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Open Source Computer Vision Library
https://opencv.org/
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429 lines
16 KiB
429 lines
16 KiB
#include <algorithm> |
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#include <fstream> |
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#include <iostream> |
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#include <cctype> |
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#include <tuple> |
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#include <opencv2/imgproc.hpp> |
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#include <opencv2/gapi.hpp> |
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#include <opencv2/gapi/core.hpp> |
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#include <opencv2/gapi/cpu/gcpukernel.hpp> |
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#include <opencv2/gapi/infer/ie.hpp> |
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#include <opencv2/gapi/render.hpp> |
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#include <opencv2/gapi/streaming/onevpl/source.hpp> |
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#include <opencv2/gapi/streaming/onevpl/data_provider_interface.hpp> |
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#include <opencv2/highgui.hpp> // CommandLineParser |
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#ifdef HAVE_INF_ENGINE |
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#include <inference_engine.hpp> // ParamMap |
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#ifdef HAVE_DIRECTX |
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#ifdef HAVE_D3D11 |
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#pragma comment(lib,"d3d11.lib") |
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// get rid of generate macro max/min/etc from DX side |
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#define D3D11_NO_HELPERS |
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#define NOMINMAX |
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#include <cldnn/cldnn_config.hpp> |
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#include <atlbase.h> |
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#include <d3d11.h> |
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#pragma comment(lib, "dxgi") |
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#undef NOMINMAX |
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#undef D3D11_NO_HELPERS |
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#endif // HAVE_D3D11 |
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#endif // HAVE_DIRECTX |
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#endif // HAVE_INF_ENGINE |
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const std::string about = |
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"This is an OpenCV-based version of oneVPLSource decoder example"; |
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const std::string keys = |
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"{ h help | | Print this help message }" |
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"{ input | | Path to the input demultiplexed video file }" |
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"{ output | | Path to the output RAW video file. Use .avi extension }" |
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"{ facem | face-detection-adas-0001.xml | Path to OpenVINO IE face detection model (.xml) }" |
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"{ faced | CPU | Target device for face detection model (e.g. CPU, GPU, VPU, ...) }" |
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"{ cfg_params | <prop name>:<value>;<prop name>:<value> | Semicolon separated list of oneVPL mfxVariants which is used for configuring source (see `MFXSetConfigFilterProperty` by https://spec.oneapi.io/versions/latest/elements/oneVPL/source/index.html) }"; |
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namespace { |
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std::string get_weights_path(const std::string &model_path) { |
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const auto EXT_LEN = 4u; |
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const auto sz = model_path.size(); |
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CV_Assert(sz > EXT_LEN); |
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auto ext = model_path.substr(sz - EXT_LEN); |
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std::transform(ext.begin(), ext.end(), ext.begin(), [](unsigned char c){ |
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return static_cast<unsigned char>(std::tolower(c)); |
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}); |
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CV_Assert(ext == ".xml"); |
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return model_path.substr(0u, sz - EXT_LEN) + ".bin"; |
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} |
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#ifdef HAVE_INF_ENGINE |
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#ifdef HAVE_DIRECTX |
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#ifdef HAVE_D3D11 |
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using AccelParamsType = std::tuple<CComPtr<ID3D11Device>, CComPtr<ID3D11DeviceContext>>; |
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AccelParamsType create_device_with_ctx(CComPtr<IDXGIAdapter> adapter) { |
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UINT flags = 0; |
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D3D_FEATURE_LEVEL feature_levels[] = { D3D_FEATURE_LEVEL_11_1, |
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D3D_FEATURE_LEVEL_11_0, |
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}; |
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D3D_FEATURE_LEVEL featureLevel; |
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ID3D11Device* ret_device_ptr = nullptr; |
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ID3D11DeviceContext* ret_ctx_ptr = nullptr; |
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HRESULT err = D3D11CreateDevice(adapter, D3D_DRIVER_TYPE_UNKNOWN, |
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nullptr, flags, |
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feature_levels, |
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ARRAYSIZE(feature_levels), |
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D3D11_SDK_VERSION, &ret_device_ptr, |
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&featureLevel, &ret_ctx_ptr); |
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if (FAILED(err)) { |
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throw std::runtime_error("Cannot create D3D11CreateDevice, error: " + |
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std::to_string(HRESULT_CODE(err))); |
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} |
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return std::make_tuple(ret_device_ptr, ret_ctx_ptr); |
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} |
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#endif // HAVE_D3D11 |
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#endif // HAVE_DIRECTX |
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#endif // HAVE_INF_ENGINE |
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} // anonymous namespace |
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namespace custom { |
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G_API_NET(FaceDetector, <cv::GMat(cv::GMat)>, "face-detector"); |
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using GDetections = cv::GArray<cv::Rect>; |
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using GRect = cv::GOpaque<cv::Rect>; |
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using GSize = cv::GOpaque<cv::Size>; |
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using GPrims = cv::GArray<cv::gapi::wip::draw::Prim>; |
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G_API_OP(LocateROI, <GRect(GSize)>, "sample.custom.locate-roi") { |
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static cv::GOpaqueDesc outMeta(const cv::GOpaqueDesc &) { |
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return cv::empty_gopaque_desc(); |
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} |
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}; |
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G_API_OP(ParseSSD, <GDetections(cv::GMat, GRect, GSize)>, "sample.custom.parse-ssd") { |
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static cv::GArrayDesc outMeta(const cv::GMatDesc &, const cv::GOpaqueDesc &, const cv::GOpaqueDesc &) { |
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return cv::empty_array_desc(); |
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} |
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}; |
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G_API_OP(BBoxes, <GPrims(GDetections, GRect)>, "sample.custom.b-boxes") { |
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static cv::GArrayDesc outMeta(const cv::GArrayDesc &, const cv::GOpaqueDesc &) { |
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return cv::empty_array_desc(); |
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} |
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}; |
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GAPI_OCV_KERNEL(OCVLocateROI, LocateROI) { |
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// This is the place where we can run extra analytics |
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// on the input image frame and select the ROI (region |
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// of interest) where we want to detect our objects (or |
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// run any other inference). |
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// |
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// Currently it doesn't do anything intelligent, |
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// but only crops the input image to square (this is |
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// the most convenient aspect ratio for detectors to use) |
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static void run(const cv::Size& in_size, cv::Rect &out_rect) { |
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// Identify the central point & square size (- some padding) |
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const auto center = cv::Point{in_size.width/2, in_size.height/2}; |
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auto sqside = std::min(in_size.width, in_size.height); |
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// Now build the central square ROI |
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out_rect = cv::Rect{ center.x - sqside/2 |
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, center.y - sqside/2 |
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, sqside |
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, sqside |
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}; |
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} |
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}; |
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GAPI_OCV_KERNEL(OCVParseSSD, ParseSSD) { |
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static void run(const cv::Mat &in_ssd_result, |
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const cv::Rect &in_roi, |
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const cv::Size &in_parent_size, |
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std::vector<cv::Rect> &out_objects) { |
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const auto &in_ssd_dims = in_ssd_result.size; |
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CV_Assert(in_ssd_dims.dims() == 4u); |
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const int MAX_PROPOSALS = in_ssd_dims[2]; |
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const int OBJECT_SIZE = in_ssd_dims[3]; |
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CV_Assert(OBJECT_SIZE == 7); // fixed SSD object size |
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const cv::Size up_roi = in_roi.size(); |
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const cv::Rect surface({0,0}, in_parent_size); |
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out_objects.clear(); |
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const float *data = in_ssd_result.ptr<float>(); |
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for (int i = 0; i < MAX_PROPOSALS; i++) { |
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const float image_id = data[i * OBJECT_SIZE + 0]; |
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const float label = data[i * OBJECT_SIZE + 1]; |
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const float confidence = data[i * OBJECT_SIZE + 2]; |
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const float rc_left = data[i * OBJECT_SIZE + 3]; |
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const float rc_top = data[i * OBJECT_SIZE + 4]; |
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const float rc_right = data[i * OBJECT_SIZE + 5]; |
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const float rc_bottom = data[i * OBJECT_SIZE + 6]; |
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(void) label; // unused |
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if (image_id < 0.f) { |
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break; // marks end-of-detections |
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} |
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if (confidence < 0.5f) { |
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continue; // skip objects with low confidence |
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} |
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// map relative coordinates to the original image scale |
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// taking the ROI into account |
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cv::Rect rc; |
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rc.x = static_cast<int>(rc_left * up_roi.width); |
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rc.y = static_cast<int>(rc_top * up_roi.height); |
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rc.width = static_cast<int>(rc_right * up_roi.width) - rc.x; |
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rc.height = static_cast<int>(rc_bottom * up_roi.height) - rc.y; |
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rc.x += in_roi.x; |
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rc.y += in_roi.y; |
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out_objects.emplace_back(rc & surface); |
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} |
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} |
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}; |
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GAPI_OCV_KERNEL(OCVBBoxes, BBoxes) { |
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// This kernel converts the rectangles into G-API's |
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// rendering primitives |
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static void run(const std::vector<cv::Rect> &in_face_rcs, |
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const cv::Rect &in_roi, |
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std::vector<cv::gapi::wip::draw::Prim> &out_prims) { |
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out_prims.clear(); |
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const auto cvt = [](const cv::Rect &rc, const cv::Scalar &clr) { |
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return cv::gapi::wip::draw::Rect(rc, clr, 2); |
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}; |
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out_prims.emplace_back(cvt(in_roi, CV_RGB(0,255,255))); // cyan |
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for (auto &&rc : in_face_rcs) { |
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out_prims.emplace_back(cvt(rc, CV_RGB(0,255,0))); // green |
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} |
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} |
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}; |
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} // namespace custom |
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namespace cfg { |
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typename cv::gapi::wip::onevpl::CfgParam create_from_string(const std::string &line); |
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} |
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int main(int argc, char *argv[]) { |
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cv::CommandLineParser cmd(argc, argv, keys); |
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cmd.about(about); |
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if (cmd.has("help")) { |
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cmd.printMessage(); |
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return 0; |
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} |
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// get file name |
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std::string file_path = cmd.get<std::string>("input"); |
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const std::string output = cmd.get<std::string>("output"); |
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const auto face_model_path = cmd.get<std::string>("facem"); |
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// check ouput file extension |
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if (!output.empty()) { |
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auto ext = output.find_last_of("."); |
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if (ext == std::string::npos || (output.substr(ext + 1) != "avi")) { |
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std::cerr << "Output file should have *.avi extension for output video" << std::endl; |
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return -1; |
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} |
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} |
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// get oneVPL cfg params from cmd |
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std::stringstream params_list(cmd.get<std::string>("cfg_params")); |
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std::vector<cv::gapi::wip::onevpl::CfgParam> source_cfgs; |
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try { |
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std::string line; |
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while (std::getline(params_list, line, ';')) { |
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source_cfgs.push_back(cfg::create_from_string(line)); |
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} |
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} catch (const std::exception& ex) { |
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std::cerr << "Invalid cfg parameter: " << ex.what() << std::endl; |
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return -1; |
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} |
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const std::string& device_id = cmd.get<std::string>("faced"); |
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auto face_net = cv::gapi::ie::Params<custom::FaceDetector> { |
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face_model_path, // path to topology IR |
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get_weights_path(face_model_path), // path to weights |
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device_id |
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}; |
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// Create device_ptr & context_ptr using graphic API |
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// InferenceEngine requires such device & context to create its own |
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// remote shared context through InferenceEngine::ParamMap in |
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// GAPI InferenceEngine backend to provide interoperability with onevpl::GSource |
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// So GAPI InferenceEngine backend and onevpl::GSource MUST share the same |
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// device and context |
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void* accel_device_ptr = nullptr; |
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void* accel_ctx_ptr = nullptr; |
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#ifdef HAVE_INF_ENGINE |
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#ifdef HAVE_DIRECTX |
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#ifdef HAVE_D3D11 |
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CComPtr<ID3D11Device> dx11_dev; |
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CComPtr<ID3D11DeviceContext> dx11_ctx; |
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if (device_id.find("GPU") != std::string::npos) { |
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CComPtr<IDXGIFactory> adapter_factory; |
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CComPtr<IDXGIAdapter> intel_adapters; |
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{ |
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IDXGIFactory* out_factory = nullptr; |
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HRESULT err = CreateDXGIFactory(__uuidof(IDXGIFactory), |
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reinterpret_cast<void**>(&out_factory)); |
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if (FAILED(err)) { |
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std::cerr << "Cannot create CreateDXGIFactory, error: " << HRESULT_CODE(err) << std::endl; |
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return -1; |
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} |
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adapter_factory.Attach(out_factory); |
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} |
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CComPtr<IDXGIAdapter> intel_adapter; |
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UINT adapter_index = 0; |
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const unsigned int refIntelVendorID = 0x8086; |
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IDXGIAdapter* out_adapter = nullptr; |
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while (adapter_factory->EnumAdapters(adapter_index, &out_adapter) != DXGI_ERROR_NOT_FOUND) { |
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DXGI_ADAPTER_DESC desc{}; |
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out_adapter->GetDesc(&desc); |
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if (desc.VendorId == refIntelVendorID) { |
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intel_adapter.Attach(out_adapter); |
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break; |
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} |
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++adapter_index; |
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} |
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if (!intel_adapter) { |
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std::cerr << "No Intel GPU adapter on aboard. Exit" << std::endl; |
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return -1; |
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} |
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std::tie(dx11_dev, dx11_ctx) = create_device_with_ctx(intel_adapter); |
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accel_device_ptr = reinterpret_cast<void*>(dx11_dev.p); |
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accel_ctx_ptr = reinterpret_cast<void*>(dx11_ctx.p); |
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// put accel type description for VPL source |
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source_cfgs.push_back(cfg::create_from_string( |
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"mfxImplDescription.AccelerationMode" |
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":" |
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"MFX_ACCEL_MODE_VIA_D3D11")); |
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} |
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#endif // HAVE_D3D11 |
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#endif // HAVE_DIRECTX |
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// set ctx_config for GPU device only - no need in case of CPU device type |
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if (device_id.find("GPU") != std::string::npos) { |
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InferenceEngine::ParamMap ctx_config({{"CONTEXT_TYPE", "VA_SHARED"}, |
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{"VA_DEVICE", accel_device_ptr} }); |
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face_net.cfgContextParams(ctx_config); |
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} |
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#endif // HAVE_INF_ENGINE |
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auto kernels = cv::gapi::kernels |
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< custom::OCVLocateROI |
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, custom::OCVParseSSD |
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, custom::OCVBBoxes>(); |
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auto networks = cv::gapi::networks(face_net); |
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// Create source |
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cv::Ptr<cv::gapi::wip::IStreamSource> cap; |
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try { |
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if (device_id.find("GPU") != std::string::npos) { |
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cap = cv::gapi::wip::make_onevpl_src(file_path, source_cfgs, |
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device_id, |
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accel_device_ptr, |
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accel_ctx_ptr); |
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} else { |
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cap = cv::gapi::wip::make_onevpl_src(file_path, source_cfgs); |
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} |
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std::cout << "oneVPL source desription: " << cap->descr_of() << std::endl; |
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} catch (const std::exception& ex) { |
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std::cerr << "Cannot create source: " << ex.what() << std::endl; |
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return -1; |
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} |
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cv::GMetaArg descr = cap->descr_of(); |
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auto frame_descr = cv::util::get<cv::GFrameDesc>(descr); |
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// Now build the graph |
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cv::GFrame in; |
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auto size = cv::gapi::streaming::size(in); |
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auto roi = custom::LocateROI::on(size); |
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auto blob = cv::gapi::infer<custom::FaceDetector>(roi, in); |
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auto rcs = custom::ParseSSD::on(blob, roi, size); |
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auto out_frame = cv::gapi::wip::draw::renderFrame(in, custom::BBoxes::on(rcs, roi)); |
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auto out = cv::gapi::streaming::BGR(out_frame); |
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cv::GStreamingCompiled pipeline; |
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try { |
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pipeline = cv::GComputation(cv::GIn(in), cv::GOut(out)) |
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.compileStreaming(cv::compile_args(kernels, networks)); |
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} catch (const std::exception& ex) { |
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std::cerr << "Exception occured during pipeline construction: " << ex.what() << std::endl; |
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return -1; |
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} |
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// The execution part |
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// TODO USE may set pool size from outside and set queue_capacity size, |
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// compile arg: cv::gapi::streaming::queue_capacity |
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pipeline.setSource(std::move(cap)); |
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pipeline.start(); |
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int framesCount = 0; |
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cv::TickMeter t; |
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cv::VideoWriter writer; |
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if (!output.empty() && !writer.isOpened()) { |
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const auto sz = cv::Size{frame_descr.size.width, frame_descr.size.height}; |
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writer.open(output, cv::VideoWriter::fourcc('M','J','P','G'), 25.0, sz); |
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CV_Assert(writer.isOpened()); |
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} |
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cv::Mat outMat; |
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t.start(); |
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while (pipeline.pull(cv::gout(outMat))) { |
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cv::imshow("Out", outMat); |
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cv::waitKey(1); |
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if (!output.empty()) { |
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writer << outMat; |
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} |
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framesCount++; |
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} |
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t.stop(); |
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std::cout << "Elapsed time: " << t.getTimeSec() << std::endl; |
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std::cout << "FPS: " << framesCount / t.getTimeSec() << std::endl; |
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std::cout << "framesCount: " << framesCount << std::endl; |
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return 0; |
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} |
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namespace cfg { |
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typename cv::gapi::wip::onevpl::CfgParam create_from_string(const std::string &line) { |
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using namespace cv::gapi::wip; |
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if (line.empty()) { |
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throw std::runtime_error("Cannot parse CfgParam from emply line"); |
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} |
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std::string::size_type name_endline_pos = line.find(':'); |
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if (name_endline_pos == std::string::npos) { |
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throw std::runtime_error("Cannot parse CfgParam from: " + line + |
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"\nExpected separator \":\""); |
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} |
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std::string name = line.substr(0, name_endline_pos); |
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std::string value = line.substr(name_endline_pos + 1); |
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return cv::gapi::wip::onevpl::CfgParam::create(name, value); |
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} |
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}
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