// Copyright (c) 2021 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 "paddle/fluid/eager/api/utils/global_utils.h" #include "paddle/fluid/eager/grad_node_info.h" namespace egr { using AbstractAutogradMeta = paddle::experimental::AbstractAutogradMeta; /** * * AutogradMeta is what record the backward info for tensor. When we run * computation * graph eagerly, we can not build a static paddle program like static mode do, * so we * need a new method to record forward info to trace backward when we finish all * forward * computation. This require our AutogradMeta class record following main * members * * 1. grad_op: * Grad_op indicate the grad operation of the forward op * * 2. grad: * Grad is the gradient of forward Tensor, which should be compute after * backward computation * * NOTE: grad should only be available when current tensor is a leaf tensor, and * for non-leaf * tensor grad is only available while user set `retain_grad` option as `true`. * * TODO(jiabin) : support hooks * 3. hooks: * Hooks are some computation logic which only attached with backward operation, * it registered * by user and run before accumulator. * * 4.overrided_stop_gradient_ * This member is used to finish some auto-prune related work, which indicate * user set stop_gradient * should overrided the result indicated by framework. All non-parameter * tensor's stop_gradient * properties should be true. We will pass stop_gradient when we find one who * need it. * * NOTE: AutogradMeta is inherited from AbstractAutogradMeta which is defined * in tensor's deps, * we did this to avoid additional dependency on Autograd. In eager execution, * we will cast * AbstractAutogradMeta as AutogradMeta to use it. * * **/ // No other AutogradMeta class should be derivated from AbstractAutogradMeta. // It's only used by class AutogradMeta : public AbstractAutogradMeta { public: explicit AutogradMeta(const Edge& edge = Edge()) { out_slot_id_ = edge.GetEdgeRankInfo().first; out_rank_ = edge.GetEdgeRankInfo().second; grad_node_ = edge.GetMutableGradNode(); } ~AutogradMeta() override = default; const paddle::experimental::Tensor& Grad() const { PADDLE_ENFORCE_NOT_NULL( grad_.get(), paddle::platform::errors::InvalidArgument( "Should Not get NULL from Grad pointer, since " "we should have default Tensor once we init AutoGradMeta. " "if you got this error may indicates framework error in " "PaddlePaddle")); return *(grad_.get()); } paddle::experimental::Tensor* MutableGrad() { return grad_.get(); } std::weak_ptr WeakGrad() { return grad_; } void SetGradNode(const std::shared_ptr& grad_node) { PADDLE_ENFORCE_NOT_NULL( grad_node.get(), paddle::platform::errors::InvalidArgument( "Should Not set NULL as GradNode pointer, since " "our default Edge and autogradMeta has nullptr for " "grad node. Set Nullptr will lead error.")); grad_node_ = grad_node; } std::shared_ptr GetMutableGradNode() const { return grad_node_; } GradNodeBase* GradNode() const { return grad_node_.get(); } void SetSingleOutRankWithSlot(size_t slot_id, size_t rank) { out_slot_id_ = slot_id; out_rank_ = rank; } std::pair OutRankInfo() const { return std::make_pair(out_slot_id_, out_rank_); } bool IsInitialized() { return grad_node_.get(); } // TODO(jiabin): This may cause error, since -1 still can indication true; bool StopGradient() const { return stop_gradient_ != 0; } int NumericStopGradient() const { return stop_gradient_; } void SetStopGradient(bool stop_gradient) { stop_gradient_ = static_cast(stop_gradient); } bool Persistable() const { return persistable_; } void SetPersistable(bool persistable) { persistable_ = persistable; } bool RetainGrads() { return retain_grads_; } void SetRetainGrads(bool value) { retain_grads_ = value; } private: // TODO(jiabin) :Should we use pointer instead of object? std::shared_ptr grad_{ std::make_shared( egr::Controller::Instance().GenerateUniqueName("@grad"))}; // GradNodeBase is base class of all grad op which is a // wrapper for grad op. This class will make grad op easy // to be traced. std::shared_ptr grad_node_ = nullptr; /** * Why we need slot id here? * Because in paddle most of our operators inputs and outputs * are assemble in form of {"slot name", vector}. * So its better for us to set a slot id to fit this format. **/ size_t out_slot_id_; // output rank of forward op, this is a vital num, since // we are now trying to make our forward output is as same // sequence as backward input. In case of tracing backward // sequence we need to record output rank in slot here. size_t out_rank_; // TODO(jiabin) :Support hooks here and store it in AutogradMeta // Stop gradient flag to indicate should we compute backward int stop_gradient_{-1}; bool persistable_{false}; bool retain_grads_{false}; // TODO(jiabin) :Support Quantum here and add cache mechanism as // VarCache defined in VarBase }; } // namespace egr