* 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 "aclnn_log1p.h"
#include "log1p.h"
#include "aclnn_kernels/contiguous.h"
#include "aclnn_kernels/cast.h"
#include "aclnn_kernels/common/op_error_check.h"
#include "opdev/op_dfx.h"
#include "opdev/platform.h"
#include "op_api/level2_base.h"
using namespace op;
#ifdef __cplusplus
extern "C" {
#endif
static const std::initializer_list<op::DataType> ASCEND910_DTYPE_DTYPE_SUPPORT_LIST = {
op::DataType::DT_FLOAT, op::DataType::DT_FLOAT16, op::DataType::DT_DOUBLE, op::DataType::DT_INT8,
op::DataType::DT_INT16, op::DataType::DT_INT32, op::DataType::DT_INT64, op::DataType::DT_BOOL,
op::DataType::DT_UINT8};
static const std::initializer_list<op::DataType> ASCEND910B_DTYPE_DTYPE_SUPPORT_LIST = {
op::DataType::DT_FLOAT, op::DataType::DT_FLOAT16, op::DataType::DT_DOUBLE, op::DataType::DT_INT8,
op::DataType::DT_INT16, op::DataType::DT_INT32, op::DataType::DT_INT64, op::DataType::DT_BOOL,
op::DataType::DT_UINT8, op::DataType::DT_BF16};
static const std::initializer_list<op::DataType> ASCEND910_DTYPE_OUT_LIST = {
op::DataType::DT_FLOAT, op::DataType::DT_FLOAT16, op::DataType::DT_DOUBLE};
static const std::initializer_list<op::DataType> ASCEND910B_DTYPE_OUT_LIST = {
op::DataType::DT_FLOAT, op::DataType::DT_FLOAT16, op::DataType::DT_DOUBLE, op::DataType::DT_BF16};
static bool CheckInplaceDtypeValid(const aclTensor *selfRef) {
auto inplaceSupportList = GetDtypeSupportListV2(ASCEND910B_DTYPE_OUT_LIST, ASCEND910_DTYPE_OUT_LIST);
OP_CHECK_DTYPE_NOT_SUPPORT(selfRef, inplaceSupportList, return false);
return true;
}
static aclnnStatus CheckParams(const aclTensor *self, const aclTensor *out)
{
CHECK_RET(CheckNotNull2Tensor(self, out), ACLNN_ERR_PARAM_NULLPTR);
const auto& supportList = GetDtypeSupportListV2(ASCEND910B_DTYPE_DTYPE_SUPPORT_LIST, ASCEND910_DTYPE_DTYPE_SUPPORT_LIST);
const auto& outSupportList = GetDtypeSupportListV2(ASCEND910B_DTYPE_OUT_LIST, ASCEND910_DTYPE_OUT_LIST);
CHECK_RET(CheckDtypeValid1In1Out(self, out, supportList, outSupportList), ACLNN_ERR_PARAM_INVALID);
CHECK_RET(CheckSameShape1In1Out(self, out), ACLNN_ERR_PARAM_INVALID);
return ACLNN_SUCCESS;
}
static aclnnStatus CheckInplaceParams(aclTensor *selfRef) {
OP_CHECK_NULL(selfRef, return ACLNN_ERR_PARAM_NULLPTR);
CHECK_RET(CheckInplaceDtypeValid(selfRef), ACLNN_ERR_PARAM_INVALID);
return ACLNN_SUCCESS;
}
static void CheckFormat(const aclTensor* self) {
ge::Format selfStorageFormat = self->GetStorageFormat();
if (selfStorageFormat == ge::Format::FORMAT_FRACTAL_NZ) {
OP_LOGW("aclnnLog1p doesn't support format NZ.");
}
}
static aclnnStatus ExecLog1pGetWorkspaceSize(const aclTensor *self, aclTensor *out, uint64_t *workspaceSize,
aclOpExecutor **executor)
{
auto uniqueExecutor = CREATE_EXECUTOR();
CHECK_RET(uniqueExecutor.get() != nullptr, ACLNN_ERR_INNER_CREATE_EXECUTOR);
auto ret = CheckParams(self, out);
CHECK_RET(ret == ACLNN_SUCCESS, ret);
CheckFormat(self);
if (self->IsEmpty()) {
OP_LOGD("empty input tensor");
*workspaceSize = uniqueExecutor->GetWorkspaceSize();
uniqueExecutor.ReleaseTo(executor);
return ACLNN_SUCCESS;
}
auto selfContiguous = l0op::Contiguous(self, uniqueExecutor.get());
CHECK_RET(selfContiguous != nullptr, ACLNN_ERR_INNER_NULLPTR);
const auto& outSupportList = GetDtypeSupportListV2(ASCEND910B_DTYPE_OUT_LIST, ASCEND910_DTYPE_OUT_LIST);
auto castDtype = selfContiguous->GetDataType();
if (!CheckType(castDtype, outSupportList)) {
castDtype = out->GetDataType();
}
auto selfCast = l0op::Cast(selfContiguous, castDtype, uniqueExecutor.get());
CHECK_RET(selfCast != nullptr, ACLNN_ERR_INNER_NULLPTR);
auto log1pOpOut = l0op::Log1p(selfCast, uniqueExecutor.get());
CHECK_RET(log1pOpOut != nullptr, ACLNN_ERR_INNER_NULLPTR);
auto castOut = l0op::Cast(log1pOpOut, out->GetDataType(), uniqueExecutor.get());
CHECK_RET(castOut != nullptr, ACLNN_ERR_INNER_NULLPTR);
auto viewCopyResult = l0op::ViewCopy(castOut, out, uniqueExecutor.get());
CHECK_RET(viewCopyResult != nullptr, ACLNN_ERR_INNER_NULLPTR);
*workspaceSize = uniqueExecutor->GetWorkspaceSize();
uniqueExecutor.ReleaseTo(executor);
return ACLNN_SUCCESS;
}
aclnnStatus aclnnLog1pGetWorkspaceSize(const aclTensor *self, aclTensor *out, uint64_t *workspaceSize,
aclOpExecutor **executor)
{
L2_DFX_PHASE_1(aclnnLog1p, DFX_IN(self), DFX_OUT(out));
return ExecLog1pGetWorkspaceSize(self, out, workspaceSize, executor);
}
aclnnStatus aclnnInplaceLog1pGetWorkspaceSize(aclTensor *selfRef, uint64_t *workspaceSize,
aclOpExecutor **executor)
{
L2_DFX_PHASE_1(aclnnInplaceLog1p, DFX_IN(selfRef), DFX_OUT(selfRef));
auto out = const_cast<aclTensor*>(selfRef);
auto ret = CheckInplaceParams(selfRef);
CHECK_RET(ret == ACLNN_SUCCESS, ret);
return ExecLog1pGetWorkspaceSize(selfRef, out, workspaceSize, executor);
}
aclnnStatus aclnnLog1p(void *workspace, uint64_t workspaceSize, aclOpExecutor *executor, aclrtStream stream)
{
L2_DFX_PHASE_2(aclnnLog1p);
return CommonOpExecutorRun(workspace, workspaceSize, executor, stream);
}
aclnnStatus aclnnInplaceLog1p(void *workspace, uint64_t workspaceSize, aclOpExecutor *executor,
aclrtStream stream)
{
L2_DFX_PHASE_2(aclnnInplaceLog1p);
return CommonOpExecutorRun(workspace, workspaceSize, executor, stream);
}
#ifdef __cplusplus
}
#endif
