
{ DEFAULT_BLK_STRIDE, static_cast<uint16_t>(info.firstAxis),
static_cast<uint16_t>(info.maskLastAxis * sizeof(U) / ONE_BLK_SIZE), 0 },
rsvdCnt);
SetMaskCount();
}
template <typename T, typename U, bool reverse = false>
__aicore__ inline void SelectWithBytesMaskLoopImpl(const LocalTensor<T>& dst, const LocalTensor<T>& src0, T src1,
const LocalTensor<U>& mask, const LocalTensor<uint8_t>& sharedTmpBuffer, const uint32_t loopSize,
const uint32_t totalLen, const uint32_t srcOriginOffset, const uint32_t maskOriginOffset)
{
for (uint32_t offset = 0; offset < totalLen; offset += loopSize) {
auto calSize = offset + loopSize > totalLen ? totalLen - offset : loopSize;
SelectWithBytesMaskPerAxisImpl<T, U, reverse>(dst[srcOriginOffset + offset], src0[srcOriginOffset + offset],
src1, mask[maskOriginOffset + offset], sharedTmpBuffer, calSize, loopSize);
PipeBarrier<PIPE_V>();
}
}
}
#endif
#if defined(__UNDEF_ASCENDC_INCLUDE_INTERNAL_HEADERS_SELECT_SELECTWITHBYTESMASK_SELECTWITHBYTESMASK_COMMON_IMPL_H__)
#undef __ASCENDC_INCLUDE_INTERNAL_HEADERS__
#undef __UNDEF_ASCENDC_INCLUDE_INTERNAL_HEADERS_SELECT_SELECTWITHBYTESMASK_SELECTWITHBYTESMASK_COMMON_IMPL_H__
#endif
