ardupilot/libraries/AP_Scheduler/PerfInfo.cpp

97 lines
2.3 KiB
C++

#include "PerfInfo.h"
#include <DataFlash/DataFlash.h>
//
// high level performance monitoring
//
// we measure the main loop time
//
// 400hz loop update rate
#define OVERTIME_THRESHOLD_MICROS 3000
// reset - reset all records of loop time to zero
void AP::PerfInfo::reset()
{
loop_count = 0;
max_time = 0;
min_time = 0;
long_running = 0;
log_dropped = DataFlash_Class::instance()->num_dropped();
sigma_time = 0;
sigmasquared_time = 0;
}
// ignore_loop - ignore this loop from performance measurements (used to reduce false positive when arming)
void AP::PerfInfo::ignore_this_loop()
{
ignore_loop = true;
}
// check_loop_time - check latest loop time vs min, max and overtime threshold
void AP::PerfInfo::check_loop_time(uint32_t time_in_micros)
{
loop_count++;
// exit if this loop should be ignored
if (ignore_loop) {
ignore_loop = false;
return;
}
if( time_in_micros > max_time) {
max_time = time_in_micros;
}
if( min_time == 0 || time_in_micros < min_time) {
min_time = time_in_micros;
}
if( time_in_micros > OVERTIME_THRESHOLD_MICROS ) {
long_running++;
}
sigma_time += time_in_micros;
sigmasquared_time += time_in_micros * time_in_micros;
}
// get_num_loops: return number of loops used for recording performance
uint16_t AP::PerfInfo::get_num_loops() const
{
return loop_count;
}
// get_max_time - return maximum loop time (in microseconds)
uint32_t AP::PerfInfo::get_max_time() const
{
return max_time;
}
// get_min_time - return minumum loop time (in microseconds)
uint32_t AP::PerfInfo::get_min_time() const
{
return min_time;
}
// get_num_long_running - get number of long running loops
uint16_t AP::PerfInfo::get_num_long_running() const
{
return long_running;
}
// get_num_dropped - get number of dropped log messages
uint32_t AP::PerfInfo::get_num_dropped() const
{
return log_dropped;
}
// get_avg_time - return average loop time (in microseconds)
uint32_t AP::PerfInfo::get_avg_time() const
{
return (sigma_time / loop_count);
}
// get_stddev_time - return stddev of average loop time (in us)
uint32_t AP::PerfInfo::get_stddev_time() const
{
return sqrt((sigmasquared_time - (sigma_time*sigma_time)/loop_count) / loop_count);
}