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flightgear/src/FDM/JSBSim/models/FGOutput.cpp

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/*%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Module: FGOutput.cpp
Author: Jon Berndt
Date started: 12/02/98
Purpose: Manage output of sim parameters to file or stdout
Called by: FGSimExec
------------- Copyright (C) 1999 Jon S. Berndt (jsb@hal-pc.org) -------------
This program is free software; you can redistribute it and/or modify it under
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the terms of the GNU Lesser General Public License as published by the Free Software
Foundation; either version 2 of the License, or (at your option) any later
version.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
details.
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You should have received a copy of the GNU Lesser General Public License along with
this program; if not, write to the Free Software Foundation, Inc., 59 Temple
Place - Suite 330, Boston, MA 02111-1307, USA.
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Further information about the GNU Lesser General Public License can also be found on
the world wide web at http://www.gnu.org.
FUNCTIONAL DESCRIPTION
--------------------------------------------------------------------------------
This is the place where you create output routines to dump data for perusal
later.
HISTORY
--------------------------------------------------------------------------------
12/02/98 JSB Created
11/09/07 HDW Added FlightGear Socket Interface
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
INCLUDES
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/
#include "FGOutput.h"
#include "FGState.h"
#include "FGFDMExec.h"
#include "FGAtmosphere.h"
#include "FGFCS.h"
#include "FGAerodynamics.h"
#include "FGGroundReactions.h"
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#include "FGExternalReactions.h"
#include "FGBuoyantForces.h"
#include "FGAircraft.h"
#include "FGMassBalance.h"
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#include "FGPropagate.h"
#include "FGAuxiliary.h"
#include "FGInertial.h"
#include "FGPropulsion.h" //access to FGEngine, FGTank
#include "models/propulsion/FGPiston.h"
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#include <fstream>
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#include <iomanip>
#include <cstring>
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#include "input_output/net_fdm.hxx"
#if defined(WIN32) && !defined(__CYGWIN__)
# include <windows.h>
#else
# include <netinet/in.h> // htonl() ntohl()
#endif
static const int endianTest = 1;
#define isLittleEndian (*((char *) &endianTest ) != 0)
namespace JSBSim {
static const char *IdSrc = "$Id$";
static const char *IdHdr = ID_OUTPUT;
// (stolen from FGFS native_fdm.cxx)
// The function htond is defined this way due to the way some
// processors and OSes treat floating point values. Some will raise
// an exception whenever a "bad" floating point value is loaded into a
// floating point register. Solaris is notorious for this, but then
// so is LynxOS on the PowerPC. By translating the data in place,
// there is no need to load a FP register with the "corruped" floating
// point value. By doing the BIG_ENDIAN test, I can optimize the
// routine for big-endian processors so it can be as efficient as
// possible
static void htond (double &x)
{
if ( isLittleEndian ) {
int *Double_Overlay;
int Holding_Buffer;
Double_Overlay = (int *) &x;
Holding_Buffer = Double_Overlay [0];
Double_Overlay [0] = htonl (Double_Overlay [1]);
Double_Overlay [1] = htonl (Holding_Buffer);
} else {
return;
}
}
// Float version
static void htonf (float &x)
{
if ( isLittleEndian ) {
int *Float_Overlay;
int Holding_Buffer;
Float_Overlay = (int *) &x;
Holding_Buffer = Float_Overlay [0];
Float_Overlay [0] = htonl (Holding_Buffer);
} else {
return;
}
}
/*%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
CLASS IMPLEMENTATION
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/
FGOutput::FGOutput(FGFDMExec* fdmex) : FGModel(fdmex)
{
Name = "FGOutput";
sFirstPass = dFirstPass = true;
socket = 0;
flightGearSocket = 0;
runID_postfix = 0;
Type = otNone;
SubSystems = 0;
enabled = true;
StartNewFile = false;
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delimeter = ", ";
BaseFilename = Filename = "";
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DirectivesFile = "";
output_file_name = "";
memset(&fgSockBuf, 0x00, sizeof(fgSockBuf));
Debug(0);
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
FGOutput::~FGOutput()
{
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delete socket;
delete flightGearSocket;
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OutputProperties.clear();
Debug(1);
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
bool FGOutput::InitModel(void)
{
char fname[1000] = "";
if (!FGModel::InitModel()) return false;
if (Filename.size() > 0 && StartNewFile) {
int idx = BaseFilename.find_last_of(".");
int len = BaseFilename.length();
string extension = "";
if (idx != string::npos) {
extension = BaseFilename.substr(idx, len-idx);
len -= extension.length();
}
sprintf(fname, "%s_%d%s", BaseFilename.substr(0,len).c_str(), runID_postfix++, extension.c_str());
Filename = string(fname);
datafile.close();
StartNewFile = false;
dFirstPass = true;
}
return true;
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
bool FGOutput::Run(void)
{
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if (FGModel::Run()) return true;
if (enabled && !State->IntegrationSuspended()&& !FDMExec->Holding()) {
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if (Type == otSocket) {
SocketOutput();
} else if (Type == otFlightGear) {
FlightGearSocketOutput();
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} else if (Type == otCSV || Type == otTab) {
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DelimitedOutput(Filename);
} else if (Type == otTerminal) {
// Not done yet
} else if (Type == otNone) {
// Do nothing
} else {
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// Not a valid type of output
}
}
return false;
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
void FGOutput::SetType(string type)
{
if (type == "CSV") {
Type = otCSV;
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delimeter = ", ";
} else if (type == "TABULAR") {
Type = otTab;
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delimeter = "\t";
} else if (type == "SOCKET") {
Type = otSocket;
} else if (type == "FLIGHTGEAR") {
Type = otFlightGear;
} else if (type == "TERMINAL") {
Type = otTerminal;
} else if (type != string("NONE")) {
Type = otUnknown;
cerr << "Unknown type of output specified in config file" << endl;
}
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
void FGOutput::DelimitedOutput(string fname)
{
streambuf* buffer;
string scratch = "";
if (fname == "COUT" || fname == "cout") {
buffer = cout.rdbuf();
} else {
if (!datafile.is_open()) datafile.open(fname.c_str());
buffer = datafile.rdbuf();
}
ostream outstream(buffer);
outstream.precision(10);
if (dFirstPass) {
outstream << "Time";
if (SubSystems & ssSimulation) {
// Nothing here, yet
}
if (SubSystems & ssAerosurfaces) {
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outstream << delimeter;
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outstream << "Aileron Command (norm)" + delimeter;
outstream << "Elevator Command (norm)" + delimeter;
outstream << "Rudder Command (norm)" + delimeter;
outstream << "Flap Command (norm)" + delimeter;
outstream << "Left Aileron Position (deg)" + delimeter;
outstream << "Right Aileron Position (deg)" + delimeter;
outstream << "Elevator Position (deg)" + delimeter;
outstream << "Rudder Position (deg)" + delimeter;
outstream << "Flap Position (deg)";
}
if (SubSystems & ssRates) {
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outstream << delimeter;
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outstream << "P (deg/s)" + delimeter + "Q (deg/s)" + delimeter + "R (deg/s)" + delimeter;
outstream << "P dot (deg/s^2)" + delimeter + "Q dot (deg/s^2)" + delimeter + "R dot (deg/s^2)";
}
if (SubSystems & ssVelocities) {
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outstream << delimeter;
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outstream << "q bar (psf)" + delimeter;
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outstream << "Reynolds Number" + delimeter;
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outstream << "V_{Total} (ft/s)" + delimeter;
outstream << "V_{Inertial} (ft/s)" + delimeter;
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outstream << "UBody" + delimeter + "VBody" + delimeter + "WBody" + delimeter;
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outstream << "Aero V_{X Body} (ft/s)" + delimeter + "Aero V_{Y Body} (ft/s)" + delimeter + "Aero V_{Z Body} (ft/s)" + delimeter;
outstream << "V_{North} (ft/s)" + delimeter + "V_{East} (ft/s)" + delimeter + "V_{Down} (ft/s)";
}
if (SubSystems & ssForces) {
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outstream << delimeter;
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outstream << "F_{Drag} (lbs)" + delimeter + "F_{Side} (lbs)" + delimeter + "F_{Lift} (lbs)" + delimeter;
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outstream << "L/D" + delimeter;
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outstream << "F_{Aero x} (lbs)" + delimeter + "F_{Aero y} (lbs)" + delimeter + "F_{Aero z} (lbs)" + delimeter;
outstream << "F_{Prop x} (lbs)" + delimeter + "F_{Prop y} (lbs)" + delimeter + "F_{Prop z} (lbs)" + delimeter;
outstream << "F_{Gear x} (lbs)" + delimeter + "F_{Gear y} (lbs)" + delimeter + "F_{Gear z} (lbs)" + delimeter;
outstream << "F_{Ext x} (lbs)" + delimeter + "F_{Ext y} (lbs)" + delimeter + "F_{Ext z} (lbs)" + delimeter;
outstream << "F_{Buoyant x} (lbs)" + delimeter + "F_{Buoyant y} (lbs)" + delimeter + "F_{Buoyant z} (lbs)" + delimeter;
outstream << "F_{Total x} (lbs)" + delimeter + "F_{Total y} (lbs)" + delimeter + "F_{Total z} (lbs)";
}
if (SubSystems & ssMoments) {
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outstream << delimeter;
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outstream << "L_{Aero} (ft-lbs)" + delimeter + "M_{Aero} ( ft-lbs)" + delimeter + "N_{Aero} (ft-lbs)" + delimeter;
outstream << "L_{Prop} (ft-lbs)" + delimeter + "M_{Prop} (ft-lbs)" + delimeter + "N_{Prop} (ft-lbs)" + delimeter;
outstream << "L_{Gear} (ft-lbs)" + delimeter + "M_{Gear} (ft-lbs)" + delimeter + "N_{Gear} (ft-lbs)" + delimeter;
outstream << "L_{ext} (ft-lbs)" + delimeter + "M_{ext} (ft-lbs)" + delimeter + "N_{ext} (ft-lbs)" + delimeter;
outstream << "L_{Buoyant} (ft-lbs)" + delimeter + "M_{Buoyant} (ft-lbs)" + delimeter + "N_{Buoyant} (ft-lbs)" + delimeter;
outstream << "L_{Total} (ft-lbs)" + delimeter + "M_{Total} (ft-lbs)" + delimeter + "N_{Total} (ft-lbs)";
}
if (SubSystems & ssAtmosphere) {
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outstream << delimeter;
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outstream << "Rho (slugs/ft^3)" + delimeter;
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outstream << "Absolute Viscosity" + delimeter;
outstream << "Kinematic Viscosity" + delimeter;
outstream << "Temperature (R)" + delimeter;
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outstream << "P_{SL} (psf)" + delimeter;
outstream << "P_{Ambient} (psf)" + delimeter;
outstream << "Turbulence Magnitude (ft/sec)" + delimeter;
outstream << "Turbulence X Direction (rad)" + delimeter + "Turbulence Y Direction (rad)" + delimeter + "Turbulence Z Direction (rad)" + delimeter;
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outstream << "Wind V_{North} (ft/s)" + delimeter + "Wind V_{East} (ft/s)" + delimeter + "Wind V_{Down} (ft/s)";
}
if (SubSystems & ssMassProps) {
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outstream << delimeter;
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outstream << "I_{xx}" + delimeter;
outstream << "I_{xy}" + delimeter;
outstream << "I_{xz}" + delimeter;
outstream << "I_{yx}" + delimeter;
outstream << "I_{yy}" + delimeter;
outstream << "I_{yz}" + delimeter;
outstream << "I_{zx}" + delimeter;
outstream << "I_{zy}" + delimeter;
outstream << "I_{zz}" + delimeter;
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outstream << "Mass" + delimeter;
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outstream << "X_{cg}" + delimeter + "Y_{cg}" + delimeter + "Z_{cg}";
}
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if (SubSystems & ssPropagate) {
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outstream << delimeter;
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outstream << "Altitude (ft)" + delimeter;
outstream << "Phi (deg)" + delimeter + "Theta (deg)" + delimeter + "Psi (deg)" + delimeter;
outstream << "Alpha (deg)" + delimeter;
outstream << "Beta (deg)" + delimeter;
outstream << "Latitude (deg)" + delimeter;
outstream << "Longitude (deg)" + delimeter;
outstream << "ECEF X (ft)" + delimeter + "ECEF Y (ft)" + delimeter + "ECEF Z (ft)" + delimeter;
outstream << "EPA (deg)" + delimeter;
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outstream << "Distance AGL (ft)" + delimeter;
outstream << "Runway Radius (ft)";
}
if (SubSystems & ssCoefficients) {
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scratch = Aerodynamics->GetCoefficientStrings(delimeter);
if (scratch.length() != 0) outstream << delimeter << scratch;
}
if (SubSystems & ssFCS) {
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scratch = FCS->GetComponentStrings(delimeter);
if (scratch.length() != 0) outstream << delimeter << scratch;
}
if (SubSystems & ssGroundReactions) {
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outstream << delimeter;
outstream << GroundReactions->GetGroundReactionStrings(delimeter);
}
if (SubSystems & ssPropulsion && Propulsion->GetNumEngines() > 0) {
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outstream << delimeter;
outstream << Propulsion->GetPropulsionStrings(delimeter);
}
if (OutputProperties.size() > 0) {
for (unsigned int i=0;i<OutputProperties.size();i++) {
outstream << delimeter << OutputProperties[i]->GetPrintableName();
}
}
outstream << endl;
dFirstPass = false;
}
outstream << State->Getsim_time();
if (SubSystems & ssSimulation) {
}
if (SubSystems & ssAerosurfaces) {
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outstream << delimeter;
outstream << FCS->GetDaCmd() << delimeter;
outstream << FCS->GetDeCmd() << delimeter;
outstream << FCS->GetDrCmd() << delimeter;
outstream << FCS->GetDfCmd() << delimeter;
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outstream << FCS->GetDaLPos(ofDeg) << delimeter;
outstream << FCS->GetDaRPos(ofDeg) << delimeter;
outstream << FCS->GetDePos(ofDeg) << delimeter;
outstream << FCS->GetDrPos(ofDeg) << delimeter;
outstream << FCS->GetDfPos(ofDeg);
}
if (SubSystems & ssRates) {
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outstream << delimeter;
outstream << (radtodeg*Propagate->GetPQR()).Dump(delimeter) << delimeter;
outstream << (radtodeg*Propagate->GetPQRdot()).Dump(delimeter);
}
if (SubSystems & ssVelocities) {
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outstream << delimeter;
outstream << Auxiliary->Getqbar() << delimeter;
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outstream << Auxiliary->GetReynoldsNumber() << delimeter;
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outstream << setprecision(12) << Auxiliary->GetVt() << delimeter;
outstream << Propagate->GetInertialVelocityMagnitude() << delimeter;
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outstream << setprecision(12) << Propagate->GetUVW().Dump(delimeter) << delimeter;
outstream << Auxiliary->GetAeroUVW().Dump(delimeter) << delimeter;
outstream << Propagate->GetVel().Dump(delimeter);
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outstream.precision(10);
}
if (SubSystems & ssForces) {
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outstream << delimeter;
outstream << Aerodynamics->GetvFw() << delimeter;
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outstream << Aerodynamics->GetLoD() << delimeter;
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outstream << Aerodynamics->GetForces() << delimeter;
outstream << Propulsion->GetForces() << delimeter;
outstream << GroundReactions->GetForces() << delimeter;
outstream << ExternalReactions->GetForces() << delimeter;
outstream << BuoyantForces->GetForces() << delimeter;
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outstream << Aircraft->GetForces().Dump(delimeter);
}
if (SubSystems & ssMoments) {
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outstream << delimeter;
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outstream << Aerodynamics->GetMoments() << delimeter;
outstream << Propulsion->GetMoments() << delimeter;
outstream << GroundReactions->GetMoments() << delimeter;
outstream << ExternalReactions->GetMoments() << delimeter;
outstream << BuoyantForces->GetMoments() << delimeter;
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outstream << Aircraft->GetMoments().Dump(delimeter);
}
if (SubSystems & ssAtmosphere) {
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outstream << delimeter;
outstream << Atmosphere->GetDensity() << delimeter;
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outstream << Atmosphere->GetAbsoluteViscosity() << delimeter;
outstream << Atmosphere->GetKinematicViscosity() << delimeter;
outstream << Atmosphere->GetTemperature() << delimeter;
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outstream << Atmosphere->GetPressureSL() << delimeter;
outstream << Atmosphere->GetPressure() << delimeter;
outstream << Atmosphere->GetTurbMagnitude() << delimeter;
outstream << Atmosphere->GetTurbDirection().Dump(delimeter) << delimeter;
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outstream << Atmosphere->GetTotalWindNED().Dump(delimeter);
}
if (SubSystems & ssMassProps) {
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outstream << delimeter;
outstream << MassBalance->GetJ() << delimeter;
outstream << MassBalance->GetMass() << delimeter;
outstream << MassBalance->GetXYZcg();
}
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if (SubSystems & ssPropagate) {
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outstream.precision(14);
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outstream << delimeter;
outstream << Propagate->Geth() << delimeter;
outstream << (radtodeg*Propagate->GetEuler()).Dump(delimeter) << delimeter;
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outstream << Auxiliary->Getalpha(inDegrees) << delimeter;
outstream << Auxiliary->Getbeta(inDegrees) << delimeter;
outstream << Propagate->GetLocation().GetLatitudeDeg() << delimeter;
outstream << Propagate->GetLocation().GetLongitudeDeg() << delimeter;
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outstream.precision(18);
outstream << ((FGColumnVector3)Propagate->GetLocation()).Dump(delimeter) << delimeter;
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outstream.precision(14);
outstream << Inertial->GetEarthPositionAngleDeg() << delimeter;
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outstream << Propagate->GetDistanceAGL() << delimeter;
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outstream << Propagate->GetRunwayRadius();
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outstream.precision(10);
}
if (SubSystems & ssCoefficients) {
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scratch = Aerodynamics->GetCoefficientValues(delimeter);
if (scratch.length() != 0) outstream << delimeter << scratch;
}
if (SubSystems & ssFCS) {
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scratch = FCS->GetComponentValues(delimeter);
if (scratch.length() != 0) outstream << delimeter << scratch;
}
if (SubSystems & ssGroundReactions) {
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outstream << delimeter;
outstream << GroundReactions->GetGroundReactionValues(delimeter);
}
if (SubSystems & ssPropulsion && Propulsion->GetNumEngines() > 0) {
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outstream << delimeter;
outstream << Propulsion->GetPropulsionValues(delimeter);
}
for (unsigned int i=0;i<OutputProperties.size();i++) {
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outstream << delimeter << OutputProperties[i]->getDoubleValue();
}
outstream << endl;
outstream.flush();
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
void FGOutput::SocketDataFill(FGNetFDM* net)
{
unsigned int i;
// Version
net->version = FG_NET_FDM_VERSION;
// Positions
net->longitude = Propagate->GetLocation().GetLongitude(); // geodetic (radians)
net->latitude = Propagate->GetLocation().GetLatitude(); // geodetic (radians)
net->altitude = Propagate->Geth()*0.3048; // altitude, above sea level (meters)
net->agl = (float)(Propagate->GetDistanceAGL()*0.3048); // altitude, above ground level (meters)
net->phi = (float)(Propagate->GetEuler(ePhi)); // roll (radians)
net->theta = (float)(Propagate->GetEuler(eTht)); // pitch (radians)
net->psi = (float)(Propagate->GetEuler(ePsi)); // yaw or true heading (radians)
net->alpha = (float)(Auxiliary->Getalpha()); // angle of attack (radians)
net->beta = (float)(Auxiliary->Getbeta()); // side slip angle (radians)
// Velocities
net->phidot = (float)(Auxiliary->GetEulerRates(ePhi)); // roll rate (radians/sec)
net->thetadot = (float)(Auxiliary->GetEulerRates(eTht)); // pitch rate (radians/sec)
net->psidot = (float)(Auxiliary->GetEulerRates(ePsi)); // yaw rate (radians/sec)
net->vcas = (float)(Auxiliary->GetVcalibratedFPS()); // VCAS, ft/sec
net->climb_rate = (float)(Propagate->Gethdot()); // altitude rate, ft/sec
net->v_north = (float)(Propagate->GetVel(eNorth)); // north vel in NED frame, fps
net->v_east = (float)(Propagate->GetVel(eEast)); // east vel in NED frame, fps
net->v_down = (float)(Propagate->GetVel(eDown)); // down vel in NED frame, fps
//---ADD METHOD TO CALCULATE THESE TERMS---
net->v_wind_body_north = (float)(Propagate->GetVel(eNorth)); // north vel in NED relative to airmass, fps
net->v_wind_body_east = (float)(Propagate->GetVel(eEast)); // east vel in NED relative to airmass, fps
net->v_wind_body_down = (float)(Propagate->GetVel(eDown)); // down vel in NED relative to airmass, fps
// Accelerations
net->A_X_pilot = (float)(Auxiliary->GetPilotAccel(1)); // X body accel, ft/s/s
net->A_Y_pilot = (float)(Auxiliary->GetPilotAccel(2)); // Y body accel, ft/s/s
net->A_Z_pilot = (float)(Auxiliary->GetPilotAccel(3)); // Z body accel, ft/s/s
// Stall
net->stall_warning = 0.0; // 0.0 - 1.0 indicating the amount of stall
net->slip_deg = (float)(Auxiliary->Getbeta(inDegrees)); // slip ball deflection, deg
// Engine status
net->num_engines = Propulsion->GetNumEngines(); // Number of valid engines
for (i=0; i<net->num_engines; i++) {
if (Propulsion->GetEngine(i)->GetRunning())
net->eng_state[i] = 2; // Engine state running
else if (Propulsion->GetEngine(i)->GetCranking())
net->eng_state[i] = 1; // Engine state cranking
else
net->eng_state[i] = 0; // Engine state off
switch (Propulsion->GetEngine(i)->GetType()) {
case (FGEngine::etRocket):
break;
case (FGEngine::etPiston):
net->rpm[i] = (float)(((FGPiston *)Propulsion->GetEngine(i))->getRPM());
net->fuel_flow[i] = (float)(((FGPiston *)Propulsion->GetEngine(i))->getFuelFlow_gph());
net->fuel_px[i] = 0; // Fuel pressure, psi (N/A in current model)
net->egt[i] = (float)(((FGPiston *)Propulsion->GetEngine(i))->GetEGT());
net->cht[i] = (float)(((FGPiston *)Propulsion->GetEngine(i))->getCylinderHeadTemp_degF());
net->mp_osi[i] = (float)(((FGPiston *)Propulsion->GetEngine(i))->getManifoldPressure_inHg());
net->oil_temp[i] = (float)(((FGPiston *)Propulsion->GetEngine(i))->getOilTemp_degF());
net->oil_px[i] = (float)(((FGPiston *)Propulsion->GetEngine(i))->getOilPressure_psi());
net->tit[i] = 0; // Turbine Inlet Temperature (N/A for piston)
break;
case (FGEngine::etTurbine):
break;
case (FGEngine::etTurboprop):
break;
case (FGEngine::etElectric):
break;
case (FGEngine::etUnknown):
break;
}
}
// Consumables
net->num_tanks = Propulsion->GetNumTanks(); // Max number of fuel tanks
for (i=0; i<net->num_tanks; i++) {
net->fuel_quantity[i] = (float)(((FGTank *)Propulsion->GetTank(i))->GetContents());
}
// Gear status
net->num_wheels = GroundReactions->GetNumGearUnits();
for (i=0; i<net->num_wheels; i++) {
net->wow[i] = GroundReactions->GetGearUnit(i)->GetWOW();
if (GroundReactions->GetGearUnit(i)->GetGearUnitDown())
net->gear_pos[i] = 1; //gear down, using FCS convention
else
net->gear_pos[i] = 0; //gear up, using FCS convention
net->gear_steer[i] = (float)(GroundReactions->GetGearUnit(i)->GetSteerNorm());
net->gear_compression[i] = (float)(GroundReactions->GetGearUnit(i)->GetCompLen());
}
// Environment
net->cur_time = (long int)1234567890; // Friday, Feb 13, 2009, 23:31:30 UTC (not processed by FGFS anyway)
net->warp = 0; // offset in seconds to unix time
net->visibility = 25000.0; // visibility in meters (for env. effects)
// Control surface positions (normalized values)
net->elevator = (float)(FCS->GetDePos(ofNorm)); // Norm Elevator Pos, --
net->elevator_trim_tab = (float)(FCS->GetPitchTrimCmd()); // Norm Elev Trim Tab Pos, --
net->left_flap = (float)(FCS->GetDfPos(ofNorm)); // Norm Flap Pos, --
net->right_flap = (float)(FCS->GetDfPos(ofNorm)); // Norm Flap Pos, --
net->left_aileron = (float)(FCS->GetDaLPos(ofNorm)); // Norm L Aileron Pos, --
net->right_aileron = (float)(FCS->GetDaRPos(ofNorm)); // Norm R Aileron Pos, --
net->rudder = (float)(FCS->GetDrPos(ofNorm)); // Norm Rudder Pos, --
net->nose_wheel = (float)(FCS->GetDrPos(ofNorm)); // *** FIX *** Using Rudder Pos for NWS, --
net->speedbrake = (float)(FCS->GetDsbPos(ofNorm)); // Norm Speedbrake Pos, --
net->spoilers = (float)(FCS->GetDspPos(ofNorm)); // Norm Spoiler Pos, --
// Convert the net buffer to network format
if ( isLittleEndian ) {
net->version = htonl(net->version);
htond(net->longitude);
htond(net->latitude);
htond(net->altitude);
htonf(net->agl);
htonf(net->phi);
htonf(net->theta);
htonf(net->psi);
htonf(net->alpha);
htonf(net->beta);
htonf(net->phidot);
htonf(net->thetadot);
htonf(net->psidot);
htonf(net->vcas);
htonf(net->climb_rate);
htonf(net->v_north);
htonf(net->v_east);
htonf(net->v_down);
htonf(net->v_wind_body_north);
htonf(net->v_wind_body_east);
htonf(net->v_wind_body_down);
htonf(net->A_X_pilot);
htonf(net->A_Y_pilot);
htonf(net->A_Z_pilot);
htonf(net->stall_warning);
htonf(net->slip_deg);
for (i=0; i<net->num_engines; ++i ) {
net->eng_state[i] = htonl(net->eng_state[i]);
htonf(net->rpm[i]);
htonf(net->fuel_flow[i]);
htonf(net->fuel_px[i]);
htonf(net->egt[i]);
htonf(net->cht[i]);
htonf(net->mp_osi[i]);
htonf(net->tit[i]);
htonf(net->oil_temp[i]);
htonf(net->oil_px[i]);
}
net->num_engines = htonl(net->num_engines);
for (i=0; i<net->num_tanks; ++i ) {
htonf(net->fuel_quantity[i]);
}
net->num_tanks = htonl(net->num_tanks);
for (i=0; i<net->num_wheels; ++i ) {
net->wow[i] = htonl(net->wow[i]);
htonf(net->gear_pos[i]);
htonf(net->gear_steer[i]);
htonf(net->gear_compression[i]);
}
net->num_wheels = htonl(net->num_wheels);
net->cur_time = htonl( net->cur_time );
net->warp = htonl( net->warp );
htonf(net->visibility);
htonf(net->elevator);
htonf(net->elevator_trim_tab);
htonf(net->left_flap);
htonf(net->right_flap);
htonf(net->left_aileron);
htonf(net->right_aileron);
htonf(net->rudder);
htonf(net->nose_wheel);
htonf(net->speedbrake);
htonf(net->spoilers);
}
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
void FGOutput::FlightGearSocketOutput(void)
{
int length = sizeof(fgSockBuf);
if (flightGearSocket == NULL) return;
if (!flightGearSocket->GetConnectStatus()) return;
SocketDataFill(&fgSockBuf);
flightGearSocket->Send((char *)&fgSockBuf, length);
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
void FGOutput::SocketOutput(void)
{
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string asciiData, scratch;
if (socket == NULL) return;
if (!socket->GetConnectStatus()) return;
socket->Clear();
if (sFirstPass) {
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socket->Clear("<LABELS>");
socket->Append("Time");
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if (SubSystems & ssAerosurfaces) {
socket->Append("Aileron Command");
socket->Append("Elevator Command");
socket->Append("Rudder Command");
socket->Append("Flap Command");
socket->Append("Left Aileron Position");
socket->Append("Right Aileron Position");
socket->Append("Elevator Position");
socket->Append("Rudder Position");
socket->Append("Flap Position");
}
if (SubSystems & ssRates) {
socket->Append("P");
socket->Append("Q");
socket->Append("R");
socket->Append("PDot");
socket->Append("QDot");
socket->Append("RDot");
}
if (SubSystems & ssVelocities) {
socket->Append("QBar");
socket->Append("Vtotal");
socket->Append("UBody");
socket->Append("VBody");
socket->Append("WBody");
socket->Append("UAero");
socket->Append("VAero");
socket->Append("WAero");
socket->Append("Vn");
socket->Append("Ve");
socket->Append("Vd");
}
if (SubSystems & ssForces) {
socket->Append("F_Drag");
socket->Append("F_Side");
socket->Append("F_Lift");
socket->Append("LoD");
socket->Append("Fx");
socket->Append("Fy");
socket->Append("Fz");
}
if (SubSystems & ssMoments) {
socket->Append("L");
socket->Append("M");
socket->Append("N");
}
if (SubSystems & ssAtmosphere) {
socket->Append("Rho");
socket->Append("SL pressure");
socket->Append("Ambient pressure");
socket->Append("Turbulence Magnitude");
socket->Append("Turbulence Direction X");
socket->Append("Turbulence Direction Y");
socket->Append("Turbulence Direction Z");
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socket->Append("NWind");
socket->Append("EWind");
socket->Append("DWind");
}
if (SubSystems & ssMassProps) {
socket->Append("Ixx");
socket->Append("Ixy");
socket->Append("Ixz");
socket->Append("Iyx");
socket->Append("Iyy");
socket->Append("Iyz");
socket->Append("Izx");
socket->Append("Izy");
socket->Append("Izz");
socket->Append("Mass");
socket->Append("Xcg");
socket->Append("Ycg");
socket->Append("Zcg");
}
if (SubSystems & ssPropagate) {
socket->Append("Altitude");
socket->Append("Phi (deg)");
socket->Append("Tht (deg)");
socket->Append("Psi (deg)");
socket->Append("Alpha (deg)");
socket->Append("Beta (deg)");
socket->Append("Latitude (deg)");
socket->Append("Longitude (deg)");
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}
if (SubSystems & ssCoefficients) {
scratch = Aerodynamics->GetCoefficientStrings(",");
if (scratch.length() != 0) socket->Append(scratch);
}
if (SubSystems & ssFCS) {
scratch = FCS->GetComponentStrings(",");
if (scratch.length() != 0) socket->Append(scratch);
}
if (SubSystems & ssGroundReactions) {
socket->Append(GroundReactions->GetGroundReactionStrings(","));
}
if (SubSystems & ssPropulsion && Propulsion->GetNumEngines() > 0) {
socket->Append(Propulsion->GetPropulsionStrings(","));
}
if (OutputProperties.size() > 0) {
for (unsigned int i=0;i<OutputProperties.size();i++) {
socket->Append(OutputProperties[i]->GetPrintableName());
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}
}
sFirstPass = false;
socket->Send();
}
socket->Clear();
socket->Append(State->Getsim_time());
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if (SubSystems & ssAerosurfaces) {
socket->Append(FCS->GetDaCmd());
socket->Append(FCS->GetDeCmd());
socket->Append(FCS->GetDrCmd());
socket->Append(FCS->GetDfCmd());
socket->Append(FCS->GetDaLPos());
socket->Append(FCS->GetDaRPos());
socket->Append(FCS->GetDePos());
socket->Append(FCS->GetDrPos());
socket->Append(FCS->GetDfPos());
}
if (SubSystems & ssRates) {
socket->Append(radtodeg*Propagate->GetPQR(eP));
socket->Append(radtodeg*Propagate->GetPQR(eQ));
socket->Append(radtodeg*Propagate->GetPQR(eR));
socket->Append(radtodeg*Propagate->GetPQRdot(eP));
socket->Append(radtodeg*Propagate->GetPQRdot(eQ));
socket->Append(radtodeg*Propagate->GetPQRdot(eR));
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}
if (SubSystems & ssVelocities) {
socket->Append(Auxiliary->Getqbar());
socket->Append(Auxiliary->GetVt());
socket->Append(Propagate->GetUVW(eU));
socket->Append(Propagate->GetUVW(eV));
socket->Append(Propagate->GetUVW(eW));
socket->Append(Auxiliary->GetAeroUVW(eU));
socket->Append(Auxiliary->GetAeroUVW(eV));
socket->Append(Auxiliary->GetAeroUVW(eW));
socket->Append(Propagate->GetVel(eNorth));
socket->Append(Propagate->GetVel(eEast));
socket->Append(Propagate->GetVel(eDown));
}
if (SubSystems & ssForces) {
socket->Append(Aerodynamics->GetvFw()(eDrag));
socket->Append(Aerodynamics->GetvFw()(eSide));
socket->Append(Aerodynamics->GetvFw()(eLift));
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socket->Append(Aerodynamics->GetLoD());
socket->Append(Aircraft->GetForces(eX));
socket->Append(Aircraft->GetForces(eY));
socket->Append(Aircraft->GetForces(eZ));
}
if (SubSystems & ssMoments) {
socket->Append(Aircraft->GetMoments(eL));
socket->Append(Aircraft->GetMoments(eM));
socket->Append(Aircraft->GetMoments(eN));
}
if (SubSystems & ssAtmosphere) {
socket->Append(Atmosphere->GetDensity());
socket->Append(Atmosphere->GetPressureSL());
socket->Append(Atmosphere->GetPressure());
socket->Append(Atmosphere->GetTurbMagnitude());
socket->Append(Atmosphere->GetTurbDirection().Dump(","));
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socket->Append(Atmosphere->GetTotalWindNED().Dump(","));
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}
if (SubSystems & ssMassProps) {
socket->Append(MassBalance->GetJ()(1,1));
socket->Append(MassBalance->GetJ()(1,2));
socket->Append(MassBalance->GetJ()(1,3));
socket->Append(MassBalance->GetJ()(2,1));
socket->Append(MassBalance->GetJ()(2,2));
socket->Append(MassBalance->GetJ()(2,3));
socket->Append(MassBalance->GetJ()(3,1));
socket->Append(MassBalance->GetJ()(3,2));
socket->Append(MassBalance->GetJ()(3,3));
socket->Append(MassBalance->GetMass());
socket->Append(MassBalance->GetXYZcg()(eX));
socket->Append(MassBalance->GetXYZcg()(eY));
socket->Append(MassBalance->GetXYZcg()(eZ));
}
if (SubSystems & ssPropagate) {
socket->Append(Propagate->Geth());
socket->Append(radtodeg*Propagate->GetEuler(ePhi));
socket->Append(radtodeg*Propagate->GetEuler(eTht));
socket->Append(radtodeg*Propagate->GetEuler(ePsi));
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socket->Append(Auxiliary->Getalpha(inDegrees));
socket->Append(Auxiliary->Getbeta(inDegrees));
socket->Append(Propagate->GetLocation().GetLatitudeDeg());
socket->Append(Propagate->GetLocation().GetLongitudeDeg());
}
if (SubSystems & ssCoefficients) {
scratch = Aerodynamics->GetCoefficientValues(",");
if (scratch.length() != 0) socket->Append(scratch);
}
if (SubSystems & ssFCS) {
scratch = FCS->GetComponentValues(",");
if (scratch.length() != 0) socket->Append(scratch);
}
if (SubSystems & ssGroundReactions) {
socket->Append(GroundReactions->GetGroundReactionValues(","));
}
if (SubSystems & ssPropulsion && Propulsion->GetNumEngines() > 0) {
socket->Append(Propulsion->GetPropulsionValues(","));
}
for (unsigned int i=0;i<OutputProperties.size();i++) {
socket->Append(OutputProperties[i]->getDoubleValue());
}
socket->Send();
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
void FGOutput::SocketStatusOutput(string out_str)
{
string asciiData;
if (socket == NULL) return;
socket->Clear();
asciiData = string("<STATUS>") + out_str;
socket->Append(asciiData.c_str());
socket->Send();
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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bool FGOutput::Load(Element* element)
{
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string type="", parameter="";
string name="";
string protocol="tcp";
int OutRate = 0;
string property;
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unsigned int port;
Element *property_element;
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string separator = "/";
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if (!DirectivesFile.empty()) { // A directives filename from the command line overrides
output_file_name = DirectivesFile; // one found in the config file.
document = LoadXMLDocument(output_file_name);
} else if (!element->GetAttributeValue("file").empty()) {
output_file_name = element->GetAttributeValue("file");
document = LoadXMLDocument(output_file_name);
} else {
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document = element;
}
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name = document->GetAttributeValue("name");
type = document->GetAttributeValue("type");
SetType(type);
if (!document->GetAttributeValue("port").empty() && type == string("SOCKET")) {
port = atoi(document->GetAttributeValue("port").c_str());
socket = new FGfdmSocket(name, port);
} else if (!document->GetAttributeValue("port").empty() && type == string("FLIGHTGEAR")) {
port = atoi(document->GetAttributeValue("port").c_str());
if (!document->GetAttributeValue("protocol").empty())
protocol = document->GetAttributeValue("protocol");
if (protocol == "udp")
flightGearSocket = new FGfdmSocket(name, port, FGfdmSocket::ptUDP); // create udp socket
else
flightGearSocket = new FGfdmSocket(name, port, FGfdmSocket::ptTCP); // create tcp socket (default)
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} else {
BaseFilename = Filename = name;
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}
if (!document->GetAttributeValue("rate").empty()) {
OutRate = (int)document->GetAttributeValueAsNumber("rate");
} else {
OutRate = 1;
}
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if (document->FindElementValue("simulation") == string("ON"))
SubSystems += ssSimulation;
if (document->FindElementValue("aerosurfaces") == string("ON"))
SubSystems += ssAerosurfaces;
if (document->FindElementValue("rates") == string("ON"))
SubSystems += ssRates;
if (document->FindElementValue("velocities") == string("ON"))
SubSystems += ssVelocities;
if (document->FindElementValue("forces") == string("ON"))
SubSystems += ssForces;
if (document->FindElementValue("moments") == string("ON"))
SubSystems += ssMoments;
if (document->FindElementValue("atmosphere") == string("ON"))
SubSystems += ssAtmosphere;
if (document->FindElementValue("massprops") == string("ON"))
SubSystems += ssMassProps;
if (document->FindElementValue("position") == string("ON"))
SubSystems += ssPropagate;
if (document->FindElementValue("coefficients") == string("ON"))
SubSystems += ssCoefficients;
if (document->FindElementValue("ground_reactions") == string("ON"))
SubSystems += ssGroundReactions;
if (document->FindElementValue("fcs") == string("ON"))
SubSystems += ssFCS;
if (document->FindElementValue("propulsion") == string("ON"))
SubSystems += ssPropulsion;
property_element = document->FindElement("property");
while (property_element) {
string property_str = property_element->GetDataLine();
FGPropertyManager* node = PropertyManager->GetNode(property_str);
if (!node) {
cerr << fgred << highint << endl << " No property by the name "
<< property_str << " has been defined. This property will " << endl
<< " not be logged. You should check your configuration file."
<< reset << endl;
} else {
OutputProperties.push_back(node);
}
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property_element = document->FindNextElement("property");
}
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OutRate = OutRate>1000?1000:(OutRate<0?0:OutRate);
rate = (int)(0.5 + 1.0/(State->Getdt()*OutRate));
Debug(2);
return true;
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
// The bitmasked value choices are as follows:
// unset: In this case (the default) JSBSim would only print
// out the normally expected messages, essentially echoing
// the config files as they are read. If the environment
// variable is not set, debug_lvl is set to 1 internally
// 0: This requests JSBSim not to output any messages
// whatsoever.
// 1: This value explicity requests the normal JSBSim
// startup messages
// 2: This value asks for a message to be printed out when
// a class is instantiated
// 4: When this value is set, a message is displayed when a
// FGModel object executes its Run() method
// 8: When this value is set, various runtime state variables
// are printed out periodically
// 16: When set various parameters are sanity checked and
// a message is printed out when they go out of bounds
void FGOutput::Debug(int from)
{
string scratch="";
if (debug_lvl <= 0) return;
if (debug_lvl & 1) { // Standard console startup message output
if (from == 0) { // Constructor
}
if (from == 2) {
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if (output_file_name.empty())
cout << " " << "Output parameters read inline" << endl;
else
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cout << " Output parameters read from file: " << output_file_name << endl;
if (Filename == "cout" || Filename == "COUT") {
scratch = " Log output goes to screen console";
} else if (!Filename.empty()) {
scratch = " Log output goes to file: " + Filename;
}
switch (Type) {
case otCSV:
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cout << scratch << " in CSV format output at rate " << 1/(State->Getdt()*rate) << " Hz" << endl;
break;
case otNone:
cout << " No log output" << endl;
break;
}
if (SubSystems & ssSimulation) cout << " Simulation parameters logged" << endl;
if (SubSystems & ssAerosurfaces) cout << " Aerosurface parameters logged" << endl;
if (SubSystems & ssRates) cout << " Rate parameters logged" << endl;
if (SubSystems & ssVelocities) cout << " Velocity parameters logged" << endl;
if (SubSystems & ssForces) cout << " Force parameters logged" << endl;
if (SubSystems & ssMoments) cout << " Moments parameters logged" << endl;
if (SubSystems & ssAtmosphere) cout << " Atmosphere parameters logged" << endl;
if (SubSystems & ssMassProps) cout << " Mass parameters logged" << endl;
if (SubSystems & ssCoefficients) cout << " Coefficient parameters logged" << endl;
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if (SubSystems & ssPropagate) cout << " Propagate parameters logged" << endl;
if (SubSystems & ssGroundReactions) cout << " Ground parameters logged" << endl;
if (SubSystems & ssFCS) cout << " FCS parameters logged" << endl;
if (SubSystems & ssPropulsion) cout << " Propulsion parameters logged" << endl;
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if (OutputProperties.size() > 0) cout << " Properties logged:" << endl;
for (unsigned int i=0;i<OutputProperties.size();i++) {
cout << " - " << OutputProperties[i]->GetName() << endl;
}
}
}
if (debug_lvl & 2 ) { // Instantiation/Destruction notification
if (from == 0) cout << "Instantiated: FGOutput" << endl;
if (from == 1) cout << "Destroyed: FGOutput" << endl;
}
if (debug_lvl & 4 ) { // Run() method entry print for FGModel-derived objects
}
if (debug_lvl & 8 ) { // Runtime state variables
}
if (debug_lvl & 16) { // Sanity checking
}
if (debug_lvl & 64) {
if (from == 0) { // Constructor
cout << IdSrc << endl;
cout << IdHdr << endl;
}
}
}
}