mobilenetv1_light_api.cc 5.5 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.

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#include <sys/time.h>
#include <time.h>
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#include <iostream>
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#include <string>
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#include <vector>
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#include "paddle_api.h"  // NOLINT
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using namespace paddle::lite_api;  // NOLINT

int64_t ShapeProduction(const shape_t& shape) {
  int64_t res = 1;
  for (auto i : shape) res *= i;
  return res;
}

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std::string ShapePrint(const shape_t& shape) {
  std::string shape_str{""};
  for (auto i : shape) {
    shape_str = shape_str + std::to_string(i) + " ";
  }
  return shape_str;
}

inline double GetCurrentUS() {
  struct timeval time;
  gettimeofday(&time, NULL);
  return 1e+6 * time.tv_sec + time.tv_usec;
}

void RunModel(std::string model_dir,
              const shape_t& input_shape,
              int repeats,
              int warmup,
              int print_output_elem) {
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  // 1. Set MobileConfig
  MobileConfig config;
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  config.set_model_from_file(model_dir);
  // NOTE: To load model transformed by model_optimize_tool before
  // release/v2.3.0, plese use `set_model_dir` API as listed below.
  // config.set_model_dir(model_dir);
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  // 2. Create PaddlePredictor by MobileConfig
  std::shared_ptr<PaddlePredictor> predictor =
      CreatePaddlePredictor<MobileConfig>(config);

  // 3. Prepare input data
  std::unique_ptr<Tensor> input_tensor(std::move(predictor->GetInput(0)));
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  input_tensor->Resize(
      {input_shape[0], input_shape[1], input_shape[2], input_shape[3]});
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  auto* data = input_tensor->mutable_data<float>();
  for (int i = 0; i < ShapeProduction(input_tensor->shape()); ++i) {
    data[i] = 1;
  }

  // 4. Run predictor
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  for (size_t widx = 0; widx < warmup; ++widx) {
    predictor->Run();
  }

  double sum_duration = 0.0;  // millisecond;
  double max_duration = 1e-5;
  double min_duration = 1e5;
  double avg_duration = -1;
  for (size_t ridx = 0; ridx < repeats; ++ridx) {
    auto start = GetCurrentUS();

    predictor->Run();

    auto duration = (GetCurrentUS() - start) / 1000.0;
    sum_duration += duration;
    max_duration = duration > max_duration ? duration : max_duration;
    min_duration = duration < min_duration ? duration : min_duration;
    std::cout << "run_idx:" << ridx + 1 << " / " << repeats << ": " << duration
              << " ms" << std::endl;
  }
  avg_duration = sum_duration / static_cast<float>(repeats);
  std::cout << "\n======= benchmark summary =======\n"
            << "input_shape(NCHW):" << ShapePrint(input_shape) << "\n"
            << "model_dir:" << model_dir << "\n"
            << "warmup:" << warmup << "\n"
            << "repeats:" << repeats << "\n"
            << "max_duration:" << max_duration << "\n"
            << "min_duration:" << min_duration << "\n"
            << "avg_duration:" << avg_duration << "\n";
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  // 5. Get output
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  std::cout << "\n====== output summary ====== " << std::endl;
  size_t output_tensor_num = predictor->GetOutputNames().size();
  std::cout << "output tesnor num:" << output_tensor_num << std::endl;

  for (size_t tidx = 0; tidx < output_tensor_num; ++tidx) {
    std::unique_ptr<const paddle::lite_api::Tensor> output_tensor =
        predictor->GetOutput(tidx);
    std::cout << "\n--- output tensor " << tidx << " ---" << std::endl;
    auto out_shape = output_tensor->shape();
    std::cout << "out_shape(NCHW):" << ShapePrint(out_shape) << std::endl;

    float sum = 0.f;
    for (int i = 0; i < ShapeProduction(out_shape); ++i) {
      sum += output_tensor->data<float>()[i];
    }
    std::cout << "output tensor " << tidx
              << " elem num:" << ShapeProduction(out_shape) << std::endl;
    std::cout << "output tensor " << tidx << " sum value:" << sum << std::endl;
    std::cout << "output tensor " << tidx
              << " mean value:" << sum / ShapeProduction(out_shape)
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              << std::endl;
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    // print output
    if (print_output_elem) {
      for (int i = 0; i < ShapeProduction(out_shape); ++i) {
        std::cout << "out[" << tidx << "][" << i
                  << "]:" << output_tensor->data<float>()[i] << std::endl;
      }
    }
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  }
}

int main(int argc, char** argv) {
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  shape_t input_shape{1, 3, 224, 224};  // shape_t ==> std::vector<int64_t>
  int repeats = 10;
  int warmup = 10;
  int print_output_elem = 0;

  if (argc > 2 && argc < 9) {
    std::cerr << "usage: ./" << argv[0] << "\n"
              << "  <naive_buffer_model_dir>\n"
              << "  <input_n>\n"
              << "  <input_c>\n"
              << "  <input_h>\n"
              << "  <input_w>\n"
              << "  <repeats>\n"
              << "  <warmup>\n"
              << "  <print_output>" << std::endl;
    return 0;
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  }
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  std::string model_dir = argv[1];
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  if (argc >= 9) {
    input_shape[0] = atoi(argv[2]);
    input_shape[1] = atoi(argv[4]);
    input_shape[2] = atoi(argv[5]);
    input_shape[3] = atoi(argv[6]);
    repeats = atoi(argv[6]);
    warmup = atoi(argv[7]);
    print_output_elem = atoi(argv[8]);
  }

  RunModel(model_dir, input_shape, repeats, warmup, print_output_elem);

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  return 0;
}