seqpool_concat_fuse_pass.cc 7.4 KB
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/* Copyright (c) 2018 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 "paddle/fluid/framework/ir/seqpool_concat_fuse_pass.h"
#include <string>
#include <vector>
#include "paddle/fluid/framework/lod_tensor.h"

#define MAX_CONCAT_INPUTS 200

namespace paddle {
namespace framework {
namespace ir {

PDNode* BuildSeqPoolConcatPattern(PDPattern* pattern,
                                  const std::string& name_scope,
                                  int num_inputs) {
  auto is_concat_op_with_inputs = [](Node* x, int num) -> bool {
    return x && x->IsOp() && x->Op()->Type() == "concat" &&
           x->Op()->Input("X").size() == static_cast<size_t>(num);
  };

  auto is_nth_input_var_of_concat = [=](Node* x, int idx) -> bool {
    return x && x->IsVar() && VarLinksToOp(x, "concat") &&
           x->outputs.size() == 1 && IsNthInput(x, x->outputs[0], "X", idx) &&
           is_concat_op_with_inputs(x->outputs[0], num_inputs);
  };

  auto is_seqpool_op_with_pootype_of_nth_input_of_concat = [=](
      Node* x, const std::string& type, int idx) -> bool {
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    bool this_is_seqpool_op =
        x && x->IsOp() && x->Op()->Type() == "sequence_pool" &&
        x->Op()->HasAttr("pooltype") &&
        boost::get<std::string>(x->Op()->GetAttr("pooltype")) == type &&
        x->outputs.size() == 2;  // seqpool should only have 2 outputs
    bool satisfied_all = this_is_seqpool_op;
    if (this_is_seqpool_op) {
      // Only one output of seqpool_op is nth_input_var of concat,
      // the other one should be unused empty var.
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      if (is_nth_input_var_of_concat(x->outputs[0], idx)) {
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        satisfied_all = satisfied_all && x->outputs[1]->IsVar() &&
                        x->outputs[1]->outputs.size() == 0;
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      } else {
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        satisfied_all =
            satisfied_all && is_nth_input_var_of_concat(x->outputs[1], idx) &&
            x->outputs[0]->IsVar() && x->outputs[0]->outputs.size() == 0;
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      }
    }
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    return satisfied_all;
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  };

  auto* concat_op = pattern->NewNode(
      [=](Node* x) { return is_concat_op_with_inputs(x, num_inputs); },
      name_scope + "/concat_op");
  concat_op->assert_op_attr<int>("axis", 1);

  auto* concat_out_var = pattern->NewNode(
      [=](Node* x) {
        return x && x->IsVar() && VarLinksFromOp(x, "concat") &&
               x->inputs.size() == 1 &&
               is_concat_op_with_inputs(x->inputs[0], num_inputs);
      },
      name_scope + "/concat_out_var");
  concat_out_var->assert_is_only_output_of_op("concat");

  std::vector<PDNode*> seqpool_ops_input_var(num_inputs);
  std::vector<PDNode*> seqpool_ops_output_var(num_inputs);
  std::vector<PDNode*> seqpool_ops(num_inputs);

  for (int i = 0; i < num_inputs; ++i) {
    seqpool_ops_output_var[i] = pattern->NewNode(
        [=](Node* x) {
          return x && x->IsVar() && is_nth_input_var_of_concat(x, i) &&
                 x->inputs.size() == 1 &&
                 is_seqpool_op_with_pootype_of_nth_input_of_concat(x->inputs[0],
                                                                   "SUM", i);
        },
        name_scope + "/sequence_pool_out_" + std::to_string(i));

    seqpool_ops[i] = pattern->NewNode(
        [=](Node* x) {
          return x && x->IsOp() &&
                 is_seqpool_op_with_pootype_of_nth_input_of_concat(x, "SUM", i);
        },
        name_scope + "/sequence_pool_op_" + std::to_string(i));

    seqpool_ops_input_var[i] = pattern->NewNode(
        [=](Node* x) {
          return x && x->IsVar() && x->outputs.size() >= 1 &&
                 is_seqpool_op_with_pootype_of_nth_input_of_concat(
                     x->outputs[0], "SUM", i);
        },
        name_scope + "/sequence_pool_in_" + std::to_string(i));

    // Links
    seqpool_ops[i]
        ->LinksFrom({seqpool_ops_input_var[i]})
        .LinksTo({seqpool_ops_output_var[i]});
  }
  concat_op->LinksFrom(seqpool_ops_output_var).LinksTo({concat_out_var});
  return concat_out_var;
}

int BuildFusion(Graph* graph, const std::string& name_scope, Scope* scope,
                int num_inputs) {
  GraphPatternDetector gpd;
  auto* pattern = gpd.mutable_pattern();
  BuildSeqPoolConcatPattern(pattern, name_scope, num_inputs);

  auto retrieve_node = [](const std::string& name,
                          const GraphPatternDetector::subgraph_t& subgraph,
                          const PDPattern& pat) -> Node* {
    PADDLE_ENFORCE(subgraph.count(pat.RetrieveNode(name)),
                   "pattern has no Node called %s", name.c_str());
    Node* p = subgraph.at(pat.RetrieveNode(name));
    PADDLE_ENFORCE_NOT_NULL(p, "subgraph has no node %s", name.c_str());
    return p;
  };

  int fusion_count{0};
  auto handler = [&](const GraphPatternDetector::subgraph_t& subgraph,
                     Graph* g) {
    VLOG(4) << "handle SeqPool Concat fuse";
    std::vector<std::string> input_names(num_inputs);
    std::vector<Node*> input_vars(num_inputs);
    auto& fused_pattern = gpd.pattern();
    for (int i = 0; i < num_inputs; ++i) {
      input_vars[i] =
          retrieve_node(name_scope + "/sequence_pool_in_" + std::to_string(i),
                        subgraph, fused_pattern);
      input_names[i] = input_vars[i]->Name();
    }
    auto* concat_op =
        retrieve_node(name_scope + "/concat_op", subgraph, fused_pattern);
    auto* concat_out_var =
        retrieve_node(name_scope + "/concat_out_var", subgraph, fused_pattern);
    auto* seqpool_op0 = retrieve_node(name_scope + "/sequence_pool_op_0",
                                      subgraph, fused_pattern);

    // Create New OpDesc
    OpDesc op_desc;
    op_desc.SetType("fusion_seqpool_concat");
    op_desc.SetInput("X", input_names);
    op_desc.SetAttr("pooltype", seqpool_op0->Op()->GetAttr("pooltype"));
    op_desc.SetAttr("axis", concat_op->Op()->GetAttr("axis"));
    op_desc.SetOutput("Out", {concat_out_var->Name()});
    auto* op = graph->CreateOpNode(&op_desc);
    for (size_t i = 0; i < input_vars.size(); ++i) {
      IR_NODE_LINK_TO(input_vars[i], op);
    }
    IR_NODE_LINK_TO(op, concat_out_var);

    std::unordered_set<const Node*> marked_nodes;
    for (auto& item : subgraph) {
      marked_nodes.insert(item.second);
    }
    for (size_t i = 0; i < input_vars.size(); ++i) {
      marked_nodes.erase(input_vars[i]);
    }
    marked_nodes.erase(concat_out_var);
    GraphSafeRemoveNodes(graph, marked_nodes);
    ++fusion_count;
  };

  gpd(graph, handler);
  return fusion_count;
}

std::unique_ptr<ir::Graph> SeqPoolConcatFusePass::ApplyImpl(
    std::unique_ptr<ir::Graph> graph) const {
  FusePassBase::Init(name_scope_, graph.get());
  int fusion_count = 0;
  for (int i = MAX_CONCAT_INPUTS; i > 0; --i) {
    fusion_count += BuildFusion(
        graph.get(), name_scope_ + "/" + std::to_string(i), param_scope(), i);
  }
  AddStatis(fusion_count);

  return graph;
}

}  // namespace ir
}  // namespace framework
}  // namespace paddle

REGISTER_PASS(seqpool_concat_fuse_pass,
              paddle::framework::ir::SeqPoolConcatFusePass);