Exemplo n.º 1
0
void Cvode::maxstep(double x) {
	if (use_daspk_) {
		if (daspk_->mem_) { IDASetMaxStep(daspk_->mem_, x); }
	}else{
		if (mem_) { CVodeSetMaxStep(mem_, x); }
	}
}
Exemplo n.º 2
0
void FIDA_SETRIN(char key_name[], realtype *rval, int *ier)
{

  if (!strncmp(key_name,"INIT_STEP",9))
    *ier = IDASetInitStep(IDA_idamem, *rval);
  else if (!strncmp(key_name,"MAX_STEP",8))
    *ier = IDASetMaxStep(IDA_idamem, *rval);
  else if (!strncmp(key_name,"STOP_TIME",9))
    *ier = IDASetStopTime(IDA_idamem, *rval);
  else if (!strncmp(key_name,"NLCONV_COEF_IC",14))
    *ier = IDASetNonlinConvCoefIC(IDA_idamem, *rval);
  else if (!strncmp(key_name,"NLCONV_COEF",11))
    *ier = IDASetNonlinConvCoef(IDA_idamem, *rval);
  else if (!strncmp(key_name,"STEP_TOL_IC",11))
    *ier = IDASetStepToleranceIC(IDA_idamem, *rval);
  else {
    *ier = -99;
    printf("FIDASETRIN: Unrecognized key.\n\n");
  }

}
Exemplo n.º 3
0
int IDASetMaxStepB(void *ida_mem, int which, realtype hmaxB)
{
  IDAMem IDA_mem;
  IDAadjMem IDAADJ_mem;
  IDABMem IDAB_mem;
  void *ida_memB;
  
  /* Is ida_mem valid? */
  if (ida_mem == NULL) {
    IDAProcessError(NULL, IDA_MEM_NULL, "IDAA", "IDASetMaxStepB", MSGAM_NULL_IDAMEM);
    return IDA_MEM_NULL;
  }
  IDA_mem = (IDAMem) ida_mem;

  /* Is ASA initialized? */
  if (IDA_mem->ida_adjMallocDone == FALSE) {
    IDAProcessError(IDA_mem, IDA_NO_ADJ, "IDAA", "IDASetMaxStepB",  MSGAM_NO_ADJ);
    return(IDA_NO_ADJ);
  }
  IDAADJ_mem = IDA_mem->ida_adj_mem;

  /* Check the value of which */
  if ( which >= nbckpbs ) {
    IDAProcessError(IDA_mem, IDA_ILL_INPUT, "IDAA", "IDASetMaxStepB", MSGAM_BAD_WHICH);
    return(IDA_ILL_INPUT);
  }
  
  /* Find the IDABMem entry in the linked list corresponding to 'which'. */
  IDAB_mem = IDAADJ_mem->IDAB_mem;
  while (IDAB_mem != NULL) {
    if( which == IDAB_mem->ida_index ) break;
    /* advance */
    IDAB_mem = IDAB_mem->ida_next;
  }
  ida_memB = (void *) IDAB_mem->IDA_mem;
  
  return IDASetMaxStep(ida_memB, hmaxB);
}
Exemplo n.º 4
0
void IdaSolver::initialize(const double &pVoiStart, const double &pVoiEnd,
                           const int &pStatesCount, const int &pCondVarCount,
                           double *pConstants, double *pRates, double *pStates,
                           double *pAlgebraic, double *pCondVar,
                           ComputeEssentialVariablesFunction pComputeEssentialVariables,
                           ComputeResidualsFunction pComputeResiduals,
                           ComputeRootInformationFunction pComputeRootInformation,
                           ComputeStateInformationFunction pComputeStateInformation)
{
    static const double VoiEpsilon = 1.0e-9;

    if (!mSolver) {
        // Initialise the ODE solver itself

        OpenCOR::CoreSolver::CoreDaeSolver::initialize(pVoiStart, pVoiEnd,
                                                       pStatesCount,
                                                       pCondVarCount,
                                                       pConstants, pRates,
                                                       pStates, pAlgebraic,
                                                       pCondVar,
                                                       pComputeEssentialVariables,
                                                       pComputeResiduals,
                                                       pComputeRootInformation,
                                                       pComputeStateInformation);

        // Retrieve some of the IDA properties

        if (mProperties.contains(MaximumStepProperty))
            mMaximumStep = mProperties.value(MaximumStepProperty).toDouble();
        else
            emit error(QObject::tr("the 'maximum step' property value could not be retrieved"));

        if (mProperties.contains(MaximumNumberOfStepsProperty))
            mMaximumNumberOfSteps = mProperties.value(MaximumNumberOfStepsProperty).toInt();
        else
            emit error(QObject::tr("the 'maximum number of steps' property value could not be retrieved"));

        if (mProperties.contains(RelativeToleranceProperty))
            mRelativeTolerance = mProperties.value(RelativeToleranceProperty).toDouble();
        else
            emit error(QObject::tr("the 'relative tolerance' property value could not be retrieved"));

        if (mProperties.contains(AbsoluteToleranceProperty))
            mAbsoluteTolerance = mProperties.value(AbsoluteToleranceProperty).toDouble();
        else
            emit error(QObject::tr("the 'absolute tolerance' property value could not be retrieved"));

        // Create the states vector

        mStatesVector = N_VMake_Serial(pStatesCount, pStates);
        mRatesVector  = N_VMake_Serial(pStatesCount, pRates);

        // Create the IDA solver

        mSolver = IDACreate();

        // Use our own error handler

        IDASetErrHandlerFn(mSolver, errorHandler, this);

        // Initialise the IDA solver

        IDAInit(mSolver, residualFunction, pVoiStart,
                mStatesVector, mRatesVector);

        IDARootInit(mSolver, pCondVarCount, rootFindingFunction);
        //---GRY--- NEED TO CHECK THAT OUR IDA CODE WORKS AS EXPECTED BY TRYING
        //          IT OUT ON A MODEL WHICH NEEDS ROOT FINDING (E.G. THE
        //          SAUCERMAN MODEL)...

        // Set some user data

        delete mUserData;   // Just in case the solver got initialised before

        mUserData = new IdaSolverUserData(pConstants, pAlgebraic, pCondVar,
                                          pComputeEssentialVariables,
                                          pComputeResiduals,
                                          pComputeRootInformation);

        IDASetUserData(mSolver, mUserData);

        // Set the linear solver

        IDADense(mSolver, pStatesCount);

        // Set the maximum step

        IDASetMaxStep(mSolver, mMaximumStep);

        // Set the maximum number of steps

        IDASetMaxNumSteps(mSolver, mMaximumNumberOfSteps);

        // Set the relative and absolute tolerances

        IDASStolerances(mSolver, mRelativeTolerance, mAbsoluteTolerance);

        // Compute the model's initial conditions
        // Note: this requires retrieving the model's state information, setting
        //       the IDA object's id vector and then calling IDACalcIC()...

        double *id = new double[pStatesCount];

        pComputeStateInformation(id);

        N_Vector idVector = N_VMake_Serial(pStatesCount, id);

        IDASetId(mSolver, idVector);
        IDACalcIC(mSolver, IDA_YA_YDP_INIT,
                  pVoiStart+((pVoiEnd-pVoiStart > 0)?VoiEpsilon:-VoiEpsilon));

        N_VDestroy_Serial(idVector);

        delete[] id;
    } else {
        // Reinitialise the IDA object

        IDAReInit(mSolver, pVoiStart, mStatesVector, mRatesVector);

        // Compute the model's new initial conditions

        IDACalcIC(mSolver, IDA_YA_YDP_INIT,
                  pVoiStart+((pVoiEnd-pVoiStart > 0)?VoiEpsilon:-VoiEpsilon));
    }
}
Exemplo n.º 5
0
void Ida::initialize()
{
  _properties = dynamic_cast<ISystemProperties*>(_system);
  _continuous_system = dynamic_cast<IContinuous*>(_system);
  _event_system = dynamic_cast<IEvent*>(_system);
  _mixed_system = dynamic_cast<IMixedSystem*>(_system);
  _time_system = dynamic_cast<ITime*>(_system);
  IGlobalSettings* global_settings = dynamic_cast<ISolverSettings*>(_idasettings)->getGlobalSettings();
  // Kennzeichnung, dass initialize()() (vor der Integration) aufgerufen wurde
  _idid = 5000;
  _tLastEvent = 0.0;
  _event_n = 0;
  SolverDefaultImplementation::initialize();

  _dimStates = _continuous_system->getDimContinuousStates();
  _dimZeroFunc = _event_system->getDimZeroFunc()+_event_system->getDimClock();
  _dimAE = _continuous_system->getDimAE();
   if(_dimAE>0)
		_dimSys=_dimAE+ _dimStates;
	else
		_dimSys=_dimStates;
  if (_dimStates <= 0)

  {
    _idid = -1;
    throw std::invalid_argument("Ida::initialize()");
  }
  else
  {
    // Allocate state vectors, stages and temporary arrays

   /*if (_z)
      delete[] _z;
    if (_zInit)
      delete[] _zInit;
    if (_zWrite)
      delete[] _zWrite;*/
    if (_y)
      delete[] _y;
    if (_yInit)
      delete[] _yInit;
    if (_yWrite)
      delete[] _yWrite;
    if (_ypWrite)
      delete[] _ypWrite;
    if (_yp)
      delete[] _yp;
    if (_dae_res)
      delete[] _dae_res;
    if (_zeroSign)
      delete[] _zeroSign;
    if (_absTol)
      delete[] _absTol;
    if(_delta)
      delete [] _delta;
    if(_deltaInv)
      delete [] _deltaInv;
    if(_ysave)
      delete [] _ysave;


	_y = new double[_dimSys];
	_yp = new double[_dimSys];
    _yInit = new double[_dimSys];
    _yWrite = new double[_dimSys];
	_ypWrite = new double[_dimSys];
	_dae_res = new double[_dimSys];
	/*
	_z = new double[_dimSys];
    _zInit = new double[_dimSys];
    _zWrite = new double[_dimSys];
	*/

    _zeroSign = new int[_dimZeroFunc];
    _absTol = new double[_dimSys];
    _delta =new double[_dimSys];
    _deltaInv =new double[_dimSys];
    _ysave =new double[_dimSys];

    memset(_y, 0, _dimSys * sizeof(double));
	memset(_yp, 0, _dimSys * sizeof(double));
    memset(_yInit, 0, _dimSys * sizeof(double));
    memset(_ysave, 0, _dimSys * sizeof(double));
	 std::fill_n(_absTol, _dimSys, 1.0);
    // Counter initialisieren
    _outStps = 0;

    if (_idasettings->getDenseOutput())
    {
      // Ausgabeschrittweite
      _hOut = global_settings->gethOutput();

    }

    // Allocate memory for the solver
    _idaMem = IDACreate();
    if (check_flag((void*) _idaMem, "IDACreate", 0))
    {
      _idid = -5;
      throw std::invalid_argument(/*_idid,_tCurrent,*/"Ida::initialize()");
    }

    //
    // Make Ida ready for integration
    //

    // Set initial values for IDA
    //_continuous_system->evaluateAll(IContinuous::CONTINUOUS);
   _continuous_system->getContinuousStates(_yInit);
    memcpy(_y, _yInit, _dimStates * sizeof(double));
    if(_dimAE>0)
	{
       _mixed_system->getAlgebraicDAEVars(_yInit+_dimStates);
	    memcpy(_y+_dimStates, _yInit+_dimStates, _dimAE * sizeof(double));
	  _continuous_system->getContinuousStates(_yp);
	}
    // Get nominal values
	 _continuous_system->getNominalStates(_absTol);
    for (int i = 0; i < _dimStates; i++)
	    _absTol[i] = dynamic_cast<ISolverSettings*>(_idasettings)->getATol();

    _CV_y0 = N_VMake_Serial(_dimSys, _yInit);
    _CV_y = N_VMake_Serial(_dimSys, _y);
    _CV_yp = N_VMake_Serial(_dimSys, _yp);
    _CV_yWrite = N_VMake_Serial(_dimSys, _yWrite);
	_CV_ypWrite = N_VMake_Serial(_dimSys, _ypWrite);
    _CV_absTol = N_VMake_Serial(_dimSys, _absTol);

    if (check_flag((void*) _CV_y0, "N_VMake_Serial", 0))
    {
      _idid = -5;
      throw std::invalid_argument("Ida::initialize()");
    }

	//is already initialized: calcFunction(_tCurrent, NV_DATA_S(_CV_y0), NV_DATA_S(_CV_yp),NV_DATA_S(_CV_yp));

    // Initialize Ida (Initial values are required)
    _idid = IDAInit(_idaMem, rhsFunctionCB, _tCurrent, _CV_y0, _CV_yp);
    if (_idid < 0)
    {
      _idid = -5;
      throw std::invalid_argument("Ida::initialize()");
    }
	_idid = IDASetErrHandlerFn(_idaMem, errOutputIDA, _data);
	 if (_idid < 0)
      throw std::invalid_argument("IDA::initialize()");
    // Set Tolerances
    _idid = IDASVtolerances(_idaMem, dynamic_cast<ISolverSettings*>(_idasettings)->getRTol(), _CV_absTol);    // RTOL and ATOL
    if (_idid < 0)
      throw std::invalid_argument("IDA::initialize()");

    // Set the pointer to user-defined data
    _idid = IDASetUserData(_idaMem, _data);
    if (_idid < 0)
      throw std::invalid_argument("IDA::initialize()");

    _idid = IDASetInitStep(_idaMem, 1e-6);    // INITIAL STEPSIZE
    if (_idid < 0)
      throw std::invalid_argument("Ida::initialize()");


    _idid = IDASetMaxStep(_idaMem, global_settings->getEndTime() / 10.0);       // MAXIMUM STEPSIZE
    if (_idid < 0)
      throw std::invalid_argument("IDA::initialize()");

    _idid = IDASetMaxNonlinIters(_idaMem, 5);      // Max number of iterations
    if (_idid < 0)
      throw std::invalid_argument("IDA::initialize()");
    _idid = IDASetMaxErrTestFails(_idaMem, 100);
    if (_idid < 0)
      throw std::invalid_argument("IDA::initialize()");

    _idid = IDASetMaxNumSteps(_idaMem, 1e3);            // Max Number of steps
    if (_idid < 0)
      throw std::invalid_argument(/*_idid,_tCurrent,*/"IDA::initialize()");

    // Initialize linear solver
    _idid = IDADense(_idaMem, _dimSys);
    if (_idid < 0)
      throw std::invalid_argument("IDA::initialize()");
    if(_dimAE>0)
	{
	    _idid = IDASetSuppressAlg(_idaMem, TRUE);
        double* tmp = new double[_dimSys];
	    std::fill_n(tmp, _dimStates, 1.0);
	    std::fill_n(tmp+_dimStates, _dimAE, 0.0);
	   _idid = IDASetId(_idaMem, N_VMake_Serial(_dimSys,tmp));
	    delete [] tmp;
	    if (_idid < 0)
         throw std::invalid_argument("IDA::initialize()");
	}

  // Use own jacobian matrix
  //_idid = CVDlsSetDenseJacFn(_idaMem, &jacobianFunctionCB);
  //if (_idid < 0)
  //    throw std::invalid_argument("IDA::initialize()");

    if (_dimZeroFunc)
    {
      _idid = IDARootInit(_idaMem, _dimZeroFunc, &zeroFunctionCB);

      memset(_zeroSign, 0, _dimZeroFunc * sizeof(int));
      _idid = IDASetRootDirection(_idaMem, _zeroSign);
      if (_idid < 0)
        throw std::invalid_argument(/*_idid,_tCurrent,*/"IDA::initialize()");
      memset(_zeroSign, -1, _dimZeroFunc * sizeof(int));
      memset(_zeroVal, -1, _dimZeroFunc * sizeof(int));

    }


    _ida_initialized = true;

    //
    // IDA is ready for integration
    //
    // BOOST_LOG_SEV(ida_lg::get(), ida_info) << "IDA initialized";
  }
}
Exemplo n.º 6
0
CAMLprim value sundials_ml_ida_set_max_step(value ida_solver, value hmax) {
  CAMLparam2(ida_solver, hmax);
  const int ret = IDASetMaxStep(IDA_MEM(ida_solver), Double_val(hmax));
  CAMLreturn(Val_int(ret));
}
Exemplo n.º 7
0
void SundialsIda::setMaxStepSize(double dt)
{
    IDASetMaxStep(sundialsMem, dt);
}