* 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 "onnx_common.h"
using namespace ge;
namespace domi {
static Status ParseParamsSequenceConstruct(const Message* op_src, ge::Operator& op_dest)
{
const ge::onnx::NodeProto* node = dynamic_cast<const ge::onnx::NodeProto*>(op_src);
if (node == nullptr) {
OP_LOGE(GetOpName(op_dest).c_str(), "Dynamic cast op_src to NodeProto failed.");
return FAILED;
}
int n = node->input_size();
op_dest.DynamicInputRegister("inputs", n);
op_dest.SetAttr("original_type", "ai.onnx::11::SequenceConstruct");
op_dest.SetAttr("name", node->name());
return SUCCESS;
}
REGISTER_CUSTOM_OP("SequenceConstruct")
.FrameworkType(ONNX)
.OriginOpType({ge::AscendString("ai.onnx::11::SequenceConstruct"),
ge::AscendString("ai.onnx::12::SequenceConstruct"),
ge::AscendString("ai.onnx::13::SequenceConstruct"),
ge::AscendString("ai.onnx::14::SequenceConstruct"),
ge::AscendString("ai.onnx::15::SequenceConstruct"),
ge::AscendString("ai.onnx::16::SequenceConstruct"),
ge::AscendString("ai.onnx::17::SequenceConstruct"),
ge::AscendString("ai.onnx::18::SequenceConstruct")})
.ParseParamsFn(ParseParamsSequenceConstruct)
.ImplyType(ImplyType::AI_CPU);
static Status ParseParamsSequenceInsert(const Message* op_src, ge::Operator& op_dest) {
const ge::onnx::NodeProto* node = dynamic_cast<const ge::onnx::NodeProto*>(op_src);
if (node == nullptr) {
OP_LOGE(GetOpName(op_dest).c_str(), "Dynamic cast op_src to NodeProto failed.");
return FAILED;
}
op_dest.SetAttr("original_type", "ai.onnx::11::SequenceInsert");
op_dest.SetAttr("name", node->name());
return SUCCESS;
}
REGISTER_CUSTOM_OP("SequenceInsert")
.FrameworkType(ONNX)
.OriginOpType({ge::AscendString("ai.onnx::11::SequenceInsert"),
ge::AscendString("ai.onnx::12::SequenceInsert"),
ge::AscendString("ai.onnx::13::SequenceInsert"),
ge::AscendString("ai.onnx::14::SequenceInsert"),
ge::AscendString("ai.onnx::15::SequenceInsert"),
ge::AscendString("ai.onnx::16::SequenceInsert"),
ge::AscendString("ai.onnx::17::SequenceInsert"),
ge::AscendString("ai.onnx::18::SequenceInsert")})
.ParseParamsFn(ParseParamsSequenceInsert)
.ImplyType(ImplyType::AI_CPU);
static Status ParseParamsSequenceErase(const Message* op_src, ge::Operator& op_dest) {
const ge::onnx::NodeProto* node = dynamic_cast<const ge::onnx::NodeProto*>(op_src);
if (node == nullptr) {
OP_LOGE(GetOpName(op_dest).c_str(), "Dynamic cast op_src to NodeProto failed.");
return FAILED;
}
op_dest.SetAttr("original_type", "ai.onnx::11::SequenceErase");
op_dest.SetAttr("name", node->name());
return SUCCESS;
}
REGISTER_CUSTOM_OP("SequenceErase")
.FrameworkType(ONNX)
.OriginOpType({ge::AscendString("ai.onnx::11::SequenceErase"),
ge::AscendString("ai.onnx::12::SequenceErase"),
ge::AscendString("ai.onnx::13::SequenceErase"),
ge::AscendString("ai.onnx::14::SequenceErase"),
ge::AscendString("ai.onnx::15::SequenceErase"),
ge::AscendString("ai.onnx::16::SequenceErase"),
ge::AscendString("ai.onnx::17::SequenceErase"),
ge::AscendString("ai.onnx::18::SequenceErase")})
.ParseParamsFn(ParseParamsSequenceErase)
.ImplyType(ImplyType::AI_CPU);
static Status ParseParamsSequenceEmpty(const Message* op_src, ge::Operator& op_dest)
{
const ge::onnx::NodeProto* node = dynamic_cast<const ge::onnx::NodeProto*>(op_src);
if (node == nullptr) {
OP_LOGE("SequenceEmpty", "Dynamic cast op_src to NodeProto failed.");
return FAILED;
}
op_dest.SetAttr("original_type", "ai.onnx::11::SequenceEmpty");
op_dest.SetAttr("name", node->name());
return SUCCESS;
}
REGISTER_CUSTOM_OP("SequenceEmpty")
.FrameworkType(ONNX)
.OriginOpType({ge::AscendString("ai.onnx::11::SequenceEmpty"),
ge::AscendString("ai.onnx::12::SequenceEmpty"),
ge::AscendString("ai.onnx::13::SequenceEmpty"),
ge::AscendString("ai.onnx::14::SequenceEmpty"),
ge::AscendString("ai.onnx::15::SequenceEmpty"),
ge::AscendString("ai.onnx::16::SequenceEmpty"),
ge::AscendString("ai.onnx::17::SequenceEmpty"),
ge::AscendString("ai.onnx::18::SequenceEmpty")})
.ParseParamsFn(ParseParamsSequenceEmpty)
.ImplyType(ImplyType::AI_CPU);
static Status ParseParamsSequenceAt(const Message* op_src, ge::Operator& op_dest) {
const ge::onnx::NodeProto* node = dynamic_cast<const ge::onnx::NodeProto*>(op_src);
if (node == nullptr) {
OP_LOGE(GetOpName(op_dest).c_str(), "Dynamic cast op_src to NodeProto failed.");
return FAILED;
}
op_dest.SetAttr("original_type", "ai.onnx::11::SequenceAt");
op_dest.SetAttr("name", node->name());
return SUCCESS;
}
REGISTER_CUSTOM_OP("SequenceAt")
.FrameworkType(ONNX)
.OriginOpType({ge::AscendString("ai.onnx::11::SequenceAt"),
ge::AscendString("ai.onnx::12::SequenceAt"),
ge::AscendString("ai.onnx::13::SequenceAt"),
ge::AscendString("ai.onnx::14::SequenceAt"),
ge::AscendString("ai.onnx::15::SequenceAt"),
ge::AscendString("ai.onnx::16::SequenceAt"),
ge::AscendString("ai.onnx::17::SequenceAt"),
ge::AscendString("ai.onnx::18::SequenceAt")})
.ParseParamsFn(ParseParamsSequenceAt)
.ImplyType(ImplyType::AI_CPU);
static Status ParseParamsSequenceLength(const Message* op_src, ge::Operator& op_dest) {
const ge::onnx::NodeProto* node = dynamic_cast<const ge::onnx::NodeProto*>(op_src);
if (node == nullptr) {
ge::AscendString op_name;
(void)op_dest.GetName(op_name);
OP_LOGE(op_name.GetString(), "Dynamic cast op_src to NodeProto failed.");
return FAILED;
}
op_dest.SetAttr("original_type", "ai.onnx::11::SequenceLength");
op_dest.SetAttr("name", node->name());
return SUCCESS;
}
REGISTER_CUSTOM_OP("SequenceLength")
.FrameworkType(ONNX)
.OriginOpType({ge::AscendString("ai.onnx::11::SequenceLength"),
ge::AscendString("ai.onnx::12::SequenceLength"),
ge::AscendString("ai.onnx::13::SequenceLength"),
ge::AscendString("ai.onnx::14::SequenceLength"),
ge::AscendString("ai.onnx::15::SequenceLength"),
ge::AscendString("ai.onnx::16::SequenceLength"),
ge::AscendString("ai.onnx::17::SequenceLength"),
ge::AscendString("ai.onnx::18::SequenceLength")})
.ParseParamsFn(ParseParamsSequenceLength)
.ImplyType(ImplyType::AI_CPU);
}
