ardupilot/libraries/AP_SmartRTL/examples/SmartRTL_test/SmartRTL_test.cpp

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#include "SmartRTL_test.h"
#include <AP_AHRS/AP_AHRS.h>
#include <AP_Baro/AP_Baro.h>
#include <AP_Compass/AP_Compass.h>
#include <AP_GPS/AP_GPS.h>
#include <AP_InertialSensor/AP_InertialSensor.h>
#include <AP_NavEKF2/AP_NavEKF2.h>
#include <AP_NavEKF3/AP_NavEKF3.h>
#include <AP_RangeFinder/AP_RangeFinder.h>
#include <AP_SerialManager/AP_SerialManager.h>
const AP_HAL::HAL &hal = AP_HAL::get_HAL();
// INS and Baro declaration
static AP_InertialSensor ins;
static Compass compass;
static AP_GPS gps;
static AP_Baro barometer;
static AP_SerialManager serial_manager;
class DummyVehicle {
public:
AP_AHRS ahrs{AP_AHRS::FLAG_ALWAYS_USE_EKF};
};
static DummyVehicle vehicle;
AP_AHRS &ahrs(vehicle.ahrs);
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AP_SmartRTL smart_rtl{true};
AP_BoardConfig board_config;
void setup();
void loop();
void reset();
void check_path(const std::vector<Vector3f> &correct_path, const char* test_name, uint32_t time_us);
void setup()
{
hal.console->printf("SmartRTL test\n");
board_config.init();
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smart_rtl.init();
}
void loop()
{
if (!hal.console->is_initialized()) {
return;
}
uint32_t reference_time, run_time;
hal.console->printf("--------------------\n");
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// reset path and upload "test_path_before" to smart_rtl
reference_time = AP_HAL::micros();
reset();
run_time = AP_HAL::micros() - reference_time;
// check path after initial load (no simplification or pruning)
check_path(test_path_after_adding, "append", run_time);
// test simplifications
reference_time = AP_HAL::micros();
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while (!smart_rtl.request_thorough_cleanup(AP_SmartRTL::THOROUGH_CLEAN_SIMPLIFY_ONLY)) {
smart_rtl.run_background_cleanup();
}
run_time = AP_HAL::micros() - reference_time;
check_path(test_path_after_simplifying, "simplify", run_time);
// test both simplification and pruning
hal.scheduler->delay(5); // delay 5 milliseconds because request_through_cleanup uses millisecond timestamps
reset();
reference_time = AP_HAL::micros();
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while (!smart_rtl.request_thorough_cleanup(AP_SmartRTL::THOROUGH_CLEAN_ALL)) {
smart_rtl.run_background_cleanup();
}
run_time = AP_HAL::micros() - reference_time;
check_path(test_path_complete, "simplify and pruning", run_time);
// delay before next display
hal.scheduler->delay(5e3); // 5 seconds
}
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// reset path (i.e. clear path and add home) and upload "test_path_before" to smart_rtl
void reset()
{
smart_rtl.set_home(true, Vector3f{0.0f, 0.0f, 0.0f});
for (Vector3f v : test_path_before) {
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smart_rtl.update(true, v);
}
}
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// compare the vector array passed in with the path held in the smart_rtl object
void check_path(const std::vector<Vector3f>& correct_path, const char* test_name, uint32_t time_us)
{
// check number of points
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bool num_points_match = correct_path.size() == smart_rtl.get_num_points();
uint16_t points_to_compare = MIN(correct_path.size(), smart_rtl.get_num_points());
// check all points match
bool points_match = true;
uint16_t failure_index = 0;
for (uint16_t i = 0; i < points_to_compare; i++) {
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if (smart_rtl.get_point(i) != correct_path[i]) {
failure_index = i;
points_match = false;
}
}
// display overall results
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hal.console->printf("%s: %s time:%u us\n", test_name, (num_points_match && points_match) ? "success" : "fail", (unsigned)time_us);
// display number of points
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hal.console->printf(" expected %u points, got %u\n", (unsigned)correct_path.size(), (unsigned)smart_rtl.get_num_points());
// display the first failed point and all subsequent points
if (!points_match) {
for (uint16_t j = failure_index; j < points_to_compare; j++) {
const Vector3f& smartrtl_point = smart_rtl.get_point(j);
hal.console->printf(" expected point %d to be %4.2f,%4.2f,%4.2f, got %4.2f,%4.2f,%4.2f\n",
(int)j,
(double)correct_path[j].x,
(double)correct_path[j].y,
(double)correct_path[j].z,
(double)smartrtl_point.x,
(double)smartrtl_point.y,
(double)smartrtl_point.z
);
}
}
}
// gcc9 produces a large frame
#pragma GCC diagnostic ignored "-Wframe-larger-than="
AP_HAL_MAIN();