* 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.
*/
* \file transpose.cpp
* \brief
*/
#include "arch35/transpose_big_dim.h"
#include "arch35/transpose_cut_one_axis.h"
#include "arch35/transpose_cut_two_axis.h"
#include "arch35/transpose_n_last.h"
#include "arch35/transpose_small_shape.h"
#include "arch35/transpose_tensor_move.h"
#include "arch35/transpose_with_gather.h"
#include "arch35/transpose_transdata_5hd.h"
#define TENSOR_MOVE 10000
#define SMALL_SHAPE 10001
#define CUT_ONCE 10002
#define CUT_TWICE 10003
#define N_LAST_TRANSPOSE 10004
#define BIG_DIM 10005
#define GATHER_TRANSPOSE 10006
#define VCONV_TRANSPOSE 10007
using namespace Transpose;
extern "C" __aicore__ inline void TransposeTensorMoveProcess(
GM_ADDR x, GM_ADDR y, const TransposeOpTilingData* tilingData, TPipe* pipe)
{
if constexpr (sizeof(DTYPE_X) == sizeof(int8_t)) {
Transpose::TransposeTensorMove<int8_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int16_t)) {
Transpose::TransposeTensorMove<int16_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int32_t)) {
Transpose::TransposeTensorMove<int32_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int64_t)) {
Transpose::TransposeTensorMove<int64_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else {
Transpose::TransposeTensorMove<DTYPE_X> op;
op.Init(x, y, tilingData, pipe);
op.Process();
}
}
extern "C" __aicore__ inline void TransposeSmallShapeProcess(
GM_ADDR x, GM_ADDR y, const TransposeOpTilingData* tilingData)
{
if constexpr (sizeof(DTYPE_X) == sizeof(int8_t)) {
Transpose::TransposeSmallShape<int8_t> op;
op.Init(x, y, tilingData);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int16_t)) {
Transpose::TransposeSmallShape<int16_t> op;
op.Init(x, y, tilingData);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int32_t)) {
Transpose::TransposeSmallShape<int32_t> op;
op.Init(x, y, tilingData);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int64_t)) {
Transpose::TransposeSmallShape<int64_t> op;
op.Init(x, y, tilingData);
op.Process();
} else {
Transpose::TransposeSmallShape<DTYPE_X> op;
op.Init(x, y, tilingData);
op.Process();
}
}
extern "C" __aicore__ inline void TransposeCutOneAxisProcess(
GM_ADDR x, GM_ADDR y, const TransposeOpTilingData* tilingData, TPipe* pipe)
{
if constexpr (sizeof(DTYPE_X) == sizeof(int8_t)) {
Transpose::TransposeCutOneAxis<int8_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int16_t)) {
Transpose::TransposeCutOneAxis<int16_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int32_t)) {
Transpose::TransposeCutOneAxis<int32_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int64_t)) {
Transpose::TransposeCutOneAxis<int64_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else {
Transpose::TransposeCutOneAxis<DTYPE_X> op;
op.Init(x, y, tilingData, pipe);
op.Process();
}
}
extern "C" __aicore__ inline void TransposeCutTwoAxisProcess(
GM_ADDR x, GM_ADDR y, const TransposeOpTilingData* tilingData, TPipe* pipe)
{
if constexpr (sizeof(DTYPE_X) == sizeof(int8_t)) {
Transpose::TransposeCutTwoAxis<int8_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int16_t)) {
Transpose::TransposeCutTwoAxis<int16_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int32_t)) {
Transpose::TransposeCutTwoAxis<int32_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int64_t)) {
Transpose::TransposeCutTwoAxis<int64_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else {
Transpose::TransposeCutTwoAxis<DTYPE_X> op;
op.Init(x, y, tilingData, pipe);
op.Process();
}
}
extern "C" __aicore__ inline void TransposeBigDimProcess(
GM_ADDR x, GM_ADDR y, const TransposeOpTilingData* tilingData, TPipe* pipe)
{
if constexpr (sizeof(DTYPE_X) == sizeof(int8_t)) {
Transpose::TransposeBigDim<int8_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int16_t)) {
Transpose::TransposeBigDim<int16_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int32_t)) {
Transpose::TransposeBigDim<int32_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int64_t)) {
Transpose::TransposeBigDim<int64_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else {
Transpose::TransposeBigDim<DTYPE_X> op;
op.Init(x, y, tilingData, pipe);
op.Process();
}
}
extern "C" __aicore__ inline void TransposeNLastProcess(
GM_ADDR x, GM_ADDR y, const TransposeOpTilingData* tilingData, TPipe* pipe)
{
if constexpr (sizeof(DTYPE_X) == sizeof(int8_t)) {
Transpose::TransposeNLast<int8_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int16_t)) {
Transpose::TransposeNLast<int16_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int32_t)) {
Transpose::TransposeNLast<int32_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int64_t)) {
Transpose::TransposeNLast<int64_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else {
Transpose::TransposeNLast<DTYPE_X> op;
op.Init(x, y, tilingData, pipe);
op.Process();
}
}
extern "C" __aicore__ inline void TransposeGatherProcess(
GM_ADDR x, GM_ADDR y, const GatherTransposeTilingData* tilingData, TPipe* pipe)
{
if constexpr (sizeof(DTYPE_X) == sizeof(int8_t)) {
Transpose::TransposeWithGather<int8_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int16_t)) {
Transpose::TransposeWithGather<int16_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int32_t)) {
Transpose::TransposeWithGather<int32_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
} else if constexpr (sizeof(DTYPE_X) == sizeof(int64_t)) {
Transpose::TransposeWithGather<int64_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
}
}
extern "C" __aicore__ inline void TransposeVconvProcess(
GM_ADDR x, GM_ADDR y, const TransposeVCONVTilingData* tilingData, TPipe* pipe)
{
if constexpr (sizeof(DTYPE_X) == sizeof(int16_t)) {
Transpose::KernelTransDataTo5HD<int16_t> op;
op.Init(x, y, tilingData, pipe);
op.Process();
}
}
extern "C" __global__ __aicore__ void transpose(GM_ADDR x, GM_ADDR perm, GM_ADDR y, GM_ADDR workspace, GM_ADDR tiling)
{
TPipe pipe;
KERNEL_TASK_TYPE_DEFAULT(KERNEL_TYPE_AIV_ONLY);
if (TILING_KEY_IS(TENSOR_MOVE)) {
GET_TILING_DATA_WITH_STRUCT(TransposeTilingData, tilingData, tiling);
TransposeTensorMoveProcess(x, y, &tilingData.transposeOpTiling, &pipe);
} else if (TILING_KEY_IS(SMALL_SHAPE)) {
GET_TILING_DATA_WITH_STRUCT(TransposeTilingData, tilingData, tiling);
TransposeSmallShapeProcess(x, y, &tilingData.transposeOpTiling);
} else if (TILING_KEY_IS(CUT_ONCE)) {
GET_TILING_DATA_WITH_STRUCT(TransposeTilingData, tilingData, tiling);
TransposeCutOneAxisProcess(x, y, &tilingData.transposeOpTiling, &pipe);
} else if (TILING_KEY_IS(CUT_TWICE)) {
GET_TILING_DATA_WITH_STRUCT(TransposeTilingData, tilingData, tiling);
TransposeCutTwoAxisProcess(x, y, &tilingData.transposeOpTiling, &pipe);
} else if (TILING_KEY_IS(N_LAST_TRANSPOSE)) {
GET_TILING_DATA_WITH_STRUCT(TransposeTilingData, tilingData, tiling);
TransposeNLastProcess(x, y, &tilingData.transposeOpTiling, &pipe);
} else if (TILING_KEY_IS(BIG_DIM)) {
GET_TILING_DATA_WITH_STRUCT(TransposeTilingData, tilingData, tiling);
TransposeBigDimProcess(x, y, &tilingData.transposeOpTiling, &pipe);
} else if (TILING_KEY_IS(GATHER_TRANSPOSE)) {
GET_TILING_DATA_WITH_STRUCT(GatherTransposeTilingData, tilingData, tiling);
TransposeGatherProcess(x, y, &tilingData, &pipe);
} else if (TILING_KEY_IS(VCONV_TRANSPOSE)) {
GET_TILING_DATA_WITH_STRUCT(TransposeVCONVTilingData, tilingData, tiling);
TransposeVconvProcess(x, y, &tilingData, &pipe);
}
}
