cameracv/libs/opencv/modules/gapi/samples/infer_ie_onnx_hybrid.cpp

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2023-05-18 21:39:43 +03:00
#include <chrono>
#include <iomanip>
#include "opencv2/imgproc.hpp"
#include "opencv2/highgui.hpp"
#include "opencv2/gapi.hpp"
#include "opencv2/gapi/core.hpp"
#include "opencv2/gapi/imgproc.hpp"
#include "opencv2/gapi/infer.hpp"
#include "opencv2/gapi/infer/ie.hpp"
#include "opencv2/gapi/infer/onnx.hpp"
#include "opencv2/gapi/cpu/gcpukernel.hpp"
#include "opencv2/gapi/streaming/cap.hpp"
namespace {
const std::string keys =
"{ h help | | print this help message }"
"{ input | | Path to an input video file }"
"{ fdm | | IE face detection model IR }"
"{ fdw | | IE face detection model weights }"
"{ fdd | | IE face detection device }"
"{ emom | | ONNX emotions recognition model }"
"{ output | | (Optional) Path to an output video file }"
;
} // namespace
namespace custom {
G_API_NET(Faces, <cv::GMat(cv::GMat)>, "face-detector");
G_API_NET(Emotions, <cv::GMat(cv::GMat)>, "emotions-recognition");
G_API_OP(PostProc, <cv::GArray<cv::Rect>(cv::GMat, cv::GMat)>, "custom.fd_postproc") {
static cv::GArrayDesc outMeta(const cv::GMatDesc &, const cv::GMatDesc &) {
return cv::empty_array_desc();
}
};
GAPI_OCV_KERNEL(OCVPostProc, PostProc) {
static void run(const cv::Mat &in_ssd_result,
const cv::Mat &in_frame,
std::vector<cv::Rect> &out_faces) {
const int MAX_PROPOSALS = 200;
const int OBJECT_SIZE = 7;
const cv::Size upscale = in_frame.size();
const cv::Rect surface({0,0}, upscale);
out_faces.clear();
const float *data = in_ssd_result.ptr<float>();
for (int i = 0; i < MAX_PROPOSALS; i++) {
const float image_id = data[i * OBJECT_SIZE + 0]; // batch id
const float confidence = data[i * OBJECT_SIZE + 2];
const float rc_left = data[i * OBJECT_SIZE + 3];
const float rc_top = data[i * OBJECT_SIZE + 4];
const float rc_right = data[i * OBJECT_SIZE + 5];
const float rc_bottom = data[i * OBJECT_SIZE + 6];
if (image_id < 0.f) { // indicates end of detections
break;
}
if (confidence < 0.5f) {
continue;
}
cv::Rect rc;
rc.x = static_cast<int>(rc_left * upscale.width);
rc.y = static_cast<int>(rc_top * upscale.height);
rc.width = static_cast<int>(rc_right * upscale.width) - rc.x;
rc.height = static_cast<int>(rc_bottom * upscale.height) - rc.y;
out_faces.push_back(rc & surface);
}
}
};
//! [Postproc]
} // namespace custom
namespace labels {
// Labels as defined in
// https://github.com/onnx/models/tree/master/vision/body_analysis/emotion_ferplus
//
const std::string emotions[] = {
"neutral", "happiness", "surprise", "sadness", "anger", "disgust", "fear", "contempt"
};
namespace {
template<typename Iter>
std::vector<float> softmax(Iter begin, Iter end) {
std::vector<float> prob(end - begin, 0.f);
std::transform(begin, end, prob.begin(), [](float x) { return std::exp(x); });
float sum = std::accumulate(prob.begin(), prob.end(), 0.0f);
for (int i = 0; i < static_cast<int>(prob.size()); i++)
prob[i] /= sum;
return prob;
}
void DrawResults(cv::Mat &frame,
const std::vector<cv::Rect> &faces,
const std::vector<cv::Mat> &out_emotions) {
CV_Assert(faces.size() == out_emotions.size());
for (auto it = faces.begin(); it != faces.end(); ++it) {
const auto idx = std::distance(faces.begin(), it);
const auto &rc = *it;
const float *emotions_data = out_emotions[idx].ptr<float>();
auto sm = softmax(emotions_data, emotions_data + 8);
const auto emo_id = std::max_element(sm.begin(), sm.end()) - sm.begin();
const int ATTRIB_OFFSET = 15;
cv::rectangle(frame, rc, {0, 255, 0}, 4);
cv::putText(frame, emotions[emo_id],
cv::Point(rc.x, rc.y - ATTRIB_OFFSET),
cv::FONT_HERSHEY_COMPLEX_SMALL,
1,
cv::Scalar(0, 0, 255));
std::cout << emotions[emo_id] << " at " << rc << std::endl;
}
}
} // anonymous namespace
} // namespace labels
int main(int argc, char *argv[])
{
cv::CommandLineParser cmd(argc, argv, keys);
if (cmd.has("help")) {
cmd.printMessage();
return 0;
}
const std::string input = cmd.get<std::string>("input");
const std::string output = cmd.get<std::string>("output");
// OpenVINO FD parameters here
auto det_net = cv::gapi::ie::Params<custom::Faces> {
cmd.get<std::string>("fdm"), // read cmd args: path to topology IR
cmd.get<std::string>("fdw"), // read cmd args: path to weights
cmd.get<std::string>("fdd"), // read cmd args: device specifier
};
// ONNX Emotions parameters here
auto emo_net = cv::gapi::onnx::Params<custom::Emotions> {
cmd.get<std::string>("emom"), // read cmd args: path to the ONNX model
}.cfgNormalize({false}); // model accepts 0..255 range in FP32
auto kernels = cv::gapi::kernels<custom::OCVPostProc>();
auto networks = cv::gapi::networks(det_net, emo_net);
cv::GMat in;
cv::GMat bgr = cv::gapi::copy(in);
cv::GMat frame = cv::gapi::streaming::desync(bgr);
cv::GMat detections = cv::gapi::infer<custom::Faces>(frame);
cv::GArray<cv::Rect> faces = custom::PostProc::on(detections, frame);
cv::GArray<cv::GMat> emotions = cv::gapi::infer<custom::Emotions>(faces, frame);
auto pipeline = cv::GComputation(cv::GIn(in), cv::GOut(bgr, faces, emotions))
.compileStreaming(cv::compile_args(kernels, networks));
auto in_src = cv::gapi::wip::make_src<cv::gapi::wip::GCaptureSource>(input);
pipeline.setSource(cv::gin(in_src));
cv::util::optional<cv::Mat> out_frame;
cv::util::optional<std::vector<cv::Rect>> out_faces;
cv::util::optional<std::vector<cv::Mat>> out_emotions;
cv::Mat last_mat;
std::vector<cv::Rect> last_faces;
std::vector<cv::Mat> last_emotions;
cv::VideoWriter writer;
cv::TickMeter tm;
std::size_t frames = 0u;
tm.start();
pipeline.start();
while (pipeline.pull(cv::gout(out_frame, out_faces, out_emotions))) {
++frames;
if (out_faces && out_emotions) {
last_faces = *out_faces;
last_emotions = *out_emotions;
}
if (out_frame) {
last_mat = *out_frame;
labels::DrawResults(last_mat, last_faces, last_emotions);
if (!output.empty()) {
if (!writer.isOpened()) {
const auto sz = cv::Size{last_mat.cols, last_mat.rows};
writer.open(output, cv::VideoWriter::fourcc('M','J','P','G'), 25.0, sz);
CV_Assert(writer.isOpened());
}
writer << last_mat;
}
}
if (!last_mat.empty()) {
cv::imshow("Out", last_mat);
cv::waitKey(1);
}
}
tm.stop();
std::cout << "Processed " << frames << " frames" << " (" << frames / tm.getTimeSec() << " FPS)" << std::endl;
return 0;
}