public Dispensary(IExecutive executive, Mixture mixture)
{
m_executive = executive;
m_getProcessor = s_dummyIdec;
m_waiters = new List <IDetachableEventController>();
PeekMixture = mixture;
executive.ExecutiveStarted += delegate { m_waiters.Clear(); PeekMixture.Clear(); };
}
/// <summary>
/// Performs a reset operation on this instance.
/// </summary>
public void Reset()
{
m_mixture.Clear();
m_pressure = m_initialPressure;
m_mixtureVolume.Reset();
m_mixtureMass.Reset();
m_mixtureMass.Register(m_mixture.Mass);
m_mixtureVolume.Register(m_mixture.Volume);
}
public void Reset(double mH2O, double mNANO2)
{
m_mixture.Clear();
m_mixture.AddMaterial(m_brs.MyMaterialCatalog["Water"].CreateMass(mH2O, 20)); // Add 250 kg.
m_mixture.AddMaterial(m_brs.MyMaterialCatalog["Sodium Nitrite"].CreateMass(mNANO2, 20)); // Add 100 kg NaNO2.
}
/// <summary>
/// Performs the inflow/outflow cycle analysis. After this runs, consult the Mass, Volume and Temperature history members.
/// </summary>
public void Process()
{
m_massHistory.Reset();
m_volumeHistory.Reset();
Mixture contents = (Mixture)m_initial.Clone();
if (m_reactionProcessor != null)
{
m_reactionProcessor.Watch(contents);
}
Mixture inflow = m_inflow == null?new Mixture():(Mixture)m_inflow.Clone();
Mixture outflow = m_outflow == null ? new Mixture() : (Mixture)m_outflow.Clone();
double tiv = inflow.Volume;
double tim = inflow.Mass;
double tov = outflow.Volume;
double tom = outflow.Mass;
bool useMinidumps = true;
//bool useMinidumps = false;
//if ( ( tiv + contents.Volume - tov > m_capacity ) ) useMinidumps = true;
RecordMvt(contents);
if (m_cyclical)
{
if (m_inflowFirst)
{
if (s_diagnostics)
{
Console.WriteLine("Initial - total volume = " + contents.Volume + ", mixture is " + contents);
}
while (inflow.Mass > 0.0 || outflow.Mass > 0.0)
{
// Perform charge
if (inflow.Mass > 0.0)
{
double chgMass = Math.Min((m_capacity - contents.Volume) * (tim / tiv), inflow.Mass);
double pctOfInFlow = chgMass / inflow.Mass;
contents.AddMaterial(inflow.RemoveMaterial(chgMass));
if (s_diagnostics)
{
Console.WriteLine("After charge - total volume = " + contents.Volume + ", mixture is " + contents);
}
RecordMvt(contents);
}
// Perform discharge
if (outflow.Mass > 0.0)
{
double dischgMass = Math.Min((m_capacity - contents.Volume) * (tom / tov), outflow.Mass);
Mixture extract = (Mixture)outflow.RemoveMaterial(dischgMass);
foreach (Substance substance in extract.Constituents)
{
contents.RemoveMaterial(substance.MaterialType, extract.Mass);
}
if (s_diagnostics)
{
Console.WriteLine("After discharge - total volume = " + contents.Volume + ", mixture is " + contents);
}
RecordMvt(contents);
}
if (useMinidumps)
{
contents.Clear();
}
}
}
else
{
throw new NotImplementedException("Only able to model inflow-first, cyclical behavior.");
}
}
else
{
throw new NotImplementedException("Only able to model inflow-first, cyclical behavior.");
}
if (m_reactionProcessor != null)
{
m_reactionProcessor.Ignore(contents);
}
}
