PX4-Autopilot/src/modules/flight_mode_manager/tasks/Utility/Sticks.cpp

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/**
 * @file Sticks.cpp
 */

#include "Sticks.hpp"

using namespace time_literals;
using namespace matrix;

Sticks::Sticks(ModuleParams *parent) :
	ModuleParams(parent)
{}

bool Sticks::checkAndUpdateStickInputs()
{
	// Sticks are rescaled linearly and exponentially to [-1,1]
	manual_control_setpoint_s manual_control_setpoint;

	if (_manual_control_setpoint_sub.update(&manual_control_setpoint)) {
		// Linear scale
		_positions(0) = manual_control_setpoint.pitch;
		_positions(1) = manual_control_setpoint.roll;
		_positions(2) = -manual_control_setpoint.throttle;
		_positions(3) = manual_control_setpoint.yaw;

		// Exponential scale
		_positions_expo(0) = math::expo_deadzone(_positions(0), _param_mpc_xy_man_expo.get(), _param_mpc_hold_dz.get());
		_positions_expo(1) = math::expo_deadzone(_positions(1), _param_mpc_xy_man_expo.get(), _param_mpc_hold_dz.get());
		_positions_expo(2) = math::expo_deadzone(_positions(2), _param_mpc_z_man_expo.get(),  _param_mpc_hold_dz.get());
		_positions_expo(3) = math::expo_deadzone(_positions(3), _param_mpc_yaw_expo.get(),    _param_mpc_hold_dz.get());

		// valid stick inputs are required
		_input_available = manual_control_setpoint.valid && _positions.isAllFinite();

	} else {
		failsafe_flags_s failsafe_flags;

		if (_failsafe_flags_sub.update(&failsafe_flags)) {
			if (failsafe_flags.manual_control_signal_lost) {
				_input_available = false;
			}
		}
	}

	if (!_input_available) {
		// Timeout: set all sticks to zero
		_positions.zero();
		_positions_expo.zero();
	}

	return _input_available;
}

void Sticks::limitStickUnitLengthXY(Vector2f &v)
{
	const float vl = v.length();

	if (vl > 1.0f) {
		v /= vl;
	}
}

void Sticks::rotateIntoHeadingFrameXY(Vector2f &v, const float yaw, const float yaw_setpoint)
{
	Vector3f v3(v(0), v(1), 0.f);
	const float yaw_rotate = PX4_ISFINITE(yaw_setpoint) ? yaw_setpoint : yaw;
	v = Vector2f(Dcmf(Eulerf(0.0f, 0.0f, yaw_rotate)) * v3);
}