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Sync. w. JSBSim CVS

This commit is contained in:
ehofman 2004-12-16 12:47:20 +00:00
parent 33a52bdca2
commit c09d1c92ca
41 changed files with 510 additions and 554 deletions

View file

@ -220,7 +220,7 @@ bool FGAerodynamics::Load(FGConfigFile* AC_cfg)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGAerodynamics::GetCoefficientStrings(void)
string FGAerodynamics::GetCoefficientStrings(string delimeter)
{
string CoeffStrings = "";
bool firstime = true;
@ -231,7 +231,7 @@ string FGAerodynamics::GetCoefficientStrings(void)
if (firstime) {
firstime = false;
} else {
CoeffStrings += ", ";
CoeffStrings += delimeter;
}
CoeffStrings += Coeff[axis][sd]->GetCoefficientName();
}
@ -241,7 +241,7 @@ string FGAerodynamics::GetCoefficientStrings(void)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGAerodynamics::GetCoefficientValues(void)
string FGAerodynamics::GetCoefficientValues(string delimeter)
{
string SDValues = "";
bool firstime = true;
@ -251,7 +251,7 @@ string FGAerodynamics::GetCoefficientValues(void)
if (firstime) {
firstime = false;
} else {
SDValues += ", ";
SDValues += delimeter;
}
SDValues += Coeff[axis][sd]->GetSDstring();
}

View file

@ -156,13 +156,15 @@ public:
inline void SetAlphaCLMin(double tt) { alphaclmin=tt; }
/** Gets the strings for the current set of coefficients.
@param delimeter either a tab or comma string depending on output type
@return a string containing the descriptive names for all coefficients */
string GetCoefficientStrings(void);
string GetCoefficientStrings(string delimeter);
/** Gets the coefficient values.
@param delimeter either a tab or comma string depending on output type
@return a string containing the numeric values for the current set of
coefficients */
string GetCoefficientValues(void);
string GetCoefficientValues(string delimeter);
void bind(void);
void bindModel(void);

View file

@ -168,9 +168,10 @@ bool FGCoefficient::Load(FGConfigFile *AC_cfg)
end = multparms.length();
n = multparms.find("|");
if (n == string::npos) n = end;
start = 0;
if (multparms != string("none")) {
while (n < end && n >= 0) {
while (n < end && n != string::npos) {
n -= start;
mult = multparms.substr(start,n);
multipliers.push_back( resolveSymbol( mult ) );

View file

@ -19,6 +19,7 @@ INCLUDES
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/
#include "FGColumnVector3.h"
#include <cstdio>
namespace JSBSim {
@ -37,6 +38,15 @@ FGColumnVector3::FGColumnVector3(void)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGColumnVector3::Dump(string delimeter) const
{
char buffer[256];
sprintf(buffer, "%f%s%f%s%f", Entry(1), delimeter.c_str(), Entry(2), delimeter.c_str(), Entry(3));
return string(buffer);
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
FGColumnVector3 FGColumnVector3::operator/(const double scalar) const
{
if (scalar != 0.0)

View file

@ -89,19 +89,14 @@ class FGColumnVector3 : public FGJSBBase
{
public:
/** Default initializer.
Create a zero vector.
*/
Create a zero vector. */
FGColumnVector3(void);
/** Initialization by given values.
@param X value of the x-conponent.
@param Y value of the y-conponent.
@param Z value of the z-conponent.
Create a vector from the doubles given in the arguments.
*/
Create a vector from the doubles given in the arguments. */
FGColumnVector3(double X, double Y, double Z) {
data[0] = X;
data[1] = Y;
@ -110,11 +105,8 @@ public:
}
/** Copy constructor.
@param v Vector which is used for initialization.
Create copy of the vector given in the argument.
*/
Create copy of the vector given in the argument. */
FGColumnVector3(const FGColumnVector3& v) {
data[0] = v.data[0];
data[1] = v.data[1];
@ -122,69 +114,51 @@ public:
Debug(0);
}
/** Destructor.
*/
/// Destructor.
~FGColumnVector3(void) { Debug(1); }
/** Read access the entries of the vector.
@param idx the component index.
Return the value of the matrix entry at the given index.
Indices are counted starting with 1.
Note that the index given in the argument is unchecked.
*/
Note that the index given in the argument is unchecked. */
double operator()(unsigned int idx) const { return Entry(idx); }
/** Write access the entries of the vector.
@param idx the component index.
Return a reference to the vector entry at the given index.
Indices are counted starting with 1.
Note that the index given in the argument is unchecked.
*/
Note that the index given in the argument is unchecked. */
double& operator()(unsigned int idx) { return Entry(idx); }
/** Read access the entries of the vector.
@param idx the component index.
Return the value of the matrix entry at the given index.
Indices are counted starting with 1.
This function is just a shortcut for the @ref double
operator()(unsigned int idx) const function. It is
used internally to access the elements in a more convenient way.
Note that the index given in the argument is unchecked.
*/
Note that the index given in the argument is unchecked. */
double Entry(unsigned int idx) const { return data[idx-1]; }
/** Write access the entries of the vector.
@param idx the component index.
Return a reference to the vector entry at the given index.
Indices are counted starting with 1.
This function is just a shortcut for the @ref double&
operator()(unsigned int idx) function. It is
used internally to access the elements in a more convenient way.
Note that the index given in the argument is unchecked.
*/
Note that the index given in the argument is unchecked. */
double& Entry(unsigned int idx) { return data[idx-1]; }
/** Prints the contents of the vector
@param delimeter the item separator (tab or comma)
@return a string with the delimeter-separated contents of the vector */
string Dump(string delimeter) const;
/** Assignment operator.
@param b source vector.
Copy the content of the vector given in the argument into *this.
*/
Copy the content of the vector given in the argument into *this. */
FGColumnVector3& operator=(const FGColumnVector3& b) {
data[0] = b.data[0];
data[1] = b.data[1];
@ -193,71 +167,53 @@ public:
}
/** Comparison operator.
@param b other vector.
Returns true if both vectors are exactly the same.
*/
Returns true if both vectors are exactly the same. */
bool operator==(const FGColumnVector3& b) const {
return data[0] == b.data[0] && data[1] == b.data[1] && data[2] == b.data[2];
}
/** Comparison operator.
@param b other vector.
Returns false if both vectors are exactly the same.
*/
Returns false if both vectors are exactly the same. */
bool operator!=(const FGColumnVector3& b) const { return ! operator==(b); }
/** Multiplication by a scalar.
@param scalar scalar value to multiply the vector with.
@return The resulting vector from the multiplication with that scalar.
Multiply the vector with the scalar given in the argument.
*/
Multiply the vector with the scalar given in the argument. */
FGColumnVector3 operator*(const double scalar) const {
return FGColumnVector3(scalar*Entry(1), scalar*Entry(2), scalar*Entry(3));
}
/** Multiply by 1/scalar.
@param scalar scalar value to devide the vector through.
@return The resulting vector from the division through that scalar.
Multiply the vector with the 1/scalar given in the argument.
*/
Multiply the vector with the 1/scalar given in the argument. */
FGColumnVector3 operator/(const double scalar) const;
/** Cross product multiplication.
@param v vector to multiply with.
@return The resulting vector from the cross product multiplication.
Compute and return the cross product of the current vector with
the given argument.
*/
the given argument. */
FGColumnVector3 operator*(const FGColumnVector3& V) const {
return FGColumnVector3( Entry(2) * V(3) - Entry(3) * V(2),
Entry(3) * V(1) - Entry(1) * V(3),
Entry(1) * V(2) - Entry(2) * V(1) );
}
/** Addition operator.
*/
/// Addition operator.
FGColumnVector3 operator+(const FGColumnVector3& B) const {
return FGColumnVector3( Entry(1) + B(1), Entry(2) + B(2), Entry(3) + B(3) );
}
/** Subtraction operator.
*/
/// Subtraction operator.
FGColumnVector3 operator-(const FGColumnVector3& B) const {
return FGColumnVector3( Entry(1) - B(1), Entry(2) - B(2), Entry(3) - B(3) );
}
/** Subtract an other vector.
*/
/// Subtract an other vector.
FGColumnVector3& operator-=(const FGColumnVector3 &B) {
Entry(1) -= B(1);
Entry(2) -= B(2);
@ -265,8 +221,7 @@ public:
return *this;
}
/** Add an other vector.
*/
/// Add an other vector.
FGColumnVector3& operator+=(const FGColumnVector3 &B) {
Entry(1) += B(1);
Entry(2) += B(2);
@ -274,8 +229,7 @@ public:
return *this;
}
/** Scale by a scalar.
*/
/// Scale by a scalar.
FGColumnVector3& operator*=(const double scalar) {
Entry(1) *= scalar;
Entry(2) *= scalar;
@ -283,8 +237,7 @@ public:
return *this;
}
/** Scale by a 1/scalar.
*/
/// Scale by a 1/scalar.
FGColumnVector3& operator/=(const double scalar);
void InitMatrix(void) { data[0] = data[1] = data[2] = 0.0; }
@ -294,25 +247,19 @@ public:
}
/** Length of the vector.
Compute and return the euclidean norm of this vector.
*/
Compute and return the euclidean norm of this vector. */
double Magnitude(void) const;
/** Length of the vector in a coordinate axis plane.
Compute and return the euclidean norm of this vector projected into
the coordinate axis plane idx1-idx2.
*/
the coordinate axis plane idx1-idx2. */
double Magnitude(int idx1, int idx2) const {
return sqrt( Entry(idx1)*Entry(idx1) + Entry(idx2)*Entry(idx2) );
}
/** Normalize.
Normalize the vector to have the Magnitude() == 1.0. If the vector
is equal to zero it is left untouched.
*/
is equal to zero it is left untouched. */
FGColumnVector3& Normalize(void);
// ??? Is this something sensible ??
@ -340,24 +287,18 @@ private:
};
/** Scalar multiplication.
@param scalar scalar value to multiply with.
@param A Vector to multiply.
Multiply the Vector with a scalar value.
*/
Multiply the Vector with a scalar value.*/
inline FGColumnVector3 operator*(double scalar, const FGColumnVector3& A) {
// use already defined operation.
return A*scalar;
}
/** Write vector to a stream.
@param os Stream to write to.
@param M Matrix to write.
Write the matrix to a stream.
*/
Write the matrix to a stream.*/
ostream& operator<<(ostream& os, const FGColumnVector3& col);
} // namespace JSBSim

View file

@ -214,7 +214,7 @@ string FGConfigFile::GetLine(void)
}
} else {
if ((test = cfgfile.get()) != EOF) { // get *next* character
#if defined ( sgi ) && !defined( __GNUC__ ) && (_COMPILER_VERSION < 740)
#if defined ( sgi ) && !defined( __GNUC__ ) && (_COMPILER_VERSION < 740) || defined (_MSC_VER)
if (test >= 0x20 || test == 0x09) cfgfile.putback(test);
#else
if (test >= 0x20 || test == 0x09) cfgfile.unget();

View file

@ -91,19 +91,19 @@ double FGElectric::Calculate(void)
PowerAvailable = (HP * hptoftlbssec) - Thruster->GetPowerRequired();
return Thruster->Calculate(PowerAvailable);
return Thrust = Thruster->Calculate(PowerAvailable);
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGElectric::GetEngineLabels(void)
string FGElectric::GetEngineLabels(string delimeter)
{
return ""; // currently no labels are returned for this engine
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGElectric::GetEngineValues(void)
string FGElectric::GetEngineValues(string delimeter)
{
return ""; // currently no values are returned for this engine
}

View file

@ -82,8 +82,8 @@ public:
double GetPowerAvailable(void) {return PowerAvailable;}
double CalcFuelNeed(void);
double getRPM(void) {return RPM;}
string GetEngineLabels(void);
string GetEngineValues(void);
string GetEngineLabels(string delimeter);
string GetEngineValues(string delimeter);
private:

View file

@ -87,6 +87,7 @@ FGEngine::FGEngine(FGFDMExec* exec, int engine_number) : EngineNumber(engine_num
TrimMode = false;
FuelFlow_gph = 0.0;
FuelFlow_pph = 0.0;
FuelFreeze = false;
FDMExec = exec;
State = FDMExec->GetState();
@ -100,6 +101,10 @@ FGEngine::FGEngine(FGFDMExec* exec, int engine_number) : EngineNumber(engine_num
PropertyManager = FDMExec->GetPropertyManager();
char property_name[80];
snprintf(property_name, 80, "propulsion/engine[%u]/thrust", EngineNumber);
PropertyManager->Tie( property_name, &Thrust);
Debug(0);
}
@ -107,8 +112,11 @@ FGEngine::FGEngine(FGFDMExec* exec, int engine_number) : EngineNumber(engine_num
FGEngine::~FGEngine()
{
if (Thruster)
delete Thruster;
if (Thruster) delete Thruster;
char property_name[80];
snprintf(property_name, 80, "propulsion/engine[%u]/thrust", EngineNumber);
PropertyManager->Untie( property_name);
Debug(1);
}
@ -121,6 +129,8 @@ FGEngine::~FGEngine()
void FGEngine::ConsumeFuel(void)
{
if (FuelFreeze) return;
unsigned int i;
double Fshortage, Oshortage, TanksWithFuel;
FGTank* Tank;
@ -128,7 +138,7 @@ void FGEngine::ConsumeFuel(void)
Fshortage = Oshortage = TanksWithFuel = 0.0;
// count how many assigned tanks have fuel
for (unsigned int i=0; i<SourceTanks.size(); i++) {
for (i=0; i<SourceTanks.size(); i++) {
Tank = Propulsion->GetTank(SourceTanks[i]);
if (Tank->GetContents() > 0.0) {
++TanksWithFuel;
@ -136,7 +146,7 @@ void FGEngine::ConsumeFuel(void)
}
if (!TanksWithFuel) return;
for (unsigned int i=0; i<SourceTanks.size(); i++) {
for (i=0; i<SourceTanks.size(); i++) {
Tank = Propulsion->GetTank(SourceTanks[i]);
if (Tank->GetType() == FGTank::ttFUEL) {
Fshortage += Tank->Drain(CalcFuelNeed()/TanksWithFuel);

View file

@ -135,6 +135,7 @@ public:
virtual void SetRunning(bool bb) { Running=bb; }
virtual void SetName(string name) { Name = name; }
virtual void AddFeedTank(int tkID);
virtual void SetFuelFreeze(bool f) { FuelFreeze = f; }
virtual void SetStarter(bool s) { Starter = s; }
@ -175,8 +176,8 @@ public:
bool LoadThruster(FGConfigFile* AC_cfg);
FGThruster* GetThruster(void) {return Thruster;}
virtual string GetEngineLabels(void) = 0;
virtual string GetEngineValues(void) = 0;
virtual string GetEngineLabels(string delimeter) = 0;
virtual string GetEngineValues(string delimeter) = 0;
protected:
FGPropertyManager* PropertyManager;
@ -202,6 +203,7 @@ protected:
bool Running;
bool Cranking;
bool TrimMode;
bool FuelFreeze;
double FuelFlow_gph;
double FuelFlow_pph;

View file

@ -420,7 +420,7 @@ double FGFCS::GetBrake(FGLGear::BrakeGroup bg)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGFCS::GetComponentStrings(void)
string FGFCS::GetComponentStrings(string delimeter)
{
unsigned int comp;
string CompStrings = "";
@ -428,14 +428,14 @@ string FGFCS::GetComponentStrings(void)
for (comp = 0; comp < FCSComponents.size(); comp++) {
if (firstime) firstime = false;
else CompStrings += ", ";
else CompStrings += delimeter;
CompStrings += FCSComponents[comp]->GetName();
}
for (comp = 0; comp < APComponents.size(); comp++)
{
CompStrings += ", ";
CompStrings += delimeter;
CompStrings += APComponents[comp]->GetName();
}
@ -444,7 +444,7 @@ string FGFCS::GetComponentStrings(void)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGFCS::GetComponentValues(void)
string FGFCS::GetComponentValues(string delimeter)
{
unsigned int comp;
string CompValues = "";
@ -453,14 +453,14 @@ string FGFCS::GetComponentValues(void)
for (comp = 0; comp < FCSComponents.size(); comp++) {
if (firstime) firstime = false;
else CompValues += ", ";
else CompValues += delimeter;
sprintf(buffer, "%9.6f", FCSComponents[comp]->GetOutput());
CompValues += string(buffer);
}
for (comp = 0; comp < APComponents.size(); comp++) {
sprintf(buffer, ", %9.6f", APComponents[comp]->GetOutput());
sprintf(buffer, "%s%9.6f", delimeter.c_str(), APComponents[comp]->GetOutput());
CompValues += string(buffer);
}

View file

@ -425,11 +425,16 @@ public:
@return pointer to the State object */
inline FGState* GetState(void) { return State; }
/** Retrieves all component names for inclusion in output stream */
string GetComponentStrings(void);
/** Retrieves all component names for inclusion in output stream
@param delimeter either a tab or comma string depending on output type
@return a string containing the descriptive names for all components */
string GetComponentStrings(string delimeter);
/** Retrieves all component outputs for inclusion in output stream */
string GetComponentValues(void);
/** Retrieves all component outputs for inclusion in output stream
@param delimeter either a tab or comma string depending on output type
@return a string containing the numeric values for the current set of
component outputs */
string GetComponentValues(string delimeter);
/// @name Pilot input command setting
//@{

View file

@ -120,30 +120,30 @@ bool FGGroundReactions::Load(FGConfigFile* AC_cfg)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGGroundReactions::GetGroundReactionStrings(void)
string FGGroundReactions::GetGroundReactionStrings(string delimeter)
{
std::ostringstream buf;
for (unsigned int i=0;i<lGear.size();i++) {
string name = lGear[i].GetName();
buf << name << "_WOW, "
<< name << "_stroke, "
<< name << "_strokeVel, "
<< name << "_CompressForce, "
<< name << "_WhlSideForce, "
<< name << "_WhlVelVecX, "
<< name << "_WhlVelVecY, "
<< name << "_WhlRollForce, "
<< name << "_BodyXForce, "
<< name << "_BodyYForce, "
<< name << "_WhlSlipDegrees, ";
buf << name << "_WOW" << delimeter
<< name << "_stroke" << delimeter
<< name << "_strokeVel" << delimeter
<< name << "_CompressForce" << delimeter
<< name << "_WhlSideForce" << delimeter
<< name << "_WhlVelVecX" << delimeter
<< name << "_WhlVelVecY" << delimeter
<< name << "_WhlRollForce" << delimeter
<< name << "_BodyXForce" << delimeter
<< name << "_BodyYForce" << delimeter
<< name << "_WhlSlipDegrees" << delimeter;
}
buf << "TotalGearForce_X, "
<< "TotalGearForce_Y, "
<< "TotalGearForce_Z, "
<< "TotalGearMoment_L, "
<< "TotalGearMoment_M, "
buf << "TotalGearForce_X" << delimeter
<< "TotalGearForce_Y" << delimeter
<< "TotalGearForce_Z" << delimeter
<< "TotalGearMoment_L" << delimeter
<< "TotalGearMoment_M" << delimeter
<< "TotalGearMoment_N";
return buf.str();
@ -151,30 +151,30 @@ string FGGroundReactions::GetGroundReactionStrings(void)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGGroundReactions::GetGroundReactionValues(void)
string FGGroundReactions::GetGroundReactionValues(string delimeter)
{
std::ostringstream buf;
for (unsigned int i=0;i<lGear.size();i++) {
FGLGear& gear = lGear[i];
buf << (gear.GetWOW() ? "1, " : "0, ")
<< setprecision(5) << gear.GetCompLen() << ", "
<< setprecision(6) << gear.GetCompVel() << ", "
<< setprecision(10) << gear.GetCompForce() << ", "
<< setprecision(6) << gear.GetWheelVel(eX) << ", "
<< gear.GetWheelVel(eY) << ", "
<< gear.GetWheelSideForce() << ", "
<< gear.GetWheelRollForce() << ", "
<< gear.GetBodyXForce() << ", "
<< gear.GetBodyYForce() << ", "
<< gear.GetWheelSlipAngle() << ", ";
<< setprecision(5) << gear.GetCompLen() << delimeter
<< setprecision(6) << gear.GetCompVel() << delimeter
<< setprecision(10) << gear.GetCompForce() << delimeter
<< setprecision(6) << gear.GetWheelVel(eX) << delimeter
<< gear.GetWheelVel(eY) << delimeter
<< gear.GetWheelSideForce() << delimeter
<< gear.GetWheelRollForce() << delimeter
<< gear.GetBodyXForce() << delimeter
<< gear.GetBodyYForce() << delimeter
<< gear.GetWheelSlipAngle() << delimeter;
}
buf << vForces(eX) << ", "
<< vForces(eY) << ", "
<< vForces(eZ) << ", "
<< vMoments(eX) << ", "
<< vMoments(eY) << ", "
buf << vForces(eX) << delimeter
<< vForces(eY) << delimeter
<< vForces(eZ) << delimeter
<< vMoments(eX) << delimeter
<< vMoments(eY) << delimeter
<< vMoments(eZ);
return buf.str();

View file

@ -85,8 +85,8 @@ public:
double GetForces(int idx) const {return vForces(idx);}
FGColumnVector3& GetMoments(void) {return vMoments;}
double GetMoments(int idx) const {return vMoments(idx);}
string GetGroundReactionStrings(void);
string GetGroundReactionValues(void);
string GetGroundReactionStrings(string delimeter);
string GetGroundReactionValues(string delimeter);
inline int GetNumGearUnits(void) const { return lGear.size(); }

View file

@ -124,6 +124,10 @@ CLASS DOCUMENTATION
same magnitude for all components in this representation which is
an advantage for numerical stability in implicit time-stepping too.
Note: The latitude is a GEOCENTRIC value. FlightGear
converts latitude to a geodetic value and uses that. In order to get best
matching relative to a map, geocentric latitude must be converted to geodetic.
@see W. C. Durham "Aircraft Dynamics & Control", section 2.2
@author Mathias Froehlich
@ -141,7 +145,10 @@ public:
FGLocation() { mCacheValid = false; }
/** Constructor to set the longitude, latitude and the distance
from the center of the earth. */
from the center of the earth.
@param lon longitude
@param lat GEOCENTRIC latitude
@param distance from center of earth to vehicle in feet*/
FGLocation(double lon, double lat, double radius);
/** Copy constructor. */

View file

@ -113,17 +113,12 @@ public:
};
/** Default initializer.
Create a zero matrix.
*/
Create a zero matrix. */
FGMatrix33(void);
/** Copy constructor.
@param M Matrix which is used for initialization.
Create copy of the matrix given in the argument.
*/
Create copy of the matrix given in the argument. */
FGMatrix33(const FGMatrix33& M) {
Entry(1,1) = M.Entry(1,1);
Entry(2,1) = M.Entry(2,1);
@ -139,7 +134,6 @@ public:
}
/** Initialization by given values.
@param m11 value of the 1,1 Matrix element.
@param m12 value of the 1,2 Matrix element.
@param m13 value of the 1,3 Matrix element.
@ -149,9 +143,7 @@ public:
@param m31 value of the 3,1 Matrix element.
@param m32 value of the 3,2 Matrix element.
@param m33 value of the 3,3 Matrix element.
Create a matrix from the doubles given in the arguments.
*/
Create a matrix from the doubles given in the arguments. */
FGMatrix33(double m11, double m12, double m13,
double m21, double m22, double m23,
double m31, double m32, double m33) {
@ -168,30 +160,24 @@ public:
Debug(0);
}
/** Destructor.
*/
/// Destructor.
~FGMatrix33(void) { Debug(1); }
/** Read access the entries of the matrix.
@param row Row index.
@param col Column index.
@return the value of the matrix entry at the given row and
column indices. Indices are counted starting with 1.
*/
column indices. Indices are counted starting with 1. */
double operator()(unsigned int row, unsigned int col) const {
return Entry(row, col);
}
/** Write access the entries of the matrix.
Note that the indices given in the arguments are unchecked.
@param row Row index.
@param col Column index.
@return a reference to the matrix entry at the given row and
column indices. Indices are counted starting with 1.
*/
column indices. Indices are counted starting with 1. */
double& operator()(unsigned int row, unsigned int col) {
return Entry(row, col);
}
@ -200,15 +186,11 @@ public:
This function is just a shortcut for the @ref double&
operator()(unsigned int row, unsigned int col) function. It is
used internally to access the elements in a more convenient way.
Note that the indices given in the arguments are unchecked.
@param row Row index.
@param col Column index.
@return the value of the matrix entry at the given row and
column indices. Indices are counted starting with 1.
*/
column indices. Indices are counted starting with 1. */
double Entry(unsigned int row, unsigned int col) const {
return data[(col-1)*eRows+row-1];
}
@ -217,34 +199,27 @@ public:
This function is just a shortcut for the @ref double&
operator()(unsigned int row, unsigned int col) function. It is
used internally to access the elements in a more convenient way.
Note that the indices given in the arguments are unchecked.
@param row Row index.
@param col Column index.
@return a reference to the matrix entry at the given row and
column indices. Indices are counted starting with 1.
*/
column indices. Indices are counted starting with 1. */
double& Entry(unsigned int row, unsigned int col) {
return data[(col-1)*eRows+row-1];
}
/** Number of rows in the matrix.
@return the number of rows in the matrix.
*/
@return the number of rows in the matrix. */
unsigned int Rows(void) const { return eRows; }
/** Number of cloumns in the matrix.
@return the number of columns in the matrix.
*/
@return the number of columns in the matrix. */
unsigned int Cols(void) const { return eColumns; }
/** Transposed matrix.
This function only returns the transpose of this matrix. This matrix itself
remains unchanged.
@return the transposed matrix.
*/
@return the transposed matrix. */
FGMatrix33 Transposed(void) const {
return FGMatrix33( Entry(1,1), Entry(2,1), Entry(3,1),
Entry(1,2), Entry(2,2), Entry(3,2),
@ -252,18 +227,15 @@ public:
}
/** Transposes this matrix.
This function only transposes this matrix. Nothing is returned.
*/
This function only transposes this matrix. Nothing is returned. */
void T(void);
/** Initialize the matrix.
This function initializes a matrix to all 0.0.
*/
This function initializes a matrix to all 0.0. */
void InitMatrix(void);
/** Initialize the matrix.
This function initializes a matrix to user specified values.
*/
This function initializes a matrix to user specified values. */
void InitMatrix(double m11, double m12, double m13,
double m21, double m22, double m23,
double m31, double m32, double m33) {
@ -279,8 +251,7 @@ public:
}
/** Determinant of the matrix.
@return the determinant of the matrix.
*/
@return the determinant of the matrix. */
double Determinant(void) const;
/** Return if the matrix is invertible.
@ -288,24 +259,19 @@ public:
invertible. This is done by simply computing the determinant and
check if it is zero. Note that this test does not cover any
instabilities caused by nearly singular matirces using finite
arithmetics. It only checks exact singularity.
*/
arithmetics. It only checks exact singularity. */
bool Invertible(void) const { return 0.0 != Determinant(); }
/** Return the inverse of the matrix.
Computes and returns if the inverse of the matrix. It is computed
by Cramers Rule. Also there are no checks performed if the matrix
is invertible. If you are not sure that it really is check this
with the @ref Invertible() call before.
*/
with the @ref Invertible() call before. */
FGMatrix33 Inverse(void) const;
/** Assignment operator.
@param A source matrix.
Copy the content of the matrix given in the argument into *this.
*/
Copy the content of the matrix given in the argument into *this. */
FGMatrix33& operator=(const FGMatrix33& A) {
data[0] = A.data[0];
data[1] = A.data[1];
@ -320,113 +286,80 @@ public:
}
/** Matrix vector multiplication.
@param v vector to multiply with.
@return matric vector product.
Compute and return the product of the current matrix with the
vector given in the argument.
*/
vector given in the argument. */
FGColumnVector3 operator*(const FGColumnVector3& v) const;
/** Matrix subtraction.
@param B matrix to add to.
@return difference of the matrices.
Compute and return the sum of the current matrix and the matrix
B given in the argument.
*/
B given in the argument. */
FGMatrix33 operator-(const FGMatrix33& B) const;
/** Matrix addition.
@param B matrix to add to.
@return sum of the matrices.
Compute and return the sum of the current matrix and the matrix
B given in the argument.
*/
B given in the argument. */
FGMatrix33 operator+(const FGMatrix33& B) const;
/** Matrix product.
@param B matrix to add to.
@return product of the matrices.
Compute and return the product of the current matrix and the matrix
B given in the argument.
*/
B given in the argument. */
FGMatrix33 operator*(const FGMatrix33& B) const;
/** Multiply the matrix with a scalar.
@param scalar scalar factor to multiply with.
@return scaled matrix.
Compute and return the product of the current matrix with the
scalar value scalar given in the argument.
*/
scalar value scalar given in the argument. */
FGMatrix33 operator*(const double scalar) const;
/** Multiply the matrix with 1.0/scalar.
@param scalar scalar factor to divide through.
@return scaled matrix.
Compute and return the product of the current matrix with the
scalar value 1.0/scalar, where scalar is given in the argument.
*/
scalar value 1.0/scalar, where scalar is given in the argument. */
FGMatrix33 operator/(const double scalar) const;
/** In place matrix subtraction.
@param B matrix to subtract.
@return reference to the current matrix.
Compute the diffence from the current matrix and the matrix B
given in the argument.
*/
given in the argument. */
FGMatrix33& operator-=(const FGMatrix33 &B);
/** In place matrix addition.
@param B matrix to add.
@return reference to the current matrix.
Compute the sum of the current matrix and the matrix B
given in the argument.
*/
given in the argument. */
FGMatrix33& operator+=(const FGMatrix33 &B);
/** In place matrix multiplication.
@param B matrix to multiply with.
@return reference to the current matrix.
Compute the product of the current matrix and the matrix B
given in the argument.
*/
given in the argument. */
FGMatrix33& operator*=(const FGMatrix33 &B);
/** In place matrix scale.
@param scalar scalar value to multiply with.
@return reference to the current matrix.
Compute the product of the current matrix and the scalar value scalar
given in the argument.
*/
given in the argument. */
FGMatrix33& operator*=(const double scalar);
/** In place matrix scale.
@param scalar scalar value to divide through.
@return reference to the current matrix.
Compute the product of the current matrix and the scalar value
1.0/scalar, where scalar is given in the argument.
*/
1.0/scalar, where scalar is given in the argument. */
FGMatrix33& operator/=(const double scalar);
private:
@ -436,33 +369,24 @@ private:
};
/** Scalar multiplication.
@param scalar scalar value to multiply with.
@param A Matrix to multiply.
Multiply the Matrix with a scalar value.
*/
Multiply the Matrix with a scalar value.*/
inline FGMatrix33 operator*(double scalar, const FGMatrix33& A) {
// use already defined operation.
return A*scalar;
}
/** Write matrix to a stream.
@param os Stream to write to.
@param M Matrix to write.
Write the matrix to a stream.
*/
Write the matrix to a stream.*/
ostream& operator<<(ostream& os, const FGMatrix33& M);
/** Read matrix from a stream.
@param os Stream to read from.
@param M Matrix to initialize with the values from the stream.
Read matrix from a stream.
*/
Read matrix from a stream.*/
istream& operator>>(istream& is, FGMatrix33& M);
} // namespace JSBSim

View file

@ -66,7 +66,6 @@ FGNozzle::FGNozzle(FGFDMExec* FDMExec, FGConfigFile* Nzl_cfg, int num) : FGThrus
}
Thrust = 0;
ReverserAngle = 0.0;
Type = ttNozzle;
Area2 = (Diameter*Diameter/4.0)*M_PI;
AreaT = Area2/ExpR;
@ -95,7 +94,7 @@ double FGNozzle::Calculate(double CfPc)
{
double pAtm = fdmex->GetAtmosphere()->GetPressure();
Thrust = max((double)0.0, (CfPc * AreaT + (PE - pAtm)*Area2) * nzlEff);
vFn(1) = Thrust * cos(ReverserAngle);
vFn(1) = Thrust;
ThrustCoeff = max((double)0.0, CfPc / ((pAtm - PE) * Area2));
@ -111,7 +110,7 @@ double FGNozzle::GetPowerRequired(void)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGNozzle::GetThrusterLabels(int id)
string FGNozzle::GetThrusterLabels(int id, string delimeter)
{
std::ostringstream buf;
@ -122,7 +121,7 @@ string FGNozzle::GetThrusterLabels(int id)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGNozzle::GetThrusterValues(int id)
string FGNozzle::GetThrusterValues(int id, string delimeter)
{
std::ostringstream buf;

View file

@ -75,11 +75,11 @@ public:
double Calculate(double CfPc);
double GetPowerRequired(void);
string GetThrusterLabels(int id);
string GetThrusterValues(int id);
string GetThrusterLabels(int id, string delimeter);
string GetThrusterValues(int id, string delimeter);
private:
double ReverserAngle;
double PE;
double ExpR;
double nzlEff;

View file

@ -72,6 +72,7 @@ FGOutput::FGOutput(FGFDMExec* fdmex) : FGModel(fdmex)
SubSystems = 0;
enabled = true;
outputInFileName = "";
delimeter = ", ";
Debug(0);
}
@ -94,7 +95,7 @@ bool FGOutput::Run(void)
if (FGModel::Run()) return true;
if (Type == otSocket) {
SocketOutput();
} else if (Type == otCSV) {
} else if (Type == otCSV || Type == otTab) {
DelimitedOutput(Filename);
} else if (Type == otTerminal) {
// Not done yet
@ -113,8 +114,10 @@ void FGOutput::SetType(string type)
{
if (type == "CSV") {
Type = otCSV;
delimeter = ", ";
} else if (type == "TABULAR") {
Type = otTab;
delimeter = "\t";
} else if (type == "SOCKET") {
Type = otSocket;
} else if (type == "TERMINAL") {
@ -147,89 +150,89 @@ void FGOutput::DelimitedOutput(string fname)
// Nothing here, yet
}
if (SubSystems & ssAerosurfaces) {
outstream << ", ";
outstream << "Aileron Cmd, ";
outstream << "Elevator Cmd, ";
outstream << "Rudder Cmd, ";
outstream << "Flap Cmd, ";
outstream << "Left Aileron Pos, ";
outstream << "Right Aileron Pos, ";
outstream << "Elevator Pos, ";
outstream << "Rudder Pos, ";
outstream << delimeter;
outstream << "Aileron Cmd" + delimeter;
outstream << "Elevator Cmd" + delimeter;
outstream << "Rudder Cmd" + delimeter;
outstream << "Flap Cmd" + delimeter;
outstream << "Left Aileron Pos" + delimeter;
outstream << "Right Aileron Pos" + delimeter;
outstream << "Elevator Pos" + delimeter;
outstream << "Rudder Pos" + delimeter;
outstream << "Flap Pos";
}
if (SubSystems & ssRates) {
outstream << ", ";
outstream << "P, Q, R, ";
outstream << "Pdot, Qdot, Rdot";
outstream << delimeter;
outstream << "P" + delimeter + "Q" + delimeter + "R" + delimeter;
outstream << "Pdot" + delimeter + "Qdot" + delimeter + "Rdot";
}
if (SubSystems & ssVelocities) {
outstream << ", ";
outstream << "QBar, ";
outstream << "Vtotal, ";
outstream << "UBody, VBody, WBody, ";
outstream << "UAero, VAero, WAero, ";
outstream << "Vn, Ve, Vd";
outstream << delimeter;
outstream << "QBar" + delimeter;
outstream << "Vtotal" + delimeter;
outstream << "UBody" + delimeter + "VBody" + delimeter + "WBody" + delimeter;
outstream << "UAero" + delimeter + "VAero" + delimeter + "WAero" + delimeter;
outstream << "Vn" + delimeter + "Ve" + delimeter + "Vd";
}
if (SubSystems & ssForces) {
outstream << ", ";
outstream << "Drag, Side, Lift, ";
outstream << "L/D, ";
outstream << "Xforce, Yforce, Zforce";
outstream << delimeter;
outstream << "Drag" + delimeter + "Side" + delimeter + "Lift" + delimeter;
outstream << "L/D" + delimeter;
outstream << "Xforce" + delimeter + "Yforce" + delimeter + "Zforce";
}
if (SubSystems & ssMoments) {
outstream << ", ";
outstream << "L, M, N";
outstream << delimeter;
outstream << "L" + delimeter + "M" + delimeter + "N";
}
if (SubSystems & ssAtmosphere) {
outstream << ", ";
outstream << "Rho, ";
outstream << "NWind, EWind, DWind";
outstream << delimeter;
outstream << "Rho" + delimeter;
outstream << "NWind" + delimeter + "EWind" + delimeter + "DWind";
}
if (SubSystems & ssMassProps) {
outstream << ", ";
outstream << "Ixx, ";
outstream << "Ixy, ";
outstream << "Ixz, ";
outstream << "Iyx, ";
outstream << "Iyy, ";
outstream << "Iyz, ";
outstream << "Izx, ";
outstream << "Izy, ";
outstream << "Izz, ";
outstream << "Mass, ";
outstream << "Xcg, Ycg, Zcg";
outstream << delimeter;
outstream << "Ixx" + delimeter;
outstream << "Ixy" + delimeter;
outstream << "Ixz" + delimeter;
outstream << "Iyx" + delimeter;
outstream << "Iyy" + delimeter;
outstream << "Iyz" + delimeter;
outstream << "Izx" + delimeter;
outstream << "Izy" + delimeter;
outstream << "Izz" + delimeter;
outstream << "Mass" + delimeter;
outstream << "Xcg" + delimeter + "Ycg" + delimeter + "Zcg";
}
if (SubSystems & ssPropagate) {
outstream << ", ";
outstream << "Altitude, ";
outstream << "Phi, Tht, Psi, ";
outstream << "Alpha, ";
outstream << "Beta, ";
outstream << "Latitude (Deg), ";
outstream << "Longitude (Deg), ";
outstream << "Distance AGL, ";
outstream << delimeter;
outstream << "Altitude" + delimeter;
outstream << "Phi" + delimeter + "Tht" + delimeter + "Psi" + delimeter;
outstream << "Alpha" + delimeter;
outstream << "Beta" + delimeter;
outstream << "Latitude (Deg)" + delimeter;
outstream << "Longitude (Deg)" + delimeter;
outstream << "Distance AGL" + delimeter;
outstream << "Runway Radius";
}
if (SubSystems & ssCoefficients) {
scratch = Aerodynamics->GetCoefficientStrings();
if (scratch.length() != 0) outstream << ", " << scratch;
scratch = Aerodynamics->GetCoefficientStrings(delimeter);
if (scratch.length() != 0) outstream << delimeter << scratch;
}
if (SubSystems & ssFCS) {
scratch = FCS->GetComponentStrings();
if (scratch.length() != 0) outstream << ", " << scratch;
scratch = FCS->GetComponentStrings(delimeter);
if (scratch.length() != 0) outstream << delimeter << scratch;
}
if (SubSystems & ssGroundReactions) {
outstream << ", ";
outstream << GroundReactions->GetGroundReactionStrings();
outstream << delimeter;
outstream << GroundReactions->GetGroundReactionStrings(delimeter);
}
if (SubSystems & ssPropulsion && Propulsion->GetNumEngines() > 0) {
outstream << ", ";
outstream << Propulsion->GetPropulsionStrings();
outstream << delimeter;
outstream << Propulsion->GetPropulsionStrings(delimeter);
}
if (OutputProperties.size() > 0) {
for (unsigned int i=0;i<OutputProperties.size();i++) {
outstream << ", " << OutputProperties[i]->GetName();
outstream << delimeter << OutputProperties[i]->GetName();
}
}
@ -241,81 +244,81 @@ void FGOutput::DelimitedOutput(string fname)
if (SubSystems & ssSimulation) {
}
if (SubSystems & ssAerosurfaces) {
outstream << ", ";
outstream << FCS->GetDaCmd() << ", ";
outstream << FCS->GetDeCmd() << ", ";
outstream << FCS->GetDrCmd() << ", ";
outstream << FCS->GetDfCmd() << ", ";
outstream << FCS->GetDaLPos() << ", ";
outstream << FCS->GetDaRPos() << ", ";
outstream << FCS->GetDePos() << ", ";
outstream << FCS->GetDrPos() << ", ";
outstream << delimeter;
outstream << FCS->GetDaCmd() << delimeter;
outstream << FCS->GetDeCmd() << delimeter;
outstream << FCS->GetDrCmd() << delimeter;
outstream << FCS->GetDfCmd() << delimeter;
outstream << FCS->GetDaLPos() << delimeter;
outstream << FCS->GetDaRPos() << delimeter;
outstream << FCS->GetDePos() << delimeter;
outstream << FCS->GetDrPos() << delimeter;
outstream << FCS->GetDfPos();
}
if (SubSystems & ssRates) {
outstream << ", ";
outstream << Propagate->GetPQR() << ", ";
outstream << Propagate->GetPQRdot();
outstream << delimeter;
outstream << Propagate->GetPQR().Dump(delimeter) << delimeter;
outstream << Propagate->GetPQRdot().Dump(delimeter);
}
if (SubSystems & ssVelocities) {
outstream << ", ";
outstream << Auxiliary->Getqbar() << ", ";
outstream << setprecision(12) << Auxiliary->GetVt() << ", ";
outstream << setprecision(12) << Propagate->GetUVW() << ", ";
outstream << Auxiliary->GetAeroUVW() << ", ";
outstream << Propagate->GetVel();
outstream << delimeter;
outstream << Auxiliary->Getqbar() << delimeter;
outstream << setprecision(12) << Auxiliary->GetVt() << delimeter;
outstream << setprecision(12) << Propagate->GetUVW().Dump(delimeter) << delimeter;
outstream << Auxiliary->GetAeroUVW().Dump(delimeter) << delimeter;
outstream << Propagate->GetVel().Dump(delimeter);
}
if (SubSystems & ssForces) {
outstream << ", ";
outstream << Aerodynamics->GetvFs() << ", ";
outstream << Aerodynamics->GetLoD() << ", ";
outstream << Aircraft->GetForces();
outstream << delimeter;
outstream << Aerodynamics->GetvFs() << delimeter;
outstream << Aerodynamics->GetLoD() << delimeter;
outstream << Aircraft->GetForces().Dump(delimeter);
}
if (SubSystems & ssMoments) {
outstream << ", ";
outstream << Aircraft->GetMoments();
outstream << delimeter;
outstream << Aircraft->GetMoments().Dump(delimeter);
}
if (SubSystems & ssAtmosphere) {
outstream << ", ";
outstream << Atmosphere->GetDensity() << ", ";
outstream << Atmosphere->GetWindNED();
outstream << delimeter;
outstream << Atmosphere->GetDensity() << delimeter;
outstream << Atmosphere->GetWindNED().Dump(delimeter);
}
if (SubSystems & ssMassProps) {
outstream << ", ";
outstream << MassBalance->GetJ() << ", ";
outstream << MassBalance->GetMass() << ", ";
outstream << delimeter;
outstream << MassBalance->GetJ() << delimeter;
outstream << MassBalance->GetMass() << delimeter;
outstream << MassBalance->GetXYZcg();
}
if (SubSystems & ssPropagate) {
outstream << ", ";
outstream << Propagate->Geth() << ", ";
outstream << Propagate->GetEuler() << ", ";
outstream << Auxiliary->Getalpha(inDegrees) << ", ";
outstream << Auxiliary->Getbeta(inDegrees) << ", ";
outstream << Propagate->GetLocation().GetLatitudeDeg() << ", ";
outstream << Propagate->GetLocation().GetLongitudeDeg() << ", ";
outstream << Propagate->GetDistanceAGL() << ", ";
outstream << delimeter;
outstream << Propagate->Geth() << delimeter;
outstream << Propagate->GetEuler().Dump(delimeter) << delimeter;
outstream << Auxiliary->Getalpha(inDegrees) << delimeter;
outstream << Auxiliary->Getbeta(inDegrees) << delimeter;
outstream << Propagate->GetLocation().GetLatitudeDeg() << delimeter;
outstream << Propagate->GetLocation().GetLongitudeDeg() << delimeter;
outstream << Propagate->GetDistanceAGL() << delimeter;
outstream << Propagate->GetRunwayRadius();
}
if (SubSystems & ssCoefficients) {
scratch = Aerodynamics->GetCoefficientValues();
if (scratch.length() != 0) outstream << ", " << scratch;
scratch = Aerodynamics->GetCoefficientValues(delimeter);
if (scratch.length() != 0) outstream << delimeter << scratch;
}
if (SubSystems & ssFCS) {
scratch = FCS->GetComponentValues();
if (scratch.length() != 0) outstream << ", " << scratch;
scratch = FCS->GetComponentValues(delimeter);
if (scratch.length() != 0) outstream << delimeter << scratch;
}
if (SubSystems & ssGroundReactions) {
outstream << ", ";
outstream << GroundReactions->GetGroundReactionValues();
outstream << delimeter;
outstream << GroundReactions->GetGroundReactionValues(delimeter);
}
if (SubSystems & ssPropulsion && Propulsion->GetNumEngines() > 0) {
outstream << ", ";
outstream << Propulsion->GetPropulsionValues();
outstream << delimeter;
outstream << Propulsion->GetPropulsionValues(delimeter);
}
for (unsigned int i=0;i<OutputProperties.size();i++) {
outstream << ", " << OutputProperties[i]->getDoubleValue();
outstream << delimeter << OutputProperties[i]->getDoubleValue();
}
outstream << endl;

View file

@ -161,7 +161,7 @@ public:
private:
bool sFirstPass, dFirstPass, enabled;
int SubSystems;
string Filename, outputInFileName;
string Filename, outputInFileName, delimeter;
enum {otNone, otCSV, otTab, otSocket, otTerminal, otUnknown} Type;
ofstream datafile;
FGfdmSocket* socket;

View file

@ -93,7 +93,7 @@ FGPiston::FGPiston(FGFDMExec* exec, FGConfigFile* Eng_cfg, int engine_number)
bTakeoffBoost = false;
TakeoffBoost = 0.0; // Default to no extra takeoff-boost
int i;
for(i=0; i<FG_MAX_BOOST_SPEEDS; ++i) {
for (i=0; i<FG_MAX_BOOST_SPEEDS; i++) {
RatedBoost[i] = 0.0;
RatedPower[i] = 0.0;
RatedAltitude[i] = 0.0;
@ -102,6 +102,10 @@ FGPiston::FGPiston(FGFDMExec* exec, FGConfigFile* Eng_cfg, int engine_number)
RatedRPM[i] = 2500;
TakeoffMAP[i] = 100000;
}
for (i=0; i<FG_MAX_BOOST_SPEEDS-1; i++) {
BoostSwitchAltitude[i] = 0.0;
BoostSwitchPressure[i] = 0.0;
}
// Initialisation
volumetric_efficiency = 0.8; // Actually f(speed, load) but this will get us running
@ -277,7 +281,7 @@ double FGPiston::Calculate(void)
PowerAvailable = (HP * hptoftlbssec) - Thruster->GetPowerRequired();
return Thruster->Calculate(PowerAvailable);
return Thrust = Thruster->Calculate(PowerAvailable);
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@ -698,23 +702,25 @@ void FGPiston::doOilPressure(void)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGPiston::GetEngineLabels(void)
string FGPiston::GetEngineLabels(string delimeter)
{
std::ostringstream buf;
buf << Name << "_PwrAvail[" << EngineNumber << "], "
<< Thruster->GetThrusterLabels(EngineNumber);
buf << Name << "_PwrAvail[" << EngineNumber << "]" << delimeter
<< Name << "_HP[" << EngineNumber << "]" << delimeter
<< Thruster->GetThrusterLabels(EngineNumber, delimeter);
return buf.str();
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGPiston::GetEngineValues(void)
string FGPiston::GetEngineValues(string delimeter)
{
std::ostringstream buf;
buf << PowerAvailable << ", " << Thruster->GetThrusterValues(EngineNumber);
buf << PowerAvailable << delimeter << HP << delimeter
<< Thruster->GetThrusterValues(EngineNumber, delimeter);
return buf.str();
}

View file

@ -146,8 +146,8 @@ public:
/// Destructor
~FGPiston();
string GetEngineLabels(void);
string GetEngineValues(void);
string GetEngineLabels(string delimeter);
string GetEngineValues(string delimeter);
double Calculate(void);
double GetPowerAvailable(void) {return PowerAvailable;}

View file

@ -210,12 +210,12 @@ bool FGPropagate::Run(void)
// Compute body frame accelerations based on the current body forces
vUVWdot = VState.vUVW*VState.vPQR + vForces/mass;
// Centrifugal acceleration.
// Coriolis acceleration.
FGColumnVector3 ecVel = Tl2ec*vVel;
FGColumnVector3 ace = 2.0*omega*ecVel;
vUVWdot -= Tl2b*(Tec2l*ace);
// Coriolis acceleration.
// Centrifugal acceleration.
FGColumnVector3 aeec = omega*(omega*VState.vLocation);
vUVWdot -= Tl2b*(Tec2l*aeec);

View file

@ -252,16 +252,16 @@ FGColumnVector3 FGPropeller::GetPFactor()
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGPropeller::GetThrusterLabels(int id)
string FGPropeller::GetThrusterLabels(int id, string delimeter)
{
std::ostringstream buf;
buf << Name << "_Torque[" << id << "], "
<< Name << "_PFactor_Pitch[" << id << "], "
<< Name << "_PFactor_Yaw[" << id << "], "
<< Name << "_Thrust[" << id << "], ";
buf << Name << "_Torque[" << id << "]" << delimeter
<< Name << "_PFactor_Pitch[" << id << "]" << delimeter
<< Name << "_PFactor_Yaw[" << id << "]" << delimeter
<< Name << "_Thrust[" << id << "]" << delimeter;
if (IsVPitch())
buf << Name << "_Pitch[" << id << "], ";
buf << Name << "_Pitch[" << id << "]" << delimeter;
buf << Name << "_RPM[" << id << "]";
return buf.str();
@ -269,17 +269,17 @@ string FGPropeller::GetThrusterLabels(int id)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGPropeller::GetThrusterValues(int id)
string FGPropeller::GetThrusterValues(int id, string delimeter)
{
std::ostringstream buf;
FGColumnVector3 vPFactor = GetPFactor();
buf << vTorque(eX) << ", "
<< vPFactor(ePitch) << ", "
<< vPFactor(eYaw) << ", "
<< Thrust << ", ";
buf << vTorque(eX) << delimeter
<< vPFactor(ePitch) << delimeter
<< vPFactor(eYaw) << delimeter
<< Thrust << delimeter;
if (IsVPitch())
buf << Pitch << ", ";
buf << Pitch << delimeter;
buf << RPM;
return buf.str();

View file

@ -153,8 +153,8 @@ public:
@return the thrust in pounds */
double Calculate(double PowerAvailable);
FGColumnVector3 GetPFactor(void);
string GetThrusterLabels(int id);
string GetThrusterValues(int id);
string GetThrusterLabels(int id, string delimeter);
string GetThrusterValues(int id, string delimeter);
private:
int numBlades;

View file

@ -75,9 +75,9 @@ FGPropertyManager*
FGPropertyManager::GetNode (const string &path, bool create)
{
SGPropertyNode* node=this->getNode(path.c_str(), create);
if(node == 0)
cout << "FGPropertyManager::GetNode() No node found for "
<< path << endl;
//if(node == 0)
// cout << "FGPropertyManager::GetNode() No node found for "
// << path << endl;
return (FGPropertyManager*)node;
}

View file

@ -50,6 +50,7 @@ INCLUDES
#include "FGPiston.h"
#include "FGElectric.h"
#include "FGPropertyManager.h"
#include <sstream>
namespace JSBSim {
@ -73,6 +74,7 @@ FGPropulsion::FGPropulsion(FGFDMExec* exec) : FGModel(exec)
ActiveEngine = -1; // -1: ALL, 0: Engine 1, 1: Engine 2 ...
tankJ.InitMatrix();
refuel = false;
fuel_freeze = false;
bind();
@ -93,6 +95,8 @@ FGPropulsion::~FGPropulsion()
bool FGPropulsion::Run(void)
{
unsigned int i;
if (FGModel::Run()) return true;
double dt = State->Getdt();
@ -100,13 +104,13 @@ bool FGPropulsion::Run(void)
vForces.InitMatrix();
vMoments.InitMatrix();
for (unsigned int i=0; i<numEngines; i++) {
for (i=0; i<numEngines; i++) {
Engines[i]->Calculate();
vForces += Engines[i]->GetBodyForces(); // sum body frame forces
vMoments += Engines[i]->GetMoments(); // sum body frame moments
}
for (unsigned int i=0; i<numTanks; i++) {
for (i=0; i<numTanks; i++) {
Tanks[i]->Calculate( dt * rate );
}
@ -318,16 +322,23 @@ bool FGPropulsion::Load(FGConfigFile* AC_cfg)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGPropulsion::GetPropulsionStrings(void)
string FGPropulsion::GetPropulsionStrings(string delimeter)
{
unsigned int i;
string PropulsionStrings = "";
bool firstime = true;
stringstream buf;
for (unsigned int i=0;i<Engines.size();i++) {
for (i=0; i<Engines.size(); i++) {
if (firstime) firstime = false;
else PropulsionStrings += ", ";
else PropulsionStrings += delimeter;
PropulsionStrings += Engines[i]->GetEngineLabels();
PropulsionStrings += Engines[i]->GetEngineLabels(delimeter);
}
for (i=0; i<Tanks.size(); i++) {
if (Tanks[i]->GetType() == FGTank::ttFUEL) buf << delimeter << "Fuel Tank " << i;
else if (Tanks[i]->GetType() == FGTank::ttOXIDIZER) buf << delimeter << "Oxidizer Tank " << i;
}
return PropulsionStrings;
@ -335,16 +346,23 @@ string FGPropulsion::GetPropulsionStrings(void)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGPropulsion::GetPropulsionValues(void)
string FGPropulsion::GetPropulsionValues(string delimeter)
{
unsigned int i;
string PropulsionValues = "";
bool firstime = true;
stringstream buf;
for (unsigned int i=0;i<Engines.size();i++) {
for (i=0; i<Engines.size(); i++) {
if (firstime) firstime = false;
else PropulsionValues += ", ";
else PropulsionValues += delimeter;
PropulsionValues += Engines[i]->GetEngineValues();
PropulsionValues += Engines[i]->GetEngineValues(delimeter);
}
for (i=0; i<Tanks.size(); i++) {
buf << delimeter;
buf << Tanks[i]->GetContents();
}
return PropulsionValues;
@ -498,6 +516,16 @@ void FGPropulsion::DoRefuel(double time_slice)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
void FGPropulsion::SetFuelFreeze(bool f)
{
fuel_freeze = f;
for (unsigned int i=0; i<numEngines; i++) {
Engines[i]->SetFuelFreeze(f);
}
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
void FGPropulsion::bind(void)
{
typedef double (FGPropulsion::*PMF)(int) const;

View file

@ -150,8 +150,8 @@ public:
be done before calling this (i.e. magnetos, starter engage, etc.) */
bool ICEngineStart(void);
string GetPropulsionStrings(void);
string GetPropulsionValues(void);
string GetPropulsionStrings(string delimeter);
string GetPropulsionValues(string delimeter);
inline FGColumnVector3& GetForces(void) {return vForces; }
inline double GetForces(int n) const { return vForces(n);}
@ -172,11 +172,13 @@ public:
}
inline int GetActiveEngine(void);
inline bool GetFuelFreeze(void) {return fuel_freeze;}
void SetMagnetos(int setting);
void SetStarter(int setting);
void SetCutoff(int setting=0);
void SetActiveEngine(int engine);
void SetFuelFreeze(bool f);
FGMatrix33& CalculateTankInertias(void);
void bind();
@ -199,6 +201,7 @@ private:
FGColumnVector3 vXYZtank_arm;
FGMatrix33 tankJ;
bool refuel;
bool fuel_freeze;
void Debug(int from);
};

View file

@ -113,28 +113,28 @@ double FGRocket::Calculate(void)
Flameout = false;
}
return Thruster->Calculate(Cf*maxPC*PctPower*propEff);
return Thrust = Thruster->Calculate(Cf*maxPC*PctPower*propEff);
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGRocket::GetEngineLabels(void)
string FGRocket::GetEngineLabels(string delimeter)
{
std::ostringstream buf;
buf << Name << "_ChamberPress[" << EngineNumber << "], "
<< Thruster->GetThrusterLabels(EngineNumber);
buf << Name << "_ChamberPress[" << EngineNumber << "]" << delimeter
<< Thruster->GetThrusterLabels(EngineNumber, delimeter);
return buf.str();
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGRocket::GetEngineValues(void)
string FGRocket::GetEngineValues(string delimeter)
{
std::ostringstream buf;
buf << PC << ", " << Thruster->GetThrusterValues(EngineNumber);
buf << PC << delimeter << Thruster->GetThrusterValues(EngineNumber, delimeter);
return buf.str();
}

View file

@ -123,8 +123,8 @@ public:
sustainable setting.
@return true if engine has flamed out. */
bool GetFlameout(void) {return Flameout;}
string GetEngineLabels(void);
string GetEngineValues(void);
string GetEngineLabels(string delimeter);
string GetEngineValues(string delimeter);
private:
double SHR;

View file

@ -68,14 +68,14 @@ double FGRotor::Calculate(double PowerAvailable)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGRotor::GetThrusterLabels(int id)
string FGRotor::GetThrusterLabels(int id, string delimeter)
{
return "";
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGRotor::GetThrusterValues(int id)
string FGRotor::GetThrusterValues(int id, string delimeter)
{
return "";
}

View file

@ -70,8 +70,8 @@ public:
~FGRotor();
double Calculate(double);
string GetThrusterLabels(int id);
string GetThrusterValues(int id);
string GetThrusterLabels(int id, string delimeter);
string GetThrusterValues(int id, string delimeter);
private:
void Debug(int from);

View file

@ -56,6 +56,7 @@ INCLUDES
#include "FGScript.h"
#include "FGConfigFile.h"
#include "FGTrim.h"
namespace JSBSim {
@ -212,6 +213,12 @@ bool FGScript::LoadScript( string script )
exit(-1);
}
FGTrim fgt(FDMExec, tFull);
if ( !fgt.DoTrim() ) {
cout << "Trim Failed" << endl;
}
fgt.Report();
return true;
}

View file

@ -72,11 +72,15 @@ FGThruster::FGThruster(FGFDMExec *FDMExec,
EngineNum = num;
ThrustCoeff = 0.0;
ReverserAngle = 0.0;
PropertyManager = FDMExec->GetPropertyManager();
char property_name[80];
snprintf(property_name, 80, "propulsion/c-thrust[%u]", EngineNum);
PropertyManager->Tie( property_name, &ThrustCoeff );
snprintf(property_name, 80, "propulsion/engine[%u]/reverser-angle", EngineNum);
PropertyManager->Tie( property_name, &ReverserAngle );
Debug(0);
}
@ -88,13 +92,15 @@ FGThruster::~FGThruster()
char property_name[80];
snprintf(property_name, 80, "propulsion/c-thrust[%u]", EngineNum);
PropertyManager->Untie( property_name );
snprintf(property_name, 80, "propulsion/engine[%u]/reverser-angle", EngineNum);
PropertyManager->Untie( property_name );
Debug(1);
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGThruster::GetThrusterLabels(int id)
string FGThruster::GetThrusterLabels(int id, string delimeter)
{
std::ostringstream buf;
@ -105,7 +111,7 @@ string FGThruster::GetThrusterLabels(int id)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGThruster::GetThrusterValues(int id)
string FGThruster::GetThrusterValues(int id, string delimeter)
{
std::ostringstream buf;

View file

@ -80,8 +80,9 @@ public:
enum eType {ttNozzle, ttRotor, ttPropeller, ttDirect};
virtual double Calculate(double tt) {
Thrust = tt; vFn(1) = Thrust;
return 0.0;
Thrust = tt;
vFn(1) = Thrust * cos(ReverserAngle);
return vFn(1);
}
void SetName(string name) {Name = name;}
virtual void SetRPM(double rpm) {};
@ -92,8 +93,11 @@ public:
string GetName(void) {return Name;}
virtual double GetRPM(void) { return 0.0; };
double GetGearRatio(void) {return GearRatio; }
virtual string GetThrusterLabels(int id);
virtual string GetThrusterValues(int id);
virtual string GetThrusterLabels(int id, string delimeter);
virtual string GetThrusterValues(int id, string delimeter);
void SetReverserAngle(double radians) { ReverserAngle = radians; }
double GetReverserAngle(void) {return ReverserAngle;}
inline void SetThrustCoefficient(double ct) { ThrustCoeff = ct; }
@ -105,6 +109,7 @@ protected:
double deltaT;
double GearRatio;
double ThrustCoeff;
double ReverserAngle;
int EngineNum;
FGPropertyManager* PropertyManager;
virtual void Debug(int from);

View file

@ -113,14 +113,14 @@ CLASS DOCUMENTATION
FGFDMExec* FDMExec = new FGFDMExec();
FGInitialCondition* fgic = new FGInitialCondition(FDMExec);
FGTrim *fgt(FDMExec,fgic,tFull);
FGTrim fgt(FDMExec, fgic, tFull);
fgic->SetVcaibratedKtsIC(100);
fgic->SetAltitudeFtIC(1000);
fgic->SetClimbRate(500);
if( !fgt->DoTrim() ) {
if( !fgt.DoTrim() ) {
cout << "Trim Failed" << endl;
}
fgt->ReportState(); </pre>
fgt.Report(); </pre>
@author Tony Peden
@version "$Id$"
*/

View file

@ -113,21 +113,19 @@ double FGTurbine::Calculate(void)
if (Stalled) phase = tpStall;
if (Seized) phase = tpSeize;
double CT = 0.0;
switch (phase) {
case tpOff: Thrust = Off(); break;
case tpRun: Thrust = Run(CT); break;
case tpRun: Thrust = Run(); break;
case tpSpinUp: Thrust = SpinUp(); break;
case tpStart: Thrust = Start(); break;
case tpStall: Thrust = Stall(); break;
case tpSeize: Thrust = Seize(); break;
case tpTrim: Thrust = Trim(CT); break;
case tpTrim: Thrust = Trim(); break;
default: Thrust = Off();
}
Thruster->SetThrustCoefficient(CT);
return Thruster->Calculate(Thrust);
// The thruster can modify the thrust, eg. thrust reverser
return Thrust = Thruster->Calculate(Thrust);
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@ -150,13 +148,12 @@ double FGTurbine::Off(void)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
double FGTurbine::Run(double &TC)
double FGTurbine::Run(void)
{
double idlethrust, milthrust, thrust;
double N2norm; // 0.0 = idle N2, 1.0 = maximum N2
idlethrust = ThrustTables[0]->TotalValue();
milthrust = (1.0 - idlethrust) * ThrustTables[1]->TotalValue();
idlethrust = MilThrust * ThrustTables[0]->TotalValue();
milthrust = (MilThrust - idlethrust) * ThrustTables[1]->TotalValue();
Running = true;
Starter = false;
@ -164,19 +161,18 @@ double FGTurbine::Run(double &TC)
N2 = Seek(&N2, IdleN2 + ThrottlePos * N2_factor, delay, delay * 3.0);
N1 = Seek(&N1, IdleN1 + ThrottlePos * N1_factor, delay, delay * 2.4);
N2norm = (N2 - IdleN2) / N2_factor;
TC = idlethrust + (milthrust * N2norm * N2norm);
thrust = TC * MilThrust;
thrust = idlethrust + (milthrust * N2norm * N2norm);
EGT_degC = TAT + 363.1 + ThrottlePos * 357.1;
OilPressure_psi = N2 * 0.62;
OilTemp_degK = Seek(&OilTemp_degK, 366.0, 1.2, 0.1);
if (!Augmentation) {
double correctedTSFC = TSFC + TSFC - (N2norm * TSFC);
double correctedTSFC = TSFC * (0.84 + (1-N2norm)*(1-N2norm));
FuelFlow_pph = Seek(&FuelFlow_pph, thrust * correctedTSFC, 1000.0, 100000);
if (FuelFlow_pph < IdleFF) FuelFlow_pph = IdleFF;
NozzlePosition = Seek(&NozzlePosition, 1.0 - N2norm, 0.8, 0.8);
TC = TC * (1.0 - BleedDemand);
EPR = 1.0 + TC;
thrust = thrust * (1.0 - BleedDemand);
EPR = 1.0 + thrust/MilThrust;
}
if (AugMethod == 1) {
@ -185,8 +181,7 @@ double FGTurbine::Run(double &TC)
}
if ((Augmented == 1) && Augmentation && (AugMethod < 2)) {
TC = ThrustTables[2]->TotalValue();
thrust = TC * MaxThrust;
thrust = MaxThrust * ThrustTables[2]->TotalValue();
FuelFlow_pph = Seek(&FuelFlow_pph, thrust * ATSFC, 5000.0, 10000.0);
NozzlePosition = Seek(&NozzlePosition, 1.0, 0.8, 0.8);
}
@ -194,9 +189,8 @@ double FGTurbine::Run(double &TC)
if (AugMethod == 2) {
if (AugmentCmd > 0.0) {
Augmentation = true;
double tdiff = ThrustTables[2]->TotalValue() - TC;
TC += (tdiff * AugmentCmd);
thrust = TC * MaxThrust;
double tdiff = (MaxThrust * ThrustTables[2]->TotalValue()) - thrust;
thrust += (tdiff * AugmentCmd);
FuelFlow_pph = Seek(&FuelFlow_pph, thrust * ATSFC, 5000.0, 10000.0);
NozzlePosition = Seek(&NozzlePosition, 1.0, 0.8, 0.8);
} else {
@ -205,7 +199,6 @@ double FGTurbine::Run(double &TC)
}
if ((Injected == 1) && Injection) {
TC = TC * ThrustTables[3]->TotalValue();
thrust = thrust * ThrustTables[3]->TotalValue();
}
@ -244,6 +237,7 @@ double FGTurbine::Start(void)
EGT_degC = Seek(&EGT_degC, TAT + 363.1, 21.3, 7.3);
FuelFlow_pph = Seek(&FuelFlow_pph, IdleFF, 103.7, 103.7);
OilPressure_psi = N2 * 0.62;
ConsumeFuel();
}
else {
phase = tpRun;
@ -269,6 +263,7 @@ double FGTurbine::Stall(void)
FuelFlow_pph = IdleFF;
N1 = Seek(&N1, qbar/10.0, 0, N1/10.0);
N2 = Seek(&N2, qbar/15.0, 0, N2/10.0);
ConsumeFuel();
if (ThrottlePos < 0.01) phase = tpRun; // clear the stall with throttle
return 0.0;
@ -282,6 +277,7 @@ double FGTurbine::Seize(void)
N2 = 0.0;
N1 = Seek(&N1, qbar/20.0, 0, N1/15.0);
FuelFlow_pph = IdleFF;
ConsumeFuel();
OilPressure_psi = 0.0;
OilTemp_degK = Seek(&OilTemp_degK, TAT + 273.0, 0, 0.2);
Running = false;
@ -290,20 +286,17 @@ double FGTurbine::Seize(void)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
double FGTurbine::Trim(double &TC)
double FGTurbine::Trim(void)
{
double idlethrust, milthrust, thrust, tdiff;
idlethrust = ThrustTables[0]->TotalValue();;
milthrust = (1.0 - TC) * ThrustTables[1]->TotalValue();
TC = (idlethrust + (milthrust * ThrottlePos * ThrottlePos))
idlethrust = MilThrust * ThrustTables[0]->TotalValue();;
milthrust = (MilThrust - idlethrust) * ThrustTables[1]->TotalValue();
thrust = (idlethrust + (milthrust * ThrottlePos * ThrottlePos))
* (1.0 - BleedDemand);
if (AugmentCmd > 0.0) {
tdiff = ThrustTables[2]->TotalValue() - TC;
TC += (tdiff * AugmentCmd);
thrust = TC * MaxThrust;
} else
thrust = TC * MilThrust;
tdiff = (MaxThrust * ThrustTables[2]->TotalValue()) - thrust;
thrust += (tdiff * AugmentCmd);
}
return thrust;
}
@ -427,26 +420,26 @@ bool FGTurbine::Load(FGConfigFile *Eng_cfg)
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGTurbine::GetEngineLabels(void)
string FGTurbine::GetEngineLabels(string delimeter)
{
std::ostringstream buf;
buf << Name << "_N1[" << EngineNumber << "], "
<< Name << "_N2[" << EngineNumber << "], "
<< Thruster->GetThrusterLabels(EngineNumber);
buf << Name << "_N1[" << EngineNumber << "]" << delimeter
<< Name << "_N2[" << EngineNumber << "]" << delimeter
<< Thruster->GetThrusterLabels(EngineNumber, delimeter);
return buf.str();
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
string FGTurbine::GetEngineValues(void)
string FGTurbine::GetEngineValues(string delimeter)
{
std::ostringstream buf;
buf << N1 << ", "
<< N2 << ", "
<< Thruster->GetThrusterValues(EngineNumber);
buf << N1 << delimeter
<< N2 << delimeter
<< Thruster->GetThrusterValues(EngineNumber, delimeter);
return buf.str();
}
@ -457,10 +450,12 @@ void FGTurbine::bindmodel()
{
char property_name[80];
snprintf(property_name, 80, "propulsion/n1[%u]", EngineNumber);
snprintf(property_name, 80, "propulsion/engine[%u]/n1", EngineNumber);
PropertyManager->Tie( property_name, &N1);
snprintf(property_name, 80, "propulsion/n2[%u]", EngineNumber);
snprintf(property_name, 80, "propulsion/engine[%u]/n2", EngineNumber);
PropertyManager->Tie( property_name, &N2);
snprintf(property_name, 80, "propulsion/engine[%u]/fuel-flow", EngineNumber);
PropertyManager->Tie( property_name, &FuelFlow_pph);
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@ -469,10 +464,12 @@ void FGTurbine::unbind()
{
char property_name[80];
snprintf(property_name, 80, "propulsion/n1[%u]", EngineNumber);
snprintf(property_name, 80, "propulsion/engine[%u]/n1", EngineNumber);
PropertyManager->Untie(property_name);
snprintf(property_name, 80, "propulsion/n2[%u]", EngineNumber);
snprintf(property_name, 80, "propulsion/engine[%u]/n2", EngineNumber);
PropertyManager->Untie(property_name);
snprintf(property_name, 80, "propulsion/engine[%u]/fuel-flow", EngineNumber);
PropertyManager->Untie( property_name);
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

View file

@ -182,8 +182,8 @@ public:
void SetReverse(bool reversed) { Reversed = reversed; }
void SetCutoff(bool cutoff) { Cutoff = cutoff; }
string GetEngineLabels(void);
string GetEngineValues(void);
string GetEngineLabels(string delimeter);
string GetEngineValues(string delimeter);
private:
@ -233,12 +233,12 @@ private:
double NozzlePosition;
double Off(void);
double Run(double &CT);
double Run();
double SpinUp(void);
double Start(void);
double Stall(void);
double Seize(void);
double Trim(double &CT);
double Trim();
void SetDefaults(void);
bool Load(FGConfigFile *ENG_cfg);

View file

@ -2,7 +2,7 @@
//
// Written by Curtis Olson, started February 1999.
//
// Copyright (C) 1999 Curtis L. Olson - http://www.flightgear.org/~curt
// Copyright (C) 1999 Curtis L. Olson - curt@flightgear.org
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License as
@ -171,6 +171,7 @@ FGJSBsim::FGJSBsim( double dt )
node->setDoubleValue("level-gal_us", Propulsion->GetTank(i)->GetContents() / 6.6);
}
}
Propulsion->SetFuelFreeze((fgGetNode("/sim/freeze/fuel",true))->getBoolValue());
fgSetDouble("/fdm/trim/pitch-trim", FCS->GetPitchTrimCmd());
fgSetDouble("/fdm/trim/throttle", FCS->GetThrottleCmd(0));
@ -503,6 +504,7 @@ bool FGJSBsim::copy_to_JSBsim()
}
SGPropertyNode* node = fgGetNode("/systems/refuel", true);
Propulsion->SetRefuel(node->getDoubleValue("contact"));
Propulsion->SetFuelFreeze((fgGetNode("/sim/freeze/fuel",true))->getBoolValue());
return true;
}
@ -692,11 +694,9 @@ bool FGJSBsim::copy_from_JSBsim()
}
static const SGPropertyNode *fuel_freeze = fgGetNode("/sim/freeze/fuel");
// Copy the fuel levels from JSBSim if fuel
// freeze not enabled.
if ( ! fuel_freeze->getBoolValue() ) {
if ( ! Propulsion->GetFuelFreeze() ) {
for (i = 0; i < Propulsion->GetNumTanks(); i++) {
SGPropertyNode * node = fgGetNode("/consumables/fuel/tank", i, true);
FGTank* tank = Propulsion->GetTank(i);

View file

@ -5,7 +5,7 @@
Maintained by: Tony Peden, Curt Olson
Date started: 02/01/1999
------ Copyright (C) 1999 - 2000 Curtis L. Olson (http://www.flightgear.org/~curt) ------
------ Copyright (C) 1999 - 2000 Curtis L. Olson (curt@flightgear.org) ------
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as

View file

@ -89,7 +89,7 @@ FGPropertyManager* FGFCSComponent::resolveSymbol(string token)
FGPropertyManager* tmp = PropertyManager->GetNode(token,false);
if (!tmp) {
if (token.find("/") == token.npos) prop = "model/" + token;
cerr << "Creating new property " << prop << endl;
//cerr << "Creating new property " << prop << endl;
tmp = PropertyManager->GetNode(token,true);
}
return tmp;