Source code for ifrs17sim.model.OuterProj.InnerProj.PV

"""Present values of cashflows

This Space is a child Space of :mod:`~ifrs17sim.model.OuterProj.InnerProj`,
and calculates present values of cashflows.

This Space is parameterized with ``t_rate``, which indicates that
the discount rates at time ``t_rate`` are used for discounting.

.. blockdiag::

   blockdiag {
     default_node_color="#D5E8D4";
     default_linecolor="#628E47";
     ifrs17sim [shape=roundedbox, linecolor="#7B99C5", color="#D4E8FC", width=96]
     ifrs17sim <- "OuterProj\\n[PolicyID, ScenID=1]" <- "InnerProj[t0]" [hstyle=composition];
     "OuterProj\\n[PolicyID, ScenID=1]" [stacked];
     "InnerProj[t0]" [stacked];
     "PV[t_rate]" [stacked];
     "InnerProj[t0]" <- "PV[t_rate]" [hstyle=composition]
   }

"""

from modelx.serialize.jsonvalues import *

def _formula(t_rate):
    refs = {'last_t': _space.parent.last_t,
            'InsurIF_Beg1': _space.parent.InsurIF_Beg1,
            'InsurIF_End': _space.parent.InsurIF_End,
            'PremIncome': _space.parent.PremIncome,
            'BenefitSurr': _space.parent.BenefitSurr,
            'BenefitDeath': _space.parent.BenefitDeath,
            'BenefitTotal': _space.parent.BenefitTotal,
            'ExpsCommTotal': _space.parent.ExpsCommTotal,
            'ExpsAcq': _space.parent.ExpsAcq,
            'ExpsMaint': _space.parent.ExpsMaint,
            'ExpsTotal': _space.parent.ExpsTotal,
            'DiscRate': _space.parent.parent[t_rate].DiscRate}

    return {'refs': refs}


_bases = []

_allow_none = None

_spaces = []

# ---------------------------------------------------------------------------
# Cells

[docs]def InterestNetCF(t): """Interest accreted on pv of net cashflows""" if t > last_t(): return 0 else: return (PV_NetCashflow(t) - PremIncome(t) + ExpsTotal(t)) * DiscRate(t)
[docs]def PV_BenefitDeath(t): """Present value of death benefits""" if t > last_t(): return 0 else: return (-BenefitDeath(t) + PV_BenefitDeath(t+1)) / (1 + DiscRate(t))
[docs]def PV_BenefitMat(t): """Present value of matuirty benefits""" if t > last_t(): return 0 else: return (-BenefitMat(t) + PV_BenefitMat(t+1)) / (1 + DiscRate(t))
[docs]def PV_BenefitSurr(t): """Present value of surrender benefits""" if t > last_t(): return 0 else: return (-BenefitSurr(t) + PV_BenefitSurr(t+1)) / (1 + DiscRate(t))
[docs]def PV_BenefitTotal(t): """Present value of total benefits""" if t > last_t(): return 0 else: return (-BenefitTotal(t) + PV_BenefitTotal(t+1)) / (1 + DiscRate(t))
def PV_Check(t): return PV_NetCashflow(t) - PV_NetCashflowForCheck(t)
[docs]def PV_ExpsAcq(t): """Present value of acquisition expenses""" if t > last_t(): return 0 else: return - ExpsAcq(t) + PV_ExpsAcq(t+1) / (1 + DiscRate(t))
[docs]def PV_ExpsCommTotal(t): """Present value of commission expenses""" if t > last_t(): return 0 else: return - ExpsCommTotal(t) + PV_ExpsCommTotal(t+1) / (1 + DiscRate(t))
[docs]def PV_ExpsMaint(t): """Present value of maintenance expenses""" if t > last_t(): return 0 else: return - ExpsMaint(t) + PV_ExpsMaint(t+1) / (1 + DiscRate(t))
[docs]def PV_ExpsTotal(t): """Present value of total expenses""" if t > last_t(): return 0 else: return - ExpsTotal(t) + PV_ExpsTotal(t+1) / (1 + DiscRate(t))
[docs]def PV_NetCashflow(t): """Present value of net cashflow""" return (PV_PremIncome(t) + PV_ExpsTotal(t) + PV_BenefitTotal(t))
[docs]def PV_NetCashflowForCheck(t): """Present value of net cashflow""" if t > last_t(): return 0 else: return (PremIncome(t) - ExpsTotal(t) - BenefitTotal(t) / (1 + DiscRate(t)) + PV_NetCashflow(t+1) / (1 + DiscRate(t)))
[docs]def PV_PremIncome(t): """Present value of premium income""" if t > last_t(): return 0 else: return PremIncome(t) + PV_PremIncome(t+1) / (1 + DiscRate(t))
[docs]def PV_SumInsurIF(t): """Present value of insurance in-force""" if t > last_t(): return 0 else: return InsurIF_Beg1(t) + PV_SumInsurIF(t+1) / (1 + DiscRate(t))
# --------------------------------------------------------------------------- # References scen = ("Interface", ("....", "Economic"), "auto")