Use cached demurrage in account redistribution application
This commit is contained in:
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3ae75075e4
commit
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@ -47,6 +47,14 @@ class Test(unittest.TestCase):
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pass
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pass
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def test_construct(self):
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period = 10
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c = self.w3.eth.contract(abi=self.abi, bytecode=self.bytecode)
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tx_hash = c.constructor('Foo Token', 'FOO', 6, TAX_LEVEL * (10 ** 32), period, self.sink_address).transact({'from': self.w3.eth.accounts[0]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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print('construct: {}'.format(r['gasUsed']))
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def test_gas_changeperiod(self):
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def test_gas_changeperiod(self):
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period = 43200
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period = 43200
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for i in range(5):
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for i in range(5):
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@ -64,7 +72,155 @@ class Test(unittest.TestCase):
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tx_hash = contract.functions.changePeriod().transact()
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tx_hash = contract.functions.changePeriod().transact()
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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print('{} ({}): {}'.format(i, 60 * (10 ** i), r['gasUsed']))
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print('changePeriod {} ({}): {}'.format(i, 60 * (10 ** i), r['gasUsed']))
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def test_mint(self):
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period = 10
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c = self.w3.eth.contract(abi=self.abi, bytecode=self.bytecode)
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tx_hash = c.constructor('Foo Token', 'FOO', 6, TAX_LEVEL * (10 ** 32), period, self.sink_address).transact({'from': self.w3.eth.accounts[0]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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contract = self.w3.eth.contract(abi=self.abi, address=r.contractAddress)
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start_block = self.w3.eth.blockNumber
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b = self.w3.eth.getBlock(start_block)
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start_time = b['timestamp']
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tx_hash = contract.functions.mintTo(self.w3.eth.accounts[1], 1000000).transact({'from': self.w3.eth.accounts[0]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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print ('mintTo: {}'.format(r['gasUsed']))
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def test_transfer(self):
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period = 10
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c = self.w3.eth.contract(abi=self.abi, bytecode=self.bytecode)
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tx_hash = c.constructor('Foo Token', 'FOO', 6, TAX_LEVEL * (10 ** 32), period, self.sink_address).transact({'from': self.w3.eth.accounts[0]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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contract = self.w3.eth.contract(abi=self.abi, address=r.contractAddress)
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start_block = self.w3.eth.blockNumber
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b = self.w3.eth.getBlock(start_block)
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start_time = b['timestamp']
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contract.functions.mintTo(self.w3.eth.accounts[1], 1000000).transact({'from': self.w3.eth.accounts[0]})
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tx_hash = contract.functions.transfer(self.w3.eth.accounts[2], 1000000).transact({'from': self.w3.eth.accounts[1]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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print ('transfer: {}'.format(r['gasUsed']))
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def test_approve(self):
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period = 10
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c = self.w3.eth.contract(abi=self.abi, bytecode=self.bytecode)
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tx_hash = c.constructor('Foo Token', 'FOO', 6, TAX_LEVEL * (10 ** 32), period, self.sink_address).transact({'from': self.w3.eth.accounts[0]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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contract = self.w3.eth.contract(abi=self.abi, address=r.contractAddress)
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start_block = self.w3.eth.blockNumber
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b = self.w3.eth.getBlock(start_block)
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start_time = b['timestamp']
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contract.functions.mintTo(self.w3.eth.accounts[1], 1000000).transact({'from': self.w3.eth.accounts[0]})
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tx_hash = contract.functions.approve(self.w3.eth.accounts[2], 1000000).transact({'from': self.w3.eth.accounts[1]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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print ('approve: {}'.format(r['gasUsed']))
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def test_transferfrom(self):
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period = 10
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c = self.w3.eth.contract(abi=self.abi, bytecode=self.bytecode)
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tx_hash = c.constructor('Foo Token', 'FOO', 6, TAX_LEVEL * (10 ** 32), period, self.sink_address).transact({'from': self.w3.eth.accounts[0]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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contract = self.w3.eth.contract(abi=self.abi, address=r.contractAddress)
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start_block = self.w3.eth.blockNumber
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b = self.w3.eth.getBlock(start_block)
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start_time = b['timestamp']
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contract.functions.mintTo(self.w3.eth.accounts[1], 1000000).transact({'from': self.w3.eth.accounts[0]})
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contract.functions.approve(self.w3.eth.accounts[2], 1000000).transact({'from': self.w3.eth.accounts[1]})
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tx_hash = contract.functions.transferFrom(self.w3.eth.accounts[1], self.w3.eth.accounts[3], 1000000).transact({'from': self.w3.eth.accounts[2]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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print ('transferFrom: {}'.format(r['gasUsed']))
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def test_redistribute_default(self):
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period = 10
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c = self.w3.eth.contract(abi=self.abi, bytecode=self.bytecode)
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tx_hash = c.constructor('Foo Token', 'FOO', 6, TAX_LEVEL * (10 ** 32), period, self.sink_address).transact({'from': self.w3.eth.accounts[0]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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contract = self.w3.eth.contract(abi=self.abi, address=r.contractAddress)
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start_block = self.w3.eth.blockNumber
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b = self.w3.eth.getBlock(start_block)
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start_time = b['timestamp']
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for i in range(100):
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addr = web3.Web3.toChecksumAddress('0x' + os.urandom(20).hex())
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contract.functions.mintTo(addr, 1000000 * (i+1)).transact({'from': self.w3.eth.accounts[0]})
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self.eth_tester.time_travel(start_time + period * 60 + 1)
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redistribution = contract.functions.redistributions(0).call()
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tx_hash = contract.functions.changePeriod().transact({'from': self.w3.eth.accounts[2]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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print ('chainPeriod -> defaultRedistribution: {}'.format(r['gasUsed']))
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def test_redistribution_account(self):
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period = 10
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c = self.w3.eth.contract(abi=self.abi, bytecode=self.bytecode)
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tx_hash = c.constructor('Foo Token', 'FOO', 6, TAX_LEVEL * (10 ** 32), period, self.sink_address).transact({'from': self.w3.eth.accounts[0]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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contract = self.w3.eth.contract(abi=self.abi, address=r.contractAddress)
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start_block = self.w3.eth.blockNumber
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b = self.w3.eth.getBlock(start_block)
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start_time = b['timestamp']
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contract.functions.mintTo(self.w3.eth.accounts[1], 1000000).transact({'from': self.w3.eth.accounts[0]})
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contract.functions.transfer(self.w3.eth.accounts[2], 1000000).transact({'from': self.w3.eth.accounts[1]})
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for i in range(100):
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addr = web3.Web3.toChecksumAddress('0x' + os.urandom(20).hex())
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contract.functions.mintTo(addr, 1000000 * (i+1)).transact({'from': self.w3.eth.accounts[0]})
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self.eth_tester.time_travel(start_time + period * 60 + 1)
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redistribution = contract.functions.redistributions(0).call()
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tx_hash = contract.functions.applyRedistributionOnAccount(self.w3.eth.accounts[1]).transact({'from': self.w3.eth.accounts[2]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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self.assertEqual(r.logs[0].topics[0].hex(), '0x9a2a887706623ad3ff7fc85652deeceabe9fe1e00466c597972079ee91ea40d3')
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print ('redistribute account: {}'.format(r['gasUsed']))
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def test_redistribution_account_transfer(self):
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period = 10
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c = self.w3.eth.contract(abi=self.abi, bytecode=self.bytecode)
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tx_hash = c.constructor('Foo Token', 'FOO', 6, TAX_LEVEL * (10 ** 32), period, self.sink_address).transact({'from': self.w3.eth.accounts[0]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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contract = self.w3.eth.contract(abi=self.abi, address=r.contractAddress)
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start_block = self.w3.eth.blockNumber
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b = self.w3.eth.getBlock(start_block)
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start_time = b['timestamp']
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contract.functions.mintTo(self.w3.eth.accounts[1], 2000000).transact({'from': self.w3.eth.accounts[0]})
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contract.functions.transfer(self.w3.eth.accounts[2], 1000000).transact({'from': self.w3.eth.accounts[1]})
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for i in range(10):
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addr = web3.Web3.toChecksumAddress('0x' + os.urandom(20).hex())
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contract.functions.mintTo(addr, 1000000 * (i+1)).transact({'from': self.w3.eth.accounts[0]})
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self.eth_tester.time_travel(start_time + period * 60 + 1)
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redistribution = contract.functions.redistributions(0).call()
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contract.functions.changePeriod().transact({'from': self.w3.eth.accounts[0]})
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tx_hash = contract.functions.transfer(self.w3.eth.accounts[3], 100000).transact({'from': self.w3.eth.accounts[1]})
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r = self.w3.eth.getTransactionReceipt(tx_hash)
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self.assertEqual(r.logs[0].topics[0].hex(), '0x9a2a887706623ad3ff7fc85652deeceabe9fe1e00466c597972079ee91ea40d3')
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print ('redistribute account: {}'.format(r['gasUsed']))
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if __name__ == '__main__':
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if __name__ == '__main__':
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unittest.main()
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unittest.main()
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@ -30,6 +30,7 @@ contract RedistributedDemurrageToken {
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event Mint(address indexed _minter, address indexed _beneficiary, uint256 _value);
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event Mint(address indexed _minter, address indexed _beneficiary, uint256 _value);
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event Debug(bytes32 _foo);
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event Debug(bytes32 _foo);
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event Decayed(uint256 indexed _period, uint256 indexed _periodCount, uint256 indexed _oldAmount, uint256 _newAmount);
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event Decayed(uint256 indexed _period, uint256 indexed _periodCount, uint256 indexed _oldAmount, uint256 _newAmount);
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event Period(uint256 _period);
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event Redistribution(address indexed _account, uint256 indexed _period, uint256 _value);
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event Redistribution(address indexed _account, uint256 indexed _period, uint256 _value);
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constructor(string memory _name, string memory _symbol, uint8 _decimals, uint256 _taxLevelMinute, uint256 _periodMinutes, address _defaultSinkAddress) public {
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constructor(string memory _name, string memory _symbol, uint8 _decimals, uint256 _taxLevelMinute, uint256 _periodMinutes, address _defaultSinkAddress) public {
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@ -344,6 +345,7 @@ contract RedistributedDemurrageToken {
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uint256 nextRedistributionDemurrage;
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uint256 nextRedistributionDemurrage;
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uint256 demurrageCounts;
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uint256 demurrageCounts;
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uint256 periodTimestamp;
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uint256 periodTimestamp;
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uint256 nextPeriod;
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currentRedistribution = checkPeriod();
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currentRedistribution = checkPeriod();
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if (currentRedistribution == bytes32(0x00)) {
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if (currentRedistribution == bytes32(0x00)) {
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@ -351,6 +353,7 @@ contract RedistributedDemurrageToken {
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}
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}
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currentPeriod = toRedistributionPeriod(currentRedistribution);
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currentPeriod = toRedistributionPeriod(currentRedistribution);
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nextPeriod = currentPeriod + 1;
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periodTimestamp = getPeriodTimeDelta(currentPeriod);
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periodTimestamp = getPeriodTimeDelta(currentPeriod);
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applyDemurrage();
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applyDemurrage();
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@ -363,8 +366,7 @@ contract RedistributedDemurrageToken {
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nextRedistributionDemurrage = currentDemurrageAmount / ppmDivider;
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nextRedistributionDemurrage = currentDemurrageAmount / ppmDivider;
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}
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}
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nextRedistribution = toRedistribution(0, nextRedistributionDemurrage, totalSupply, currentPeriod + 1);
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nextRedistribution = toRedistribution(0, nextRedistributionDemurrage, totalSupply, nextPeriod);
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emit Debug(bytes32(currentDemurrageAmount));
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redistributions.push(nextRedistribution);
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redistributions.push(nextRedistribution);
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currentParticipants = toRedistributionParticipants(currentRedistribution);
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currentParticipants = toRedistributionParticipants(currentRedistribution);
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@ -374,6 +376,7 @@ contract RedistributedDemurrageToken {
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currentRemainder = remainder(currentParticipants, totalSupply); // we can use totalSupply directly because it will always be the same as the recorded supply on the current redistribution
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currentRemainder = remainder(currentParticipants, totalSupply); // we can use totalSupply directly because it will always be the same as the recorded supply on the current redistribution
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applyRemainderOnPeriod(currentRemainder, currentPeriod);
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applyRemainderOnPeriod(currentRemainder, currentPeriod);
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}
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}
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emit Period(nextPeriod);
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return true;
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return true;
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}
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}
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@ -416,6 +419,7 @@ contract RedistributedDemurrageToken {
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uint256 baseValue;
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uint256 baseValue;
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uint256 value;
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uint256 value;
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uint256 period;
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uint256 period;
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uint256 demurrage;
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period = accountPeriod(_account);
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period = accountPeriod(_account);
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if (period == 0 || period >= actualPeriod()) {
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if (period == 0 || period >= actualPeriod()) {
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@ -428,8 +432,9 @@ contract RedistributedDemurrageToken {
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}
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}
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supply = toRedistributionSupply(periodRedistribution);
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supply = toRedistributionSupply(periodRedistribution);
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demurrage = toRedistributionDemurrageModifier(periodRedistribution);
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baseValue = ((supply / participants) * (taxLevel / 1000000)) / ppmDivider;
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baseValue = ((supply / participants) * (taxLevel / 1000000)) / ppmDivider;
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value = decayBy(baseValue, period - 1);
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value = (baseValue * demurrage) / 1000000;
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account[_account] &= bytes32(0xffffffffffffffffffffffffffffffffffffff00000000ffffffffffffffffff);
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account[_account] &= bytes32(0xffffffffffffffffffffffffffffffffffffff00000000ffffffffffffffffff);
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increaseBaseBalance(_account, value);
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increaseBaseBalance(_account, value);
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@ -467,7 +472,7 @@ contract RedistributedDemurrageToken {
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// TODO: Prefer to truncate the result, instead it seems to round to nearest :/
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// TODO: Prefer to truncate the result, instead it seems to round to nearest :/
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baseValue = toBaseAmount(_value);
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baseValue = toBaseAmount(_value);
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result = transferBase(msg.sender, _to, baseValue);
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result = transferBase(msg.sender, _to, baseValue);
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emit Transfer(msg.sender, _to, _value);
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return result;
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return result;
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}
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}
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@ -484,6 +489,7 @@ contract RedistributedDemurrageToken {
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require(allowance[_from][msg.sender] >= baseValue);
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require(allowance[_from][msg.sender] >= baseValue);
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result = transferBase(_from, _to, baseValue);
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result = transferBase(_from, _to, baseValue);
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emit Transfer(_from, _to, _value);
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return result;
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return result;
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}
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}
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