/heavylight

A lightweight actuarial modelling framework for Python

Primary LanguagePythonMIT LicenseMIT

codecov

heavylight

A lightweight actuarial modelling framework for Python

  • single script
  • installation optional: package with your models.
  • only depends on pandas and numpy

Components

Model:

  • projection controller
  • class to subclass with your proprietary models
  • BeforeRun and AfterRun methods
  • get all values as a list with values attribute
  • get the sum of all values with sum() method

Table:

  • simple long format table object
  • type information encoded via |int, |int_bound, |band, |str header suffixes

Usage

Model Class

Create your model as a subclass of heavylight.Model. Each model variable is defined as a method:

import heavylight

class Annuity(heavylight.Model):
    def t(self, t):
        return t

    def expected_claim(self, t):
        return self.number_alive(t) * self.data["annuity_per_period"]

    def number_alive(self, t):
        if t == 0:
            return self.data["initial_policies"]
        else:
            return self.number_alive(t - 1) - self.deaths(t - 1)
    
    def deaths(self, t):
        return self.number_alive(t) * self.mortality_rate(t)

    def mortality_rate(self, t):
        return 0.02

    def v(self, t):
        """discount factor from time t to time 0"""
        if t == 0:
            return 1
        else:
            return self.v(t - 1) / (1 + self.forward_rate(t))
    
    def forward_rate(self, t):
        return 0.04

    def pv_expected_claim(self, t):
        return self.expected_claim(t) * self.v(t)

Define input data as a dictionary

policy_data = {
    "initial_policies": 10,
    "annuity_per_period": 55,
}

Call the model, passing in the data dictionary, with a projection length of 20.

model = Annuity(data = policy_data,
                do_run = True,
                proj_len = 20,
                )

Get the sum of pv_expected_claim:

print(model.pv_expected_claim.sum())

Display result as a pandas table

model_cashflows = model.ToDataFrame()

Notes

  • This package is designed for projecting actuarial variables, and calculates t=0, 1... in order.

  • Actuarial models are generally highly recursive.

  • If you create a method which refers to future t value (such as an NPV function) you may hit the python stack limit.

  • The recommended solution is to project forward first, and then calculate T0 metrics based on the result, for example using an `npv()`` function