Exemplos de AverageClimbRate em C++ (Cpp)

Linguagem de programação: C++ (Cpp)

Método / Função: AverageClimbRate

Exemplos em hotexamples.com: 2

AverageClimbRate em C++ (Cpp) - 2 exemplos encontrados. Esses são os exemplos do mundo real mais bem avaliados de AverageClimbRate em C++ (Cpp) extraídos de projetos de código aberto. Você pode avaliar os exemplos para nos ajudar a melhorar a qualidade deles.

Exemplo n.º 1

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Arquivo: GlideComputerAirData.cpp Projeto: StefanL74/XCSoar

void GlideComputerAirData::ProcessVertical(const MoreData &basic, const MoreData &last_basic, DerivedInfo &calculated, const ComputerSettings &settings) { /* the "circling" flag may be modified by CirclingComputer::Turning(); remember the old state so this method can check for modifications */ const bool last_circling = calculated.circling; auto_qnh.Process(basic, calculated, settings, waypoints); circling_computer.TurnRate(calculated, basic, calculated.flight); Turning(basic, calculated, settings); wind_computer.Compute(settings.wind, settings.polar.glide_polar_task, basic, calculated); wind_computer.Select(settings.wind, basic, calculated); wind_computer.ComputeHeadWind(basic, calculated); thermallocator.Process(calculated.circling, basic.time, basic.location, basic.netto_vario, calculated.GetWindOrZero(), calculated.thermal_locator); LastThermalStats(basic, calculated, last_circling); gr_computer.Compute(basic, last_basic, calculated, calculated, settings); GR(basic, calculated.flight, calculated); CruiseGR(basic, calculated); average_vario.Compute(basic, calculated.circling, last_circling, calculated); AverageClimbRate(basic, calculated); if (calculated.circling) CurrentThermal(basic, calculated, calculated.current_thermal); lift_database_computer.Compute(calculated.lift_database, calculated.trace_history.CirclingAverage, basic, calculated); circling_computer.MaxHeightGain(basic, calculated.flight, calculated); NextLegEqThermal(basic, calculated, settings); }

Exemplo n.º 2

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Arquivo: DoCalculations.cpp Projeto: lshachar/LK8000

bool DoCalculations(NMEA_INFO *Basic, DERIVED_INFO *Calculated) { // first thing: assign navaltitude! EnergyHeightNavAltitude(Basic, Calculated); // second thing: if available, get external wind precalculated! if ( (Basic->ExternalWindAvailable==TRUE) && (AutoWindMode==D_AUTOWIND_EXTERNAL)) { if (Basic->ExternalWindSpeed>0 && Basic->ExternalWindSpeed<35) { Calculated->WindSpeed = Basic->ExternalWindSpeed; Calculated->WindBearing = Basic->ExternalWindDirection; } } Heading(Basic, Calculated); DistanceToNext(Basic, Calculated); DistanceToHome(Basic, Calculated); DetectFreeFlying(Basic,Calculated); // check ongoing powerless flight DoLogging(Basic, Calculated); TerrainHeight(Basic, Calculated); AltitudeRequired(Basic, Calculated, MACCREADY); DoAlternates(Basic,Calculated,TASKINDEX); if (IsMultiMapShared()) { DoAlternates(Basic,Calculated,RESWP_LASTTHERMAL); DoAlternates(Basic,Calculated,RESWP_TEAMMATE); DoAlternates(Basic,Calculated,RESWP_FLARMTARGET); DoAlternates(Basic,Calculated,HomeWaypoint); if (DoOptimizeRoute() || ACTIVE_WP_IS_AAT_AREA) { DoAlternates(Basic, Calculated, RESWP_OPTIMIZED); } for (int i=RESWP_FIRST_MARKER; i<=RESWP_LAST_MARKER; i++) { if (WayPointList[i].Latitude==RESWP_INVALIDNUMBER) continue; DoAlternates(Basic,Calculated,i); } } else { // The following is needed only for the next-WP glide terrain line, // not for the main/primary glide terrain line. if ((FinalGlideTerrain > 2) && (DoOptimizeRoute() || ACTIVE_WP_IS_AAT_AREA)) DoAlternates(Basic, Calculated, RESWP_OPTIMIZED); } if (!TargetDialogOpen) { // don't calculate these if optimise function being invoked or // target is being adjusted TaskStatistics(Basic, Calculated, MACCREADY); AATStats(Basic, Calculated); TaskSpeed(Basic, Calculated, MACCREADY); } if (!FlightTimes(Basic, Calculated)) { // time hasn't advanced, so don't do calculations requiring an advance // or movement return false; } Turning(Basic, Calculated); LD(Basic,Calculated); CruiseLD(Basic,Calculated); // We calculate flaps settings only if the polar is extended. // We do assume that GA planes will NOT use extended polars if (GlidePolar::FlapsPosCount >0) Flaps(Basic,Calculated); Calculated->AverageLD=CalculateLDRotary(&rotaryLD,Basic,Calculated); Average30s(Basic,Calculated); AverageThermal(Basic,Calculated); AverageClimbRate(Basic,Calculated); ThermalGain(Basic,Calculated); LastThermalStats(Basic, Calculated); // ThermalBand(Basic, Calculated); moved to % circling function MaxHeightGain(Basic,Calculated); PredictNextPosition(Basic, Calculated); if (Orbiter) CalculateOrbiter(Basic,Calculated); CalculateOwnTeamCode(Basic, Calculated); CalculateTeammateBearingRange(Basic, Calculated); BallastDump(); // reminder: Paragliders have AAT always on CalculateOptimizedTargetPos(Basic,Calculated); if (ValidTaskPoint(ActiveTaskPoint)) { // only if running a real task if (ValidTaskPoint(1)) InSector(Basic, Calculated); DoAutoMacCready(Basic, Calculated); #ifdef DEBUGTASKSPEED DebugTaskCalculations(Basic, Calculated); #endif } else { // 101002 DoAutoMacCready(Basic, Calculated); // will set only EqMC } DoAlternates(Basic, Calculated,Alternate1); DoAlternates(Basic, Calculated,Alternate2); DoAlternates(Basic, Calculated,BestAlternate); // Calculate nearest waypoints when needed if ( !MapWindow::mode.AnyPan() && DrawBottom && (MapSpaceMode>MSM_MAP) ) { switch(MapSpaceMode) { case MSM_LANDABLE: case MSM_AIRPORTS: case MSM_NEARTPS: // 101222 DoNearest(Basic,Calculated); break; case MSM_COMMON: DoCommon(Basic,Calculated); break; case MSM_RECENT: DoRecent(Basic,Calculated); break; case MSM_VISUALGLIDE: // Only if visualglide is really painted: topview is not fullscreen. if (Current_Multimap_SizeY<SIZE4) { DoNearest(Basic,Calculated); } break; } } CalculateHeadWind(Basic,Calculated); ConditionMonitorsUpdate(Basic, Calculated); return true; }