// // Created by DefTruth on 2021/6/26. // #include "lite/lite.h" static void test_default() { std::string onnx_path = "../../../hub/onnx/cv/deeplabv3_resnet101_coco.onnx"; std::string test_img_path = "../../../examples/lite/resources/test_lite_deeplabv3_resnet101.png"; std::string save_img_path = "../../../logs/test_lite_deeplabv3_resnet101.jpg"; lite::cv::segmentation::DeepLabV3ResNet101 *deeplabv3_resnet101 = new lite::cv::segmentation::DeepLabV3ResNet101(onnx_path, 16); // 16 threads lite::types::SegmentContent content; cv::Mat img_bgr = cv::imread(test_img_path); deeplabv3_resnet101->detect(img_bgr, content); if (content.flag) { cv::Mat out_img; cv::addWeighted(img_bgr, 0.2, content.color_mat, 0.8, 0., out_img); cv::imwrite(save_img_path, out_img); if (!content.names_map.empty()) { for (auto it = content.names_map.begin(); it != content.names_map.end(); ++it) { std::cout << "Default Version Detected Label: " << it->first << " Name: " << it->second << std::endl; } } } delete deeplabv3_resnet101; } static void test_onnxruntime() { #ifdef ENABLE_ONNXRUNTIME std::string onnx_path = "../../../hub/onnx/cv/deeplabv3_resnet101_coco.onnx"; std::string test_img_path = "../../../examples/lite/resources/test_lite_deeplabv3_resnet101.png"; std::string save_img_path = "../../../logs/test_onnx_deeplabv3_resnet101.jpg"; lite::onnxruntime::cv::segmentation::DeepLabV3ResNet101 *deeplabv3_resnet101 = new lite::onnxruntime::cv::segmentation::DeepLabV3ResNet101(onnx_path, 16); // 16 threads lite::types::SegmentContent content; cv::Mat img_bgr = cv::imread(test_img_path); deeplabv3_resnet101->detect(img_bgr, content); if (content.flag) { cv::Mat out_img; cv::addWeighted(img_bgr, 0.2, content.color_mat, 0.8, 0., out_img); cv::imwrite(save_img_path, out_img); if (!content.names_map.empty()) { for (auto it = content.names_map.begin(); it != content.names_map.end(); ++it) { std::cout << "ONNXRuntime Version Detected Label: " << it->first << " Name: " << it->second << std::endl; } } } delete deeplabv3_resnet101; #endif } static void test_mnn() { #ifdef ENABLE_MNN std::string mnn_path = "../../../hub/mnn/cv/deeplabv3_resnet101_coco.mnn"; // std::string mnn_path = "../../../hub/onnx/cv/deeplabv3_resnet101_coco.opt.mnn"; std::string test_img_path = "../../../examples/lite/resources/test_lite_deeplabv3_resnet101.png"; std::string save_img_path = "../../../logs/test_deeplabv3_resnet101_mnn.jpg"; lite::mnn::cv::segmentation::DeepLabV3ResNet101 *deeplabv3_resnet101 = new lite::mnn::cv::segmentation::DeepLabV3ResNet101(mnn_path, 16); // 16 threads lite::types::SegmentContent content; cv::Mat img_bgr = cv::imread(test_img_path); deeplabv3_resnet101->detect(img_bgr, content); if (content.flag) { cv::Mat out_img; cv::addWeighted(img_bgr, 0.2, content.color_mat, 0.8, 0., out_img); cv::imwrite(save_img_path, out_img); if (!content.names_map.empty()) { for (auto it = content.names_map.begin(); it != content.names_map.end(); ++it) { std::cout << "MNN Version Detected Label: " << it->first << " Name: " << it->second << std::endl; } } } delete deeplabv3_resnet101; #endif } static void test_ncnn() { #ifdef ENABLE_NCNN std::string param_path = "../../../hub/ncnn/cv/deeplabv3_resnet101_coco.opt.param"; std::string bin_path = "../../../hub/ncnn/cv/deeplabv3_resnet101_coco.opt.bin"; std::string test_img_path = "../../../examples/lite/resources/test_lite_deeplabv3_resnet101.png"; std::string save_img_path = "../../../logs/test_deeplabv3_resnet101_ncnn.jpg"; lite::ncnn::cv::segmentation::DeepLabV3ResNet101 *deeplabv3_resnet101 = new lite::ncnn::cv::segmentation::DeepLabV3ResNet101(param_path, bin_path, 16); // 16 threads lite::types::SegmentContent content; cv::Mat img_bgr = cv::imread(test_img_path); deeplabv3_resnet101->detect(img_bgr, content); if (content.flag) { cv::Mat out_img; cv::addWeighted(img_bgr, 0.2, content.color_mat, 0.8, 0., out_img); cv::imwrite(save_img_path, out_img); if (!content.names_map.empty()) { for (auto it = content.names_map.begin(); it != content.names_map.end(); ++it) { std::cout << "NCNN Version Detected Label: " << it->first << " Name: " << it->second << std::endl; } } } delete deeplabv3_resnet101; #endif } static void test_tnn() { #ifdef ENABLE_TNN std::string proto_path = "../../../hub/tnn/cv/deeplabv3_resnet101_coco.opt.tnnproto"; std::string model_path = "../../../hub/tnn/cv/deeplabv3_resnet101_coco.opt.tnnmodel"; std::string test_img_path = "../../../examples/lite/resources/test_lite_deeplabv3_resnet101.png"; std::string save_img_path = "../../../logs/test_deeplabv3_resnet101_tnn.jpg"; lite::tnn::cv::segmentation::DeepLabV3ResNet101 *deeplabv3_resnet101 = new lite::tnn::cv::segmentation::DeepLabV3ResNet101(proto_path, model_path, 16); // 16 threads lite::types::SegmentContent content; cv::Mat img_bgr = cv::imread(test_img_path); deeplabv3_resnet101->detect(img_bgr, content); if (content.flag) { cv::Mat out_img; cv::addWeighted(img_bgr, 0.2, content.color_mat, 0.8, 0., out_img); cv::imwrite(save_img_path, out_img); if (!content.names_map.empty()) { for (auto it = content.names_map.begin(); it != content.names_map.end(); ++it) { std::cout << "TNN Version Detected Label: " << it->first << " Name: " << it->second << std::endl; } } } delete deeplabv3_resnet101; #endif } static void test_lite() { test_default(); test_onnxruntime(); test_mnn(); test_ncnn(); test_tnn(); } int main(__unused int argc, __unused char *argv[]) { test_lite(); return 0; }