#include "test_fpNasal.hxx" #include "test_suite/FGTestApi/testGlobals.hxx" #include "test_suite/FGTestApi/NavDataCache.hxx" #include #include #include #include #include #include #include #include #include #include #include #include
using namespace flightgear; static bool static_haveProcedures = false; // Set up function for each test. void FPNasalTests::setUp() { FGTestApi::setUp::initTestGlobals("flightplan"); FGTestApi::setUp::initNavDataCache(); SGPath proceduresPath = SGPath::fromEnv("FG_PROCEDURES_PATH"); if (proceduresPath.exists()) { static_haveProcedures = true; globals->append_fg_scenery(proceduresPath); } // flightplan() acces needs the route manager globals->get_subsystem_mgr()->add(); globals->get_subsystem_mgr()->bind(); globals->get_subsystem_mgr()->init(); FGTestApi::setUp::initStandardNasal(); globals->get_subsystem_mgr()->postinit(); } // Clean up after each test. void FPNasalTests::tearDown() { FGTestApi::tearDown::shutdownTestGlobals(); } static FlightPlanRef makeTestFP(const std::string& depICAO, const std::string& depRunway, const std::string& destICAO, const std::string& destRunway, const std::string& waypoints) { FlightPlanRef f = FlightPlan::create(); FGTestApi::setUp::populateFPWithNasal(f, depICAO, depRunway, destICAO, destRunway, waypoints); return f; } void FPNasalTests::testBasic() { FlightPlanRef fp1 = makeTestFP("EGCC", "23L", "EHAM", "24", "TNT CLN"); fp1->setIdent("testplan"); // setup the FP on the route-manager, so flightplan() call works auto rm = globals->get_subsystem(); rm->setFlightPlan(fp1); rm->activate(); // modify leg data dfrom Nasal bool ok = FGTestApi::executeNasal(R"( var fp = flightplan(); # retrieve the global flightplan var leg = fp.getWP(3); leg.setAltitude(6000, 'AT'); )"); CPPUNIT_ASSERT(ok); // check the value updated in the leg CPPUNIT_ASSERT_EQUAL(RESTRICT_AT, fp1->legAtIndex(3)->altitudeRestriction()); CPPUNIT_ASSERT_EQUAL(6000, fp1->legAtIndex(3)->altitudeFt()); // insert some waypoints from Nasal ok = FGTestApi::executeNasal(R"( var fp = flightplan(); var leg = fp.getWP(2); var newWP = createWPFrom(navinfo(leg.lat, leg.lon, 'COA')[0]); fp.insertWPAfter(newWP, 2); )"); CPPUNIT_ASSERT(ok); CPPUNIT_ASSERT_EQUAL(string{"COSTA VOR-DME"}, fp1->legAtIndex(3)->waypoint()->source()->name()); ok = FGTestApi::executeNasal(R"( var fp = flightplan(); fp.clearAll(); unitTest.assert_equal(fp.getPlanSize(), 0); unitTest.assert_equal(fp.current, -1); unitTest.assert_equal(fp.departure, nil); unitTest.assert_equal(fp.sid, nil); unitTest.assert_equal(fp.cruiseSpeedKt, 0); )"); CPPUNIT_ASSERT(ok); } void FPNasalTests::testRestrictions() { FlightPlanRef fp1 = makeTestFP("EGCC", "23L", "EHAM", "24", "TNT CLN"); fp1->setIdent("testplan"); // setup the FP on the route-manager, so flightplan() call works auto rm = globals->get_subsystem(); rm->setFlightPlan(fp1); rm->activate(); // modify leg data dfrom Nasal bool ok = FGTestApi::executeNasal(R"( var fp = flightplan(); # retrieve the global flightplan var leg = fp.getWP(3); leg.setAltitude(6000, 'AT'); )"); CPPUNIT_ASSERT(ok); // check the value updated in the leg CPPUNIT_ASSERT_EQUAL(RESTRICT_AT, fp1->legAtIndex(3)->altitudeRestriction()); CPPUNIT_ASSERT_EQUAL(6000, fp1->legAtIndex(3)->altitudeFt()); ok = FGTestApi::executeNasal(R"( var fp = flightplan(); # retrieve the global flightplan var leg = fp.getWP(3); leg.setAltitude(6000, 'above'); )"); CPPUNIT_ASSERT(ok); CPPUNIT_ASSERT_EQUAL(RESTRICT_ABOVE, fp1->legAtIndex(3)->altitudeRestriction()); CPPUNIT_ASSERT_EQUAL(6000, fp1->legAtIndex(3)->altitudeFt()); ok = FGTestApi::executeNasal(R"( var fp = flightplan(); # retrieve the global flightplan var leg = fp.getWP(3); leg.setAltitude(6000, 'below'); )"); CPPUNIT_ASSERT(ok); CPPUNIT_ASSERT_EQUAL(RESTRICT_BELOW, fp1->legAtIndex(3)->altitudeRestriction()); CPPUNIT_ASSERT_EQUAL(6000, fp1->legAtIndex(3)->altitudeFt()); ok = FGTestApi::executeNasal(R"( var fp = flightplan(); # retrieve the global flightplan var leg = fp.getWP(3); leg.setAltitude(6000, 'delete'); )"); CPPUNIT_ASSERT(ok); CPPUNIT_ASSERT_EQUAL(RESTRICT_DELETE, fp1->legAtIndex(3)->altitudeRestriction()); ok = FGTestApi::executeNasal(R"( var fp = flightplan(); # retrieve the global flightplan var leg = fp.getWP(3); leg.setSpeed(250, 'at'); )"); CPPUNIT_ASSERT(ok); CPPUNIT_ASSERT_EQUAL(RESTRICT_AT, fp1->legAtIndex(3)->speedRestriction()); CPPUNIT_ASSERT_EQUAL(250, fp1->legAtIndex(3)->speedKts()); ok = FGTestApi::executeNasal(R"( var fp = flightplan(); # retrieve the global flightplan var leg = fp.getWP(3); leg.setSpeed(250, 'above'); )"); CPPUNIT_ASSERT(ok); CPPUNIT_ASSERT_EQUAL(RESTRICT_ABOVE, fp1->legAtIndex(3)->speedRestriction()); CPPUNIT_ASSERT_EQUAL(250, fp1->legAtIndex(3)->speedKts()); ok = FGTestApi::executeNasal(R"( var fp = flightplan(); # retrieve the global flightplan var leg = fp.getWP(3); leg.setSpeed(250, 'below'); )"); CPPUNIT_ASSERT(ok); CPPUNIT_ASSERT_EQUAL(RESTRICT_BELOW, fp1->legAtIndex(3)->speedRestriction()); CPPUNIT_ASSERT_EQUAL(250, fp1->legAtIndex(3)->speedKts()); ok = FGTestApi::executeNasal(R"( var fp = flightplan(); # retrieve the global flightplan var leg = fp.getWP(3); leg.setSpeed(250, 'delete'); )"); CPPUNIT_ASSERT(ok); CPPUNIT_ASSERT_EQUAL(RESTRICT_DELETE, fp1->legAtIndex(3)->speedRestriction()); ok = FGTestApi::executeNasal(R"( var fp = flightplan(); # retrieve the global flightplan var leg = fp.getWP(3); leg.setSpeed(0.8, 'at', "Mach"); leg.setAltitude(300, 'above', 'FL'); )"); CPPUNIT_ASSERT(ok); CPPUNIT_ASSERT_EQUAL(RESTRICT_AT, fp1->legAtIndex(3)->speedRestriction()); CPPUNIT_ASSERT_DOUBLES_EQUAL(0.8, fp1->legAtIndex(3)->speedMach(), 0.01); CPPUNIT_ASSERT_EQUAL(RESTRICT_ABOVE, fp1->legAtIndex(3)->altitudeRestriction()); CPPUNIT_ASSERT_DOUBLES_EQUAL(30000, fp1->legAtIndex(3)->altitudeFt(), 1.0); } void FPNasalTests::testSegfaultWaypointGhost() { // checking for a segfault here, no segfault indicates success. A runtime error in the log is acceptable here. bool ok = FGTestApi::executeNasal(R"( var fp = createFlightplan(); fp.departure = airportinfo("BIKF"); fp.destination = airportinfo("EGLL"); var wp = fp.getWP(1); fp.deleteWP(1); print(wp.wp_name); )"); CPPUNIT_ASSERT(ok); } void FPNasalTests::testSIDTransitionAPI() { if (!static_haveProcedures) { return; } auto rm = globals->get_subsystem(); bool ok = FGTestApi::executeNasal(R"( var fp = flightplan(); fp.departure = airportinfo("KJFK"); fp.destination = airportinfo("EGLL"); var sid = fp.departure.getSid("DEEZZ5.13L"); unitTest.assert(sid != nil, "SID not found"); unitTest.assert_equal(sid.id, "DEEZZ5.13L", "Incorrect SID loaded"); var trans = sid.transition('CANDR'); unitTest.assert_equal(trans.id, "CANDR", "Couldn't find transition"); unitTest.assert_equal(trans.tp_type, "transition", "Procedure type incorrect"); fp.sid = trans; fp.departure_runway = fp.departure.runway('13L') )"); CPPUNIT_ASSERT(ok); auto fp = rm->flightPlan(); CPPUNIT_ASSERT(fp->departureRunway()); CPPUNIT_ASSERT(fp->sid()); CPPUNIT_ASSERT(fp->sidTransition()); CPPUNIT_ASSERT_EQUAL(fp->departureRunway()->ident(), string{"13L"}); CPPUNIT_ASSERT_EQUAL(fp->sid()->ident(), string{"DEEZZ5.13L"}); CPPUNIT_ASSERT_EQUAL(fp->sidTransition()->ident(), string{"CANDR"}); // test specify SID via transition in Nasal rm->setFlightPlan(FlightPlan::create()); ok = FGTestApi::executeNasal(R"( var fp = flightplan(); fp.departure = airportinfo("KJFK"); fp.destination = airportinfo("EGLL"); fp.departure_runway = airportinfo("KJFK").runways["13L"]; fp.sid = airportinfo("KJFK").getSid("DEEZZ5.13L"); fp.sid_trans = "CANDR"; )"); CPPUNIT_ASSERT(ok); fp = rm->flightPlan(); CPPUNIT_ASSERT(fp->departureRunway()); CPPUNIT_ASSERT(fp->sid()); CPPUNIT_ASSERT(fp->sidTransition()); CPPUNIT_ASSERT_EQUAL(fp->departureRunway()->ident(), string{"13L"}); CPPUNIT_ASSERT_EQUAL(fp->sid()->ident(), string{"DEEZZ5.13L"}); CPPUNIT_ASSERT_EQUAL(fp->sidTransition()->ident(), string{"CANDR"}); } void FPNasalTests::testSTARTransitionAPI() { if (!static_haveProcedures) { return; } auto rm = globals->get_subsystem(); bool ok = FGTestApi::executeNasal(R"( var fp = flightplan(); fp.departure = airportinfo("EGLL"); fp.destination = airportinfo("EDDM"); var star = fp.destination.getStar("RIXE3A.26L"); unitTest.assert(star != nil, "STAR not found"); unitTest.assert_equal(star.id, "RIXE3A.26L", "Incorrect STAR loaded"); fp.star = star; fp.destination_runway = fp.destination.runway('26L') )"); CPPUNIT_ASSERT(ok); auto fp = rm->flightPlan(); CPPUNIT_ASSERT(fp->star()); CPPUNIT_ASSERT(fp->starTransition() == nullptr); CPPUNIT_ASSERT_EQUAL(fp->star()->ident(), string{"RIXE3A.26L"}); } void FPNasalTests::testApproachTransitionAPI() { if (!static_haveProcedures) { return; } auto rm = globals->get_subsystem(); bool ok = FGTestApi::executeNasal(R"( var fp = flightplan(); fp.departure = airportinfo("EGLL"); fp.destination = airportinfo("EDDM"); var star = fp.destination.getStar("RIXE3A.08L"); unitTest.assert(star != nil, "STAR not found"); unitTest.assert_equal(star.id, "RIXE3A.08L", "Incorrect STAR loaded"); fp.star = star; fp.destination_runway = fp.destination.runway('08L'); var approach = fp.destination.getApproach("ILS08L"); unitTest.assert(approach != nil, "No approach loaded"); var trans = approach.transition('LUL1C'); unitTest.assert(trans != nil, "approach transition not found"); unitTest.assert_equal(trans.id, "LUL1C", "Incorrect approach transition loaded"); unitTest.assert_equal(trans.tp_type, "transition", "Procedure type incorrect"); fp.approach = trans; unitTest.assert_equal(fp.approach.id, "ILS08L", "Incorrect approach returned"); unitTest.assert_equal(fp.approach_trans.id, "LUL1C", "Incorrect transition returned"); unitTest.assert_equal(fp.approach_trans.tp_type, "transition", "Procedure type incorrect"); )"); CPPUNIT_ASSERT(ok); auto fp = rm->flightPlan(); CPPUNIT_ASSERT(fp->approach()); CPPUNIT_ASSERT_EQUAL(string{"LUL1C"}, fp->approachTransition()->ident()); CPPUNIT_ASSERT_EQUAL(string{"ILS08L"}, fp->approach()->ident()); } void FPNasalTests::testApproachTransitionAPIWithCloning() { if (!static_haveProcedures) { return; } auto rm = globals->get_subsystem(); bool ok = FGTestApi::executeNasal(R"( var fp = flightplan(); fp.departure = airportinfo("EGLL"); fp.destination = airportinfo("EHAM"); fp.star = fp.destination.getStar("REDF1A"); fp.destination_runway = fp.destination.runway('06'); var approach = fp.destination.getApproach("ILS06"); unitTest.assert(approach != nil, "No approach loaded"); var trans = approach.transition('SUG2A'); unitTest.assert(trans != nil, "approach transition not found"); fp.approach = trans; unitTest.assert_equal(fp.approach.id, "ILS06", "Incorrect approach returned"); unitTest.assert_equal(fp.approach_trans.id, "SUG2A", "Incorrect transition returned"); unitTest.assert_equal(fp.approach_trans.tp_type, "transition", "Procedure type incorrect"); )"); CPPUNIT_ASSERT(ok); auto fp = rm->flightPlan(); CPPUNIT_ASSERT(fp->approach()); CPPUNIT_ASSERT_EQUAL(string{"SUG2A"}, fp->approachTransition()->ident()); CPPUNIT_ASSERT_EQUAL(string{"ILS06"}, fp->approach()->ident()); auto fp2 = fp->clone("testplan2"); CPPUNIT_ASSERT_EQUAL(string{"ILS06"}, fp2->approach()->ident()); CPPUNIT_ASSERT_EQUAL(string{"SUG2A"}, fp2->approachTransition()->ident()); } void FPNasalTests::testAirwaysAPI() { bool ok = FGTestApi::executeNasal(R"( var airwayIdent = "L620"; var airwayStore = airway(airwayIdent, "low"); unitTest.assert(airwayStore != nil, "Airway " ~ airwayIdent ~ " not found"); unitTest.assert(airwayStore.id == airwayIdent, "Incorrect airway found"); unitTest.assert_equal(airwayStore.level, 'low', "Incorrect airway found"); unitTest.assert_equal(airwayStore.level_code, Airway.LOW, "Incorrect airway found"); airwayIdent = "UL620"; var cln = findNavaidsByID("CLN", "VOR")[0]; airwayStore = airway(airwayIdent, cln); unitTest.assert(airwayStore != nil, "Airway " ~ airwayIdent ~ " not found"); unitTest.assert(airwayStore.id == airwayIdent, "Incorrect airway found"); unitTest.assert_equal(airwayStore.level_code, Airway.HIGH, "Incorrect airway found"); airwayIdent = "J547"; airwayStore = airway(airwayIdent); unitTest.assert(airwayStore != nil, "Airway " ~ airwayIdent ~ " not found"); unitTest.assert(airwayStore.id == airwayIdent, "Incorrect airway found"); )"); CPPUNIT_ASSERT(ok); ok = FGTestApi::executeNasal(R"( var airwayIdent = "L620"; var airwayStore = airway(airwayIdent, Airway.LOW); var cln = findNavaidsByID("CLN", "VOR")[0]; var v1 = createViaTo(airwayIdent, "CLN"); unitTest.assert_equal(v1.wp_type, "via"); unitTest.assert_equal(v1.airway.id, 'L620'); unitTest.assert_equal(v1.airway.level_code, Airway.LOW); var v2 = createViaTo(airwayStore, "TULIP"); unitTest.assert_equal(v2.wp_type, "via"); unitTest.assert_equal(v2.airway.id, airwayIdent); var v3 = createViaFromTo(cln, "L620", 'low', "TULIP"); unitTest.assert_equal(v3.airway.id, 'L620'); var v4 = createViaFromTo(cln, "L620", "REDFA"); unitTest.assert_equal(v4.airway.level_code, Airway.LOW); # test direct API (no Vias) var wps = airwayStore.viaWaypoints(cln, "TULIP"); unitTest.assert_equal(size(wps), 3); unitTest.assert_equal(wps[1].wp_ident, 'REDFA'); unitTest.assert_equal(wps[1].airway.ident, 'L620'); )"); CPPUNIT_ASSERT(ok); } void FPNasalTests::testTotalDistanceAPI() { auto rm = globals->get_subsystem(); bool ok = FGTestApi::executeNasal(R"( var fp = flightplan(); fp.departure = airportinfo("BIKF"); fp.destination = airportinfo("EGLL"); unitTest.assert_doubles_equal(1025.9, fp.totalDistanceNm, 0.1, "Distance assertion failed"); )"); CPPUNIT_ASSERT(ok); auto fp = rm->flightPlan(); CPPUNIT_ASSERT_DOUBLES_EQUAL(fp->totalDistanceNm(), 1025.9, 0.1); }