* 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.
*/
#include "permute_kernel.h"
#include <memory>
#include <vector>
#include "framework/common/framework_types_internal.h"
#include "graph/utils/type_utils.h"
#include "host_kernels/kernel_factory.h"
#include "formats/formats.h"
#include "formats/format_transfers/format_transfer_transpose.h"
#include "formats/utils/formats_trans_utils.h"
#include "host_kernels/kernel_utils.h"
namespace ge {
namespace {
const char *const kAttrOrder = "order";
const char *const kAttrPerm = "perm";
const size_t kTbePermuteInputSize = 2;
}
Status PermuteKernel::ValidateInput(const OpDescPtr &op_desc_ptr, const std::vector<ConstGeTensorPtr> &input) const {
if (input.empty()) {
GELOGE(PARAM_INVALID, "Input tensor vector is empty");
return PARAM_INVALID;
}
ConstGeTensorPtr const_weight_ptr = input[0];
if (const_weight_ptr == nullptr) {
GELOGE(PARAM_INVALID, "Input const_weight_ptr is nullptr.");
return PARAM_INVALID;
}
const uint8_t *src_data = const_weight_ptr->GetData().data();
if ((op_desc_ptr == nullptr) || (src_data == nullptr)) {
GELOGW("Input opDescPtr is nullptr.");
return PARAM_INVALID;
}
if (op_desc_ptr->GetInputsSize() >= kTbePermuteInputSize) {
GELOGW("trans_op has more than 1 input_size.");
return NOT_CHANGED;
}
return SUCCESS;
}
Status PermuteKernel::Compute(const OpDescPtr op_desc_ptr, const std::vector<ConstGeTensorPtr> &input,
std::vector<GeTensorPtr> &v_output) {
GELOGD("PermuteKernel begin.");
Status status = ValidateInput(op_desc_ptr, input);
if (status != SUCCESS) {
return status;
}
ConstGeTensorPtr const_weight_ptr = input[0];
GeTensorDesc op_desc = op_desc_ptr->GetOutputDesc(0);
GeTensorDesc op_desc_in = op_desc_ptr->GetInputDesc(0);
auto src_format = op_desc_in.GetFormat();
auto src_shape = op_desc_in.GetShape().GetDims();
auto src_data_type = op_desc_in.GetDataType();
auto data_shape = op_desc.GetShape().GetDims();
auto data_format = op_desc.GetFormat();
auto data_type = op_desc.GetDataType();
GELOGD(
"current node %s, format %s, input shape %s, data type %s, weight format %s, shape %s, data type %s. "
"output format %s, shape %s, data type %s",
op_desc_ptr->GetName().c_str(), TypeUtils::FormatToSerialString(src_format).c_str(),
formats::ShapeToString(src_shape).c_str(), TypeUtils::DataTypeToSerialString(src_data_type).c_str(),
TypeUtils::FormatToSerialString(const_weight_ptr->GetTensorDesc().GetFormat()).c_str(),
formats::ShapeToString(const_weight_ptr->GetTensorDesc().GetShape()).c_str(),
TypeUtils::DataTypeToSerialString(const_weight_ptr->GetTensorDesc().GetDataType()).c_str(),
TypeUtils::FormatToSerialString(data_format).c_str(), formats::ShapeToString(data_shape).c_str(),
TypeUtils::DataTypeToSerialString(data_type).c_str());
std::vector<int64_t> perm_list;
if (!AttrUtils::GetListInt(op_desc_ptr, kAttrOrder, perm_list) &&
!AttrUtils::GetListInt(op_desc_ptr, kAttrPerm, perm_list)) {
GELOGW("Get perm_list failed, Transpose from shape %s to %s is not supported, ",
formats::ShapeToString(src_shape).c_str(), formats::ShapeToString(data_shape).c_str());
return NOT_CHANGED;
}
GELOGD("Transpose from %s to %s, shape %s to %s, perm_list %s, data type %s",
TypeUtils::FormatToSerialString(src_format).c_str(), TypeUtils::FormatToSerialString(data_format).c_str(),
formats::ShapeToString(src_shape).c_str(), formats::ShapeToString(data_shape).c_str(),
formats::ShapeToString(perm_list).c_str(), TypeUtils::DataTypeToSerialString(src_data_type).c_str());
if ((data_shape.empty()) || (src_data_type != data_type)) {
GELOGW("Transpose is not supported. Invalid shape (src: %s, dst: %s) or inconsistent datatype (src: %s, dst: %s)",
formats::ShapeToString(src_shape).c_str(), formats::ShapeToString(data_shape).c_str(),
TypeUtils::DataTypeToSerialString(src_data_type).c_str(),
TypeUtils::DataTypeToSerialString(data_type).c_str());
return NOT_CHANGED;
}
if (!KernelUtils::CheckSizeForTransOp(const_weight_ptr, op_desc_ptr)) {
GELOGW("CheckSize failed, input size is not equal to weight size");
return NOT_CHANGED;
}
const uint8_t *src_data = const_weight_ptr->GetData().data();
formats::TransResult trans_result;
auto ret = formats::TransposeWithShapeCheck(src_data, src_shape, data_shape, src_data_type, perm_list, trans_result);
if (ret != SUCCESS) {
GELOGW("Failed to Transpose from %s to %s, shape %s to %s, perm_list %s, data type %s",
TypeUtils::FormatToSerialString(src_format).c_str(), TypeUtils::FormatToSerialString(data_format).c_str(),
formats::ShapeToString(src_shape).c_str(), formats::ShapeToString(data_shape).c_str(),
formats::ShapeToString(perm_list).c_str(), TypeUtils::DataTypeToSerialString(src_data_type).c_str());
return NOT_CHANGED;
}
GeTensorPtr output_ptr = MakeShared<GeTensor>(op_desc_ptr->GetOutputDesc(0));
GE_CHECK_NOTNULL(output_ptr);
GE_CHK_STATUS_RET(output_ptr->SetData(trans_result.data.get(), trans_result.length));
v_output.push_back(output_ptr);
return SUCCESS;
}
REGISTER_COMPUTE_NODE_KERNEL(PERMUTE, PermuteKernel);
REGISTER_COMPUTE_NODE_KERNEL(TRANSPOSED, PermuteKernel);
}
