void StochasticDurationCellCycleModel::SetG1Duration()
{
RandomNumberGenerator* p_gen = RandomNumberGenerator::Instance();
if (mpCell->GetCellProliferativeType()->IsType<StemCellProliferativeType>())
{
mG1Duration = GetStemCellG1Duration() + 2*p_gen->ranf(); // U[0,2]
}
else if (mpCell->GetCellProliferativeType()->IsType<TransitCellProliferativeType>())
{
mG1Duration = GetTransitCellG1Duration() + 2*p_gen->ranf(); // U[0,2]
}
else if (mpCell->GetCellProliferativeType()->IsType<DifferentiatedCellProliferativeType>())
{
mG1Duration = DBL_MAX;
}
else
{
NEVER_REACHED;
}
}
void StochasticDurationGenerationBasedCellCycleModel::SetG1Duration()
{
RandomNumberGenerator* p_gen = RandomNumberGenerator::Instance();
assert(mpCell != NULL);
if (mpCell->GetCellProliferativeType()->IsType<StemCellProliferativeType>())
{
mG1Duration = GetStemCellG1Duration() + 4*p_gen->ranf(); // U[14,18] for default parameters (mStemCellG1Duration) according to Meineke
}
else if (mpCell->GetCellProliferativeType()->IsType<TransitCellProliferativeType>())
{
mG1Duration = GetTransitCellG1Duration() + 2*p_gen->ranf(); // U[4,6] for default parameters (mTransitG1CellDuration) according to Meineke
}
else if (mpCell->GetCellProliferativeType()->IsType<DifferentiatedCellProliferativeType>())
{
mG1Duration = DBL_MAX;
}
else
{
NEVER_REACHED;
}
}
