Clean up timing segment code

This commit is contained in:
30hours 2023-12-19 09:37:08 +00:00
parent 7025854db8
commit 2eef96e3d9

View file

@ -35,6 +35,9 @@ std::string getopt_process(int argc, char **argv);
std::string ryml_get_file(const char *filename);
uint64_t current_time_ms();
uint64_t current_time_us();
void timing_helper(std::vector<std::string>& timing_name,
std::vector<double>& timing_time, std::vector<uint64_t>& time_us,
std::string name);
int main(int argc, char **argv)
{
@ -199,6 +202,7 @@ int main(int argc, char **argv)
std::vector<std::string> timing_name;
std::vector<double> timing_time;
std::string jsonTiming;
std::vector<uint64_t> time;
// setup output signal
std::string jsonIqData;
@ -209,7 +213,7 @@ int main(int argc, char **argv)
{
if ((buffer1->get_length() > nSamples) && (buffer2->get_length() > nSamples))
{
uint64_t t0 = current_time_us();
time.push_back(current_time_us());
// extract data from buffer
buffer1->lock();
@ -221,44 +225,32 @@ int main(int argc, char **argv)
}
buffer1->unlock();
buffer2->unlock();
uint64_t t1 = current_time_us();
double delta_t1 = (double)(t1-t0) / 1000;
timing_name.push_back("extract_buffer");
timing_time.push_back(delta_t1);
timing_helper(timing_name, timing_time, time, "extract_buffer");
// spectrum
spectrumAnalyser->process(x);
timing_helper(timing_name, timing_time, time, "spectrum");
// clutter filter
if (!filter->process(x, y))
{
continue;
}
uint64_t t2 = current_time_us();
double delta_t2 = (double)(t2-t1) / 1000;
timing_name.push_back("clutter_filter");
timing_time.push_back(delta_t2);
timing_helper(timing_name, timing_time, time, "clutter_filter");
// ambiguity process
map = ambiguity->process(x, y);
map->set_metrics();
uint64_t t3 = current_time_us();
double delta_t3 = (double)(t3-t2) / 1000;
timing_name.push_back("ambiguity_processing");
timing_time.push_back(delta_t3);
timing_helper(timing_name, timing_time, time, "ambiguity_processing");
// detection process
detection1 = cfarDetector1D->process(map);
detection2 = centroid->process(detection1);
detection = interpolate->process(detection2, map);
uint64_t t4 = current_time_us();
double delta_t4 = (double)(t4-t3) / 1000;
timing_name.push_back("detector");
timing_time.push_back(delta_t4);
timing_helper(timing_name, timing_time, time, "detector");
// output IqData meta data
jsonIqData = x->to_json(t0/1000);
jsonIqData = x->to_json(time[0]/1000);
for (int i = 0; i < (jsonIqData.size() + MTU - 1) / MTU; i++)
{
subdata = jsonIqData.substr(i * MTU, MTU);
@ -266,7 +258,7 @@ int main(int argc, char **argv)
}
// output map data
mapJson = map->to_json(t0/1000);
mapJson = map->to_json(time[0]/1000);
mapJson = map->delay_bin_to_km(mapJson, fs);
if (saveMap)
{
@ -279,7 +271,7 @@ int main(int argc, char **argv)
}
// output detection data
detectionJson = detection->to_json(t0/1000);
detectionJson = detection->to_json(time[0]/1000);
detectionJson = detection->delay_bin_to_km(detectionJson, fs);
for (int i = 0; i < (detectionJson.size() + MTU - 1) / MTU; i++)
{
@ -291,28 +283,26 @@ int main(int argc, char **argv)
delete detection2;
// output radar data timer
uint64_t t5 = current_time_us();
double delta_t5 = (double)(t5-t4) / 1000;
timing_name.push_back("output_radar_data");
timing_time.push_back(delta_t5);
timing_helper(timing_name, timing_time, time, "output_radar_data");
// cpi timer
uint64_t t6 = current_time_us();
double delta_t6 = (double)(t6-t0) / 1000;
time.push_back(current_time_us());
double delta_ms = (double)(time.back()-time[0]) / 1000;
timing_name.push_back("cpi");
timing_time.push_back(delta_t6);
std::cout << "CPI time (ms): " << delta_t6 << std::endl;
timing_time.push_back(delta_ms);
std::cout << "CPI time (ms): " << delta_ms << std::endl;
// output timing data
timing->update(t0/1000, timing_time, timing_name);
timing->update(time[0]/1000, timing_time, timing_name);
jsonTiming = timing->to_json();
socket_timing.write_some(asio::buffer(jsonTiming, 1500), err);
timing_time.clear();
timing_name.clear();
// output CPI timestamp for updating data
std::string t0_string = std::to_string(t0);
std::string t0_string = std::to_string(time[0]);
socket_timestamp.write_some(asio::buffer(t0_string, 100), err);
time.clear();
}
}
});
@ -412,3 +402,13 @@ uint64_t current_time_us()
return std::chrono::duration_cast<std::chrono::microseconds>
(std::chrono::system_clock::now().time_since_epoch()).count();
}
void timing_helper(std::vector<std::string>& timing_name,
std::vector<double>& timing_time, std::vector<uint64_t>& time_us,
std::string name)
{
time_us.push_back(current_time_us());
double delta_ms = (double)(time_us.back()-time_us[time_us.size()-2]) / 1000;
timing_name.push_back(name);
timing_time.push_back(delta_ms);
}