// Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #pragma once #include #include #include #include #include "lite/model_parser/base/op_desc.h" #include "lite/model_parser/flatbuffers/framework_generated.h" #include "lite/model_parser/flatbuffers/vector_view.h" #include "lite/utils/all.h" namespace paddle { namespace lite { namespace fbs { class OpDesc : public OpDescAPI { public: explicit OpDesc(proto::OpDesc const* desc) : desc_(desc) { CHECK(desc_); } std::string Type() const override { return desc_->type()->str(); } // Get the arguments of parameter called `param` std::vector Input(const std::string& param) const override { const auto& var = desc_->inputs()->LookupByKey(param.c_str()); std::vector args_vec; if (var->arguments()) { args_vec.reserve(var->arguments()->size()); for (const auto& in : *var->arguments()) { args_vec.push_back(in->str()); } } return args_vec; } std::vector InputArgumentNames() const override { const auto& vars = desc_->inputs(); std::vector input_names_vec; if (vars) { input_names_vec.reserve(vars->size()); for (const auto& in : *vars) { input_names_vec.push_back(in->parameter()->str()); } } return input_names_vec; } std::vector Output(const std::string& param) const override { const auto& var = desc_->outputs()->LookupByKey(param.c_str()); std::vector args_vec; if (var && var->arguments()) { args_vec.reserve(var->arguments()->size()); for (const auto& out : *var->arguments()) { args_vec.push_back(out->str()); } } return args_vec; } std::vector OutputArgumentNames() const override { const auto& vars = desc_->outputs(); std::vector output_names_vec; if (vars) { output_names_vec.reserve(vars->size()); for (const auto& out : *vars) { output_names_vec.push_back(out->parameter()->str()); } } return output_names_vec; } bool HasAttr(const std::string& name) const override { return desc_->attrs()->LookupByKey(name.c_str()) != nullptr; } size_t AttrsSize() const { return desc_->attrs()->size(); } std::string AttrName(size_t idx) const { return desc_->attrs()->Get(idx)->name()->str(); } OpDescAPI::AttrType GetAttrType(const std::string& name) const override { const auto& attr = desc_->attrs()->LookupByKey(name.c_str()); CHECK(attr) << "Can not find attr: " << name; return static_cast(attr->type()); } OpDescAPI::AttrType GetAttrType(size_t idx) const { const auto& attr = desc_->attrs()->Get(idx); CHECK(attr); return static_cast(attr->type()); } std::vector AttrNames() const override { const auto& attrs = desc_->attrs(); std::vector attr_names_vec; if (attrs) { attr_names_vec.reserve(attrs->size()); for (const auto& attr : *attrs) { attr_names_vec.push_back(attr->name()->str()); } } return attr_names_vec; } template typename lite::OpDataTypeTrait::RT GetAttr( const std::string& name) const; template typename lite::OpDataTypeTrait::RT GetAttr(size_t idx) const; private: proto::OpDesc const* desc_; // To reduce overhead, we expect to use namespace aliasing to make cpp::Desc // and flatbuffers::Desc replace each other. However, there is no direct // inheritance relationship between the two data types, and the read-only // version of flatbuffers lacks some write implementations. Therefore, at // present, we are temporarily providing a default interface that triggers // execution-time errors to avoid type ambiguity and compile-time errors // caused by different building options. public: OpDesc() { NotImplemented(); } bool HasInput(const std::string& param) const { return desc_->inputs()->LookupByKey(param.c_str()) != nullptr; } const std::map>& inputs() const { NotImplemented(); return inputs_; } const std::map>& outputs() const { NotImplemented(); return outputs_; } std::map>* mutable_inputs() { NotImplemented(); return &inputs_; } std::map>* mutable_outputs() { NotImplemented(); return &outputs_; } std::vector input_vars() const { NotImplemented(); return std::vector(); } std::vector output_vars() const { NotImplemented(); return std::vector(); } bool HasOutput(const std::string& param) const { return !Output(param).empty(); } const std::map& attrs() const { NotImplemented(); return attrs_; } const std::map& attr_types() const { NotImplemented(); return attr_types_; } private: void NotImplemented() const { LOG(FATAL) << "The additional interfaces of OpDesc is temporarily " "unavailable in read-only mode."; } std::string type_; std::map> inputs_; std::map> outputs_; std::map attrs_; std::map attr_types_; }; } // namespace fbs } // namespace lite } // namespace paddle