2018-10-10 08:26:06 +00:00
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#include "test_navRadio.hxx"
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#include <memory>
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#include <cstring>
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#include "test_suite/FGTestApi/globals.hxx"
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#include "test_suite/FGTestApi/NavDataCache.hxx"
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#include <Navaids/NavDataCache.hxx>
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#include <Navaids/navrecord.hxx>
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#include <Navaids/navlist.hxx>
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#include <Instrumentation/navradio.hxx>
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// Set up function for each test.
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void NavRadioTests::setUp()
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{
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FGTestApi::setUp::initTestGlobals("navradio");
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FGTestApi::setUp::initNavDataCache();
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}
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// Clean up after each test.
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void NavRadioTests::tearDown()
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{
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FGTestApi::tearDown::shutdownTestGlobals();
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}
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void NavRadioTests::setPositionAndStabilise(FGNavRadio* r, const SGGeod& g)
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{
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FGTestApi::setPosition(g);
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for (int i=0; i<60; ++i) {
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r->update(0.1);
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}
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}
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void NavRadioTests::testBasic()
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{
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SGPropertyNode_ptr configNode(new SGPropertyNode);
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configNode->setStringValue("name", "navtest");
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configNode->setIntValue("number", 2);
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std::unique_ptr<FGNavRadio> r(new FGNavRadio(configNode));
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r->bind();
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r->init();
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SGPropertyNode_ptr node = globals->get_props()->getNode("instrumentation/navtest[2]");
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node->setBoolValue("serviceable", true);
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// needed for the radio to power up
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globals->get_props()->setDoubleValue("systems/electrical/outputs/navtest", 6.0);
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node->setDoubleValue("frequencies/selected-mhz", 113.8);
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SGGeod pos = SGGeod::fromDegFt(-3.352780, 55.499199, 20000);
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setPositionAndStabilise(r.get(), pos);
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CPPUNIT_ASSERT(!strcmp("TLA", node->getStringValue("nav-id")));
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CPPUNIT_ASSERT_EQUAL(true, node->getBoolValue("in-range"));
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}
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void NavRadioTests::testCDIDeflection()
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{
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SGPropertyNode_ptr configNode(new SGPropertyNode);
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configNode->setStringValue("name", "navtest");
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configNode->setIntValue("number", 2);
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std::unique_ptr<FGNavRadio> r(new FGNavRadio(configNode));
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r->bind();
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r->init();
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SGPropertyNode_ptr node = globals->get_props()->getNode("instrumentation/navtest[2]");
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node->setBoolValue("serviceable", true);
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// needed for the radio to power up
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globals->get_props()->setDoubleValue("systems/electrical/outputs/navtest", 6.0);
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node->setDoubleValue("frequencies/selected-mhz", 113.55);
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node->setDoubleValue("radials/selected-deg", 25);
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FGPositioned::TypeFilter f{FGPositioned::VOR};
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FGNavRecordRef nav = fgpositioned_cast<FGNavRecord>(FGPositioned::findClosestWithIdent("MCT", SGGeod::fromDeg(-2.26, 53.3), &f));
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// twist of MCT is 5.0, so we use a bearing of 20 here, not 25
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SGGeod posOnRadial = SGGeodesy::direct(nav->geod(), 20.0, 10 * SG_NM_TO_METER);
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posOnRadial.setElevationFt(10000);
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setPositionAndStabilise(r.get(), posOnRadial);
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CPPUNIT_ASSERT(!strcmp("MCT", node->getStringValue("nav-id")));
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("heading-needle-deflection"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("heading-needle-deflection-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("crosstrack-error-m"), 0.01);
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CPPUNIT_ASSERT(node->getBoolValue("from-flag"));
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CPPUNIT_ASSERT(!node->getBoolValue("to-flag"));
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// move off course
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SGGeod posOffRadial = SGGeodesy::direct(nav->geod(), 15.0, 20 * SG_NM_TO_METER); // 5 degress off
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posOffRadial.setElevationFt(12000);
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setPositionAndStabilise(r.get(), posOffRadial);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(5.0, node->getDoubleValue("heading-needle-deflection"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.5, node->getDoubleValue("heading-needle-deflection-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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double xtkE = sin(5.0 * SG_DEGREES_TO_RADIANS) * 20 * SG_NM_TO_METER;
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CPPUNIT_ASSERT_DOUBLES_EQUAL(xtkE, node->getDoubleValue("crosstrack-error-m"), 50.0);
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CPPUNIT_ASSERT(node->getBoolValue("from-flag"));
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CPPUNIT_ASSERT(!node->getBoolValue("to-flag"));
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posOffRadial = SGGeodesy::direct(nav->geod(), 28.0, 30 * SG_NM_TO_METER); // 8 degress off
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posOffRadial.setElevationFt(16000);
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setPositionAndStabilise(r.get(), posOffRadial);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(-8.0, node->getDoubleValue("heading-needle-deflection"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(-0.8, node->getDoubleValue("heading-needle-deflection-norm"), 0.01);
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xtkE = sin(-8.0 * SG_DEGREES_TO_RADIANS) * 30 * SG_NM_TO_METER;
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CPPUNIT_ASSERT_DOUBLES_EQUAL(xtkE, node->getDoubleValue("crosstrack-error-m"), 50.0);
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// move more than ten degrees off course
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posOffRadial = SGGeodesy::direct(nav->geod(), 33.0, 40 * SG_NM_TO_METER); // 13 degress off
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posOffRadial.setElevationFt(16000);
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setPositionAndStabilise(r.get(), posOffRadial);
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// pegged to full deflection
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(-10.0, node->getDoubleValue("heading-needle-deflection"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.0, node->getDoubleValue("heading-needle-deflection-norm"), 0.01);
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// cross track error is computed based on true deflection, not clamped
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xtkE = sin(-13.0 * SG_DEGREES_TO_RADIANS) * 40 * SG_NM_TO_METER;
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CPPUNIT_ASSERT_DOUBLES_EQUAL(xtkE, node->getDoubleValue("crosstrack-error-m"), 50.0);
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CPPUNIT_ASSERT(node->getBoolValue("from-flag"));
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CPPUNIT_ASSERT(!node->getBoolValue("to-flag"));
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// try on the TO side of the station
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// let's use Perth VOR, but the Australian one to check southern
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// hemisphere operation
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node->setDoubleValue("frequencies/selected-mhz", 113.7);
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node->setDoubleValue("radials/selected-deg", 42.0); // twist is -2.0
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CPPUNIT_ASSERT(!strcmp("113.70", node->getStringValue("frequencies/selected-mhz-fmt")));
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auto perthVOR = fgpositioned_cast<FGNavRecord>(
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FGPositioned::findClosestWithIdent("PH", SGGeod::fromDeg(115.95, -31.9), &f));
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SGGeod p = SGGeodesy::direct(perthVOR->geod(), 220.0, 20 * SG_NM_TO_METER); // on the reciprocal radial
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p.setElevationFt(12000);
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setPositionAndStabilise(r.get(), p);
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CPPUNIT_ASSERT(!strcmp("PH", node->getStringValue("nav-id")));
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(40.0, node->getDoubleValue("heading-deg"), 0.5);
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// actual radial has twist subtracted
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CPPUNIT_ASSERT_DOUBLES_EQUAL(222.0, node->getDoubleValue("radials/actual-deg"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("heading-needle-deflection"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("heading-needle-deflection-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("crosstrack-error-m"), 50.0);
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CPPUNIT_ASSERT(!node->getBoolValue("from-flag"));
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CPPUNIT_ASSERT(node->getBoolValue("to-flag"));
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// off course on the TO side
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p = SGGeodesy::direct(perthVOR->geod(), 227.0, 100 * SG_NM_TO_METER);
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p.setElevationFt(18000);
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setPositionAndStabilise(r.get(), p);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(47.0, node->getDoubleValue("heading-deg"), 1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(229.0, node->getDoubleValue("radials/actual-deg"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(7.0, node->getDoubleValue("heading-needle-deflection"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.7, node->getDoubleValue("heading-needle-deflection-norm"), 0.01);
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xtkE = sin(7.0 * SG_DEGREES_TO_RADIANS) * 100 * SG_NM_TO_METER;
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CPPUNIT_ASSERT_DOUBLES_EQUAL(xtkE, node->getDoubleValue("crosstrack-error-m"), 50.0);
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CPPUNIT_ASSERT(!node->getBoolValue("from-flag"));
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CPPUNIT_ASSERT(node->getBoolValue("to-flag"));
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}
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void NavRadioTests::testILSBasic()
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{
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2018-12-02 12:38:33 +00:00
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// radio setup
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SGPropertyNode_ptr configNode(new SGPropertyNode);
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configNode->setStringValue("name", "navtest");
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configNode->setIntValue("number", 2);
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std::unique_ptr<FGNavRadio> r(new FGNavRadio(configNode));
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r->bind();
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r->init();
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SGPropertyNode_ptr node = globals->get_props()->getNode("instrumentation/navtest[2]");
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node->setBoolValue("serviceable", true);
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globals->get_props()->setDoubleValue("systems/electrical/outputs/navtest", 6.0);
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// test basic ILS: KSFO 28L
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FGPositioned::TypeFilter f{{FGPositioned::VOR, FGPositioned::ILS, FGPositioned::LOC}};
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FGNavRecordRef ils = fgpositioned_cast<FGNavRecord>(
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FGPositioned::findClosestWithIdent("ISFO", SGGeod::fromDeg(-112, 37.6), &f));
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CPPUNIT_ASSERT(ils->type() == FGPositioned::ILS);
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node->setDoubleValue("frequencies/selected-mhz", 109.55);
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// node->setDoubleValue("radials/selected-deg", 42.0); // twist is -2.0
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CPPUNIT_ASSERT(!strcmp("109.55", node->getStringValue("frequencies/selected-mhz-fmt")));
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// note we need full precision here, due to ILS sensitivity
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SGGeod p = SGGeodesy::direct(ils->geod(), 117.932, 10 * SG_NM_TO_METER);
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p.setElevationFt(2500);
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setPositionAndStabilise(r.get(), p);
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CPPUNIT_ASSERT(!strcmp("ISFO", node->getStringValue("nav-id")));
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CPPUNIT_ASSERT_DOUBLES_EQUAL(297.9, node->getDoubleValue("radials/target-radial-deg"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(297.9, node->getDoubleValue("heading-deg"), 1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(117.932, node->getDoubleValue("radials/actual-deg"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("heading-needle-deflection"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("heading-needle-deflection-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("crosstrack-error-m"), 10.0);
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CPPUNIT_ASSERT(!node->getBoolValue("from-flag"));
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CPPUNIT_ASSERT(node->getBoolValue("to-flag"));
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// 1 degree offset
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p = SGGeodesy::direct(ils->geod(), 116.932, 6 * SG_NM_TO_METER);
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p.setElevationFt(1500);
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setPositionAndStabilise(r.get(), p);
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const double locWidth = ils->localizerWidth();
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const double deflectionScale = 20.0 / locWidth; // 20 degrees is full VOR swing (-10 to +10 degrees)
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CPPUNIT_ASSERT(!strcmp("ISFO", node->getStringValue("nav-id")));
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CPPUNIT_ASSERT_DOUBLES_EQUAL(297.9, node->getDoubleValue("radials/target-radial-deg"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(296.9, node->getDoubleValue("heading-deg"), 1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(116.932, node->getDoubleValue("radials/actual-deg"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.0 * deflectionScale, node->getDoubleValue("heading-needle-deflection"), 0.1);
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double xtkE = sin(-1.0 * SG_DEGREES_TO_RADIANS) * 6.0 * SG_NM_TO_METER;
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CPPUNIT_ASSERT_DOUBLES_EQUAL(xtkE, node->getDoubleValue("crosstrack-error-m"), 1.0);
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CPPUNIT_ASSERT(!node->getBoolValue("from-flag"));
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CPPUNIT_ASSERT(node->getBoolValue("to-flag"));
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// test pegged (4 degrees off course)
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p = SGGeodesy::direct(ils->geod(), 121.932, 3 * SG_NM_TO_METER);
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p.setElevationFt(600);
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setPositionAndStabilise(r.get(), p);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(301.9, node->getDoubleValue("heading-deg"), 1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(121.932, node->getDoubleValue("radials/actual-deg"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(10.0, node->getDoubleValue("heading-needle-deflection"), 0.1);
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xtkE = sin(4.0 * SG_DEGREES_TO_RADIANS) * 3.0 * SG_NM_TO_METER;
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CPPUNIT_ASSERT_DOUBLES_EQUAL(xtkE, node->getDoubleValue("crosstrack-error-m"), 1.0);
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CPPUNIT_ASSERT(!node->getBoolValue("from-flag"));
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CPPUNIT_ASSERT(node->getBoolValue("to-flag"));
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2018-10-10 08:26:06 +00:00
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// also check ILS back course
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2018-12-02 12:38:33 +00:00
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// 1 degree offset on the BC
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p = SGGeodesy::direct(ils->geod(), 298.932, 4 * SG_NM_TO_METER);
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p.setElevationFt(1500);
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setPositionAndStabilise(r.get(), p);
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CPPUNIT_ASSERT(!strcmp("ISFO", node->getStringValue("nav-id")));
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CPPUNIT_ASSERT_DOUBLES_EQUAL(297.9, node->getDoubleValue("radials/target-radial-deg"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(118.9, node->getDoubleValue("heading-deg"), 1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(298.932, node->getDoubleValue("radials/actual-deg"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.0 * deflectionScale, node->getDoubleValue("heading-needle-deflection"), 0.1);
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xtkE = sin(-1.0 * SG_DEGREES_TO_RADIANS) * 4.0 * SG_NM_TO_METER;
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CPPUNIT_ASSERT_DOUBLES_EQUAL(xtkE, node->getDoubleValue("crosstrack-error-m"), 1.0);
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// these don't change for an ILS
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CPPUNIT_ASSERT(!node->getBoolValue("from-flag"));
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CPPUNIT_ASSERT(node->getBoolValue("to-flag"));
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2018-10-10 08:26:06 +00:00
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}
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2018-12-10 17:44:09 +00:00
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2018-10-10 08:26:06 +00:00
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void NavRadioTests::testGS()
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{
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2018-12-10 17:44:09 +00:00
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// radio setup
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SGPropertyNode_ptr configNode(new SGPropertyNode);
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configNode->setStringValue("name", "navtest");
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configNode->setIntValue("number", 2);
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std::unique_ptr<FGNavRadio> r(new FGNavRadio(configNode));
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r->bind();
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r->init();
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SGPropertyNode_ptr node = globals->get_props()->getNode("instrumentation/navtest[2]");
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node->setBoolValue("serviceable", true);
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globals->get_props()->setDoubleValue("systems/electrical/outputs/navtest", 6.0);
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// EDDT 28R
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FGPositioned::TypeFilter f{FGPositioned::GS};
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FGNavRecordRef gs = fgpositioned_cast<FGNavRecord>(
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FGPositioned::findClosestWithIdent("ITLW", SGGeod::fromDeg(13, 52), &f));
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CPPUNIT_ASSERT(gs->type() == FGPositioned::GS);
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node->setDoubleValue("frequencies/selected-mhz", 110.10);
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CPPUNIT_ASSERT(!strcmp("110.10", node->getStringValue("frequencies/selected-mhz-fmt")));
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CPPUNIT_ASSERT_DOUBLES_EQUAL(gs->glideSlopeAngleDeg(), 3.0, 0.001);
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double gsAngleRad = gs->glideSlopeAngleDeg() * SG_DEGREES_TO_RADIANS;
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/////////////
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// derive the GS geometry in cartesian vectors, to match what
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// navradio.cxx does
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SGGeod aboveGS = gs->geod();
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aboveGS.setElevationM(gs->geod().getElevationM() + 100.0);
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SGVec3d gsVerticalAxis = SGVec3d::fromGeod(aboveGS) - gs->cart();
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// intentionally different approach to what navradio uses
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gsVerticalAxis *= 0.01; // make it per meter, since we used 100m above
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// dervice the baseline
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SGQuatd baseLineRot = SGQuatd::fromLonLat(gs->geod()) * SGQuatd::fromHeadAttBankDeg(80.828, 0, 0);
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SGVec3d gsAltAxis = baseLineRot.backTransform(SGVec3d(1.0, 0.0, 0.0));
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const SGVec3d gsCart = gs->cart();
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//////////////////
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SGVec3d radioPos = gsCart;
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radioPos += (gsVerticalAxis * tan(gsAngleRad) * 8 * SG_NM_TO_METER);
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radioPos += (gsAltAxis * 8 * SG_NM_TO_METER);
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setPositionAndStabilise(r.get(), SGGeod::fromCart(radioPos));
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CPPUNIT_ASSERT(!strcmp("ITLW", node->getStringValue("nav-id")));
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(3.0, node->getDoubleValue("gs-direct-deg"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("gs-needle-deflection"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("gs-needle-deflection-norm"), 0.01);
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CPPUNIT_ASSERT(node->getBoolValue("gs-in-range"));
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// 0.5 degree offset above
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gsAngleRad = (gs->glideSlopeAngleDeg() + 0.5) * SG_DEGREES_TO_RADIANS;
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radioPos = gsCart;
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radioPos += (gsVerticalAxis * tan(gsAngleRad) * 4 * SG_NM_TO_METER);
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radioPos += (gsAltAxis * 4 * SG_NM_TO_METER);
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setPositionAndStabilise(r.get(), SGGeod::fromCart(radioPos));
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CPPUNIT_ASSERT(!strcmp("ITLW", node->getStringValue("nav-id")));
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CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(3.5, node->getDoubleValue("gs-direct-deg"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(-2.5, node->getDoubleValue("gs-needle-deflection"), 0.1);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(-0.714, node->getDoubleValue("gs-needle-deflection-norm"), 0.01);
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CPPUNIT_ASSERT(node->getBoolValue("gs-in-range"));
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|
// 1 degree below (danger!)
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gsAngleRad = (gs->glideSlopeAngleDeg() - 1.0) * SG_DEGREES_TO_RADIANS;
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radioPos = gsCart;
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|
radioPos += (gsVerticalAxis * tan(gsAngleRad) * 2 * SG_NM_TO_METER);
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|
radioPos += (gsAltAxis * 2 * SG_NM_TO_METER);
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|
|
setPositionAndStabilise(r.get(), SGGeod::fromCart(radioPos));
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|
CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
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CPPUNIT_ASSERT_DOUBLES_EQUAL(2.0, node->getDoubleValue("gs-direct-deg"), 0.1);
|
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|
CPPUNIT_ASSERT_DOUBLES_EQUAL(3.5, node->getDoubleValue("gs-needle-deflection"), 0.1);
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|
CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("gs-needle-deflection-norm"), 0.01);
|
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|
|
CPPUNIT_ASSERT(node->getBoolValue("gs-in-range"));
|
|
|
|
|
|
|
|
// false course above, reversed
|
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|
|
gsAngleRad = (gs->glideSlopeAngleDeg() + 3.0) * SG_DEGREES_TO_RADIANS;
|
|
|
|
radioPos = gsCart;
|
|
|
|
radioPos += (gsVerticalAxis * tan(gsAngleRad) * 5 * SG_NM_TO_METER);
|
|
|
|
radioPos += (gsAltAxis * 5 * SG_NM_TO_METER);
|
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|
|
|
|
|
|
setPositionAndStabilise(r.get(), SGGeod::fromCart(radioPos));
|
|
|
|
|
|
|
|
CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
|
|
|
|
CPPUNIT_ASSERT_DOUBLES_EQUAL(6.0, node->getDoubleValue("gs-direct-deg"), 0.1);
|
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|
|
CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("gs-needle-deflection"), 0.1);
|
|
|
|
CPPUNIT_ASSERT_DOUBLES_EQUAL(0.0, node->getDoubleValue("gs-needle-deflection-norm"), 0.01);
|
|
|
|
CPPUNIT_ASSERT(node->getBoolValue("gs-in-range"));
|
|
|
|
|
|
|
|
// false course above, reversed, 0.35 offset below
|
|
|
|
gsAngleRad = (gs->glideSlopeAngleDeg() + 2.65) * SG_DEGREES_TO_RADIANS;
|
|
|
|
radioPos = gsCart;
|
|
|
|
radioPos += (gsVerticalAxis * tan(gsAngleRad) * 3 * SG_NM_TO_METER);
|
|
|
|
radioPos += (gsAltAxis * 3 * SG_NM_TO_METER);
|
2018-10-10 08:26:06 +00:00
|
|
|
|
2018-12-10 17:44:09 +00:00
|
|
|
setPositionAndStabilise(r.get(), SGGeod::fromCart(radioPos));
|
|
|
|
|
|
|
|
CPPUNIT_ASSERT_DOUBLES_EQUAL(1.0, node->getDoubleValue("signal-quality-norm"), 0.01);
|
|
|
|
CPPUNIT_ASSERT_DOUBLES_EQUAL(5.65, node->getDoubleValue("gs-direct-deg"), 0.1);
|
|
|
|
CPPUNIT_ASSERT_DOUBLES_EQUAL(-1.75, node->getDoubleValue("gs-needle-deflection"), 0.1);
|
|
|
|
CPPUNIT_ASSERT_DOUBLES_EQUAL(-0.5, node->getDoubleValue("gs-needle-deflection-norm"), 0.01);
|
|
|
|
CPPUNIT_ASSERT(node->getBoolValue("gs-in-range"));
|
2018-10-10 08:26:06 +00:00
|
|
|
}
|
|
|
|
|
|
|
|
void NavRadioTests::testILSFalseCourse()
|
|
|
|
{
|
|
|
|
|
|
|
|
// also GS false lobes
|
|
|
|
}
|
|
|
|
|
|
|
|
void NavRadioTests::testILSPaired()
|
|
|
|
{
|
|
|
|
// EGPH and countless more
|
|
|
|
}
|
|
|
|
|
|
|
|
void NavRadioTests::testILSAdjacentPaired()
|
|
|
|
{
|
|
|
|
// eg KJFK
|
|
|
|
}
|