optimizer.h 8.1 KB
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// Copyright (c) 2019 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
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#include <map>
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#include <memory>
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#include <set>
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#include <string>
#include <vector>
#include "lite/core/mir/generate_program_pass.h"
#include "lite/core/mir/pass_manager.h"
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#include "lite/core/mir/pass_utils.h"
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#include "lite/core/mir/ssa_graph.h"
#include "lite/core/mir/static_kernel_pick_pass.h"
#include "lite/core/mir/type_target_cast_pass.h"
#include "lite/core/program.h"
#include "lite/core/types.h"
#include "lite/model_parser/model_parser.h"

namespace paddle {
namespace lite {

/*
 * lite::Optimizer optimize a program. It utilize the mir passes to analysis the
 * program and export an optimized program.
 */
class Optimizer {
 public:
  void Run(Program&& program,
           const std::vector<Place>& valid_places,
           core::KernelPickFactor kernel_pick_factor,
           const std::vector<std::string>& passes = {}) {
    program_ = &program;
    valid_places_ = valid_places;
    CHECK(!valid_places.empty()) << "At least one valid_place should be set";
    CHECK(!graph_) << "duplicate optimize found";
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    graph_.reset(new mir::SSAGraph);
    graph_->Build(program, valid_places);
    graph_->SetValidPlaces(valid_places);

    SpecifyKernelPickTactic(kernel_pick_factor);
    InitTargetTypeTransformPass();

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    if (passes.empty() || passes.size() == 1) {
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      std::vector<std::string> passes_local{
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          {"lite_quant_dequant_fuse_pass",         //
           "weight_quantization_preprocess_pass",  //
           "lite_conv_elementwise_fuse_pass",      // conv-elemwise-bn
           "lite_conv_bn_fuse_pass",               //
           "lite_conv_elementwise_fuse_pass",      // conv-bn-elemwise
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           // TODO(Superjomn) Refine the fusion related design to select fusion
           // kernels for devices automatically.
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           "lite_conv_activation_fuse_pass",              //
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           "lite_var_conv_2d_activation_fuse_pass",       //
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           "lite_fc_fuse_pass",                           //
           "lite_shuffle_channel_fuse_pass",              //
           "lite_transpose_softmax_transpose_fuse_pass",  //
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           "lite_interpolate_fuse_pass",                  //
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           "identity_scale_eliminate_pass",               //
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           "elementwise_mul_constant_eliminate_pass",     //
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           "lite_sequence_pool_concat_fuse_pass",         //
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#if (defined LITE_WITH_LIGHT_WEIGHT_FRAMEWORK) || (defined LITE_WITH_CUDA) || \
    (defined LITE_WITH_ARM)
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           "lite_elementwise_add_activation_fuse_pass",  //
#endif
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           "__xpu__resnet_fuse_pass",
           "__xpu__multi_encoder_fuse_pass",
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           "quantized_op_attributes_inference_pass",  // Only for fully
                                                      // quantized model, infer
                                                      // the output scale and
                                                      // fix the attribute
                                                      // 'enable_int8' for all
                                                      // of the quantized ops.
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           "npu_subgraph_pass",
           "xpu_subgraph_pass",
           "bm_subgraph_pass",
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           "static_kernel_pick_pass",        // pick original kernel from graph
           "variable_place_inference_pass",  // inference arg/var's
           // info(target/precision/layout/device)
           // using kernel info
           "argument_type_display_pass",  // debug pass: show arg-type-node's
                                          // info
                                          // (target/precision/layout/device)
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           "type_target_cast_pass",  // add io_copy/io_copy_once if meet
                                     // different targets when last and next
                                     // node
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           "variable_place_inference_pass",  //
           "argument_type_display_pass",     //

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           "io_copy_kernel_pick_pass",    //
           "argument_type_display_pass",  //

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           "variable_place_inference_pass",  //
           "argument_type_display_pass",     //

           "type_precision_cast_pass",       //
           "variable_place_inference_pass",  //
           "argument_type_display_pass",     //

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           "type_layout_cast_pass",  // add layout/layout_once op if meet
                                     // different layout when last and next node
           "argument_type_display_pass",  //

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           "variable_place_inference_pass",  //
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           "argument_type_display_pass",
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           "mlu_subgraph_pass",

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           "runtime_context_assign_pass",
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           "argument_type_display_pass",
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           "mlu_postprocess_pass",

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           "memory_optimize_pass"}};
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      if (passes.size() == 1) {
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        // multi_stream_analysis_pass must be in the front of
        // runtime_context_assign_pass
        const std::string msa_pass{"multi_stream_analysis_pass"};
        const std::string depend_pass{"runtime_context_assign_pass"};
        if (passes[0] == msa_pass) {
          auto iter =
              std::find(passes_local.begin(), passes_local.end(), depend_pass);
          if (iter != passes_local.end()) {
            passes_local.insert(iter, msa_pass);
          } else {
            CHECK(false) << "Not find " << depend_pass;
          }
        } else {
          passes_local.push_back(passes[0]);
        }
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      }
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      RunPasses(passes_local);
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    } else {
      RunPasses(passes);
    }
    exec_scope_ = program.exec_scope();
  }

  const lite::Scope* exec_scope() const { return exec_scope_; }

  // Generate a new program based on the mir graph.
  std::unique_ptr<RuntimeProgram> GenRuntimeProgram() {
    auto pass = mir::PassManager::Global().LookUp<mir::GenerateProgramPass>(
        "generate_program_pass");
    pass->Apply(graph_);
    auto program = pass->GenProgram();
    CHECK(exec_scope_);
    program->set_exec_scope(exec_scope_);
    return program;
  }

  void InitTargetTypeTransformPass() {
    auto* pass =
        mir::PassManager::Global().LookUp<mir::TypeTargetTransformPass>(
            "type_target_cast_pass");
    CHECK(pass);
    CHECK(!valid_places_.empty());
    pass->SetValidPlaces(valid_places_);
  }

  // Generate C++ code which combines the inference program, model and weights.
  void GenCode(const std::string& code_dir);

  const mir::SSAGraph& ssa_graph() const {
    CHECK(graph_);
    return *graph_;
  }

  mir::SSAGraph* mutable_ssa_graph() {
    CHECK(graph_);
    return graph_.get();
  }

  lite::Scope* exec_scope() { return exec_scope_; }

 protected:
  void SpecifyKernelPickTactic(core::KernelPickFactor factor);

  // Specify the passes and run them.
  void RunPasses(const std::vector<std::string>& passes) {
    for (auto& x : passes) {
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      LOG(INFO) << "== Running pass: " << x;
      mir::Pass* pass = mir::PassManager::Global().LookUp(x);
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      if (!pass) {
        LOG(INFO) << "   - Skip " << x << " because the pass isn't found.";
        continue;
      }
      std::set<TargetType> targets;
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      for (const auto& place : valid_places_) {
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        targets.insert(place.target);
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      }
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      bool matched =
          PassMatchesTarget(*pass, targets) && PassMatchesKernels(*pass);
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      if (!matched) {
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        LOG(INFO) << "   - Skip " << x
                  << " because the target or kernel does not match.";
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      } else {
        pass->Apply(graph_);
        LOG(INFO) << "== Finished running: " << x;
      }
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    }
  }

 private:
  std::unique_ptr<mir::SSAGraph> graph_;
  std::vector<Place> valid_places_;
  lite::Scope* exec_scope_{};
  Program* program_{};
};

}  // namespace lite
}  // namespace paddle