// 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. #include #include #include #include "include/paddlex/transforms.h" namespace PaddleX { std::map interpolations = {{"LINEAR", cv::INTER_LINEAR}, {"NEAREST", cv::INTER_NEAREST}, {"AREA", cv::INTER_AREA}, {"CUBIC", cv::INTER_CUBIC}, {"LANCZOS4", cv::INTER_LANCZOS4}}; bool Normalize::Run(cv::Mat* im, ImageBlob* data) { for (int h = 0; h < im->rows; h++) { for (int w = 0; w < im->cols; w++) { im->at(h, w)[0] = (im->at(h, w)[0] / 255.0 - mean_[0]) / std_[0]; im->at(h, w)[1] = (im->at(h, w)[1] / 255.0 - mean_[1]) / std_[1]; im->at(h, w)[2] = (im->at(h, w)[2] / 255.0 - mean_[2]) / std_[2]; } } return true; } float ResizeByShort::GenerateScale(const cv::Mat& im) { int origin_w = im.cols; int origin_h = im.rows; int im_size_max = std::max(origin_w, origin_h); int im_size_min = std::min(origin_w, origin_h); float scale = static_cast(short_size_) / static_cast(im_size_min); if (max_size_ > 0) { if (round(scale * im_size_max) > max_size_) { scale = static_cast(max_size_) / static_cast(im_size_max); } } return scale; } bool ResizeByShort::Run(cv::Mat* im, ImageBlob* data) { data->im_size_before_resize_.push_back({im->rows,im->cols}); data->reshape_order_.push_back("resize"); float scale = GenerateScale(*im); int width = static_cast(scale * im->cols); int height = static_cast(scale * im->rows); cv::resize(*im, *im, cv::Size(width, height), 0, 0, cv::INTER_LINEAR); data->new_im_size_[0] = im->rows; data->new_im_size_[1] = im->cols; data->scale = scale; return true; } bool CenterCrop::Run(cv::Mat* im, ImageBlob* data) { int height = static_cast(im->rows); int width = static_cast(im->cols); if (height < height_ || width < width_) { std::cerr << "[CenterCrop] Image size less than crop size" << std::endl; return false; } int offset_x = static_cast((width - width_) / 2); int offset_y = static_cast((height - height_) / 2); cv::Rect crop_roi(offset_x, offset_y, width_, height_); *im = (*im)(crop_roi); data->new_im_size_[0] = im->rows; data->new_im_size_[1] = im->cols; return true; } bool Padding::Run(cv::Mat* im, ImageBlob* data) { data->im_size_before_resize_.push_back({im->rows,im->cols}); data->reshape_order_.push_back("padding"); int padding_w = 0; int padding_h = 0; if (width_ > 1 & height_ > 1) { padding_w = width_ - im->cols; padding_h = height_ - im->rows; } else if (coarsest_stride_ > 1) { padding_h = ceil(im->rows * 1.0 / coarsest_stride_) * coarsest_stride_ - im->rows; padding_w = ceil(im->cols * 1.0 / coarsest_stride_) * coarsest_stride_ - im->cols; } if (padding_h < 0 || padding_w < 0) { std::cerr << "[Padding] Computed padding_h=" << padding_h << ", padding_w=" << padding_w << ", but they should be greater than 0." << std::endl; return false; } cv::copyMakeBorder( *im, *im, 0, padding_h, 0, padding_w, cv::BORDER_CONSTANT, cv::Scalar(0)); data->new_im_size_[0] = im->rows; data->new_im_size_[1] = im->cols; return true; } bool ResizeByLong::Run(cv::Mat* im, ImageBlob* data) { if (long_size_ <= 0) { std::cerr << "[ResizeByLong] long_size should be greater than 0" << std::endl; return false; } data->im_size_before_resize_.push_back({im->rows,im->cols}); data->reshape_order_.push_back("resize"); int origin_w = im->cols; int origin_h = im->rows; int im_size_max = std::max(origin_w, origin_h); float scale = static_cast(long_size_) / static_cast(im_size_max); cv::resize(*im, *im, cv::Size(), scale, scale, cv::INTER_NEAREST); data->new_im_size_[0] = im->rows; data->new_im_size_[1] = im->cols; data->scale = scale; return true; } bool Resize::Run(cv::Mat* im, ImageBlob* data) { if (width_ <= 0 || height_ <= 0) { std::cerr << "[Resize] width and height should be greater than 0" << std::endl; return false; } if (interpolations.count(interp_) <= 0) { std::cerr << "[Resize] Invalid interpolation method: '" << interp_ << "'" << std::endl; return false; } data->im_size_before_resize_.push_back({im->rows,im->cols}); data->reshape_order_.push_back("resize"); cv::resize( *im, *im, cv::Size(width_, height_), 0, 0, interpolations[interp_]); data->new_im_size_[0] = im->rows; data->new_im_size_[1] = im->cols; return true; } void Transforms::Init(const YAML::Node& transforms_node, bool to_rgb) { transforms_.clear(); to_rgb_ = to_rgb; for (const auto& item : transforms_node) { std::string name = item.begin()->first.as(); std::cout << "trans name: " << name << std::endl; std::shared_ptr transform = CreateTransform(name); transform->Init(item.begin()->second); transforms_.push_back(transform); } } std::shared_ptr Transforms::CreateTransform( const std::string& transform_name) { if (transform_name == "Normalize") { return std::make_shared(); } else if (transform_name == "ResizeByShort") { return std::make_shared(); } else if (transform_name == "CenterCrop") { return std::make_shared(); } else if (transform_name == "Resize") { return std::make_shared(); } else if (transform_name == "Padding") { return std::make_shared(); } else if (transform_name == "ResizeByLong") { return std::make_shared(); } else { std::cerr << "There's unexpected transform(name='" << transform_name << "')." << std::endl; exit(-1); } } bool Transforms::Run(cv::Mat* im, ImageBlob* data) { // 按照transforms中预处理算子顺序处理图像 if (to_rgb_) { cv::cvtColor(*im, *im, cv::COLOR_BGR2RGB); } (*im).convertTo(*im, CV_32FC3); data->ori_im_size_[0] = im->rows; data->ori_im_size_[1] = im->cols; data->new_im_size_[0] = im->rows; data->new_im_size_[1] = im->cols; for (int i = 0; i < transforms_.size(); ++i) { if (!transforms_[i]->Run(im, data)) { std::cerr << "Apply transforms to image failed!" << std::endl; return false; } } // 将图像由NHWC转为NCHW格式 // 同时转为连续的内存块存储到ImageBlob int h = im->rows; int w = im->cols; int c = im->channels(); (data->im_data_).resize(c * h * w); float* ptr = (data->im_data_).data(); for (int i = 0; i < c; ++i) { cv::extractChannel(*im, cv::Mat(h, w, CV_32FC1, ptr + i * h * w), i); } return true; } } // namespace PaddleX