Purpose: Manage output of sim parameters to file or stdout
Called by: FGSimExec
- ------------- Copyright (C) 1999 Jon S. Berndt (jsb@hal-pc.org) -------------
+ ------------- Copyright (C) 1999 Jon S. Berndt (jon@jsbsim.org) -------------
This program is free software; you can redistribute it and/or modify it under
the terms of the GNU Lesser General Public License as published by the Free Software
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/
#include "FGOutput.h"
-#include "FGState.h"
#include "FGFDMExec.h"
#include "FGAtmosphere.h"
#include "FGFCS.h"
#include "FGPropagate.h"
#include "FGAuxiliary.h"
#include "FGInertial.h"
-#include "FGPropulsion.h" //access to FGEngine, FGTank
+#include "FGPropulsion.h"
+#include "models/propulsion/FGEngine.h"
+#include "models/propulsion/FGTank.h"
#include "models/propulsion/FGPiston.h"
-#include <fstream>
+#include <sstream>
#include <iomanip>
#include <cstring>
+#include <cstdlib>
#include "input_output/net_fdm.hxx"
+#include "input_output/FGfdmSocket.h"
#if defined(WIN32) && !defined(__CYGWIN__)
# include <windows.h>
static const int endianTest = 1;
#define isLittleEndian (*((char *) &endianTest ) != 0)
+using namespace std;
+
namespace JSBSim {
-static const char *IdSrc = "$Id$";
+static const char *IdSrc = "$Id: FGOutput.cpp,v 1.48 2010/04/12 12:25:19 jberndt Exp $";
static const char *IdHdr = ID_OUTPUT;
// (stolen from FGFS native_fdm.cxx)
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();
+ ostringstream buf;
+ string::size_type dot = BaseFilename.find_last_of('.');
+ if (dot != string::npos) {
+ buf << BaseFilename.substr(0, dot) << '_' << runID_postfix++ << BaseFilename.substr(dot);
+ } else {
+ buf << BaseFilename << '_' << runID_postfix++;
}
- sprintf(fname, "%s_%d%s", BaseFilename.substr(0,len).c_str(), runID_postfix++, extension.c_str());
- Filename = string(fname);
+ Filename = buf.str();
datafile.close();
StartNewFile = false;
dFirstPass = true;
{
if (FGModel::Run()) return true;
- if (enabled && !State->IntegrationSuspended()&& !FDMExec->Holding()) {
+ if (enabled && !FDMExec->IntegrationSuspended()&& !FDMExec->Holding()) {
+ RunPreFunctions();
if (Type == otSocket) {
SocketOutput();
} else if (Type == otFlightGear) {
} else {
// Not a valid type of output
}
+ RunPostFunctions();
}
return false;
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-void FGOutput::SetType(string type)
+void FGOutput::SetType(const string& type)
{
if (type == "CSV") {
Type = otCSV;
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-void FGOutput::DelimitedOutput(string fname)
+void FGOutput::DelimitedOutput(const string& fname)
{
streambuf* buffer;
string scratch = "";
if (SubSystems & ssRates) {
outstream << delimeter;
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)";
+ outstream << "P dot (deg/s^2)" + delimeter + "Q dot (deg/s^2)" + delimeter + "R dot (deg/s^2)" + delimeter;
+ outstream << "P_{inertial} (deg/s)" + delimeter + "Q_{inertial} (deg/s)" + delimeter + "R_{inertial} (deg/s)";
}
if (SubSystems & ssVelocities) {
outstream << delimeter;
outstream << "V_{Inertial} (ft/s)" + delimeter;
outstream << "UBody" + delimeter + "VBody" + delimeter + "WBody" + delimeter;
outstream << "Aero V_{X Body} (ft/s)" + delimeter + "Aero V_{Y Body} (ft/s)" + delimeter + "Aero V_{Z Body} (ft/s)" + delimeter;
+ outstream << "V_{X_{inertial}} (ft/s)" + delimeter + "V_{Y_{inertial}} (ft/s)" + delimeter + "V_{Z_{inertial}} (ft/s)" + delimeter;
outstream << "V_{North} (ft/s)" + delimeter + "V_{East} (ft/s)" + delimeter + "V_{Down} (ft/s)";
}
if (SubSystems & ssForces) {
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;
+ outstream << "X_{ECI} (ft)" + delimeter + "Y_{ECI} (ft)" + delimeter + "Z_{ECI} (ft)" + delimeter;
+ outstream << "X_{ECEF} (ft)" + delimeter + "Y_{ECEF} (ft)" + delimeter + "Z_{ECEF} (ft)" + delimeter;
+ outstream << "Earth Position Angle (deg)" + delimeter;
outstream << "Distance AGL (ft)" + delimeter;
- outstream << "Terrain Radius (ft)";
+ outstream << "Terrain Elevation (ft)";
}
if (SubSystems & ssCoefficients) {
scratch = Aerodynamics->GetCoefficientStrings(delimeter);
dFirstPass = false;
}
- outstream << State->Getsim_time();
+ outstream << FDMExec->GetSimTime();
if (SubSystems & ssSimulation) {
}
if (SubSystems & ssAerosurfaces) {
if (SubSystems & ssRates) {
outstream << delimeter;
outstream << (radtodeg*Propagate->GetPQR()).Dump(delimeter) << delimeter;
- outstream << (radtodeg*Propagate->GetPQRdot()).Dump(delimeter);
+ outstream << (radtodeg*Propagate->GetPQRdot()).Dump(delimeter) << delimeter;
+ outstream << (radtodeg*Propagate->GetPQRi()).Dump(delimeter);
}
if (SubSystems & ssVelocities) {
outstream << delimeter;
outstream << Propagate->GetInertialVelocityMagnitude() << delimeter;
outstream << setprecision(12) << Propagate->GetUVW().Dump(delimeter) << delimeter;
outstream << Auxiliary->GetAeroUVW().Dump(delimeter) << delimeter;
+ outstream << Propagate->GetInertialVelocity().Dump(delimeter) << delimeter;
outstream << Propagate->GetVel().Dump(delimeter);
outstream.precision(10);
}
if (SubSystems & ssForces) {
outstream << delimeter;
- outstream << Aerodynamics->GetvFw() << delimeter;
+ outstream << Aerodynamics->GetvFw().Dump(delimeter) << delimeter;
outstream << Aerodynamics->GetLoD() << delimeter;
- outstream << Aerodynamics->GetForces() << delimeter;
- outstream << Propulsion->GetForces() << delimeter;
- outstream << GroundReactions->GetForces() << delimeter;
- outstream << ExternalReactions->GetForces() << delimeter;
- outstream << BuoyantForces->GetForces() << delimeter;
+ outstream << Aerodynamics->GetForces().Dump(delimeter) << delimeter;
+ outstream << Propulsion->GetForces().Dump(delimeter) << delimeter;
+ outstream << GroundReactions->GetForces().Dump(delimeter) << delimeter;
+ outstream << ExternalReactions->GetForces().Dump(delimeter) << delimeter;
+ outstream << BuoyantForces->GetForces().Dump(delimeter) << delimeter;
outstream << Aircraft->GetForces().Dump(delimeter);
}
if (SubSystems & ssMoments) {
outstream << delimeter;
- outstream << Aerodynamics->GetMoments() << delimeter;
- outstream << Propulsion->GetMoments() << delimeter;
- outstream << GroundReactions->GetMoments() << delimeter;
- outstream << ExternalReactions->GetMoments() << delimeter;
- outstream << BuoyantForces->GetMoments() << delimeter;
+ outstream << Aerodynamics->GetMoments().Dump(delimeter) << delimeter;
+ outstream << Propulsion->GetMoments().Dump(delimeter) << delimeter;
+ outstream << GroundReactions->GetMoments().Dump(delimeter) << delimeter;
+ outstream << ExternalReactions->GetMoments().Dump(delimeter) << delimeter;
+ outstream << BuoyantForces->GetMoments().Dump(delimeter) << delimeter;
outstream << Aircraft->GetMoments().Dump(delimeter);
}
if (SubSystems & ssAtmosphere) {
}
if (SubSystems & ssMassProps) {
outstream << delimeter;
- outstream << MassBalance->GetJ() << delimeter;
+ outstream << MassBalance->GetJ().Dump(delimeter) << delimeter;
outstream << MassBalance->GetMass() << delimeter;
- outstream << MassBalance->GetXYZcg();
+ outstream << MassBalance->GetXYZcg().Dump(delimeter);
}
if (SubSystems & ssPropagate) {
outstream.precision(14);
outstream << Propagate->GetLocation().GetLatitudeDeg() << delimeter;
outstream << Propagate->GetLocation().GetLongitudeDeg() << delimeter;
outstream.precision(18);
+ outstream << ((FGColumnVector3)Propagate->GetInertialPosition()).Dump(delimeter) << delimeter;
outstream << ((FGColumnVector3)Propagate->GetLocation()).Dump(delimeter) << delimeter;
outstream.precision(14);
outstream << Inertial->GetEarthPositionAngleDeg() << delimeter;
outstream << Propagate->GetDistanceAGL() << delimeter;
- outstream << Propagate->GetLocalTerrainRadius();
+ outstream << Propagate->GetTerrainElevation();
outstream.precision(10);
}
if (SubSystems & ssCoefficients) {
}
socket->Clear();
- socket->Append(State->Getsim_time());
+ socket->Append(FDMExec->GetSimTime());
if (SubSystems & ssAerosurfaces) {
socket->Append(FCS->GetDaCmd());
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-void FGOutput::SocketStatusOutput(string out_str)
+void FGOutput::SocketStatusOutput(const string& out_str)
{
string asciiData;
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");
+ output_file_name = FDMExec->GetRootDir() + element->GetAttributeValue("file");
document = LoadXMLDocument(output_file_name);
} else {
document = element;
}
- name = document->GetAttributeValue("name");
+ if (!document) return false;
+
+ name = FDMExec->GetRootDir() + document->GetAttributeValue("name");
type = document->GetAttributeValue("type");
SetType(type);
if (!document->GetAttributeValue("port").empty() && type == string("SOCKET")) {
{
rtHz = rtHz>1000?1000:(rtHz<0?0:rtHz);
if (rtHz > 0) {
- rate = (int)(0.5 + 1.0/(State->Getdt()*rtHz));
+ rate = (int)(0.5 + 1.0/(FDMExec->GetDeltaT()*rtHz));
Enable();
} else {
rate = 1;
}
switch (Type) {
case otCSV:
- cout << scratch << " in CSV format output at rate " << 1/(State->Getdt()*rate) << " Hz" << endl;
+ cout << scratch << " in CSV format output at rate " << 1/(FDMExec->GetDeltaT()*rate) << " Hz" << endl;
break;
case otNone:
+ default:
cout << " No log output" << endl;
break;
}