Test precision loss of 2 bytes in demurrage store in redistribution data
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@ -17,9 +17,10 @@ settings.symbol = 'SIM'
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settings.decimals = 6
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settings.demurrage_level = int(decay_per_minute*(10**38))
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#settings.period_minutes = 1 # 1 week in minutes
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settings.period_minutes = 10
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settings.period_minutes = 60*24*7
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chain = 'evm:foochain:42'
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cap = (10 ** 6) * (10 ** 12)
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#cap = 0
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# instantiate simulation
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sim = DemurrageTokenSimulation(chain, settings, redistribute=False, cap=cap, actors=10)
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@ -7,10 +7,16 @@ export PYTHONPATH=.
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#modes=(MultiNocap MultiCap SingleCap SingleNocap)
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modes=(SingleCap SingleNocap) # other contracts need to be updted
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for m in ${modes[@]}; do
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ERC20_DEMURRAGE_TOKEN_TEST_MODE=$m python tests/test_period.py
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ERC20_DEMURRAGE_TOKEN_TEST_MODE=$m python tests/test_basic.py
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ERC20_DEMURRAGE_TOKEN_TEST_MODE=$m python tests/test_growth.py
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ERC20_DEMURRAGE_TOKEN_TEST_MODE=$m python tests/test_amounts.py
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ERC20_DEMURRAGE_TOKEN_TEST_MODE=$m python tests/test_single.py
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done
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modes=(SingleCap) # other contracts need to be updted
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for m in ${modes[@]}; do
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ERC20_DEMURRAGE_TOKEN_TEST_MODE=$m python tests/test_period.py
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ERC20_DEMURRAGE_TOKEN_TEST_MODE=$m python tests/test_redistribution_unit.py
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done
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modes=(MultiCap SingleCap)
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@ -18,12 +24,6 @@ for m in ${modes[@]}; do
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ERC20_DEMURRAGE_TOKEN_TEST_MODE=$m python tests/test_cap.py
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done
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modes=(SingleCap SingleNocap)
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for m in ${modes[@]}; do
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ERC20_DEMURRAGE_TOKEN_TEST_MODE=$m python tests/test_single.py
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ERC20_DEMURRAGE_TOKEN_TEST_MODE=$m python tests/test_redistribution_unit.py
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done
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#modes=(MultiCap MultiNocap)
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#for m in ${modes[@]}; do
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# ERC20_DEMURRAGE_TOKEN_TEST_MODE=$m python tests/test_remainder.py
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@ -70,10 +70,10 @@ class TestPeriod(TestDemurrageDefault):
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# allow test code float rounding error to billionth
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modifier = (1 - (self.tax_level / 1000000)) ** (self.period_seconds / 60)
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modifier *= 10 ** 9
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modifier = int(modifier) * (10 ** (38 - 9))
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modifier = int(modifier) * (10 ** (28 - 9))
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period /= (10 ** (38 - 9))
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period = int(period) * (10 ** (38 - 9))
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period /= (10 ** (28 - 9))
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period = int(period) * (10 ** (28 - 9))
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self.assertEqual(modifier, period)
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self.backend.time_travel(self.start_time + self.period_seconds * 2)
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@ -96,10 +96,10 @@ class TestPeriod(TestDemurrageDefault):
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# allow test code float rounding error to billionth
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modifier = (1 - (self.tax_level / 1000000)) ** ((self.period_seconds * 2) / 60)
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modifier *= 10 ** 9
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modifier = int(modifier) * (10 ** (38 - 9))
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modifier = int(modifier) * (10 ** (28 - 9))
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period /= (10 ** (38 - 9))
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period = int(period) * (10 ** (38 - 9))
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period /= (10 ** (28 - 9))
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period = int(period) * (10 ** (28 - 9))
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self.assertEqual(modifier, period)
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@ -36,21 +36,23 @@ class TestRedistribution(TestDemurrageUnit):
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nonce_oracle = RPCNonceOracle(self.accounts[0], self.rpc)
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c = DemurrageToken(self.chain_spec, signer=self.signer, nonce_oracle=nonce_oracle)
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demurrage = (1 - (self.tax_level / 1000000)) * (10**38)
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#demurrage = (1 - (self.tax_level / 1000000)) * (10**38)
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demurrage = (1 - (self.tax_level / 1000000)) * (10**28)
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supply = self.default_supply
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o = c.get_distribution(self.address, supply, demurrage, sender_address=self.accounts[0])
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r = self.rpc.do(o)
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distribution = c.parse_get_distribution(r)
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expected_distribution = self.default_supply * (self.tax_level / 1000000)
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self.assertEqual(distribution, expected_distribution)
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self.assert_within_lower(distribution, expected_distribution, 1000)
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def test_distribution_from_redistribution(self):
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nonce_oracle = RPCNonceOracle(self.accounts[0], self.rpc)
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c = DemurrageToken(self.chain_spec, signer=self.signer, nonce_oracle=nonce_oracle)
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demurrage = (1 - (self.tax_level / 1000000)) * (10**38)
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#demurrage = (1 - (self.tax_level / 1000000)) * (10**38)
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demurrage = (1 - (self.tax_level / 1000000)) * (10**28)
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supply = self.default_supply
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o = c.to_redistribution(self.address, 0, demurrage, supply, 1, sender_address=self.accounts[0])
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@ -60,8 +62,7 @@ class TestRedistribution(TestDemurrageUnit):
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r = self.rpc.do(o)
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distribution = c.parse_get_distribution(r)
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expected_distribution = self.default_supply * (self.tax_level / 1000000)
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self.assertEqual(distribution, expected_distribution)
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self.assert_within_lower(distribution, expected_distribution, 1000)
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def test_single_step(self):
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@ -12,7 +12,7 @@ contract DemurrageTokenSingleCap {
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uint8 constant shiftRedistributionValue = 32;
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uint256 constant maskRedistributionValue = 0x00000000000000000000000000000000000000ffffffffffffffffff00000000; // ((1 << 72) - 1) << 32
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uint8 constant shiftRedistributionDemurrage = 104;
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uint256 constant maskRedistributionDemurrage = 0x000000ffffffffffffffffffffffffffffffff00000000000000000000000000; // ((1 << 20) - 1) << 140
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uint256 constant maskRedistributionDemurrage = 0x0000000000ffffffffffffffffffffffffffff00000000000000000000000000; // ((1 << 20) - 1) << 140
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// Account balances
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mapping (address => uint256) account;
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@ -115,7 +115,8 @@ contract DemurrageTokenSingleCap {
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periodStart = demurrageTimestamp;
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periodDuration = _periodMinutes * 60;
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//demurrageAmount = 100000000000000000000000000000000000000 - _taxLevelMinute; // Represents 38 decimal places, same as resolutionFactor
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demurrageAmount = 100000000000000000000000000000000000000;
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//demurrageAmount = 100000000000000000000000000000000000000;
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demurrageAmount = 10000000000000000000000000000;
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//demurragePeriod = 1;
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taxLevel = _taxLevelMinute; // Represents 38 decimal places
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bytes32 initialRedistribution = toRedistribution(0, demurrageAmount, 0, 1);
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@ -152,7 +153,7 @@ contract DemurrageTokenSingleCap {
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//periodCount = actualPeriod() - demurragePeriod;
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periodCount = getMinutesDelta(demurrageTimestamp);
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currentDemurragedAmount = uint128(decayBy(demurrageAmount, periodCount));
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currentDemurragedAmount = uint128(decayBy(demurrageAmount * 10000000000, periodCount));
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return (baseBalance * currentDemurragedAmount) / (nanoDivider * 1000000000000);
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}
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@ -281,7 +282,7 @@ contract DemurrageTokenSingleCap {
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function getDistribution(uint256 _supply, uint256 _demurrageAmount) public view returns (uint256) {
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uint256 difference;
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difference = _supply * (resolutionFactor - _demurrageAmount); //(nanoDivider - ((resolutionFactor - _demurrageAmount) / nanoDivider));
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difference = _supply * (resolutionFactor - (_demurrageAmount * 10000000000)); //(nanoDivider - ((resolutionFactor - _demurrageAmount) / nanoDivider));
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return difference / resolutionFactor;
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}
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@ -407,7 +408,7 @@ contract DemurrageTokenSingleCap {
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// Inflates the given amount according to the current demurrage modifier
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function toBaseAmount(uint256 _value) public view returns (uint256) {
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return (_value * resolutionFactor) / demurrageAmount;
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return (_value * resolutionFactor) / (demurrageAmount * 10000000000);
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}
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// Implements ERC20, triggers tax and/or redistribution
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@ -12,11 +12,7 @@ contract DemurrageTokenSingleCap {
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uint8 constant shiftRedistributionValue = 32;
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uint256 constant maskRedistributionValue = 0x00000000000000000000000000000000000000ffffffffffffffffff00000000; // ((1 << 72) - 1) << 32
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uint8 constant shiftRedistributionDemurrage = 104;
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uint256 constant maskRedistributionDemurrage = 0x000000ffffffffffffffffffffffffffffffff00000000000000000000000000; // ((1 << 20) - 1) << 140
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uint8 constant shiftRedistributionIsUsed = 255;
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uint256 constant maskRedistributionIsUsed = 0x4000000000000000000000000000000000000000000000000000000000000000; // 1 << 255
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uint256 constant maskRedistributionDemurrage = 0x0000000000ffffffffffffffffffffffffffff00000000000000000000000000; // ((1 << 20) - 1) << 140
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// Account balances
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mapping (address => uint256) account;
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@ -116,7 +112,8 @@ contract DemurrageTokenSingleCap {
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periodStart = demurrageTimestamp;
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periodDuration = _periodMinutes * 60;
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//demurrageAmount = 100000000000000000000000000000000000000 - _taxLevelMinute; // Represents 38 decimal places, same as resolutionFactor
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demurrageAmount = 100000000000000000000000000000000000000;
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//demurrageAmount = 100000000000000000000000000000000000000;
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demurrageAmount = 10000000000000000000000000000;
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//demurragePeriod = 1;
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taxLevel = _taxLevelMinute; // Represents 38 decimal places
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bytes32 initialRedistribution = toRedistribution(0, demurrageAmount, 0, 1);
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@ -152,7 +149,8 @@ contract DemurrageTokenSingleCap {
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//periodCount = actualPeriod() - demurragePeriod;
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periodCount = getMinutesDelta(demurrageTimestamp);
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currentDemurragedAmount = uint128(decayBy(demurrageAmount, periodCount));
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//currentDemurragedAmount = uint128(decayBy(demurrageAmount, periodCount));
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currentDemurragedAmount = uint128(decayBy(demurrageAmount * 10000000000, periodCount));
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return (baseBalance * currentDemurragedAmount) / (nanoDivider * 1000000000000);
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}
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@ -406,7 +404,8 @@ contract DemurrageTokenSingleCap {
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// Inflates the given amount according to the current demurrage modifier
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function toBaseAmount(uint256 _value) public view returns (uint256) {
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return (_value * resolutionFactor) / demurrageAmount;
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//return (_value * resolutionFactor) / demurrageAmount;
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return (_value * resolutionFactor) / (demurrageAmount * 10000000000);
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}
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// Implements ERC20, triggers tax and/or redistribution
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