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/**
 * @file ControlAllocation.cpp
 *
 * Interface for Control Allocation Algorithms
 *
 * @author Julien Lecoeur <julien.lecoeur@gmail.com>
 */

#include "ControlAllocation.hpp"

void
ControlAllocation::setEffectivenessMatrix(
	const matrix::Matrix<float, ControlAllocation::NUM_AXES, ControlAllocation::NUM_ACTUATORS> &effectiveness,
	const matrix::Vector<float, ControlAllocation::NUM_ACTUATORS> &actuator_trim, int num_actuators)
{
	_effectiveness = effectiveness;
	_actuator_trim = actuator_trim;
	clipActuatorSetpoint(_actuator_trim);
	_control_trim = _effectiveness * _actuator_trim;
	_num_actuators = num_actuators;

	// make sure unused actuators are initialized to trim
	for (int i = num_actuators; i < NUM_ACTUATORS; ++i) {
		_actuator_sp(i) = _actuator_trim(i);
	}
}

void
ControlAllocation::setActuatorSetpoint(
	const matrix::Vector<float, ControlAllocation::NUM_ACTUATORS> &actuator_sp)
{
	// Set actuator setpoint
	_actuator_sp = actuator_sp;

	// Clip
	clipActuatorSetpoint(_actuator_sp);

	// Compute achieved control
	_control_allocated = _effectiveness * _actuator_sp;

}

void
ControlAllocation::clipActuatorSetpoint(matrix::Vector<float, ControlAllocation::NUM_ACTUATORS> &actuator) const
{
	for (int i = 0; i < _num_actuators; i++) {
		if (_actuator_max(i) < _actuator_min(i)) {
			actuator(i) = _actuator_trim(i);

		} else if (actuator(i) < _actuator_min(i)) {
			actuator(i) = _actuator_min(i);

		} else if (actuator(i) > _actuator_max(i)) {
			actuator(i) = _actuator_max(i);
		}
	}
}

matrix::Vector<float, ControlAllocation::NUM_ACTUATORS>
ControlAllocation::normalizeActuatorSetpoint(const matrix::Vector<float, ControlAllocation::NUM_ACTUATORS> &actuator)
const
{
	matrix::Vector<float, ControlAllocation::NUM_ACTUATORS> actuator_normalized;

	for (size_t i = 0; i < ControlAllocation::NUM_ACTUATORS; i++) {
		if (_actuator_min(i) < _actuator_max(i)) {
			actuator_normalized(i) = -1.0f + 2.0f * (actuator(i) - _actuator_min(i)) / (_actuator_max(i) - _actuator_min(i));

		} else {
			actuator_normalized(i) = -1.0f + 2.0f * (_actuator_trim(i) - _actuator_min(i)) / (_actuator_max(i) - _actuator_min(i));
		}
	}

	return actuator_normalized;
}