# Design Doc: Gradient Operators Registration ## The Problem Posed In our current operator registration mechanism, for each operator, the programmer should register a *gradient operator creator* function, which takes a C++ operator instance, and returns the corresponding gradient instance. However, as we decided to separate the *compilation* and *execution* of DL models, we need to reshape the creator to take a protobuf `OpDesc` message, and returns a corresponding message. More than that, the new registration mechanism need to support the fact that an operators' gradient computation might be a composition of operators. ## Current Implementation OpInfos store in a association map which key is the operator type. The `grad_op_type` indicate associated gradient operator type. Operator can create gradient operator by `OpInfo::creator_` of gradient. The pseudo code is ```cpp struct OpInfo { std::function creator_; std::string grad_op_type_; ... }; map OpInfoMap; OperatorBase* CreateGradientOperator(const OperatorBase& op) { return OpInfoMap.at(op.Type()).creator_(...); } ``` ## Proposed Solution The mapping relationship between an operator and its gradient operators is a function. The interface of that function is: ```cpp // (OpDesc) --> vector std::function(const OpDescBind&)>; ``` The function takes an `OpDescBind` of the forward operator and returns one or many gradient operator descriptions. `OpDescBind` is a C++ wrapper for protobuf message `OpDesc` to manipulate `OpDesc` fast. The `GradOpDescMaker` will be registered in `OpInfo`, to replace `grad_op_type_` field. The `OpInfo` should be ```cpp struct OpInfo { std::function(const OpDescBind&)> grad_op_maker_; ... }; ``` The `grad_op_maker_ ` is `nullptr` if the operator does not have associated gradient operators. We propose a base class called `GradOpDescMakerBase` to let operator developers generate `Gradient Operators` easily. The public interface of that class is ```cpp class GradOpDescMakerBase { public: GradOpDescMakerBase(const OpDescBind& ); virtual std::vector operator()()const = 0; }; ``` We can convert `GradOpDescMakerBase` to `std::function(const OpDescBind&)>` by ```cpp using GradOpMaker = ...; std::function(const OpDescBind&)> func; func = [] (const OpDescBind& fwd_op) { GradOpMaker maker(fwd_op); return maker(); }; ``` We can write many helper functions since the `GradOpDescMakerBase` is a class now. The basic helper functions get the variables of `Input`, `Output`, `InputGradient` and `OutputGradient` in the forwarding operator. We should chagne register macros at the same time. In the current solution, there is no difference between forwarding operators and backward operators. So `REGISTER_OP` just register one operator. If the `REGISTER_OPERATOR ` contains `OpProtoAndCheckerMaker` and `GradOpDescMaker`, we just list them in the same macro. It can be done by a macro contains `__VA_ARGS__`. The user interface should be ```cpp vector MinusOpGradMaker(OpDesc) {...} REGISTER_OPERATOR(minus, MinusOp, MinusOpProtoAndCheckerMaker, SumOpGradMaker); // Developers can still manually implement gradient operator. REGISTER_OPERATOR(minus_grad, MinusGradOp); ``` The interface of current `REGISTER_OP` macro could not be changed. In `REGISTER_OP`, it will invoke `REGISTER_OPERATOR` two times and generate GradOpDescMaker inside. ```cpp REGISTER_OP(minus, MinusOp, MinusOpProtoAndCheckerMaker, minus_grad, MinusGradOp); ```