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// Copyright (c) 2020 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 <glog/logging.h>
#include <yaml-cpp/yaml.h>
#include <iostream>
#include <memory>
#include <string>
#include <unordered_map>
#include <utility>
#include <vector>
#include <opencv2/core/core.hpp>
#include <opencv2/highgui/highgui.hpp>
#include <opencv2/imgproc/imgproc.hpp>
namespace PaddleDetection {
// Object for storing all preprocessed data
class ImageBlob {
public:
// image width and height
std::vector<float> im_shape_;
// Buffer for image data after preprocessing
std::vector<float> im_data_;
// in net data shape(after pad)
std::vector<float> in_net_shape_;
// Evaluation image width and height
// std::vector<float> eval_im_size_f_;
// Scale factor for image size to origin image size
std::vector<float> scale_factor_;
// in net image after preprocessing
cv::Mat in_net_im_;
};
// Abstraction of preprocessing opration class
class PreprocessOp {
public:
virtual void Init(const YAML::Node& item) = 0;
virtual void Run(cv::Mat* im, ImageBlob* data) = 0;
};
class InitInfo : public PreprocessOp {
public:
virtual void Init(const YAML::Node& item) {}
virtual void Run(cv::Mat* im, ImageBlob* data);
};
class NormalizeImage : public PreprocessOp {
public:
virtual void Init(const YAML::Node& item) {
mean_ = item["mean"].as<std::vector<float>>();
scale_ = item["std"].as<std::vector<float>>();
if (item["is_scale"]) is_scale_ = item["is_scale"].as<bool>();
if (item["norm_type"]) norm_type_ = item["norm_type"].as<std::string>();
}
virtual void Run(cv::Mat* im, ImageBlob* data);
private:
// CHW or HWC
std::vector<float> mean_;
std::vector<float> scale_;
bool is_scale_ = true;
std::string norm_type_ = "mean_std";
};
class Permute : public PreprocessOp {
public:
virtual void Init(const YAML::Node& item) {}
virtual void Run(cv::Mat* im, ImageBlob* data);
};
class Resize : public PreprocessOp {
public:
virtual void Init(const YAML::Node& item) {
interp_ = item["interp"].as<int>();
keep_ratio_ = item["keep_ratio"].as<bool>();
target_size_ = item["target_size"].as<std::vector<int>>();
}
// Compute best resize scale for x-dimension, y-dimension
std::pair<float, float> GenerateScale(const cv::Mat& im);
virtual void Run(cv::Mat* im, ImageBlob* data);
private:
int interp_;
bool keep_ratio_;
std::vector<int> target_size_;
std::vector<int> in_net_shape_;
};
class LetterBoxResize : public PreprocessOp {
public:
virtual void Init(const YAML::Node& item) {
target_size_ = item["target_size"].as<std::vector<int>>();
}
float GenerateScale(const cv::Mat& im);
virtual void Run(cv::Mat* im, ImageBlob* data);
private:
std::vector<int> target_size_;
std::vector<int> in_net_shape_;
};
// Models with FPN need input shape % stride == 0
class PadStride : public PreprocessOp {
public:
virtual void Init(const YAML::Node& item) {
stride_ = item["stride"].as<int>();
}
virtual void Run(cv::Mat* im, ImageBlob* data);
private:
int stride_;
};
class TopDownEvalAffine : public PreprocessOp {
public:
virtual void Init(const YAML::Node& item) {
trainsize_ = item["trainsize"].as<std::vector<int>>();
}
virtual void Run(cv::Mat* im, ImageBlob* data);
private:
int interp_ = 1;
std::vector<int> trainsize_;
};
class WarpAffine : public PreprocessOp {
public:
virtual void Init(const YAML::Node& item) {
input_h_ = item["input_h"].as<int>();
input_w_ = item["input_w"].as<int>();
keep_res_ = item["keep_res"].as<bool>();
}
virtual void Run(cv::Mat* im, ImageBlob* data);
private:
int input_h_;
int input_w_;
int interp_ = 1;
bool keep_res_ = true;
int pad_ = 31;
};
class Pad : public PreprocessOp {
public:
virtual void Init(const YAML::Node& item) {
size_ = item["size"].as<std::vector<int>>();
fill_value_ = item["fill_value"].as<std::vector<float>>();
}
virtual void Run(cv::Mat* im, ImageBlob* data);
private:
std::vector<int> size_;
std::vector<float> fill_value_;
};
void CropImg(cv::Mat& img,
cv::Mat& crop_img,
std::vector<int>& area,
std::vector<float>& center,
std::vector<float>& scale,
float expandratio = 0.15);
// check whether the input size is dynamic
bool CheckDynamicInput(const std::vector<cv::Mat>& imgs);
// Pad images in batch
std::vector<cv::Mat> PadBatch(const std::vector<cv::Mat>& imgs);
class Preprocessor {
public:
void Init(const YAML::Node& config_node) {
// initialize image info at first
ops_["InitInfo"] = std::make_shared<InitInfo>();
for (const auto& item : config_node) {
auto op_name = item["type"].as<std::string>();
ops_[op_name] = CreateOp(op_name);
ops_[op_name]->Init(item);
}
}
std::shared_ptr<PreprocessOp> CreateOp(const std::string& name) {
if (name == "Resize") {
return std::make_shared<Resize>();
} else if (name == "LetterBoxResize") {
return std::make_shared<LetterBoxResize>();
} else if (name == "Permute") {
return std::make_shared<Permute>();
} else if (name == "NormalizeImage") {
return std::make_shared<NormalizeImage>();
} else if (name == "PadStride") {
// use PadStride instead of PadBatch
return std::make_shared<PadStride>();
} else if (name == "TopDownEvalAffine") {
return std::make_shared<TopDownEvalAffine>();
} else if (name == "WarpAffine") {
return std::make_shared<WarpAffine>();
}else if (name == "Pad") {
return std::make_shared<Pad>();
}
std::cerr << "can not find function of OP: " << name
<< " and return: nullptr" << std::endl;
return nullptr;
}
void Run(cv::Mat* im, ImageBlob* data);
public:
static const std::vector<std::string> RUN_ORDER;
private:
std::unordered_map<std::string, std::shared_ptr<PreprocessOp>> ops_;
};
} // namespace PaddleDetection
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