hook_test.cc 7.4 KB
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// 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.

#include <sstream>

#include "glog/logging.h"
#include "gtest/gtest.h"

#include "paddle/fluid/eager/accumulation/accumulation_node.h"
#include "paddle/fluid/eager/api/generated/eager_generated/backwards/scale_node.h"
#include "paddle/fluid/eager/autograd_meta.h"
#include "paddle/fluid/eager/backward.h"
#include "paddle/fluid/eager/grad_node_info.h"

#include "paddle/fluid/eager/api/all.h"

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#include "paddle/phi/core/dense_tensor.h"
#include "paddle/phi/core/tensor_meta.h"
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#include "paddle/fluid/eager/hooks.h"
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#include "paddle/fluid/eager/tests/test_utils.h"

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#include "paddle/phi/core/kernel_registry.h"

PD_DECLARE_KERNEL(full, CPU, ALL_LAYOUT);

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namespace egr {
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paddle::experimental::Tensor hook_function(
    const paddle::experimental::Tensor& t) {
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  auto t_dense = std::dynamic_pointer_cast<phi::DenseTensor>(t.impl());
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  auto ret_meta = phi::DenseTensorMeta(t_dense->dtype(), t_dense->dims(),
                                       t_dense->layout());
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  auto place = t_dense->place();
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  size_t bytes_size = phi::product(t_dense->dims()) * SizeOf(t_dense->dtype());
  auto ret_dense = std::make_shared<phi::DenseTensor>(
      phi::make_intrusive<paddle::experimental::SharedStorage>(
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          paddle::memory::Alloc(place, bytes_size)),
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      std::move(ret_meta));

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  float* t_ptr = t_dense->mutable_data<float>(place);
  float* ret_ptr = ret_dense->mutable_data<float>(place);
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  for (int i = 0; i < ret_dense->numel(); i++) {
    ret_ptr[i] = t_ptr[i] + 3.0;
  }

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  auto ret_impl = std::dynamic_pointer_cast<phi::TensorBase>(ret_dense);
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  paddle::experimental::Tensor ret = paddle::experimental::Tensor();
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  ret.set_impl(ret_impl);

  return ret;
}

TEST(RetainGrad, HookBeforeRetainGrad) {
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  eager_test::InitEnv(paddle::platform::CPUPlace());
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  // Prepare Inputs
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  std::vector<paddle::experimental::Tensor> target_tensors;
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  paddle::framework::DDim ddim = phi::make_ddim({4, 16, 16, 32});
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  // Create Target Tensor
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  paddle::experimental::Tensor tensor = egr_utils_api::CreateTensorWithValue(
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      ddim, paddle::platform::CPUPlace(), phi::DataType::FLOAT32,
      phi::DataLayout::NCHW, 1.0 /*value*/, false /*is_leaf*/);
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  target_tensors.emplace_back(std::move(tensor));
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  paddle::experimental::Tensor& target_tensor = target_tensors[0];
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  // Create ScaleNode
  auto scale_node_ptr = std::make_shared<GradNodeScale>(1, 1);
  scale_node_ptr->SetAttributes_scale(5.0 /*scale*/);

  // Set grad in/out meta for node0
  scale_node_ptr->SetDefaultGradInOutMeta();

  // Connect Input Tensor and ScaleNode via AutoGradMeta
  // Apply RetainGrad
  {
    // ScaleNode Hook: +3

    auto auto_grad_meta = std::make_shared<AutogradMeta>();
    auto_grad_meta->SetGradNode(
        std::dynamic_pointer_cast<GradNodeBase>(scale_node_ptr));
    auto_grad_meta->SetSingleOutRankWithSlot(0, 0);
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    auto_grad_meta->SetStopGradient(false);
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    target_tensor.set_autograd_meta(
        std::dynamic_pointer_cast<paddle::experimental::AbstractAutogradMeta>(
            auto_grad_meta));

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    egr_utils_api::RegisterGradientHookForTensor(
        target_tensor, std::make_shared<egr::CppTensorHook>(hook_function));
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    egr_utils_api::RetainGradForTensor(
        target_tensor);  // result: 1.0 + 3.0 = 4.0
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    egr_utils_api::RetainGradForTensor(
        target_tensor);  // result: 1.0 + 3.0 = 4.0
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  }

  // Retain Grad for leaf tensor1
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  paddle::experimental::Tensor leaf_tensor = paddle::experimental::Tensor();
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  {
    // AccumulationNode Hook: +3

    auto auto_grad_meta = std::make_shared<AutogradMeta>();
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    auto acc_node_ptr =
        std::make_shared<GradNodeAccumulation>(auto_grad_meta.get());

    auto_grad_meta->SetStopGradient(false);
    auto_grad_meta->SetGradNode(acc_node_ptr);
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    auto_grad_meta->SetSingleOutRankWithSlot(0, 0);
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    std::vector<egr::AutogradMeta*> res = {auto_grad_meta.get()};
    scale_node_ptr->AddEdges(&res, 0);

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    leaf_tensor.set_autograd_meta(
        std::dynamic_pointer_cast<paddle::experimental::AbstractAutogradMeta>(
            auto_grad_meta));

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    egr_utils_api::RegisterGradientHookForTensor(
        leaf_tensor, std::make_shared<egr::CppTensorHook>(hook_function));
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    egr_utils_api::RetainGradForTensor(
        leaf_tensor);  // result: 4.0*5.0 + 3.0 = 23.0
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  }

  RunBackward(target_tensors, {});

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  eager_test::CompareGradTensorWithValue<float>(target_tensor, 4.0);
  eager_test::CompareGradTensorWithValue<float>(leaf_tensor, 23.0);
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}

TEST(RetainGrad, HookAfterRetainGrad) {
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  eager_test::InitEnv(paddle::platform::CPUPlace());
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  // Prepare Inputs
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  std::vector<paddle::experimental::Tensor> target_tensors;
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  paddle::framework::DDim ddim = phi::make_ddim({4, 16, 16, 32});
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  // Create Target Tensor
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  paddle::experimental::Tensor tensor = egr_utils_api::CreateTensorWithValue(
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      ddim, paddle::platform::CPUPlace(), phi::DataType::FLOAT32,
      phi::DataLayout::NCHW, 1.0 /*value*/, false /*is_leaf*/);
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  target_tensors.emplace_back(std::move(tensor));
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  paddle::experimental::Tensor& target_tensor = target_tensors[0];
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  // Create ScaleNode
  auto scale_node_ptr = std::make_shared<GradNodeScale>(1, 1);
  scale_node_ptr->SetAttributes_scale(5.0 /*scale*/);
  // Set grad in/out meta for node0
  scale_node_ptr->SetDefaultGradInOutMeta();

  // Connect Input Tensor and ScaleNode via AutoGradMeta
  // Apply RetainGrad
  {
    // ScaleNode Hook: +3

    auto auto_grad_meta = std::make_shared<AutogradMeta>();
    auto_grad_meta->SetGradNode(
        std::dynamic_pointer_cast<GradNodeBase>(scale_node_ptr));
    auto_grad_meta->SetSingleOutRankWithSlot(0, 0);
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    auto_grad_meta->SetStopGradient(false);
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    target_tensor.set_autograd_meta(
        std::dynamic_pointer_cast<paddle::experimental::AbstractAutogradMeta>(
            auto_grad_meta));

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    egr_utils_api::RetainGradForTensor(target_tensor);  // result: 1.0
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    egr_utils_api::RegisterGradientHookForTensor(
        target_tensor, std::make_shared<egr::CppTensorHook>(hook_function));
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  }

  // Retain Grad for leaf tensor1
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  paddle::experimental::Tensor leaf_tensor = paddle::experimental::Tensor();
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  {
    // AccumulationNode Hook: +3

    auto auto_grad_meta = std::make_shared<AutogradMeta>();
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    auto acc_node_ptr =
        std::make_shared<GradNodeAccumulation>(auto_grad_meta.get());
    auto_grad_meta->SetGradNode(acc_node_ptr);
    auto_grad_meta->SetStopGradient(false);
    std::vector<egr::AutogradMeta*> res = {auto_grad_meta.get()};
    scale_node_ptr->AddEdges(&res, 0);

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    auto_grad_meta->SetSingleOutRankWithSlot(0, 0);
    leaf_tensor.set_autograd_meta(
        std::dynamic_pointer_cast<paddle::experimental::AbstractAutogradMeta>(
            auto_grad_meta));

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    egr_utils_api::RegisterGradientHookForTensor(
        leaf_tensor, std::make_shared<egr::CppTensorHook>(hook_function));
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  }

  RunBackward(target_tensors, {});
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  eager_test::CompareGradTensorWithValue<float>(target_tensor, 1.0);
  eager_test::CompareGradTensorWithValue<float>(leaf_tensor, 23.0);
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}
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}  // namespace egr