erc20-demurrage-token/python/examples/sim.py

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2021-06-06 09:34:18 +02:00
# standard imports
import logging
# local imports
from erc20_demurrage_token import DemurrageTokenSettings
from erc20_demurrage_token.sim import DemurrageTokenSimulation
logging.basicConfig(level=logging.WARNING)
logg = logging.getLogger()
decay_per_minute = 0.000050105908373373 # equals approx 2% per month
# parameters for simulation object
settings = DemurrageTokenSettings()
settings.name = 'Simulated Demurrage Token'
settings.symbol = 'SIM'
settings.decimals = 6
settings.demurrage_level = int(decay_per_minute*(10**40))
settings.period_minutes = 10800 # 1 week in minutes
chain = 'evm:foochain:42'
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cap = (10 ** 6) * (10 ** 12)
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# instantiate simulation
sim = DemurrageTokenSimulation(chain, settings, redistribute=True, cap=cap, actors=10)
# name the usual suspects
alice = sim.actors[0]
bob = sim.actors[1]
carol = sim.actors[2]
# mint and transfer (every single action advances one block, and one second in time)
sim.mint(alice, sim.from_units(100)) # 10000000 tokens
sim.mint(bob, sim.from_units(100))
sim.transfer(alice, carol, sim.from_units(50))
# check that balances have been updated
assert sim.balance(alice) == sim.from_units(50)
assert sim.balance(bob) == sim.from_units(100)
assert sim.balance(carol) == sim.from_units(50)
# advance to next redistribution period
sim.next()
# inspect balances
print('alice balance: demurraged {:>9d} base {:>9d}'.format(sim.balance(alice), sim.balance(alice, base=True)))
print('bob balance: demurraged {:>9d} base {:>9d}'.format(sim.balance(bob), sim.balance(bob, base=True)))
print('carol balance: demurraged {:>9d} base {:>9d}'.format(sim.balance(carol), sim.balance(carol, base=True)))
print('sink balance: demurraged {:>9d} base {:>9d}'.format(sim.balance(sim.sink_address), sim.balance(sim.sink_address, base=True)))
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# get times
minutes = sim.get_minutes()
start = sim.get_now()
timestamp = sim.get_start()
period = sim.get_period()
print('start {} now {} period {} minutes passed {}'.format(start, timestamp, period, minutes))
contract_demurrage = 1 - sim.get_demurrage_modifier() # demurrage in percent (float)
frontend_demurrage = ((1 - decay_per_minute) ** minutes / 100) # corresponding demurrage modifier (float)
demurrage_delta = contract_demurrage - frontend_demurrage # difference between demurrage in contract and demurrage calculated in frontend
alice_checksum = 50000000 - (50000000 * frontend_demurrage) + (200000000 * frontend_demurrage) # alice's balance calculated with frontend demurrage
print("""alice frontend balance {}
alice contract balance {}
frontend demurrage {}
contract demurrage {}
demurrage delta {}""".format(
alice_checksum,
sim.balance(alice),
frontend_demurrage,
contract_demurrage,
demurrage_delta),
)
balance_sum = sim.balance(alice) + sim.balance(bob) + sim.balance(carol)
print('sum of contract demurraged balances {}'.format(balance_sum))