283 lines
8.7 KiB
C++
283 lines
8.7 KiB
C++
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/*
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* Copyright (C) 2019 James Turner
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*
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* This file is part of the program FlightGear.
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "TestPilot.hxx"
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#include <algorithm>
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#include <simgear/math/SGGeodesy.hxx>
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#include <simgear/props/props.hxx>
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#include <simgear/math/SGGeod.hxx>
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#include <Aircraft/AircraftPerformance.hxx> // for formulae
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#include <Main/globals.hxx>
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#include "TestDataLogger.hxx"
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namespace FGTestApi {
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TestPilot::TestPilot(SGPropertyNode_ptr props) :
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_propRoot(props)
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{
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if (!_propRoot) {
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// use default properties
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_propRoot = globals->get_props();
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}
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_latProp = _propRoot->getNode("position/latitude-deg", true);
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_lonProp = _propRoot->getNode("position/longitude-deg", true);
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_altitudeProp = _propRoot->getNode("position/altitude-ft", true);
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_headingProp = _propRoot->getNode("orientation/heading-deg", true);
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_speedKnotsProp = _propRoot->getNode("velocities/airspeed-kt", true);
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_speedMachProp = _propRoot->getNode("velocities/mach", true);
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_groundspeedKnotsProp = _propRoot->getNode("velocities/groundspeed-kt", true);
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_verticalFPMProp = _propRoot->getNode("velocities/vertical-fpm", true);
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globals->add_subsystem("flight", this, SGSubsystemMgr::FDM);
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}
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TestPilot::~TestPilot()
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{
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}
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void TestPilot::resetAtPosition(const SGGeod& pos)
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{
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_turnActive = false;
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setPosition(pos);
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}
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void TestPilot::init()
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{
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_vspeedFPM = 1200;
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}
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void TestPilot::update(double dt)
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{
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updateValues(dt);
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}
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void TestPilot::setSpeedKts(double knots)
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{
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_speedKnots = knots;
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}
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void TestPilot::setVerticalFPM(double fpm)
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{
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_vspeedFPM = fpm;
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}
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void TestPilot::setCourseTrue(double deg)
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{
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_trueCourseDeg = deg;
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}
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void TestPilot::turnToCourse(double deg)
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{
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_turnActive = true;
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_targetCourseDeg = deg;
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}
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void TestPilot::flyHeading(double hdg)
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{
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_lateralMode = LateralMode::Heading;
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_turnActive = true;
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_targetCourseDeg = hdg;
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}
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void TestPilot::flyGPSCourse(GPS *gps)
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{
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_gps = gps;
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_gpsNode = globals->get_props()->getNode("instrumentation/gps");
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_gpsLegCourse = _gpsNode->getNode("wp/leg-true-course-deg", true);
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_courseErrorNm = _gpsNode->getNode("wp/wp[1]/course-error-nm", true);
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_lateralMode = LateralMode::GPSCourse;
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_turnActive = false;
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}
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void TestPilot::flyGPSCourseOffset(GPS *gps, double offsetNm)
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{
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_gps = gps;
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_gpsNode = globals->get_props()->getNode("instrumentation/gps");
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_gpsLegCourse = _gpsNode->getNode("wp/leg-true-course-deg", true);
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_courseErrorNm = _gpsNode->getNode("wp/wp[1]/course-error-nm", true);
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_lateralMode = LateralMode::GPSOffset;
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_courseOffsetNm = offsetNm;
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_turnActive = false;
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}
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void TestPilot::flyDirectTo(const SGGeod& target)
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{
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_lateralMode = LateralMode::Direct;
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_targetPos = target;
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}
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void TestPilot::updateValues(double dt)
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{
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auto dl = DataLogger::instance();
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if (_gps && (_lateralMode == LateralMode::GPSCourse)) {
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_targetCourseDeg = _gpsLegCourse->getDoubleValue();
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// set how aggressively we try to correct our course
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double courseCorrectionFactor = 64.0;
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double crossTrack = _courseErrorNm->getDoubleValue();
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dl->recordSamplePoint("TP-error-nm", crossTrack);
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SG_CLAMP_RANGE(crossTrack, -2.0, 2.0); // clamp to 2nm deviation
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double correction = courseCorrectionFactor * crossTrack;
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const double maxCorrectionAngle = 45;
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dl->recordSamplePoint("TP-base-correction-deg", correction);
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// within 1nm of the desired course, start to bias
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// based on heading error. This is to reduce overshooting
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// while still keeping the responsiveness high
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if (fabs(crossTrack) < 1.0) {
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// compensate for heading
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double headingError = _targetCourseDeg - _trueCourseDeg;
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SG_NORMALIZE_RANGE(headingError, -180.0, 180.0);
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if (fabs(headingError) > 90.0) {
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// we're pointing the wrong way, don't compensate
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// otherwise we get into knots trying to make the
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// turn back the right way
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} else {
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const double p = 1.0 - fabs(crossTrack);
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const double headingErrorFactor = 0.6;
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correction += p * headingError * headingErrorFactor;
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}
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}
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dl->recordSamplePoint("TP-correction-deg", correction);
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SG_CLAMP_RANGE(correction, -maxCorrectionAngle, maxCorrectionAngle);
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_targetCourseDeg += correction;
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dl->recordSamplePoint("TP-target-deg", _targetCourseDeg);
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SG_NORMALIZE_RANGE(_targetCourseDeg, 0.0, 360.0);
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if (!_turnActive &&(fabs(_trueCourseDeg - _targetCourseDeg) > 0.5)) {
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_turnActive = true;
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}
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}
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if (_gps && (_lateralMode == LateralMode::GPSOffset)) {
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_targetCourseDeg = _gpsLegCourse->getDoubleValue();
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double crossTrack = _courseErrorNm->getDoubleValue();
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double offsetError = crossTrack - _courseOffsetNm;
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const double offsetCorrectionFactor = 25.0;
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const double correction = offsetError * offsetCorrectionFactor;
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_targetCourseDeg += correction;
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SG_NORMALIZE_RANGE(_targetCourseDeg, 0.0, 360.0);
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if (!_turnActive &&(fabs(_trueCourseDeg - _targetCourseDeg) > 0.5)) {
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_turnActive = true;
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}
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}
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if (_lateralMode == LateralMode::Direct) {
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_targetCourseDeg = SGGeodesy::courseDeg(globals->get_aircraft_position(), _targetPos);
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SG_NORMALIZE_RANGE(_targetCourseDeg, 0.0, 360.0);
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if (!_turnActive && (fabs(_trueCourseDeg - _targetCourseDeg) > 0.5)) {
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_turnActive = true;
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}
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}
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if (_turnActive) {
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if (fabs(_targetCourseDeg - _trueCourseDeg) < 0.1) {
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_trueCourseDeg = _targetCourseDeg;
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_turnActive = false;
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} else {
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// standard 2-minute turn, 180-deg min, thus 3-degrees per second
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double turnDeg = 5.0 * dt;
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double errorDeg = _targetCourseDeg - _trueCourseDeg;
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SG_NORMALIZE_RANGE(errorDeg, -180.0, 180.0);
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// clamp turn to error value
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turnDeg = std::min(turnDeg, fabs(errorDeg));
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// and now ensure we follow the correct sign
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turnDeg = copysign(turnDeg, errorDeg);
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// simple integral
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_trueCourseDeg += turnDeg;
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SG_NORMALIZE_RANGE(_trueCourseDeg, 0.0, 360.0);
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}
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}
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SGGeod currentPos = globals->get_aircraft_position();
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const double M = flightgear::AircraftPerformance::machForCAS(currentPos.getElevationFt(), _speedKnots);
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_speedMachProp->setDoubleValue(M);
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const double gs = flightgear::AircraftPerformance::groundSpeedForMach(currentPos.getElevationFt(), M);
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_groundspeedKnotsProp->setDoubleValue(gs);
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double d = gs * SG_KT_TO_MPS * dt;
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SGGeod newPos = SGGeodesy::direct(currentPos, _trueCourseDeg, d);
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if (_altActive) {
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if (fabs(_targetAltitudeFt - currentPos.getElevationFt()) < 1) {
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_altActive = false;
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newPos.setElevationFt(_targetAltitudeFt);
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} else {
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double errorFt = _targetAltitudeFt - currentPos.getElevationFt();
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double vspeed = std::min(fabs(errorFt),_vspeedFPM * dt / 60.0);
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double dv = copysign(vspeed, errorFt);
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newPos.setElevationFt(currentPos.getElevationFt() + dv);
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}
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}
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setPosition(newPos);
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}
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void TestPilot::setPosition(const SGGeod& pos)
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{
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_latProp->setDoubleValue(pos.getLatitudeDeg());
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_lonProp->setDoubleValue(pos.getLongitudeDeg());
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_altitudeProp->setDoubleValue(pos.getElevationFt());
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_headingProp->setDoubleValue(_trueCourseDeg);
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_speedKnotsProp->setDoubleValue(_speedKnots);
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_verticalFPMProp->setDoubleValue(_vspeedFPM);
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}
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void TestPilot::setTargetAltitudeFtMSL(double altFt)
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{
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_targetAltitudeFt = altFt;
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_altActive = true;
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}
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bool TestPilot::isOnHeading(double heading) const
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{
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const double hdgDelta = (_trueCourseDeg - heading);
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return fabs(hdgDelta) < 0.5;
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}
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double TestPilot::trueCourseDeg() const
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{
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return _trueCourseDeg;
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}
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} // of namespace
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